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ARMY
MARINE
TM
CORPS
5-6675-308-34
TM
08837A-34/2
TECHNICAL MANUAL
DIRECT
SUPPORT
AND
GENERAL
MAINTENANCE
SUPPORT
MANUAL
FOR
POSITION
DETERMINING
This
manual
supersedes
AZIMUTH
SYSTEM
PART
NSN
AND
NO.
AN/USQ-70
880500-1
6675-01-071-5552
TM
5-6675-308-34,
15
December
1981.
HEADQUARTERS, DEPARTMENTS OF THE ARMY ANO THE NAVY
24
JULY
1985
TM 5-6675-308-34
TM 08837A-34/2
C7
HEADQUARTERS
DEPARTMENT OF THE ARMY
AND HEADQUARTERS U.S. MARINE CORPS
WASHINGTON, D.C., 30 December 1993
CHANGE
No. 7
Direct Support and General Support
Maintenance Manual
for
POSITION AND AZIMUTH DETERMINING
SYSTEM AN/USQ-70
PART NO. 880500-1
NSN 6675-01-071-5552
EIC : YOA
DISTRIBUTION STATEMENT A:
Approved for public release; distribution is unlimited.
TM 5-6675-308-34/TM 08837A-34/2, 24 July 1985, is changed as follows:
1.
2.
Remove and insert pages as indicated below. New or changed text material is
indicated by a vertical bar in the margin. An illustration change is indicated
by a miniature pointing hand.
Remove pages
Insert pages
i and ii
3-31 and 3-32
3-39 through 3-42
4-90.1 through 4-90.6
4-91 and 4-92
4-135 and 4-136
4-159 and 4-160
i and ii
3-31 and 3-32
3-39 through 3-42
4-90.1 through 4-90.6
4-91 and 4-92
4-135 and 4-136
4-159 and 4-160
Retain this sheet in front of manual for reference purposes.
TM 5-6675-308-34
TM 08837A-34/2
By Order of the Secretaries of the Army and Navy (Including the Marine Corps):
GORDON R. SULLIVAN
General, United States Army
Chief of Staff
Official:
MILTON H. HAMILTON
Administrative Assistant to the
Secretary of the Army
0.5994
DAVID E. BOTTORFF
Rear Admiral, CEC, US Navy
Commander
Navy Facilities Engineering
Command
D. L. BLOOMER
Colonel, USMC
Director, Program Support
Marine Corps Systems Command
DISTRIBUTION:
To be distributed in accordance with DA Form 12-25-E, block no. 1281, requirements for
TM 5-8875-308-34.
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
TABLE OF CONTENTS (Continued)
4.
CHAPTER
Section
5.
CHAPTER
APPENDIX A
Page
4-1
4-7
4-8
4-15
4- 1
4-39
4-45
4-131
GENERAL SUPPORT MAINTENANCE INSTRUCTIONS
General
Tools and equipment
Testing and troubleshooting
Maintenance of PADS
I.
II.
III.
IV.
Paragraph
MATERIEL USED IN CONJUNCTION WITH MAJOR ITEM
5-1
REFERENCES
A-1
GLOSSARY
Section
I.
II.
III.
INDEX
ii
Definitions of special terms
Nonstandard abbreviations
Symbols
GLOSSARY 1
GLOSSARY 2
GLOSSARY 3
INDEX 1
ARMY TM 5-6675-308-34
MARINE CORPS TM 088374-34/2
Figure 2-1.
2-2
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
DEATH OR SERIOUS INJURY, as well
as damage to the tapes may result if the
tapes are allowed to come into contact
with 115 VAC.
The power supply contains 115 volts ac.
DEATH OR SERIOUS INJURY may result from contact with 115 volts ac. Be
careful when performing the power supply testing and troubleshooting procedure.
I
WARNING
I
The computer power supply contains 115
volts ac. DEATH OR SERIOUS INJURY
may result from contact with 115 volts
ac. Be careful when performing the computer power supply testing and troubleshooting procedure.
The tapes used in testing and operating
the PADS are electrically conductive.
Do not be mislead by the terms “low
voltage” or “28 VDC.” DEATH OR SERIOUS INJURY can result under certain
conditions if the 28 VDC amperage is
high enough. Use EXTREME CAUTION
when working around ANY hot circuits.
Isopropyl alcohol is flammable and gives
off harmful vapors, Use only in well-ventilated area away from open flames and
sparks. Avoid prolonged or repeated inhalation of vapors.
a/(b Blank)
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
TECHNICAL MANUAL
No. 5-6675-308-34 (ARMY)
No. 08837A-34/2 (MARINE CORPS)
DEPARTMENT OF THE ARMY AND
HEADQUARTERS U.S. MARINE CORPS
WASHINGTON, D. C., 24 July 1985
Direct Support and General Support
Maintenance Manual
POSITION AND AZIMUTH DETERMINING SYSTEM AN/USQ-70
PART NO. 880500-1
NSN 6675-01-071-5552 (EIC:YOA)
REPORTING ERRORS AND RECOMMENDING IMPROVEMENTS
You can help improve this manual. If you find any mistakes or if you know of a way to
improve the procedures, please let us know. Mail your letter, DA Form 2028
(Recommended Changes to Publications and Blank Forms), or DA Form 2028-2 located
in back of this manual direct to: Commander, US Army Aviation and Troop Command,
ATTN: AMSAT–I–MP, 4300 Goodfellow Blvd., St. Louis, MO 63120-1798. A reply will be
furnished to you.
I
Marine Corps’ users shall submit NAVMC Forms 10772 (Recommended Changes to Technical Publics
tions). Send to: Commanding General, Marine Corps Logistics Base (Code 850), Albany GA 31704–5000.
TABLE OF CONTENTS
Paragraph
CHAPTER 1.
INTRODUCTION
Section
General
Description and data
I.
II.
CHAPTER 2.
FUNCTIOIUING OF EQUIPMENT
CHAPTER 3.
DIRECT. SUPPORT MAINTENANCE INSTRUCTIONS
Section
General
Tools and equipment
I.
II.
III.
IV.
v.
Troubleshooting
Maintenance of PADS
Direct support testing procedures
1-1
1-7
Page
1-1
1-1
2-1
3-1
3-8
3-9
3-10
3-30
3-1
3-6
3-11
3-20
3-66
DISTRIBUTION STATEMENT A: Approved for public release; distribution is unlimited
Change 5
i
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
TABLE OF CONTENTS (Continued)
4.
CHAPTER
Section
5.
CHAPTER
APPENDIX A
Page
4-1
4-7
4-8
4-15
4- 1
4-39
445
4-131
GENERAL SUPPORT MAINTENANCE INSTRUCTIONS
General
Tools and equipment
Testing and troubleshooting
Maintenance of PADS
I.
II.
III.
IV.
Paragraph
MATERIEL USED IN CONJUNCTION WITH MAJOR ITEM
5-1
REFERENCES
A-1
GLOSSARY
Section
I.
II.
III.
INDEX
ii
Definitions of special terms
Nonstandard abbreviations
Symbols
GLOSSARY 1
GLOSSARY 2
GLOSSARY 3
INDEX 1
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
LIST OF ILLUSTRATIONS
Number
1-1.
2-1.
2-2.
3-1.
3-1.1.
3-2.
3-3.
3-4.
3-5.
3-6.
3-7.
3-8.
3-9.
3-10.
3-11.
3-12.
3-13.
3-14.
3-15.
3-16.
3-17.
3-18.
3-19.
3-20.
3-21.
3-22.
4-1.
4-2.
4-3.
4-4.
4-5.
4-6.
4-7.
4-8.
4-9.
4-10.
4-11.
4-12.
4-13.
4-14.
4-15.
4-16.
4-17.
4-18.
4-19.
4-20.
4-21.
4-22.
4-23.
4-24.
Title
Auxiliary Equipment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
CDU Functional Block Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Computer Power Supply Functional Block Diagram . . . . . . . . . . . . . . . . . . . . . . . .
Electrical Connections for Test.... . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Nonstandard Vehicle Example . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Cable Testing/Connector Adjustment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Torque Wrench Set . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Torquing Sequence Patterns.. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IMUInstalled in Transit Case. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Primary Pallet Exploded View. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Computer Exploded View.... . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Typical Circuit Card Assembly Removal . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
CDU Exploded View . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IMU Exploded View . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Threaded Insert Removal and Replacement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Electrical Equipment Mounting Base Exploded View. . . . . . . . . . . . . . . . . . . . . .
Plumb Bob Assembly Exploded View . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
PADS Transit Case Exploded View . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IMUTransit Case Exploded View . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Utility Truck Winterization Kit Installation Diagram . . . . . . . . . . . . . . . . . . . . . . .
Modification of OH-58C Helicopter Pallet . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Installation of Cable Holes in CUCV Firewall . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Installation of Cable Holes in HMMV Transmission Tunnel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Modification of Subfloor Plate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Locating Battery Vent Tube Hole . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
SUSV Wiring Harness Modification . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .... . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Computer Test Point Identification. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
CDU Test Point Identification. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Computer Testing and Troubleshooting Interconnection Diagram . . . . . . . . . . . . .
CDU Chassis Schematic Diagram. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
CDU Testing and Troubleshooting Interconnection Diagram . . . . . . . . . . . . . . . . .
Keyboard Interconnection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Alignment Surface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IMU Testing Interconnection Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Angle Measurement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power Supply Testing Interconnection Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power Supply Circuit Card Adjustment Locations . . . . . . . . . . . . . . . . . . . . . . . . .
Computer Power Supply Testing and Troubleshooting
Interconnection Diagram. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Computer Power Supply Circuit Card Adjustment Locations . . . . . . . . . . . . . . . . .
Computer Exploded View . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Computer Power Supply Exploded View. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
ComputerPower Supply WiringHarness A3 Parts Location Diagram . . . . . . . . . . .
CDU Exploded View.......... . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IMU Exploded View . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power Supply Exploded View... . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power Supply Subassembly Exploded View . . . . . . . . . . . . . . . . . . . . . . . . . . .
Output Filter Circuit Card Assembly A9 Parts Location Diagram. . . . . . . . . . . . . .
Backshell Strap Wrench. ...... . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Straight Backshell Disassembly/Assembly . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Right Angle Backshell Disassembly/Assembly. . . . . . . . . . . . . . . . . . . . . .
Page
1-2
2-2
2-8
3-2
3-6
3-7
3-21
3-22
3-24
3-26
3-29
3-30
3-34
3-36
3-38
3-39
3-43
3-45
3-46
3-47
3--61
3-62
3-63
3-64
3-65
3-65
4-18
4-29
4-46
4-68
4-69
4-70
4-79
4-80
4-81
4-108
4-119
4-124
4-125
4-132
4-135
4-138
4-141
4-146
4-148
4-152
4-168.1
4-169
4-170
4-170
iii
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
LIST OF ILLUSTRATIONS (Continued)
Title
Number
4-25.
4-26.
4-27.
4-28.
4-29.
4-30.
4-31.
4-32.
4-33.
5-1.
5-2.
5-3.
5-4.
5-5.
5-6.
FO-1.
FO-2.
FO-3.
FO-4.
FO-5.
FO-6.
iv
Contact Pins and Insertion and Removal Tools . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Contact Pin Removal . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Contact Pin Insertion Tool Loading. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Crimping Tool MS3198-1 with Positioner MS3198-6P . . . . . . . . . . . . . . . . . . . . .
Crimping Tool MS3191-4 with Positioner MS3191-9T . . . . . . . . . . . . . . . . . . . . . .
Contact Pin Crimping Tool Operation. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Crimping Tool MY28-4 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...
Terminal Lug and Wire Preparation. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Cable and Terminal Assembly Camping . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Nomenclature of Theodolite T-2..... . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Tripod and Target Set . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Horizontal Circle Readings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Leveling the Porro Prism . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...
Theodolite Reflected Image... . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Measuring Horizontal Angles. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
PADS Functional Block Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Computer Functional Block Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power Supply Functional Block Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Cable Assemblies Wiring Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Computer Power Supply Schematic Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power Supply Schematic Diagram. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Change 5
Page
4-173
4-173
4-175
4-176
4-177
4-178
4-178
4-179
4-179
5-2
5-5
5-8
5-9
5-9
5-10
FP-1/FP-2
FP-3/FP-4
FP-5/FP-6
FP-7/FP-8
FP-11/FP-12
FP-13/FP-14
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
LIST OF TABLES
Table
Title
Page
1-1.
3-1.
3-2.
3-3.
3-4.
3-5.
3-6.
4-1.
4-2.
4-3.
4-4.
4-5.
4-6.
4-6.1.
Auxiliary Equipment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Direct Support Test Procedure . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Tools and Materials Required for Direct Support Maintenance . . . . . . . . . . .
Direct Support Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Troubleshooting with Bit Malfunction Words . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Computer Circuit Card Assembly Identification, . . . . . . . . . . . . . . . . . . .
CDU Circuit Card Assembly Identification . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Computer Wire List . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
CDU Wire List . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power Supply Wire List. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power Supply Harness Assembly Wire List . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Tools and Materials Required for General Support Maintenance. . . . . . . . . . . . . . .
ComputerDiagnostic/Alignment Program, . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
ComputerDiagnostic/Alignment Program Using Tape Reader, Part No.
877406-2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Solid State Memory Loading. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Solid State Memory Loading Using Tape Reader, Part No. 877406-2 . . . . . . . . . . . .
Computer Testing and Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
TTY Printout ofComputer Test . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
PADS Diagnostic/Alignment Program Malfunction Words . . . . . . . . . . . . . . . . . . . . .
Computer Automatic Test Mode Malfunction Teletypewriter Messages . . . . . . . . . .
CDUTesting and Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
TTY Printout of CDU Test. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
CDU Automatic Test Mode Malfunction Teletypewriter Messages . . . . . . . . . . . .
IMU Testing, Alignment, and Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IMUTesting, Alignment. and Troubleshooting Using Tape Reader, PartNo.
877406-2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
TTY Printout of IMU Test... . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Definitions of Teletypewriter Input Messages. . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IMU Automatic Test Mode Malfunction Teletypewriter Messages . . . . . . . . . . . . . .
Operational Program Loading . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Operational Program Loading Using Tape Reader. Part No. 877406-2 . . . . . . . . . . .
PSTesting and Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Computer Power Supply Testing and Troubleshooting . . . . . . . . . . . . . . . . . . . . . . .
Computer Power Supply Circuit Card Assembly Identification. . . . . . . . . . . . . . . .
Computer Power Supply Wiring Harness A3 Wiring Data . . . . . . . . . . . . . . . . . . . . .
Power Supply Circuit Card Assembly Identification . . . . . . . . . . . . . . . . . . . . . . . .
Cable and Connector Tooling and Contact Identification . . . . . . . . . . . . . . . . . . .
1-3
3-3
3-8
3-12
3-16
3-31
3-35
4-3
4-19
4-30
4-35
4-40
4-47
4-6.2.
4-6.3.
4-7.
4-8.
4-9.
4-10.
4-11.
4-12.
4-13.
4-14.
4-14.1.
4-15.
4-16.
4-17.
4-18.
4-18.1.
4-19.
4-20.
4-21.
4-22.
4-23.
4-24.
Change 1
4-54.2
4-54.11
4-54.14
4-56
4-58
4-59
4-66
4-71
4-77
4-77
4-82
4-90.2
4-92
4-98
4-99
4-101
4-106.1
4-109
4-126
4-136
4-139
4-159
4-172
v/(vi blank)
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
CHAPTER 1
INTRODUCTION
Section I. GENERAL
1-1. Scope. This manual contains information required
to maintain, test, troubleshoot, and repair the Position
and Azimuth Determining System AN/ USQ-70 (PADS)
at the direct support and general support levels. Functional descriptions, block diagrams, tools and material
lists are provided to support these functions as dictated
by the Maintenance Allocation Chart (Appendix D of
TM 5-6675-308-12). Marine Corps users shall refer to
Appendix .4 of TM 08837A-12/1. Repair parts and
special tools required are listed in TM 5-6675-308-24P.
Marine Corps users shall refer to TM 08837A-24P/3.
1-2. Maintenance Forms and Records. Department of
the Army forms and procedures used for equipment
maintenance will be those prescribed by DA PAM 738750, the Army Maintenance Management System
(TAMMS)Marine Corps personnel will prepare and
maintain records and report forms as prescribed by TM4700-15/1, Equipment Record Procedures.
1-6. Reporting Equipment Improvement Recommendations (EIR). EIRs can and must be submitted by
anyone who is aware of an unsatisfactory condition with
the equipment design or use. It is not necessary to show
a new design or list a better way to show a new design
or list a better way to perform a procedure, just tell
why the design is unfavorable or why a procedure is
difficult. Army users may submit EIRs on SF (Standard
Form) 368 (Quality Deficiency Report) to:
Commander, U.S. Army Troop
Support Command
ATTN: AMSTR-MOF
4300 Coodfellow Blvd.
St. Louis, MO 63120-1798
Marine Corps users shall submit EIR’s in accordance
with MCO 1650.17. They shall submit Quality Deficiency Reports in accordance with MCO 4855.10. Mail
directly to:
1-3. Destruction of Army Material to Prevent Enemy
Use. Refer to TM 750-244-3 for procedures for destruction of this equipment to prevent enemy use.
Commanding General
Marine Corps Logistics Base (P840)
Albany, CA 31704-5000
1-4. Administrative Storage. Refer to TM 740-90-1 for
procedures, forms, records, and inspections required
during administrative storage of the PADS. Marine
Corps users shall refer to MCO 4450.7 for this information.
Marine Corps users shall submit NAVMC Form 10772
eporting Errors and Recommending Improvementsto:
1-5. Calibration. Refer to Chapter 4 for the PADS
Inertia] Measurement Unit MX-9832/USQ-70 (IMU)
alignment procedure.
Commandant of the Marine Corps
Headquarters, Marine Corps
Code LMA-1
Washington, DC 20380
A
reply will be sent directly to you.
Section Il. DESCRIPTION AND DATA
1-7. Description. Description of PADS is contained in
TM 5-6675-308-12. Marine Corps users shall refer to
TM 08837A-12/1.
1-8. Tabulated Data. PADS performance data and items
comprising an operable equipment are tabulated in TM
5-6675-308-12. Marine Corps users shall refer to TM
08837A-12/l.
1-9. Auxiliary Equipment. Auxiliary equipment used at
direct support and general support maintenance consists
of five standardized electrical components cases (transit
cases) illustrated in figure 1-1 anti listed in table 1-1.
These transit cases are used for transportation of the
inertial measurement unit, control and display unit,
computer power supply, and power supply. A transit
case is provided with each spare unit.
Change 5
1-1
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Figure 1-1. Auxiliary Equipment
1-2
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Table 1-1. Auxiliary Equipment
Wt
Dimensions mm (in.)
NSN
Item
Qty
Inertial Measurement Unit
Case CY-7605/USQ-70
1
609.6
(24.0)
Computer Case
CY-7606/USQ-70
1
Control and Display Unit
Case CY-7608/USQ-70
Ht
Dp
Kg
Wd
(lbs)
609.6
(24.0)
711.2
(28.0)
34.0
(75.0)
431.8
(17.0)
431.8
(17.0)
3683
(14.5)
13.2
(29.0)
1
317.5
(12.5)
304.8
(12.0)
8.6
292.1
(1 1.5) (19.0)
Power Supply Case
CY-7607/USQ-70
1
533.4
(21 .0)
533.4
(21.0)
533.4
(21.0)
22.9
(50.5)
Computer Power Supply
Case
1
273.1
(10.75)
469.9
(18.5)
381.0
(15.0)
(21.7)
9.8
1-3/(1-4 blank)
ARMY TM 5-6675-308-34
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CHAPTER 2
FUNCTIONING OF EQUIPMENT
2-1. General. This chapter contains functional descriptions for the Position and Azimuth Determining System
(PADS) and its major units. Depth of coverage is based
on the requirement to support direct and general support maintenance. Functional descriptions for the following major units of PADS are included:
Inertial Measurement Unit (IMU)
Control and Display Unit (CDU)
Computer
Power Supply (PS)
A block diagram of the PADS is shown in figure FO-1.
2-2. IMU Functional Description, The IMU contains
the key survey sensors mounted on a stable platform.
The platform is isolated from IMU case rotations by a
set of four motor-driven gimbals. Gyroscopes mounted
on the stable element sense rotational rates. The gyroscope outputs are amplified to drive the gimbal motors
so the stable platform is always level and pointed north.
a. Three accelerometers mounted on the stable
element sense change in motion in the north, east, and
vertical directions. This information is processed by the
computer to determine the present position of the
system.
b. The gyroscopes and accelerometers are very sensitive to temperature variations. Therefore, temperatures inside the IMU are tightly controlled. Temperature sensors provide control signals to the computer
and power supply. Electrical resistance heaters and
thermal-electric coolers are powered by the PS to
maintain the desired IMU temperatures,
c. Synchros and resolvers in the gimbal set allow
the computer to determine the orientation of the stable
element with respect to the IMU case,
d. The various sensors provide both analog and
digital outputs. The IMU accepts several digital control
signals.
e. A porro prism, which is in a known mechanical
alignment to the stable element, is used to transfer
azimuth out of PADS using a standard surveyor’s theodolite.
f. Because the gimbal assembly is a precision mechanical device which is protected by a dry nitrogen
atmosphere, the IMU is hermetically sealed and is not
repairable at the direct support or general support
levels. The IMU has many calibration parameters which
are applied as correction factors in the computer program. Many of these parameters can be recalibrated at
general support using the PADS test set and a special
diagnostic computer program. The diagnostic program
also checks those terms which must be recalibrated at
the depot level. A punched tape of the calibration data
is provided with each IMU.
g. Items which do not affect the integrity of the
IMU seal maybe replaced.
h. Porro prism replacement requires recalibration
of the IMU.
2-3. CDU Functional Description. The CDU provides
for operator communication and interaction with the
PADS. The CDU functional block diagram is shown in
figure 2-1 and consists of four functional elements as
follows:
Serial data bus (SDB) logic
Display logic registers and drivers
Keyboard and associated logic
Discrete logic
a. Serial Data Bus Logic. The SDB logic provides
for serial data communication between the CDU and
the computer. The signals associated with SDB operation are address envelope, data envelope, serial address/
data, and 250-kHz clock.
(1) The CDU contains eight 16-bit storage registers with associated drivers. Each of these registers may
be loaded via the SDB by first addressing the appropriate register with an address word and then transmitting
the appropriate data word.
(2) Depending on the contents of the address
word, the CDU will either accept data or transmit data.
Received data is stored in one of the eight 16-bit
storage registers as designated by bits 5, 6, and 7 of the
address word. Two types of data words are transmitted
by the CDU as follows:
(a) The first type is the keyboard word which
indicates when a keyboard pushbutton switch is pressed
(keyboard data valid – bit 2) and the pushbutton switch
code (bits 3 thru 7). Bits O and 1 indicate that an
address or data word transmitted from the computer
was received with a parity error. After the computer
2-1
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Figure 2-1.
2-2
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
reads the keyboard word, the parity status flip-flops are
reset. A long loop serial bus self-test function is provided in the CDU by wrapping around bits 8 through
15 of the address word as bits 8 thru 15 of the keyboard
word. There is no restriction on the bit patterns used on
these bits.
(b) The second type of CDU word provides an
additional self-test feature for the CDU. This allows the
computer to read the contents of any of the eight
display registers without destroying the contents of the
register or affecting the appearance of the display. To
read a register, the same sequence as reading the keyboard word is followed except that the self-test bit 4 is
(on) and the subaddress code bits 5 thru 7 must be used
to identify the display register contents desired by the
computer.
b. Display Logic Registers and Drivers. Eight 16bit data registers are movided for the storage of display
data. Each of these registers can be loaded or read by
the computer as described in paragraph a. Data contained in these registers control the various front panel
displays, electroluminescent lighting control relay, and
audible alarm. Lamp drivers and keep-warm resistors
are employed to minimize lamp current surges.
c. Keyboard and Associated Logic. The CDU employs a keyboard consisting of a row-column switch
matrix. Scanning logic sequentially examines the status
of each key and stops scanning when a key is pressed.
The resultant key code (which corresponds to the
scanned address) is inserted into the keyboard word
transmitted from the CDU as described in paragraph a.
Since there is no register within the CDU to hold the
key code, the keyboard word must be requested by the
computer often enough to preclude the possibility of
missed keyboard actuations.
d. Discrete Logic. The CDU receives and transmits
the following discrete signals.
(1) Received discrete signals.
(a) Power reset, sets internal logic to initial
state.
(b) Bit flag set, sets CDU bit flag.
(c) Bit flag reset, resets CDU bit flag.
(d) Malfunction; computer, battery, charging,
and IMU malfunction discrete signals light respective
indicators,
(2) Transmitted discrete signals,
(a) ON/OFF controls power to the PADS.
(b) ENTER enables a power off sequence to the
PADS.
(c) CDU Power Requirements. The following
CDU power is received via the computer,
+ 5V ±2% logic power,
O to + 5.5V lamp power.
+ 24V ±20% at 120 ma maximum, fault indicator
power.
115 VAC ±l0%, 400 Hz ±5% at 60 ma maximum,
panel lighting.
2-4. Computer Functional Description. The computer
consists of three major functional sections; the central
processing unit (CPU) and memory, input/output (I/0)
section, and computer power supply. The computer is
functionally illustrated in figure FO-2. The CPU and
memory are the computational and storage element of
the computer. The 1/0 section provides interface between the CPU and memory unit, IMU, and CDU. A
16-bit bidirectional data bus provides a common path
for transferring instructions and operands from memory
to the CPU for processing. It also provides for transferring addresses and data generated by the CPU to the
memory. The bidirectional data bus also provides a
path for bidirectional data between the CPU and memory and the 1/0 section. A power supply, the third
major section, provides regulated power for the computer. The following paragraphs describe each functional section of the computer.
a. Central Processing Unit. The CPU consists of
two sections; the data section and the control section.
(1) Data section. The data section comprises the
arithmetic unit and its associated data registers. Both
addresses and data are generated in the data section.
The data section is contained on the 16-bit data circuit
card assembly and consists of the following major
elements:
Accumulator
Random access memory (RAM)
Memory register
Adder unit
A-switch
B-switch
Output switch
Holding register
(a) Accumulator. The 16-bit accumulator is the
main arithmetic register in the CPU. The results of
most arithmetic operations are held in the accumulator,
including any residual remainder after a divide operation.
(b) Random access memory. The RAM consists
of sixteen 16-bit registers. Since each RAM register has
a unique address, the contents of any register can be
accessed.
2-3
ARMY TM 5-6675-308-34
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1. The program counter, one of the RAM
registers, is a 16-bit register that holds the next instruction to be accessed into memory. As each instruction is
executed, the program counter contents are incremented by one, thus providing the address of the next
instruction. The program counter is also used as a
reference register for addressing operands into memory.
(2) Control section. The control section decodes
instructions and generates the necessary microcommands and timing to control data flow through the data
section. The control section is contained on no. 1, no, 2,
and no. 3 control circuit card assemblies and consists of
the following major elements:
2. The seven 16-bit index registers, also
RAM registers, are generally used as reference registers
for memory address operations.
Control logic
3. The RAM 16-bit extension accumulator is
an extension of the accumulator. During instructions
where the operand is 32 bits in length, the extension
accumulator register is linked with the accumulator to
provide a 32-bit accumulator. The extension accumulator always contains the 16 least significant bits of data
in double-precision operations.
Arithmetic counter
4. The RAM 16-bit quotient register is used
to hold the quotient (result) when the CPU executes a
divide operation.
5. The RAM 16-bit base register is used
primarily as a reference register for loading and storing
the index registers.
6. Three RAM addresses are provided for
interrupts. These include external service requests (service interrupt address), internal error (internal interrupt
address), and power failure or program trace operations
(priority interrupt address). The contents of these three
addresses can be modified.
(c) Memory register. The 16-bit memory register is used to receive information from memory via the
SDB for execution during a CPU operation. The information may be either a command or an operand.
(d) Adder unit. The function of the adder unit is
to operate logically on data under control of a CPU
instruction and to generate a result. The computation
occurring in the adder unit results in an address modification or an execution of the instruction.
(e) A-switch. The A-switch controls flow of data
into the adder unit from either the accumulator or the
random access memory.
Instruction register
Status register
Clock generator
Direct memory access (DMA) controls
Bus and switch controls
(a) Instruction register. The 16-bit instruction
register no. 1 control circuit card assembly receives the
instruction accessed from memory via the data bus. The
output from the instruction register is routed to the
RAM controls and includes the instruction decode logic.
The RAM controls are used to address a RAM register
in accordance with the decoded instructions. The output from the instruction decode logic is used to control
the balance of the CPU.
(b) Control logic. The control logic consists of
the state counter and state control logic. The state
counter, located on no. 3 control circuit card assembly,
is used primarily for execution of all CPU instructions.
As each state is entered, controls are set to enable
portions of the instruction cycle to occur. The state
counter is controlled by the decode of the instruction to
be executed. Additional means for instruction execution
are provided by the state control logic. The logic and
circuitry are located on no. 2 control circuit card
assembly.
(c) Status register. The 8-bit status register on
no. 3 control circuit card assembly contains three indicator bits and three interrupt bits. The remaining two
bits are not used. The results of arithmetic computations are used to set the condition indicators on the
status register. The occurrence of interrupts causes the
interrupt bits to be set. Output from the status register
is routed to the output switch.
(f) B-switch. The B-switch controls data flow
into the adder unit from the memory register, status
register, and arithmetic counter.
(d) Arithmetic counter. The arithmetic counter
located on no. 3 control circuit card assembly, is used
during execution of multioperation instructions such as
multiply, divide, shift and normalize operations.
(g) Output switch. The output switch feeds the
adder unit output onto the data bus for memory addressing, data storage, or input/output device communication.
(e) Clock generator. The CPU operates with
synchronous control from a 4-MHz clock signal generated on no. 3 control circuit card assembly,
(h) Holding register. The 16-bit holding register
temporarily holds the adder unit outputs that are destined for random access memory storage.
2-4
(f) Direct memory access control Direct memory access (DMA) occurs when the CPU, I/O Section or
a test device needs to store data into memory or read
data from memory. The DMA operation is controlled
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
by no. 3 control circuit card assembly, and has priority
over normal instruction execution.
1. Memory input. To store information in
the memory unit, the request ing device generates a
memory initiation request and the memory address
input. The initiation request is sent to the CPU where
the CPU control logic determines access to the data
bus. When the request is accepted, the data to be stored
in memory is loaded on the SDB and stored in the
addressed memory location.
2. Memory output. To read information
from the memory unit, the requesting device generates
an initiation request and a memory address input in the
same manner as for memory input transfer. When the
request is accepted, the data from the addressed memory location is loaded on the SDB and sent to the
requesting device.
(g) Interrupt control The interrupt control
logic mechanizes three separately addressable independent hardware interrupt functions. Three interrupt discretes, priority interrupt, service interrupt, and internal
interrupt, cause the next instruction to be taken from
specifically related RAM address locations containing
previously stored 16-bit addresses. The internal interrupt aids the CPU to diagnose and interrupt operation
in the event of an arithmetic overflow or divide fault.
The service interrupt is normally associated with an
external device. The priority interrupt may be associated with a power (failure) condition. For more information on the interrupts, refer to the 1/0 section
description.
Change 1
2-4.1/(2-4.2 blank)
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(h) Bus and switch controls. The bus and switch
controls provide the switching for the DMA and interrupt control, The output of the bus and switch controls
is routed to the output switch for switching onto the
SDB.
data. The single card assembly memory consists of the
following major elements:
b. C o r e M e m o r y . The core memory contains the
timing and registers required for storing data in the
core stack assembly. The data loop circuit card assembly, drive circuit card assembly, and core stack assembly
make up the memory. The memory consists of t h e
following major elements:
Memory
Memory buffer register
Memory address register
Sense inhibit functions
Core stack assembly
(1) Memory buffer register. The memory buffer
register is used to store the output of the memory
during read operations and holds the input to memory
storage during write operations. The memory buffer
register is 16 bits to handle a 16-bit operand or instruction. Two memory cycles are required for 32-bit operands.
(2) Memory address register. The memory address
register contains the address of the requested location in
memory. The address may be an instruction address, an
operand address, or an indirect address. The contents of
the memory location addressed in turn may contain an
instruction, operand or another address.
(3) Sense inhibit functions. Data storage and retrieval are accomplished by the inhibit drivers and sense
amplifiers. When data is to be accessed from an addressed location, the contents of the selected location
are sensed via the sense inhibit wire and applied to the
sense amplifiers. The sense amplifiers then feed the
information into the memory buffer register. One
group, of 16 bits, of the memory address register is then
enabled and the data is sent to the CPU or input/
output section via the SDB. When data is to be stored
into an addressed location, the contents of the SDB
(from the CPU or I/O section) are strobed into the
memory buffer register. The selected 16 bits of the
memory address register are then fed to the inhibit
drivers and the data is written into the addressed location.
(4) Core stack assembly. The core stack assembly
is organized in a conventional 3-wire coincident current
manner with a storage capacity of 32,768 words. The
memory word length is 16 bits.
b.1 So/id State Memory. The solid state memory
contains the timing and registers required for storing
Memory buffers
Memory address register
(1) Memory buffers. Separate input and output
buffers are used, each 16 bits wide. The input buffer
holds data at the memory during write cycles and the
output buffer drives memory data onto the data bus
during read cycles. A 16-bit operand or instruction
takes a single cycle while 32-bit operands require two.
(2) Memory address register. The memory address
register contains the address of the requested location in
memory. The address is latched at the beginning of a
cycle and held stable while the memory is being accessed. The location addressed can contain an instruction, operand or another address.
(3) Memory. The memory is partitioned in 48K
words of nonvolatile EEPROM and 16K words of static
ram. The EEPROM retains program instructions and
constants when power is removed and can be updated
by the computer within the system. The ram provides a
read/write scratchpad for data.
c. Data Flow Orientation. A common bidirectional
data and address bus is used to establish orderly communication between the memory CPU, I/O section, and
test devices. Each device on the bus is controlled by the
CPU. Top priority is given to the I/O section in order
to enhance DMA. When the memory is in use, the CPU
is still able to execute instructions which do not require
continuous memory access, such as the multiply, shift
and divide instructions.
(1) Operation within the data section revolves
around use of a central adder unit. The inputs to the
adder unit are from the B-switch and the A-switch. The
output of the adder unit services all registers. In addition, the adder unit also services the memory address
register and memory buffer register in the memory. For
the memory registers, the adder unit supplies both the
effective addresses and data to be stored on the same 16
lines of the output switch to the memory.
(2) During an instruction fetch cycle, the instruction is received from the memory buffer register
through the common bus and strobed into the instruction register. In a memory reference instruction, the D
field modifies the address contained in the register
designated by the R field code, and the augmented
address is sent to the memory address register via the
output switch for the operand fetch cycle.
(3) Assuming that a single length load accumulator instruction is in the instruction register, the operand
fetch results in 16 bits of data being placed in the
memory registers from the memory buffer register. The
Change 1
2-5
ARMY TM 5-6675-308-34
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contents of the memory register are then presented to
the adder unit input through the B-switch along with no
input (zero) from the A-switch. The output of the adder
unit, representing the operand is then strobed into the
accumulator. For the case where a 32-bit transfer is
executed, two 16-bit operands are sequentially strobed
into the memory register. Upon completion of two
memory cycles, a full 32-bit operand is loaded into the
accumulator.
d Input/Output Section The I/O section provides
an interface between the CPU and memory and devices
external to the computer. The I/O section is contained
on I/O controller card assembly, data buffer circuit
card assembly, I/O discrete circuit card assembly, analog-to-digital (A/D) converter circuit card assembly,
and platform I/O circuit card assembly, and consists of
the following major elements:
Programmed input/output control
DMA control
Interrupt control and masks
Real-time counter
Data bus buffer
Time-out counter
A/D converter
Platform I/O logic
Serial data bus
I/O discrete, lamp dimmer control, and on/off control
(1) Programmed input/output control. Programed I/O refers to the communication of information
between the CPU and the various external devices and
is initiated by the operational program. Programmed
I/O is performed by the execution of instructions which
input to or output from the CPU accumulator. The
four-bit device address field in these instructions enables
direct communication with 16 devices. Address decoding and control signal generation for the external devices is performed by the I/O controller card assembly.
(2) DMA control DMA control provides a transfer of data between the memory and an external device
with CPU involvement. In this mode of operation,
memory cycles are obtained from the CPU by the
external device which generates the address for the
memory location to be a accessed on a request-response
basis. The computer contains logic for eight DMA
channels but only one is used. Channel two is used for
the A/D conversion.
(3) Interrupt control and masks. The interrupt
control and masks provide interface between the CPU
and I/O section for the three separately addressable and
independent hardware interrupts. These interrupt funcions are priority, service, and internal. No dedicated
addresses in memory are required for these interrupts,
2-6
thereby allowing complete relocatibility of the associated subroutines. When an interrupt signal occurs,
other interrupts are logically inhibited or masked out.
The interrupt control and masks are contained on the
I/O controller card assembly.
(a) Priority interrupt. A priority interrupt is
generated by the time-out counter and just prior to
power shutdown. The time-out counter will oveflow if
it is not reset at least once every 125 milliseconds, The
overflow will generate a priority interrupt. A priority
interrupt is generated one millisecond prior to computer power shutdown to permit the software to save
any required data.
(b) Service interrupt. A service interrupt is generated when the real-time counter overflows.
(c) Internal interrupt. The internal interrupt is
generated by an overflow or divide fault condition and
is associated with the status register. Bit position 0 of
the status register identifies an overflow and bit 1 a
divide fault.
(4) Real-time counter. The real-time counter is a
hardware counter loadable and readable by the CPU; it
aids the program in determining the time between
events. In addition the real-time counter has an overflow function that is used to generate the service interrupt. The real-time counter is contained on the I/O
controller card assembly.
(5) Data bus buffer. The data bus buffer provides
buffering of the data bus between the I/O section and
CPU. This buffering is required because of the loading
in excess of the drive capability provided by the CPU,
The data bus buffer is contained on the data buffer
circuit card assembly.
(6) Time-out counter. The time-out counter is a
four-bit counter which generates a priority interrupt
when it overflows. This counter is periodically reset by
the software so that a software failure is indicated if an
overflow does occur and the bit indicator is set.
(7) Analog-to-digital converter. All analog signals
are routed through the A/D converter before processing by the CPU. The A/D converter converts analog
signals from the I MU into digital signals for subsequent
processing. The A/D converter generates its basic timing reference from positive-going crossovers of the 400Hz reference. Each crossover initiates a timing frame in
which all the DC-to-digital signals and one of the
resolver or synchro signals is converted. The synchro or
resolver signal is the first conversion within the frame
and is then followed by all the dc signals. Conversion of
the resolver or synchro signal occurs at the time frame
which compensates for the phase shift for that particular signal. In this manner, conversions occur at the
signal peaks and quadrature effects are minimized. After
each signal is converted, a DMA cycle is initiated and
the converted value is stored into memory. After eight
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frames, during three of which no synchro or resolver
conversions are made, the entire sequence repeats itself.
The A/D converter is contained on the A/D converter
circuit card assembly.
(8) Platform input/output logic. The platform 1/0
logic accumulates the AV pulses from the platform and
generates gyro torquing pulses wx, wY, and wz for the
platform. The platform I/O logic is contained on the
platform circuit card assembly.
(a) V accumulation. Three AV accumulation
channels are provided. Each channel has an eight-bit,
up/down counter for the accumulation of velocity
pulses. Accumulation is provided by strobing each
channel at the 2.4-kHz quantizer clock rate into its
individual flip-flop, thereby providing a one-bit sample
for each channel. Synchronization to the basic CPU
clock is implemented to eliminate any hazardous logic
condition before sampling. Special logic is implemented
to inhibit counters from toggling during a program
input command of any accumulated velocity data. The
leading edge of the quantizer clock initiates the one-bit
accumulation process. The contents of the AV counters
are read under software control.
(b) Gyro torguing. The platform I/O provides
three channels of gyro torquing pulses. Each gyro channel has its own eight-bit up/down counter and is individually loaded with torque data under software control
and then is either increased or decreased at gyro torque
rate, providing full rate torquing. Periodic update under
software control updates each counter.
(9) Serial data bus. The SDB functions as a bidirectional communications link between the computer
and various external devices. The SDB consists of a data
envelope, address evelope, bidirectional data line, and a
continuous 250-kHz clock. All serial communications
are completely under programmed I/O control. To
initiate a serial transfer, an address word is transmitted
to all devices using an OUT 12 instruction. All address
words contain a device code (bits 0-2), a transmit/
receive bit (bit 3), and a self-test bit (bit 4). The balance
of the 16 bits in the address word are a unique function
of each device. Data is transmitted to a device using an
OUT 11. Data is transmitted from a device to the
computer using an INP 11 to command a serial transfer
into the I/O shift register. This INP 11 results in the
accumulator receiving the complement of the previously transmitted computer word and can be used as a
short-loop self-test feature. A second INP 11 transfers
the contents of the shift register to the CPU. A minimum delay of 84 microseconds is required between
program commands to the serial I/O. A discrete bit
may be read by the computer to determine the results
of a parity test on received words and the serial bus
logic may be checked for its busy state. The serial data
bus logic is contained on the data buffer circuit card
assembly.
(10) Input/output discrete, lamp dimmer control,
and on/off control.
(a) Input discretes. The following inputs are
received and made available for program access: IMU
ready, accelerometer coarse heater on, gyro coarse
heater on, gyro float to temperature, and IMU spares
no. 1, 2, and 3. In addition, the IMU fail discrete is
received for processing but is not available to the
software.
(b) Output discretes. The following outputs are
processed by the computer from software for subsequent transmission to other system elements: PS flag
set, CDU flag set, IMU flag set, computer flag set, reset
all flags, XY gyro fast slew, and Z gyro fast slew. A
power-on-reset signal is also made available.
(c) Lamp dimmer control. The lamp dimmer
control is a four-bit non-linear digital/analog converter
whose outputs, under software control, are used to
control the lamp voltage to the CDU. For each of ten
binary codes, a unique analog voltage is generated.
(d) On/off control. Computer tumon occurs
when + 24V input power is applied. Power turnoff
control has three modes of operation. Each of these
modes generates an off command to the power supply
and a power off interrupt to the CDU. An overtemperature condition in the computer will generate an off
command. The software is also capable of generating an
off command. Normal shutdown occurs when the on/
off input is activated and is followed by an enter
command.
e. Computer Power Supply. The computer power
supply receives unregulated + 24V from the power
supply and generates + 5V, + 15V, and –15V for
computer operation. See figure 2-2 for a functional
block diagram of the computer power supply. In addition, the computer power supply supplies a variable
voltage for the CDU display lamps and necessary control signals for the PS and computer. The computer
power supply consists of the following major elements:
+ 5V switching regulator
O to + 5V switching regulator
+ 15V switching regulator
Dc-todc converter
+ 15V precision supply
–15V precision supply
Control and monitor section
(1) +5 V switching regulator. The + 5V switching
regulator is located on the 5V power supply circuit
card assembly. The + 5V switching regulator develops
+ 5V with input variations of +20 to + 30V and with
load variations of 3 to 18 amps. In addition to the
filtered + 24V unregulated input power, the + 5V
2-7
MARINE TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 2-2.
2-8
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
switching regulator requires + 15 and — 15V for its
operational amplifiers and a 40-kHz square wave signal
for its pulse width modulation section. The normal
control signal for the + 5V switching regulator is regulator-on. When any one of the computer power supplies
five output voltages exceeds its maximum allowable
limit, or when more than 8 amps is drawn from the O to
+ 5V switching regulator, the crowbar signal (CB°)
goes to O volts and initiates an emergency power supply
shutdown. This emergency shutdown is accomplished
by firing a silicon controlled rectifier (SCR) which shorts
the output of the + 5V switching regulator and simultaneously causes the regulator-on signal to go low.
(2) 0 to + 5V switching regulator. The O to + 5V
switching regulator is located on the 15V power supply
circuit card assembly. This regulator is commanded by
an analog reference signal (V lamp ref) which originates
in the computer. The output of the regulator follows
the V lamp reference signal. The regulator supplies O to
+ 5V with input variations of +20 to + 30V and load
variations of 0 to 5 amps. Operation of the 0 to + 5V
switching regulator is similar to the + 5V switching
regulator. In addition to current limiting at 8 amps, a
power supply shutdown signal (VLOC°) is sent to the
control and monitor circuitry when the load current
exceeds 8 amps. Asterisk denotes negative logic. The O
to + 5V switching regulator responds to the regulatoron and CB° signals in the same manner as the + 5V
switching regulator.
(3) +25 V switching regulator. The + 15V switching regulator is located on the 15V power supply
circuit card assembly. This regulator supplies + 15V
with input variations of +20 to + 30V and load variations of 1 to 6 amps. The operation of the + 15V
switching regulator is similar to the + 5V switching
regulator.
(4) DC-to-dc converter. The dc-to-dc converter is
located on the 5V power supply circuit card assembly.
The converter receives its input from a + 12V supply at
turn-on and then from the + 15V switching regulator
during normal operation. The converter switches at
approximately 28 kHz and generates square waves of O
to + 20V on a secondary winding of the converter
transformer. These square waves are rectified and filtered and supply +19 and –19V to the 15V precision
supplies. The converter transformer has two additional
secondary windings. The square waves on these windings are again rectified and filtered, producing a floating
+3V which is used as a boost voltage for the two
switching regulators.
(5) +15 V precision supply. The + 15V precision
supply is located on the 5V- power supply circuit card
assembly. The + 15V precision supply is a linear seriespass type regulator with an input voltage of + 19V
from the DC-to-DC converter and an output voltage of
+ 15V with load variations of 40 to 260 mA.
(6) –15 V precision supply. The –15V precision
supply is located on the 5V power supply circuit card
assembly. The —15V precision supply is a linear seriespass type regulator with an input voltage of –19V from
the DC-to-DC converter and an output voltage of
–15V with load variations of 0.1 to 1.2 amps.
(7) Control and monitor section. The control and
monitor section consists of MOS logic and voltage
comparators and is located on the 15V power supply
circuit card assembly. The monitor portion consists of
voltage comparators and their associated precision resistor dividers, All the computer power supply output
voltages are compared in the monitor circuit to separate high and low voltage references. If any output
voltage is below the low reference, the low voltage
(LV) signal goes high. If any output voltage goes above
the high reference, the crowbar (CB) signal goes high.
When either of these signals goes high, the computer
power supply will shut down. The control portion
contains logic that controls the tumon and turnoff of
the computer power supply. This circuitry initiates
tumon when the + 24V input from the power supply
goes above + 21V. For the first second after initial
tumon, a high signal (PS POR) is sent to the computer
for initialization of the computer and its memory. The
+15 and –15V precision supplies are enabled first,
When the ouput of these supplies reach greater than
+ 10V, the three switching regulators are turned on.
During the
time the PS POR is high, only an overvoltage (CBO) or the computer command (PS 0FF°) can
shut down the computer power supply. During normal
operation, a low voltage (LV), overvoltage (CB°), or the
computer command (PS Off° can turn off the computer
power supply. Anytime the CBO or LV signals initiate
the shutdown, a built-in-test magnetic latching indicator
will be set by the flag set’ control signal. The power for
the monitor and control section is supplied by an
auxiliary + 5V regulator that operates directly from the
+ 24V input power. In addition to the control and
voltage monitoring functions, this section also contains
an oscillator that generates a + 30V peak-to-peak, 40kHz square wave.
2-5. Power Supply Functional Description. The power
supply assembly converts +20 to + 30V vehicle or
PADS battery power to the following outputs:
115V RMS, 0° phase, 400 Hz, square wave, unregulated
115V RMS, 90° phase, 400 Hz, sine wave, regulated
26V RMS, 90° phase, 400 Hz, sine wave, regulated
±28V, regulated
+ 28V, battery charge, regulated
Figure FO-3 illustrates the power supply assembly
functional Mock diagram. The circuit assemblies within
the power supply assembly are as follows:
RFI filters
2-9
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
±28V power supply
Ambient temperature control DC power supply
DC-to-AC sine wave inverter
DC-to-AC square wave inverter
Power supply monitor and control
Battery charger
Battery monitor and control
a. RFI Filters. Two RFI filters make up this assembly. The first is located at vehicle input power and
smooths current transients when input power is
switched between vehicle power and PADS. The second
filter attenuates current ripple that is felt by the input
power source due to pulse currents drawn by DC
regulators and AC inverters.
b. ±28V Power Supply. The ±28V power supply is
a 25-kHz switching regulator. This circuit supplies ±28,
+2, ±20, and ± 14V for the assembly control circuits
and + 3V boosting voltages for three switching regulators. The + 28V is sensed and compared to a reference
voltage at the error amplifier input. The error amplifier
output voltage is fed into a pulse width modulator that
controls the on-off duty cycle of the power switching
transistor in the switching regulator. The switching
regulator output voltage is sensed by the power supply
monitor and control circuit. If the output voltage of the
switching regulator or DC-to-DC converter exceeds the
specifed amplitude, the on/off control is turned off and
shuts down the switching regulator,
c. Ambient Temperature Control DC Power Supply.
The ambient temperature control DC power supply
consists of a 40-kHz switching regulator and temperature control circuit. The operation of the switching
regulator is similar to that described for ±28V power
supply except that the reference voltage to the error
amplifier equals the absolute value of the ambient
temperature error signal from the IMU. The ambient
temperature error signal, therefore, determines the output voltage level of the switching regulator. The regulator output voltage is connected to the heater through
relay K3. When the ambient temperature error signal is
negative, signifying an increase in internal IMU temperature, relay K3 is energized, switching the regulator
output voltage to the IMU thermoelectric coolers to
reduce the internal temperature. When system power is
turned on, the control circuit applies power to the
transient heaters through relay K1. When the IMU
internal temperature reaches a given level, this control
circuit deenergizes relay Kl, removing power from the
transient heaters. A gain and polarity sensing circuit
checks the power supply voltage gain and the heatercooler relay connection. If the gain or polarity is not
proper, the checking circuit signals the power supply
monitor and control circuit to turn the power supply
off.
2-10
d. DC-to-AC Sine Wave Inverter. The inverter, a
class B push-pull amplifier, produces 26V and 115V,
400 Hz sine waves and is driven by a 400-Hz constant
amplitude sine wave oscillator. Voltage feedback. is
from the 26 VAC output terminal. An overcurrent
protection circuit senses the DC current into the center
tap and each leg of the inverter transformer primary
and controls the DC driving signal level to prevent
transformer saturation.
e. DC-to-AC Square Wave Inverter. The inverter
produces a 115V, 400-Hz square wave unregulated
output. This square wave voltage lags the sine wave
inverter 26 VAC is differentiated to provide the 90degree phase shift and clipped to form a square wave.
The driving signal is passed through a two-pole filter to
increase the rise time of the output square wave and
minimize EMI. The rest of the driving circuit is the
same as described for the sine-wave inverter.
f. Power Supply Monitor and Control. This circuit
senses and controls power supply output voltages.
When the outputs exceed specified limits, the on/off
control circuit shuts down all power supplies and the
power fault indicator is operated. If a power supply
fails and bus voltage is below + 20V, the battery fault
indicator is also operated. Overvoltage or undervoltage
signal (IMU inhibit) causes the power supplies to shut
down.
g. Battery Charger. This circuit charges the PADS
batteries via the vehicle power. A DC-to-DC converter
boosts the vehicle power by + 6V. The voltage is then
regulated to + 28V to charge the PADS battery. Charging current is sensed and controlled to 6 amps maximum by the battery monitor and control circuit on the
sequence monitor circuit and assembly.
h. Battery Monitor and Control This circuit turns
the power supply assembly on or off, and controls the
battery charge and SCR firing circuits.
(1) Power Supply On-Off Circuit. The power supply assembly operates when either circuit breaker CB1
or CB2 is closed and when the CDU ON-OFF switchindicator is set to ON. After a delay, power relay K2 is
energized and the power supplies are turned on. The
power supply assembly is shut off when the CDU ONOFF switch-indicator is set to OFF, or upon detection
of an overvoltage or overcurrent condition or presence
of an IMU overtemperature signal.
(2) Battery Charger Control This circuit senses
bus voltage levels, SCR current levels, circuit breakers
CB1 and CB2 on-and-off conditions, and controls battery charging current. If the SCR current falls below 0.5
amps, a power transistor is turned on and vehicle power
is applied to the charger converter. Charging of the
PADS battery will be initiated if all the following
conditions are met:
PADS battery is connected.
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
CB1 and CB2 are both switched on.
Current in SCR is below 05 amps.
Vehicle battery voltage is higher than + 24V for M151
or + 25V for OH-58.
PADS battery voltage is below + 28V.
The charging current is limited to 6.0 amps, maximum.
A charging’ signal will light the CDU CHRG display
indicator when charging current is equal to, or greater
than 2 amps. A battery° signal will light the CDU
BATT display indicator when any of the following
conditions OCCUr
Any one circuit breaker open.
PADS battery cable disconnected.
SCR conducting power from PADS battery.
The CDU BATT display indicator will begin to flash if
input power drops below + 20V at the main bus.
(3) SCR Firing Circuit. This circuit runs on the
SCR connecting the PADS battery to the power bus
under the following conditions:
K1 power relay is closed.
Bus voltage is below + 21.5V.
2-11/(2-12 blank)
ARMY TM 6-6676-308-34
MARINE CORPS TM 08837A-34/2
CHAPTER 3
DIRECT SUPPORT MAINTENANCE INSTRUCTIONS
Section I. GENERAL
3-1. Scope. Direct support maintenance includes repair of
the computer and CDU by circuit card replacement, and
replacement of computer, computer power supply, IMU,
power supply, CDU, and cables. Failed units are forwarded to
general support maintenance.
3-2. Test Setup.
The primary pallet weight exceeds the
normal two-person lift capability. Use
three persons to carry primary pallet into
the work area.
a. The normal test procedure is to operate PADS and
obtain the built-in-test malfunction indications. The
malfunction symptoms should be furnished by the operator
but can be obtained or verified by maintenance personnel.
Additional testing includes continuity checks and voltage
measurements.
The system must not move during testing.
Place the primary pallet firmly on a solid
workbench, floor, or stable ground outside
the van.
b. Repairs are verified by operating PADS for a period
of time with no malfunctions.
c. The test sequence is summarized in table 3-1 which
references more detailed descriptions of the various
procedure. The system responses are given. When an
abnormal condition is indicated, troubleshoot in accordance
with paragraph 3-9 and perform the specified repairs.
Electrical connections for testing are shown in figure 3-1.
3-1.1. Program Description. The PADS has two unique
memory modules. The older version (core) which is
presently in the process of being phased out and a new
version (solid state) is being phased in. The memory capacity
of the core memory is 32768 (32k) words and the solid state
memory is 65536 (64k) words. During the past few years, the
software has evolved per the user’s request to the point where
the new programs are no longer compatible between the two
memory types. The user willhoweverberequired to use both
memory types until such time as the core memories have
been completely phased out. This will require the manuals to
describe both memory types. The latest version to the
software includes NAVSTAR GLOBAL POSITIONING
SATELLITE (GPS) cueing to the operator. This version also
increases the spheroid repertoire and changes the order of
spheroids. Refer to TM 54675-308-12 for a more detailed
description of the newer software. This newer software is
available in the solid state memory only. Caution must be
exercised in spheroid selection between the two memory
modules.
a.
Check that +28V power source is off.
b.
Check that PADS BATTERY and VEHICLE circuit
breakers CB1 and CB2 are OFF.
c.
After PADS has been placed in the work area, check
that the primary pallet components are
interconnected as shown in figure 3–1 and the CDU is
connected to the computer by cable W1.
d.
Check that the cooling system and isolator platform
are not blocked.
e.
Connect battery cable assembly W6 to power supply
connector 3J2.
Check that the polarity of connections to
+28V power source are correct.
f.
Connect power supply connector 3J4 to +28V power
source with cable assembly W211.
g.
The CDU may be removed from the computer
bracket and placed at a convenient spot on the
workbench.
Change 6 3 - 1
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 3-1.
3-2
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
3-3. Turn On/Turn Off
To prevent damage, do not move PADS for
at least 2 minutes following shutdown.
a. Turn on +28V power source.
b. Power is applied to PADS by setting PS BATTERY
and VEHICLE circuit breakers CB1 and CB2 to
ON. Activate the system by pressing CDU
ON/OFF. The display cues for spheroid for core
memory, or GPS C-E for solid state memory.
c.
If PADS is on, pressing ON/OFF initiates shutdown. Systems with a core memory cue OFF C-E
on the CDU display. To turn off press ENT Systems with a solid state memory first cue SAVE C-E.
If a save of mission data or a spheriod 200 series
alignment (Z gyro bias) align next data is desired,
ENT should be pressed (recommended at all
times). The CDU display will indicate SAVE for 15
to 20 seconds then cue “OFF” -E. At this time OFF
is pressed then ENT The system will shut down.
In the event that the operator elects to continue system operation he should press CLR when cued
with OFF C-E (core memory), or CLR when cued
with SAVE C-E, then when cued with OFF C-E, he
should press OFF then CLR. The system will revert
to the last display and continue operation.
d If the operator continues with the OFF mode, set
PS BATTERY and VEHICLE circuit breakers CB1
and CB2 to OFF once the CDU has turned off.
3-4.
a Dim. Press and hold LAMP to dim CDU lights.
All lamps light and the intensity slowly deereases.
At full dark, no further change will occur. Release
LAMP when desired intensity is reached. The
display returns to previous indication at the new
intensity.
Change 6
3-2.1/(3-2.2 blank)
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 3-1. Direct Support Test Procedure
no.
Status
indicators
CDU Data
display
Step
Operator action
Reference
NOTE
This table summarizes PADS operational sequences. More detailed descriptions are in the paragraphs listed in the
Reference column.
a. CDU pushbuttons are
underlined e.g., press STOP.
b. A lighted status indicator is
shown in Status Indicators
column and remains lighted
until extinguished.
e.g.
e. An extinguished status
e.g.
GO
indicator is boxed in.
.d Flashing displays are
enclosed in quotation marks.
“GO”
e.g.
These conventions are used
throughout this manual.
1.
Set up equipment as shown in
figure 3-1
Para 3-2
2.
Turn on +21V power source
and set BATTERY and
VEHICLE circuit breakers
CB1 and CB2 to ON
Para 3-3
3.
Press ON/OFF
“SPH” 1 or
“GPS C-E”
STOP, ENT
Note 1
4.
Perform lamp test
(All lamps light.)
(All lamps light.)
Para 3-4
STOP, ENT
Para 3-4
NOTE
All fault indicators set
white when LAMP
is pressed and reset black
when LAMP is released.
5.
Set lamp intensity
“SPH” 1 or
“GPS C-E”
5.1 Enter CLR (for solid state
memory only)
“ss SPH”
6.
Enter spheroid
7.
When “PAUSE” extinguishes,
PADS cues for a vehicle entry.
The cue will be the last vehicle
that had been used. Press ENT
“PAUSE” (for solid
state memory only)
“HUM” 1
Para 3-5
Para 3-5
Change 6
3-3
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 3-1. Direct Support Test Procedure - Continued
Step
no.
CDU Data
display
Operator action
Status
indicators
Reference
8.
Enter spheroid; PADS cues for
easting
“E”
.0
Para 3-5
9.
Enter zone and casting PADS
cues for northing
“N”
.0
Para 3-5
10.
Enter northing PADS cues for
“EL”
.0
Para 3-5
MODE O
ENT CAL MON
Para 3-5
Z-VEL
Note 2
Para 3-6
elevation
11.
12.
13.
Enter elevation; alignment
continues
Alignment ends
MODE
MODE
MODE
MODE
MODE
MODE
MODE
MODE
Press ON/OFF
OFF C-E
1
2
3
4
5
6
7
8
or
SAVE G E
14.
15.
Note 4
Press ENT. PADS shuts down
Disconnect equipment
TEST COMPLETE
Note 1. BATT may light for a few minutes. If it stays lighted verify connections to + 28V power and battery box
and that BATTERY and VEHICLE circuit breakers CBl and CB2 are ON. CHRC may light throughout
the mission.
Note 2. The display may initially show MODE 0, 1, 2, or 3 depending on the speed of coordinate entry. Time since
turnon may be displayed by pressing TIME. The mode may be recalled by pressing MON.
Note 3. MON will extinguish when any other function k selected. No display functions can be selected by the
operator until the survey data has been entered
Note 4. If ON/OFF is pressed and CDU d lay indicates SAVE C-E the computer contains a solid state memory
instead of a core memory and tbe following turn off steps must be performed:
a. Press ON/OFF. Display indicates SAVE C-E
b. Press ENT. Display indicates PAUSE.
c. In approximately 20 seconds the display will indicate “OFF” E.
d. Press ON/OFF. Display indicates OFF “E”.
e. Press ENT. System will turn Off.
3-4 Change 5
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
b. Brighten. To brighten the display press LAMP;
release for 2 to 6 seconds; press and hold LAMP.
All lamps light and the intensity slowly increases.
At full brilliance, ALARM DS3 sounds. Release
LAMP when desired intensity is reached. The
display returns to previous indication at the new
intensity.
c. Lamps Test. Set display to full brilliance and hold
LAMP. Observe that all status indicators light, all
data display segments and punctuation light,
ALARM DS3 sounds, and computer, power supply,
and CDU fault indicators turn white. Release
LAMP and note that display returns to previous
indication ALARM DS3 turns off, and fault
indicators turn black.
3-5. Data Entry/Display.
NOTE
Successful completion of the test requires
entry of the following survey parameters:
Spheroid
Vehicle
UTM Zone
Easting (±100 meters)
Northing (±100 meters)
Elevation (± 10 meters)
Erroneous entry of these parameters, except vehicle, may
result in an IMU failure indication.
a. Certain data is required to be entered by the operator. The operator must have a specific knowledge of the
PADS requirements and the program in use. Certain
inputs are cued by a flashing display; generally related to
a specific CDU pushbutton which must be pressed
followed by a numeric entry. Other inputs will be displayed on a non-flashing CDU display, and will merely
require the operator to press ENT, signifying the operator concurs with that data.
b. The operator recognizes a cue by pressing the
pushbutton corresponding to the flashing symbol. The
displayed symbol stops flashing and the zero(s) go blank.
Enter data with the numeric pushbuttons. Each numeral
enters the display at the extreme right and moves one
space to the left when a new digit is entered.
c. If a wrong number is entered press CLR to clear
the display. When all numbers are entered check that
the data is entered correctly. If possible, use a second
person to check the entry. Press ENT to enter the data
into the system. The display will show a new message.
d. The PADS is programmed to survey in any of the
following spheroids. Refer to spheroid numbers and
specific memory type as follows:
Solid State
SPH No.
Core
1
2
3
4
5
6
7
8
9
Clarke 1866
Clarke 1880
International
Bessel
Everest
Malayan
Australian National
Spare
Spare
Spare
--..
...
Clarke 1866
International
Clarke 1880
Everest
Bessel
Spare
Spare
Australian GRS 67
GRS 1980 WGS 84
10
Airy
Modified Airy
11
12
Modified Everest
13
WGS 72
14
Hough
User Defined
15
16
User Defined
For SPH entries to operate in geographic coordinate system, refer to TM 5-6675-308-12/TM
08837A-12/l.
e. At turn on, PADS displays GPS C-E for the solid
state memory. Press CLR to bypass the GPS mode. From
this point the CDU displays cueing that is basically the same
for the initialization phase of operation. “SPH followed by
the number of the last spheroid used (and saved for the solid
state) is displayed. Refer to the preceding paragraph for the
spheroid number versus spheroid in use. The user will then
press SPH and the desired spheroid number, then press ENT
The display then cues for vehicle immediately with core
memory and after a 15 to 20 second PAUSE with the solid
state memory.
e.1. The PADS program contains seven standard U.S.
Army vehicles and has the capability of having the
operator add lever arm information for up to three
nondefined vehicles. The standard vehicles in the order
of selection and CDU display follow. The program will
display the last vehicle entered during the initialization,
i.e., if the OH-58 had been selected before the system
was turned off, the CDU at turnon would indicate OH–58 5.
CDU Q
—
—U E
1. HUM 1
2. CUV 2
Plumb Bob or
Vehicle
Sight
Location
—
HMMWV Left side driver
sight/plumb bob
Pintle mounted
CUCV
plumb bobs.nd
forward mounted
system (ii place
of rear seat)
Change 6
3-4.1/(3-4.2 blank)
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
3. SUV 3
Susv
Left side driver
sight/plumb bob
4. M151 4
Jeep
5. OH-58 5
PADS mounted
OH-58
Helicopter plumb bob arm
6.
6
PADS mounted
UH-1
Helicopter plumb bob arm
7. PLMB 7
M151 Jeep PADS mounted
plumb bob arm
UH-1
Pintle mounted
plumb bob
e.2 The operator presses CDU ±/2 or -/8 to advance or decrement the vehicle selection until the correct
vehicle has been displayed then presses ENT. The
vehicle selection may be changed at any time during
operation which allows vehicle to vehicle transfer while
the system is operational.
e3. If the system has been installed in a vehicle which
is not defined as one of the seven standard vehicles, or
has not had the lever arms previously entered the
operator must enter any choice of vehicles in order to
proceed with the initialization. The procedure for
selecting and inserting data for the nondefined vehicle is
as follows:
(1) While PADS is aligning or preferably after alignment is complete, the operator may insert up to three
nonstandard vehicle selections after determining the X,
Y, Z, and V lever arm dimensions using figure 3-1.1 as
an example. All lever arm entries and displays must be
in meters to the nearest millimeter.
Change 6
3-5
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 3-1.1. Nonstandard Vehicle Example
3-6
Change 5
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
.0, means PADS
f. A display showing “E” 0:
wants the universal transverse mercator (UTM ) zone
and casting coordinate entered. Zone is entered first and
will eventually appear to the left of the colon. The
coordinate must have 7 digits and be entered to the
nearest tenth of a meter.
Example Enter an casting value of 246789.7 for zone
12.
Press - to scan ID’s 50, 49, 48, and 47 to verify the
entered values are correct. Above operator action must be
repeated if a change is to be made.
(2) In the event more than one nonstandard vehicle is
repeat above operator action
making sure that when performing third step, a number
other than the one previously entered is used, i.e., 9, or 10.
If the number 8 were entered again, X, Y, Z, and V dimenions previously entered would be cleared from memory. A
save routine at shutdown will store all nonstandard vehicle
selections which have been entered.
to be entered into memory,
(3) In the event a vehicle selection change is necessary
during a mission, the new vehicle lever arms may be selected by returning to the monitor table and proceeding as
follows:
Check that data is correct before entering.
“N”
Press ENT.
.0
The cues for the other parameters are:
“N” .0
UTM northing - entered to nearest tenth of a meter. For southern
hemisphere, press N twice. Display will change from N to S.
“EL” .0
Elevation – entered to nearest
tenth of a meter. When EL is
pressed PADS will display ±EL.
For an elevation above mean sea
level press ±2. For an elevation
below mean sea level, press -8.
Then enter the numerical value.
g. Data maybe displayed by pressing the key corresponding to the parameter desired. However. the operator cannot select a data display until the initial survey
data has been entered.
Change 5
3-6.1
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
h. It is possible to speed entry of survey data to
examine malfunction codes (refer to table 3-4) by entering a one-digit coordinate for each entry (e.g., 0.1
meter). However, an IMU failure will be indicated if
alignment is allowed to proceed past MODE 4.
3-6. Alignment. PADS starts to align itself at tumon
and automatically continues alignment after the survey
data is entered (paragraph 3-5). Alignment takes 30 to
40 minutes. During this period the data display will
show a sequence of alignment MODES O thru 8 when
the MON function is selected. MODE 8 signifies completion of alignment.
a. Movement of the IMU must be avoided during
alignment. Do not move or jar the system. If excessive
movement is experienced during alignment, the ATTN
indicator will light and the CAL indicator extinguish, or
the STOP indicator may extinguish and GO flash. If this
occurs, turn PADS off and restart the initialization
procedure.
b. The system should be level to ±5 degrees. If not,
the display will show LEVEL starting in monitor
MODE 3. The LEVEL display locks out the monitor
mode unless a malfunction occurs, If possible, move
PADS to a more level surface and restart the test. If this
is not possible, PADS will continue to align with possible degraded accuracy.
c. Zero-velocity corrections are needed for accurate
surveying. One begins automatically during alignment.
After alignment and system movement, PADS requests
zero-velocity correction stops by flashing the GO and
STOP indicators and beeping ALARM DS3 30 seconds
before the next correction. The operator has 30 seconds
to stop the vehicle and press STOP. If he does not, the
GO indicator extinguishes, STOP indicator continues to
flash, ALARM DS3 sounds steadily, and data display
reads STOP. A zero-velocity stop should not be requested during test under normal circumstances.
3-7. Cable Testing/Connector Adjustment (see figure
3-2).
a. Inspect cables for bent or broken connector pins;
locking ring, connector shell, backshell, or cable
clamp; and cut or tom sheath. Replace if any of
these defects are found. Return cables with bent
or broken pins to general support maintenance
for repair.
b. Carefully inspect connectors with right angle
backshells for rotation in excess of ±10 degrees.
Adjust as necessary as follows:
(1) Remove safety wire securing retaining ring to
backshell.
(2) Mate connector to its fixed counterpart and
tighten retaining ring using a strap wrench.
(3) Rotate backshell for proper cable clearance.
(4) Secure retaining ring to backshell with safety
wire.
c. Test cables for correct continuity between pins
and backshell. Wiring diagrams are shown in
figure FO-4.
Section Il. TOOLS AND EQUIPMENT
3-8. General. Tools and materials required for direct
support maintenance are listed in table 3-2. Repair
parts are listed in TM 5-6675-308-24P, or Marine Corps
TM 08837A-24P/3.
3-6.2
Change 6
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
‘
Figure 3-2. Cable Testing/Connector Adjustment
3-7
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table
3 - 2 . Tools and Materials Required for Direct Suppoti Maintenance
Item
Adhesive, silicone, room
temperature curing
Adhesive, silicone RTV,
non-corrosive
Alcohol, isopropyl IT-I-735
Battery Box CY-7560
USQ 70
Cable, power, W211
Carrier, battery
Cloth, lint free
Purpose
NSN or specification
Used to bond IMU cover, computer
cover, and computer/computer
power supply R.FI gaskets
Used to bond IMU thermostatic mvitch
rro prism cover
capacitors, and
and circuit brea 1?er covers gaskets
Used in cleaning of surfaces
Used for storage of batteries for
test ing
Used to connect + 28V to power
supply
RTV 156 (72799) or 304179
(71984)
..
Used in removal and replacement of
battery
Used in cleaning surfaces when
MIL-A-46146, Type 1
6810-00-753-4993
880530-3 (06481)
880534-4 (06481)
5120-00-529-4124 or
5120-00-223-8455
replacing gaskets
Compound, sealing
Used for bonding IMU bolt assembly
retainer and IMU guide pin
MIL-S-22473, Crade C
Compound, sealing
Used for bonding mounting base
subassembly slide strip screws
Used in the replacement of the power
cable lugs Used in installation of winterization
kit. Also in removal of rivets
Used in installation of winterization
kit. Also in removal of rivets
MIL-S-22473, Grade H
Crimping tool, batte~
terminal
Drill, electric, 1/4-inch
Drill set, twist range 60
to 1
5120-00-293-0463
5130-00-889-8994
5130-00-449-6775
Drill, electric, V2-inch
Used for fwst time installation
of PADS in HMMV and SUSV
Drill, twist, 7/16-inch dia.
Used for fiist time installation
of PADS in HMMV
Drill, twist, 9/32-inch dia.
Used for first time installation of PADS in SUSV
Drill, twist, 11/32-inch dia
Enamel, alkyd, camouflage
color, forest green
MIL-E-52798
Extractor, circuit card
Used in removal of subfloor inserts
Touch-up paint
5133-00-227-9664
8010-00-111-7937
Used for removal of memory and
circuit cards from computer
Used for removal of circuit cards from
CDU
875435-1 (06481)
Used in removal of subfloor inserts
Used in the repair of cables and the
installation of the winterization kit
Used in the removal of the power
supply captive screws
Part of set 5120-00-610-1888
5110-00-289-9657 Or
5110-00-277-4589
5120-00-243-2985
Extractor, circuit card
Extractor, screw no. 5
Frame, hand hacksaw and
blades
Hammer, ballpeen, 4 oz.
3-8
Change 5
877490-1 (08481)
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 3-2. Tools and Materials Required for Direct Support Maintenance – Continued
Item
Purpose
Or
NSN
Specification
Hexhead driver, 7/64-inch for
1/4-inch drive
Used in conjunction with torque wrench to
torque covers on computer, CDU, and
computer power supply to computer
5120-00-761-2015
Hexhead driver, 3/16-inch for
1/4-inch drive
Used in conjunction with torque wrench to
torque the mounting bolt assemblies to IMU
mounts
5120-00-935-4612
Installation tool, insert TD 524L
Used in the replacement of inserts in subfloor
plate
Insulation sleeving, electrical,
heat shrinkable, polyolefin,
flexible, crosslinked
Used on component leads in power supplies
MIL-I-23053/5A
Key, sockethead, L-type handle
7/64-inch
Used in removal of computer and CDU covers
5120-00-889-2162
Key, sockethead, L-type handle,
7/64-inch
Used in removal of computer power from
computer
5120-00-951-6589
Knife, pocket
Used in scraping excess adhesive from gaskets
and unit involved
5110-00-240-5943
Lubricating oil, general purpose
0-196
Used to lubricate clamping and strike catches
Magnet
Used to reset unit malfunction
5120-00-5454268
Mirror, inspection
Used to view obstructed components
5120-00-596-1098
Multirneter AN/USM-223
Used for testing and troubleshooting
6625-00-999-7465
Pliers, slip-joint, 6-inch
Used in repair of captive screws
5120-00-224-1567
Pliers, long-nose, 6-or 6-1/2 inch
Used in removal and replacement of components
and computer power supply guide pins
5120-00-247-5177 or
5120-00-293-3481
Pliers, diagonal-cutting,
4-1/2 inch
Used in cutting and trimming of wire
5110-00-240-6209
Power supply, 28 VDC
MH 28-200rS (Christie)
Used for primary power during testing. Minimum
of 100 amps at 28 VDC required
6310-00-947-9670
Primer, thread sealant
Used to apply prior to applying sealing
compound MIL-S-22473, Grades C and H
MIL-S-22473
Punch, center
Used in the installation of the CDU mounting
bracket in winterization M151 series vehicle
5120-00-293-3512
Saw, hole, 1.00-inch O.D.
Used for first time installation of
cable W7 in HMMV and CUCV
Screwdriver, cross-tip, no. O,
4-inch
Used in removal and replacement of the elapsed
time indicator and the CDU front panel
assembly
5120-00-060-2004
Change 3
3-9
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 3-2. Tmls and Matarials Raquired for Direct Support Maintananca – Continuad
Purpose
Item
NSN
or specification
Screwdriver, cross-tip, no. 1,
3-inch
Used in removal and replacement of CDU
bracket, strip slide, guide pins, vibration and
support mounts, protection cover, thermostat
switch, heat exchange cover, computer cover
and air flow deflector, power supply air
deflector and circuit breakers, and installation
of the wintenzation kit
5 1204X)-240~716
Screwdriver, cross-tip, no. 2,
4-inch
Used in removal and replacement of vibration
and support mount, and power supply captive
screws
5 12000-2344i913
Screwdriver, flat-tip, 1/4-inch,
4-inch
Used in removal and replacement of computer
power supply, captive screw assembly, and
power supply circuit breakers
5 1204)0-222-8852
Screwdriver, blade, 1/4-inch by
0.032-inch for 1/4 -inch drive
Used in conjunction with the torque wrench in
torquing power supply cover
512000-316-9228
Soldering/resoldering set
Used in removal and replacement of IMIJ
thermostatic switch
34394)0460-7 198
Solder, rosin core
Usccl in sotdcring
3439-00-5554629
Stripper, wire
Used to strip wires and component leads in
preparing for soirJcring
51 204)0-278-2423
Tissue, lens, NNP40, Type 1,
Class 1
[Iscd in cleaning of photo diode assembly in
t apc reader und porro prism asscmbl y
66404)0-5974745
Voltmeter, Digital AN/GSM-64B
Used in testing and troubleshooting
66254Kt~22-7894
Whe, insulated, stranded:
12, 16,20, 22, and 28 AWG
Used to rcpiacc and repair existing wiring
MIL-W-16878
Wire, safety
Used in rcpkscing safety wire when connector
is repaired or wire is broken
MS 20995C-20
Wrench, combination, 7/16-inch
Used in removal and replacement of CDU
bracket, vibration and support mount,, and
installation of the wintcrization kit
5 120W-228-9505
Wrench, combination, 9/16-inch
Uscri in repair of battery box
5120-00-228-9507
Wrench, open end, fixed,
3/8-inch and 7/1 6-inch
Used in removal and rcplaccmcnt of IMU
mounting attachment and mounting bolts,
and t hc CDU front panel assembly
5120Q0-277-2342
Wrench, open end, fixed,
5/8-inch and 9/1 6-inch
Used in removal and replacement of CDU
utility bracket
5] 204)()-] 87-7126
Wrench, open end, freed, 3/44nch
and 7/8-inch
Used in removal and replacement of vibration
and support mount
5 120~-240-5609
Wrench, torque, screwdriver,
1/4-inch square drive
Used in torquing covers of computer, power
supply, and IMU mounts
5 1204)0-890-7816
Wrench, strap TG-70
Used in removal and replacement of connector
shells
3-10
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Section III. TROUBLESHOOTING
3-9. Troubleshooting. Troubleshooting actions for a
series of malfunctions are listed in table 3-3. The
probable causes of a malfunction are listed in order of
most likely occurrence or most logical troubleshooting
procedure. Troubleshooting steps should be performed
in the order given.
a. Software built-in-test features provide additional
diagnostic capability when the CDU and computer are
operating at least partially. Troubleshooting procedures
using this capability are given in table 3-4.
b. The system should be inspected for physical
damage which would prevent proper operation. A broken porro prism assembly or one with a damaged
mirror surface requires replacement of the IMU and
memory unit.
sparks. Avoid prolonged or repeated inhalation of vapors.
Do not remove top cover to IMU. The
IMU is a sealed unit and is to be returned
to depot for repair.
c. If a unit is opened for repair, inspect for water
penetration and/or corrosion. Carefully clean off corrosion products with isopropyl alcohol and a soft brush.
Inspect gaskets and other sealing devices and tighten or
replace as necessary, If a circuit card is removed,
inspect for bent or broken connector pins. Carefully
straighten bent pins. Broken pins are replaced at depot.
Isopropyl alcohol is flammable and gives
off harmful vapors. Use only in well-ventilated area away from open flames and
Change 1
3-11
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 3-3. Direct Support Troubleshooting
Probable cause
Malfunction
Troubleshooting/corrective action
NOTE
Fault indicators are normally black. Before applying power, inspect CDU, computer, and
PS for set (white) fault indicators and record for troubleshooting. Change fault indicators
from white to black by pressing LAMP after power has been applied.
If a malfunction occurs, recycle power and restart the test to verify. If more than one
fault indicator is set, the most likely defective unit (in priority order) is PS, computer,
CDU, and IMU. Cables are also suspect.
Because a computer memory module contains calibration data for a specific IMU, the
memory module and IMU must be replaced as a matched set. To check the serial number
of the IMU a particular memory is programmed for, press MON, ID,1,8, ENT. The disday should read 18 M, XXX, where XXX represents the IMU serial number. The Julian
date of the calibration data is in MON ID location 17.
1. BATTERY circuit breaker CB1
and/or VEHICLE circuit
breaker CB2 do not stay ON
a.
Defective circuit breaker
Replace PS. Refer to para 3-13d
b.
Short in PS
Replace PS. Refer to para 3-13d
Power source not on or
improper test set up
Check electrical connections as shown in
figure 3-1
Defective PS
Replace PS. Refer to para 3-13d
Defective cable W 1 or W3
Check cables. Refer to para 3-7. Replace as
necessary
Defective CDU
Replace CDU. Refer to para 3-13a
e.
Defective computer
Replace computer. Refer to para 3-13b
a.
PADS overheated
a. Let system cool down
a.
2. When the ON/OFF button is
pressed to turn system on, the
system shuts down when the
button is released or PADS does b.
not turn on when ON/OFF
button is pressed, but BATTERY c.
and VEHICLE circuit breakers
CB1 and CB2 stay ON and no
d.
malfunction flags are set
3. PADS stays on momentarily
after release of ON/OFF
button or shuts down with no
fault indicator set
b. Check fan operation. Refer to steps 4,
5, and 6
c. Clean cooling system. Refer to
TM 5-6675-308-12 and/or
TM 08837A-12/l
b. Defective IMU overtemp
thermostat
a. Turn PADS off and disconnect W5P2
from PS connector 3J1
b. Measure resistance between pins G and H
of W5P2
c.
If resistance is less than 100 kilohm,
replace IMU. Refer to para 3-13c
d. Reconnect W5
c.
3-12
Change 6
Defective PS
Replace PS. Refer to para 3-13d
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 3-3. Direct Support Troubleshooting - Continued
Probable cause
Malfunction
4. PS fan does not operate
continuously
a.
Troubleshooting/corrective action
Defective fan
Fan voltage is 115 VAC which can be lethal.
Use extreme care in measuring it.
a.
Disconnect PS fan
b. Measure voltage between pins A and B
and A and C of connector J6
c.
b. Defective PS
5. Both IMU and computer fan
do not operate (at temperatures
above 20°C (73°F))
a.
Defective IMU ambient
temperature thermostat
If both voltages are between 105 and 125
VAC, replace PS fan, Refer to
TM 5-6675-308-12 andlor TM 08837-12/1
If either voltage is out-of-tolerance, replace
PS. Refer to para 3-13d
a.
Turn PADS off and disconnect W5P1
from IMU connector 2J4
b. Measure resistance between pins K and N
of 2J4
c. If resistance is greater than 3 ohms,
replace IMU ambient temperature thermostat. Refer to para 3-18c
b. Defective cable W5
a.
Disconnect W5P2 from PS connector 3J 1.
Turn on PADS
b. Measure voltage between pins K and A, K
and N, and K and U of3Jl
c.
c.
6. Either IMU or computer fan
does not operate (at temperature
above 20°C (73°F))
Defective PS
a. Defective fan
If all voltages measure between 105 and
125 VAC, replace cable W5. Refer to
TM 5-6675-308-12 andlor
TM 08837A-12/l
If any voltage is out of tolerance, replace PS.
Refer to para 3-13d
a.
Disconnect W5P3 or W5P4 from nonoperating fan
b. Measure voltage between pins A and B, and
A and C of W5P3 for IMU or W5P4 for
computer
3-13
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 3-3. Direct Support Troubleshooting-Continued
Probable cause
Malfunction
Troubleshooting/correc tive action
c.
If both voltages are between 105 and
125 VAC, replace fan. Refer to
TM 5-6675-308-12 and/or
TM 08837A-12/l
b. Defective cable W5
See step 5b above
c.
See step 5C above
Defective PS
7. PADS shuts down with PS
FAIL fault indicator DS2
white
Defective PS
Replace PS. Refer to para 3-13d
8. PADS shuts down with computer fault indicator white
a. Computer overtemperature
shut down
Allow system to cool down. If system operates for a short period, check operation of
computer fan. Refer to steps 5 and 6.
Repair as necessary
b. Defective computer
thermostat
Measure resistance across computer thermostatic switch S 1 (Refer to para 3-15c to
separate computer power from computer subassembly to gain access to switch S 1 (30,
figure 3-7). If less than 300 ohms, disconnect
one lead from switch S 1. If resistance is
still less than 300 ohms, replace computer
c. Defective computer power
supply
Replace computer power supply. Refer to
para 3-15c
d. Defective computer
Replace the circuit cards below, listed in order
of probable malfunction. Refer to para
3-15a
(1) 1/0 Discrete card A9
(2) Data buffer card A6
(3)
Computer
(4) Memory module Al and IMU
9. PADS on but all CDU lights
are dark (fan(s) operate)
a. Intensity set dim
Perform lamp test. Refer to para 3-4
b. Defective cable W 1
Check WI. Refer to para 3-7. Replace as
necessary
c.
3-14
Defective computer supply
If fault indicators do not set white and then
reset black during lamp test, replace computer power supply. Refer to para 3-15c
d. Defective CDU
Replace CDU. Refer to para 3-13a
e.
Replace computer. Refer to para 3-13b
Defective computer
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 3-3. Direct Support Troubleshooting - Continued
Malfunction
10. Not all CDU lamps light on
lamp test
Probable cause
Troubleshooting/corrective
action
a. Burned out bulbs
Replace bulbs. Refer to TM 5-6675-30812 and/or TM 08837A-12/1
b. Defective CDU
a. Reverse CDU display register cards
A1 and A2. Refer to para 3-17a
b. If different lamps remain dark on
lamp test, replace defective card by
substitution
c. Replace A3 card
d. Replace CDU. Refer to para 3-13a
11. CDU lights but intensity does
not vary or varies sporadically
Defective computer
Replace computer I/O Discrete card A9.
Refer to para 3-15a
12. CDU malfunction flag is white
Defective CDU
a. If CDU functions, attempt diagnosis.
Refer to table 3-4
b. Replace CDU. Refer to para 3-13a
13. CDU COMP indicator lights
and/or computer malfunction
flag is white
Defective computer
a. If CDU functions, attempt diagnosis.
Refer to table 3-4
b. Replace
3-13b
computer.
Refer
to
para
c. If fault not corrected, replace memory
unit A1 (para 3-15b) and IMU. Refer
to para 3-13c
14. CDU IMU indicator lights
Defective IMU or computer a. Diagnose. Refer to table 3-4
b. Replace IMU (para 3-13c) and memory unit A1. Refer to para 3-15b
15. CDU CAL indicator lights after alignment is completed
IMU out of calibration
a. Perform IMU 30-day calibration, Refer to table 4-1, TM 5-6675-308-12
and/or TM 08837A-12/1
b. Replace IMU (para 3-13c) and memory unit. Refer to para 3-15b
16. CDU CHRG indicator lights
continuously
a. Defective battery
Check batteries. Refer to TM 9-6140200-14
b. Shorted cable W6
Check W6. Refer to para 3-7. Replace as
necessary
c. Defective PS
With PADS operating and VEHICLE
CB2 circuit breaker set to on, the voltage between pins A (+ lead) and F(–
lead) of PS connector 3J2 should be
+ 27 to + 29V. If not, replace PS.
Refer to para 3-13d
Change 1
3-15
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 3-3. Direct Support Troubleshooting – Continued
Troubleshooting/corrective action
Probable cause
Malfunction
17. PS BATT ‘FAIL fault indicator
DS 1 shows white
a. Batteries are low, have
failed, are disconnected, or
fuse in cableW11 is open
a. Check connections to cable assemblies
W6and Wll
b. Replace cable WI 1 if fuse is open. Refer
to TM 5-6675-308-12 and/or
TM 08837A-12/l
c. Check that PS VEHICLE circuit breaker
CB2 is ON
d. Test batteries and perform battery maintenance. Refer to TM 9-6140-200-14
b. Defective PS
18. CDU ALARM DS3 fails to
sound during lamp test
a.
ALARM DS3 failure
Replace PS. Refer to para 3-13d
a.
Measure voltage between the ALARM
DS3 leads during lamp test. Observe
polarity marked on ALARM DS3 or lead
color code (red, +; black, -)
b.
If voltage is greater than +4 V, replace
CDU. Refer to para 3-13a
Replace CDU. Refer to para 3-13a
b. CDU failure
Table 3-4. Troubleshooting with Bit Malfunction Words
Digit
Probable cause/troubleshooting
Malfunction
Value
NOTE
When PADS is operating, but with a fault indicator showing white or malfunction status
indicator lighted, obtain further diagnostic information as follows:
a. Press MON, ID, 1, ENT. Display should show 1 MAL XXXXXX. Record complete
displa~nonzero.
b. Repeat step a for MON ID numbers 2 and 5. Pressing +2 or -8 will sequence the
monitor ID number up or down.
Attempt to clear the malfunction as follows:
a.
If MAL 1 or 2 are not zero, select that display function and hold CLR until display zeros.
b. Press LAMP, then re~ease.
3-16
c.
The malfunction indicator (COMP, IMU) should go out, but may light again.
(Note and record if COMP or IMU indicator clears briefly when LAMP is released.)
d.
If the malfunction remains cleared, continue with the test.
Reference
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 3-4. Troubleshooting with Bit Malfunction Words – Continued
Digit
Value
e.
Malfunction
Probable cause/troubleshooting
Reference
If a malfunction indicator lights again, record which one lights and record the
nonzero contents of monitor ID 1 or 2.
f. If the malfunction does not clear, turn system off and realign.
g. If the malfunction does not repeat, continue with the test.
h. If the malfunction still exists, perform the following steps as applicable.
The malfunction word structure is ID MAL ABCDEF where:
ID represents the ID number of the particular malfunction word. ABCDEF
represents the 6 digits in the malfunction word. The numerical value of a digit
designates a particular malfunction. The table identifies the malfunction and
gives the probable cause and additional troubleshooting instructions.
Example: 02 MAL 000006 means digit F of ID 2 malfunction word has a value
of 6. This indicates two malfunctions: Time-out counter inoperative; and
time-out counter interrupt invalid.
ID 1 MAL
A
Not used
B
1JJ,4$,6
or 7
Checksum error
Replace memory Al and IMU, computer
and computer power supply
Para
Para
Para
Para
c
lor3
Discrete party fail
Replace computer discrete 1/0 A9
Para 3-15a
2or3
0p code test fail
Replace computer control no. 1 card A3
Para 3-15a
4,5,6, or 7
Memory test fail
a) Reseat computer memory Al, and tighten para 3 - 1 5 b
memory wedge locks
3-13b
3-15c
3-15b
3-13c
b) Replace computer, keeping old memory A 1
and IMU
Para 3-15b
c) Replace memory A 1 and IMU
Para 3-13c
Platform 1/0 short loop fail
Replace computer platform 1/0 card A8
Para 3-15a
2
Computer serial data bus
fail
Replace computer 1/0 controller card A7
Para 3-15a
4
A/D ShOXt 100P fail
Replace computer A/D card Al 1
Para 3-15a
E4
CDU serial data bus
Refer to ID 5 MAL
D1
F
Not used
Change 6
3-17
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 3-4. Troubleshooting with Bit Malfunction Words – Continued
Malfunction
Value
Digit
Probable cause/troubleshooting
Reference
ID 2 MAL
Al
B
1,2J ,4,5,6,
or 7
cl
IMU input discrete fail
Replace IMU and computer memory A 1
Para 3-13c
Para 3-15b
Excessive synchro rates
a) Replace computer A/D card A 11
Para 3-15a
b) Replace IMU and computer memory A 1
Para 3-13c
Para 3-15b
a) Replace computer platform 1/0 card A8
Para 3-15a
b) Replace IMU and computer memory A 1
Para 3-13c
a) Check IMU fan operation
Table 3-3,
steps 5
and 6
Alignment failure
2J,4,5 ,6,
or 7
IMU temperature test fail
or IMU discrete test fail
b) Check cables to IMU
c) Replace computer A/D card A 11
d) Replace IMU and computer memory A 1
D
E
ls,5,0r7
Not used
2
IMU interpolator fail
Replace IMU and computer memory Al
Para 3-13c
Para 3-15b
4or6
Excessive motion
a) Reinitialize system
Table 3-1
b) Replace IMU and computer memory A 1
Para 3-13c
l~,5,0r7
Real-time clock failure
Replace computer 1/0 controller card A7
Para 3-15a
2J,4,5,6,
or 7
Pitch or roll greater than 5°
during alignment
a) Move vehicle to level surface and
reinitialize
Table 3-1
b) Replace IMU and computer memory Al
Para 3-13c
OR
System update error
NOTE
Para 3-15b
To display pitch, use ID 27; to display roll, use
ID 28
F]
2~,4,5,6,
or 7
Time-out counter interrupt
a) Replace computer 1/0 discrete card A9
OR
b) Replace computer control card no. 3 AS
Time-out counter failure
3-18
Table 3-3,
step 8
Computer overtemperature
c) Replace computer 1/0 control card A7
Para 3-15a
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 3-4. Troubleshooting with Bit Malfunction Words – Continued
Malfunction
Value
Digit
Probable cause/troubleshooting
Reference
ID 5 MAL
Al
Serial data bus error
detected (CDU to
computer)
Replace computer Data Buffer Card A6
Para 3-15a
B
1 LS ,45,6,
or 7
c
1,22,45,6,
or 7
Serial data bus error
(computer to CDU’)
Replace control card A3
Para 3-17a
D
1JJ,4,5,6,
or 7
CDU display register error
Replace CDU display register card A 1
Para 3-17a
E
12,0r3
CDU display register error
Replace CDU display register card A2
Para 3-17a
4
CDU display register error
Replace CDU display register card A 1
Para 3-17a
5,6,0r7
CDU display register error
Replace CDU display register cards Al and AZ
Para 3-17a
135,7
Not used
2,4,6
CDU display register error
Replace CDU display register card A2
Para 3-17a
F
3-19
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Section IV. MAINTENANCE OF PADS
3-10. General. Direct support maintenance of PADS
includes replacement of the IMU, CDU, computer,
computer power supply, and power supply, and repairs
to those units as well as the mounting base subassembly, battery box, installation kit, transit case, and
winterization kit.
a. Torquing is required to ensure proper sealing of
the computer, CDU and power supply, and mounting of
the IMU. General torquing procedures are given in
paragraph 3-11,
3-11. Torquing.
a. Use of Torque Wrench. (See figure 3-3.)
(1) Place desired driver on torque wrench.
(2) Set dial so main power is on zero.
(3) Set follow-up pointer to zero.
(4) Tighten fastener, with an uninterrupted rotary
motion, to the desired torque value. The follow-up pointer will indicate the maximum
torque applied, Make sure the driver is perpendicular to the fastener head at all times.
b. Torquing Sequence. To provide consistent sealing, fasteners must be torqued in a specified pattern
with progressively increasing torque values. First, all
fasteners are torqued to 1/3 the specified maximum
value. Next, all fasteners are torqued 2/3 the specified
value, Finally, the fasteners are torqued to the specified
value. The torque patterns for the various units are
shown in figure 3-4.
3-12. Removal and Replacement of IMU in Transit
Case. This paragraph describes the removal and replacement of the IMU in the transit case. Figure 3-5
shows the IMU installed in the transit case.
a. Removal.
(1) Release latches securing cover to transit base.
(2) Press pressure relief valve until air pressure is
equalized.
(3) Lift off transit case cover.
(4) Check humidity indicator. Take the action
shown on the indicator.
(5) Loosen IMU retaining bolts.
(6) Remove IMU.
(7) Loosen memory unit compartment cover
screws.
3-20
Change 6
(8) Remove cover.
(9)
Loosen memory unit wedgelock screws.
(lo)
Remove memory unit.
(11)
Inspect transit case shock and vibration isolator mounts. Replace if frayed, broken, or
loose.
b. Replacement.
(1) Insert memory unit in compartment and
tighten wedgelock screws.
(2) Secure cover to memory unit compartment.
(3) Install IMU in transit case and torque IMU
retaining bolts to 50 inch-pounds.
(4) Carefully place cover on transit case and secure with latches.
3-13. Unit Replacement. This paragraph describes procedures for the removal and replacement of the CDU.
computer, computer power supply, IMU, and power
supply. Figure 3-1 shows PADS interconnections and
figure 3-6 is an exploded view of the primary pallet.
a. CDU. Remove and replace CDU (4, figure 3-6)
as follows:
(1) Removal.
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
44-902-34
Figure 3-3. Torque Wrench Set
(a)
Disconnect cable assembly W 1 conector
W1P1 from CDU (4) connector 4J1.
(b)
Release clamping catches securing CDU (4)
to computer (5) if CDU is being stored on
top of computer. If CDU is mounted on
utility truck dashboard, release clamping
catches securing CDU to CDU bracket.
(2) Replacement.
(a) Secure CDU (4) to top of computer (5) or to
CDU bracket on utility truck dashboard.
(b) Connect cable assembly W 1 connector
W1P1 to CDU (4) connector 3J1.
b. Computer. Remove and replace computer (5,
figure 3-6 with computer power supply (6) as follows:
(1)
Removal.
NOTE
If CDU (4) is being stored on top of
computer, remove as described in previous paragraph.
(b) Loosen four captive screws (3) securing
computer power supply (6) to computer
mounting base (12). Remove computer (5)
with computer power supply (6).
(2) Replacement.
(a) Place computer (5) with computer power
supply (6) on computer mounting base (12).
Align mounting holes.
(b) Tighten four captive screws (3) securing
computer power supply (6) to computer
mounting base (12).
(a) See figure 3-1 and disconnect cables from
computer as follows:
(c) See figure 3-1 and connect cables to computer as follows:
1. Disconnect cable assembly W 1 connector
W1P1 from computer connector 1J3.
1. Connect cable assembly W 1 connector
W 1P2 to computer connector 1J3.
2. Disconnect cable assembly W2 connector
W2P2 from computer connector lJ1.
2. Connect cable assembly W2 connector
W2P2 to computer connector lJ1.
3. Disconnect cable assembly W3 connector
W3P2 from computer connector 1J4.
3. Connect cable assembly W3 connector
W3P2 to computer connector 1J4.
3-21
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 3-4. Torquing Sequence Patterns (Sheet 1 of 2)
3-22
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 3-4. Torquing Sequence Patterns (Sheet 2 of 2)
3-23
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 3-5. IMU Installed in Transit Case (Sheet 1 of 2)
3-24
Change 1
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 3-5. IMU Installed in Transit Case (Sheet 2 of 2)
c. IMU. Remove and replace IMU (9, figure 3-6) as
follows:
IMU mounting bolt heads are secured to
the bolts by shear pins to prevent overtightening. Use torque wrench to torque
the bolts to prevent breakage. If a cap is
broken off, unscrew the bolt with a flattip screw driver.
NOTE
■
Memory unit Al (7 or 7.1. figure 3-7) and
IMU (9, figure 3-6) are supplied as a
matched set in the IMU transit case (figure 3-5). When IMU is replaced, matching memory unit Al must be installed in
computer.
(1) R e m o v a l .
(a) See figure 3-1 and disconnect cables from
IMU as follows:
1. Disconnect cable assembly W2 connector
W2P1 from IMU connector 2J1.
2. Disconnect cable assembly W4 connector
W4P1 from I MU connector 2J3.
3. Disconnect cable assembly M5 connector
W5P1 from IMU connector 2J4.
4. Disconnect cable assembly W5 connector
W5P3 from IMU connector 2J5.
(b) Swing plum bob arm (7, figure 3-6) out to
provide clearance.
(c) Loosen two bolt assemblies (10) securing
IMU (9) to IMU mounts (8) and pull IMU
(9) back to disengage guide pin (11) from
computer mounting base (12).
(cl) Lift IMU (9) out through side of mounting
base frame (13) opposite the plumb bob arm
(7)
(2) Replacement.
(a) Install IMU (9) through side of mounting
base frame (13).
(h) Engage guide pin (11) in hole provided in
computer mounting base (12).
(c) Engage and torque to 25 inch-pounds two
bolt assemblies (10) securing IMU (9) to
IMU mounts (8).
(d) Check IMU foot contact.
(e) Increase torque to 50 inch-pounds for the
two bolt assemblies (10).
Change 1
3-25
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 3-6. Primary Pallet Exploded View
3-26
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Legend for Figure 3-6
1. Power supply
2. Captive screw
3. Captive screw
4. CDU
5. Computer
6. Computer power supply
7. Plumb bob arm
(f) Swing plumb bob arm (7) up to stowed
position.
(g) See figure 3-1 and connect cables to IMU as
1. Connect cable assembly W3 connector
W2P1 to IMU connector 2J1.
2. Connect cable assembly W4 connector
W4P1 to IMU connector 2J3.
8. IMU mount
9. IMU
10. Bolt assembly
11. Guide pin
12. Computer mounting base
13. Mounting base frame
(b) Engage and tighten four captive screws (2)
secuirng ower supply (1) to mounting base
frame (13).
(c) See figure 3-1 and connect cables to power
supply as follows:
1. Connect cable assembly W3 connector
W3P1 to power supply connector 3J5.
2. Connect cable assembly W4 connector
W4P2 to power supply connector 3J3.
3. Connect cable assembly W5 connector
W5P1 to IMU connector 2J4.
3. Connect cable assembly W5 connector
W5P2 to power supply connector 3J1.
4. Connect cable assembly W5 connector
W5P3 to IMU connector 2J5.
4. Connect cable assembly W211 connector
W21lP1 to power supply connector 3J4.
5. Connect cable assembly W6 connector
W6P1 to power supply connector 3J2.
d. Power Supply. Remove and replace power supply (1, figure 3-6) as follows:
(1) Removal.
(a) See figure 3-1 and disconnect cables from
power supply as follows:
1. Disconnect cable assembly W6 connector
W6P1 from power supply connector 3J2.
2. Disconnect cable assembly W211 connector W21lP1 from power supply connector 3J4.
3-14. Gasket Replacement. Gaskets on the IMU cover,
porro prism cover, computer top cover, computer/
computer power supply, computer power supply end
plate, circuit breaker covers, and power supply bottom
cover and side cover are replaced using the same
general procedure.
a. Peel old gasket from mounting surface.
3. Disconnect cable assembly W3 connector
W3P1 from power supply connector 3J5.
b. Carefully scrape off old adhesive from mounting
surface. Do not remove the metal protective
finish by sanding, etc.
4. Disconnect cable assembly W4 connector
W4P2 from power supply connector 3J3.
c. Clean-the mounting surface by wiping with isopropyl alcohol and a lint-free cloth.
5. Disconnect cable assembly W5 connector
W5P2 from power supply connector 3J1.
(b) Loosen’ four captive screws (2, figure 3-6)
securing ower supply (1) to mounting base
frame (13) . Remove power supply (l).
(2) Replacement.
(a) Place ower supply (1) in mounting base
frame 13).
( Align mounting holes.
Isopropyl alcohol is flammable and gives
off harmful vapors. Use only in well ventilated area away from open flames and
sparks. Avoid prolonged or repeated inhalation of vapors.
3-27
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
NOTE
d.
e.
f.
g.
Use silicone adhesive (RTV 156 or 30079) on IMU cover, computer cover,
computer/computer power supply, computer power supply end plate, and power
supply bottom cover and side cover
gaskets.
Use silicone adhesive (MIL-A-46146,
Type I) on circuit breaker covers and
porro prism cover gaskets.
Apply a thin, even coat of silicone to mounting
surface.
Install gasket on mounting surface. Align holes.
Apply sufficient pressure to gasket to provide a
good bond and force out excess adhesive. Remove excessive adhesive.
Mate the subassembly to its counterpart, Tighten
the screws with moderate, even pressure, Do not
torque to final value until adhesive has cured for
24 hours.
3-15. Computer Maintenance. Repair of the computer
consists of removal and replacement of circuit cards,
memory unit, computer power supply, and radio frequency interference (RF1) gasket, and repair of the
mount bracket, Figure 3-7 is an exploded view of the
computer.
a. Circuit Card Assembly. Remove and replace
circuit card assemblies A2 through A9 and All (20,
thru 28, figure 3-7) as follows:
When removing, replacing, or handling A/D
converter card assembly All, do not touch
connector pins or components on face of
card as damage to the assembly may result.
Ensure that assembly A11 is transported
in conductive bag with CAUTION label
identifying its contents as static-sensitive
device.
3-8.
(2) Replacement.
NOTE
Circuit card assembly connectors are
keyed to prevent insertion of circuit card
assemblies in wrong connectors, Inspect
mating connectors for bent or broken pins
before inserting a new card.
(a) Install circuit card assemblies (20 thru 28,
figure 3-7) as follows:
1. Insert card into card guide and carefully
guide it into place. If card jams, use card
extractor to pull it back out, Refer to
table 3-5 for card identification,
2. Just before the connectors mate, verify
card is free in its guides and its top edge
is parallel to the computer top surface.
3. Seat the card by applying moderate, even
pressure at both sides. The top should be
flush with the computer top surface. If
excessive insertion force is required or the
card extends above the computer, pull the
card out and inspect for bent or broken
connector pins.
(b) Inspect RFI gasket (29). Replace if cracked,
broken, loose or excessively compressed.
(c) Place computer cover (3) on computer
subassembly (10); align mounting holes.
(d) Engage 16 screws (2) and washers (1) securing com uter cover (3) to computer subassembly (10) and torque to 16 inch-pounds
using procedures described in paragraph
3-11.
b. Memory Unit. Remove and replace memory unit
Al (7 or 7,1, figure 3-7) as follows:
Prior to removal of assembly from packaging, operator should discharge static
electricity by making arm contact with an
earth ground.
When removing, replacing, or handling solid
state memory unit A1 (7), do not touch connector pins or components on face of card
as damage to the memory may result.
NOTE
Ensure that the memory is transported in
conductive bag with CAUTION label
identifying its contents as static-sensitive
device.
Prior to removal of the memory from
packaging, operator should discharge
static electricity by making arm contact
with earth ground.
Computer may remain in primary pallet
for card replacement.
(1) Removal
(a) Loosen 16 captive screws (2) and washers
(1) securing computer cover (3) to computer
subassembly (10); remove cover.
3-28
(b) Use card extractor to remove circuit card
assemblies (20 thru 28) as shown in figure
Change 5
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 3-7. Computer Exploded View
Change 5
3-29
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Legend for Figure 3-7
1.
2.
3.
4.
5.
6.
7.
7.1
8.
9.
10.
11.
12.
13.
14.
15.
Washer
Screw
Computer cover
CDU Mount bracket
Catch strike
Screw
Solid state memory unit Al
Core memory unit Al
Screw
Wedgelock
Computer subassembly
Washer
Screw
Air deflector
Screw
Washer
16. Guide pin
17. Captive screw assembly
18. Computer power supply
19. RFI gasket
20. A/D converter circuit card assembly Al1
21. I/O discrete circuit card assembly A9
22. Platform I/O circuit card assembly A8
23. I/O controller circuit card assembly A7
24. Data buffer circuit card assembly A6
25. Control no. 3 circuit card assembly A5
26. Control no. 2 circuit card assembly A4
27. Control no. 1 circuit card assembly A3
28. 16-bit data circuit card assembly A2
29. RFI gasket
30. Thermostatic switch S1
44-902-33
Figure 3-8. Typical Circuit Card Assembly Removal
NOTE
NOTE
Memory unit and IMU are supplied as a
match set. When a memory unit is replaced, the matching IMU must be installed.
Computer may remain in primary pallet
for core memory unit replacement.
(1) Removal.
3-30
Change 1
(a) Loosen 16 captive screws (2) and washers
(1) securing computer cover (3) to computer
subassembly (10); remove computer cover.
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 3-5. Computer Circuit Card Assembly Identification
Figure 3-7
card
i&iex no.
Pati no.
20
880788-3 (preferred)
880788-1,
88:;:;;jmd
Cards nomenclature and
reference designator
Part no. location on card
A/D converter circuit card
assembly Al 1
Near top edge (opposite connector
end) on component side
1/0 discrete circuit card
assembly A9
Along side edge about middle of
board on component side
Platform 1/0 circuit card
assembly A8
Near top edge (opposite connector
1/0 controller circuit card
assembly A7
Data huller circuit card
assembly A6
Near top edge (opposite connector
end) on component side
Near top edge (opposite comector
end) on component side
Control no. 3 circuit card
assembly AS
Control no. 2 circuit card
assembly A4
Near top edge (opposite connector
end) on component side
Along side edge near top edge
(opposite connector end) on
component side
Near top edge (opposite connector
end) on component side
Along side edge near top ,edge
(opposite comector end) on
component side
(altema;e)
21
22
880740-4
(preferred)
880740-2
(aitemate)
880778-3
(preferred)
880730-3,
880730+
880778-1, and
880778–2 (aitemate)
23
880745-2
24
25
880748-1
(preferred)
88070S2
(alternate)
880795-1
26
880785-1
27
880775-1
28
880755-1
Control no. 1 circuit card
assembly A3
18-bit data circuit card
assembly A2
(b) Loosen (turn counterclockwise) two screws
(8) securing wedgelock (9) until memory
unit (7 or 7. 1) is free.
end) on component side
(c) Use card extractor to remove memory unit
(2) Replacement.
NOTE
NOTE
It may be necessary to loosen the wedges
if they become frozen. This can be done
by simply tapping the wedge screws
downward until the bottom wedges become loose. The top wedges may be loosened by placing a 1/8-inch straight-slot
screw driver between the memory upper
wedge and the computer outside case,
prying the wedge inward until loose.
Inspect mating connectors for bent or
broken pins before installing a memory
unit.
(a) Install memory unit (7 or 7.1) as follows:
1. Insert memory unit into slot in computer
with wedge-locks facing to the rear of
computer and carefully guide it into
place.
Change 7
3-31
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Just before the connectors mate, check
that the memory unit is free in its guides
and its top edge is parallel to the computer top surface.
3. Seat the memory unit by applying moderate, even pressure at both sides. The top
should be flush with the computer top
surface. If excessive insertion force is required or the memory unit extends above
the computer, pull the memory out and
inspect for bent or broken connector pins.
2.
■
■
(b) Tighten two screws (8) in wedgelock (9)
until wedge is tight against edge of slot.
(c) Inspect RFI gasket (37). Replace if cracked,
broken, loose, or excessively compressed.
(d) Place computer cover (3) on computer
subassembly (10); align mounting holes.
(e) Torque 16 screws (2) and washers (1) securing com uter cover (3) to computer subassembly (10) to 16 inch-pounds using procedures described in paragraph 3-11.
c. Computer Power Supply and Computer Subassembly . Remove and replace computer power supply
(18, figure 3-7) or computer subassembly (10) as follows:
(1) Removal.
(a) Remove six screws (12) and washers (11)
securing each of two air deflectors (13) to
computer subassembly (10). Remove two air
deflectors,
(b) Loosen 16 captive screws (14) and washers
(15) securing computer subassembly (10) to
computer power supply (18). Remove computer power supply.
(2) Replacement.
(a) Inspect guide pins (16). Replace if bent or
broken.
(b) Inspect connectors. Replace computer
subassembly if pins are bent or broken.
(c) Inspect RFl gasket (19). Replace if cracked,
broken, loose, or excessively compressed.
(d) Inspect captive screw assembies (17). Replace if broken or threads are damaged.
(e) Place computer power supply (18) on computer subassembly (10).
Ti
hten 16 captive screws (14) and washers
(f)
(15) securing computer power supply (18) to
computer subassembly (10). Torque to 16
inch-pounds using procedures described in
paragraph 3-11.
3-32
Change 1
(g) Place two air deflectors (13) against computer subassembly (10); align mounting
holes.
(h) Install six screws (12) and washers (11) securing each of two air deflectors (13) to n
computer subassembly (10).
d. CDU Mount Bracket Repair. Repair of the CDU
mount bracket (4, figure 3-7) consists of replacing the
catch strikes (5). Repair mount bracket as follows:
(1) Remove four screws (6) securing CDU mount
bracket (4) to computer cover (3); remove
bracket.
(2) Remove swa ed portion of two rivets securing
catch strike (5) to mount bracket (4) by drilling or other suitable means. Remove rivet and
catch strike.
(3) Place catch strike (5) in position on mount
bracket (4).
(4) Secure catch strike (5) to mount bracket (4)
with rivets. Swage rivets in place.
(5) Install mount bracket (4) on computer cover
(3) and secure with four screws (6).
3-16. Computer Power Supply Maintenance. Repair of
the computer power supply consists of removal and
replacement of guide pins, captive screws, and RFI
gaskets.
a. Guide Pins.
(1) Removal. Unscrew guide in (16, figure 3-7)
from power supply chassis (18).
(2) Replacement. Screw guide pin (16) into power
supply chassis (18).
b. Captive Screw.
(1) Removal. Unscrew captive screw (17, figure
3-7) from retainer nut on bottom surface of
power supply chassis (18).
(2) Replacement.
Isopropyl alcohol is flammable and gives
off harmful vapors. Use onlv in well-ventilated areas away from open flames and
sparks. Avoid prolonged or repeated inhalation of vapors.
(a) Clean internal threads of captive screws (17)
and external threads of retainer nut using
isopropyl alcohol (TT-I-735).
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
(b) Apply sealing compound primer (MILS-22473) to male threads of retainer nut.
(c) After primer has dried, apply sealing compound (MIL-S-22473, Grade C) to male
threads of retainer nut. Sealing compound
shall cover the full engaging length of one
of the mating components; assemble parts.
3-17. CDU Maintenance. CDU repair consists of removal and replacement of circuit card assemblies. Figure 3-9 is an exploded view of the CDU.
a. Display Logic Circuit Card Assemblies Al and
A2 and Keybord and Control Circuit Card Assembly A3.
Remove and replace display logic circuit card assembly
Al or A2 (4 or 5, figure 3-9) or keyboard and control
circuit card assembly A3 (6) as follows:
(1) Removal.
(a) Remove 16 screws (1) and washers (2) securing control and display panel (3) to control
and display unit cover (7). Separate control
and display unit cover (7) and control and
display panel (3) to provide access to circuit
card assemblies,
(b) Using card extractor, remove display logic
circuit card assembly Al (4), A2 (5), or
keyboard and control circuit card assembly
A3 (6) as applicable.
(2) Replacement.
(a) Insert card into guide and carefully guide it
into place. If card jams, pull it back out
with card extractor. Refer to table 3-6 for
card identification.
(b) Just before the connectors mate, check that
card is free in its guides and its top edge is
parallel to the CDU top surface.
(c) Seat card by applying moderate even pressure at both sides. If excessive insertion
force is required or the card is not fully
seated, remove the card and inspect for bent
or broken connector pins.
(d) Inspect gasket (8). Replace if cracked, tom,
loose, or excessively compressed.
(e) Place control and display panel (3) against
control and display unit cover (7). Secure
control and display panel (3) to control and
display unit cover with 16 screws (1) and
washers (2) and torque to 5 inch-pounds
using procedures described in paragraph
3-11.
3-18. IMU Maintenance. Repair of the IMU consists of
removal and replacement of bolt assemblies, guide pin,
thermostatic switch, and repair of the IMU cover and
porro prism cover. Figure 3-10 is an exploded view of
the IMU.
a. Bolt Assembly. Remove and replace bolt assembly (21, figure 3-10) as follows:
(1) Removal.
(a) Remove retainer nut (19) securing bolt assembly (21) to lower IMU subassembly (13).
(b) Remove bolt assembly (21). Retain two
washers (20) for reassembly.
(2) Replacement.
Isopropyl alcohol is flammable and gives
off harmful vapors. Use only in well-ventilated area away from open flames and
sparks. Avoid prolonged or repeated inhalation of vapors.
(a)
Clean bolt assembly (21) threads using isopropyl alcohol and clean, lint-free cloth;
wipe dry.
(b)
Place washers (20) on bolt assembly (21);
insert bolt assembly (21) through mounting
hole.
(c)
Apply sealing compound primer (MILS-22473) to bolt assembly (21) threads; allow to dry.
(d)
Apply sealing compound (MIL-S-22473,
Grade C) to bolt assembly (21) threads,
(e)
Install retainer nut (19) securing bolt assembly (21) to lower IMU subassembly (13).
Torque retainer nut 10 to 12 inch-pounds.
b. Guide Pin. Remove and replace guide pin (14,
figure follows:
(1) Removal. Unscrew guide pin (14) from lower
IMU subassembly (13).
(2) Replacement.
Isopropyl alcohol is flammable and gives
off harmful vapors. Use only in well-ventilated area away from open flames and
sparks. Avoid prolonged or repeated inhalation of vapors.
3-33
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 3-9. CDU Exploded View
3-34
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Legend for Figure 3-9
5.
6.
7.
8.
1. Screw
2. Washer
3. Control and display panel
4. Display logic circuit card assembly A1
Display logic circuit card assembly A2
Keyboard and control circuit card assembly A3
Control and display unit cover
Gasket
Table 3-6. CDU Circuit Card Assembly Identification
Card nomenclature and
reference designator
Figure 3-9
index no.
Card
part no.
4,5
880805-1
Display logic circuit card
assembly A1 and A2
On one end of connector on component
side
6
880815-1
Keyboard and control circuit card
assembly A3
Near top edge (opposite connector end) on
component side
Part no. location on card
(c) Apply sealing compound (MIL-S-22473,
Grade C) to guide pin (14) threads.
c. Ambient Temperature Thermostatic Switch. Remove and replace thermostatic switch (4, figure 3-10) as
follows:
(1) Removal.
(a) Remove two screws (l), washers (2), and
cover plate (3) securing thermostatic switch
(4) to upper IMU subassembly (12). Remove
thermostatic switch (4) far enough to provide access to soldered connections.
Install guide pin (14) in lower IMU subassembly (13). Torque guide pin 90 to 100
inch-pounds.
(b) Tag and unsolder all wires connected to
thermostatic switch (4). Remove thermostatic switch and gasket (7).
(a) Clean guide pin (14) threads using isopropyl
alcohol and clean, lint-free material; wipe
dry.
(b)
(d)
Apply sealing compound primer (MILS-22473) to guide pin (14) threads; allow to
dry.
Lagend for Figure 3-10
1.
Screw
Washer
Cover plate
Thermostat switch S3
Capacitor C3
Capacitor C4
Gasket
Screw
Clamping catch
10. Washer
11. Nut
2.
3.
4.
5.
6.
7.
8.
9.
12. Upper IMU subassembly
13. Lower IMU subassembly
14. Guide pin
15. Porro prism cover
16. Screw
17. Washer
18. Clamping catch
19. Retainer nut
20. Washer
21. Bolt assembly
22. IMU cover
3-35
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 3-10. IMU Exploded View
3-36
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
(c) Remove capacitors C3 and C4 (5 and 6)
from thermostatic switch (4).
(2) Replacement.
Isopropyl alcohol is flammable and gives
off harmful vapors. Use only in well-ventilated area away from open flames and
sparks. Avoid prolonged or repeated inhalation of vapors.
(a) Release two clamping catches (18) and remove porro prism cover (15) from IMU.
(b) Remove two screws (16) and washers (17)
securing clamping catch (18) to porro prism
cover (15). Remove clamping catch.
(2) Replacement.
(a) Secure clamping catch (18) to porro prism
cover (15) with two screws (16) and washers
(17).
(b) Fit porro prism cover to IMU and secure
with two clamping catches.
(a)
Clean mountin surfaces of capacitors C3
and C4 (5 and 6) and thermostatic switch (4)
using isopropyl alcohol and lint-free material.
3-19. Installation Kit Maintenance. Maintenance of the
installation kit consists of repairing the sub-floor plate,
subfloor mounting bracket, and the control display unit
bracket.
(b)
Apply adhesive (MIL-A-46146, Type 1) to
mounting surfaces of capacitors C3 and C4
(5 and 6) and thermostatic switch (4). Mount
capacitors. C3 and C4 (5 and 6) on thermostatic switch (4).
(c)
Cure adhesive for 72 hours minimum.
(d)
Install gasket (7).
a. Subfloor Plate. Repair of the subfloor plate consists of replacing threaded inserts, repairing broken
welds on strap tiedowns and stud, and removing dents.
(1) Threaded Insert. Remove and replace threaded
inserts in accordance with figure 3-11.
(2) Strap tie-downs. Repair broken welds per
MIL-W-8611.
(3) Stud. Repair broken welds per MIL-W-8611.
b. Subfloor Mounting Bracket. Repair of the subfloor mounting bracket consists of replacing nut plates
and removing dents.
(1) Nut plate. Remove and replace nut plate as
follows:
(a) Removal. Remove rivets securing nut plate
by drilling or other suitable means. Remove
nut place.
(b) Replacement.
1. Secure nut plate in position with rivets.
2. Swage rivets in place.
Prepare and solder wires connecting thermostatic switch (4) and capacitors C3 and
C4 (5 and 6) using standard shop practices.
Clean solder joint; remove excess flux.
(f)
Install two screws (l), washers (2), and cover
plate (3) securing thermostatic switch (4) to
upper IMU subassembly (12).
d. IMU Cover Repair. Repair of the IMU cover
(22, figure 3-10) consists of replacing the clamping
catch(es) (9). Remove and replace the clamping
catch(es) as follows:
(1) Removal.
(a) Release clamping catch (9) from catch
strike.
(b) Remove two screws (8), washers (10), and
nuts (11 ) securing clamping catch (9) to
IMU cover (22). Remove clamping catch.
(2) Replacement.
(a) Secure clamping catch (9) to IMU cover
(22) with two screws (8), washers (10), and
nuts (11).
(b) Latch clamping catch (9) to catch strike.
e. Porro Prism Cover Repair. Repair of the porro
prism cover (15, figure 3-10) consists of replacing the
clamping catch(es) 18). Remove and replace the clamping catch(es) as follows:
(1) Removal.
3-20. Electrical Equipment Mounting Base Maintenance. Maintenance of the electrical equipment mounting base consists of replacing upper and lower vibration
mounts, support strips, rear retainers, and plumb bob
assembly, and repair of the plumb bob assembly. Figure
3-12 is an exploded view of the electrical equipment
mounting base.
a. Vibration Mounts. Remove and replace upper
and lower vibration mounts (7, or 26, figure 3-12, sheet
2) as follows:
(1) Removal.
(a) Remove stop (2, upper) or screw (32, lower),
and washer (3, upper or 31, lower) securing
spacer (6, upper or 29, lower) to mounting
3-37
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
1. THIS STEP REQUIREDONLYWHEN REPLACING
AN INSERT THE FIRST TIME. ENLARGE HOLE IN
SUBFLOOR PLATE WlTH 9/16 IN. DRILL BIT. BE
CAREFUL TO DRILLJUSTTHRU SUBFLOOR
PLATEANDMINIMIZE REMOVALOF MATERIAL
FROM BLOCK.
2. DRILL INSERT WITH 11/32 IN. BIT TO A DEPTH
OF 3/16 IN. TO EXPOSE KEES.
3. DEFLECT KEES INWARD AND BREAK OFF.
4. REMOVE THREADED INSERT WITH SCREW
EXTRACTOR.
5. SLIDE INSERT ONTO INSERTION TOOL AND
6. INVERT TOOL OVER KEES. TAP TOP OF TOOL
WITH HAMMER UNTIL KEES ARE DRIVEN FLUSH
THREAD INSERT INTO BLOCK UNTIL BOTTOM
WITH TOP OF INSERT. REMOVE TOOL.
EDGEOFKEESCONTACT THE COUNTERSINK
IN THE BLOCK.
Figure 3-11. Threaded Insert Removal and Replacement
3-38
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 3-12. Electrical Equipment Mounting Base Exploded View (Sheet 1 of 2)
Change 7
3-39
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 3-12. Electrical Equipment Mounting Base Exploded View (Sheet 2 of 2)
3-40
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
1. Mounting base frame
2. Stop
3. Washer
4. Jumper
5. Mounting plate
6. Spacer
7. Upper vibration mount
8. Screw
9. Washer
10. Washer
11. Lockwasher
12. Screw
13. Orifice
14. Support strip
15. Screw
15.1 Washer
16. Screw
16.1 Washer
17. Support strip
Legend for Figure 3-12
18. Screw
19. Lockwasher
20. Washer
21. Retainer
22. Orifice
23. Screw
24. Lockwasher
25. Washer
26. Lower vibration mount
27. Washer
28. Screw
29. Spacer
30. Jumper
31. Washer
32. Screw
33. Plumb bob assembly
34. Washer
35. Screw
plate (5). Remove jumper (4, upper or 30, lower).
(b) Remove four screws (8, upper or 28, lower) and
washers (9, upper or 27, lower) securing
vibration mount assembly to mounting base
frame (1).
Remove vibration mount (7, upper or 26, lower)
and orifice F13, upper or 22, lower).
(d) Remove screw (12, upper or 23, lower), washer
(10, upper or 25 lower), and lockwasher (11,
upper or 24, lower) securing spacer (6, upper or
29, lower).
(c)
(2) Replacement.
Upper vibration mounts differ from lower
vibration mounts in strength and load
range. Check that correct replacement part
(check part number on vibration mount) is
used.
(a)
Secure spacer (6, upper or 29, lower) to vibration
mount (7, upper or 26, lower) with screw (12,
upper or 23, lower), lockwasher (11, upper or 24,
lower), and washer (10, upper or 25, lower).
(b) Place orifice (13, upper or 22, lower) and
vibration mount (7, upper or 26, lower) in
position on mounting base frame (1).
(c) Install four screws (8, upper or 28, lower) and
four washers (9, upper or 27, lower).
(d) Inspect jumper. Replace if frayed.
(c) Install stop (2, upper) or screw (32, lower),
washer (3, upper or 31, lower), and jumper (4,
upper or 30, lower) to mounting plate (5). Use a
wrench to prevent spacer (6, upper or 29, lower)
from turning.
b. Support Strips. Remove and replace support strips
(14, rear strip, or 17, forward strip, figure 3-12, sheet
1) as follows:
(1) Removal. Remove six screws (15, rear strip) and
washers (15.1) or two screws (16, forward strip)
and washers (16.1) securing strip to mounting base
frame (1); remove strip.
(2) Replacement.
Isopropyl alcohol is flammable and gives off
harmful vapors. Use only in well–ventilated
area away from open flames and sparks. Avoid
prolonged or repeated inhalation of vapors.
(a)
Clean screw (15 or 16) threads using isopropyl
alcohol and clean, lint-free material; wipe dry.
primer
compound
sealing
(b) Apply
(MIL-S-22473) to screw (15 or 16) threads;
allow to dry.
(c) Apply sealing, compound (MIL-S-22473,
Grade H), to screw (15 or 16) threads.
(d) Install six screws (15, rear) and washers (15.1) or
two screws (16, forward) and washers (16.1)
securing support strip (14, rear or 17, forward) to
mounting base frame.
Change 7
3-41
ARMY TM 5-6675-306-34
MARINE CORPS TM 08837A-34/2
c. Retainer. Remove and replace retainer (21, figure
3-12, sheet 1) as follows:
(1) Removal. Remove four screws (18), four
lockwashers (19), and four washers (20) securing retainer
(21); remove retainer.
(2) Replacement.
(a) Place retainer (21) in position on mounting base
frame (l).
(b) Install four screws (18), lockwashers (19), and
washers (20) securing retainer to mounting base
frame.
d.
Plumb Bob Assembly. Remove and replace plumb
bob assembly (33, figure 3–12, sheet 2) as follows:
(1) Removal. Remove four screws (35) and four
washers (34) securing plumb bob assembly (33) to mounting
plate (5). Remove plumb bob assembly.
(2) Replacement.
(a) Place plumb bob assembly (33) on mounting
plate (5).
(b) Install four screws (35) and four washers (34)
securing plumb bob assembly to mounting plate
(5).
e.
Plumb Bob Assembly Maintenance.
(1) Pivot block detent screw adjustment
replacement. See figure 3–13 and perform pivot block (5)
detent screw (6) adjustment/replacement as follows:
(a) Hold extension arms (3 and 8) in the stowed
(vertical) position. If arm will not move to the
vertical position, loosen (turn counterclockwise)
the detent screw (6).
(b) Tighten (turn clockwise) detent screw (6) until it
is just snug. Do not overtighten.
(c) Loosen the detect screw (6) 1/8 turn.
NOTE
If detent screw (6) does not stay in
adjustment, replace the detent screw and
adjust as above. (The plastic locking device
on the detent screw prevents vibration from
turning the screw.)
(2) Plumb bob locking extension arm detent screw
adjustment/replacement. See figure 3-13 and perform
plumb bob locking extension arm (8) detent screw (10)
adjustment/replacement as follows:
(a) Hold plumb bob extension arm (3) in the
operational position. If arm will not move to that
position, turn (counterclockwise) the detent
screw (10).
3-42
Change 7
(b) Tighten (turn clockwise) detent screw (10) until
it is just snug. Do not overtighten.
(c) Loosen the detent screw 1/8 turn.
NOTE
If detent screw (10) does not stay in
adjustment, replace the detent screw and
adjust as above. (The plastic locking device
on the detent screw prevents vibration from
turning the screw.)
(3) Plumb bob arm replacement. See figure 3-13 and
replace plumb bob arm (1) as follows:
(a) Removal.
1. Extend plumb bob arm (1)
2. Remove nut (9).
3. Remove shoulder screw (2) securing plumb
bob arm (1) to the extension arms (3 and 8); remove plum
bob arm.
(b) Replacement.
primer
1. Apply
sealing
compound
(MIL-S-22A73) to nut (9) threads; allow to dry.
2. Apply sealing compound (MIL-S-22473,
Grade C) to nut (9) threads.
3. Insert plumb bob arm (1) between the
extension arms (3 and 8) and secure with shoulder screw
(2).
4. Install nut (9) and tighten to secure shoulder
screw (2).
(4) Plumb bob extension arm replacement. See figure
3–13 and replace plumb bob extension arm (3) or plumb bob
locking extension arm (8) as follows:
(a) Removal.
1. Remove plumb bob arm (1) in accordance with
paragraph 3-20e(3)(a).
2. Remove shoulder screw (4 or 7) securing
plumb bob extension arm (3) or plumb bob locking
extension arm (8) to pivot block (5); remove arm.
(b) Replacement
1. Secure plumb bob extension arm (3) or plumb
bob locking extension arm (8) to pivot block (5) with
shoulder screw (4 or 7). Apply sealing compound
(MIL-S-22473, Grade C) to screw threads.
2. Replace plumb bob arm (1) in accordance with
paragraph 3-20e(3)(b).
3.21. Battery Box Maintenance. Maintenance of the battery
box consists of replacing damaged riveted hardware.
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 3-13. Plumb Bob Assembly Exploded View
3-43
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
a. Removal. Remove rivets securing part by drilling
or other suitable means; remove part.
b. Replacement.
(1) Secure part in position with rivets.
(2) Swage rivets in place.
3-22. PADS Transit Case Maintenance. Maintenance of
the PADS transit case consists of replacing the shock
and vibration isolator mounts (8, figure 3-14).
a. Removal.
(1) Release latches and remove cover (l).
NOTE
Pin housing (5) must be removed to replace two of the shock and vibration
isolator mounts.
(2) Remove two screws (2), lockwashers (3), and
washers (4) securing pin housing (5) to pallet
mounting base (12); remove pin housing.
(3) Place a block under the pallet mounting plate
(12) to prevent it from tiltin when a shock
and vibration isolator mount (8) is removed.
(4) Remove four bolts (6), washers (7), screws (9),
washers (11), and lockwashers (10) securing
shock and vibration isolator mount (8) to pallet mounting base (12); remove mount.
b. Replacement.
(1) Secure shock and vibration isolator mount (8)
to pallet mountin base (12) with four screws
(9), lockwashers (10), washers (11), bolts (6),
and washers (7).
(2) Remove block from under pallet mounting
plate (12).
(3) Secure pin housing (5) to pallet mountin base
(12) with two screws (2), lockwashers (3), and
washers (4).
(4) Replace cover (1) and secure with latches.
3-23. IMU Transit Case Maintenance. Maintenance of
the IMU transit case consists of replacing the shock and
vibration isolator mounts (5, figure 3-15).
a. Removal.
(1) Release latches and remove cover (1).
(2) Place a block under the mounting chassis (10)
to prevent it from tiltin when a shock and
vibration isolator mount (5) is removed.
(3) Remove 8 screws (2 and 7) and 16 washers (3,
4, 8, and 9) securing shock and vibration isolator mount (5) to base (6) and mounting chassis
(10); remove mount.
3-44
b. Replacement.
(1) Secure shock and vibration isolator mount (5)
to base (6) and mounting chassis (10) with 8
screws (2 and 7) and 16 ‘washers (3, 4, 8, and
9).
(2) Remove block from under mounting chassis
(3) Replace cover (1) and secure with latches.
3-24. Winterization Kit. Installation of the winterization kit consists of removing heater air intake system,
removing rear panel, installing side and bottom mounting plates on rear panel, installing angle bracket on rear
panel, installing nut plates on vehicle body, cutting out
rear panel to install door and frame, installing door
frame, installing porro prism door on rear panel, installing transition joint and flexible heater hose, installing
the CDU winter mounting bracket, and installing rear
panel in vehicle.
a. Remove Heater Air Intake System.
(1) Remove four sheet metal screws securing air
intake pipe to heater flange and air intake
duct. (See figure 3-16, sheet 1).
(2) Remove four bolts, washers, and nuts securing
air intake duct to rear panel.
.
(3) Remove air intake pipe and duct. Return them
to the supply system.
(4) Reinstall the four bolts, washers, and nuts
removed in step (2) above in the holes in the
rear panel.
b. Remove Rear Panel.
(1) Remove spare tire and fuel can from utility
truck.
(2) Remove 18 bolts, washers, and nuts securing
rear panel to utility truck body; remove rear
panel and place protective cloths on electrical
equipment.
Exercise care to prevent damage to gasket cemented around periphery of panel.
(3) Clean any caulking compound from edges of
rear panel and utility truck body.
c. Install (Left and Right) Side Mounting Plates,
880524-1 and -2, Plate 880526-1, and Handles
on Rear Panel.
(1) Place side mounting plate 880524-1 (7, figure
3-16, sheet 2) on right side of outer surface of
rear panel. Locate side mounting plate so that
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 3-15.
3-46
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 3-16. Utility Truck Winterization Kit Installation Diagram (Sheet 1 of 9)
3-47
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
1/16-lNCH SPACE BETWEEN BOTTOM OF GUTTER AND TOP OF PLATE
ROTATED VIEW
Figure 3-16. Utility Truck Winterization Kit Installation Diagram (Sheet 2 of 9)
3-48
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 3-16. Utility Truck Winterization Kit Installation Diagram (Sheet 3 of 9)
3-49
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 3-16. Utility Truck Winterization Kit Installation Diagram (Sheet 4 of 9)
3-50
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-6. Computer Diagnostic/Alignment Program - Continued
Test procedure
2b. Press EXECUTE switchindicator to on
Normal indication
EXECUTE switch-indicator lights
Malfunction
indication/corrective action
EXECUTE switch-indicator flashes.
Replace cards in sequence given:
TTY prints out:
PADS SOLID STATE DIAGNOSTIC
ALIGNMENT PROGRAM
Control no. 3 circuit card assembly
A5
I/O discrete circuit card assembly A9
PROGRAM CHECKSUM XXXXXX
SELECT TEST MODE
This indicates solid state memory.
Select test mode per table 4-7 step
2b, 4-11 step 2d, or 4-14 step 2c.
Bypass further loading procedures
unless a new program load is required. If a new program load is
desired proceed to table 4-6.2
Control no. 2 circuit card assembly
A4
Control no. 1 circuit card assembly
A3
16-bit data circuit card assembly A2
If incorrect checksum, continue with
step 2c
No TTY response
This indicates either core memory
requiring diagnostic alignment tape
loading or solid state memory unloaded. If memory is unknown or
core, proceed to step 2c. If memory
is solid state, proceed to table 4-6.2
2c.
Press EXECUTE switchindicator to off to halt computer
EXECUTE switch-indicator goes off
EXECUTE switch-indicator remains
on
Same card replacement as step 2b
2d. Install part 1 (of 2) of PADS
diagnostic alignment tape number 877418-X on tape reader. Do
not tape program tape to tskeup
reel.
Manually advance tape
beyond readable tape leader
2e. Set tape reader SPOOLING
switch to ENABLE
2f. Press MEMORY LOAD switchindicator to on
MEMORY LOAD switch-indicator
lights. Tape reader reads first tape
section and stops in approximately
1 minute
Change 6
4-50.1/(4-50.2 blank)
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-6. Computer Diagnostic/Alignment Program - Continued
Test procedure
Normal indication
Malfunction
indication/corrective action
NOTE
Press MEMORY LOAD switch-indicator off and back on if a stop code
is reached prior to tape data beii
loaded
2g. Press MEMORY LOAD switchindicator to off
MEMORY LOAD switch-indicator
goes off
2h. Press VERIFY switch-indicator
to on to check next tape section
against memory contents. (First
two tape sections are identical)
VERIFY switch-indicator lights. Tape VERIFY ERROR switch-indicator
lights and tape reader stops during
reader reads next tape section and
read indicating improper memory
stops in approximately 1 minute
load or memory failure
Change 6
4-51
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-6. Computer Diagnostic/Alignment Program — Continued
Test procedure
Normal indication
Malfunction
indication/ corrective action
Press verify switch-indicator to off.
Press PADS ON/OFF and ENTER switch-indicators to turn
computer off. Check tape reader
and tape for dirt. Clean as required. (Rewind tape and repeat
test from beginning before proceeding)
Replace cards in sequence given and
reattempt memory load after each
card replacement
Memory unit Al
NOTE
Press VERIFY switch-indicator off
and back on if a stop code is reached
prior to tape data being verified.
16-bit data circuit card assembly A2
Control no. 2 circuit card assembly
A4
Control no. 3 circuit card assembly
A5
Control no. 1 circuit card assembly
A3
2i. Press VERIFY switch-indicator VERIFY extinguishes
to off
switch-indicator
2j. Press EXECUTE switch-indica- EXECUTE switch-indicator lights 1. EXECUTE
flashes. Same card replacement as
tor to on to start diagnostic pro- TTY prints out:
step 2b
gram no. 1
PADS CPU TEST, TYPE CHARAC- 2. No or incorrect print-out. Verify
TER SET (carriage return)
TTY is on. Repeat steps 2C through
2j. If the second attempt gives the
NOTE
same results, replace cards in seThe above printout indicates memquence given:
ory type is core. Continue with diag- 16-bit data circuit card assembly A2
nostic program load, step 2k.
Control no. 2 circuit card assembly
A4
Control no. 3 circuit card assembly
A5
Control no. 1 circuit card assembly
TTY prints out:
PADS SOLID STATE CPU TEST, ‘ 3
TYPE CHARACTER SET (car- Memory unit Al
riage return)
NOTE
The above printout indicates memory type is solid state. Continue with
diagnostic program load step 2k.
4-52
Change 1
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 3-16. Utility Truck Winterization Kit Installation Diagram (Sheet 6 of 9)
3-53
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 3-16. Utility Truck Winterization Kit Installation Diagram (Sheet 7 of 9)
3-54
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 3-16. Utility Truck Winterization Kit Installation Diagram (Sheet 8 of 9)
3-55
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 3-16. Utility Truck Winterization Kit Installation Diagram (Sheet 9 of 9)
centerline of the six screw holes (four 5/18inch diameter holes and two 1/4-inch diameter holes) are aligned within 0.900 to 0.960
inch from outboard edge of rear panel. Locate
top edge of side mounting plate 1/16 inch
below top edge of rear panel.
(2) Using side mounting plate as a template, center punch the screw hole locations in rear
panel, Remove side mounting plate.
(3) Drill the screw holes through rear panel to the
diameters shown in figure 3-16, sheet 2. Use
l/4-inch and 5/M-inch drills, as applicable.
(4)
Place mounting plate 880528-1 (14) on inner
surface of rear panel and side mounting plate
880524-1 (7) on outer surface of rear panel.
(5) Align the screw holes in the plates with the
screw holes in rear panel.
(6) Install the four 1/4-28 X 3/4-inch screws (9),
washers (8) and locknuts (10) and tighten.
(7) Place handle (6) in position on side mounting
plate and secure with two 10-32 X 3/4-inch
screws (13), lockwashers (12), and washers
(11).
(8) Repeat steps (1) through (7) for left side using
880524-2 side mounting plate.
3-56
d. Install Bottom Plate 88052S (6, figure 3-16,
sheet 3) on Rear Panel.
(1)
Locate centerline of rear panel near its bottom edge and mark location.
(2)
Place top of plate (6) parallel to bottom edge
of rear panel.
(3) Center the bottom plate about the centerline
of the rear panel and locate centerline of the
top screw holes 0.340 to 0.400 inch from rear
panel bottom edge.
(4)
Using bottom plate (6) as a template, center
punch the four top screw holes. Remove bottom plate.
(5)
Drill four 5/16-inch screw holes through rear
panel.
(6)
Install four 1/4-28 X 3/4-inch screws (8), flat
washers (4), and locknuts (3) and secure bottom plate to rear panel.
e. Install Angle Bracket 880523 (4, figure 3-16,
sheet 4).
(1) Place angle bracket (4) at top of rear panel.
Align top of 3/4-inch lip even with top edge
of rear panel and edges of 1 1/4-inch lip
equidistant between inner edges of left and
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Legend for figure 3-16, sheet 6
Item No.
1.
2.
3.
4.
5.
6.
Description
Nut
Washer
Spring
Door frame
Screw 8-32 x 3/4-inch
Porro prism door
Part No.
MS21083C08
MS15795-807
880520-98
80522-1
MS51957-47
880521-1
Legend for figure 3-16, sheet 7
Item No.
1.
2.
3.
4.
5.
6.
7.
8.
9.
Description
Locknut 1 /2-20
Plunger ball
Handle
Nylon washer 1/2-inch
Door
Washer 1/2-inch
Spring washer
Jam nut 1 /2-20
Pawl
Part No.
MS21083C8
952089-19
880544-1
MS51859-10
880521-1
MS I 5795-818
952066-15
NAS1423C8
880543-1
Legend for figure 3-16, sheet 8
Item No.
1.
2.
Description
Air pipe
Tinnerman nut
Part No.
880546-1
MS90724-42
Legend for figure 3-16, sheet 9
Item No.
Description
Part No.
1.
2.
3.
4.
Tinnerman nut
Sheet metal screw
Air pipe
Clamp
MS90724-42
MS51861-66C
880546-1
MS35842-16
5.
Flex hose
951495-1
3-57
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
right side mounting plates. Hold 1 1/4-inch
lip flat against rear panel.
(2) CenterPunch the eight screw hole locations in
the middle of the slots in the rear panel.
(3) Drill the eight 5/16-inch screw holes in rear
panel,
(4) Place angle bracket against rear panel and
align screw holes,
(5) Secure angle bracket to rear panel usin eight
1/4-28 X 3/4-inch screws (5), washers (3), and
locknuts (l).
f. Place rear panel in vehicle body and place the
side mounting plates and bottom plate snugly
against vehicle body.
g. Using side and bottom plates as templates, locate and centerpunch the outer screw hole locations (three on each side and two on bottom) in.
vehicle body,
h. Loosen the eight screws in angle bracket and
Ibutt the 3/4-inch lip against bottom of vehicle
gutter. Tighten the screws sufficiently to maintain this position.
i. Using the angle bracket as a template, mark
centerline of the five inserts on the gutter. Centerpunch these locations.
j. Remove rear panel.
k. Drill the five 5/16-inch screw holes marked in
Igutter.
l. Install Nutplates 880541-1 (3, figure 3-16, sheet
2) and Nutplate 880542-1 (5, figure 3-16, sheet
3).
(1) Drill the 3/8-inch screw holes marked in each
side of vehicle body,
(2) Drill the 3/8-inch screw holes marked in
lower portion of vehicle body.
(3) Place left and right nutplates 880541-1 (3,
figure 3-16, sheet 2) on inside of vehicle body,
Align nuts with the 3/8-inch screw holes
drilled in vehicle body.
(4) Install two 5/16-24 X 3/4-inch screws (5) and
secure each nutplate to vehicle body.
(5) Using nutplates as templates, centerpunch
4-40 screw hole locations in vehicle body.
(6) Remove the two 5/16-inch screws securing
each nutplate; remove nut plates.
(7) Drill (no. 27) the four 4-40 screw holes (each
side) through vehicle body.
(8) From exterior of vehicle, countersink the
screw holes 100° x 0.225-inch diameter (width
of screw head).
3-58
(9)
Place nutplates (3) in position and secure each
nutplate with four 4-40 x 7/16-inch screws (4),
washers (2), and locknuts (l).
(10)
Place nutplate 880542-1 (5, figure 3-16, sheet
3) in position on lower inner surface of vehicle
body.
(11)
Install two 5/16-24 X 3/4-inch screws (7) and
secure nutplate to vehicle body.
(12)
Using nutplate as a template, center-punch the
three 4-40 screw hole locations in vehicle
body.
(13)
Remove the two 5/16-inch screws and remove
nutplate.
(14)
Drill (no. 27) the three 4-40 screw holes
through vehicle body.
(15)
From exterior of vehicle, countersink the
screw holes 100° x 0.225-inch diameter (width
of screw head).
(16)
Place nutplate (5) in position and secure with
three 4-40 x 7/16-inch screws (9), washers (2),
and locknuts (l).
m. Cut Out Hole In Rear Panel for Porro Prism
Door Installation (See-figure 3-16, sheet 5).
(1)
Using figure 3-16, sheet 5, locate dimemsion
and cut out lines. Begin datum line -A- 0.450
– 0.490 inches from edge of vertical hat section. This line establishes vertical edge.
(2) Begin datum line -B- 0.970 – 1.02 inches from
edge of horizontal hat section. This line establishes horizontal edge.
(3)
Mark cutout lines and radii on rear panel and
make cutout maintaining these lines and radii.
(4)
Mark horizontal line 0.500 inch from top of
cutout (datum -B-). Extend this line from one
vertical edge to the other.
(5)
Locate centerpoint of six screw holes along
this line to the dimensions shown in figure
3-16, sheet 5, keeping the holes symmetrical
about the cutout. CenterPunch the screw
holes.
(6) Drill the six 7/32-inch top screw holes.
n. Drill Holes for Door Fmme Attachment (See
figure 3-16, sheets 5 an d 6).
(1) Place door frame 880522-1 on inner surface o
rear panel where cutout was made.
(2) Align the six top screw holes with holes drilled
in rear panel and temporarily install 8-32 x
3/4-inch screws, washers, and nuts to
door frame (4) to rear panel. Adjust door.
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
frame so that the same amount of frame (approximately 0.5-inch) is viable on both left and
right side of cutout.
(3) Using door frame as template, locate and centerpunch the ten side die and bottom screw
holes. Remove the six 8-32 screws, washers,
and nuts; remove door frame.
(4) Drill the ten 3/16-inch screw holes.
o. Install Door Frame 880522-1 (4, figure 3-16,
sheet 6).
(1) Place door frame (4) in position and align the
screw holes with holes in rear panel.
(2) Install the ten side and bottom 8-32 X 3/4inch screws (5), washers (2), and nuts (l).
(9) Install 1/2-inch locknut (1) on door handle
bolt.
(10) Close door and make sure that it closes securely, Adjust plunger ball (2) as required.
r. Install Air Pipe 880546 (Transition Joint) and
Flex Hose 880520-59 (See figure 3-16, sheets 8
and 9).
(1)
Mark and drill 1/4-inch diameter holes in both
sides of the air intake hood as shown in figure
3-16, sheet 8.
(2)
Slide two Tinnerman nuts (2) over the hole
drilled in air intake hood. Make sure the
smooth side faces outside the hood.
(3)
Slide the air pipe (1) over the air intake hood
and secure with two sheet-metal screws (2,
figure 3-16, sheet 9).
(4)
Slide the two clamps (4) onto the flex hose (5)
and sli the hose over the heater flange and air
pipe (3) base.
(5)
Route the flex hose (5) to clear installed equipment and tighten clamps.
NOTE
The six top screws are installed when
door is installed.
p. Install Porro Prism Door 880521-1 (6, figure
3-16, sheet 6).
(1) Place porro prism door (6) against outer surface of rear panel and align top screw holes in
door hinge with screw holes in rear panel.
(2) Install 8-32 X 3/4-inch screws (5), washers (2),
and nuts (1) in each corner location.
(3) Attach the four spring retainers (3) to upper
and lower hin e halves usin four 8-32 X 3/4inch screws (5), washers (2), and nuts (l).
Engage springs (3) in spring retainers before
tightening the screws.
q. Install Latching Mechanism on Door (See figure
3-16, sheet 7).
(1)
Slide l/2-inch nylon washer (4) onto bolt of
door handle (3).
(2)
Insert door handle bolt through door (5) and
butt nylon washer against door panel.
(3)
Slide 1/2-inch nylon washer (4) onto door
handle bolt and butt against doubler on back
side of door panel.
(4)
Slide 1/2-inch washer (6) onto door handle
bolt and butt against nylon washer.
(5)
Slide spring washer (7) onto door handle bolt
and butt against washer (hollow side against
washer).
(6)
Install 1/2-20 jamnut (8) on door handle bolt
and butt against spring washer. Tighten
jamnut only until handle operates smoothly.
(7)
Install plunger ball (2) in pawl (9) and tighten.
(8)
Place pawl (9) onto door handle bolt and butt
against jamnut.
s. CDU Mounting Bracket Installation. Drill holes
for CDU mounting bracket on dashboard as
follows:
(1) Remove passenger grab bar from dashboard.
(2) Using sheet 8 of figure 3-16 as a guide, mark
mounting hole locations on dashboard.
(3) Center punch and drill two 5/16-inch diameter holes through dashboard. If vehicle does
not have holes for a grab bar, drill the right
grab bar hole also.
(4) Secure mounting hardware (three 10-32
screws, lockwashers, washers, and nuts) to the
dashboard for later use by the PADS crew.
t. Install Rear Panel in Vehicle. Install rear panel
as follows:
(1) Place rear panel in position in vehicle.
(2) Install the five 1/4-20 X l/2-inch cap screws
and washers securing angle bracket to vehicle
rain gutter. Tighten the screws.
(3) Install three 5/16-24 X 3/4-inch screws and
washers on each side and secure side mounting
plates to vehicle body.
(4) Install two 5/16-24 X 3/4-inch screws and
washers and secure bottom plate to vehicle
body.
u. Removal of Rear Panel After Installation of
Winterization Kit.
3-59
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34-2
(1) Remove the five cap screws and washers securing
angle bracket to vehicle gutter. Retain for future
use.
(2) Remove the screws and washers securing side
mounting and bottom plates to vehicle body:
remove rear panel. Retain the screws for future
use.
3-25. Modification of OH-58C Helicopter Pallet. The
OH-58C helicopter pallet must be modified before the PADS
can be installed in the helicopter. The modification consists
of drilling four new holes and installing four sleeves and
plugs. Sce figure 3-17 and modify the OH-58C helicopter as
follows:
a. Drill four new holes in pallet locations shown in
figure 3-17, Hole diameter is shown in figure 3-17.
b. Install sleeves and plugs in new holes. Sleeves and
plugs from existing holes in pallet can be used.
3-26. Modification of Commercial Utility Cargo Vehicle
(CUCV), Series M1OO9. The CUCV must be modified
before the PADS can be installed in the vehicle. The
modification consists of drilling three holes in the vehicle
firewall to allow power cable W7 to be routed through for
connection to terminal boxes mounted in the engine
compartment. See figure 3-18 and modify the vehicle as
follows:
a. Cut through insulation and backing to the vehicle
firewall to the approximate dimensions shown in
figure 3-18.
b. Drill three holes through the vehicle firewall where
shown in figure 3-18, using a l/2-inch electric drill
and a l-inch diameter hole cutter. Install rubber
grommets in new holes.
3-27. Modification of High-Mobility Multi-Purpose
Wheeled Vehicle (HMMWV), Series M998. “The
HMMWV must be modified before the PADS can be
installed in the vehicle. The modification consists of drilling
two holes in the vehicle transmission tunnel to allow power
cable W7 to be routed to the vehicle battery compartment.
See figure 3-19 and modify the vehicle as follows:
a. Locate and mark the two holes, centered in the flat
area of the transmission tunnel adjacent to the existing
radio cable and grommet. Space the holes as shown in
figure 3-19.
3-60
Change 5
b. Drill two holes using a V2-inch electric drill and a
l-inch hole cutter. Install rubber grommets in new
holes.
3-28. Modification of Subfloor Plate. The subfloor plate
must be modified before it can be mounted in the HMMWV
for pads installation. The modification consists of drilling
two holes, located as shown in figure 3-20. Use a l/2-inch
electric drill and a 7/16-inch drill bit.
3-29. Modification of Small Utility Support Vehicle
(SUSV), Series M973. The SUSV must be modified before
the PADS can be installed in the vehicle. The modification
consists of drilling a hole through the inner vehicle body for
insertion of the battery vent tubing and modification of the
vehicle wiring harness, proceed as follows:
a. At right rear of vehicle, using a pencil and a scale
from shop supplies, extend a line from bottom edge of
the seat belt bracket forward 2.00 inches. Mark with
an X. See figure 3-21.
b. Using a ½-inch electric drill and a 9/32-inch
diameter bit, drill a hole through the inner vehicle
body at the marked point. The hole is for the battery
vent tubing.
c. At left rear of vehicle, using shop knife, cut plastic tie
wraps holding the harness that contains connector P42
to the negative battery terminal.
d, Loosen clamp located behind the battery to free.
connector P42.
e. Locate wire no, 8K in connector P42, male pin 2.
f. Using a pair of wire cutters, cut wire no. 8K about 3
inches from connector P42. Strip both cut ends about
1/4 inch, using wire strippers.
g. Obtain cable assembly 97403-13222E2492 and splice
from installation kit. Splice cable assembly to wire
no. 8K as shown in figure 3-22. Crimp both ends of
splice.
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
I
Figure 3-17. Modification of OH-58C Helicopter Pallet
3-61
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34-2
Figure 3-18. Installation of Cables Holes in CUCV Firewall
3-62
Change 4
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 3-19. Installation of Cables Holes in HMMWV Transmission Tunnel
Change 4
3-63
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34-2
Figure 3-20. Modification of Subfloor Plate
3-64
Change 4
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 3-22. SUSV Wiring Harness Modification
Change 4
3-65
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34-2
Section V. DIRECT SUPPORT TESTING PROCEDURES
3-30. General. Direct support testing procedures are given in
table 3-1.
3-31. Performance Standards. To be returned to service, a
PADS must:
d. Have no corrosion inside any units which were
opened.
c. Have no defective gaskets in any units which were
opened.
a. Be complete.
b. Pass the test of table 3-1 with no malfunction.
c. Have no visually observed physical defects which
may prevent normal operation or allow water to enter
a unit.
3-66
Change 4
f.
Have covers torqued to the specified values on any
units which were opened.
g. Have a smooth, shiny mirror finish on at least 80
percent of the porro prism surface area.
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
CHAPTER 4
GENERAL SUPPORT MAINTENANCE INSTRUCTIONS
Section 1. GENERAL
4-1. Scope. This section describes bench testing of the
computer, computer power supply, CDU, and power
supply.
4-2. Computer Bench Testing. Bench testing of the
computer consists of performing continuity checks
when broken or shorted wires are suspected of causing
a failure during performance of the self-test procedure.
A computer wire list (table 4-1) is provided for bench
testing. Refer to paragraph 4-6 for an explanation of
wire list format and notations. Figure 4-1 identifies
connector pins and terminal points on the computer.
4-3 Computer Power Supply Bench Testing. Bench
testing of the computer power supply consists of performing continuity checks when broken or shorted
wires are suspected of causing a failure during performance of the self-test procedure. A schematic diagram of
the computer power supply (figure FO-5) and wiring
data (figure 4-16 and table 4-20) are provided for bench
testing.
4-4. CDU Bench Testing. Bench testing of the CDU
consists of performing continuity checks when broken
or shorted wires or failing switch or relay contacts are
suspected of causing a failure during performance of
the self-test procedure. A CDU wire list (table 4-2) is
provided for bench testing. Refer to paragraph 4-6 for
an explanation of wire list format and notations. Figure
4-2 identifies CDU connector pins and terminal points.
4-5. Power Supply Bench Testing. Bench testing of the
power supply consists of performing continuity checks
when broken wires or failing switch or relay contacts
are suspected of causing a failure during performance of
the self-test procedure. A schematic diagram (figure FO6) and wire lists (tables 4-3 and 4-4) are provided for
bench testing. Refer to paragraph 4-6 for an explanation
of wire list format and notations.
4-6. Wire List Format and Notations. Tables 4-1
through 4-4 contain wire lists for the computer, CDU,
power supply, and power supply harness assembly. The
following paragraphs define wire list format and notations.
a. Wire List Format. Information contained in the
wire list by column heading is described below:
Definition
Column
Signal
Numbers and letters appearing in
this column are signals and logic
terms and describe circuit functions
when practicable.
From Component Pin
Entries in this column denote point
of origin.
To Component Pin
Entries in this column denote point
of termination for items in the From
Component Pin column.
Ref
A unique suffix letter A, B, C, etc.
identifies each wire in a multiwire
connection. The suffix letter S defines the shield of wire connected to
this pin, not the pin connection.
AWG
All wires, except those indicated, are
etched circuitry. Standard wire size
for table 4-3 is 22 AWG, except as
noted.
Type
Symbols in this column specify configuration of a wire or wires. In the
absence of a specific symbol,
stranded insulated wire is intended.
For flexible printed wiring, this column is not applicable.
Color
Standard wire color is white for table 4-3 except as specifically colorcoded. Numbers are coded to a
color as follows:
Number
Color
o
Black
1
Brown
2
Red
3
Orange
4
Yellow
5
Green
6
Blue
7
Violet
4-1
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-14.1 IMU Testing, Alignment, and Troubleshooting Using Tape Reader, Part No. 877406-2 –
Continued
Test procedure
Normal indication
SELECT TEST MODE
Checksums are equal
2b. Compare printed checksum
written on the front of the
punched tape in use
2c. Type IMU to select IMU auto- TTY prints out:
matic alignment and test se- IMU
quence
SER NO XXXX
DATE XXXX
CHECKSUM XXXXXX
MOVE IMU TO APPROX 45 DEC
HEADING
WHEN DONE TYPE: RDY
Data matches
2d. Verify that the printed serial
number matches the’ serial numher of the IMU under test and
the checksum matches the
checksum on the IMU alignment
data tape
2e. Type RDY when 45° (±10°) TTY prints out:
heading request has been com- RDY
pleted
ENTER LATITUDE: (DEG ) (MIN )
(SEC) RDY
4-90.6
Change 7
‘Malfunction
indication/corrective action
Checksum is incorrect Refer to step 3k
of table 4-6.1 or step 2 V of table
4-6.3
NOTE
From this step forward, the TTY
may print out any of the malfunction
messages listed in table 4-17, Take
the corrective action shown in table
4-17.
Reload IMU alignment data tape
NOTE
The program will accept all data on
one line, thus if the operator makes
a mistake prior to typing RDY while
entering data via the TN, he should
hit the carriage return key and reenter the data. If the diagnostic program does not recognize the entry as
valid, the TTY prints out: IMPROPER DATA ENTRY. The operator should reenter the data.
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-1. Computer Wire List
—
—.
To
From
—
Signal
r
P+024VAUX
DPUFLGSET*
DPUFLGRST*
P+024VAUX
P+024VAUX
DMAREQ*CPU
PSPOR
PRIINT*CPU
r
SVCINT*CPU
MCUTOCINH*
P+O05V
P+O05V
P+O05V
P+O05V
P+O05V
BITFLAG*
XAA*
CLKENABLE
CYCLEINIT
UNGATEDCLK
1~*
(RE/lN)*CP
DAB12
DAB13
DAB14
DAB08
DAB07
DAB06
DAB05
DAB04
:;j;::LOCK
MEMBUSY
ENT*
DPUFAIL”
B/SLDEN
B/SLDEN*
ADR/DTA”
ADR/DTA
ADDRENV*
ADDRENV
P+024VAUX
ON/OFF*
IMU*
DATAENV
DATAENV’
RS2321NR*
RS2321NR
FLAGSET”
P+O05V
P+O05V
P+O05V
P+O05V
P+O05V
P+O05V
P+O05V
PGND
PGND
CPUDMAACK*
MCURELEASE
CPU1/OCMD
DMAINT”
Componen
Pin
Ref
Componen
Pin
Ref
4WG
Type
Color
Group
—.
DSO1
DSO1
DSO1
0s01
DSO1
EOO1
EO02
EO03
EO04
EO05
EO06
EO06
EO06
EO06
EO06
EO07
EO08
EO09
EO1O
EO1l
E012
E013
E014
E015
E016
E017
E018
E019
E020
E021
E022
E023
E024
E028
E029
E030
E031
E032
E033
E034
E035
E036
E037
E038
E039
E040
E041
E042
E043
E044
E045
E046
E047
E048
E049
E049
E049
E049
E049
E049
E049
E050
E050
E051
E052
E053
E054
DSO1
E207
E209
E211
DSO1
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO02
wool
JO02
JO02
JO02
JO02
Remarks
Vote
Rev
—
—
666
24
24
999
999
24
666
24
I
24
666
F
004
001
016
044
009
003
070
063
063
073
083
084
062
064
089
061
041
065
045
021
022
023
014
013
012
011
010
069
068
056
014
015
029
022
003
008
009
016
039
023
030
024
031
037
044
038
045
046
052
051
055
010
017
018
019
025
026
027
017
;57
002
059
050
Route
TOCRST
26
222
26
20
000
000
I
—
1.
——
—
—
Change 5
4-3
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-1. Computer W i r e L i s t - C o n t i n u e d
.—
From
—-
—
Rout(
Vote
—
To
—
Signal
r
Ref
Pin
—
CPU PORMS”
DMAACKEN
TRACE’
PGND
PGND
PGND
PGNO
PGNO
PGND
PGND
DAB1l
DAB15
IDAB09
DAB03
DAB02
DABO1
DABOO
DAB1O
IRESET*CPU
PGND
PGND
PGND
PGND
PGND
PGND
PGND
SPARE]
SPARE]”
HDGX32S6
HDGX32S8
SPARE2*
SPARE2
ZIIUANTDC
ZQUANTOCR’
YQUANTDC
LWGYRTEMP
lMUREADY*
UPGYRTEMP
GYRCRSHTON
ACLCRSHTON
IMUFLGRST’C
DWZ
IMUFLGSET
DWY *
DWX
PDVZ”
HOGX1S4
PITCHX1S3
PDVX
MDVZ
MDVX”
ROLI.X1S4
PDVY
2.4KHZ
ZGYRFTSLW”
XYGYFSTSi_”
26VAC90RTN
SPARE3*
lFf0LLx8s6
ROLLX8S5
ROLLXIS1
4-4
E055
E056
E057
E058
E058
E059
E060
E060
E060
E061
E062
E063
E064
E065
E066
E067
E068
E069
E070
E088
E090
E092
E094
E094
E096
E096
E102
E103
E104
E105
E106
E107
E108
E109
E11O
Elll
E112
E113
E114
E115
E116
E117
E118
E119
E120
E121
E122
E123
E124
E125
E126
E127
E128
E130
E131
E132
E133
E134
E135
E136
E137
E138
E139
E140
E142
E143
E144
Change 5
JO02
JO02
JO02
JO02
wool
JO02
JO02
JO02
wool
wool
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JOO
JOO
JOO
JOO
JOO
JOO
JOO
JOO
JOO
JOO
JOO
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOOI
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOOI
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOD1
Ref
4WG
—
—
090
042
066
053
26
081
097
100
020
024
015
007
006
005
004
019
001
001
002
004
005
006
011
012
041
015
052
068
013
039
027
050
026
049
025
048
067
076
064
023
046
022
045
021
063
019
062
018
017
016
073
059
014
079
012
058
011
010
009
008
056
034
005
004
053
—
Color
Group
N
26
000
000
000
000
20
20
000
000
—.
Remarks
iev
—
—-
—
—
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-1. Computer Wire List - Continued
From
Signal
:omponent
7
To
Pin
Ref
Ref
AWG
Type
Color
Group
Route
Note
COMPOFF’
PGND
PGND
PGND
PGND
PGND
PGND
PGND
VLAMPREFRT
VLAMPREF
PSUFLGSET*
PSUFLGRST*
26VAC90RTN
26VAC90
ON/OFF*
P+015VAD
P-015VAD
E145
E146
E147
E151
E160
E170
E171
E172
E173
E174
E175
E176
E177
E179
E180
E181
E182
E183
E184
E185
E186
E187
E188
E189
E190
E191
E192
E193
E194
E195
E196
E201
E201
E202
E203
E204
E205
E206
E207
E207
E209
E21O
E211
E213
E214
E216
E217
E218
E219
E220
E221
E222
E231
E232
E233
E234
E240
E241
E2.!3
E244
E245
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
Remarks
.—
—
HDGXIS1
HDGX32S5
AMBTEMP
F
PGND
PGND
PGND
IMUFLGRS”
DWZ*
*
IMUFLGSE
IDWY
DWX*
PDVZ
HDGX1S2
PIT CHXIS1
PITCHX1S2
PDVX*
MDVZ*
MDVX
ROLLX1S2
PDVY*
2.4KHZ*
ZGYRFSTSLW
XYGYFSTSL
26 VAC90
SPARE3
ROLLX8S8
ROLLX8S7
ROLLX1S3
HDGX1S3
HDGX32S7
lMUFAIL*
P+O05V
P+O05V
P+O05V
P+O05V
P+O05V
P+O05V
P+O05V
—
—
——
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOOI
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JO02
WO02
WO02
WO02
WO02
WO02
WO02
DSO1
XPS1
DSO:
XPS:
;);’
XPS
woo
woo
woo
woo
woo
Woo
wool
XPS1
XPS1
XPS1
XPS1
XPS1
XPS1
XPS1
XPS1
XPS1
E196
E146
E145
E143
E142
E147
003
002
006
024
029
028
075
020
074
044
043
042
061
060
072
040
077
038
057
037
036
035
007
070
055
033
032
054
031
030
001
085
002
041
003
038
004
026
020
023
022
005
006
040
039
021
003
004
w-
24
22
22
22
22
22
22
24
24
24
24
24
22
24
24
24
24
24
24
24
24
24
22
24
24
24
24
24
22
22
T2
12
T2
T:
_l_J._.
:855
555
555
555
555
555
555
999
999
999
!399
666
666
999
000
1000
300
000
000
000
000
000
999
999
999
989
888
999
666
444
Rev
—
‘1
TGO06
TGO06
TC999
TC999
RTNON
RTNON
_—
——
XPS1-7
XPS1-7
—
—
Change 5
4-5
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-1. Computer Wire List - Continued
—
omponent
—
VVG
ype
To
From
Signal
—
Pin
?ef
omponent
lef
;olor
XYGYFSTSL
XYGYFSTSL*
ZGYRFTSLW”
2.4 KHZ
PDVY
MDVX*
SPARE2*
PDVX
SPARE1”
PDVZ”
DWX
DWY *
DWZ
DWZ”
AC LCRSHTON
UPGYRTEMP
LWGYRTEMP
PGND
PGND
XQUANTDC
YQUANTDC
ZQUANTDC
PGND
PGND
HDGX32S7
HDGX1S3
ROLLX8S7
ROLLX8S8
SPARE3*
ZGYRFSTSLW
2.4KHZ”
pDvyX
MDVX
SPARE2
PDVX*
SPARE1
PDVZ
DWX*
DWY
GYRCRSHTON
lMUREADY”
XQUANTDCRT
YQUANTDCRT
ZQUANTDCRT
IHDGX3ZS6
ROLLXIS1
ROLLX1S3
SPARE3
26VAC90RTN
ROLLX1S2
ROLLX1S4
PITCHX1S3
PITCHXIS1
HDGX1S2
IMUFLGSET
lMUFLGRST’
GYRFLTTOTP
MDVY
HDGX32S8
126vAc90
,P1TCHX1S2
4-6
JOO1
JOO
JOO
JOO
JOO
JOO
JOO
JOO
JOO
JOO
JOO
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOOI
JOO1
JOO1
JOO1
JOOI
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO
JOO
JOO
JOO
JOO
JOO
JOO
JOO
JOO
JOO
JOO
JOO1
JOO1
JOO1
JOO1
JOO1
JOOI
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOOI
Change 5
007
008
009
010
011
012
013
014
015
016
017
018
019
020
021
022
023
024
024
025
026
027
028
029
030
031
032
033
034
035
036
037
038
039
040
041
042
043
044
045
046
047
048
049
050
051
052
053
054
055
056
057
058
059
060
061
062
063
064
065
066
06/
068
069
070
071
072
—
E188
E138
E137
E136
E135
E133
E106
E131
E103
E127
E126
E125
E123
E172
E121
E119
E117
E151
wool
E112
E11O
E108
E170
E160
E195
E194
E192
E191
E140
E187
E186
E185
E183
E107
E181
E102
E176
E175
E174
E120
Ella
SPARE
E113
Elll
EI09
SPARE
E104
E144
E193
E190
E139
E184
E134
E130
E119
E177
E124
E122
E116
SPARE
SPARE
E114
E105
SPARE
E189
SPARE
E180
Group
Route
I ote
Remarks
—
—
—
1
22
—
—
OIR”
000
——
—
—
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-1. Computer Wire List - Continued
To
From
Signal
Component
Pin
Ref
Component
Pin
Ref
AWG
Type
Color
Grou~
Route
Note
Remarks
Rev
1
HDGX1S4
IMUFIGSET*
IMUFLGRST
kfDVY*
MDVZ*
MDVZ
RESET*CPU
MCURELEASE
SVCINT*CPU
DABOO
DABO1
DAB02
DAB03
PGND
PRIINT*CPU
DAB04
DAB05
DAB06
DAB07
DAB08
DAB09
DMAREQ*CPU
PGND
PGND
PGND
PGND
PGND
DAB1O
DAB1l
DAB12
DAB13
DAB14
DAB15
REQGEN*
PGND
PGND
PGND
PGND
PGND
PGND
PGND
PGND
UNGATEDCLK
DMAACKEN
PSPOR
(RE/lN)*CP
DMAINT”
PGND
PGND
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
073
074
075
076
077
078
079
001
002
003
004
005
006
007
008
009
010
011
012
013
014
015
016
017
017
017
018
018
019
020
021
022
023
024
025
025
026
026
026
027
028
029
030
031
032
032
033
034
034
035
036
037
038
039
040
041
042
043
044
045
046
047
048
049
050
051
051
s
E128
E173
E171
E115
E182
SPARE
E132
E070
E052
EO04
E068
E067
E066
E065
JO02
EO03
E021
E020
E019
E018
E017
E064
EOO1
JO02
JO02
E050
JO02
JO02
E069
E062
E014
E015
E016
E063
XAOIAlJO02
JO02
JO02
JO02
SPARE
SPARE
SPARE
SPARE
SPARE
JO02
JO02
J!:2
JO02
SPARE
SPARE
SPARE
SPARE
SPARE
SPARE
EO1l
--E056
-E!:2
--E013
--SPARE
SPARE
SPARE
SPARE
E054
-JO02
JO02
-------------------017
------------018
008
000
26
026
017
---------023
026
032
018
025
s
28
28
52
SL
000
SGO( 1
SGO( 1
REQGENRTN
28
SL
000
SGO( 1
REQGENRTN
034
026
051
032
052
03 4
Change 5
4-7
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-1. Computer Wire List - Continued
To
From
—
—
Signal
Pin
:omponen
Ref
Pin
:omponenl
—
PGND
PGND
PGND
g 1:;;
F
PGND
PGND
MEMBUSY
CPUDMAACK*
PGND
PGND
W;/OCMD
PGND
CYCLE INIT
BIT FIAG*
P+O05V
;;::5V
w
TRACE”
PGND
PGND
STATE3
GATEDCLOCK
MCUTOCINH*
PGND
PGND
P+O05V
PGNO
PGND
PGND
PGND
PGNO
PGND
PGND
PGNO
PGND
PGND
PGND
PGND
PGND
;:[1
PGND
PGND
P+O05V
P+O05V
P+O05V
CL KENABLE
CPUPORMS”
PGND
PGND
PGND
PGND
PGND
PGND
PGND
PGND
4-8
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
Change 5
-
-
-
—
052
052
053
053
053
054
055
055
056
057
058
058
059
060
060
061
062
063
063
064
065
066
067
067
068
069
070
071
071
072
073
074
074
075
075
076
076
077
077
078
078
079
080
080
081
081
081
082
082
083
084
085
086
087
088
089
090
091
091
092
093
093
094
094
095
096
096
—
JO02
JO02
JO02
JO02
E058
NC
JO02
JO02
E024
E051
JO02
JO02
E053
JO02
JO02
EO1O
EO07
EO06
EO06
EO08
E012
E057
JO02
JO02
E023
E022
EO05
JO02
JO02
NC
EO06
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO02
NC
JO02
JO02
JO02
JO02
E059
JO02
JO02
EO06
EO06
E201
NC
NC
NC
EO09
E055
JO02
JO02
NC
JO02
JO02
JO02
JO02
NC
JO02
JO02
Ref
\wc
—
—
“ype
Group
Route
dote
Remarks
?ev
—
053
051
055
052
26
000
26
222
058
053
060
055
067
058
I
071
060
TOCRST
074
067
075
071
076
074
077
075
078
076
080
077
081
078
082
080
26
000
24
555
091
081
093
082
094
091
096
093
097
094
—
-—
—.
—
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-1. Computer Wire List - Continued
1
1
To
From
—
7
)mponent
Signal
Pin
lef
Dmponent
PGND
PGND
ADR/DTA*
PGND
PGND
PGND
VLAMP
AD R/DTA
AD DRENV*
P+O05V
PGND
PGND
VLAMPRET
~f,JT.
DPUFAIL*
ADDRENV
P+O05V
P+O05V
P+O05V
115VAC
I
B/ SLDEN”
ON/OFF”
DATAENV
P+O05V
P+OQ5V
P+O05V
B/ SLDEN
IMU*
DATAENV
VLAMP
VLAMP
VLAMPRE
115VACR
RS2321NR”
FL AGSET”
P+024VAUX
VLAMP
VLAMP
VLAMPRET
VLAMP
RS2321NR
FLAGRST”
SBPOR*
VLAMPRET
VLAMPRET
VLAMPRET
BATTERY*
250KHZ*
SBPOR
CHASSGND
CHASSGND
CHARGE”:
250KHZ
115VAC
1115VAC
JO02
JO02
E060
JO02
JO02
JO02
E060
E088
E090
E032
E092
E094
E094
.JO03
E033
E034
E049
E096
E096
JO03
E028
E029
E035
E049
E049
E049
MOO1
097
097
097
098
098
099
100
001
002
003
004
005
006
(307
008
009
010
011
012
013
014
015
016
017
018
019
020
021
022
023
024
025
026
027
028
029
030
031
032
033
034
035
036
037
038
039
040
040
041
042
043
044
045
046
047
047
048
049
050
051
052
053
053
054
055
P
!
E!$l
E037
E039
E049
E049
E049
NC
E030
E038
E040
XPS1
XPS1
XPS1
MOO1
Eh
E043
E036
XPS1
JO03
XPSI
XPS1
—
Pin
‘“;olor
;roul)
E!:2
E044
E045
XPS1
JO03
XPS1
XPS1
NC
E047
E046
WO03
wool
XPS1
E048
XPS1
JO03
Route
Remarks
ev
—
——
—
—
JO02
JO02
JO02
JO02
JO02
JO02
JO02
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JO03
JOU3
JO03
JO03
JO03
JO03
JO03
JO03
MOO1
MOOI
rVG Type
098
096
000
26
099
097
098
‘1
9:19
040
24
;47
24
A
20
T2
838
TGO)8
030
029
Ql~
E
22
22
24
20
“r 2
T2
T2
T2
999
999
000
989
TG996
TG995
TG993
TGO08
031
Ooi
02[
Qlf
22
24
22
24
T2
999
999
000
999
TGS94
02:
:3:
T2
04!
22
24
22
24
Q41
22
22
24
01
02
—
20
20
000
T2
T2
T2
000
000
000
999
TG$96
TG!93
TG(95
TG! 94
(00
[lot
$19s
T;
T;
88$
88[
~[~.
TGIIQ9
TGI108
—.
—
Change 5
4-9
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-1. Computer Wire List - Continued
—
From
Signal
ZOmponeni
K
115 VACRT
115 VACRT
PGND
DISCIN09
CHASSGND
PGND
PGND
PGND
PGND
PGND
PGND
PGND
PGND
P+O05V
P+O05V
P+O05V
P+O05V
P+O05V
P+O05V
P+O05V
P+O05V
P+O05V
P+O05V
P+O05V
P+O05V
CHASSGND
P+015VMEM
IP+015VMEM
PSF OPT
MODE1
MODE2
P+O05V
P+O05V
PGND
PGND
PGND
PGND
PGND
DABO1
DABO1
DABO1
PGND
PGND
DAB05
4-10
Change 5
—
Route
dote
To
Pin
Ref
Zomponen’
—
MOO1
MOO1
Sool
Sool
wool
wool
wool
wool
wool
wool
wool
wool
wool
wool
wool
wool
wool
wool
wool
wool
wool
wool
wool
wool
WO02
WO02
WO02
WO02
WO02
WO02
WO02
WO02
WO02
WO02
WO02
WO02
WO03
XAOIAl XAOIA1.
XAOIAl XAOIAl XAOIA1.
XAOIAl XAOIAl XAOIAl XAOIAl XAOIAl XAOIAl XAOIAl XAOIAl XAOIAl XAOIAl XAOIAl XAOIA1.
XAOIAl XAOIAl XAOIAl XAOIAl XAOIAl XAOIA1.
XAOIAl XAOIAl XAOIAl XAOIAl XAOIAl XAOIAl XAOIA1.
—.
:
001
002
. .
001
001
002
003
004
005
005
007
007
007
007
007
008
008
008
009
009
010
010
010
011
011
012
012
012
013
014
014
014
015
XPS1
JO03
wool
XA09
JO03
Sool
E050
E058
E060
E061
E216
E217
E219
E220
E221
E222
E218
JOO1
XPS1
XPS1
XPS1
XPS1
XPS1
XPS1
XPS1
E201
E202
E203
E204
E205
E206
XPS1
XPS1
XPS1
XPS1
XPS1
.IO03
XPS1
XAOIA1.
XAOIAl XAOIAl XAOIA1
XPS1
xAol A2XPS1
XAOIAl xAol A2XA01A2.
xAol A2XAOIA1.
XA02
XA01A2.
XAOIAl XAOIAl XAOIAl XA02
xAol A2XAOIA1.
XAOIAl XAOIAl XA01A2.
XA02
XA01A2.
XAOIAl XA02
XA01A2.
XAOIA1.
Pin
Ref
T
012
035
003
053
001
024
001
002
018
019
034
035
016
017
032
033
047
048
053
009
047
087
050
048
049
088
036
009
040
086
087
054
081
039
011
007
056
082
037
015
009
058
035
083
073
060
084
033
017
4WG
‘ype
Color
Group
Remarks
Rev
—.
20
20
24
24
22
24
20
20
20
20
24
24
24
24
24
24
24
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
22
20
24
T2
T2
T2
T2
20
20
20
T2
T2
T2
20
T2
T2
B
T2
989
989
000
999
000
000
000
000
000
000
000
000
000
000
000
000
000
000
000
000
000
000
000
000
555
555
555
555
555
555
555
555
555
555
555
555
000
666
TGO09
TGO08
TG988
TG988
555
555
000
{GO04
(;989
000
DISCIN09R
DIR*
DISCIN09R
TG988
DIR*
T(; ()()]
5
IGO04
DATA
RTN
ADD RTN
DATA RTN
+5VRTNN
IG989
—.
—
DATA
RTN
DATA
DATA
RTN
RTN
DATA
RTN
—
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-1. Computer Wire List - Continued
To
From
—
—
PGND
DAB03
DAB03
DAB03
PGND
PGND
DAB07
DAB07
DAB07
PGND
PGND
DAB14
REQGEN”
PGND
DAB02
DAB02
DAB02
PGND
PGND
PGND
PGND
DAB12
DAB12
DAB12
PGND
PGND
DAB15
DAB15
DAB15
DAB15
DAB09
DAB09
DAB09
DAB13
DAB13
DAB13
PGND
PGND
PGND
DAB1O
DAB1O
DAB1O
PGND
PGND
DAB08
DAB08
DAB08
PGND
PGND
PGND
PGND
DABII
DAB1l
DAB1l
MEMBUSY
MEMENABLE*
PGND
PGND
P+O05V
P+O05V
DOSTREN”
P+015VMEM
XAOIAl XAOIAl XAOIAl XAOIAl XAOIAl XAOIA1 XAOIAl XAOIAl XAOIA1.
XAOIAl XAOIAl XAOIAl XAOIAl XAOIAl XAOIAl XAOIAl XAOIA1
XAOIAl XAOIAl XAOIAl XAOIAl XAOIAl XAOIAl XAOIAl XAOIAl XAOIA1.
XAOIAl XAOIAl XAOIAl XAOIAl XAOIAl XAOIAl XAOIAl XAOIAl XAOIAl XAOIAl XAOIAl XAOIAl XAOIAl XAOIA1
XAOIA1
XAOIAl XAOIAl XAOIAl XAOIAl XAOIAl XAOIAl XAOIAl XAOIAl XAOIAl XAOIAl XAOIA1
XAOIAl XAOIAl XAOIAl XAOIAl XAOIAl XAOIAl XAOIA1.
XAOIAl XAOIAl XAOIA1
XAOIAl XAOIAl XAOIA1
XAOIAl XAOIA1
015
016
016
016
017
017
018
018
018
019
019
020
020
021
022
022
022
023
023
024
024
024
025
025
025
025
026
026
026
027
027
028
028
028
028
030
030
030
032
032
032
033
033
033
034
034
034
035
035
036
036
036
037
037
037
037
038
038
038
03$
s
04C
041
041
04:
042
041
04[
f pe
lef
Pin
Signal
—
—
XAOIAl XAOIA1.
XA02
xAol A2XAOIAl XAOIAl XAOIAl XA02
xAol A2XAOIAl XAOIAl XAOIAl XA02
xAol A2XAOIAl XA02
xAol A2JO02
XAOIAl XAOIAl XA02
xAol A2XAOIAl xAol A2XAOIAl XAOIAl XAOIAl XA02
xAol A2XAOIA1.
XAOIAl XAOIAl XA02
xAol A2XA01A2.
XAOIAl XA02
xAol A2XAOIAl XA02
xAol A2XAOIAl xAol A2XAOIAl XAOIAl XA02
xAol A2XAOIAl XAOIAl XAOIAl XA02
xAol A2XAOIAl XAOIAl xAol A2XAOIAl XAOIAl XA02
xAol A2XA02
XA02
XAOIAl XAOIAl XPS1
XA01A2
XAOIAl XPS1
011
062
085
031
019
015
064
086
029
025
017
066
089
075
068
087
061
025
025
070
088
023
027
024
019
023
072
090
021
033
025
074
091
019
063
076
092
017
078
093
015
035
014
027
080
094
013
037
033
082
095
011
041
086
008
035
084
096
O(J!
ol~
018
086
037
05(
051
08[
01[
28
28
s
28
:olor
—-
—
52
S1
S1
Group
000
000
Route
—
—
DATA
RTN
DATA
DATA
RTN
RTN
DATA
DATA
RTN
RTN
SGOO1
SGOO1
REQGENRTN
SGOO1
DATA RTN
REQGENRTN
DATA RTN
REQGENRTN
2[
2(
T;
T;
55:
55!
TGO )!
TG91
2[
T2
66(
TGO)
—-
ev
Remarks
ote
[
DATA
DATA
RTN
RTN
DATA
RTN
DATA
RTN
DATA
DATA
RTN
RTN
DATA
RTN
DATA
RTN
DATA
RTN
ATA
OUT
EN*
—
Change 5
4-11
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-1. Computer Wire List - Continued
—
:omponent
Pin
I
XYSW*
DAB04
DAB04
DAB04
ADDSTROBE2
IDAB07
M-5VA
DABOO
OABOO
XDR*
DAB14
DAB14
DAB14
YSR*
DAB02
DAB02
DAB02
BIN1
DAB12
DAB12
DAB12
VREFINHIB
DAB15
DAB15
DAB15
DAB15
VRFINHBRTN
DAB09
IADDSTR2*
DAB1O
DAB1O
DAB1O
XYDW*
DAB08
DAB08
DAB08
NCS*
4-12
XAOIAl XAOIAl XAOIA1.
XAOIAl XAOIA1.
XAOIAl XAOIA1.
XAOIAl XAOIA1.
XAOIAl XAOIA1.
XAOIAl XAOIAl XAOIA1
XAOIAl XAOIA1
XAOIAl XAOIAl XAOIAl XAOIAl XAOIA1.
XAOIA1.
XAOIAl XAOIA1XAOIA1.
XAOIAl XAOIAl XAOIA1.
XAOIAl XAOIA1 XAOIAl XAOIAl XAOIAl XAOIAl XAOIAl XAOIAl XAOIAl XAOIAl XAOIAl XAOIAl XAOIAl XAO Al.
XAO AlXAO Al.
XAO AlXAO Al.
XAO AlXAO Al.
XAO AlXAO AlXAO Al.
XAO Al.
XAO AlXAO AlXAO Al.
XAO Al.
XAO AlXAO AlXAO AlXAO AlXAO Al.
XAO AlXAO Al.
XAO Al.
XAOIAlXAOIA1.
XAOIA1.
Change 5
Route
4ote
—
Ref
—
:omponent
Pin
046
047
046
049
050
052
053
054
054
054
055
056
056
056
057
058
058
058
059
060
060
060
061
062
062
062
063
064
064
064
065
066
066
067
068
068
068
069
070
070
070
071
072
072
072
073
074
074
074
074
075
076
076
076
077
078
078
078
079
060
080
080
081
082
082
082
083
—
Ref
\WG
XAOIA1.
XAOIAlXAOIAlXPS1
XAOIAlXA02
XA02
xAolA2XA02
XAOIAlxAolA2XA01A2.
XA02
XAOIA1.
xAolA2XA01A2.
XA02
XAOIAlxAolA2XA01A2.
XA02
XAOIA1.
xAolA2xAolA2XA02
XAOIAlxAolA2XA01A2.
XA02
XAOIA1
xAolA2XA02
XAOIA1.
XA01A2.
xAolA2XA02
XAOIA1.
xAolA2xAolA2XA02
XAOIAlxAolA2xAolA2XA02
XAOIAlxAolA2xAolA2xAolA2XA02
XAOIAlxAolA2XA01A2
XA02
XAOIAlXA01A2.
xAolA2XA02
XAOIAlXAOlA2XA01A2
XA02
XAOIA1
xAolA2xAolA2XA02
XAOIAlxAolA2-
092
001
004
024
003
016
017
039
081
008
084
037
082
010
082
035
083
012
080
033
084
014
078
031
085
016
076
029
086
018
074
089
020
072
061
087
022
070
023
088
024
068
021
090
026
066
019
063
091
028
067
017
092
030
062
015
093
032
060
013
094
034
058
011
095
036
056
‘ype
:olor
Group
24
24
B
B
20
T2
Remarks
000
Iev
—
—-
—
—
—
P+015VMEM
P+o15VMEM
MODE2
P015VMEMRT
MODE1
CYCLEINIT
(RE/IN)*CP
DABO1
DABO1
DABO1
ADDSTROBE1
DAB05
—
To
From
Signal
—.
6
TGOO1
MODE
IN
:
A14
PCS*
—
—-
—
(A13)
(XCSR*)
—
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-1. Computer Wire List - Continued
To
From
—
—
Signal
DAB1l
DAB1l
DAB1l
YDR”
PGND
PGND
PGND
PSF OPT
00 STREN”
PGND
PGND
P015VMEMRT
P+015VMEM
P+015VMEM
P-015VMEM
P-015VMEM
P-015VMEM
9.(J15VMEM
>-15VRTN
).15VRTN
3-15VRTN
1.15VRTN
3+ O05V
3+ O05V
J+O05V
PGND
PGND
PGND
DAB1l
DAB1l
DAB1l
PGND
DAB08
DAB08
DAB08
PGND
PGND
PGND
DAB13
DAB13
DAB13
PGND
‘GND
IAB12
IAB12
IAB12
PGND
PGND
DAB02
DAB02
DA F4117
Componenl
XAOIA1.
XAOIAl XAOIA1.
XAOIAl XAOIAl XAOIAl XAOIAl XAOIA1
XAOIAl XAOIAl XAOIA1.
XAOIAl XAOIAl XAOIAl XA01A2
xAol A2xAol A2xAol A2xAol A2xAol A2xAol A2XA01A2.
xAol A2XA01A2
xAol A2xAol A2XA01A2
xAol A2xAol A2xAol A2xAol A2xAol A2xAol A2xAol A2xAol A2xAol A2xAol A2XA01A2
xAol A2xAol A2XA01A2
xAol A2xAol A2xAol A2xAol A2xAol A2xAol A2XA01A2
xAol A2XA01A2.
xAol A2xAol A2xAol A2xAol A2xAol A2xAol A2xAol A2xAol A2xAol A2XA01A2
xAol A2xAol A2XA01A2
xAol A2xAol A2XA01A2
xAol A2-
Pin
084
084
084
085
086
086
086
087
088
089
089
090
091
092
001
001
002
002
003
003
004
004
005
005
006
007
008
008
009
009
009
010
011
011
011
012
012
013
013
013
014
014
014
015
015
015
016
016
017
017
017
018
018
019
019
019
019
020
020
021
021
021
022
022
023
023
023
Ref
Component
Pin
l--r-l
xAol A2XA02
XAOIA1.
xAol A2xAol A2XAOIA1.
XAOIAl XAOIAl XAOIAl XPS1
xAol A2XPS1
xAol A2XAOIAl xAol A2XA01A2
xAol A2XA01A2.
xAol A2xAol A2xAol A2xAol A2xAol A2xAol A2xAol A2xAol A2XAOIAl XAOIAl XA02
XAOIA1.
XAOIAl xAol A2XA02
XAOIAl XAOIAl xAol A2XA01A2.
XA02
XAOIAl XAOIA1.
xAol A2XAOIA1
xAol A2XA02
XAOIAl XAOIAl xAol A2xAol A2XA02
XAOIAl XAOIAl xAol A2XA01A2.
xAol A2XA02
XAOIAl XAOIAl xAol A2xAol A2XA02
XAOIAl XAOIAl xAol A2xAol A2XA02
XAOIAl XAOIAl -
009
096
038
054
008
037
041
002
044
037
052
025
045
046
002
047
048
001
004
049
050
003
006
051
005
053
037
086
096
038
084
012
095
036
082
014
010
094
034
080
016
033
012
093
032
078
018
014
092
030
076
020
016
063
091
028
074
022
018
090
026
072
024
020
088
024
070
Ref
Groul)
Route
Note
Remarks
Rev
—
TGO( 5
TG9!1
TGO(2
D
6
ADD
RTN
ATA
OUT
6
9
ETCH
9
9
9
9
9
9
9
9
ETCH
ETCH
ETCH
ETCH
ETCH
ETCH
ETCH
ETCH
9
EN*
ETCH
+5VRTN
ADO
RTN
ADD
RTN
ADD
ADD
RTN
RTN
ADD
RTN
ADD
RTN
ADD RTN
ADD RTN
ADD RTN
ADD RTN
ADD
ADD
RTN
RTN
ADD
ADD
RTN
RTN
Change 5
4-13
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-1. Computer Wire List - Continued
—
To
From
—
:omponent
Signal
Pin
Pin
lef
Ref
,WG
ype
Color
Group
Remarks
Route
PGND
PGND
PGND
PGND
PGND
DAB07
DAB07
r
DAB07
PGND
PGND
DAB03
DAB03
DAB03
PGND
PGND
DAB04
DAB04
DAB04
PGND
PGND
DAB06
DAB06
DAB06
PGND
PGND
DAB05
DAB05
DAB05
PGND
PGND
DABO1
DABO1
DABO1
PGND
PGND
PGND
P+O05V
P+O05V
P+O05V
PO15VMEMRT
P015VMEMRT
P015VMEMRT
P015VMEMRT
P+015VMEM
P+015VMEM
P+015VMEM
P+015VMEM
P+015VMEM
P.015VMEM
P-015VMEM
P-015VMEM
P-015VMEM
P-015VMEM
P-15VRTN
P-15VRTN
P-15VRTN
P-15VRTN
P.15VRTN
P+O05V
P+O05V
PGND
PGND
PGND
PGND
YDR*
NEGCS
INCS*
4-14
xAol A2XA01A2.
XA01A2.
xAol A2XA01A2.
xAol A2xAol A2xAol A2xAol A2XAO A2XAO A2XAO A2XAO A2XAO A2XAO A2XAO A2XAO A2.
XAO A2XAO A2xAol A2xAol A2XA01A2
xAol A2xAol A2xAol A2xAol A2xAol A2XA01A2.
xAol A2XA01A2.
xAol A2xAol A2xAol A2xAol A2xAol A2xAol A2xAol A2XA01A2.
xAol A2XA01A2.
xAol A2xAol A2xAol A2xAol A2XA01A2.
xAol A2xAol A2xAol A2xAol A2xAol A2xAol A2xAol A2xAol A2XA01A2.
xAol A2xAol A2xAol A2xAol A2xAol A2xAol A2XA01A2.
xAol A2xAol A2xAol A2xAol A2XA01A2
xAol A2-
Change 5
024
024
024
028
028
029
029
029
030
030
031
031
031
032
032
033
033
033
034
034
035
035
035
036
036
037
037
037
038
038
039
039
039
040
040
040
041
042
042
043
043
044
044
045
045
045
046
046
047
047
048
048
048
049
049
049
050
050
051
051
052
052
053
053
054
055
056
Iev
—
—
xAol A2XAOIAl xAol A2XA01A2.
xAol A2XA02
XAOIA1
XAOIA1
xAol A2xAol A2XA02
XAOIAl XAOIAl XA01A2.
xAol A2XA02
XAOIAl XAOIAl xAol A2xAol A2XA02
XAOIAl XAOIAI.
xAol A2xAol A2XA02
XAOIAl XAOIAl XA01A2.
xAol A2XA02
XAOIAl XAOIA1
xAol A2XAOIAl XA01A2.
xAol A2XA01A2.
xAol A2xAol A2xAol A2xAol A2xAol A2XA01A2.
XAOIAl XA01A2.
xAol A2xAol A2XA01A2
xAol A2XA01A2
xAol A2XPS1
xAol A2xAol A2XPS1
xAol A2XA01A2
XAOIAl xAol A2XAOIA1
XA01A2
XA01A2.
xAol A2XAOIAl xAol A2XAOIAl -
028
025
022
030
024
086
018
064
032
028
085
016
062
034
030
084
014
060
036
032
083
012
058
038
034
082
010
056
040
036
081
008
054
086
007
038
042
088
041
044
089
090
043
046
091
091
092
045
048
001
002
047
008
050
003
042
004
049
042
005
089
053
007
052
085
057
083
ADD RTN
REIIGENRTN
ADD RTN
ADD RTN
ADD RTN
24
24
24
24
24
24
24
24
20
24
24
24
24
24
24
24
20
24
24
20
24
24
20
24
20
24
24
24
—
B
B
B
B
B
B
B
B
666
B
B
B
B
B
B
T!
B
444
T!
B
000
T!
B
T2
B
B
B
555
TG991
000
TG991
ADD
ADD
RTN
RTN
ADD
ADD
RTN
RTN
ADD
ADD
RTN
RTN
ADD
ADD
RTN
RTN
ADD
ADD
RTN
RTN
ADD
ADD
ADD
RTN
RTN
RTN
9
9
9
9
9
9
9
9
9
9
9
9
9
ETCH
ETCH
ETCH
ETCH
ETCH
ETCH
ETCH
ETCH
ETCH
ETCH
ETCH
ETCH
ETCH
9
9
6
9
9
ETCH
ETCH
9
ETCH
TGO07
TGO07
ETCH
ETCH
+5VRTN
+5VRTN
+5VRTN
—
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-1. Computer Wire List - Continued
To
From
—
—
Signal
Component
Pin
Poses
AODSTROBE1
Poses
PGND
PGND
PGND
PGND
P+O05V
P+O05V
P015VMEMRT
P015VMEMRT
P015VMEMRT
P015VMEMRT
P015VMEMRT
P015VMEMRT
P+015VMEM
P+015VMEM
P+015VMEM
P+015VMEM
P+015VMEM
PFA*
CYCLEINIT
(RE/lN)*CP
MEMENABLE*
MEMBUSY
PGNO
DABO1
OABO1
DABO1
DAB05
DAB04
OAB04
DAB03
DAB03
Ref
:omponen
Pin
Ref
4W(
rype
Color
XA01A2
XA01A2.
xAol A2XA01A2.
xAol A2xAol A2xAol A2xAol A2XA01A2.
xAol A2xAol A2xAol A2XA01A2
xAol A2XA01A2.
xAol A2xAol A2xAol A2xAol A2xAol A2xAol A2xAol A2xAol A2xAol A2XA01A2.
XA01A2
xAol A2xAol A2xAol A2xAol A2xAol A2xAol A2xAol A2XA01A2.
xAol A2xAol A2xAol A2xAol A2XA01A2.
xAol A2XA01A2
XA01A2.
xAol A2xAol A2XA01A2.
XA01A2
xAol A2XA02
XA02
XA02
XA02
XA02
XA02
XA02
XA02
XA02
XA02
XA02
XA02
XA02
XA02
XA02
XA02
XA02
XA02
XA02
XA02
057
058
059
060
061
061
061
062
063
063
063
063
064
065
066
067
068
070
072
073
074
075
076
077
078
080
082
083
084
085
086
086
086
087
088
088
089
089
090
090
090
090
091
091
091
092
092
013
016
017
018
019
080
081
081
081
082
082
082
083
083
083
084
084
084
085
085
—
Route
Group
Uote
Remarks
xAol A2XAOIAl XA01A2.
XAOIAl XA02
XAOIAl XAOIA1
XAOIAl XA02
XAOIAl XAOIAl xAol A2XA01A2.
xAol A2XAOIA1.
XAOIAl XAOIAl XAOIAl XAOIAl XAOIAl XAOIAl XAOIAl XAOIAl XA02
XAOIA1
XAOIAl XAOIAl xAol A2XAOIAl xAol A2XAOIAl XA02
XA01A2
XAOIA1.
XAOIAl xAol A2XA01A2.
xAol A2xAol A2xAol A2XPS1
xAol A2XPS1
xAol A2XA01A2.
xAol A2xAol A2xAol A2XAOIAl XAOIAl XAOIAl XAOIAl XA01A2.
XAOIAl XAOIAl XA01A2.
XAOIAl XAOIAl xAol A2XAOIAl XAOIAl xAol A2XAOIA1.
XAOIAl xAol A2XAOIAl XAOIAl -
055
081
090
079
087
022
068
077
091
028
074
019
065
064
073
075
071
069
067
013
065
021
063
013
061
059
057
085
055
083
007
080
040
007
005
042
043
090
089
059
044
044
043
045
092
091
046
077
052
053
040
039
086
008
054
039
010
056
037
012
058
035
014
060
033
016
062
20
{ev
—
—-
—
E
NEGCS
XYDW*
P015VMEMR’
AD DSTR2*
DAB14
DAB14
DAB14
PCS*
DAB15
DAB15
IDAB15
DAB15
VREF
VREF
VREFINHIB
VRFINHBRTN
BIN1
YSR*
XOR*
NE”
M-5VA
M-5VB
A14
PFA*
ADDSTROBE2
;:ty”
—
9
000
ETCH
XCSR* )
PCS*
1
VREF
VREF
A14
lN/OUT
lN/OUT
(A13)
POSCS
20
20
24
24
24
24
20
20
24
20
24
24
24
24
T2
T2
B
B
B
B
T2
T;
B
B
B
B
000
555
POSCS IN
OATA RTN
BANK SE1*
ADD RTN
+5VRTNN
TG983
TG983
000
000
TGO03
666
TGO03
IN
9
9
9
9
6
9
ETCH
ETCH
ETCH
ETCH
9
9
9
9
ETCH
ETCH
ETCH
ETCH
ETCH
MODE
BANK
—
N
SEL*
—
——
Change 5
4-15
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-1. Computer Wire List - Continued
From
Signal
:omponent
To
Pin
Ref
:omponeni
Pin
—
DAB02
DAB02
DABOO
DABOO
DAB12
DAB12
DAB12
DAB15
DAB15
DAB15
DAB15
DAB09
DAB1O
DAB1O
DAB1O
DAB08
DAB08
DAB08
DAB1l
DAB1l
DAB1l
DISCIN09
P015VADRTN
P015VADRTN
P015VADRTN
PGND
PGND
P+015VAD
P-015VAD
PSUFLGSET”
PSUFLGRST*
P015VADRTN
P-015VMEM
P+015VMEM
P+015VMEM
VLAMPRET
115VACRT
115VAC
VLAMP
VLAMPRET
P+O05V
P+O05V
PGND
PGND
COMPOFF*
ON/OFF*
VLAMPREF
VLAMPREFRT
P015VMEMRT
P015VMEMRT
P+024VAUX
VLAMPRET
VLAMPRET
VLAMP
4-16
XA02
XA02
XA02
XA02
XA02
XA02
XA02
XA02
XA02
XA02
XA02
XA02
XA02
XA02
XA02
XA02
XA02
XA02
XA02
XA02
XA02
XA02
XA02
XA02
XA02
XA02
XA02
XA02
XA02
XA02
XA02
XA02
XA02
XA02
XA09
XA1l
XA1l
XA1l
XPS1
XPS1
XPS1
XPS1
XPS1
XPS1
XPS1
XPS1
XPS1
XPS1
XPS1
XPS1
XPS1
XPS1
XPS1
XPS1
XPS1
XPS1
XPS1
XPS1
XPS1
XPS1
XPS1
XPS1
XPS1
XPS1
XPS1
XPS1
XPS1
Change 5
-
-
-
-
-
-
-
—
—-
085
086
086
086
087
087
087
088
088
088
089
089
090
090
090
091
091
091
091
092
092
092
093
093
093
094
094
094
095
095
095
096
096
096
003
046
046
095
001
002
003
004
005
006
007
008
009
010
011
012
013
014
015
016
017
018
019
020
021
022
023
024
025
026
027
028
029
—
xAol A2XAOIA1
XAOIAl xAol A2XAOIAl XAOIAl XA01A2.
XAOIAl XAOIAl xAol A2XAOIAl XAOIAl XAOIAl XAOIAl xAol A2XAOIAl XAOIAl xAol A2xAol A2XAOIAl XAOIAl xAol A2XAOIA1
XAOIAl XA01A2.
XAOIAl XAOIA1.
xAol A2XAOIA1.
XAOIAl XA01A2.
XAOIAl XAOIAl XA01A2.
Sool
XA1l
XPS1
XA1l
wool
wool
E244
E245
E233
E234
XA1l
xAol A2XAOIA1.
XAOIAl JO03
MOO1
MOO1
JO03
JO03
WO02
WO02
wool
wool
E214
E243
E232
E231
XAOIAl XAOIAI.
E213
JO03
JO03
JO03
Ref
(WG
rype
—
—
—
24
24
22
24
22
22
22
22
24
24
22
20
20
20
22
20
20
24
24
22
22
22
22
24
24
22
24
20
20
22
22
22
22
T2
B
031
018
064
029
022
068
061
024
070
023
020
066
026
072
021
028
074
019
063
030
076
017
032
078
015
034
080
013
036
082
011
038
084
009
002
095
007
046
046
048
001
046
048
B
04!
034
049
090
047
041
033
—
Color
Group
Route
—-
999
Note
Remarks
TG988
000
B
T2
T2
T2
T2
T2
T2
T2
T2
T2
T2
T2
T2
T2
12
T2
—
000
000
666
444
999
999
000
444
666
666
000
989
888
999
000
555
555
000
000
999
999
999
000
000
000
666
000
000
999
NON
NON
TGO07
TGOO1
TGO02
TG994
TGO09
TGO09
TG993
TG993
8
TGO06
TGO06
TGOO1
TGO02
6
6
TG995
TG996
TG995
8
8
7
—-
lev
—
—
XPS1-7
XPS1-7
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-1. Computer Wire List - Continued
To
From
Signal
LAMP
LAMP
+O05V
‘+O05V
GND
GND
GND
GND
SPOR
6VAC90
6VAC90RTN
PUFLGSET*
.15VRTN
+015 VMEM
015 VMEMRT
AT TERY*
HARGE*
+O05V
+O05V
+O05V
+O05V
Component
XPS1
XPS1
XPS1
XPS1
XPS1
XPS1
XPS1
XPS1
XPS1
XPS1
XPS1
XPS1
XPS1
XPS1
XPS1
XPS1
XPS1
XPS1
XPS1
XPS1
XPS1
Pin
030
031
032
033
034
035
036
037
038
039
040
041
042
043
044
045
046
047
048
049
050
Ref
Component
JO03
JO03
WO02
WO02
wool
wool
XAOIAlXAOIAlE21O
E241
E240
E207
xAolA2XA01A2
xAolA2JO03
JO03
WO02
WO02
XAOIAlXAOIAl-
Pin
032
040
----007
089
------049
091
090
049
054
--005
042
Ref
AWG
22
22
22
22
22
22
20
20
24
24
24
24
20
20
20
24
24
22
22
20
20
Type
T2
T2
T2
T2
T2
T2
T2
T2
T2
T2
T2
Color
999
999
555
555
000
000
000
000
999
888
989
999
000
666
000
999
999
555
555
555
555
Group
Route
Note
TG9 16
TG9 14
7
7
TGO)4
TGO)5
5
6
Remarks
DATA
Rev
RTN
TG939
TG939
TGOD7
TGO03
TGO03
6
6
TGO04
TGO05
Change 5
4-17
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 4-1.
4-18
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-2. CDU Wire List
—
—
—.
To
From
—
Pin
Signal
Pin
Ref
—
+28VDC
+28VDC
FIAGSET*
FIAGRST*
+28VDC
ALARM*
P+o05V
P+O05V
P+O05V
SPARE 2
SW1-1 NO
SW1-1 RET
+28VDC
+28VOC
RELAY*
FL AGSET*
FLAGRST*
FLAGRST*
ALARM*
ALARM*
P+O05V
F’+O05V
SHLORET
ALARM”
RELAY*
BATTERY”
lMU*
VLAMP
V 1 AMP
VLAMP
VLAMP
VLAMP
VLAMP
VLAMP
VLAMP
V L AMP
V L AMP
V L AMP
VLAMPRET
OPUFAIL*
PGNO
PGND
PGND
PGNO
PGNO
PGNO
PGNO
PGND
PGNO
PGNO
P+O05V
P+O05V
P+O05V
P+O05V
P+O05V
P+O05V
P+O05V
P+O05V
P+O05V
FL AGSET*
+28VOC
CHARGE*
CHARGE*
AOORENV*
AOORENV*
WON
BATTERY*
i
A
A
A
‘
:
A
A
A
A
A
0s02
DS02
0s02
0s02
0s02
0s03
DS03
EO03
EO03
EO04
EO05
EO06
EO07
EO08
EO1l
E012
E013
E013
E014
EO14
E015
E015
EO16
E017
E018
E020
E021
E022
E022
E023
E023
E024
E024
E025
E025
E026
E026
E027
E028
E034
E035
E036
E036
E037
E037
E038
E038
E039
E039
E040
E041
E041
E042
E042
E043
E044
E045
E045
E046
E047
E048
E049
E049
E050
E050
E051
E052
.
.
.
.
~
.
.
.
.
.
.
.
~
.
.
.
.
.
.
.
.
.
~
.
.
-
~
.
.
.
.
0s02
EO07
E012
EO13
0s02
EO14
EO15
Pool
XA03
Pool
Pool
Pool
DS02
KOO1
KOO1
0s02
JOO1
0s02
E017
rJJ;;
001
001
002
003
004
. . .
. . .
. . .
. . .
. . .
. . .
. . .
. . .
. . .
. . .
. . .
. . .
. . .
. .
. . .
. . .
. . .
. . .
. . .
. . .
. . .
. . .
. . .
. . .
,..
. . .
. . .
. . .
. . .
. . .
. . .
. . .
. . .
. . .
. . .
. . .
. . .
. . .
. . .
. . .
. . .
. . .
. . .
. . .
. . .
. . .
. . .
. . .
. . .
. . .
. . .
. . .
. . .
. . .
. . .
. . .
. . .
. . .
. . .
. . .
. . .
. . .
.
.
-
Ref
4WC
Typa
—
—
—
24
24
24
24
004
. . .
. . .
001
. . .
. . .
;;
26
24
28
26
26
26
24
22
22
24
ET
24
ET
26
ET
26
ET
ET
ET
ET
ET
ET
ET
ET
ET
ET
ET
ET
ET
ET
ET
ET
ET
ET
ET
ET
ET
ET
ET
ET
ET
ET
ET
ET
ET
ET
ET
ET
ET
ET
ET
ET
ET
ET
ET
ET
ET
ET
ET
ET
ET
011
081
019
018
003
001
xl
0:;
045
003
. . .
.
010
0s03 :
JOO1
E014 E055 JOO1
JOOI
.
E023 .
JOO1 E024 .
E022 E025 E023 E026 E024 E027 .
E025
E026 .
JOO1 .
JOO1 E036 E037 .
E035 E038 E036 E039 .
E037
E040 E038
E039 E042 JOO1 E043 .
E041 .
E042 E045 E046 E044 .
E045 JOO1 JOO1 .
E098 .
JOOl
XA03
JOO1 xOS06xoso4—
053
. . .
049
030
. . .
042
. . .
. . .
. . .
. . .
. . .
. . .
. . .
. . .
048
015
. . .
. . .
. . .
. . .
. . .
. . .
. . .
. . .
. . .
. . .
021
. . .
. . .
. . .
. . .
. . .
. . .
oil
039
054
012
009
c
c
—
FL
FL
FL
B
FL
FL
FL
Cdw
Grollp
Route
Note
Remarks
Rew
—
999
999
999
999
999
000
222
999
222
999
999
999
999
999
999
999
l OIR
l OIR
FLEX
CH
999
FLEX
~:
000
FLEX
;;
222
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
D21O*FLEX
FLEX
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
Ch
Cll
c1-l
CH
CH
CH
CH
CH
CH
—
Change 5
4-19
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-2. CDU Wire List - Continued
From
Signal
IM!J*
ND1l B
RELAY*
RELAY”
DP1l
ND09B
ND07B
ND07D
DP08
DP08
DP06
ADL
ADM
ADP
ND02F
VLAMP
VLAMP
VLAMP
VLAMP
Z-VEL
ENT
ND1lB
ND1lA
ND1lD
DP1l
DP1O
DP08
ND08E
NEJ07D
DP15
DP13
tiD07G
RTTN
VD05G
‘iDo5B
ID04D
!D04C
)P05
W04F
ID04A
IDK
IDJ
AD 1
ADP
ADP
ND02C
ND02G
VLAMP
VLAMP
VLAMP
CHARGE*
CHARGE*
DPUFAIL*
ND1lE
ADZ
ND09B
DP15
DP14
ND08F
ND07B
ND08E
DP07
ND07E
ND05A
ND05C
‘4D05D.
VDQ~
4-20
Component
Pin
E053
E054
E055
E055
E056
E057
E058
E059
E060
E061
E062
E063
E064
E065
E066
E067
E067
E068
E068
E069
E070
E071
E072
E073
E074
E075
E076
E077
E078
E079
E080
E081
E082
E083
E084
E085
E086
E087
E088
E089
E090
E091
E092
E093
E093
E094
E095
E096
E096
E097
E098
E098
E099
E1OO
E101
EI02
E103
E104
E105
E106
EI07
E108
E109
E11O
Elll
E112
E113
--------.-.
--...-.
.
--.-.
-.
-..
--.-.
------.-.
---
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
-
:::
----:::
----. .
.-.
:::
------:::
...-.
-.
--...----:::
--:::
--.-.
------.------.-.
----..--.-.
-----
To
Ref
Component
XDS03XA02
E018
XAO1
XA02
XA02
XA02
XA02
E061 E060
XDS15.
XDSllXDS1l.
E093
XDSIOE068 XDSO1.
E096
E067
xDso8XDS08.
XDS20XDS20.
XDS20XDS20.
XDS20.
xDsl8XAO1
XDS16.
XA02
xDsl6XDS16.
XDS04XDS14.
XDS14.
XDS13XDS13.
XDS14.
XDS13.
XDS13XDS1l.
XDS1l.
XDSllE065 XDS1l.
XDS1O.
XDS1O.
E097
E068 E096 XDS05.
E049
XDS03XDS20.
XDS05.
XDS18.
xDsl8XDS17.
XDS17.
XDS16.
XDS17XDS17.
XDS16.
XDS14.
XDS14XDS14XDS14.
Pin
Ref AWG Type
07:
ET
ET
ET
CH
CH
CH
:!
ET
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
077
075
071
066
065
-.
--i
.-N
E
“ii
----C
I
A
D
H
i
070
I
B
:
H
;
::
ET
ET
E;
ET
ET
E!
ET
ET
ET
El
ET
ET
E;
ET
:;
ET
E+
ET
E;
:
..G
.-.
-.
..c
C
1!
B
J
J
;
E
H
:
C
D
F
Route
Note
Remarks
FLEX
ND6B FLEX
FLEX
E;
ET
ET
ET
E;
ET
::
CH
:;
ET
ET
E;
ET
;;
ET
ET
ET
ET
E:
ET
ET
E!
ET
ET
E!
ET
ET
DP715*FLEX
ND5B FLEX
ND4B FLEX
ND4D FLEX
ND2F FLEX
ND2F FLEX
ND2D FLEX
ADDL FLEX
ADEM FLEX
ADHP FLEX
NDIB FLEX
FLEX
FLEX
FLEX
FLEX
:1
CH
CH
CH
CH
CH
CH
CH
::
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
;
..J
Group
222
05!
!
Color
4
D4i2”[:~!
ND6B FLEX
ND6A FLEX
ND6D FLEX
DP715*FLEX
ND2G FLEX
ND2F FLEX
ND5E FLEX
ND4D FLEX
SPSEG2FLEX
SPSEG2FLEX
ND4G FLEX
D109*FLEX
ND2G FLEX
ND2B FLEX
ND3D FLEX
ND3C FLEX
DP614*FLEX
ND3F FLEX
ND3A FLEX
ADCK FLEX
ADBJ FLEX
ADAI FLEX
ADHP FLEX
ADHP FLEX
NDIE FLEX
NDIG FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
ND6E FLEX
D109*FLEX
ND5B FLEX
SPSEGIFLEX
SPSEGIFLEX
ND5F FLEX
ND4B FLEX
ND5E FLEX
ND2E FLEX
ND4E FLEX
ND2A FLEX
ND2C FLEX
ND2D FLEX
ND2F FLEX
Ret
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-2. CDU Wire List - Continued
From
Signal
Componan
Pin
Ref
Pin
—
DP04
ND04B
ND04E
DP03
ADA
ADC
ADN
ADO
GO
NO02D
ND02E
ND02B
PGND
PGND
PGND
ADR/D”
PGND
PGNEI
PGND
PGND
PGND
PGND
VI AMP
ADR/DTA
ADDRENV*
P+O05V
P+O05V
PGND
PGND
PGND
PGND
fLAMPRET
[NT*
IPUFAIL*
4DDRENV
~+oo5v
~+oo5v
J+O05V
J+O05V
J+O05V
J+O05V
115VAC
l/ SLDEN*
)N/OFF*
)ATAENV
~+oo5v
J+O05V
J+O05V
J+O05V
~+oo5v
)+O05V
)/SLDEN
IMU*
)ATAENV*
IL AMP
/ LAMP
IL AMP
/LAMPRET
[15 VACRT
IS2321NR*
‘LAGSET*
}28VDC
1 L AMP
I LAMP
IL AMP
ILAMPRET
ILAMPRET
E114
E115
E116
E117
E118
E119
E120
E121
E122
E123
E124
E125
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO
JOO
JOO
JOO
JOO
JOO
JOO
JOO
JOO
JOO
JOO
JOO
JOO’
JOO:
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
.
-
~
-
—
To
..
...
...
001
002
002
003
004
004
005
005
006
006
007
008
009
010
010
011
011
012
012
013
014
015
016
017
017
018
018
019
019
020
022
023
024
025
025
026
026
027
027
029
030
031
032
033
033
034
035
037
038
039
040
040
040
041
041
—
xos14xos13xosl3XDS13.
XDS1l.
XDSll XDSll xosll XDS02XDSIO XDSIOXDS1O.
JOO1 JOO1 JOO1 XA03 JOO1
JOO1
JOO1 JOO1 JOO1 JOO1 JOO1 XA03 .
E050
JOOI
E015 JOO1 JOO1 Pool
JOO1 JOO1 Pool
E034 XA03
JOO1 ~
JOO1
JOO1 JOO1 JOO1 JOO1 KOO1 NC
Pool XA03 .
JOO1 JOO1 JOO1 JOO1 E041
JOO1
NC
E021
XA03
JOO1 JOO1 JOO1 JOOI Pool Nc
E047 E048 JOO1 .
JOO1
JOO1 .
JOO1 JOO1 -
i
Ref
—
kw(
Color
ET
ET
CH
CH
::
ET
ET
ET
ET
ET
ET
:;
CH
CH
CH
CH
CH
1
c
A
;
002
004
001
008
005
002
006
004
011
005
040
049
017
012
006
002
011
047
014
053
018
010
019
017
025
018
B2
016
054
026
019
027
025
026
oi3
033
040
032
041
021
042
033
007
047
034
E;
ET
ET
ET
ET
ET
ET
ET
ET
ET
ET
::
CH
CH
CH
CH
:1
CH
CH
CH
CH
CH
ET
ET
ET
ET
CH
CH
CH
E;
:1
CH
;!
[k
26
ET
El
ET
ET
ET
ET
ET
22
ET
Route
DP614*FLEX
N03B FLEX
ND3E FLEX
ND2C FLEX
ADAI FLEX
ADCK FLEX
AOFN FLEX
ADGO FLEX
FLEX
NDID FLEX
NDIC FLEX
NDIF FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
E
!
c
Group
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
999
;Il
CH
CH
CH
CH
CH
CH
CH
CH
FLEX
999
000
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
NO CONNEC’
999
n
ET
ET
ET
ET
h
CH
CH
CH
CH
E!
ET
ET
ET
ET
ET
ET
ET
22
::
CH
CH
CH
CH
CH
:1
FL
ET
ET
ET
ET
CH
CH
CH
CH
NO CONNEC’
FLEX
FLEX
FLEX
FLEX
ET
ET
CH
CH
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
NO CL)NNEC
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
999
4-21
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-2. CDU Wire List - Continued
—
To
From
—
Signal
V1 AMP
VLAMP
RS2321NR
FIAGRST*
SBPOR*
VLAMPRET
VLAMPRET
VLAMPRET
VLAMPRET
VIAMPRET
BATTERY”
250KHZ*
SBPOR
SHLDRET
SHLDRET
gli;i;;”
115VAC
115VAC
.w$
A
DP12
AOD
ADB
ADH
ADF
ND05E
STOP
ATTN
ND03F
ND03E
ND03G
ND06F
ND06A
ND06E
1NS340
ND08A
ND08D
4-22
Pin
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
JOO1
042
042
044
045
046
047
047
047
048
048
049
051
052
053
053
054
055
joo
B
A
COL 7
PGND
PGND
SW1-1 RE T
COL 6
COL 5
COL 4
COL 3
COL 2
;:i)ol
PGND
P+O05V
ROW 1
ROW 3
ENT*
ROW 4
ON/OFF*
ROW 2
SW1.1 NO
SPARE 2
115VAC
115VACRT
115VAC
115VAC
SHLDRET
NDOIA
;w:i
Componen
A
KOO
KOO
KOO
KOO
Poo
Poo
Poo
Poo
Poo
Poo
Poo
Poo
Poo
Poo
Poo
Poo
Poo
Poo
Pool
Pool
Pool
Pool
Pool
Pool
Pool
Pool
Pool
TBO1
TBO1
wool
XAO1
XAO1
XAO1
XAO1
XAO1
XAO1
XAO1
XAO1
XAO1
XAO1
XAO1
XAO1
XAO1
XAO1
XAO1
XAO1
XAO1
XAO1
XAO1
XAO1
~
.
.
-
Ref
!;
xl
.
.
.
.
.
-
—
01;
002
002
003
004
005
006
007
008
009
010
010
011
012
013
014
015
016
017
018
019
020
021
001
002
002
003
004
005
006
008
009
010
013
015
017
020
021
022
025
026
027
028
029
030
—
—
4W(
Componen
Pin
E022
JOO1
NC
E013
XA03
JOO1
JOO1 JOO1 E028
JOO1
E020
XA03
XA03 E016 wool
E049
XA03
JOO1 TBO1
EO08
EO1l
XA03 Pool JOO1
EO06
XA03
XA03
XA03 XA03
XA03
XA03 .
XAO1
Pool EO03
XA03
XA03
JOO1
XA03 JOO1 XA03
EO05
EO04
TBO1
JOO1 Pool KOOI JOO1
XDS09.
XDS09.
XDS09XDS15XDSllXDSllXosll.
Xosll.
xos14XDSOlXDS04XDS12.
XDS12.
xos12XDS15XDS15XOS15.
XA03
xos17XDS17-
Q4i
CH
CH
001
CH
CH
CH
CH
Ref
048
041
013
Color
Group
Route
Note
005
042
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
:!
CH
CH
CH
CH
046
020
002
iii
010
012
~j
036
076
080
039
038
078
041
002
. . .
037
072
014
031
023
077
. . .
![
FL
[1
FL
FL
U
FL
FL
FL
FL
FL
FL
[:
FL
FL
00;
035
020
;!
0!:
0
G
E
CH
CH
CH
CH
CH
CH
CH
!
B
H
;
c
P
999
FLEX
FLEX
000
000
999
999
999
ETCH IN KEYED
999
999
999
999
999
999
999
999
999
999
999
999
999
999
999
999
999
999
999
999
999
000
999
ETCH IN KEYBO
*DIR
:1
:1
CH
CH
E
G
;
:;
CH
CH
02:
—
:1
Remarks
FLEX
FLEX
NO CONNEC”
FLEX
FLEX
FLEX
FLEX
CH
CH
047
I
rype
—
NDIA FLEX
NDIG FLEX
NDIB FLEX
SPSEGIFLEX
ADOL FLEX
ADBJ FLEX
ADHP FLEX
ADFN FLEX
ND2E FLEX
STPGO*FLEX
FLEX
ND3F FLEX
ND3E F lEX
ND3G F LEX
ND4F F LEX
ND4A F LEX
ND4E F LEX
NS340F LEX
ND5A F LEX
ND5D F LEX
?el
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-2. CDU Wire List - Continued
To
Component
Signal
ND08C
ND1OC
ND1OD
ND1OE
ND1OG
lSPDSC1
ND06D
ND06B
ND06C
ND06G
ND08E
ND08B
ND08G
1NS560
DP09
NOl OB
RELAY*
NO1OA
NO1OF
CAL
P+O05V
;;;~5v
PGNO
NO02A
2NS120
0P02
DPO1
NO04G
uPOT
NO07F
ND07A
ND09A
ND090
NO09F
NO09C
NO1l C
NO1l G
2SPOCS1
P+O05V
P+O05V
PGNO
F’:~D
AOOAT
0P15
NO070
NO07B
NO07C
ND09E
NO09B
NO09G
OP1l
XAO1
XAO1
XAO1
XAO1
XAO1
XAO1
XAO1
XAOI
XAO1
XAO1
XAO1
XAO1
XAOI
XAO1
XAO1
XAO1
XAO1
XAO1
XAOI
XAO1
XAO1
XAO1
XAO1
XAO1
XAO1
XAO1
XAO1
XAO1
XAO1
XAO1
XAO1
XAO1
XAO1
XAO1
XAO1
XAO1
xAO1
XAO1
XA02
XA02
xA02
XA02
XA02
XA02
XA02
XA02
XA02
XA02
xA02
XA02
XA02
XA02
XA02
XA02
XA02
XA02
XA02
XA02
XA02
XA02
XA02
XA02
XA02
XA02
XA02
XA02
XA02
.
-
032
035
036
037
038
039
040
041
041
043
044
045
046
049
051
055
059
060
061
062
065
066
067
068
070
071
072
074
075
076
077
078
079
080
081
081
082
082
002
014
016
019
022
024
025
026
029
030
031
032
035
038
039
xosl7XDS19XDS19xos19xos19NC
XAO1
XAO1 Pool xoso9xoso9xoso9XDS09xosll xosll XA02 xosl2xosl2XDS12xosl2xos15xos15xos15XDS15E077
xos17xosl7XA03
xosl9XOS19.
E055 xosl9xosl9XDS07.
XA02 XAOI XA02 XAO1 xoslo XA03 xoslo xoso9xosl3XOS06.
XDS16.
xOS16XOS18XOS18XOS18XOS18xos20XDS20NC
XA02 - ]
XAO1 XA02 XAO1 XA03 XAO1 E079 .
E059 E058 XOS16XOS18E057 XOS18.
E056 -
Ref
Pin
C
C
D
:
081
082
010
C
B
A
:
E
056
C
A
0
B
0
AWG Type
;!
ET
ET
ET
ET
ET
:!
ET
ET
ET
ET
ET
E!
ET
ET
CH
CH
FL
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
:;
ET
ET
ET
:!
ET
ET
ET
ET
ET
ET
ET
ET
ET
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
i
o
F
:;
ET
ET
ET
ET
ET
ET
ET
ET
ET
:1
CH
CH
CH
CH
CH
CH
CH
CH
CH
081
ET
ET
ET
ET
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
..:
07:
H
.-6
A
[
040
040
041
041
01:
J
..
...
c
E
...
G
Group
Note
Remarks
N05C FLEX
N06C FLEX
N060 FLEX
N06E FLEX
ND6G FLEX
NO CO}~[;T
CH
CH
CH
CH
CH
M
CH
CH
CH
CH
CH
CH
CH
CH
CH
;
[1
ET
ET
ET
ET
Color
FLEX
999
NOIF FLEX
NOIE FLEX
NO1O FLEX
NOIC FLEX
AOGO FLEX
AOEM FLEX
ASO FLEX
N03C FLEX
ND3A FLEX
N030 FLEX
N03B FLEX
ND40 FLEX
N04B FLEX
N04C FLEX
ND4G FLEX
N05E FLEX
N05B FLEX
N05G FLEX
NS560FLEX
0P715*FLEX
N06B FLEX
222
[:
ET
ET
ET
:;
ET
ET
ET
N06A FLEX
N06F FLEX
D311*FLEX
FLEX
FLEX
FLEX
FLEX
NDIA FLEX
NS120FLEX
N02B FLEX
N02A FLEX
ND3G FLEX
D21O*FLEX
N04F FLEX
N04A FLEX
N05A FLEX
N050 FLEX
ND5F FLEX
ND5C FLEX
N06C FLEX
N06G FLEX
NO CONNECT
FLEX
FLEX
FLEX
FLEX
4-23
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-2. CDU Wire List - Continued
—
—
To
From
—
Pin
Signal
ND1lB
ND1l F
MARK
P+O05V
P+O05V
PGND
SBPOR*
250KHZ&
ADR/DTA*
ADORENV*
LI;:I;;V*
1NS340
;;: :
ROW 1
COL 2
COL 3
P+O05V
P+O05V
SBPOR
250KHZ
ADR/DTA
ADDRENV
DATAENV
ASO
ROW 3
1NS560
COL 5
ROW 2
COL 1
COL 7
COL 4
P+O05V
P+O05V
STOP
STOP
5T0P
STOP
STOP
STOP
STOP
STOP
STOP
STOP
STOP
STOP
STOP
STOP
STOP
VLAMP
VLAMP
:!
GO
GO
:!
GO
GO
:;
GO
::
GO
GO
4-24
XA02
XA02
XA02
XA02
XA02
XA02
XA03
XA03
XA03
XA03
XA03
XA03
XA03
XA03
XA03
XA03
XA03
XA03
XA03
XA03
XA03
XA03
XA03
XA03
XA03
XA03
XA03
XA03
XA03
XA03
XA03
XA03
XA03
XA03
XA03
.
.
.
-
XDSO1 XDSOl Xosol.
XDSO1 XDSO1 XDSO1 XDSOl XDSO1
XDSOl pm:~XDSO1:
XDSOl XDSOl Xosol .
Xosol.
XDSO1 XDS02.
XDS02.
XDS02XDS02XDS02XDS02XDS02.
XDS02XDS02.
XDS02.
xDS02XDS02XDS02XDS02XDS02-
Ref
076
079
080
081
081
082
001
005
008
012
013
015
028
031
036
037
038
039
040
040
042
046
049
053
054
055
072
074
076
077
078
079
080
081
081
c
c
D
E054 XDS20XDS07XA03 XA02 XA02 -
JOO1
JOO1
JOO1
E050
JOO1
XA02
XAOI
Pool
Pool
Pool
Pool
.
-
Pool XA03 XA02
JOO1 .
JOO1
JOO1 JOO1 JOO1 XA02
Pool .
XAO1
Pool Pool
Pool
Pool
Pool
EO03 XA03 XDSO1
XAO1
Xosol.
XDSOl XDSOl XDSO1.
:
G
XDSO1.
XDSOl XDSOl XDSO1.
xDsol XDSOl XDSOl XDSO1
!
J
i
K
N
N
L:
LC
:
D
D
:
H
H
i
K
!
N
P
:omponenl
—
XDSOl xDso2E067 .
xoso2E122 XDS02XDS02XDS02.
XDS02XDS02XDS02XDS02.
xoso2XDS02XDS02XDS02XDS02XDS02-
Pin
Ref
...
iwc
Color
Group
Route
Note
—
ET
ET
L
040
040
041
046
051
003
[;
ET
03i
014
028
015
004
012
008
007
081
081
052
055
008
016
024
055
013
074
005
017
009
001
006
E:
ET
ET
26
26
26
26
Remarks
999
999
999
999
999
::
ET
ET
ET
ET
:!
ET
26
ET
26
26
::
26
01!!
G
:!
ET
ET
ET
i
D
E!
ET
i
K
H
N
J
P
E:
ET
ET
1
LC
. . .
0
. . .
G
c
H
D
J
G
:;
ET
ET
ASO
NS560F EX
*DIR
F EX
FLEX
STPGO;[’;X
:;
ET
:;
ET
ET
!
N
—
E:
ET
ET
ET
ET
ET
ET
ET
ET
ET
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
999
999
999
999
999
999
222
—
Rei
—
ND6B FLEX
ND6F FLEX
0311*FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
NS120FLEX
NS340FLEX
[;
ET
ET
040
i
K
N
ryp(
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-2. CDU Wire List - Continued
From
Signal
VI AMP
VI AMP
DPUFAIL*
DPUFAIL*
IMU*
lMU*
lMU*
lMU*
DPUFAIL*
DPUFAIL*
DPUFAIL*
DPUFAIL*
DPUFA1l*
IMU*
IMU*
lMU*
VLAMP
VLAMP
BATTERY*
BATTERY*
ATTN
ATTN
ATTN
ATTN
BATTERY*
BATTERY*
BATTERY*
BATTERY*
BATTERY*
ATTN
ATTN
VLAMP
VLAMP
CHARGE*
CHARGE*
kDZ
ADZ
ADZ
ADZ
CHARGE*
CHARGE*
:HARGE*
2HARGE*
:HARGE*
4DZ
4DZ
4DZ
iLAMP
ILAMP
AON
dON
JPDT
JPDT
JPOT
JPDT
i40N
RON
#ON
hON
ION
)PDT
)PDT
IPDT
IL AMP
lLAMP
:AL
:Al
Component
xoso2XDS02.
XDS03.
XDS03.
XDS03xDso3xDso3xDso3XDS03XDS03XDS03XDS03XDS03.
XDS03XDS03XDS03XDS03XDS03.
XDS04XDS04XDS04.
XDS04XDS04.
XDS04XDS04XDS04XDS04XDS04.
XDS04.
XDS04XDS04XDS04XDS04.
XDS05.
xoso5XDS05XDS05.
XDS05XDS05XDS05XDS05XDS05XDS05XDS05XDS05XDS05XDS05XDS05.
XDS05xDso6xDso6XDS06.
xDso6xDso6XOS06xDso6xDso6xDso6xDso6xDso6XOS06 xDso6XDS06.
xDso6xDso6XDS07XDS07 -
To
Pin
lC
LC
:
B
G
G
H
H
J
ii
N
N
P
::
C
C
D
8
G
;
J
i
N
P
::
c
C
D
:
G
H
H
J
i
N
N
L!
LC
C
C
D
:
G
H
H
J
J
I
N
L:
LC
C
c
Ref
Component
XDS03
XDSOl XDS03E099 XDS03.
E053
XDS03XDS03XDS03.
XDS03.
XDS03.
XDS03XDS03XDS03XDS03.
XDS03XDS04XDS02XDS04.
E052
XDS04.
E082
XDS04xDso4XDS04.
XDS04.
XDS04XDS04XDS04XDS04.
XAO1 XDS05xDso3XDS05.
E098
XDS05E101 XDS05XDS05.
XDS05.
XDS05XDS05.
XDS05.
XDS05.
XDS05XDS05XDS05xDso6XDS04.
xDso6E051 XDS06.
XA02
XDS06.
xDso6xDso6xDso6xDso6xDso6xDso6xDso6xDso6xDso6XDS07XDS05.
XDS07XAO1 -
Pin
lC
LC
.-H
G
N
D
i
;
J
[
L!
LC
.-H
..G
N
D
i
K
H
:
017
LC
LC
-.H
..G
N
D
:
K
H
J
[
L!
LC
..”
02!
I
;
K
H
J
Ref
AWG Type
08:
Group
Route
Note
Remarks
ET
CH
FLEX
ET
ET
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
D109*FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
D109*FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
D21O*FLEX
FLEX
D21O*FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
D311*FL.EX
E;
ET
ET
ET
:;
ET
ET
E!
ET
ET
ET
:;
ET
ET
ET
ET
E!
ET
ET
E;
ET
ET
ET
ET
E;
ET
ET
!+
ET
ET
E;
ET
ET
ET
E;
ET
ET
ET
E:
ET
ET
ET
ET
:;
ET
ET
[
L!
LC
Color
:!
ET
ET
ET
ET
:1
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
:!
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
Rev
4-25
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-2. CDU Wire List - Continued
From
Signal
MARK
MARK
MARK
MARK
CAL
CAL
CAL
CAL
CAL
MARK
MARK
MARK
VLAMP
~L~M![
Z:VEL
ENT
ENT
ENT
ENT
Z-VEL
Z-VEL
Z-VE1
Z-VEL
Z-VEL
ENT
ENT
ENT
VL AMP
VL AMP
NDOID
NDOIC
NDOIB
NDOIA
NDOIF
NDOIE
NDOIG
DPO1
VLAMP
V L AMP
ND02D
ND02C
ND02B
ND02A
ND02F
ND02E
ND02G
DP02
VL AMP
VLAMP
ADA
ADB
ADC
ADD
ADE
ADF
ADG
ADH
AD I
ADJ
ADK
ADL
ADM
ADN
ADO
ADP
VL AMP
4-26
Component
XDS07 .
XDS07XDS07XDS07 .
XDS07.
XDS07.
XDS07XDS07 XDS07XDS07XDS07XDS07 XDS07XDS07xDso8xDso8xDso8xDso8xDso8xDso8xDso8xDso8xDso8xDso8xDso8xDso8xDso8xDso8xDso8xDso8XDS09XDS09 XDS09XDS09XDS09XDS09 .
XDS09XDS09XDS09XDS09XDSIOXDSIOXDSIOXDSIOXDSIOXDSIOXDSIOXDSIOXDSIOXDSIOXDSllXDSllXDSllXDSllXDSllXDSllXDSllXDS1l.
XDSllXDSllXDSllXDSllXDSllXDSllXDS1l.
XDSllXDSll-
To
Pin
D
D
:
H
H
J
J
I
N
L:
LC
;
D
:
G
!
J
;
N
N
1[
LC
A
B
C
D
E
!
J
i:
A
B
C
D
E
;
J
1:
A
!
D
E
:
H
ii
rh
N
P
R
Li
Ref
Component
XDS07XA02 xDso7XDS07XDS07XDS07XDS07XDS07XDS07XDS07XDS07XDS07xDso8XDS06.
xDso8E069 xDso8E070 xDso8xDso8xDso8XDS08.
xDso8XOS08xDso8xDso8xDso8xDso8XDS09.
XDS07XAO1 .
XAO1 XAO1 .
XAO1 XAO1 .
XAO1 XAO1 XA02 XDSIOxDso8E123 .
E094 E125 XA02 E066
E124 E095 XA02 XDSllXDS09E118 XAO1 E119 XAO1 XAO1 XAO1 XAO1
XAO1 E092 E091 E090 E063 E064 E120 E121 .
E093 XDS12-
Pin
Ref
AWG Type
:;
ET
CH
CH
CH
CH
CH
;
G
:;
ET
ET
ET
ET
::
CH
CH
CH
CH
L!
LC
:;
ET
::
CH
.-H
::
ET
ET
ET
ET
ET
ET
ET
::
CH
!!
ET
:;
CH
:!
ET
:1
CH
E;
ET
ET
;~
:!
;;
:;
ET
:!
ET
ET
CH
CH
CH
CH
CH
CH
:!
ET
:1
CH
:;
ET
ET
ET
ET
::
CH
CH
CH
CH
CH
CH
CH
CH
CH
CH
08!
N
D
i
K
H
--G
N
D
i
K
H
J
ET
ET
w
CH
CH
CH
CH
[
L!
ok:
044
043
002
004
046
003
019
LC
LC
---002
------016
!:
008
006
051
010
049
009
[!
ET
::
ET
:::
-----
::
ET
ET
ET
:::
----LC
E;
ET
ET
ET
CH
::
CH
CH
CH
CH
CH
CH
CH
CH
Color
Group
Route
Note
Remarks
FLEX
D311*FLEX
FLEX
FIEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
D412*FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
NDID FLEX
NDIE FLEX
NDIF FLEX
NDIA FLEX
NDIB FLEX
NDIC FLEX
NDIG FLEX
ND2A FLEX
FLEX
FLEX
NDID FLEX
NDIE FLEX
NDIF FLEX
NDIA FLEX
NDIB FLEX
NDIC FLEX
NDIG FLEX
ND2B FLEX
FLEX
FLEX
ADAI FLEX
ADBJ FLEX
ADCK FLEX
ADDL FLEX
ADEM FLEX
ADFN FLEX
ADGO FLEX
AOHP FLEX
ADAI FLEX
ADBJ FLEX
AOCK FLEX
AODL FLEX
ADEM FLEX
ADFN FLEX
ADGO FLEX
ADHP FLEX
FLEX
Re\
I
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-2. CDU Wire List - Continued
To
From
Pin
Signal
ND04B
ND04C
ND04D
ND04E
ND04F
ND04G
DP03
VLAMP
VLAMP
ND05A
ND05B
ND05C
ND05D
ND05E
ND05F
ND05G
DP05
DP04
VLAMP
VLAMP
ND06A
ND06B
ND06C
ND06D
ND06E
ND06F
ND06G
DP12
DP06
VLAMP
VLAMP
I
DP13
VLAMP
VLAMP
ND08A
ND08B
ND08C
ND08D
ND08E
ND08F
ND08G
DP07
DP14
VLAMP
VLAMP
ND09A
ND09B
ND09C
ND09D
XDSll XDS12XDS12XDS12.
XDS12.
XDS12XDS12XDS12.
XDS12XDS12XDS13.
XDS 3.
XDS
XDS ;:
XDS 3XDS 3XDS
XDS ::
XDS 3XDS
XDS ::
XDS 4XDS 4XDS
XDS 1:
XDS 4XDS
XDS ;:
XDS 4.
XDS 4XDS 4.
XDS 5.
XDS 5XDS 5XDS 5.
XDS 5XDS 5XDS 5XDS 5XDS
XDS ::
XDS 5.
XDS 6XDS
XDS ;:
XDS 6.
XDS
XDS !
XDS 6XDS 6.
XDS 6.
XDS 6XDS 7.
XDS 7.
XDS
XDS !:
XDS 7XDS 7XDS 7.
XDS 7XDS 7XDS 7XDS 7XDS
XDS !:
xDs18xDsl8-
Ref
—
—
Component
XDSIO XAO1
XAO1
XAOI XAO1 XAO1
XAO1 XAO1 XDS13XDS1l.
E089 E115 E086 E085 E116
E088
XA02 E117
XDS14XDS12E11O
E084 Elll E112
XAO1 E113
E083
E087 E114
XDS15.
XDS13XAO1 XAO1 XAO1
XAO1 XAO1
XAO1
XAO1
XAO1 E062
xDs16XDS14XA02
E106
XA02 .
E078
E109 XA02
E081 E080 xDsl7XDS15.
XAO1
XAO1 XAO1 XAO1 E107 .
E105 XAO1 E108 E104
xDs18xDsl6XA02 E102 XA02 XA02 -
Pin
Ref
—
4W(
Route
Note
—
ET
ET
ET
ET
ET
ET
ET
ET
ET
ET
ET
ET
Oii
062
059
061
021
020
022
[:
022
:;
ET
:!
ET
E;
ET
ET
ET
ET
ET
ET
ET
ET
ET
ET
ET
ET
ET
ET
ET
oi3
“ii
0;:
066
067
065
027
025
068
005
“ii
E!
ET
ET
0;:
06;
:!
ET
ET
025
E:
ET
ET
-ii
E:
ET
ET
0;;
071
032
030
E!
ET
ET
ET
ET
ET
ET
072
. .
“ii
0!:
032
030
—
:1
ET
ET
Rev
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
FLEX
ND3A FLEX
ND3B FLEX
ND3C FLEX
ND3D FLEX
ND3E FLEX
ND3F FLEX
ND3G FLEX
ND2C FLEX
FLEX
FLEX
ND2A FLEX
ND2B FLEX
ND2C FLEX
ND2D FLEX
ND2E FLEX
ND2F FLEX
ND2G FLEX
DP614*FLEX
DP614*FLEX
FLEX
FLEX
ND4A FLEX
ND4B FLEX
ND4C FLEX
ND4EI FLEX
ND4E FLEX
ND4F FLEX
ND4G FLEX
SPSEGIFLEX
ND2D FLEX
FLEX
FLEX
ND4A FLEX
ND4B FLEX
ND4C FLEX
ND4D FLEX
ND4E FLEX
ND4F FLEX
ND4G FLEX
SPSEG2FI.EX
FLEX
FLEX
ND5A FLEX
ND5B FLEX
ND5C FLEX
ND5D FLEX
ND5E FLEX
ND5F FLEX
ND5G FLEX
ND2E FLEX
SPSEGIFLEX
FLEX
FLEX
ND5A FLEX
ND5B FLEX
ND5C FLEX
ND5D FLEX
ND3A
ND3B
ND3C
ND3D
ND3E
ND3F
ND3G
E;
ET
ET
-ii
LC
Remarks
—
4-27
ARMY TM 5-6678-308-34
MARINE CORPS TM 08837A-34/2
Table 4-2. CDU Wire List - Continued
From
Signal
ND09E
ND09F
~;:;G
DP15
VLAMP
VL AMP
ND1OA
ND1OB
ND1OC
ND1OD
ND1OE
ND1OF
ND1OG
DP09
VL AMP
VLAMP
ND1lA
ND1lB
ND1lC
ND1lD
ND1lE
ND1lF
ND1lG
DP1l
DP1O
VL AMP
4-28
Component
XDS18.
xDsl8xDs18XDS18.
XDS18xDsl8XDS18XDS19xDsl9XDS19XDS19XDS19XDS19.
XDS19XDS19xDsl9XDS19.
y~.
XDS20:
xDs20XDS20XDS20xDs20XDS20XDS20XDS20-
To
Pin
E
:
H
L;
LC
A
:
D
E
:
L!
LC
A
B
c
g
!
H
L:
Ref
Component
XA02 XA02 XA02 E076 E103 xDsl9XDS17XAO1 XAO1 XAOI XAO1 XAO1 XAO1 XAO1 XAO1 XDS20xDsl8E072 E071 XA02 E073 E1OO XA02 .
XA02 .
E074 E075 XDS19-
Pin
070
031
072
----LC
0!:
076
035
036
037
079
038
075
LC
-:c
035
---
Ref
AWG Type
ET
CH
:;
ET
:!
CH
:;
:1
CH
:;
ET
:1
ET
::
CH
CH
CH
CH
:!
ET
:1
CH
::
:1
CH
:1
ET
:[
CH
CH
CH
CH
CH
CH
0;9
038
---
R
ET
“ic
E;
Color
Group
Route
Note
Remark$
ND5E FLEX
ND5F FLEX
ND5G FLEX
ND2F FLEX
SPSEGIFLEX
FLEX
FLEX
ND6A FLEX
ND6B FLEX
ND6C FLEX
ND6D FLEX
ND6E FLEX
ND6F FLEX
ND6G FLEX
DP715*FLEX
FLEX
FLEX
N06A FLEX
ND6B FLEX
ND6C FLEX
ND6D FLEX
ND6E FLEX
ND6F FLEX
ND6G FLEX
DP715*FLEX
ND2G FLEX
FLEX
Re\
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 4-2.
4-29
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-3. Power S Upply Wire List
From
Signal
Pin
A08
A08
A08
A08
A08
A08
A08
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A4
A4
A5J2
A5J2
A5J2
A5J2
A5J2
A5J2
A5J2
A5J2
A5J2
A5J2
A5J2
A5J2
A5J2
A5J2
A5J2
A5J2
A5J2
A5J2
A5J2
A5J2
A5J2
A5J2
A5J2
A5J2
A5J2
A5J2
A5J2
A5J2
A5J2
A5J2
A5J2
A5J2
A5J2
A5J2
A6A1
A6A1
4-30
.
.
-
To
Ref
B
BS
B
B
B
B
:
B
B
B
BS
B
B
B
B
B
B
B
BS
B
:
.
.
.
—
s
s
B
B
;omponenl
A6J1
A6A1
A6T2
A6A1
A6T1
A6J1
A6J1
A6J1
A09
A6J1
DSO1
KO02
A6J1
KO02
A6J1
A6J1
A6J1
A6J1
A09
A6J1
WO04
FI.01
A09
A09
A09
E036
A09
E037
KOO1
WO04
FLO1
A7J1
SOol
A6J1
A6J1
A5J2
A5J2
A7J1
A6J1
WO02
A6J1
A6J1
DS02
DSO1
CR03
A7J1
A5J2
CR03
TOO1
SOol
KO02
A7J1
A7J1
KOO1
A7J1
CB02
FLO1
TOO1
A5J2
A6J1
CBO1
3J02
KOO1
A7J1
A6J1
A08
A08
.
.
~
~
.
-
Pin
Ref
4WG
B
12
B
!;
12
ryp(
Color
Group
T3
000
TGOO1
T3
T3
$2
SL
$2
B
14
111
222
000
666
444
666
000
000
14
$4
$4
$4
S4
SL
$4
H
::
Bs
::
SL
$4
SL
$4
B
6
6
-
s
::
-
s
SL
$2
$2
~
.
.
Remarks
TGOOI
TGOO1
SGO04
SGO04
SGO04
222
$4
8
Route
SGO05
222
000
222
555
000
000
222
111
000
000
000
555
000
222
222
222
111
666
111
000
000
000
000
000
111
666
444
222
000
222
$2
SGO03
SGO03
SGO03
SGO03
SGO03
SGO05
SGO04
SGO03
SGO05
SGO05
SGO05
SGO05
L1-2/L2-2
SGOO1
SGOO1
SGOO1
SGOOI
SGO02
SGO02
222
222
222
$2
SL
000
000
SGO02
SGO02
.
-
12
12
000
111
—
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-3. Power SU pply Wire List - Continued
To
From
I
Signal
SINEOSCON
RI NVON/OFF
SIGRTN
-14V
+14V
MA INBUS 1
115VSQ
115VSQRTN
SHIELD
115VACSINE
115VS1NE
115V SINE
115VSINERN
26VSINERTN
26VACSINE
SHIELO
+20V
-20V
MAINBUSRTN
MAINBUS 2
115VSQ
115VSQRTN
SHIELD
SHIELD
115VS1NE 1
115VSINE 2
1115vsINE 3
115VSINERT
115VSRTN
9.lREFRETN
9.lVREF
+17V
MAINBUS 3
VEH.BATT 2
VEH.BATT 2
VEH,BATT 1
BACKUPBAT2
BACKUPBAT2
MAINBUS 4
MAINBUS 1
+12LOGIC
BCHGON/OFF
SIGRTN
GND
VEH.BATT 3
VEH.BATT 3
BACKUPBAT1
BACKUPBAT3
BACKUPBAT3
CHGCURSNLO
MAINRLYCHI
CURR.CNTL
GND
GND
BACKUPBAT5
BACKUPBAT5
CBICLOSED’
GND
GND
VEH.BATT 4
VEH,BATT 4
VEH.BATT 4
CB2CLOSED*
GNO
GND
VEH.BATT 4
IVEHBATT
:omponent
Pin
.
Ref
;omponen
Pin
Ref
+W( rype
Color
Group
Route
Uote
Remarks
Rev
—
A6J1
A6J1
A6J1
A6J1
A6J1
A6J1
A6J1
A6J1
A6J1
A6J1
A6J1
A6J1
A6J1
A6J1
A6J1
A6J1
A6J1
A6J1
A6J1
A6J1
A6J1
A6J1
A6J1
A6J1
A6J1
A6J1
A6J1
A6J1
A6J1
A6J1
A6J1
A6T1
A6T2
A7J1
A7J1
A7J1
A7J1
A7J1
A7J1
A7J1
A7J1
A7J1
A7J1
A7J1
A7J1
A7J1
A7J1
A7J1
A7J1
A7J1
A7J1
A7J1
A7J1
A7J1
CBO1
CBO1
CBO1
CBO1
cool
CB02
CB02
CB02
CB02
CB02
CB02
CR02
CR02
-
-
-
-
-
001
002
003
004
005
006
008
010
012
014
015
016
018
019
020
020
021
022
023
025
027
029
029
031
033
034
035
037
038
039
040
003
001
001
002
003
005
006
007
008
010
014
015
016
019
020
022
023
024
025
028
030
033
034
001
001
003
004
004
001
001
001
003
004
004
A
c
s
s
—
A5J2
A5J2
A5J2
A5J2
A5J2
A7J1
A09
A09
A6J1
MOO1
E038
3J06
SO02
A09
A09
A6J1
A08
A08
A08
KO02
A09
A09
A6J1
A6J1
E038
E038
A09
MOO1
A09
A5J2
A5J2
A08
A08
TBO1
TBO1
A5J2
TBO1
TBO1
DSO1
A6J1
A5J2
A5J2
A5J2
WO02
TBO1
TBO1
A5J2
TBO1
TBO1
A5J2
KOO1
A5J2
WO02
WO02
KO02
TBO1
A5J2
WO02
CB02
KO02
TBO1
CR02
A5J2
CBO1
F101
CB02
KOO1
-
057
069
014
020
019
008
E16
E17
029
A
000
444
666
222
000
222
000
888
888
888
998
B
B
s
-
-
“c
002
E1O
E09
031
E24
E23
EO1
Xol
E16
E17
012
020
B
B
000
000
666
444
000
222
B
B
555
000
000
888
888
000
998
s
iii
B
El!
005
006
E06
E02
006
006
036
007
007
001
006
001
065
013
B
-
-
.
-
000
12
12
iii
008
059
-
004
BO1
001
05!
004
004
001
AO1
SGO04
SGO04
SGO04
TGOO1
TGOO1
TGOO1
SGO03
SGO03
SGO03
SGO04
SGO05
SGO05
SGOO1
SGOO1
000
111
222
222
222
229
229
222
222
002
002
026
003
003
045
X02
042
-
666
222
222
222
222
229
229
222
222
666
SGO03
SGO03
SGO03
14
12
111
111
222
222
14
12
6
111
111
222
222
222
6
—
111
111
222
222
—
—
Change 5
4-31
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-3. Power Supply Wire List - Continued
From
Signal
VEHBATT
VEHBATT
SCRGATE
UAINR1YC1O
UAINRLYCH1
AUX24
TRHTRRYCLO
WAINBUS 2
BATTFIAG*
MAINBUS 4
PSFIAG*
WAINBUS 4
PSFRESET*
klAINBUS 4
115VS1NE
115VSPHSH
115VSINE
115VSPHSH
115 VS1NE
115VSPHSH
tiAINBUS 4
WAINBUS 4
tiAINBUS 4
3ATTFLAG*
BATTFIAG*
PSFRE$ET*
2SFRESET*
itAINBUS 4
tlAINBUS 4
kfAINBUS 4
#AINBUS 4
dAINBUS 4
‘SFLAG*
~SFLAG*
PSFRESET*
PsFREsET*
tiAINBUS 4
IIAINBUS 4
115VSPHSH
I15VSPHSH
115VSPHSH
115 VSPHSH2
I15VSPHSH
115VSPHSH1
SHIELD
115 VSINE
115VSINE
115VS1NE
115VSINE
115 VSINE 1
115VSINE 2
SHIELD
3ND
3ND
VEH.DETECT
SND
IEHBATT
fEHBATT
VEHBATT
!UX24
4UX24
WAINRLYCLO
tfAINRLYCLO
dAINRLYCH1
htAINRLYCHI
tfAINRLYCHI
3ACKUPBAT5
4-32
Component
cR03
CR03
CR03
CR04
CR04
CR05
CR06
CR06
CR08
CR08
CR09
CR09
CRIO
CR1O
cool
cool
CO02
CO02
CO03
CO03
DSO1
DSO1
DSO1
DSO1
DSO1
DSO1
DSO1
DSO1
DSO1
DS02
DS02
DS02
DS02
DS02
DS02
DS02
DS02
DS02
E035
E035
E036
E036
E037
E037
E037
E038
E038
E038
E038
E038
E038
E041
FLO1
FLO1
FLO1
FLO1
KOO1
KOO1
KOO1
KOO1
KOOI
KOO1
KOO1
KOO1
KOO1
KOO1
KO02
-
To
Pin
Ref
c
c
:
c
-
iii
001
001
002
002
003
003
004
004
001
001
001
002
002
003
003
004
004
---------------------------
-
002
002
003
004
AO1
AO1
AO1
A02
A02
Xol
Xol
X02
X02
X02
AO1
f
c
:
A
c
A
--c
---------
s
Component
Pin
KOO1
A5J2
A5J2
KOO1
KOO1
WO03
KO02
KO02
DSO1
DSO1
DS02
DS02
DS02
DS02
E038
E035
E038
E037
E038
E036
DSO1
A7J1
CR08
A5J2
CR08
0s02
A09
DS02
DSO1
DS02
CR09
DSO1
A5J2
CR09
CR1O
DSO1
CR1O
DS02
3J06
cool
CO03
A09
CO02
A09
E041
cool
CO02
CO03
A6J1
A6J1
A6J1
E037
A09
A4
A5J2
CB02
CR02
CR03
TBO1
WO03
A5J2
A5J2
CR04
A09
A7J1
CR04
CBO1
AO1
028
025
Xol
X02
-
Ref AWG Type
6
222
222
12
Remarks
BACKUPBATT
222
n
FL
FL
FL
FL
FL
::
FL
[:
B
222
02!
FL
00!
Ell
001
001
004
00:
B
222
B
B
FL
222
FL
FL
00!
FL
B
20
-
Note
FL
-
:
~
-
Route
FL
FL
004
007
-
-
Group
FL
FL
X02
Xol
002
001
002
001
003
004
-.
----.-.
.-.
Ooi
023
A
-
Color
E29
B
i30
.-.
-----
B
888
FL
FL
S4
.-O
[h
SL
FL
FL
FL
oi5
033
034
SL
Ei3
E02
054
004
c
Bs
12
6
FL
6
01:
6
044
062
A
E31
028
c
001
555
SGO05
222
000
SGO05
SGO05
888
888
888
000
111
111
SGO05
111
222
222
222
222
222
FL
222
222
FL
14
222
BACKUPBATT
Rev
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-3. Power S U pply Wire List - Continued
To
From
—
Signal
K2A2
VEH. BATT 4
K2B2
MA INBUS 2
MA INBUS 2
CURRSENSE2
BACKUPBAT4
BACKUPBAT4
BACKUPBAT4
BACKUPBAT4
BACKUPBAT4
BACKUPBAT4
BACKUPBAT4
BACKUPBAT4
GND
GND
GND
GND
GND
GND
GND
AUX24
AUX24
AUX24
AuX24
BACKUPBAT4
BACKUPBAT4
BACKUPBAT4
BACKUPBAT4
GND
GND
GND
GND
GND
GND
BACKUPBAT4
BACKUPBAT4
BACKUPBAT4
BACKUPBAT4
:omponenl
Pin
KO02
KO02
KO02
KO02
KO02
KO02
KO02
MOO1
A02
BO1
B02
Xol
Xol
X02
X02
A
B
-
MOO1
SPARESool
Sool
SO02
SO02
TBO1
TBO1
TBO1
TBO1
TBO1
TBO1
TBO1
TBO1
TBO1
TBO1 TBO1
TOO1
TOO I
wool
wool
wool
wool
wool wool wool
wool
WO02
WO02
WO02
WO02 WO02
WO02
WO02
WO02
WO02
WO02
WO02
WO02
WO02
WO02 WO03 WO03
WO04
WO04
3J02
3J02
3J02
3J02
3J02 3J02
3J02
3J02
3J02
3J02
3J02
3J02
3J02
3J02 -
Ref
—
001
002
001
002
001
002
002
003
003
006
006
007
007
008
010
001
002
“A
B
c
D
!
H
ii
Ii
N
P
R
A09
CB02
A09
A6J1
CR06
A5J2
CR06
A6J1
A6J1
3J02
A5J2
A5J2
3J06
A6JI
CB02
A7J1
A7J1
A7J1
A7J1
A7J1
A7J1
A7J1
A7J1
CBO1
KOO1
A5J2
A5J2
3J02
3J02
3J02
3J02
3J02
3J02
3J02
3J02
A5J2
A7J1
A7J1
A7J1
CBO1
3J02
3J02
3J02
3J02
3J02
3J02
3J02
3J02
3J02
CR05
KOO1
A09
A4
wool
wool
wool
wool
WO02
WO02
WO02
WO02
WO02
WO02
wool
wool
wool
wool
Pin
Ref
\wc
E15
001
E12
025
c
035
B
14
14
14
B
“ype
:olor
Group
Route
dote
Remarks
I ev
—
222
222
222
222
FL
FL
01!
037
v
033
003
-
-
888
998
5
14
01!3
001
019
020
023
024
001
002
005
006
001
AO1
029
056
A
B
c
D
M
N
P
I
111
998
998
222
222
222
229
229
222
222
229
229
222
222
12
12
52
S2
14
14
14
14
14
14
14
14
01!
016
033
034
004
[
H
J
K
L
s
T
u
AO!
E20
EO1
B
~
-
—
14
14
14
14
14
14
14
14
14
12
6
12
1!
14
14
14
14
14
14
14
14
14
14
14
14
14
—
000
222
222
222
222
222
222
222
222
111
111
111
111
111
111
ill
111
111
111
111
111
111
111
222
222
222
222
222
222
222
222
111
111
111
111
111
111
222
222
222
222
SGO02
SGO02
L12/L2-2
—
—
Change 5
4-33
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-3. Power Supply Wire List - Continued
From
Signal
IND
IND
,ND
NT ERLOCK*
NT ERLOCK*
15 VACRSW
15 VSPHSH
15V SINE
4-34
Component
3J02
3J02
3J02
3J02
3J02
3J06
3J06
3J06
Change 5
To
Pin
Ref
s
-
i
v
v
A
B
c
Component
WO02
WO02
WO02
SPAREA5J2
SO02
E035
A6J1
Pin
------
Ref
AWG
14
14
14
14
060
001
20
0;6
Type
Color
Group
Route
Note
111
111
111
5
998
888
888
Remarks
Rev
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-4. Power Supply Harness Assembly Wire List
— —
To
From
Pin
HT/COOLRTN
K03B2
P017+
P028P028+
;;;8R;;N
AMBTEMPERR
LAMP GNO
PSFLAGSET*
OFF
kiN*
6ATTLAMP*
CHRGELAMP”
UNOERVOLT”
OVERVOLT*
lMUFGINBT*
OVERTEMP*
P014+
K03C2
TRNSTHTR2
K03C1
K03C3
t((:~;
115VACSQ
115VACSINE
BATTLAMP*
BATTLAMP*
CHRGELAMP*
CHRGELAMP*
P017+
P017+
P014+
P014+
UNOERVOLT*
UNOERVOLT”
OVERVOLT”
OVERVOLT*
lMU RTN
lMU RTN
lMUFLGINH*
IMUFGINBT*
26VAC SINE
26VS1NERTN
PSFLAGRST*
TRNTHTRIH1
115SINERTN
115S1NERTN
115VSNERTN
P028.
P028P028TRNSTHTR2
TRNSTHTR2
TRNSTHTR2
115 VACSQ
115 VACSII
115vACSQ
115vACS3
115VACSQRT
115VACS(3RT
115VACSQRT
115VACSINE
115VACSINE
115VACSINE
115VACSINE
A08
A08
A08
A08
A08
A08
A08
A08
A08
A08
A08
A08
A08
A08
A08
A08
A08
A08
A08
A08
A08
A08
A08
A08
A08
A08
A08
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
.
.
.
.
.
.
.
.
.
.
-
E03
E04
E07
E08
E09
E1O
Ell
E12
E13
E14
E15
E16
E17
E18
E19
E20
E21
E22
E25
E26
E27
E28
E29
E30
E31
E32
E33
EO1
EO1
E02
E02
E03
E03
E04
E04
E05
E05
E06
E06
E07
E07
E08
E08
E09
E1O
Ell
E12
E13
E13
E13
E14
E14
E14
E15
E15
E15
E16
E16
E16
E16
E17
E17
E17
E18
E18
E18
E18
-
Ref
Pin
A09
BUS2
A09
A09
A09
A09
A09
3J03
3J05
3J05
3J05
3J05
A09
A09
A09
A09
A09
3J01
A09
KO03
A09
KO03
KO03
KO03
KO03
A09
A09
3J05
A08
3J05
A08
3J05
A08
3J05
A08
3J05
A08
3J05
A08
3J03
A08
3J03
A08
3J05
3J05
3J05
3J01
3J01
3J05
3J03
3J03
A08
3J03
A08
3J01
3J01
3J03
3J03
3J03
A08
3J03
3J03
3J03
3J01
3J03
3J05
A08
.
.
.
.
.
Ref
E25
G
iQ3
E14
E21
E22
E07
002
034
013
029
016
EOI
E02
E05
E06
E08
B
B
EO:
C02
E15
Col
C03
X02
Xol
E16
E18
014
E17
015
E18
017
E07
018
E25
019
E19
020
E20
016
Ell
017
E21
003
004
012
\w( Typ(
—
Group
Route
Wx(
Remarka
—
111
666
666
444
666
000
000
999
000
999
999
999
999
999
999
999
999
999
;
B
1!
B
:
B
0::
222
000
000
999
222
A
c
c
8::
999
999
999
999
666
666
69
9::
999
999
999
000
000
999
999
8::
999
222
98
98
!
00;
4::
444
444
222
222
2;;
010
E08
025
E27
i
005
006
007
E32
008
022
023
00!
001
E33
Colol
91
—
!?1
111
111
111
888
888
888
888
—
4-35
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-4. Power Supply Harness Assembly Wire List - Continued
To
From
Signal
COOL
K03B1
COOL
24 UNREG
24UNREG
24 UNREG
24 UNREG
P028+
P028+
P028+
P028+
P028+
P028+
P028 RTN
P028 RTN
P028 RTN
P028 RTN
P028 RTN
P028 RTN
24 UNREGRTN
24 UNREGRTN
24UNREGRTN
24UNREGRTN
24UNREGRTN
HEAT
HEAT
HEAT
HEAT
K03A3
HT/CL RTN
HT/CL RTN
HT/CL RTN
HT/CL RTN
HT/CL RTN
HT/CL RTN
HT/COOLRTN
CHASSIS
SHIELD
CHASSIS
SHIELD
SHIELD
IMUBLOWER
l)~)~~OWER
K03B1
K03B2
K03A3
CR7A
CR7K
K03A1
K03AI
K03A2
K03A3
K 03A1
K 03A2
K 03A3
K 03B3
: fJJ:;
K 03C2
K 03A1
K 03C3
c R7K
K 03X1
c R7A
K 03X2
}ll}VACSINE
4-36
:omponen
Pin
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
BUS1
BUS2
BUS3
CR07
CR07
KO03
KO03
KO03
KO03
KO03
KO03
KO03
KO03
KO03
KO03
KO03
KO03
KO03
KO03
KO03
KO03
KO03
3J01
E19
E19
E19
E20
E20
E20
E20
E21
E21
E21
E21
E21
E21
E22
E22
E22
E22
E22
E22
E23
E23
E23
E23
E23
E24
E24
E24
E24
E24
E25
E25
E25
E25
E25
E25
E25
E26
E26
E27
E27
E28
E29
E30
E31
. . .
. . .
. . .
A
.
.
.
.
.
.
-
AO;
AO1
A02
A03
BO1
B02
B03
B03
Col
Col
C02
C03
C03
Xol
Xol
X02
X02
A
Ref
Pin
3J01
BUS1
3J01
3J05
3J05
3J05
3J05
3J03
3J03
3.103
3J03
3J03
A08
3J03
3J03
3J03
3J03
3J03
A08
3J05
3J05
3J05
3J05
3J05
3J01
3J01
3JOI
3J01
BUS3
3J01
3J01
3J01
3J01
3JOI
3J01
A08
3J05
3J05
3J03
3J03
3J01
3J01
3J01
3J05
A09
A08
A09
KO03
KO03
KO03
KO03
KO03
KO03
KO03
KO03
KO03
KO03
KO03
A08
A08
KO03
A08
CR07
A08
CR07
A08
A09
R
...
69
69
00:
2!:
222
222
222
666
666
666
666
666
666
000
000
000
000
000
000
.
~
-
Rei
lW(
;omponen
Color
007
022
023
011
012
013
026
027
E09
014
015
028
029
035
E1O
031
032
033
021
037
D
E
s
x
...
H
J
.
-
)
v
.
-
011
009
030
018
M
u
00!
E19
E04
E24
X02
Xol
BO1
C03
B02
B03
c
F
FL
FL
B
Remerks
6::
666
BUS 1
69
B
B
B
AO1
A02
A03
BUS
BUS
BUS
BUS
BUS
;
Col
666
666
000
000
B03
E28
E26
AO1
E29
FL
E3!
FL
E3!’
E18
Rwte
111
111
111
111
111
666
666
666
666
666
111
111
111
111
111
111
111
111
111
111
111
111
888
888
222
EO!
-
Group
A
oh’
222
999
888
2
3
1
2
3
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-4. Power Supply Harness Assemblv Wire List - Continued
—
From
To
—
Pin
Signal
TRNTHTRIH1
COOL
HEAT
HEAT
TRNSTHTR2
OVERTEMP*
OVERTEMP*
HT/Cl RTN
HT/CL RTN
115 SINERTN
HT/CL RTN
SHIELD
DPUBLOWER
HT/CL RTN
COOL
HEAT
TRNSTHTR2
IMUBLOWER
HTiCL RTN
HT/CL RTN
HEAT
AMBTEMPERR
115VACSINE
115 VACS0
115VACSQ
115VACSQ
115VACSQRT
P028P028+
P028+
P028+
P028 RTN
P028 RTN
IMu RTN
IMUFLGINH*
SHIELD
115VSNERTN
115VACSQRT
115VACSQRT
P028P028+
P028+
P028 RTN
P028 RTN
CHASSIS
P028 RTN
115 VACSINE
115SINERTN
26vAc SINE
26VS1NERTN
24AuX
24uNREG
24uNREG
SHIELO
CHASSIS
PSFLAGRST*
PSFLAGSET*
BATTLAMP*
CHRGELAMP*
oN*
P017+
P014+
UNDERVOLT*
OVERVOLT*
24UNREGRTN
24uNREG
24uNREG
3J01
3J01
3J01
3J01
3J01
3J01
3J01
3J01
3J01
3J01
3J01
3J01
3J01
3J01
3J01
3J01
3J01
3J01
3J01
3J01
3J01
3J03
3J03
3J03
3J03
3J03
3J03
3J03
3J03
3J03
3J03
3J03
3J03
3J03
3J03
3J03
3J03
3J03
3J03
3J03
3J03
3J03
3J03
3J03
3J03
3J03
3J05
3J05
3J05
3J05
3J05
3J05
3J05
3J05
3J05
3J05
3J05
3J05
3J05
3J05
3J05
3J05
3J05
3J05
3J05
3J05
3J05
~
.
Ref
—
B
c
o
E
[
G
H
i
k
N
P
R
i
u
;
00!
004
005
006
007
008
010
011
012
013
014
015
016
017
018
021
022
023
025
026
027
028
029
030
035
001
002
003
004
005
006
007
009
011
012
013
014
015
016
017
018
019
020
021
022
023
—
Componan
Pin
A09
A09
A09
A09
A09
A08
-
E12
E19
E24
E24
E15
E22
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A08
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A09
A08
A09
A09
A08
A09
A09
A09
A09
A09
A09
A09
.
.
-
E25
E25
E13
E25
E28
E30
E25
E19
E24
E15
E29
E25
E25
E24
E12
E18
E16
E16
E16
E17
E14
E21
E21
E21
E22
E22
E07
E08
E27
E13
E17
E17
E14
E21
E21
E22
E22
E27
E22
E18
E13
E09
E1O
E31
E20
E20
E26
E26
Ell
E14
EO1
E02
E16
E03
E04
E05
E06
E23
E20
E20
-
Ref
4W(
rype
Color
Group
Route
Remarks
222
6::
666
222
999
999
111
111
1;;
111
888
111
6::
222
888
111
111
666
999
888
91
:!
111
444
666
666
666
000
000
000
999
111
1!!
111
444
666
666
000
000
111
000
888
8::
2;!
222
222
111
111
999
999
999
999
999
666
9!!
999
111
222
222
4-37
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-4. Power Supply Harness Assembly Wire List - Continued
From
Signal
)FF
!4UNREGRTN
!4UNREGRTN
!4UNREGRTN
,AMP GND
!4UNREGRTN
4 - 3 8
Component
Pin
To
Ref
Component
Pin
Ref
3J05 3J05 3J05 .
029
031
032
A08
A09
A09
-
E15
E23
E23
A
A
3J05 -
033
A09
-
034
037
A08
A09
-
E23
A
3J05 3J05 -
E13
E23
D
AWG Type
Color
22
22
999
111
i;
111
111
22
22
fy;
Group
Route
Note
Remerks
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Section Il. TOOLS AND EQUIPMENT
4-7. General. Special test equipment used at the general
support level is listed for MAC (TM 5-6675-308-12) and
is described in TM 5-6675-238-14 and TM 5-6675-30914. Marine Corps users shall refer to TM 08837A-12/1,
TM 08839A-14/1, and TM 08840A-14/1, respectively.
For repair parts, refer to TM 5-6675-308-24P. Marine
Corps users shall refer to TM 08837A-24P/3. Table 4-5
lists tools and materials used at the general support
level.
4-39
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-5. Tools and Materials Required for General Support Maintenance
Item
Purpose
NSN or specification
Adapter, socket wrench,
l/2-inch to 3/8-inch
Used in conjunction with l-inch socket
nut for removal and replacement of
rectifier and diode in the power
supply
5120-00-240-8703
Adhesive, epoxy
Adhesive, epoxy
Used to bond PS terminal lug nuts
EC 2216 B/A (04633)
Used to bond thermostatic switch to
PS chassis
163-4LVFF (21109)
Adhesive, silicone, room
temperature curing
Used to bond computer power supply
end plate and power supply bottom
cover and side RFI gaskets
Used to bond CDU fault indicator,
computer fault indicator, and power
supply fault indicators
Used to bond capacitors to PS chassis
Used for cleaning of surfaces
Used for stand-by power during testing
Used to remove and replace battery
RTV 156 (72799) or 30-079
(71984)
Adhesive, silicone RTV, noncorrosive
Adhesive, urethane
Alcohol, isopropyl TT-I-735
Battery box CY-7560/USQ-70
Carrier, battery
Cloth, lint-free
Compound, sealing
Compound, sealing
Compound, tamper detection
Computer CP-1283/USQ-70
Crimping tool MS3191-4
Crimping tool MS3198-1
Crimping tool, battery
terminal
Drill, electric, l/4-inch
Drill set, twist, range
60 to 1
Drill, twist, 11/32-inch dia
Enamel, alkyd, forest green,
MIL-E-52798
Extractor, circuit card
Extractor, circuit card
4-40
Change 5
Used in cleaning the surfaces when
replacing cover gaskets
Used to bond screws
Used to bond screws
Used on porro prism assembly mounting
screws
Used in testing and troubleshooting
Used in crimping size 12, 16, and 20
connector pins
Used in crimping size 22 connector pins
Used to repair battery terminals
MIL-A-46146, Type I
724-14C (21 109)
6810-00-753-4993
880530-3 (06481)
5120-00-529-4124 or 512000-223-8455
MIL-S-22473, Grade C
MIL-S-22473, Grade H
7526F (72799)
880700-X (06481)
5120-00-165-3912
5120-00-165-3910
5120-00-293-0463
Used in installation of winterization kit
Used in installation of winterization kit
5130-00-889-8994
5130-00-449-6775
Used in removal of inserts in subfloor
plate
used as touch up paint
5133-00-227-9664
Used in removal of memory unit and
computer circuit cards Used in removal of circuit cards from
CDU
8010-111-7937
875435-1 (06481)
877490-1 (06481)
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-5. Tools and Materials Required for General Support Maintenance – Continued
Item
Purpose
Extractor, screw no. 5
Used for removal of inserts in subfloor
plate
Extraction tools
Used for connector repair
NSN or specification
Part of set 5120-00-610-1888
MS27495R12
5120-00-103-9708
MS27495R16
5120-00-409-5206
MS27495R20
5120-00-177-6966
MS27495R22
5120-00-146-6557
Frame, hand hacksaw, and
blades
Used for repair of power cables and
installation of winterization kit
5110-00-298-9657
5110-00-2774589
Hammer, ball peen, 4-OZ
Used for setting rivets
5120-00-243-2985
Hex head driver, 3/1 6-inch for
1/4-inch drive
Used in conjunction with the torque
wrench to torque the mounting bolt
assemblies to IMU mounts
5120-00-935-4612
Hex head driver, 7/64-inch for
1/4-inch drive
Used in conjunction with the torque
wrench to torque computer PS
cover, computer cover, and CDU front
panel assembly
5120-00-761-2015
Insertion tools
Used for connector repair
MS27495A12
5120-00-018-0531
MS27495A16
5120-00-018-0529
MS27495A20
5120-00-171-6967
MS27495A22
5120-00-137-9140
Installation tool. insert
TC 524L
Used in replacement of inserts in
subfloor plate
Insulation sleeving, electrical
heat shrinkable, polyolefin,
flexible, crosslinked
Used on component leads in power
supplies
MIL-I-23053/5A
Key, socket head, L-type
handle. 7/64-inch
Used in removal and replacement of
components in power supplies, CDU,
and removal of memory module
5120-00-889-2162
Key, socket head, L-type
handle. 7/64-inch
Used in removal of the computer power
supply from computer
5120-00-9516589
Knife, pocket
Used in gasket removal and clean-up
5110-00-240-5943
4-41
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-5. Tools and Materials Required for General Support Maintenance – Continued
Item
Purpose
NSN or specification
Lubricating oil, general purpose
0-196
Used to lubricate clamping catches
Magnet
Used for resetting of unit malfunction
indicators
S120-00-545-4268
Memory unit, core (computer)
Used in testing and troubleshooting
880880-X (06481)
Memory unit, solid state
(computer)
Used in testing and troubleshooting
868180-X (06481)
Mirror, inspection
Used to view obstructed components
5120-00-596-1098
Mounting Base, Electrical
Equipment, MT4877/USQ-70
Used in testing and troubleshooting
875499-1 (0648 1)
Oscilloscope AN/USM-281A
AN/USM-273
Used in testing and troubleshooting
6625-00-228-2201
6625-00-930-6637
Pliers, slip-joint 6-inch
Used in removal and replacement of
components in power supplies, repair
of connectors, and replacement of CDU
housing cover
5120-00-224-1567
Pliers, diagonal cutting,
4-1/2.inch
Used to cut and prepare wires and
components leads
5110-00-240-6209
Pliers, long-nose, 6- or 6-1/2-inch
Used in removal and replacement of
various components in computer PS,
PS, and CDU
5120-00-247-5177
5120-00-293-3481
Positioner, crimping tool
MS3191-9T
Used with crimping tool MS3191-4
5120-00-016-7582
Positioner, crimping tool
MS3198-6P
Used with crimping tool MS3198-1
5120-00-017-3809
Power supply PP-7352/USQ-70
Used in testing and troubleshooting
880600-2 (06481)
Power supply, O to 40 VDC
HP 6268A
Used in testing and troubleshooting
Power supply, 28 VDC
MH 28-200RS (Christie)
Used in testing and troubleshooting and
supplying primary power
6310-00-947-9670
Primer, bonding
Used in repair of flexible harnesses
A4094 (71984)
Primer, thread sealant
Used to apply prior to applying sealing
compound MI L-S-22473, Grades C and
H
MIL-S-22473
Punch, center
Used in installation of winterization kit
5120-00-293-3512
Screwdriver, cross-tip, no. O,
4-inch
Used in removal and replacement of
various components
5120-00-060-2004
4-42
Change 5
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-5. Tools and Materials Required for General Support Maintenance – Continued
Purpose
Item
NSN or specification
Screwdriver, cross-tip, no. 1,
3 -inch
Used during various removal and replacement procedures in computer PS and PS
5120-00-240-8716
Screwdriver, cross-tip, no. 1,
8-inch
Used in removal and replacement of
resistors and thermostat
5120-00-529-3101
Screwdriver, cross-tip, no. 2,
4-inch
Used in removal and replacement of
components in computer PS and PS
5120-00-234-8913
Screwdriver, cross-tip, offset,
no. 1 and 2
Used in removal and replacement of
components in computer PS and PS
5120-00-892-5931
Screwdriver, flat-tip, 3/32-inch,
3-inch long
Used in removal and replacement of
various components
5120-00-720-4969
Screwdriver, blade, l/4-inch by
0.032-inch for l/4-inch square
drive
Used with torque wrench to torque PS
cover
5120-00-316-9228
Screwdriver, flat-tip, 3/16-inch,
8-inch long
Used in removal and replacement of
various components
5120-00-2604837
Screwdriver, flat-tip, l/4-inch,
4-inch long
Used in removal and replacement of
various components
5120-00-222-8852
Soldering/desoldering set
Used to solder and unsolder components
3439-00-460-7198
Solder, rosin core
Used in soldering
3439-00-555-4629
Stripper, wire
Used to prepare wires and component
leads
5120-00-278-2423
Target set
Used in alignment of PADS porro prism
6675-00.065-7502
Teletypewriter TT-100/FG
Used as input/output device for PADS
test set
5815-00-503-2763
Test Set, PADS, AN/USM427
Used in testing and troubleshooting
computer, IMU, and CDU
6675-01-081-9198
Test Set, Power Supply,
AN/USM-428
Used in testing and troubleshooting power
supply and computer power supply
6675-01-075-4033
Theodolite. T-2 Direct .002
MIL, 30 PORM, 28 PWR LIN
Used in alignment of PADS porro prism
6675-00-684-5171
Tissue, lens NNNP 40, Type 1,
Class 1
Used in cleaning of porro prism assembly
6640-00-597-6745
‘Tripod
Used with the odolite
Tweezers, 6l/2-inch
Used for removal and replacement of
components
W07701
5120-00-293-0149
4-43
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-5. Tools and Matarials Raquired for General Support Maintenance – Continued
Item
Purpose
NSN or specification
Voltmeter, Digital HP 3465
Used in testing and troubleshooting
Watch, stop
Used in testing and troubleshooting
Wire, insulated, stranded: 12,
16,20,22, and 28 AWG
Used for repair cables and wire harnesses
MIL-W-16878
Wire, safety
Used to prevent loosening of hardware
MS20995C20
Wrench, adjustable, 6-inch
Used in removal and replacement of
various components
5120-00-264-3795
Wrench, combination, 5/32-inch
Used in removal and replacement of
various components
S 120-00-132-0492
Wrench, combination, 5/16-inch
Used in removal and replacement of
various components
5120-00-228-9503
Wrench, combination, 7/16-inch
Used in removal and replacement of
components in computer PS and PS
5120-00-228-9505
Wrench, combination, 9/16-inch
Used in removal and replacement of
components in computer PS
5120-00-228-9507
Wrench, combination, 3/4-inch
Used in removal and replacement of
pushbutton switches
5120-00-228-9510
Wrench, open end, fixed,
3/16-inch and l/4-inch
Used in removal and replacement of
various components
5120-00-228-9527
Wrench, open end, freed,
3/8-inch and 7/16-inch
Used in removal and replacement of
various components
5120-00-277-2342
Wrench, open end, fixed,
l/2-inch and 7/16-inch
Used in removal and replacement of
various components
5120-00-187-7123
Wrench, open end, fixed,
5/8-inch and 9/16-inch
Used in removal and replacement of
CDU mounting bracket
5120-00-187-7126
Wrench, open end, fixed,
3/4-inch and 7/8-inch
Used in removal and replacement of
vibration and support mounts
5120-00-240-5609
Wrench, single socket spinner,
5/32-inch
Used in removal and replacement of
parts on computer and power supply
5120-00-585-2149
Wrench, single socket, spinner,
l/4-inch
Used in removal and replacement of
various components
5120-00-241-3188
Wrench, strap TG-70
Used in removal and replacement of
connector shells
Wrench, torque, screwdriver,
1/4-inch square drive
Used to torque cover screws on computer, 5120-00-890-7816
power supply, CDU, and computer PS.
Also used to torque IMU bolt assemblies
to mounts and computer to computer PS
4-44
6625-01-039-7922
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Section III. TESTING AND TROUBLESHOOTING
4-8. General.
NOTE
The computer is the primary tester for
the CDU and IMU. Perform the computer test to verify proper computer operation before testing a CDU or IMU.
a. General support troubleshooting of the PADS
consists of performing testing and troubleshooting of
the computer, CDU, PS, and computer power supply as
outlined on tables 4-6, or 4-6.1, 4-7, 4-11, 4-19, and
4-20, and IMU testing, alignment, and troubleshooting,
as outlined in table 4-14 or 4-14.1. Tables 4-6 and 4-14
use PADS test set punched tape reader, part no.
877406-1, and tables 4-6.1 and 4-14.1 use punched tape
reader, part no 877406-2. The equipment setup and
program load sequence described in table 4-6, 4-6.1,
4-6.2 and 4-6.3 is common for the computer, CDU, or
IMU. It should be noted that if an IMU dedicated
memory is used for the testing, the alignment data is
lost. Therefore, the IMU calibration tape must be
reloaded into the dedicated memory. If only computer
or CDU testing is to be performed, use a spare memory
instead of the IMU dedicated memory. If an IMU is
being tested, the IMU dedicated memory must be installed in the computer. The procedures in the tables
are arranged in three columns. The first column contains the test operation procedures to be performed.
The second column contains the normal indication to
be observed when the procedure has been performed.
The third column contains the corrective action to be
taken if the normal indication is not obtained. If a
corrective action is not given where a normal indication
is given, this normal indication is a function of the test
equipment, and if abnormal, the applicable technical
manual should be referred to for test equipment malfunctions. Whenever a corrective action has been taken,
the complete testing and troubleshooting procedures
must be followed in the sequence given. All PADS
equipment must be installed in the primary pallet
during testing and troubleshooting.
the solid state memory for diagnostic alignment and the
reloading for operation is not necessary. Only IMU
calibration constants need be loaded when the memory
is to be dedicated to a different IMU. Refer to table
4-18, steps aa thru ba or table 4-18.1 steps ab through
bd for IMU calibration constants loading. In the event
that the solid state memory must be reloaded with the
solid state program, refer to table 4-6.2 or 4-6.3 for
loading instructions.
The tapes used in testing and operating
the PADS are electrically conductive.
DEATH OR SERIOUS INJURY, as well
as damage to tapes may result if the tapes
are allowed to come into contact with
115 VAC.
When removing, replacing or handling the
solid state memory, do not touch connector
pins or components on face of assembly as
damage to the memory may result.
Ensure that the solid state memory is
transported in conductive bag with CAUTION label identifying its contents as
static-sensitive device.
Prior to removal of the solid state memory from packaging, operator should discharge static electricity by making arm
contact with earth ground.
4-9. Computer Testing and Troubleshooting Procedure.
a. Test Equipment and Materials.
b. There are two types of memory units available
for the computer; a core or a solid state memory. The
determination of the memory type is important because
the program loading instructions are different for each
memory. The memory type, if unknown, can be determined by following the steps in table 4-6 or 4-6.1.
(1) PADS test set consists of the signal processor
unit (SPU) punched tape reader (tape reader), buffer
unit, interconnecting cables, and auxiliary equipment.
c. The core memory contains only one program at
a time, either the diagnostic alignment program or the
operational program. Follow instructions in table 4-6 or
4-6.1 for diagnostic alignment program loading.
The 100-wpm motor worm gear must be
installed prior to use. Refer to TM 115815-200-12.
d. The solid state memory contains both the diagnostic alignment and operational programs. Loading of
(2) Teletypewriter.
NOTE
(3) PADS power supply, pallet frame, and battery
box.
(4) + 28V power source.
Change 5
4-45
Figure 4-3.
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
4-46
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
b. Procedure. Perform computer testing and troubleshooting in accordance with table 4-6 or 4-6.1 and
4-7. The interconnections are shown in figure 4-3. Table
4-8 is a sample printout of the computer test.
Table 4-6. Computer Diagnostic/Alignment Program
Test procedure
Normal indication
Malfunction
indication/corrective
action
NOTE
This procedure uses tape reader, part no. 877406-1.
The test procedure column contains the test operation to be performed. The Normal Indication column contains
the desired test set or teletype response to the test operation. The malfunction indication(s) and corrective action(s)
are listed in the third column
All switches, switch-indicators, and indicators called out in the procedure are located on the SPU, unless otherwise
indicated.
To change a computer card assembly, perform the following in order given:
a. Press EXECUTE switch-indicator to off.
b. Press ON/OFF and ENTER switch-indicators.
c. Set PS BATTERY and VEHICLE circuit breakers CB1 and CB2 to off.
NOTE
If memory unit is replaced, reloading with proper program may be necessary.
d. Change card assembly or memory unit. (Refer to paragraphs 3-15a or 3-15b.)
e. Set BATTERY and VEHICLE circuit breakers CB1 and CB2 to ON.
f. Press PADS/OFF switch-indicator to ON.
g. Repeat the test.
Check that tape reels are not deformed and that tape runs smoothly through tape reader head.
1. TEST SETUP
la. Mate computer to an operational power supply as necessary
NOTE
For memory, CDU, and IMU testing,
use the general support dedicated
computer. For computer testing, use
the suspected defective computer.
lb. Install memory unit in computer
as necessary
Change 1
4-47
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-6. Computer Diagnostic/Alignment Program -- Continued
Test procedure
NOTE
For computer and CDU testing, use
the memory unit from the general
support dedicated test computer. If
a memory unit failure is suspected
from direct support troubleshooting
(checksum error, memory test fail,
or computer does not operate) use
the suspected defective memory
unit. For IMU testing, use the memory unit which will be dedicated to
that IMU.
1c. Install computer on pallet frame
as necessary
1d. Check that + 28V power source
and PS BATTERY and VEHICLE circuit breakers CB1 and
CB2 are OFF
le. Connect equipment as shown in
figure 4-3 and the following
checklist:
Cable
Unit
W5P1
Shorting Plug
W5P2
PS 3J1
W5P4
IMU Fan 2J5
W3P1
PS 3J5
W3P2
Computer PS 1J4
W6
Battery Box
W6P1
PS 3J2
W211
+28V
W211P1
Ps 3J4
W210P2
Buffer Unit 21J2
W210P1
Computer 1J2
W205P2
Buffer Unit 21J1
W205P1
SPU 20J5
W204P2
Computer lJ1
W2C4P1
SPU 20J4
W209P2
Computer 1J3
W209P1
SPU 20J9
W203P2
Tape Reader J1
W203P1
SPU 20J3
4-48
Change 1
Normal indication
Malfunction
indication/corrective
action
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-6. Computer Diagnostic/Alignment Program — Continued
Normal indication
Test procedure
W212
TTY
W212P1
SPU 20J12
TTY Power
115 VAC
W201P1
SPU 20J1
W201P2
115 VAC
Malfunction
indication/corrective
action
1f. Check that W4P1 is not connected to IMU connector 2J3
lg. Set tape reader SPOOLING
switch to DISABLE
lh. Press SPU ON switch-indicator
to on. Press to extinguish all
SPU lighted switch-indicators
except SPU ON and PADS OFF
SPU ON and PADS OFF switchindicators light. COMP FAIL indicator may light. All lamps
pressed extinguish
li. T u r n T T Y p r i n t e r M O T O R
switch to ON
lj. Press and hold LAMP TEST
switch. Release after verifying
lamps light properly
All SPU lamps light except LAMP
ENTER
and
TEST
and
FAILURE/ACTION indicator remains blank for at least 1.5 seconds
If no lamps light, press and release
SELF TEST switch and press
LAMP TEST switch again
FAILURE/ACTION indicator sequentially displays the following
within 15 seconds after pressing
and releasing L A M P T E S T
switch:
Indication
If lamps are partially lighted, replace in accordance with TM
and/or TM
5-6675-238-14
08839A-14/1
NOTE
Blank
30
20
Blank
For abnormal indication, verify
equipment is connected as shown in
figure 4-3. Check connectors for
bent or broken pins. Troubleshoot
PADS test set in accordance with
TM 5-6675-238-14 and/or TM
08839A-14/1.
88
Blank
32
Blank
77
Change 1
4-49
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-6. Computer Diagnostic/Alignment Program - Continued
Test procedure
Normal indication
Malfunction
indication/corrective
action
1k. Turn on + 28V power source
1l. Set PS BATTERY and VEHICLE circuit breakers CB1 and
CB2 to ON
2. CPU TEST
NOTE
If any card assembly is replaced during this test, repeat the test from
step 1h.
2a. Press PADS ON/OFF switch- PADS ON/OFF switch-indicator
indicator to on
lights. PARITY ERROR indicator
may light
PADS ON/OFF switch-indicator
does not light: Computer power
supply malfunction. Remove and
troubleshoot in accordance with
table 4-20
IMU FAIL indicator lights. COMP
indicator may light
Defective computer: Measure resistance, with multimeter on 10
kilohm scale across computer
thermostatic switch S1. If less
than 500 ohms, disconnect lead
going to E23. If resistance is still
less than 500 ohms, replace thermostatic switch S1. Refer to paragraph 4-16c(3). If not, check for
wire harness short between E23
and E50. If shorted, repair or replace as required
If resistance is greater than 500
ohms, replace I/O discrete card
A9, then data buffer card A6
If resistance is greater than 2,000
ohms, check continuity between
E23, XA6-007, and XA9-003. Repair if open
Comma in computer time totalizing
meter M1 oscillates
NOTE
The following step will be an aid in
determining memory unit type if unknown.
4-50
Change 1
If comma does not oscillate, measure the voltage across the time
totalizing meter. If greater than
105 VAC, replace time totalizing
meter. If less than 105 VAC,
check wiring
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-6. Computer Diagnostic/Alignment Program - Continued
Test procedure
Normal indication
2b. Press EXECUTE switch-indica- EXECUTE switch-indicator lights
tor to on
TTY prints out:
PADS SOLID STATE DIAGNOSTIC ALIGNMENT PROGRAM
PROGRAM CHECKSUM XXXXXX
SELECT TEST MODE
Malfunction
indication/corrective
action
EXECUTE switch-indicator flashes.
Replace cards in sequence given:
Control no. 3 circuit card assembly
A5
I/O discrete circuit card assembly
A9
Control no. 2 circuit card assembly
A4
This indicates solid state memory. Control no. 1 circuit card assembly
A3
Select test mode per table 4-7 step
2b, 4-11 step 2d, or 4-14 step 2c. 16-bit data circuit card assembly A2
Bypass further loading procedures
unless a new program load is required If incorrect checksum, continue with
step 2c
No TTY response:
This indicates either core memory
requiring diagnostic alignment
tape loading or solid state memory unloaded. Proceed to step 2c
2c. Press EXECUTE switch-indicator to off to halt computer
EXECUTE switch-indicator goes off
EXECUTE switch-indicator remains on:
Same card replacement as step 2b
2d. Install part 1 (of 2) of PADS
diagnostic alignment tape number 877418-5 on tape reader. Do
not tape program tape to takeup
reel. Manually advance tape beyond readable tape leader
2e. Set tape reader SPOOLING
switch to ENABLE
2f. Press MEMORY LOAD switch- MEMORY LOAD switch-indicator
indicator to on
lights. Tape reader reads first tape
section and stops in approximately
minute
NOTE
Press MEMORY LOAD switch-indicator off and back on if a stop code
is reached prior to tape data being
loaded.
2g. Press MEMORY LOAD switch- MEMORY LOAD switch-indicator
indicator to off
goes off
2h. Press VERIFY switch-indicator VERIFY switch-indicator lights.
to on to check next tape section
Tape reader reads next tape secagainst memory contents. (First
tion and stops in approximately 1
minute
two tape sections are identical)
VERIFY ERROR switch-indicator
lights and tape reader stops during
read indicating improper memory
load or memory failure
Change 6
4-51
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-6. Computer Diagnostic/Alignment Program – Continued
Test procedure
Normal indication
Malfunction
indication/corrective
action
Press verify switch-indicator to off.
Press PADS ON/OFF and ENTER switch-indicators to turn
computer off. Check tape reader
and tape for dirt. Clean as required. (Rewind tape and repeat
test from beginning before proceeding)
Replace cards in sequence given and
reattempt memory load after each
card replacement
NOTE
Press VERIFY switch-indicator off
and back on if a stop code is reached
prior to tape data being verified.
Memory unit A1
16-bit data circuit card assembly A2
Control no. 2 circuit card assembly
A4
Control no. 3 circuit card assembly
A5
Control no. 1 circuit card assembly
A3
2i. Press VERIFY switch-indicator
to off
VERIFY extinguishes
2j. Press EXECUTE switch-indicator to on to start diagnostic program no. 1
EXECUTE switch-indicator lights
TTY prints out:
PADS CPU TEST, TYPE CHARACTER SET (carriage return)
NOTE
The above printout indicates memory type is core. Continue with diagnostic program load, step 2k.
switch-indicator
1. EXECUTE
flashes. Same card replacement as
step 2b
2. No or ir correct print-out. Verify
TTY is on. Repeat steps 2c through
2j. If the second attempt gives the
same results, replace cards in sequence given:
16-bit data circuit card assembly A2
Control no. 2 circuit card assembly
A4
Control no. 3 circuit card assembly
A5
TTY prints out:
Control no. 1 circuit card assembly
A3
PADS SOLID STATE CPU TEST,
TYPE CHARACTER SET (car- Memory unit A1
riage return)
NOTE
The above printout indicates memory type is solid state. Continue with
diagnostic program load, step 2k.
4-52
Change 1
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-6. Computer Diagnostic/Alignment Program – Continued
Test procedure
2k. Type TTY character set
Normal indication
Each character typed is printed
Malfunction
indication/corrective action
Same as step 2j
2l. Press LTRS key
2m. Press TTY CAR RET key to TTY prints out:
terminate test
CPU OP-CODE TEST PASS
MEMORY TEST PASS
CPU TEST PASS
No printout within 2 seconds or
TTY prints out:
CPU OP-CODE TEST FAIL
Same card replacement as step 2b
TTY prints out:
NOTE
MEMORY TEST FAIL
Memory clear routing will begin automatically. When completed, TTY
will print out: LOAD NEXT TAPE
SECTION.
Same card replacement as step 2h
2n. Press EXECUTE switch-indica- EXECUTE switch-indicator goes off
tor to off to halt computer
EXECUTE switch-indicator remains on:
Same card replacement as step 2b
NOTE
For core memory diagnostic program loading, proceed to step 3a. If
memory type is solid state, proceed
to step 2o.
2o. Press REVERSE switch-indica- REVERSE switch-indicator lights.
tor to on
Tape rewinds and stops at beginning of reel
2p. Press REVERSE switch-indica- REVERSE switch-indicator goes off
tor to off
2q. Set tape reader SPOOLING
switch to DISABLE
2r. Remove tape from tape reader
2s. Refer to table 4-6.2 for solid
state memory loading instructions
3. DIAGNOSTIC PROGRAM
LOAD (Core Memory Only)
3a. Press MEMORY LOAD switch- MEMORY LOAD switch-indicator
indicator to on to load main dilights. Tape reader reads next tape
agnostic program
section and stops after first reel
has been read
Tape stops before end of tape: Replace tape
Change 1
4-53
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-6. Computer Diagnostic/Alignment Program - Continued
Test procedure
Normal indication
NOTE
NOTE
Malfunction
indication/corrective action
Press MEMORY LOAD switch-indi- Ignore PARITY ERROR switch-indicator off and back on if a stop code cator light unless tape stops.
is reached prior to tape data being
read.
3b. Press MEMORY LOAD switchindicator to off
MEMORY LOAD switch-indicator
goes off
3c. Press REVERSE switch-indicator to ON
REVERSE switch-indicator lights.
Tape rewinds and stops at beginning of reel
3d. Press REVERSE switch-indicator to off
REVERSE switch-indicator goes off
NOTE
Tape will stop near the beginning of
the reel. Repeat steps 3c and 3d
until tape stops at end of readable
leader.
3e. Set tape reader SPOOLING
switch to DISABLE
3f. Remove part 1 and load part 2
(of 2) of PADS diagnostic alignment tape number 877418-5 on
tape reader
3g. Set tape reader SPOOLING
switch to ENABLE
3h. Press MEMORY LOAD switchindicator to on
MEMORY LOAD switch-indicator
lights. Tape reader reads next tape
section and stops at end of reel
3i. Press MEMORY LOAD switchindicator to OFF
MEMORY LOAD switch-indicator
goes off
3j. Press EXECUTE switch-indicator to on
EXECUTE switch-indicator lights
TTY prints out:
PADS DIAGNOSTIC
MENT PROGRAM
ALIGN-
PROGRAM CHECKSUM XXXXXX
SELECT TEST MODE
4-54
Change 1
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-6. Computer Diagnostic/Alignment Program — Continued
Test procedure
3k. Compare printed checksum to
checksum written on the front
of the PADS diagnostic-alignment tape number 877418-5
Normal indication
Checksums are equal
Malfunction
indication/corrective action
Checksum is incorrect: Inspect tape
reader photocell assembly and
tape for dirt. Clean as required
Reload complete diagnostic program
If new checksum is correct, continue
with test. If new checksum is
same as the old (wrong) checksum: Perform PADS test set selftest and take indicated corrective
action
Replace computer card assemblies in
the order shown in step 2h and
reload tape after each card is replaced
If new checksum differs from the old
(wrong) checksum: Adjust tape
reader and reload tape. Thoroughly clean or replace tape
NOTE
You may continue performing the
test while the tape is rewinding.
3l. Press REVERSE switch-indicator
to on
3m. Press REVERSE switch-indicator to off
If a computer test is not required:
press EXECUTE switch-indicator to
off; sequentially press PADS ON/
OFF switch-indicator and ENTER
switch to turn off computer; and go
to table 4-11 or 4-14 to perform a
CDU or IMU test, respectively.
REVERSE switch-indicator lights.
Tape rewinds and stops at beginning of reel
REVERSE switch-indicator goes off
3n. Set tape reader SPOOLING
switch to DISABLE
3o. Remove tape from tape reader
Change 1
4-54.1
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-6.1. Computer Diagnostic/Alignment Program Using Tape Reader, Part No. 877406-2
Test procedure
Normal indication
Malfunction
indication/corrective
action
NOTE
The Test Procedure column contains the test operation to be performed. The Normal Indication column contains
the desired test set or teletype response to the test operation. The malfunction indication(s) and corrective action(s)
are listed in the third column.
All switches, switch-indicators, and indicators called out in the procedure are located on the SPU, unless otherwise
indicated.
To change a computer card assembly, perform the following in order given:
a. Press EXECUTE switch-indicator to off.
b. Press ON/OFF and ENTER switch-indicators.
c. Set PS BATTERY and VEHICLE circuit breakers CB1 and CB2 to OFF.
NOTE
If memory unit is replaced, reloading with proper program maybe necessary.
d. Change card assembly or memory unit. (Refer to paragraphs 3-15a or 3-15b.)
e. Set BATTERY and VEHICLE circuit breakers CB1 and CB2 to ON.
f. Press PADS ON/OFF switch-indicator to ON.
g. Repeat the test.
Check that tape reels are not deformed and that tape runs smoothly through tape reader head.
1. TEST SETUP
1a. Mate computer to an operational power supply as necessary
NOTE
For memory, CDU, and IMU testing,
use the general support dedicated
computer. For computer testing, use
the suspected defective computer.
1b. Install memory unit in computer
as necessary
NOTE
For computer and CDU testing, use
the memory unit from the general
support dedicated test computer, If
a memory unit failure is suspected
from direct support troubleshooting
(checksum error, memory test fail,
or computer does not operate) use
the suspected defective memory
unit. For IMU testing, use the memory unit which will be dedicated to
that IMU.
4-54.2
Change 1
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-6.1. Computer Diagnostic/Alignment Program Using Tape Reader, Part No. 877406-2
Test procedure
Normal indication
Malfunction
indication/corrective action
1c. Install computer on pallet frame
as necessary
1d. Check that + 28V power source
and PS BATTERY and VEHICLE circuit breakers CB1 and
CB2 are OFF
1e. Connect equipment as shown in
figure 4-3 and the following
checklist:
Cable
W5P1
W5P2
W5P4
W3P1
Unit
Shorting Plug
PS 3J1
IMU Fan 2J5
W3P2
PS 3J5
Computer PS 1J4
W6
Battery Box
W6P1
PS 3J2
W211
W211P1
+ 28V
PS 3J4
W210P2
Buffer Unit 21J2
W210P1
W205P2
Computer 1J2
Buffer Unit 21J1
W205P1
SPU 20J5
W204P2
Computer 1J1
W204P1
W209P2
SPU 20J4
W209P1
W203P2
W203P1
W212
W212P1
TTY Power
Computer 1J3
SPU 20J9
Tape Reader J1
SPU 20J3
TTY
SPU 20J12
115 VAC
SPU 20J1
115 VAC
W201P1
W201P2
1f. Check that W4P1 is not connected to IMU connector 2J3
Change 1
4-54.3
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-6.1. Computer Diagnostic/Alignment Program Using Tape Reader, Part No. 877406-2 — Continued
Test procedure
Normal indication
Malfunction
indication/corrective
action
1g. Ensure that tape reader SPL/
LOOP switch is set to LOOP
1h. Press SPU ON switch-indicator
to on. Press to extinguish all
SPU lighted switch-indicators
except SPU ON and PADS OFF
SPU ON and PADS OFF switchindicators light. COMP FAIL indicator may light. All lamps
pressed extinguish
li. T u r n T T Y p r i n t e r M O T O R
switch to ON
lj. Press and hold LAMP TEST
switch. Release after verifying
lamps light properly
All SPU lamps light except LAMP
and
TEST
and
ENTER
FAILURE/ACTION indicator remains blank for at least 1.5 seconds
If no lamp light, press and release
SELF TEST switch and press
LAMP TEST switch again
FAILURE/ACTION indicator sequentially displays the following
within 15 seconds after pressing
and releasing L A M P T E S T
switch:
Indication
If lamps are partially lighted, replace in accordance with TM
5-6675-238-14
and/or TM
08839A-14/1
NOTE
Blank
30
20
Blank
88
Blank
32
Blank
77
lk. Turn on + 28V power source
1l. Set PS BATTERY and VEHICLE circuit breakers CB1 and
CB2 to ON
2. CPU TEST/MEMORY CLEAR
NOTE
If any card assembly is replaced during this test, repeat the test from
step 1i.
4-54.4
Change 1
For abnormal indication, verify
equipment is connected as shown in
figure 4-3. Check connectors for
bent or broken pins. Troubleshoot
PADS test set in accordance with
TM 5-6675-238-14 and/or TM
08839A-14/1.
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-6.1. Computer Diagnostic/Alignment Program Using Tape Reader, Part No. 877406-2 - Continued
Test procedure
2a. Press PADS ON/OFF switchindicator to on
Normal indication
Malfunction
indication/corrective action
PADS ON/OFF switch-indicator PADS ON/OFF switch-indicator
does not light: Computer power
lights. PARITY ERROR indicator
supply malfunction. Remove and
may light
troubleshoot in accordance with
table 4-20
IMU FAIL indicator lights. COMP Defective computer: Measure resistance, with multimeter on
indicator may light
10 kilohm scale across computer
thermostatic switch S1. If less than
500 ohms, disconnect lead going to
E23. If resistance is still less than
500 ohms replace thermostatic
switch S1. Refer to paragraph
4-16c(3). If not, check for wire
harness short between E23 and E50.
If shorted, repair or replace as
required
If resistance is greater than 500
ohms, replace I/O discrete card A9,
then data buffer card A6
If resistance is greater than 2,000
ohms, check continuity between
E23, XA6-007, and XA9-003. Repair if open
Comma in computer time totalizing
meter M1 oscillates
If comma does not oscillate, measure
the voltage across the time totalizing meter. If greater than 105 VAC,
replace time totalizing meter. If less
than 105 VAC, check wiring
EXECUTE switch-indicator lights
EXECUTE switch-indicator flashes.
Replace cards in sequence given:
NOTE
The following step will be an aid in
determining memory unit type if
unknown.
2b. Press EXECUTE switch-indicator to on
TTY prints out:
PADS SOLID STATE DIAGNOSTIC ALIGNMENT PROGRAM
PROGRAM CHECKSUM XXXXXX
Control no. 3 circuit card assembly
A5
I/O discrete circuit card assembly A9
SELECT TEST MODE
Control no. 2 circuit card assembly
A4
This indicates solid state memory.
Control no. 1 circuit card assembly
Select test mode per table 4-7 step 2b,
4-11 step 2d, or 4-14.1 step 2c. Bypass
further loading procedures unless a
new program load is required. If a
new program load is desired, proceed to table 4-6.3
A3
16-bit data circuit card assembly A2
If incorrect checksum, continue with
step 2c
Change 6
4-54.5
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 5-3. Horizontal Circle Readings
e. Read the horizontal circle. The reading should
be 0.150 (within ±0.100 roil), With care, a circle
may be set to an accuracy of 0.010 mil.
5-7. Pointing the Theodolite.
a. Release the horizontal and vertical clamping
screws.
b. Aim the telescope on the target. Focus as necessary.
c. When the telescope crosshairs are on the target,
tighten the horizontal and vertical clamping
screws.
d Use the telescope focusing ring to bring the
image into sharp focus.
e. Use the horizontal and vertical tangent screws to
exactly center the intersection of the horizontal
and vertical crosshairs over the target. If the
target is a vertical line, like a pole, the same
point on the target must be used for each sighting.
5-8. Autoreflection. (See figure 5-4.)
5-8
NOTE
To increase visibility, color the theodolite
sight white with typewriter correction
fluid. At night, illuminate the sight with
the theodolite handlamp.
a. Level the porro prism using the level adjust
knob and level vial. The level adjustment can
accommodate slopes up to ±20 degrees.
b. Aim the theodolite so the horizontal crosshair
lies along the centerline of the prism.
c. Increase the telescope focus towards infinity until the reflected image of the front of the telescope is visible.
d Adiust the theodolite so the reflected image of
the theodolite sight is centered on the vertical
crosshair. See figure 5-5. Lock the clamping
screws and readjust as necessary.
5-9. Measuring Horizontal Angles. (See figure 5-6.)
a. With the telescope in the direct (D) (sight on
top) position, point the telescope on the azimuth
target.
b. Set the horizontal circle to approximately 0.150
roil.
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-6.1
Computer Diagnostic/Alignment Program Using Tape Reader, Part No. 877406-2—Continued
Test procedure
Normal indication
Malfunction
indication/corrective action
NOTE
The above printout indicates
memory type is solid state. Continue with diagnostic program load,
step 2K.
2k. Type TTY character set
Each character typed is printed
Same as step 2j
TTY prints out:
No printout within 2 seconds or
TTY prints out:
2l. Press TTY LTRS key
2m. Press TTY CAR RET key to
terminate test
CPU OP-CODE TEST PASS
MEMORY TEST PASS
CPU TEST PASS
NOTE
Memory clear routing will begin
automatically. When completed,
TTY will print out:
CPU OP-CODE TEST FAIL
Same card replacement as step 2b
TTY prints out:
MEMORY TEST FAIL
Same card replacement as step 2h
LOAD NEXT TAPE SECTION
2n. Press EXECUTE switchindicator to off to halt
computer
EXECUTE switch-indicator goes
off
Same card replacement as step 2b
NOTE
For core memory diagnostic program loading, proceed to step 3a. If
memory type is solid state, proceed
to step 2o.
2o. Set tape reader FAST/SLOW
switch to FAST
2 p . Press REVERSE switchindicator to on
REVERSE switch-indicator lights.
Tape rewinds and stops at beginning of reel
2q. P r e s s R E V E R S E s w i t c h indicator to off
REVERSE switch-indicator goes
off
2r. Lift tape reader read head
cover and remove tape from
tape reader
2s. Refer to table 4-6.3 for solid
loading
memory
state
instructions
3.
DIAGNOSTIC PROGRAM
LOAD (Core Memory Only)
4-54.8
Change 1
EXECUTE switch-indicator remains on:
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-6.1. Computer Diagnostic/Alignment Program Using Tape Reader, Part No. 877406-2 — Continued
Test procedure
3a. Press MEMORY LOAD switchindicator to on to load main diagnostic program
Normal indication
Malfunction
indication /correct ive action
MEMORY LOAD switch-indicator Tape stops before end of tape: Relights. Tape reader reads next tape
place tape
section and stops after first reel
has been read
NOTE
NOTE
Press MEMORY LOAD switch-indicator off and back on if a stop code
is reached prior to tape data being
read.
Ignore PARITY ERROR switch-indicator light unless tape stops.
3b. Press MEMORY LOAD switchindicator to off
MEMORY LOAD switch-indicator
goes off
3c. Set tape reader FAST/SLOW
switch to FAST
3d. Press REVERSE switch-indicator to ON
REVERSE switch-indicator lights.
Tape rewinds and stops at beginning of reel
3e. Press REVERSE switch-indicator to off
REVERSE switch-indicator goes off
NOTE
Tape will stop near the beginning of
the reel. Repeat stem 3d and 3e
until tape stops at end of readable
leader.
3f. Lift read head cover and remove No. 10 LED indicator lights steady
part 1 and load part 2 (of 2) of
PADS diagnostic alignment tape
number 877418-5 on tape
reader. Gently lower read head
cover
3g. Set tape reader FAST/SLOW
switch to SLOW
3h. Press MEMORY LOAD switchindicator to on
MEMORY LOAD switch-indicator
lights. Tape reader reads next tape
section and stops at end of reel
3i. Press MEMORY LOAD switch- MEMORY LOAD switch-indicator
goes off
indicator to OFF
3j. Press EXECUTE switch-indica- EXECUTE switch-indicator lights
tor to on
TTY prints out:
PADS DIAGNOSTIC ALIGNMENT PROGRAM
PROGRAM CHECKSUM XXXXXX
Change 1
4-54.9
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-6.1. Computer Diagnostic/Alignment Program Using Tape Reader, Part No. 877406-2 – Continued
Test procedure
Normal indication
SELECT TEST MODE
3k. Compare printed checksum to Checksums are equal
checksum written on the front
of the PADS diagnostic alignment tape number 877418-5
NOTE
You may continue performing the
test while the tape is rewinding.
If a computer test is not required:
press EXECUTE switch-indicator to
off; sequentially press PADS ON/
OFF switch-indicator and ENTER
switch to turn off computer; and go
to table 4-11 or 4-14.1 to perform a
CDU or IMU test, respectively.
3l. Set tape reader FAST/SLOW
switch to FAST
3m. Press REVERSE switch-indica- REVERSE switch-indicator lights.
Tape rewinds and stops at begintor to on
ning of reel
3n. Press REVERSE switch-indica- REVERSE switch-indicator goes off
tor to off
3o. Lift tape reader read head cover
and remove tape from tape
reader
4-54.10
Change 1
Malfunction
indication/corrective action
Checksum is incorrect: Inspect tape
reader and tape for dirt. Clean as
required
Reload complete diagnostic program
If new checksum is correct, continue
with test. If new checksum is
same as the old (wrong) checksum: Perform PADS test set selftest and take indicated corrective
action
Replace computer card assemblies in
the order shown in step 2h and
reload tape after each card is replaced
If new checksum differs from the old
(wrong) checksum: reload tape,
Thoroughly clean or replace tape
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-6.2. Solid State Memory Loading
Test procedure
Normal indication
Malfunction
indication/corrective action
NOTE
This procedure uses tape reader, part no. 877406-1.
1. PRELIMINARY PROCEDURE
la. Istall part 1 (of 3) of PADS solid
state program tape number
868182-X on tape reader. Do not
tape program tape to takeup reel.
Manually advance tape beyond
readable tape leader
lb. Set tape reader SPOOLING
switch to ENABLE
lc. Ensure that PADS ON/OFF
switch-indicator is pressed on
ld. Press MEMORY LOAD switch– MEMORY LOAD switch–indicator
indicator to on
lights. Tape reader reads first tape
section and stops in approximately
1 minute
NOTE
Press MEMORY LOAD switch–
indicator off and back on if a stop
code is reached prior to tape data
being loaded
le. Press MEMORY LOAD switch- MEMORY LOAD switch-indicator goes
indicator to on. When header has
on, then off
been loaded press MEMORY
LOAD switch-indicator to off
EXECUTE
lf. Press
switch– TTY prints out PADS SOLID STATE 1. EXECUTE switch–indicator flashes.
indicator to on to start prelimiReplace cards in sequence given:
CPU TEST, TYPE CHARACTER
SET
nary tests and memory clear
Control no. 3 circuit card assembly A5
routine
I/O discrete circuit card assembly A9
Control no. 2 circuit card assembly A4
Control no. 1 circuit card assembly A3
16-bit data circuit card assembly A2
2. No or incorrect printout, replace
cards in sequence given:
M-bit data circuit card assembly A2
Control no. 2 circuit card assembly A4
Control no. 3 circuit card assembly A5
Control no. 1 circuit card assembly A3
Memory unit Al
lg. Type TTY character set
Same as step 1f
Each character typed is printed
lh. Press LTRS key
No printout within 2 seconds or TTY
li. Press TTY CAR RET key to ter- TTY prints out
pMts out
minate reset
CPU OP-CODE TEST PASS
MEMORY TEST PASS
CPU OP-CODE TEST FAIL
CPU TEST PASS
Replace cards in sequence given:
Control no. 3 circuit card assembly A5
Change 6
4-54.11
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-6.2. Solid State Memory Loading- Continued
Test procedure
Normal indication
NOTE
Memory clear routing will begin automatically. When completed, TTY will print
out LOAD NEXT TAPE SECTION
lj. Press EXECUTE switchindicator to off to halt computer
2. SOLID STATE PROGRAM
LOAD
2a. Press MEMORY LOAD switchindicator to on to load program
EXECUTE switch-indicator goes off
MEMORY LOAD switch-indicator
lights. Tape reader reads tape and stops
after first reel has been read
NOTE
Ignore PARITY ERROR switchindicator light unless tape stops.
NOTE
Press MEMORY LOAD switchindicator off and back on if a stop
code is reached prior to taped data
being read.
2b. PressMEMORYLOAD switch– MEMORY LOAD switch-indicator goes
indicator to off
off
2c. Press REVERSE switch- REVERSE switch-indicator lights. Tape
inicator to on
rewinds and stops at beginning of reel
2d. Press REVERSE switch- REVERSE switch-indicator goes off
indicator to off
NOTE
Tape will stop near the beginning of
the reel. Repeat steps 2c and 2d until
tape stops at end of readable leader.
2e. Set tape reader SPOOLING
switch to DISABLE
2f. Remove part 1 and load part 2
(of 3) of PADS solid state program 868182-X on tape reader
2g. Set tape reader SPOOLING
switch to ENABLE
2h. Press MEMORY LOAD switch- MEMORY LOAD switch-indicator
indicator to on
lights. Tape reader reads tape and stops
at end of reel
4-54.12
Change 6
Malfunction
indication/corrective action
I/O discrete circuit card assembly A9
Control no. 2 circuit card assembly A4
Control no. 1 circuit card assembly A3
16-bit data circuit card assembly A2
TTY prints out:
MEMORY TEST FAIL
Replace cards in sequence given:
Memory unit Al
16-bit data circuit card assembly A2
Control no. 2 circuit card assembly A4
Control no. 3 circuit card assembly A5
Control no. 1 circuit card assembly A3
EXECUTE switch-indicator remains
on:
Same card replacement as step 1i
Tape stops before end of tape. Replace
tape or rerun clear memory routine
and attempt to load again
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-6.2. Solid State Memory Loading- Continued
Test procedure
Normal indication
2i. Press MEMORY LOAD switch- MEMORY LOAD switch-indicator goes
indicator to off
off
REVERSE
2j. Press
switch– REVERSE switch-indicator lights. Tape
indicator to on
rewinds and stops at beginning of reel
2k. Press
REVERSE
switch– REVERSE switch-indicator goes off
indicator to off
2l. Set tape reader SPOOLING
switch to DISABLE
2m. Remove part 2 and load part 3
(of 3) of PADS solid state program tape number 868182–X on
tape reader
2n. Set tape reader SPOOLING
switch to ENABLE
2o. Press MEMORY LOAD switch– MEMORY LOAD switch-indicator
indicator to on
lights. Tape reader reads tape and stops
at end of reel
2p. Press MEMORY LOAD switch– MEMORY LOAD switch-indicator goes
indicator to off
off
2q. Press
REVERSE
switch- REVERSE switch-indicator lights. Tape
rewinds and stops at beginning of reel
indicator to on
REVERSE
2r. Press
switch- REVERSE switch-indicator goes off
indicator to off
2s. Remove tape from tape reader
2t. Press
EXECUTE
switch– EXECUTE switch–indicator lights
indicator to on to start diagnostic TTY prints out:
program
PADS SOLID STATE DIAGNOSTIC
ALIGNMENT PROGRAM
PROGRAM CHECKSUM XXXXXX
SELECT TEST MODE
2u. Compare printed checksum to Checksums are equal
checksum written on the front of
the PADS solid state program
tape number 868182-X
NOTE
If a computer testis required, go to table
4-7. If a computer test is not required:
press EXECUTE switch–indicator to off
sequentially press PADS ON/OFF
switch-indicator and ENTER switch to
turn off computer; and go to table 4-11 or
4-14 to perform a CDU or IMU test,
respectively.
Malfunction
indication/corrective action
Checksum is incorrect: Inspect tape
reader photocell assembly and tape
for dirt. Clean as required
Reload complete solid state program
If new checksum is correct, continue
with test. If new checksum is same as
the old (wrong) checksum: Perform
PADS test set self-test and take indicated corrective action
Replace computer card assemblies in the
order shown instep If and reload tape
after each card is replaced
If new checksum differs from the old
(wrong) checksum: Adjust tape
reader and reload tape. Thoroughly
clean or replace tape
Change 6
4-54.13
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-6.3. Solid State Memory LoadingUsing Tape Reader Part No.877406-2
Test procedure
Normal indication
Malfunction
indication/corrective action
1. PRELIMINARY PROCEDURE
1a. Install part 1 (of 3) of PADS
solid state program tape number
868182-X on tape reader as follows:
Lift read head cover to up position
Clean tape reader head, if necessary
Load tape on left side, thread
tape through read head, ensuring tape is between LED’s and
read head, and sprocket teeth are
aligned on both sides
Manually move tape until
arrows on tape are past mad
head
Gently lower read head cover
No. 10 LED indicator lights steady
NOTE
Do not tape program tape to takeup
red. Manually advance tape beyond
readable tape leader.
lb. Set rape reader SPL/LOOP
switch to SPL and FAST/
SLOW switch to SLOW
lc. Ensure that PADS ON/OFF
switch-indicator is pressed on
1d. Press MEMORY LOAD
switch-indicator to on
NOTE
Press MEMORY LOAD switchindicator off and back on if a stop
code is reached prior to tape data
being loaded.
le. Ross MEMORY LOAD
Switch-indicator to on. When
header has been loaded, press
MEMORY LOAD switchindicator to off
1f. Press EXECUTE switchindicator to on to start preliminary tests and memory clear
routine
4-54.14
Change 6
MEMORY LOAD switch-indicator
lights. Tape reader reads first tape section and stops in approximately
1 minute
MEMORY LOAD switch-indicator
goes on, then off
TTY prints out: PADS SOLID STATE
CPU TEST, TYPE CHARACTER
SET
1. EXECUTE
switch-indicator
flashes. Replace cards in sequence
given:
Control no. 3 circuit card assembly A5
I/O discrete circuit card assembly A9
Control no. 2 circuit card assembly A4
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-6.3. Solid State Memory Loading Using Tape Reader Part No. 877408-2- Continued
Test procedure
Normal indication
Malfunction
indication/corrective action
Control no. 1 circuit card assembly A3
16-bit data circuit card assembly A2
2. No or incorrect printout, replace
cards in sequence given
16-bit data circuit card assembly A2
Control no. 2 circuit card assembly A4
Control no. 3 circuit card assembly A5
Control no. 1 circuit card assembly A3
Memory unit Al
lg. Type TN character set
Each character typed is printed
Same as step 1f
TTY prints out:
CPU OP-CODE TEST PASS
MEMORY TEST PASS
CPU TEST PASS
No printout within 2 seconds or TTY
pMts out
CPU OP-CODE TEST FAIL
Replace cards in sequence given
Control no. 3 circuit card assembly A5
I/O discrete circuit card assembly A9
Control no. 2 circuit card assembly A4
Control no. 1 circuit card assembly A3
16-bit data circuit card assembly A2
lh. Press LTRS key
li. Press TN CAR RET key to terminate test
NOTE
Memory clear routing will begin automatically. When completed, TTY will
print out: LOAD NEXT TAPE
SECTION
lj. Press EXECUTE switch–
indicator to off to halt computer
MEMORY
LOAD
switch-indicator to on to load
main diagnostic program
2a. Press
EXECUTE switch–indicator goes off
MEMORY LOAD switch-indicator
lights. Tapereaderreads tape and stops
after first reel has been read
NOTE
Press MEMORY LOAD switch–
indicator off and back on if a stop
code is reached prior to tape data
Ignore PARITY ERROR switch–
indicator light unless tape stops.
switch-indicator to off
LOAD
EXECUTE switch-indicator remains
on:
Same card replacement as step li
NOTE
being read.
2b. Press MEMORY
TTY prints out:
MEMORY TEST FAIL
Replace cards in sequence given:
Memory unit Al
K-bit data circuit card assembly A2
Control no. 2 circuit card assembly A4
Control no. 3 circuit card assembly A5
Control no. 1 circuit card assembly A3
Tape stops before end of tape. Replace
tape or remn clear memory routine
and attempt to load again
MEMORY LOAD switch–indicator
goes off
Change 6
4-54.15
ARMY TM 6-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-6.3. Solid State Memory Loading Using Tape Reader, Part No. 877406 -2- Continued
Test procedure
2c. Set tape reader FAST/SLOW
switch to FAST
2d Press REVERSE switch-indicator to on
2c. Press REVERSE switch-indicator to off
NOTE
Tape will stop near the beginningof
the reel. Repeat steps 2d and 2e
until tape stops at end of readable
leader.
2f. Lift tape reader read head cover
and remove part 1 and load part
2 (of 3) of PADS solid state program 868182-X on tape reader.
Gently lower read head cover.
2g. Set tape reader FAST/SLOW
switch to SLOW
2h. Press MEMORY LOAD switchindicator to on
2i. Press MEMORY LOAD switchindicator to off
2j. Set tape reader FAST/SLOW
switch to FAST
2k. Press REVERSE switch-indicator to on
2f. Press REVERSE switch-indicator to off
2m. Lift tape reader read head cover
and remove part 2 and load part
3 (of 3) of PADS solid state
program tape number 868182-X
on tape reader. Gently lower
read head cover
2n. Set tape reader FAST/SLOW
switch to SLOW
2o. Press MEMORY LOAD switchindicator to on
2p. Press MEMORY LOAD switchindicator to off
2q. Set tape reader FAST/SLOW
switch to FAST
4-54.16
Change 6
Normal indication
REVERSE switch-indicator lights. Tape
rewinds and stops at beginning of
reel
REVERSE switch-indicator goes off
No. 10 LED indicator lights steady
MEMORY LOAD switch-indicator
lights. Tape reader reads tape and
stops at end of reel
MEMORY LOAD switch-indicator
goes off
REVERSE switch-indicator lights.
Tape rewinds and stops at beginning
of reel
REVERSE switch-indicator goes off
No. 10 LED indicator lights steady
MEMORY LOAD switch-indicator
lights. Tape reader reads tape and
stops at end of reel
MEMORY LOAD switch-indicator
goes off
Malfunction
indication/corrective action
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-7.
Test procedure
Computer Testing and Troubleshooting
Normal indication
Malfunctiion
indication/corrective action
1. TEST SETUP
Check that the diagnostic alignment program is loaded into the
computer memory and that the
computer is functional in accordance with table 4-6 or 4-6.1
2. COMPUTER DIAGNOSIC
NOTE
During this test, any failure message listed in table 4-10 maybe printed. Perform corrective actiion specified in
table 4-10. If a memory is replaced, repeat the entire test from step 1l (table 4-6) or step 1l(table 4-6.1). After
replacing any other card, repeat the diagnostic test from step 2a (table 4-7). If the checksum is incorrect, reload
the diagnostic-alignment program.
2a. Press EXECUTE switchindicator to on to start
diagnostic program
EXECUTE switch-indicator lights
TTY prints out:
PADS DIAGNOSTIC ALIGNMENT PROGRAM
PROGRAM CHECKSUM
SELECT TEST MODE
2b. Type character set CMP TTY prints out:
(selects computer automatic CMP
test mode)
COMPUTER AUTOMATIC
TEST MODE
2c. PADS test set is now in the
computer automatic test mode
and requires no operator control for approximately 15
minutes
TTY prints out at less than 8
minute intervals:
XXX TEST CYCLES PASS
Where XXX is a number of passes
through test program
After approximately 15 minutes
TTY prints out:
DEPRESS OFF, ENT. PADS
POWER SHOULD REMAIN
ON
NOTE
Perform step 2d immediately after
last TTY printout.
(4-55 blank)/4-56
Change 6
TTY prints out:
XXX TEST FAIL
Refer to table 4-10 for corrective action. Type STS and refer to table
4-9
NOTE
If TTY prints out: XXX TEST
FAIL; press PADS ON/OFF
switch-indicator and ENTER
switch. Wait 2 to 3 minutes, then
turn PADS on, press EXECUTE
switch-indicator, and return to step
2a, table 4-7.
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-6.3. Solid State Memory Loading Using Tape Reader, Part No. 877406-2 - Continued
Test procedure
Normal indication
2r. Press REVERSE switch-indicator to on
REVERSE switch-indicator lights. Tape
rewinds and stops at beginning of
reel
REVERSE switch-indicator goes off
2s. Press REVERSE switch-ii-
dicator to off
2t. Lift tape read head cover and
remove tape from tape reader
2u. Press EXECUTE switch-indicator to on to start diagnostic
program
2v. Compare printed checksum to
checksum written on the front of
the PADS solid state program
tape number 868182-X
EXECUTE switch-indicator lights
TTY prints out:
PADS SOLID STATE DIAGNOSTIC ALIGNMENT PROGRAM
PROGRAM CHECKSUM XXXXXX
SELECT TEST MODE
Checksums are equal
NOTE
If a computer test is required go to
table 4-7. If a computer test is not
required press EXECUTE switchindicator to off, sequentially press
PADS ON/OFP switch-indicator and
ENTER switch to turn off computer;
and go to table 4-11 or 4-14.1 to perform a CDU or IMU test, respectively.
Malfunction
indication/corrective action
Checksum is incorrect: Inspect tape
reader and tape for dirt. Clean as
required
Reload complete solid state program
If new checksum is correct, continue
with test. If new checksum is same
as the old (wrong) checksum
Perform PADS test set self-test
and take indicated corrective action
Replace computer card assemblies in
the order shown in step Ii and
reload tape after each card is replaced
If new checksum differs from the old
(wrong) checksum Adjust tape
reader and reload tape. Thoroughly clean or replace tape
.
Change 6
4-55
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-24/2
Table 4-7. Computer Testing and Troubleshooting
Teat procedure
Normal indication
Malfunction
indication/correctie action
1. TEST SETUP
.
Check that the diagnostic alignment program is loaded into the
computer is memory and that the
computer is functional in accordame with table 4-6, 4-6.1, 4-6.2,
or 4-63.
2. COMPUTER DIAGNOSTIC
TEST
NOTE
During this test, any failure message listed in table 4-10 maybe printed. Perform corrective action specified in table 4-10.
If a memory is replaced, operate and reload per tables 4-6 through 4-6.3 dependent upon memory and reader tapes. After
replacing any other card, repeat the diagnostic test from step 2a (table 4-7). If the checksum is incorrect, reload the
diagnostic-alignment program for core memory, or main program for solid state memory.
2a. Press EXECUTE switch-indicator go on to start diagnostic
program
EXECUTE switch-indicator lights
TTY printa out:
PADS DIAGNOSTIC ALIGNMENT
PROGRAM or PADS
SOLID STATE DIAGNOSTIC
ALIGNMENT PROGRAM
PRoGRAM CHECKSUM XXXXXX
SELECT TEST MODE
2b. Type character set CMP (selects
computer automatic test mode)
TTY prints out:
XXX TEST FAIL
COMPUTER AUTOMATIC
TEST MODE
2c. PADS teat set is now in the computer automatic teat mode and
requires no operator control for
approximately 15 minutes
TTY prints out at leas than 8 minute
intervals
XXX TEST CYCLES PASS
Where XXX is a number of passes
through test program
4-56
Change 6
TTY prints out
Refer to table 4-10 for corrective
action. Type STS and refer to
table 4-9
NOTE
If TTY prints O Ut: XXX TEST
FAIL press PADS ON/OFF switchindicator and ENTER switch. Wait
2 to 3 minutes then turn PADS on,
press EXECUTE switch-indicator,
and return to step 2a, table 4-7.
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-7. Computer Testing and Troubleshooting - Continued
Test procedure
Normal indication
Malfunction
indication/corrective action
After approximately 15 minutes TTY
prints out:
DEPRESS OFF, ENT. PADS
POWER SHOULD REMAINON
NOTE
Perform step 2d immediately after
last TTY printout.
PADS
2d. sequentially press
ON/OFF switch-indicator and
ENTER switch allowing at least
1 second between switches
Computer power should remain on.
PADS ON/OFF stays illuminated
2e. Press EXECUTE switch-
EXECUTE switch-indicator goes off.
Computer fault indicator DS1 is
white
indicator to off
2f. Press EXECUTE switch-indicator to on
EXECUTE switch-indicator lights.
Computer fault indicator DS1 is set
to white and then reset to black
2g. P r e s s E X E C U T E switch-
EXECUTE switch-indicator goes off
2h. Sequentially press PADS
ON/OPF switch-indicator and
ENTER switch to turn off power
to the computer
PADS ON/OPP switch-indicator goes
off
Computer power turns off. PADS
ON/OFF switch-indicator goes off:
Replace 1/0 discrete circuit card
assembly A9
Fault indicator DS1 does not set or
reset Replace computer fault
indicator DS1
indicator to off
PADS ON/OFF switch-indicator
remains on: Replace circuit cards
in sequence shown and reattempt
PADS ON/OFF indicator switch
test after each replacement I/O
discrete circuit card assembly A9
data buffer circuit card assembly
A6
NOTE
If operational tape is to be loaded for
core memory only, go to table 4-18
or 4-18.1. The solid state memory
already contains the operational
program therefore will not require a
reload. If a CDU or IMU test is to
be performed, go to table 4-11 or
4-14 (or 4-14.1), respectively. If
operational memory is to be installed,
proceed to step 2i.
2i. Set PS BATTERY and
VEHICLE circuit breakers CB1
and CB2 to OFF
Change 6
4-56.1/(4-56.2
blank)
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-7. Computer Testing and Troubleshooting - Continued
Test procedure
Normal indication
Malfunction
indication/corrective action
2j. Turn TTY printer MOTOR
switch to OFF
2k. Press SPU ON switch-indicator SPU ON switch-indicator goes off
to OFF
2l. Disconnect computer from
PADS test set
2m. Install operational memory, if
required. Refer to paragraph
3-15b
Change 6
4-57
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-8. TTY Printout of Computer Test
PADS CPU TEST, TYPE CHARACTER SET
QWERTUIOPASDFGHJKLZXCVRNM1234567890
CPU OP-CODE TEST PASS
MEMORY TEST PASS
CPU TEST PASS, LOAD NEXT TAPE SECTION
LOAD NEXT TAPE SECTION
PADS DIAGNOSTIC ALIGNMENT PROGRAM
or
PADS SOLID STATE DIAGNOSTIC ALIGNMENT PROGRAM
PROGRAM CHECKSUM XXXXXX
SELECT TEST MODE
CMPCMP
COMPUTER AUTOMATIC TEST MODE
PLATFORM IO FAIL
PLATFORM IO FAIL
STSSTS
NO ALIGNMENT ACTIVITY
PLATPORM IO FAIL
PLATFORM IO FAIL
PADS DIAGNOSTIC ALIGNMENT PROGRAM
PADS SOLID STATE DIAGNOSTICALIGNMENT PROGRAM
PROGRAM CHECKSUM XXXXXX
SELECT TEST MODE
CMPCMP
COMPUTER AUTOMATIC TEST MODE
5 TEST CYCLES PASS
6 TEST CYCLES PASS
7 TEST CYCLES PASS
8 TEST CYCLES PASS
9 TEST CYCLES PASS
10 TEST CYCLES PASS
11 TEST CYCLES PASS
DEPRESS OFF ENT (PADS POWER SHOULD REMAIN ON)
4-58
Change 6
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-9. PADS Diagnostic/Alignment Program Malfunction Words
Malfunction
Bit Location
GMALF
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
Not used
Program instruction/data checksum
Subroutine entrance checksum
IMU calibration data checksum
Variable data memory test
CDU instruction/register test
Output discrete word parity
A/D converter self test
Computer serial data bus
Platform 1/0 short loop test
CDU serial data bus/display register
Not used
Serial data bus long loop test (SPU)
Platform 1/0 long loop test (SPU)
1/0 discrete long loop test (SPU)
A/D converter long loop test (SPU)
GMALF + 1
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
IMU hardware no-go
Heading synchro rate test
Roll synchro rate test
Pitch synchro rate test
IMU temperature test
IMU discrete test
Alignment timing error
Alignment quality error
Synchro/accelerometer
Not used
Not used
Not used
Not used
Time out counter inoperative
Time out counter interrupt invalid
Computer over-temp at power dwn int
BOFAIL (OP CODE)
0
1
2
3
4
5
6
7
8
9
Or of following bits
LDA, STA, SUB, SKZ
CPY
LBP, SBP
LXB, SXB LXP, SXP, LXL
DLA, DSA, LAL
SNZ, TPA, TMA, TAL, TRR, TIX
DAD, DSB
MPY
DIV
4-59
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-9. PADS Diagnostic/Alignment Program Malfunction Words – Continued
Malfunction
Bit Location
10
11
12
13
14
15
AAL
A X L
DAC
ANA, ORA
DAL, DAR
NRM
BAFAIL (A/D SELF TEST)
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
Not used
TAN +2.5V out of tol
OVDC out of tol (±150 mV)
TAN +2.5V no update
OVDC no update
BAFAIL 1 (A/D LONG LOOP D/DC TEST)
0
1
3
4
5
6
7
8
9
10
11
12
13
14
15
D/DC channel no update (l-6)
DMA locations 77740,77741,77742,77744, 77745,
77746
D/DC channel out of tol (1-6)
Output test value that failed
Tol test (1-308) table (BDDCDT)
BAFAIL 2 (A/D LONG LOOP D/R, D/S TEST)
0
1
2
3
4-60
D/R, D/S channel no update (l-5)
DMA locations 1 = 77733, 1 ROLL Xl
2 = 77753,1 ROLL X8
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-9. PADS Diagnostic/Alignment Program Malfunction Words - Continued
Bit Location
4
5
6
7
8
9
10
11
12
13
14
15
Malfunction
3 =77713,1 HDG Xl
4 = 77723,1 HDG X32
5 = 77763,1 PITCH
D/R, D/S channel
out of tol (1 -5)
100 sample avg
O=O DEG
1=45
Angle that failed
2=90
100 sample avg (O-7)
3 = 135
D/R, D/S channel
out of tol (l-5)
Single angle conversion
4 = 180
5 = 225
6 = 270
7-315
Angle that failed
Single angle conversion (O-7)
BAFAIL 3 (A/D LONG LOOP CDU VLAMP)
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
DMA location 77746 no update
Dimming code out of tol
(6-178)
BDF AIL (DISCRETE LONG LOOP TEST)
0
1
2
3
4
5
6
7
8
9
10
IMU ready
Accelerometer coarse heater on
Gyro coarse heater on
Gyro float to temperature
IMU spare 1
IMU spare 2
4-61
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-9. PADS Diagnostic/Alignment Program Malfunction Words - Continued
Bit Location
11
12
13
14
15
Malfunction
IMU spare 3
BDFAIL 1 (DISCRETE LONG LOOP TEST)
(OUTPUT LINE FAILED “0” or “1”)
o
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
Not used
Not used
Not used
IMU flag set (to IMU)
CDU flag set
IMU flag reset
CDU flag reset
X, Y gyro fast slew
Not used
Z gyro fast slew
BDFAIL 2 (DISCRETE LONG LOOP TEST)
(OUTPUT LINE FAILED “0” or “1”)
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
4-62
POR to CDU (Power on Reset)
Charge to CDU
Batt to CDU
Computer Flag Set (to CDU)
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-9. PADS Diagnostic/Alignment Program Malfunction Words – Continued
Malfunction
Bit Location
BDFAIL 3 (DISCRETE LONG LOOP TEST)
(OUTPUT LINE FAILED “O” or “l”)
o
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
IMU Flag Set (to CDU)
+5 VDC
115 VAC
+24 VDC
BUFAIL (CDU TEST)
o
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
Serial data bus busy too long G.T. 90 usec
SDB parity error – short loop
SDB data error – short loop
SDB parity error CDU to computer
SDB parity error computer to CDU (ADR)
SDB parity error computer to CDU (data)
SDB long loop data error (KYBD word)
Display Reg. 1 contents incorrect
2
3
4
5
6
7
8
BUFT (SDB LONG LOOP TEST – SPU)
0
1
2
3
4
5
6
7
8
SDB busy too long G.T. 90 usec
SDB parity error – short loop
SDB data error – short loop
SDB parity error computer to SPU
SDB parity error SPU to computer
SDB data error – long loop
SDB parity error discrete L.C.
SDB parity error D/R, D/S L.C.
SDB parity error D/DC L.C.
4-63
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-9. PADS Diagnostic/Alignment Program Malfunction Words - Continued
Bit Location
Malfunction
9
10
11
12
13
14
15
BPFAIL (PLAT I/O TEST)
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
Test incomplete at IMU ready
DVZ fail to count (inactive)
DVY fail to count (inactive)
DVX fail to count (inactive)
DVZ fail to reset on read
DVY fail to reset on read
DVX fail to reset on read
DWZ 3 MSB count down error
DWY 3 MSB count down error
DWX 3 MSB count down error
DVZ count up/down error
DVY count up/down error
DVX count up/down error
DWZ/DVZ error long loop – SPU
DWY/DVY error long loop – SPU
DWX/DVX error long loop – SPU
BIFAIL T (IMU TEMPERATURE TEST)
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
4-64
Ambient temp. time between 110°, 120° G.T. 1.5 min
Ambient too low LT 30° at 5 min or LT 120° at 20 min
Ambient too high GT 126° at 20 min
Ambient overheat was below 126° now GT 140°
Upper gyro temp too low LT 150°
Upper gyro temp too high GT 160°
Lower gyro temp too low LT 150°
Lower gyro temp too high GT 160°
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-9. PALIS Diagnostic/Alignment Program Malfunction Words - Continued
Bit Location
Malfunction
BIFAIL D (IMU DISCRETE TEST)
o
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
IMU not ready at 4 min
Gyro float not to temp at 14 min
Gyro coarse htr on at 14 min
Accel coarse htr on at 14 min
AV clock not present
NOTE: No 9 MAL or 10 MAL used.
BIFAIL S (IMU SYNCHRO/ACCEL TEST)
o
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
X interpolate saturated ±10 VDC
Y interpolate saturated ±10 VDC
Z interpolate saturated ±10 VDC
4-65
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-10. Computer Automatic Test Mode Malfunction Teletypewriter Messages
Teletypewriter malfunction message
Corrective action
NOTE
Absence of XXX TEST CYCLES PASS
message at approximately 2-minute intervals
or CPU OP-CODE TEST FAIL
MEMORY TEST FAIL
PRIORITY INTERRUPT TEST FAIL
SERVICE INTERRUPT TEST FAIL
DISCRETE I/O TEST FAIL
PLATFORM I/O TEST FAIL
4-66
Change 1
Replace cards in sequence given
16-bit data circuit card assembly A2
Control no. 2 circuit card assembly A4
Control no. 3 circuit card assembly A5
Control no. 1 circuit card assembly A3
Memory unit Al
Reseat memory unit Al and check wedgelocks
for tightness
Memory unit Al
16-bit data circuit card assembly A2
Control no. 2 circuit card assembly A4
Control no. 3 circuit card assembly AS
I/O controller card assembly A7
Data buffer circuit card assembly A6
I/O controller card assembly A7
Data buffer circuit card assembly A6
I/O discrete circuit card assembly A9
Control no. 3 circuit card assembly A5
I/O controller card assembly A7
Data buffer circuit card assembly A6
Control no. 3 circuit card assembly ASI
I/O discrete circuit card assembly A9
Data buffer circuit card assembly A6
I/O controller card assembly A7
Computer power supply PS1
Platform I/O circuit card assembly A8
ARMY TM 5-6675-308-34
MARINE CORPS- TM 08837A-34/2
Table 4-10. Computer Automatic Test Mode Malfunction Teletypewriter Massages – Continued
Teletypewriter malfunction message
Corrective action
Data buffer circuit card assembly A6
I/O controller card assembly A7
SERIAL DATA I/O TEST FAIL
Data buffer circuit card assembly A6
I/O controller card assembly A7
ANALOG DATA I/O TEST FAIL
A/D converter circuit card assembly A11
I/O controller card assembly A7
Data buffer circuit card assembly A6
Control no. 3 circuit card assembly A5
4-10. CDU Testing and Troubleshooting.
a. Test Equipment and Materials.
(1) PADS test set consisting of the signal procestor unit (SPU), punched tape reader (tape reader), buffer
unit, interconnecting cables, and auxiliary equipment.
(2) Teletypewriter. The 100-wpm motor-worm
gear must be installed prior to use. Refer to TM 115815-200-12.
(3) PADS power supply, computer, pallet frame,
and battery box.
(4) + 28V power source,
b. Procedure. Shown in figure 4-4 is a schematic
diagram of the CDU chassis. A test setup interconnection diagram is shown in figure 4-5. Testing and troubleshooting procedures are provided in table 4-11.
Figure 4-6 relates the button position on the keyboard
to the wiring harness connectors for troubleshooting
malfunctioning keys. Table 4-12 contains a sample TTY
printout for the CDU test, Refer to table 4-13 for CDU
automatic test mode malfunctions.
4-67
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 4-4. CDL) Chassis Schematic Diagram
4-68
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 4-5. CDU Testing and Troubleshooting Interconnection Diagram
4-69
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 4-6. Keyboard lnterconnection
4-70
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-11. CDU Testing and Troubleshooting
Test procedure
Normal indication
Malfunction
indication/corrective action
Before taking any corrective action or conducting any repairs, make certain that PS BATTERY and VEHICLE
circuit breakers CB1 and CB2 are in OFF positions or damage to the equipment may result.
NOTE
The Test Procedure column contains the test operation to be performed. The Normal Indication column contains
the desired test set or teletype response to the test operation. The malfunction indication(s) and corrective action(s)
are listed in the third column.
All switches, switch-indicators, and indicators called out in the procedure are located on the SPU, unless otherwise
indicated.
To change a CDU card assembly, perform the following in order given:
a. Press EXECUTE switch-indicator to off
b. Press ON/OFF and ENTER switch-indicators
c. Set PS BATTERY and VEHICLE circuit breakers CB1 and CB2 to OFF
d. Change card assembly. (Refer to paragraph 3-17a)
e. Set BATTERY and VEHICLE circuit breakers CB1 and CB2 to ON
f. Press PADS ON/OFF switch-indicator to ON
g. Repeat the test
Check that tape reels are not deformed and that tape runs smoothly through tape reader head.
1. TEST SETUP
1a. Check that the diagnostic alignment or solid state program is
loaded into computer memory
and that the computer is functional in accordance with table
4-6, 4-6.1, 4-6.2, or 4-6.3
lb. If EXECUTE switch-indicator is
lighted press it to off
Change 6
4-71
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-11. CDU Testing and Troubleshooting - Continued
Test procedure
4-72
Normal indication
Malfunction
indication/correctiw action
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-11. CDU Testing and Troubleshooting – Continued
Test procedure
Cable
—
Unit
—
W203P2
Tape Reader J1
W212P1
SPU 20J 12
W212
TTY
W201P1
SPU 20J 1
W201P2
115VAC
TTY
Power
115VAC
WIP1
CDU 4J1
W1P2
Computer 1J3
Normal indication
Malfunction
indication/corrective action
lh Check that W4P 1 is not connected
to IMU connector 2J3
1i. Press SPU ON switch-indicator to
on
lj. Set TTY printer MOTOR switch
to ON
lk. Turn on +28V power source and
set PS BATTERY and VEHICLE
circuit breakers CB1 and CB2 to
ON
2.
CDU TEST
2a. Press CDU ON/OFF switch
PS fan activates
Various CDU indicators may light
PS fan does not turn on: Check that
system properly connected and
power and battery and VEHICLE
circuit breakers CB1 and CB2 are
ON
Check cable W 1 and continuity
between Jl-12and Pl-2and Pi-10,
and J1-23 and P1-16
Repair as required
If wiring is good, replace front panel
assembly
4-73
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-11. CDU Testing and Troubleshooting — Continued
2b. Press EXECUTE switch-indicator to on
Malfunction
indication/corrective action
Normal indication
Test procedure
EXECUTE switch-indicator lights
TTY prints out: (For core memory
only)
PADS DIAGNOSTIC
MENT PROCRAM
ALIGN-
PROGRAM CHECKSUM XXXXXX
SELECT TEST MODE
2b-1. For solid state memory press TTY prints out:
CDU keys SPH 800 ENT’
PADS SOLID STATE DIAGNOSTIC ALIGNMENT PROCRAM
PROCRAM CHECKSUM Xxxxxx
SELECT TEST MODE
2c. Compare printed checksum to Checksums are equal
checksum written on either the
front of the diagnostic-alignment
tape or solid state program tape
2d. Type TTY character set CDU
(selects CDU automatic test
model)
TTY prints out:
CDU
CDU AUTOMATIC TEST
Checksum is incorrect
See step 3j of table 4-6 or step 3k of
table 4-6.1
From this step to completion of test,
a TTY CDU failure message listed
in table 4-13 may occur, Perform
corrective action specified in table
4-13
MODE
No CDU display
CDU numeric displays 0 thru 9 at
2-second intervals. Alha module
, +, and x
displays alternately
Replace cards in sequence given:
Keyboard and control circuit card
assembly A3
Display logic circuit card assembly
Al
Display logic circuit card assembly
A2
Before proceeding, check that TTY
has printed XXX CYCLES PASS.
2e. Press CDU LAMP button and
release within 2 seconds, Repeat
if necessary to observe indicators
CDU numeric module displays all No change in display function:
8’s
Check wire harness continuity from
P1
Alpha module displays . All display indicators are lighted
Replace front panel assembly
All lamps do not light
Replace defective lamps
4-74
Change 5
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-11. CDU Testing and Troubleshooting — Continued
Test procedure
Normal indication
Malfunction
indication/corrective action
Check continuity between lamp
sockets and applicable pins of
XA01 and XA02. Repair as required
Change 1
4-74.1/(4-74.2 blank)
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-11. CDU Testing and Troubleshooting – Continued
Test procedure
Normal indication
2f. Press each CDU button and
observe TTY printout
TTY printout corresponds to pushbutton pressed
Example: CDU KEY DIST
Malfunction
indication/corrective action
No or incorrect TTY printout:
Replace keyboard and control
circuit card assembly A3; check
wire harness continuity from P 1;
replace front panel assembly
Measure voltage between K1-X1
(+lead) and KI-X2 (-lead). If
greater than +20V: Check C 1;
replace K1. If less than +20V:
Check CR1; check continuity
between K1-XI and J1-39 and
K1 -X2 and XA01 -77; replace
display logic circuit card A 1
Pushbutton backlight does not light
at full bright intensity: Set display
intensity to full bright and measure
voltage between P1 -20 and PI -21
If greater than 105 VAC, replace
front panel assembly. If less than
105 VAC, measure voltage between
K1-X1 (+lead) and KI-X2 (-lead).
If greater than +20V, replace
display logic circuit card Al. If
less than +20V, check:
Kl; R1; continuity between J 1-35
and P1-21, E017 and P1-20, and
J1-20 and K1-B2. Repair as
necessary
NOTE
NOTE
comes out HA on TTY. “TAZ” CDU LAMP will not print out.
does not print. “OFF” does not print.
2g. Press CDU LAMP button and
hold. Release LAMP pushbutton
control to hold desired display
brightness level
Same as step 2e for first 2 seconds.
Display then blacks out and slowly
increases in intensity in 9 steps
(approximately 1 see/step)
Intensity does not vary:
Replace computer power supply
Audible alarm does not sound:
Measure voltage between EO 15
(+lead) and E014 (-lead). If it is
about +5V momentarily during
each intensity cycle, replace
audible alarm. If not, check continuity between EO 14 and XA02-77
and E015 and J1-10. Repair as
required. Replace display logic
circuit card A2
4-75
ARMY TM 5-6675-308-34
MARINE C0RPS TM 08837A-34/2
Table 4-11. CDU Testing and Troubleshooting – Continued
Test procedure
Normal indication
ALARM DS3 sounds for 1/2 second.
The cycle repeats as long as LAMP
pushbutton is held -
Malfunction
indication/corrective action
ALARM DS3 sounds continuously:
Check for shorts between E014 and
and ground
Replace display logic circuit card A2
2h. Press EXECUTE switch-indicator
to off
EXECUTE “switch-indicator goes off
2i. Sequentially press CDU ON/OFF
switch-indicator and ENTER
switch
PS fan goes off
2j. Turn off PS BATTERY and
VEHICLE circuit breakers CB1
and CB2
2k. Turn off TTY
2l. Press SPU ON switch-indicator to
off
2m. Disconnect CDU from computer
TEST COMPLETED
4-76
SPU ON switch-indicator goes off
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-12. TTY Printout of CDU Test
PADS DIAGNOSTIC ALIGNMENT PROGRAM
or
PADS SOLID STATE DIAGNOSTIC ALIGNMENT PROGRAM
PROGRAM CHECKSUM XXXXXX
SELECT TEST MODE
CDUCDU
CDU AUTOMATIC TEST MODE
16
TEST CYCLES PASS
CDU KEY STOP
CDU KEY MARK
CDU
CDU
CDU
CDU
CDU
CDU
CDU
CDU
CDU
CDU
KEY
KEY
KEY
KEY
UPDT
ON/
MON
ADZ
KEY
KEY
KEY
KEY
KEY
KEY
SPH
TIME
ID
DIST
HA
E
CDU KEY N
CDU KEY EL
CDU KEY GAZ/
CDU KEY 1
CDU KEY 4
CDU KEY 7
CDU KEY CLR
CDU KEY 2
CDU KEY 5
CDU KEY 8
CDU KEY 0
CDU KEY 3
CDU KEY 6
CDU KEY 9
CDU KEY ENT
TEST CYCLES PASS
30
47
TEST CYCLES PASS
TEST CYCLES PASS
65
Table 4-13. CDU Automatic Test Mode Malfunction Teletypewriter Messages
Teletypewriter malfunction message
Corrective action
NOTE
Replace cards in sequence given
CDU SERIAL DATA FAIL
Keyboard and control circuit card assembly A3
Display logic circuit card assembly A1
Display logic circuit card assembly A2
CDU DISPLAY A FAIL
Display logic circuit card assembly A1
Display logic circuit card assembly A2
Keyboard and control circuit card assembly A3
CDU DISPLAY B FAIL
Display logic circuit card assembly A2
Display logic circuit card assembly A1
Keyboard and control circuit card assembly A3
Change 5
4-77
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
4-11. IMU Testing, Alignment, Troubleshooting, and
Memory Matching Procedure.
(3) Press + 2 twice to get to ID 32. Record the
elevation in feet.
a. General. The IMU test and alignment procedure
is a lengthy (about 8 hours) test sequence which thoroughly checks out the IMU and recomputes many of
the software calibration parameters if no hardware
malfunctions are found. Most of the testing is performed automatically under computer control. The
maintenance technician is required to reposition the
system and measure angles with a theodolite to calibrate the porro prism. Care must be taken to site the
system so it remains motionless during the test and is
properly oriented. The system must be provided with
survey coordinates so it can properly compute the
calibration constants. The computer memory used for
the test becomes matched to the IMU.
(4) To obtain the geodetic (true) azimuth for a
grid azimuth:
b. Test Equipment and Materials.
(1) PADS test set consisting of the signal processor unit (SPU), punched tape reader (tape reader), buffer
unit, interconnecting cables and auxiliary equipment.
(2) Teletypewriter. The 100-wpm motor-worm
gear must be installed prior to use. Refer to TM 115815-200-12.
(3) PADS power supply, computer, pallet frame,
batter box, and CDU.
(4) +28V power source.
c. Survey Requirements. The survey parameters for
a test site will be provided by an engineer survey unit.
The parameters required are:
(1) Latitude, in degrees, minutes, and seconds,
accurate to 5 arc-seconds.
(2) Elevation, in feet, accurate to 30 feet.
(3) Geodetic azimuth, in roils, accurate to 0.02
roil.
d. The azimuth orienting line must be located so
the maintenance technician’s theodolite is between 6
and 16 meters from the IMU porro prism and the
technician can autoreflect on the porro prism. The
porro prism will be oriented approximately 45 degrees
to the cardinal headings. (See figure 4-9.)
e. If only UTM coordinates, elevation in meters,
and/or grid azimuth are available, the system can be
used to translate them to the proper quantities as
follows:
(1)
(2)
4-78
With the operational program installed in
memory, perform the test shown in table 3-1.
Use the correct values for casting, northing,
and elevation.
After elevation is entered, press: MON, ID,
3,0, ENT. Record the displayed latitude in
degrees, minutes, and seconds.
Change 5
(a) Press GAZ/TAZ. Record GAZ.
(h) Press G A Z / T A Z again. Display will show
TAZ C-E.
(c) Press ENT. Record TAZ.
(d) Subtract GAZ from TAZ.
(e) Add the grid azimuth of the orienting line
to the difference to obtain the geodetic
azimuth.
Example:
TAZ
GAZ
Orienting line grid
azimuth
Geodetic (true)
azimuth of
orienting line
3902.61
-3903.15
-0.54
+ 1245.23
1244.69
f. Siting. The system must be on a level, stable
surface which will not move during the test. Surfaces
which are unacceptable include: maintenance van floor
or workbench, wooden floors, mud, snow, ice, loosely
packed sand, slippery clay, etc. Acceptable surfaces
include: concrete, dry packed earth, etc. Hot blacktop
may allow the system to sink slightly. Distribute the
load on blacktop and surfaces such as packed sand and
gravel by placing the system on the base of a transit
case or a four foot square of 3/4-inch-thick plywood or
similar material. The surface must be smooth enough so
the system does not rock. A surface which can be
constructed to permit drainage of rainwater is shown in
figure 4-7. Pack the gravel to provide a firm base. Use
sand to fill the gravel voids and provide a smooth level
surface.
g. Normally, the alignment surface will be outside
a maintenance van. It must be close enough so the
cables from the test equipment will reach the system
while the test equipment remains in the van. The
alignment surface must be situated so the porro prism
can be observed from the orienting line (refer to paragraph 4-11c.).
h. Test Procedure. Perform the test in accordance
with table 4-14 or 4-14.1. Table 4-14 uses PADS test set
tape reader, part no. 877406-1 and table 4-14.1 uses
tape reader, part no, 877406-2. Table 4-15 is a sample
printout from an IMU test. An interconnection diagram
is provided in figure 4-8.
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 4-7. Alignment Surface
4-79
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
4-80
Figure 4-8.
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
NOTE:
1.
LOCATE PADS 6 TO 16 METERS FROM SURVEY CONTROL POINT
2.
OR lENT PADS SO THAT PORRO PRISM FACES 45° (±10°) TO ANY CARDINAL HEADING
3.
ADJUST PADS ORIENTATION FOR PROPER AUTOREFLECTION FROM THE THEODOLITE
44-902-16C
Figure 4-9. Angle Measurement
Change 6
4-81
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-14. IMU Testing r Alignment, and Troubleshooting
Test procedure
Normal indication
Malfunction
indication/corrective
action
NOTE
This procedure uses tape reader, part no. 877406-1.
The Test Procedure column contains the test operation to be performed. The Normal Indication column contains
the desired test set or teletype response to the test operation. Malfunction indication(s) and corrective action(s) are
listed in the third column.
All switches, switch-indicators, and indicators called out in the procedure are located on the SPU, unless otherwise
indicated.
The memory unit installed in the computer must be the one which is to be dedicated to the IMU being calibrated.
If the memory unit is used for other testing after the alignment is completed, the calibration data will be destroyed
and the IMU must be realigned.
Check that tape reels are not deformed and that tape runs smoothly through tape reader head.
1. TEST SETUP
NOTE
Steps 1a thru 1u may be performed
with the PADS on the workbench or
on the alignment surface, depending
on the previous setup.
1a. Check that the diagnostic alignment program is loaded into
computer memory and that the
computer is functional in accordance with table 4-6 or 4-6.2
1b. Check that the equipment is
connected for computer testing
in accordance with figure 4-3
1c. Check that EXECUTE switchindicator is lighted. Press it as
required
1d. Check that TTY printer MOTOR switch is set to ON
1e. Check that + 28V power source
and PS BATTERY and VEHICLE circuit breakers CB1 and
CB2 are ON
1f. Check that PADS ON/OFF
switch-indicator ON is lighted.
Press it as required
1g. Press EXECUTE switch-indicator to off
1h. Check that tape reader SPOOLING switch is set to DISABLE
4-82
Change 6
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-14. IMU Testing, Alignment, and Troubleshooting – Continued
Malfunction
Test procedure
Normal indication
indication/corrective action
1i. Install IMU alignment data tape, for IMU
being tested, on tape reader. Tape is
located in storage container on IMU connector 2J2. Be careful not to tangle the
coiled tape
1j. Set tape reader SPOOLING switch to
ENABLE
1k. Press MEMORY LOAD switch-indicator to
on
MEMORY LOAD switchindicator lights. Tape reader
reads tape and stops at end
of tape
Tape stops in middle or does not stop
at end: Rewind tape and reload.
Make sure tension is applied to the
front of the tape to ensure the sprocket
wheel is properly engaged
1l. Press MEMORY LOAD switch-indicator
to off
MEMORY LOAD switchindicator goes off
1m. Press REVERSE switch-indicator to on
REVERSE switch-indicator
lights. Tape rewinds and stops
near beginning
1n. Press REVERSE switch-indicator to off
REVERSE switch-indicator
goes off
1o. Press VERIFY switch-indicator to check
tape against memory contents
VERIFY switch-indicator
lights. Tape reader reads
tape and stops at end of tape
Tape does not stop at end: Rewind tape
and verify
Tape stops before end and VERIFY
ERROR indicator lights: Rewind
tape, reload and verify
1p. Press VERIFY switch-indicator to off
VERIFY switch-indicator goes
off
1q. Set tape reader SPOOLING switch to
DISABLE
lr. Remove tape from tape reader and store in
container on IMU connector 2J2
1s. Press PADS ON/OFF switch-indicator, then
ENTER
PADS ON/OFF switch-indicator
goes off
PADS turn off
1t. Set PS BATTERY and VEHICLE circuit
breakers CB1 and CB2 to OFF. Set TTY
MOTOR switch to OFF
lu. Press SPU ON switch-inidcator to OFF
SPU ON switch-indicator goes
off
4-83
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-14. IMU Testing, Alignment, and Troubleshooting – Continued
Test procedure
The fully loaded primary pallet weight exceeds
the two person lift criteria.
The weight may be reduced by removing the
power supply while the pallet is being moved.
NOTE
Leaving CDU connected in lieu of SPU,
enter SPH 800 to communicate with printer.
1v. If the system is not on the alignment surface, disconnect the test equipment and
place the system on the alignment surface.
The porro prism should point 45 (±10)
degrees to any cardinal heading (Refer
to paragraphs 4-11c and 4-11d)
1w. Install the IMU in the primary pallet frame
1x. Connect equipment as shown in figure 4-8
and the following checklist
Unit
Cable
W5P1
IMU 2J4
W5P2
PS 3J1
W5P3
IMU 2J5
W5P4
Computer Fan 5J1
W3P1
PS 3J5
W3P2
Computer PS 1J4
W6
Battery BOX
W6P1
PS 3J2
W211
+28V
W211
PS 3J4
W210P1
Computer 1J2
W210P2
Buffer Unit 21J2
4-84
Change 5
Normal indication
Malfunction
indication/corrective action
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-14. IMU Testing, Alignment, and Troubleshooting — continued
Test procedure
Cable
W205P1
W205P2
Unit
SPU 20J5
Buffer Unit 21J1
W209P1
W209P2
SPU 20J9
Computer 1J3
W203P1
SPU 20J3
Tape Reader J1
W203P2
W212
W212P1
SPU 20J12
W201P1
W201P2
SPU 20J1
115 VAC
TTY Power
W4P1
W4P2
W2P1
115 VAC
IMU 2J3
PS 3J3
IMU 2J1
W2P2
Computer lJ1
Normal indication
Malfunction
indication/corrective action
ly. Press SPU ON switch-indicator SPU ON switch-indicator lights
to on
1Z. Set TTY printer MOTOR switch
to ON
1aa. Turn on + 28V power source
and set PS BATTERYand VEHICLE circuit breakers CB1
and CB2 to ON
lab. Press PADS ON/OFF switchindicator to on
PADS turns on
2. IMU TEST AND ALIGNMENT
NOTE
The IMU test program requires entry of data via the TTY. Data definitions and formats are shown in table
4-16. Operator commands to check
test status and halt or initiate various printouts are also given.
Use of the theodolite to measure
horizontal angles is described in
chapter 5.
2a. Press EXECUTE switch-indicator to on
EXECUTE switch-indicator lights
TTY prints out:
Change 1
4-85
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-14. IMU Testing, Alignment, and Troubleshooting – Continued
Test procedure
Normal indication
Malfunction
indication/corrective action
PADS DIAGNOSTIC ALIGNMENT PROGRAM or
PADS SOLID STATE DIAGNOSTIC ALIGNMENT PROGRAM
PROGRAM CHECKSUM XXXXXX
SELECT TEST MODE
2b. Compare printed checksum Checksums are equal
written on the front of the diagnostic-alignment tape or solid
state program tape
2c. Type IMU to select IMU auto- TTY prints out:
matic alignment and test se- IMU
quence
SER NO XXXXX DATE XXXXX
CHECKSUM XXXXXX
Checksum is incorrect: Refer to step
3k of table 4-6 or step 2U of
table 4-6.2
NOTE
From this step forward, the TTY
may print out any of the malfunction
messages listed in table 4-17. Take
the corrective action shown in table
4-17.
MOVE IMU TO APPROX 45 DEG
HEADING
WHEN DONE TYPE: RDY
Data
matches
2d. Verify that the printed serial
Reload IMU alignment data tape
number matches the serial number of the IMU under test and
the checksum matches the
checksum on the IMU alignment
data tape
2e. Type RDY when 45° (±10 o) TTY prints out:
NOTE
heading request has been comThe program will accept all data on
pleted
one line, thus if the operator makes
a mistake prior to typing RDY while
entering data via the ‘M’Y, he should
hit the carriage return key and reenter the data. If the diagnostic program does not recognize the entry as
valid, the TTY prints out: IMPROPER DATA ENTRY. The operator should reenter the data.
4-86
Change 6
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-14. IMU Testing, Alignment, and Troubleshooting – Continued
Test procedure
Normal indication
Malfunction
indication/corrective action
NOTE
TEST NUMBER X IN PROGRESS
000000. 000000 will print out periDo not move PADS again until in- odically during test to indicate the
structed to do so.
start of a subtest. The time since
start may also be printed.
If a failure occurs, the number will
be nonzero and IMU, CMP, or PSU
FAILURE will print. A set of failure.
subcodes will then be printed which
provide useful information for depot
repair of the IMU and computer.
Replace or repair the computer or
power supply as appropriate. Return
a failed IMU to depot with a copy of
the TTY printout.
NOTE
2f. Type XXX XX XX.X RDY for TTY prints out:
degrees, minutes, and seconds of RDY
latitude. Leave a space between
ENTER ELEVATION: (FT) RDY
each numerical grouping
2g. Type XXX.X RDY for correct TTY prints out:
elevation in feet
RDY
ENTER DATE: (JULIAN) RDY
2h. Type XXXX RDY for correct TTY prints out:
Julian data
RDY
ENTER SER NO: (DIGITS) RDY
2i. Type correct IMU serial number TTY prints out:
in format XXXX RDY
RDY
NOTE
The theodolite is always required for
IMU calibration. If a hard IMU failure is suspected, the theodolite is
not required for diagnosis.
ALIGNMENT PROCEEDING
IF THEODOLITE WILL NOT BE
USED, TYPE: BYP
TTY prints out:
SERIAL NO INCORRECT:
Load correct IMU alignment data
tape
2j. Type BYP if theodolite will not TTY prints out:
be used
BYP
NOTE
There are 10 subtests, but one or more will be deleted depending on the use of the theodolite.
At the end of a subtest, data may be printed out. The message AT LEAST ONE OUT-OF-CAL IN TEST
NUMBER X means an out-of-tolerance parameter was recalibrated. It is not a failure message and no operator
action is required.
Change 5
4-87
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-14. IMU Testing, Alignment, and Troubleshooting – Continued
Test procedure
Normal indication
2k. If the theodolite is to be used,
set it up to autoreflect on the
porro prism and measure the
horizontal angle from the target
to the porro prism as shown in
figure 4-9. Refer to chapter 5 for
operation of theodolite. If theodolite is not used, go to step 2s
at completion of test (approximately 8 hours)
In approximately 45 minutes, TTY
prints:
Malfunction
indication/corrective action
THEODOLITE TEST
(TO ABORT AT ANY TIME TYPE:
MOVE IMU TO 0 DEGREES
PITCH 0 DECREES ROLL
WHEN DONE TYPE: RDY
ALIGNMENT HALTED
2l. Move primary pallet to 0 degrees pitch and 0 degrees roll
2m. Remove porro prism cover and
level porro prism. Verify theodolite can autoreflect on porro
prism
Autoreflection achieved
Theodolite does not autoreflect: Adjust primary pallet orientation until autoreflection achieved
2n. Type RDY
TTY prints out:
TTY prints out:
RDY
RDY
ENTER THEODOLITE READING: (MILS) RDY
X.XX DEGREES PITCH
ALIGNMENT HALTED
ATTITUDE: NOT WITHIN 2 DECREES OF REQUESTED
X.XX DEGREES ROLL
MOVE IMU TO X DEGREES
PITCH X DECREES ROLL
WHEN DONE TYPE: RDY
ALIGNMENT HALTED
Repeat steps 2l and 2m adjusting
pitch and roll as necessary
2o. Measure horizontal angle from
the target to the porro prism.
(Refer to chapter 5)
2p. Enter horizontal angle in format TTY prints:
XXXX.XX RDY
RDY
XXX.XXXX DECREES PITCH 10SEC AV
XXX.XXXX DECREES ROLL 10SEC AV
XXX.XXXX DECREES AZ 10-SEC
AV
MOVE IMU TO X DEGREES
PITCH X DECREES ROLL
WHEN DONE TYPE: RDY
4-88
Change 5
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-14. IMU Testing, Alignment, and Troubleshooting — Continued
Test procedure
Normal indication
Malfunction
indication/corrective action
ALIGNMENT HALTED
Change 1
4-89
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-14. IMU Testing, Alignment, anti Troubleshooting — Continued
Test procedure
Normal indication
Malfunction
indication/corrective action
Ensure IMU is oriented to 45 ±10
degrees to any cardinal heading and
the azimuth is correct. Type RDY.
TTY will request a new measurement of the last horizontal angle
followed by azimuth entry
TTY prints:
TYPE ONE OF: ACC REP BYP
ALIGNMENT HALTED:
Type REP and repeat theodolite
test. If test fails a second time,
replace the porro prism assembly
TTY prints:
NOTE
A complete table of calibration parameters, including the cal data
checksum, will print during subtest
10. A failure table will print after
test 10 results. OK means the parameter was within tolerance; OOC
means the parameter was out of tolerance but has been recalibrated;
FAIL means the parameter was out
of tolerance and must be corrected
at the depot level.
At end of test, TTY prints:
ALIGNMENT
ooOOOoooOOOo
4-90
COMPLETED
Press EXECUTE switch-indicator to off
EXECUTE switch-indicator goes off
Sequentially press PADS ON/
OFF switch-indicator and ENTER switch
PADS ON/OFF switch-indicator
goes off
Change 5
System shuts down
THEODOLITE READING INCONSISTENT
TYPE ONE OF: REP,BYP
Before using the theodolite readings
to calculate the porro prism calibration constants, several feasibility checks will be run on the readings. If one or more readings were
in error, these checks will detect
an inconsistency and give the operator the option of repeating the
readings or bypassing the test. If
an inconsistency is detected for
three consecutive sets of readings,
the system will assume that PADS
is in error and will print out an
IMU failure. Return I MU to depot
if any lines 1020 thru 1025 indicate a failure. If only line 101 or
102 indicates a failure, replace the
porro prism assembly. Return
IMU to depot if following test 9,
TTY prints: NEED DEPOT CAL
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-14. IMU Testing, Alignment, and Troubleshooting - Continued
Test procedure
2u.
Normal indication
Malfunction
indication/corrective action
Set PS BATTERY and
VEHICLE circuit breakers CB1
and CB2 to OFF
2v. Set TTY printer MOTOR
switch to OFF
2w. Press SPU ON switch-indicator SPU ON switch-indicator goes off
to off
2x. Disconnect equipment
2y. Record IMU alignment checksum, date of alignment, and
IMU serial number and store in
IMU tape compartment
2z. Remove and save IMU alignment TTY printout
2aa. Proceed to paragraph 4-12
TEST COMPLETED
Change 7
4-90.1
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-14.1 IMU Testing, Alignment, and Troubleshooting Using Tape Reader, Part No. 877406-2
Test procedure
Normal indication
Malfunction
indication/corrective action
NOTE
The Test Procedure column contains the test operation to be performed. The Normal Indication column contains
the desired test set or teletype response to the test operation. Malfunction indication(s) and corrective action(s) are
listed in the third column.
All switches, switch-indicators, and indicators called out in the procedure are located on the SPU, unless otherwise
indicated.
The memory unit installed in the computer must be the one which is to be dedicated to the IMU being calibrated.
If the memory unit is used for other testing after the alignment is completed, the calibration data will be destroyed
and the IMU must be realigned.
Check that tape reels are not deformed and that tape runs smoothly through tape reader head.
1. TEST SETUP
NOTE
Steps la thru lU may be performed
with PADS on the workbench or the
alignment surface, depending on the
previous setup.
la. Check that the diagnostic alignment program is loaded into
computer memory and that the
computer is functional in accordance with table 4-6.1 or 4-6.3
1b. Check that the equipment is
connected for computer testing
in accordance with figure 4-3
lc. Check that EXECUTE switchindicator is lighted. Press it as
required
1d. Check that TTY printer MOTOR switch is set to ON
1e. Check that + 28V power source
and PS BATTERY and VEH1CLE circuit breakers CB1 and
CB2 are ON
lf. Check that PADS ON/OFF
switch-indicator ON is lighted.
Press it as required
1g. Press EXECUTE switch-indicator to off
1h. Set tape reader SPL/LOOP
switch to LOOP and FAST/
SLOW switch to SLOW
4-90.2
Change 7
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-14.1. IMU Testing, Alignment, and Troubleshooting Using Tape
Reader, Part No. 877406-2 - Continued
Test procedure
1i. Lift tape reader read head cover;
install IMU alignment data tape,
for IMU being tested, on tape
reader. Tape is located in storage container on IMU connector
2J2. Be careful not to tangle the
coiled tape. Gently lower read
head cover
Normal indication
Malfunction
indication/corrective action
No. 10 LED indicator lights steady
1j. Ensure that tape reader FAST/
SLOW switch is set to SLOW
1k. Press MEMORY LOAD switchindicator to on
MEMORY LOAD switch-indicator
lights. Tape reader reads tape and
stops at end of tape
1l. Press MEMORY LOAD switchindicator to off
MEMORY LOAD switch-indicator
goes off
Tape stops in middle or does not stop
at end Rewind tape and reload.
Make sure tension is applied to
the front of the tape to ensure the
sprocket wheel is properly engaged
1m. Deleted
1n. Press REVERSE switchindicator to on
REVERSE switch-indicator lights.
Tape rewinds and stops near
beginning
1o. Press REVERSE switchindicator to off
1p. Press VERIFY switch-indicator
to check tape against memory
contents
REVERSE switch-indicator goes off
1q. Press VERIFY switch-indicator
to off
VERIFY switch-indicator lights. Tape
reader reads tape and stops at end
of tape
Tape does not stop at end: Rewind
tape and verify
Tape stops before end and VERIFY
ERROR indicator lights: Rewind
tape, reload and verify
VERIFY switch-indicator goes off
1r. Lift tape reader read head cover
and remove tape from tape
reader and store in container on
IMU connector 2J2
1s. Press PADS ON/OFF switchindicator, then ENTER
PADS ON/OFF switch-indicator goes
off
PADS turn off
1t. Set PS BATTERY and VEHICLE circuit breakers CB1 and
CB2 to OFF. Set TTY MOTOR
Switch to OFF
Press SPU ON switch-indicator
to OFF
SPU ON switch-indicator goes off
Change 7
4-90.3
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-14.1 IMU Testing. Alignment. and Troubleshooting Using Tape Reader. Part No. 877406-2 Continued
Teat procedure
The fully loaded primary pallet weight
exceeds the two person lift criteria.
NOTE
If the CDU is used in lieu of the SPU,
enter SPH 800 to communicate with
the printer.
1v. If the system is not on the align.
ment surface, disconnect the test
equipment and place the system
on the alignment surface. The
porro prism should point 45 (±10)
degrees to any cardinal heading
(Refer to paragraphs 4-11 c and
4-11d)
1w. install the IMU in the primary
pallet frame if not already installed
figure 4-8
‘4-90.4
Change 7
Normal indication
Malfunction
indication/corrective action
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-14.1 IMU Testing, Alignment. and Troubleshooting Using Tape Reader, Part No. 877406-2 –
Continued
Test procedure
W203P1
Normal indication
Malfunction
indication/corrective action
SPU 20J3
Tape Reader J1
TTY
W203P2
W212
SPU 20J12
SPU 20J1
W212P1
W201P1
W201P2
115 VAC
115 VAC
TTY Power
W4P1
W4P2
W2P1
W2P2
IMU 2J3
PS 3J3
IMU 2J1
Computer 1J1
1y. Press SPU ON switch-indicator SPU ON switch-indicator lights
to on
1z. Set TTY printer MOTOR switch
to ON
1aa. Turn on + 28V power source
and set PS BATTERY and VEHICLE circuit breakers CB1
and CB2 to ON
1ab. Press PADS ON/OFF switch- PADS turns on
indicator to on
2. IMU TEST AND ALIGNMENT
NOTE
The IMU test program requires entry of data via the TTY. Data definitions and formats are shown in table
4-16. Operator commands to check
test status and halt or initiate various printouts are also given.
Use of the theodolite to measure
horizontal angles is described in
chapter 5.
2a. Press EXECUTE switch-indicator to on
EXECUTE switch-indicator lights
TTY prints out:
ALIGNPADS DIAGNOSTIC
MENT PROGRAM or
PADS SOLID STATE DIAGNOSTIC ALIGNMENT PROGRAM
PROGRAM CHECKSUM XXXXXX
Change 7
4-90.5
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-14.1 IMU Testing, Alignment, and Troubleshooting Using Tape Reader, Part No. 877406-2 –
Continued
Test procedure
Normal indication
SELECT TEST MODE
Checksums are equal
2b. Compare printed checksum
written on the front of the
punched tape in use
2c. Type IMU to select IMU auto- TTY prints out:
matic alignment and test se- IMU
quence
SER NO XXXX
DATE XXXX
CHECKSUM XXXXXX
MOVE IMU TO APPROX 45 DEC
HEADING
WHEN DONE TYPE: RDY
Data matches
2d. Verify that the printed serial
number matches the’ serial numher of the IMU under test and
the checksum matches the
checksum on the IMU alignment
data tape
2e. Type RDY when 45° (±10°) TTY prints out:
heading request has been com- RDY
pleted
ENTER LATITUDE: (DEG ) (MIN )
(SEC) RDY
4-90.6
Change 7
‘Malfunction
indication/corrective action
Checksum is incorrect Refer to step 3k
of table 4-6.1 or step 2 V of table
4-6.3
NOTE
From this step forward, the TTY
may print out any of the malfunction
messages listed in table 4-17, Take
the corrective action shown in table
4-17.
Reload IMU alignment data tape
NOTE
The program will accept all data on
one line, thus if the operator makes
a mistake prior to typing RDY while
entering data via the TN, he should
hit the carriage return key and reenter the data. If the diagnostic program does not recognize the entry as
valid, the TTY prints out: IMPROPER DATA ENTRY. The operator should reenter the data.
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4- 14.1 IMU Testing, Alignment, and Troubleshooting Using Tape Reader, Part No. 877406-2 Continued
Normal indication
Test procedure
Malfunction
indication/corrective action
NOTE
NOTE
TEST NUMBER X IN PROGRESS
000000
Do not move PADS again until in000000 will print out periodically
structed to do so.
during test to indicate the start of a
subtest. The time since start also
may be printed.
If a failure occurs, the number will
be nonzero and IMU, CMP, or PSU
FAILURE will print. A set of failure
subcodes will then be printed which
provide useful information for depot
repair of the IMU and computer.
Replace or repair the computer or
power supply as appropriate. Return
a failed IMU to depot with a copy of
the TTY printout.
2f. Type XXX XX XX.X RDY for TTY prints out:
degrees, minutes, and seconds of RDY
latitude. Leave a space between
ENTER ELEVATION: (FT) RDY
each numerical grouping
2g. Type XXX.X RDY for correct
elevation in feet
TTY prints out:
RDY
ENTER DATE: (JULIAN) RDY
2h. Type XXXX RDY for correct TTY prints out:
Julian data
RDY
ENTER SER NO: (DIGITS) RDY
TTY prints out:
2i. Type correct IMU serial number TTY prints out:
in format XXXX RDY
SERIAL NO INCORRECT:
RDY
Load correct IMU alignment data
ALIGNMENT PROCEEDING
tape
IF THEODOLITE WILL NOT BE
USED, TYPE: BYP
2j. Type BYP if theodolite will not TTY prints out:
be used
BYP
NOTE
There are 10 subtests, but one or more will be deleted depending on the use of the theodolite.
Change 5
4-90.7
ARMY TM 5-6675-308-34
MARINE CORPS TM-08837A-34/2
Table 4-14.1 IMU Testing, Alignment, and Troubleshooting Using Tape Reader, Part No. 877406-2 -Continued
Test procedure
Normal indication
Malfunction
indication/corrective action
At the end of a subtest, data may be printed out. The message AT LEAST ONE OUT-OF-CAL IN TEST
NUMBER X means an out-of-tolerance parameter was recalibrated. It is not a failure message and no operator
act ion is required.
2k. If the theodolite is to be used, set
it up to autoreflect on the porro
prism and measure the horizontal
angle from the target to the porro
prism as shown in figure 4-9. Refer
to chapter 5 for operation of theodolite. If theodolite is not used, go
to step 2s at completion of test
(approximately 8 hours)
In approximately 45 minutes, TTY
prints:
THEODOLITE TEST (TO ABORT
AT ANY TIME TYPE: BYP)
MOVE IMU TO O DECREES
PITCH O DECREES ROLL
WHEN DONE TYPE: RDY
ALIGNMENT HALTED
2l. Move primary pallet to O degrees pitch and O degrees roll
2m. Remove porro prism cover and Autoreflection achieved
level porro prism. Verify theodolite can autoreflect on porro
prism
Type RDY
Theodolite does not autoreflect: Adjust primary pallet orientation until autoreflection is achieved
TTY prints out:
TTY prints out:
RDY
RDY
ENTER THEODOLITE READING X.XX DECREES PITCH
(MILS) RDY
X.XX DECREES ROLL
ALIGNMENT HALTED
ATTITUDE NOT WITHIN 2 DEGREES OF REQUESTED
MOVE IMU TO X DECREES
PITCH X DECREES ROLL
WHEN DONE
TYPE: RDY
ALIGNMENT HALTED
Repeat steps 2l and 2m adjusting
pitch and roll as necessary
20. Measure horizontal angle from
the target to the porro prism.
(Refer to chapter 5)
2p. Enter horizontal angle in format TTY prints out:
XXXX.XX RDY
RDY
XXX.XXXX DEGREES PITCH 10SEC AV
XXX.XXXX DECREES ROLL 10SEC AV
XXX.XXXX DECREES AZ 10-SEC
AV
4-90.8
Change 5
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-14.1 IMU Testing, Alignment, and Troubleshooting Using Tape Reader, Part No. 877406-2 –
Continued
Test procedure
Normal indication
Malfunction
indication/corrective action
MOVE IMU TO X DEGREES
PITCH X DEGREES ROLL
WHEN DONE TYPE: RDY
ALIGNMENT HALTED
Obtain the desired pitch and roll
angles by placing blocks under the
primary pallet frame. Make sure the
system cannot rock on the blocks.
Level porro prism
2q. Repeat steps 2m thru 2p for the
following pitch and roll angles:
PITCH ROLL RAISE
After data for last position entered,
TTY prints out:
ENTER TAZ (MIL) RDY
ALIGNMENT HALTED
Do not move or disturb primary pallet after last position is reached.
Make snre pallet is firmly blocked in
level position.
2r. Enter geodetic (true) azimuth of TTY prints out:
target in roils in format RDY
XXXX.XX RDY
Alignment continues
TTY prints out:
TAZ OR IMU HEADING INCORRECT
MOVE TO APPROX 45 DEG HDG
Change 1
4-90.9
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-14.1. IMU Testing, Alignment, and Troubleshooting Using Tape Reader, Part No. 877406-2 —
Continued
Test procedure
Normal indication
Malfunction
indication/corrective action
WHEN DONE TYPE:
RDY
ALIGNMENT HALTED:
Ensure IMU is oriented to 45 ±10
degrees to any cardinal heading and
azimuth is correct. Type RDY.
TTY will request a new measurement of the last horizontal angle
followed by azimuth entry
TTY prints out:
NOTE
A complete table of calibration parameters, including the cal data
checksum, will print during subtest
10. A failure table will print after
test 10 results, OK means the parameter was within tolerance; OOC
means the parameter was out of tolerance but has been recalibrated;
FAIL means the parameter was out
of tolerance and must be corrected
at the depot level.
At end of test, TTY prints out:
ALIGNMENT COMPLETED
000000 000000
2s. Press EXECUTE switch-indica- EXECUTE switch-indicator goes off
tor to off
2t. Sequentially press PADS ON/ PADS ON/OFF switch-indicator
OFF switch-indicator and ENgoes off
TER switch
System shuts down
4-90.10
Change 5
TYPE ONE OF: ACC REP, BYP
ALIGNMENT HALTED:
Type REP and repeat theodolite
test. If test fails a second time,
replace the porro prism assembly
TTY prints out:
THEODOLITE READING INCONSISTANT
TYPE ONE OF: REP, BYP
Before using the theodolite readings
to calculate the porro prism calibration constants, several feasability checks will be run on the readings, If one or more readings were
in error, these checks will detect
an inconsistancy and give the operator the option of repeating the
readings or bypassing the test. If
an inconsistency is detected for
three consecutive sets of readings,
the system will assume that PADS
is in error and will print out an
IMU failure. Return IMU to depot
if any lines 1020 thru 1025 indicate a failure. If only line 101 or
102 indicates a failure, replace the
porro prism assembly.
Return IMU to depot if following
test 9, TTY prints out:
NEED DEPOT CAL
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-14.1. IMU Testing, Alignment, and Troubleshooting Using Tape Reader Part No. 877408-2Continued
Test procedure
Malfunction
indication/corrective action
Normal indication
2u. Set PS BATTERY and
VEHICLE circuit breakers CB1
and CB2 to OFF
2v. Set TTY printer MOTOR
switch to OFF
2w. Press SPUON switch-indicator SPU ON switch–indicator goes off
to off
2x. Disconnect equipment
2y. Record IMU alignment checksum, date of alignment and
IMU serial number and stem in
IMU tape compartment
2z. Remove and save IMU alignment TTY printout
2aa. Proceed to paragraph 4-12
TEST COMPLETED
Change 6
4-90.11/(4-90.12 blank)
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-14.1. IMU Testing, Alignment, and Troubleshooting Using Tape Reader, Part No. 877406-2 Continued
Test procedure
2u.
Set PS BATTERY and
VEHICLE circuit breakers
CB1 and CB2 to off
2y.
Set TTY printer MOTOR
switch to OFF
2w.
Press SPU ON switch-indicator
to off
Normal indication
Malfunction
indication/corrective action
SPU ON switch-indicator goes
off
2x. If there were no IMU failures
at end of test, load operational
program in accordance with
table 4-18.1
2y. Disconnect equipment
2z.
Record IMU alignment checksum, date of alignment, and
IMU serial number and store
in IMU tape compartment
2aa.
Remove and save IMU alignment TTY printout
TEST COMPLETED
Change 7
4-91
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-15. TTY Printout of IMU Test
PADS DIAGNOSTIC ALIGNMENT PROGRAM
OR
PADS SOLID STATE DIAGNOSTIC ALIGNMENT PROGRAM
PROGRAM CHECKSUM XXXXXX
SELECT TEST MODE
IMUIMU
SER NO 0002 DATE 7312 CHECKSUM 003256
MOVE IMU TO APPROX 45 DEG HEADING
WHEN DONE TYPE: RDY
RDYRDY
ENTER LATITUDE: (DEG) (MIN) (SEC) RDY
38 44 24.6NRDYRDY
ENTER ELEVATION: (FT)RDY
52.5RDYRDY
ENTER DATE: (JULIAN) RDY
7314RDYRDY
ENTER SER NO: (DIGITS)RDY
0002RDYRDY
ALIGNMENT PROCEEDING
IF THEODOLITE WILL NOT BE USED, TYPE: BYP
TEST NUMBER 1 IN PROGRESS
000000 000000
1001
1002
1003
1004
1005
1006
1007
1008
1009
-1.152
4.004
-0.027
55.879
-76.180
-11.230
-82.195
58.992
-13.352
OK
OK
OK
OK
OK
OK
OK
OK
OK
PULSES/SEC
PULSES/SEC
PULSES/SEC
PULSES/SEC
PULSES/SEC
PULSES/SEC
PULSES/SEC
PULSES/SEC
PULSES/SEC
000000 000000
TEST NUMBER 2 IN PROGRESS STARTED 1 MINUTE AGO
000000 000000
THEODOLITE TEST
(TO ABORT AT ANY TIME TYPE: BYP)
MOVE IMU TO 0 DEGREES PITCH 0 DEGREES ROLL
WHEN DONE TYPE: RDY
ALIGNMENT HALTED
RDYRDY
ENTER THEODOLITE READING: (MILS) RDY
ALIGNMENT HALTED
2865.00RDYRDY
-0.0624 DEGREES PITCH 10-SEC AVRGE
-0.4487 DEGREES ROLL 10-SEC AVRGE
44.3051 DEGREES AZ 10-SEC AVRGE
4-92
Change 5
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-15. TTY Printout of IMU Test - Continued
MOVE IMU TO O DEGREES PITCH 8 DEGREES ROLL
WHEN DONE TYPE: RDY
ALIGNMENT HALTED
RDYRDY
-0.18 DEGREES PITCH
335 DEGREES ROLL
ATTITUDE NOT WITHIN 2 DEGREES OF REQUESTED
MOVE IMU TO O DEGREES PITCH 8 DEGREES ROLL
WHEN DONE TYPE: RDY
ALIGNMENT HALTED
RDYRDY
ENTER THEODOLITE READING: (MILS) RDY
ALIGNMENT HALTED
2865 .16RDYRDY
-0.0424 DEGREES PITCH 10-SEC AVRGE
9.2626 DEGREES ROLL IO-SEC AVRGE
443142 DEGREES AZ 10-SEC AVRGE
MOVE IMU TO O DEGREES PITCH -8 DEGREES ROLL
WHEN DONE TYPE: RDY
ALIGNMENT HALTED
RDYRDY
ENTER THEODOLITE READING: (MILS) RDY
ALIGNMENT HALTED
2873 .07RDYRDY
-0.4400 DEGREES PITCH 10-SEC AVRGE
-9.0762 DEGREES ROLL IO-SEC AVRGE
44.7500 DEGREES AZ IO-SEC AVRGE
MOVE IMU TO O DEGREES PITCH O DEGREES ROLL
WHEN DONE TYPE: RDY
RDYRDY
ENTER THEODOLITE READING: (MILS) RDY
ALIGNMENT HALTED
2868.59 RDYRDY
-0.4698 DEGREES PITCH 10-SEC AVRGE
-0.5757 DEGREES ROLL 10-SEC AVRGE
44.4982 DEGREES AZ 10-SEC AVRGE
MOVE IMU TO 8 DEGREES PITCH O DEGREES ROLL
WHEN DONE TYPE: RDY
ALIGNMENT HALTED
RDYRDY
ENTER THEODOLITE READING: (MILS) RDY
ALIGNMENT HALTED
2865 .94RDYRDY
7.8630 DEGREES PITCH 10-SEC AVRGE
-0.5081 DEGREES ROLL 10-SEC AVRGE
443393 DEGREES AZ 10-SEC AVRGE
MOVE IMU TO -8 DEGREES PITCH O DEGREES ROLL
WHEN DONE TYPE: RDY
ALIGNMENT HALTED
RDYRDY
ENTER THEODOLITE READING: (MILS) RDY
ALIGNMENT HALTED
2861 .48RDYRDY
-8.8762 DEGREES PITCH 10-SEC AVRGE
-1.0314 DEGREES ROLL IO-SEC AVRGE
44.0957 DEGREES AZ 10-SEC AVRGE
4-93
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-15. TTY Printout of IMU Test – Continued
4-94
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-15. TTY Printout of IMU Tast – Continued
TEST NUMBER 5 IN PROGRESS STARTED 3 MINUTES AGO
000000 000000
100
102
1017
1018
1019
0.1758
0.0
5.6
-0.0014
-0.0077
0.1741
44.6
OK
OK
OK
OK
OK
ARC SEC
DEG/HR
DEG/HR
DEGREES
ARC SEC
TEST NUMBER 6 IN PROGRESS STARTED 2 MINUTES AGO
000000000000
0.6799
DEG/HR
0.6742
OK
3
OK
PERCENT
9
-0.024
-0.020
000000000000
TEST NUMBER 8 IN PROGRESS
000000000000
Ooc
69.2
82
122.6
83
122.7
106.9
OK
AT LEAST ONE OUT-0F-CAL IN TEST NUMBER 8
HDG RESOLVER BIAS
HDG/PICH POR PR CORR
Z GYRO PERM BIAS
Z GYRO SCL FCT CHNG
ARC SEC
ARC SEC
Z X ACCEL MISALNMNT
Z Y ACCEL MISALNMNT
ARC SEC
ARC SEC
ARC SEC
X Z ACCEL MISALNMNT
Y Z ACCEL MISALNMNT
Y ACC MSLMNT REL X
000000000000
TEST NUMBER 9 IN PROGRESS
000000000000
132.2
80
132.2
107.0
107.0
81
200
-25.2
-39.0
000000000000
OK
OK
OK
TEST NUMBER 10 IN PROGRESS
000000000000
ALIGNMENT CONSTANTS.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
122136
157662
135504
146030
014570
052364
121600
167500
136500
150554
071200
107504
015100
073274
132100
000000
000000
000000
000000
000000
000000
000000
000000
000074
177402
000666
177757
000146
003253
001122
000442
177462
000610
000306
000766
000546
001047
000414
000000
177777
000002
000003
000005
000002
177776
177773
0.0932
-0.3890
0.6742
-15.4
97.1
1623.5
0.057
0.028
-0.020
0.599
0.019
0.767
0.034
0.841
0.026
0.0
-1.0
1.9
2.9
4.8
1.9
-1.9
-4.8
DEG/HR
DEG/HR
DEG/HR
MICRO G
MICRO G
MICRO G
PERCENT
PERCENT
PERCENT
PERCENT
PERCENT
PERCENT
PERCENT
PERCENT
PERCENT
MICRO G
MICRO G
MICRO G
MICRO G
MICRO G
MICRO G
MICRO G
MICRO G
X GYRO PERM BIAS
Y GYRO PERM BIAS
Z GYRO PERM BIAS
X ACCEL PERM BIAS
Y ACCEL PERM BIAS
Z ACCEL PERM BIAS
X GYRO SCL FCT CHNG
Y GYRO SCL FCT CHNG
Z GYRO SCL FCT CHNG
X Q INT SCL FCT CHNG
X QUANT SCL FCT CHNG
Y Q INT SCL FCT CHNG
Y QUANT SCL FCT CHNG
Z Q INT SCL FCT CHNG
Z QUANT SCL FCT CHNG
Z ACC H-S BIAS
Z ACC H-S BIAS
Z ACC H-S BIAS
Z ACC H-S BIAS
Z ACC H-S BIAS
Z ACC H-S BIAS
Z ACC H-S BIAS
Z ACC H-S BIAS
0.0
22.5
45.0
67.5
90.0
112.5
135.0
157.5
4-95
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-15. TTY Printout of IMU Test – Continued
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
4-96
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
177773
177776
000003
000012
000007
000003
000004
000000
000000
000000
177777
000000
000000
000000
177777
177776
177776
177776
177776
000000
177777
177776
177776
177774
000000
000000
177777
000000
000001
000000
000000
000000
000000
000000
000000
000001
000000
177777
177776
000000
000000
177777
000000
177775
177774
177777
000000
000000
000000
000000
000002
177777
177776
000000
000000
177775
-4.3
-1.9
2.9
9.5
6.7
2.9
3.8
0.0
0.0000
0.0000
-0.0015
0.0000
0.0000
0.0000
-0.0015
-0.0031
-0.0031
-0.0031
-0.0031
0.0000
-0.0015
-0.0031
-0.0031
-0.0061
0.0000
0.0000
-0.0015
0.0000
0.0015
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0015
0.0000
-0.0015
-0.0031
0.0000
0.0000
-0.0015
0.0000
-0.0046
-0.0061
-0.0015
0.0000
0.0000
0.0000
0.0000
0.0031
-0.0015
-0.0031
0.0000
0.0000
-0.0046
MICRO G
MICRO G
MICRO G
MICRO G
MICRO G
MICRO G
MICRO G
MICRO G
DEG/HR
DEG/HR
DEG/HR
DEG/HR
DEG/HR
DEG/HR
DEG/HR
DEG/HR
DEG/HR
DEG/HR
DEG/HR
DEG/HR
DEG/HR
DEG/HR
DEG/HR
DEG/HR
DEG/HR
DEG/HR
DEG/HR
DEG/HR
DEG/HR
DEG/HR
DEG/HR
DEG/HR
DEG/HR
DEG/HR
DEG/HR
DEG/HR
DEG/HR
DEG/HR
DEG/HR
DEG/HR
DEG/HR
DEG/HR
DEG/HR
DEG/HR
DEG/HR
DEG/HR
DEG/HR
DEG/HR
DEG/HR
DEG/HR
DEG/HR
DEG/HR
DEG/HR
DEG/HR
DEG/HR
DEG/HR
Z ACC H-S BIAS
Z ACC H-S BIAS
Z ACC H-S BIAS
Z ACC H-S BIAS
Z ACC H-S BIAS
Z ACC H-S BIAS
Z ACC H-S BIAS
Z ACC H-S BIAS
X GYR H-S BIAS
X GYR H-S BIAS
X GYR H-S BIAS
X GYR H-S BIAS
X GYR H-S BIAS
X GYR H-S BIAS
X GYR H-S BIAS
X GYR H-S BIAS
X GYR H-S BIAS
X GYR H-S BIAS
X GYR H-S BIAS
X GYR H-S BIAS
X GYR H-S BIAS
X GYR H-S BIAS
X GYR H-S BIAS
X GYR H-S BIAS
Y GYR H-S BIAS
Y GYR H-S BIAS
Y GYR H-S BIAS
Y GYR H-S BIAS
Y GYR H-S BIAS
Y GYR H-S BIAS
Y GYR H-S BIAS
Y GYR H-S BIAS
Y GYR H-S BIAS
Y GYR H-S BIAS
Y GYR H-S BIAS
Y GYR H-S BIAS
Y GYR H-S BIAS
Y GYR H-S BIAS
Y GYR H-S BIAS
Y GYR H-S BIAS
Z GYR H-S BIAS
Z GYR H-S BIAS
Z GYR H-S BIAS
Z GYR H-S BIAS
Z GYR H-S BIAS
Z GYR H-S BIAS
Z GYR H-S BIAS
Z GYR H-S BIAS
Z GYR H-S BIAS
Z GYR H-S BIAS
Z GYR H-S BIAS
Z GYR H-S BIAS
Z GYR H-S BIAS
Z GYR H-S BIAS
Z GYR H-S BIAS
Z GYR H-S BIAS
180.0
202.5
225.0
247.0
270.0
292.5
315.0
337.5
0.0
22.5
45.0
67.5
90.0
112.5
135.0
157.5
180.0
202.5
225.0
247.5
270.0
292.5
315.0
337.5
0.0
22.5
45.0
67.5
90.0
112.5
135.0
157.5
180.0
202.5
225.0
247.5
270.0
292.5
315.0
337.5
0.0
22.5
45.0
67.5
90.0
112.5
135.0
157.5
180.0
202.5
225.0
247.5
270.0
292.5
315.0
337.5
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-15. TTY Printout of IMU Test – Continued
TEST NUMBER 6 IN PROGRESS STARTED 2 MINUTES AGO
000000 000000
DEG/HR
3
0.6799
0.6742
OK
PERCENT
OK
-0.024
-0.020
9
000000 000000
Z GYRO PERM BIAS
Z GYRO SCL FCT CHNG
TEST NUMBER 8 IN PROGRESS
000000 000000
OOC
122.6
82
69.2
83
122.7
106.9
OK
AT LEAST ONE OUT-OF-CAL IN TEST NUMBER 8
000000 000000
ARC SEC
ARC SEC
Z X ACCEL MISALNMNT
Z Y ACCEL MISALNMNT
ARC SEC
ARC SEC
ARC SEC
X Z ACCEL MISALNMNT
Y Z ACCEL MISALNMNT
Y ACC MSLMNT REL X
DEG/HR
DEG/HR
DEG/HR
MICRO G
MICRO G
MICRO G
PERCENT
PERCENT
PERCENT
PERCENT
PERCENT
PERCENT
PERCENT
PERCENT
PERCENT
X GYRO PERM BIAS
Y GYRO PERM BIAS
Z GYRO PERM BIAS
X ACCEL PERM BIAS
Y ACCEL PERM BIAS
Z ACCEL PERM BIAS
X GYRO SCL FCT CHNG
Y GYRC SCL FCT CHNG
Z GYRO SCL FCT CHNG
X Q INT SCL FCT CHNG
X QUANT SCL FCT CHNG
Y Q INT SCL FCT CHNG
Y QUART SCL FCT CHNG
Z Q INT SCL FCT CHNG
Z QUANT SCL FCT CHNG
TEST NUMBER 9 IN PROGRESS
000000 000000
132.2
132.2
80
107.0
107.0
81
-39.0
-25.2
200
000000 000000
OK
OK
OK
TEST NUMBER 10 IN PROGRESS
000000 000000
ALIGNMENT CONSTANTS.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
122136
157662
135504
146030
014570
052364
121600
167500
136500
150554
071200
107504
015100
073274
132100
000074
177402
000666
177757
000146
003253
001122
000442
177462
000610
000306
000766
000546
001047
000414
0.0932
-0.3890
0.6742
-15.4
97.1
1623.5
0.057
0.028
-0.020
0.599
0.019
0.767
0.034
0.841
0.026
All data on page 4-96 has been deleted.
Change 5
4-95/(4–96 blank)
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-15. TTY Printout of IMU Test – Continued
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
200
SER NO
132.2
107.0
69.2
122.7
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
-19.9
48.4
0.0000
0.0000
0.1112
0.0552
0.1961
0.0723
-0.0139
-607.2
-2488.0
-0.2124
0.6275
0.000
0.000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
000000
115000
14100
000000
000000
066200
162000
001200
015000
074060
033600
024033
053132
036420
000000
000000
005200
004200
002600
004700
000000
000000
000000
000000
000000
000000
000000
000000
177152
001727
000000
000000
011003
004357
017704
005664
177775
171761
147230
177731
000162
000000
000000
160000
0002
176346
DATE 7314
TEST 10 RESULTS
0.0000
94
95
0.0000
0.1112
96
97
0.0552
98
0.1961
99
0.0723
X Z ACCEL MISALNMNT
Y Z ACCEL MISALNMNT
Z X ACCEL MLSALNMNT
Z Y ACCEL MISALNMNT
Y X ACCEL MISALNMNT
X Y ACCEL MISALNMNT
Z Y GYRO MISALNMNT
Z X GYRO MISALNMNT
Y Z GYRO MISALNMNT
Y X GYRO MISALNMNT
X Y GYRO MISALNMNT
X Z GYRO MISALNMNT
AZ X GMBL/ACC MSLNMT
AZ Y GMBL/ACC MSLNMT
Y X UPR GYRO MS UNB
Z X UPR GYRO MS UNB
Y Z UPR GYRO MS UNB
X Z UPR GYRO MS UNB
Y Z LWR GYRO MS UNB
X Z LWR GYRO MS UNB
HDG RESOLVER BIAS
HDG/ROLL POR PR CORR
HDG/PICH POR PR CORR
ROLL RESOLVER BIAS
PITCH RESOLVER BIAS
X ACC MSLMNT REL X
Y ACC MSLMNT REL Y
ARC SEC
ARC SEC
ARC SEC
ARC SEC
ARC SEC
ARC SEC
ARC SEC
ARC SEC
ARC SEC
ARC SEC
ARC SEC
ARC SEC
ARC SEC
ARC SEC
DEG/HR/G
DEG/HR/G
DEG/HR/G
DEG/HR/G
DEG/HR/G
DEG/HR/G
DEGREES
ARC SEC
ARC SEC
DEGREES
DEGREES
ARC SEC
ARC SEC
Y ACC MSLMNT REL X
ARC SEC
-39.0
CHECKSUM 164332
OK
OK
OK
OK
OK
OK
0.0000
0.0000
0.1112
0.0552
0.1961
0.0723
Y X UPR GYRO MS UNB
Z X UPR GYRO MS UNB
Y Z UPR GYRO MS UNB
X Z UPR GYRO MS UNB
Y Z LWR GYRO MS UNB
X Z LWR GYRO MS UNB
DEG/HR/G
DEG/HR/G
DEG/HR/G
DEG/HR/G
DEG/HR/G
DEG/HR/G
FAILURE TABLE
1
5
9
13
81
93
97
104
1003
1007
1011
1015
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
2
6
10
14
82
94
98
200
1004
1008
1012
OK
OK
OK
OOC
OOC
OK
OK
OK
OK
OK
OK
3
7
11
15
83
95
99
1001
1005
1009
1013
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
4
8
12
80
92
96
103
1002
1005
1010
1014
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
ALIGNMENT COMPLETED
000000 000000
Change 5
4-97
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-16. Definitions of Teletypewriter Input Messages
Definition
Teletypewriter input message
TTY REQUEST:
DATA ENTRY :
LATITUDE
Latitude of the test site referenced to Clark 1866 spheroid. Degrees,
minutes, seconds (separated by a space) to nearest second. For
southern latitude, put a minus sign in front of degrees
ELEVATION
Elevation of this site in feet, referenced to Clark 1866 spheroid, to
nearest foot
DATE
4-digit Julian date
SER NO
IMU serial number found on unit nameplate
THEODOLITE READING
Horizontal angle measured from the azimuth mark to the porro prism
in a clockwise manner in Army roils to nearest 0.01 mil
Refer to Chapter 5 for correct reading procedure
TAZ
OPERATOR ENTRY :
True azimuth of target in Army roils to nearest 0.01 mil
DEFINITION :
IMU
Start IMU alignment
RDY
Acknowledges requested action
BYP
Bypass theodolite test
N1, N2 CAL
Print alignment data table
N1 is number of first parameter to be printed, N2 the last (e.g., 1200
CAL causes all data to print)
SER
Print serial number, data and IMU cal tape memory checksum number
STS
Print status
SUM
Print failure table summary
TST
Print list of completed tests
HLT
Stop table print
REP
Repeat present table
4-98
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-17. IMU Automatic Test Mode Malfunction Teletypewriter Messages
Corrective action
Teletypewriter malfunction message
IMPROPER DATA ENTRY
Data must be reentered
Program did not recognize data entry
ALIGN TIMING IMU FAIL
Reasonability test fail
Program cannot advance. Shut down equipment and return IMU to
depot*
NEED DEPOT CAL
Certain alignment constants are out of tolerance and cannot be
determined without a depot alignment, Shut down equipment and
return IMU to depot*
ALIGN QUALITY IMU FAIL
Certain alignment constants are out of specification and cannot be
calibrated. Return IMU to depot*
TEMPERATURE IMU FAIL
DISCRETE IMU FAIL
IMU failures. Return IMU to depot*
SYNCHRO ACCEL. IMU FAIL
SYNCHRO RATE FAIL
MEMORY TEST FAIL
OP CODE TEST FAIL
Built-in-test indicates a computer failure while aligning IMU
PRIORITY INTERRUPT FAIL
Repair computer and recalibrate IMU. See table 4-10 for corrective
action
SERVICE INTERRUPT FAIL
SERIAL DATA I/O FAIL
ANALOG DATA I/O FAIL
PLATFORM I/O FAIL
● Send copy of TTY diagnostic print-outback to depot with faulty IMU.
4-99
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
4-12. Operational Program Loading. (Core memory
only.)
card so it will not be confused with any
new replacements.
a. General. The PADS operational program must
be loaded into memory after the diagnostic program has
been run. Usually, this will be after the IMU alignment.
If it is known that memory contents were altered by a
problem external to the memory and the IMU calibration constants checksum is correct, the operational
program may be reloaded without performing an IMU
alignment.
Perform PS testing and troubleshooting in accordance
with table 4-19. See figure 4-10 for a testing interconnection diagram. See figure 4-11 for circuit card adjustment locations. See figures 4-19 and 4-20 for location of
circuit cards and components. See figure 4-20, sheets 4
and 6, for relay terminal locations. When the test
procedure has been interrupted or aftter a repair action
has been taken, the complete test (part 2 of table 4-19)
should be performed.
NOTE
Do not attempt to reload the solid state
memory at this time as the operational
program already resides in the solid state
memory and will automatically be defaulted to or activated at turnon.
b. Test Equipment and Materials.
(1)
PADS test set, consisting of SPU, tape reader,
buffer unit, interconnecting cables, and auxiliary equipment.
(2)
Teletypewriter. The 100-wpm motor-worm
gear must be installed prior to use. Refer to
TM 11-5815-200-12.
(3)
PADS operational program tape.
(4)
PADS power supply, computer, pallet frame,
and battery box.
(5)
+ 28V power source.
c. Test Procedure. Perform the test in accordance
with table 4-18 or 4-18.1. Table 4-18 uses PADS test set
tape reader, part no. 877406-1 and table 4-18.1 uses
tape reader, part no. 877406-2.
NOTE
Table 4-19 calls for performing various
test subroutines wherever a malfunction
is indicated. These test subroutines are
independent procedures and may be performed in any sequence. The tests most
likely to find the fauls will be listed first.
Some types of faults will prevent the first
routines from working. The operator
should then choose another routine from
the recommended list or from the total
list below. The names of the subroutines
listed below should aid in choosing an
appropriate routine for the circuit area.
In the case where a component is visibly
destroyed, it usually is productive to perform the routine that has that component
in its list.
c. PS Test Subroutines.
Paragraph
4-13. Power Supply Testing and Troubleshooting.
a. Test Equipment and Materials.
(1) Power supply test set (PSTS)
(2) Digital Voltmeter AN/GSM-64B
(3) Multimeter AN/USM-223
b. Procedure.
NOTE
When circuit cards are removed during
the troubleshooting process, be sure to
note the serial number of the original
4-100
Change 1
(1) Input Power Short and 4 Continuity
Checks
-13d
(2) Bus Power Short and 1 Continuity
Checks
-13e
(3) Relay Checks 4
-13f
(4) AUX 24V, and + 12V Checks 4
-13g
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-18. Operational Program Loading
Test procedure
Normal indication
Malfunction
indication/corrective action
NOTE
This procedure uses tape reader, part no. 877406-1.
The Procedure column contains the operation to be performed. The Normal Indication column contains the
desired test set response to the operation. The malfunction indication(s) and corrective action(s) are listed in the
third column.
All switches, switch-indicators, and indicators called out in the procedure are located on the SPU, unless otherwise
indicated.
a. If PADS ON/OFF switch-indicator ON is lighted, sequentially
press PADS ON/OFF switch-indicator and ENTER switch to
turn off system
b.
Check that PS BATTERY and
VEHICLE circuit breakers CB1
and CB2 are set to OFF
c. Check that TTY printer MOTOR
switch is set to OFF
d. If SPU ON switch-indicator is
lighted, press it to off
e. Connect equipment as shown in
figure 4-3 and the following
checklist:
NOTE
TTY does not have to be connected
for operational program loading.
Cable
Unit
W5P1
Shorting plug
W5P2
PS 3J1
W5P4
IMU fan 2J5
W3P1
PS 3J5
W3P2
Computer PS 1J4
W6
Battery box
W6P1
PS 3J2
W211P1
PS 3J4
W211
+ 28V
W210P1
Computer 1J2
W210P2
Buffer unit 21J2
W205P1
SPU 20J5
W205P2
Buffer unit 21J1
Change 1
4-101
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-18. Operational Program Loading — Continued
Test procedure
W204P1
SPU 20J4
W204P2
Computer 1J1
W209P1
SPU 20J9
W209P2
Computer 1J3
W203P1
SPU 20J3
W203P2
Tape reader J1
W212
TTY
W212P1
SPU 20J12
W201P1
SPU 20J1
W201P2
115 VAC
TTY power
115 VAC
Normal indication
Malfunction
indication/corrective action
f. Check that W4P1 is not connected to IMU connector 2J3
g. Set tape reader SPOOLING
switch to DISABLE
h. Press SPU ON switch-indicator to
on. Press to extinguish all SPU
lighted switch-indicators except
SPU ON and PADS OFF
SPU ON switch-indicator and PADS
OFF indicator lights. All other
lamps pressed extinguish
i. Press and hold LAMP TEST
switch. Release after verifying
lamps light properly
All SPU lamps light except LAMP See step 1j of table 4-6
ENTER
and
TEST
and
FAILURE/ACTION indicator remains blank for at least 1.5 seconds
FAILURE/ACTION indicator sequentially displays the following
within 15 seconds after pressing
LAMP TEST switch:
Indication
Blank
30
20
Blank
88
Blank
32
Blank
77
4-102
Change 1
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-18. Operational Program Loading — Continued
Test procedure
Normal indication
Malfunction
indication/corrective action
j. Install PADS operational program
tape number 877419-X on tape
reader. Do not tape program tape
to take-up reel. Manually advance
tape beyond readable tape leader
k. Turn on + 28V power source
l. Set PS BATTERY and VEHICLE
breakers CB1 and CB2 to ON
m. Press PADS ON/OFF switch-in- PADS ON switch-indicator lights
dicator to on
See step 2a of table 4-6
PARITY ERROR indicator may illuminate
m.1. Press EXECUTE switch-indicator to on
n. Set tape reader SPOOLING
switch to ENABLE
n.1. Press EXECUTE switch-indicator to off
o. Press MEMORY LOAD switch- MEMORY LOAD switch-indicator
indicator to on
lights
Tape reader reads first tape section
and stops in less than 1 minute
NOTE
Press MEMORY LOAD switch-indicator off and back on if a stop code
is reached prior to tape data being
loaded.
p. Press MEMORY LOAD switchindicator to off
MEMORY LOAD switch-indicator
goes off
q. Press VERIFY switch-indicator to
on
VERIFY switch-indicator lights
NOTE
VERIFY ERROR switch-indicator
lights and tape stops: Refer to 2h
of table 4-6
Tape reader reads second section of
tape and stops at end
Press VERIFY switch-indicator off
and back on if a stop code is reached
prior to tape data being loaded.
r. Press VERIFY switch-indicator to VERIFY switch-indicator goes off
off
s. Press EXECUTE switch-indicator EXECUTE switch-indicator lights
to on
Change 5
4-103
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-18. Operational Program Loading — Continued
Test procedure
Normal indication
t. Wait 15 seconds and press EXECUTE switch-indicator to off
EXECUTE switch-indicator goes off
u. Press MEMORY LOAD switchindicator to on
MEMORY LOAD switch-indicator
lights
Tape reader reads rest of tape and
stops at end of reel
v. Press MEMORY LOAD switch- MEMORY LOAD switch-indicator
indicator to off
goes off
w. Press REVERSE switch-indicator REVERSE switch-indicator lights
to on
Tape rewinds and stops near beginning
x. Press REVERSE switch-indicator REVERSE switch-indicator goes off
to off
NOTE
Repeat steps w and x to completely
rewind tape.
y. Set tape reader SPOOLING
switch to DISABLE
z. Remove tape from reader
NOTE
Normally, the IMU calibration data
already is in memory because an
IMU alignment was performed. If
this is the case, proceed to step a1.
If an IMU alignment tape is to be
loaded, continue with step aa.
It is easier to handle the alignment
tape if it is installed on a reel.
aa. Install IMU alignment tape on
tape reader
ab. Set tape reader SPOOLING
switch to ENABLE
ac. Press MEMORY LOAD switch- MEMORY LOAD switch-indicator
indicator to on
lights
Tape reader reads tape and stops
near end
ad. Press MEMORY LOAD switch- MEMORY LOAD switch-indicator
indicator to off
goes off
4-104
Change 5
Malfunction
indication/corrective action
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-18. Operational Program Loading – Continued
Test procedure
ae. Press REVERSE switch-indicator to on
Normal indication
Malfunction
indication/corrective action
REVERSE switch-indicator lights
Tape rewinds and stops at beginning
af. Press REVERSE switch-indicator
to off
REVERSE switch-indicator goes off
ag. Press VERIFY switch-indicator
to on
VERIFY switch-indicator lights
Tape reader reads tape and stops at
end
VERIFY ERROR switch-indicator
lights and tape stops: Refer to step
2h of table 4-6
ah. Press VERIFY switch-indicator
to off
ai. Press REVERSE switch-indicator
to on
REVERSE switch-indicator lights
Tape rewinds and stops near beginning
aj. Press REVERSE switch-indicator
to off
REVERSE switch-indicator goes off
ak. Set tape reader SPOOLING
switch to DISABLE
al. Remove IMU alignment tape
from tape reader and store in
IMU compartment
am. Press EXECUTE switch-indicator to on
am.1. Wait 15 seconds and press
EXECUTE switch-indicator
to off
an. Sequentially press ON/OFF
switch-indicator and ENTER
switch
System turns off
ao. Set BATTERY and VEHICLE
circuit breakers CB1 and CB2 to
OFF
ap. Press SPU ON switch-indicator
to off
SPU ON switch-indicator goes off
aq. Disconnect W204 from computer and connect CDU cable
W1 to computer
ar. Turn on PADS via CDU and advance to monitor mode
NOTE
Zeros may be entered for values of
survey parameters
Change 1
4-105
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-18. Operational Program Loading — Continued
Test procedure
Normal indication
as. After elevation is entered, press
MON, ID, 1, 4, ENT pushbuttons
Data display shows:
at. Compare CDU checksum readout to the program checksum
written on front of the operational program tape
Checksums are equal
au. Press + 2 button
Data display shows:
Malfunction
indication/corrective
action
14 MCS XXXXX (checksum)
Checksums are not the same: Reload
operation 1 program
15 MCS XXXXX
av. Compare CDU checksum readout to the subroutine entrance
checksum written on front of
the operational program tape
Checksums are equal
aw. Press + 2 button
Data display shows:
Checksums are not the same: Reload
operation 1 program
16 MCS XXXXX
ax. Compare CDU checksum readout to checksum at end of IMU
alignment printout or beginning
of IMU alignment tape, as applicable
Checksums are equal
ay. Press ON/OFF and ENT buttons
System shuts down
Checksums are not the same: Repeat
IMU alignment or reload IMU
alignment tape, as applicable
az. Set PS BATTERY and VEHICLE circuit breakers CB1 and
CB2 to OFF
ba. Reconnect PADS as shown in
figure 3-1.
NOTE
Loading of the operational program is complete and has been verified. The equipment can be reconfigured as
required. If an IMU has just been recalibrated; the memory unit normally is removed from the computer and stored
with the IMU in an IMU transit case.
4-106
Change 1
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-18.1. Operational Program Loading Using Tape Reader, Part No. 877406-2
Test procedure
Normal indication
Malfunction
indication/corrective action
NOTE
The Procedure column contains the operation to be performed. The Normal Indication column contains the
desired test set response to the operation. The malfunction indication(s) and corrective action(s) are listed in the
third column.
All switches, switch-indicators, and indicators called out in the procedure are located on the SPU, unless otherwise
indicated.
a. If PADS ON/OFF switch-indicator ON is lighted, sequentially
press PADS ON/OFF switch-indicator and ENTER switch to
turn off system
b. Check that PS BATTERY and
VEHICLE circuit breakers CB1
and CB2 are set to OFF
c. Check that TTY printer MOTOR
switch is set to OFF
d. If SPU ON switch-indicator is
lighted, press it to off
e. Connect equipment as shown in
figure 4-3 and following checklist:
NOTE
TTY does not have to be connected
for operational program loading.
Cable
Unit
W5P1
Shorting plug
W5P2
PS 3J1
W5P4
IMU fan 2J5
W3P1
PS 3J5
W3P2
Computer PS 1J4
W6
Battery box
W6P1
PS 3J2
W211P1
PS 3J4
W211
+ 28V
W210P1
Computer 1J2
W210P2
Buffer unit 21J2
W205P1
W205P2
SPU 20J5
Buffer unit 21J1
W204P1
SPU 20J4
Change 1
4-106.1
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-18.1. Operational Program Loading Using Tape Reader, Part No. 877406-2 – Continued
Test procedure
W204P2
Computer 1J1
W209P1
SPU 20J9
W209P2
Computer 1J3
W203P1
SPU 20J3
W203P2
Tape reader J1
W212
TTY
W212P1
SPU 20J12
W201P1
SPU 20J1
W201P2
115 VAC
TTY Power
115 VAC
Normal indication
Malfunction
indication/corrective action
f. Check that W4P1 is not connected to IMU connector 2J3
g. Press SPU ON switch-indicator to
on. Press to extinguish all SPU
lighted switch-indicators except
SPU ON and PADS OFF
SPU ON switch-indicator and PADS
OFF indicator lights. All other
lamps pressed extinguish
h. Press and hold LAMP TEST
switch. Release after verifying
lamps light properly
All SPU lamps light except LAMP See step 1j of table 4-6.1
and
ENTER
TEST
and
FAILURE/ACTION indicator remains blank for at least 1.5 seconds
FAILURE/ACTION indicator sequentially displays the following
within 15 seconds after pressing
LAMP TEST switch:
Indication
Blank
30
20
Blank
88
Blank
32
Blank
77
i. S e t t a p e reader SPL/LOOP
switch to LOOP and FAST/
SLOW switch to SLOW
4-106.2
Change 1
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-18.1. Operational Program Loading Using Tape Reader, Part No. 877406-2 — Continued
Test procedure
j. Lift tape reader read head cover
and install PADS operational program tape number 877419-X on
tape reader. Do not tape program
tape to take-up reel. Manually advance tape beyond readable tape
leader. Gently lower read head
cover
Normal indication
Malfunction
indication/corrective action
No. 10 LED indicator lights steady
k. Turn on + 28V power source
l. Set PS BATTERY and VEHICLE
breakers CB1 and CB2 to ON
m. Press PADS ON/OFF switch-indicator to on
PADS ON switch-indicator lights
See step 2a of table 4-6.1
PARITY ERROR indicator may light
n. Press EXECUTE switch-indicator
to on
o. Set tape reader SPL/LOOP
switch to SPL
p. Press EXECUTE switch-indicator
to off and press MEMORY
LOAD switch-indicator to on
MEMORY LOAD switch-indicator
lights
Tape reader reads first tape section
and stops in less than 1 minute
NOTE
Press MEMORY LOAD switch-indicator off and back on if a stop code
is reached prior to tape data being
loaded.
q. Press MEMORY LOAD switchindicator to off
MEMORY LOAD switch-indicator
goes off
r. Press VERIFY switch-indicator to
on
VERIFY switch-indicator lights
Tape reader reads second section of
tape and stops at end
VERIFY ERROR switch-indicator
lights and tape stops: Refer to 2h
of table 4-6.1
NOTE
Press VERIFY switch-indicator off
and back on if a stop code is reached
prior to tape data being loaded.
s. Press VERIFY switch-indicator to
off
VERIFY switch-indicator goes off
t. Press EXECUTE switch-indicator
to on
EXECUTE switch-indicator lights
Change 5
4-106.3
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-18.1. Operational Program Loading Using Tape Reader, Part No. 877406-2 – Continued
Test procedure
Normal indication
u. Wait 15 seconds and press EXECUTE switch-indicator to off
EXECUTE switch-indicator goes off
v. Press MEMORY LOAD switchindicator to on
MEMORY LOAD switch-indicator
lights
Tape reader reads rest of tape and
stops at end of reel
w. Press MEMORY LOAD switch- MEMORY LOAD switch-indicator
goes off
indicator to off
x. Set tape reader FAST/SLOW
switch to FAST
y. Press REVERSE switch-indicator
to on
REVERSE switch-indicator lights
Tape rewinds and stops near beginning
z. Press REVERSE switch-indicator REVERSE switch-indicator goes off
to off
NOTE
Repeat steps y and z to completely
rewind tape.
aa. Lift tape reader read head cover
and remove tape from reader
NOTE
Normally, the IMU calibration data
already is in memory because an
IMU alignment was performed. If
this is the case, proceed to step ao.
If an IMU alignment tape is to be
loaded, continue with step ab.
It is easier to handle the alignment
tape if it is installed on a reel.
ab. lift tape reader read head cover
and install IMU alignment tape
on tape reader. Gently lower
read head cover
No. 10 LED indicator lights steady
ac. Set tape reader FAST/SLOW
switch to SLOW
ad. Press MEMORY LOAD switch- MEMORY LOAD switch-indicator
indicator to on
lights
Tape reader reads tape and stops
near end
4-106.4
Change 5
Malfunction
indication/corrective
action
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-18.1. Operational Program Loading Using Tape Reader, Part No. 877406-2 — Continued
Test procedure
Normal indication
Malfunction
indication/corrective action
ae. Press MEMORY LOAD switch- MEMORY LOAD switch-indicator
indicator to off
goes off
af. Deleted
ag. Press REVERSE switch-indica- REVERSE switch-indicator lights
tor to on
Tape rewinds and stops at beginning
ah. Press REVERSE switch-indica- REVERSE switch-indicator goes off
tor to off
ai. Deleted
aj. Press VERIFY switch-indicator VERIFY switch-indicator lights
to on
Tape reader reads tape and stops at
end
VERIFY ERROR switch-indicator
lights and tape stops: Refer to step
2h of table 4-6.1
ak. Press VERIFY switch-indicator
to off
al. Deleted
am. Press REVERSE switch-indica- REVERSE switch-indicator lights
tor to on
Tape rewinds and stops near beginning
an. Press REVERSE switch-indica- REVERSE switch-indicator goes off
tor to off
ao. Lift tape reader read head cover
and remove IMU alignment tape
from tape reader and store in
IMU compartment
ap. Press EXECUTE switch-indicator to on
aq. Wait 15 seconds and press EXECUTE switch-indicator to off
ar. Sequentially press ON/OFF System turns off
switch-indicator and ENTER
switch
as. Set PS BATTERY and VEHICLE circuit breakers CB1 and
CB2 to OFF
at. Press SPU ON switch-indicator SPU ON switch-indicator goes off
to off
au. Disconnect W204 from computer and connect CDU cable
W1 to computer
Change 6
4-106.5
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-18.1. Operational Program Loading Using Tape Reader, Part No. 877406-2 – Continued
Test procedure
Normal indication
Malfunction
indication/corrective action
av. Turn on PADS via CDU and
advance to monitor mode
NOTE
Zeros may be entered for values of
survey parameters.
aw. After elevation is entered press Data display shows:
MON, ID, 1, 4, ENT pushbut- 14 MCS XXXXX (checksum)
tons
ax. Compare CDU checksum read- Checksums are equal
out to the program checksum
written on front of the operational program tape
Checksums are not the same: Reload
operational program
figure 3-1
NOTE
Loading of the operational program is complete and has been verified. The equipment can be reconfigured as
required . If an IMU has just been recalibrate the memory unit normally is removed from the computer and stored
with the IMU in an IMU transit case.
4-106.6 Change 1
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 4-10. Power Supply Testing Interconnection Diagram
(4-107 blank)/4-108
Change 5
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-19. PS Testing and Troubleshooting
Malfunction
indication/corrective action
Normal indication
Test procedure
The PS contains 115 volts ac. DEATH OR SERIOUS INJURY may result from contact
with 115 volts ac. Be careful when performing the PS testing and troubleshooting
procedure.
DEATH OR SERIOUS INJURY may result if power is not turned off before removing
covers, unsoldering wires, or measuring resistance. Be sure to disconnect cable assemblies W304 and W305.
NOTE
All controls, indicators, switches, switch-indicators, and test jacks called out in the testing and troubleshooting procedure are located on the PSTS, unless otherwise indicated.
After the PS shuts down, wait at least 5 seconds before turning the PS on.
1. TEST SETUP.
la. Perform PSTS self-test in accordance with
TM 5-6675-309-14. Marine Corps users
shall refer to TM 08840A-14/l
lb. Check that PSTS INPUT POWER switch is
OFF
lc. Adjust current limit of variable power supply
to 5 amperes
ld. Connect equipment as shown in figure 4-10
and the following checklist:
Cable
Unit
W301P1
PS 3J5
W301P2
PSTS J3
W302P1
PS 3J3
W302P2
PSTS J2
W303P1
PS 3J1
W303P2
PSTS J1
NOTE
Refer to figure 4-19 for Power Supply
printed circuit card locations.
4-109
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-19. PS Testing and Troubleshooting – Continued
Test procedure
Normal indication
Cable
Unit
W304P1
PS 3J4
W304P2
PSTS J6
W305P1
PS 3J2
W305P2
PSTS J7
W311P1
PSTS J5
W311P2
+28V
W306P1
PSTS J4
W306
o to +40V
Oscilloscope power
115VAC
Digital voltmeter
(DVM) power
115VAC
le. Disconnect power supply fan cable from
connector J6
2. PS TESTINGS
2a. Set switches as follows:
Switch
Setting
SELF TEST
OFF
INPUT POWER UUT
OFF
INPUT POWER PSTS OFF
4-110
MODE
OVERLOAD
FUNCTION
PS +28V
REFERENCE AMB
TEMP
O VDC
POWER SUPPLY
VEHICLE SENSE
ON
POWER SUPPLY
INTER LOCK
ON
POWER SUPPLY
IMU OVERTEMP
OFF
Malfunction
indication/corrective action
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-19. PS Testing and Troubleshooting – Continued
Test procedure
Normal indication
Switch
Malfunction
indication/corrective action
Setting
POWER SUPPLY
FLAG
OFF
COMP PS
OFF
2b. Set CB1 and CB2 circuit breakers to off
2c. Turn on external +28V power source
and adjust to +28V ( l)V
2d. Turn on external O to +40V power source
and adjust to +0.5 ( 0 .25)V. Adjust the
current limit for 5 to 7 amps
2e. Set switches in order as follows:
Switch
Setting
INPUT POWER PSTS ON
POWER SUPPLY
TEST SET
ON
MODE
NO LOAD
INPUT POWER UUT ON
2f. Set PS battery and vehicle CB1 and CB2 to
ON. Check that fan is disconnected from J6
2g. Connect DVM test leads to POWER
SUPPLY PWR IN and PWR RTN test jacks
2h. Slowly increase O to +40V external power
source to +5V or 5 amp current limit.
If no current limit occurs, continue
increasing voltage to +24 (~0 .5)V at
POWER SUPPLY PWR IN and PWR RTN
test jacks
Current drawn from O to +40V If current is greater than 1 amp indicaextemal power source is less
ting a short, perform subroutine 1,
than 1 amp
then repeat steps 2a thru 2h. If current is still greater than 1 amp, perform
subroutine 2 and recheck step 2h
2i. Press POWER SUPPLY ON switch
PS ON indicator lights. Current drawn from O to +40V
external power source is
1 to 6 amps
Use oscillsocope to determine which
particular output is missing when the
switch is recycled. Look for outputs
in order of +14V (+14V is on +INV
DR jack), +28V, -28V, +17V, 400-Hz
sinewave, 400-Hz square wave by
selecting proper FUNCTION switch
positions
4-111
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-19. PS Tasting and Troubleshooting – Continued
Test procedure
Normal indication
Malfunction
indication/corrective action
If all voltages are present, replace
sequence monitor circuit card
assembly AS
If +14 or ±28V is missing, replace 28V
converter-regulator circuit card
assembly A3
If +17V is missing, replace +17V
converter-regulator circuit card
assembly A 1 and/or power inverter
assembly A6
If 400-Hz sine wave is missing, replace
power inverter assembly A6
If unit does not stay on for 0.5 second
or more, perform subroutines 1,2,3
and 4. If no faults are found, replace
sequence monitor circuit card assembly A5
2j. Connect DVM test leads to POWER
SUPPLY +28V and PWR RTN test jacks
DVM indicates +26 to +30V
If voltage is out of tolerance, adjust
A3R4
2k. Connect DVM test leads to POWER
SUPPLY -28V and PWR RTN test jacks
DVM indicates -26 to -30V
If voltage is out of tolerance, replace
28V converter-regulator circuit card
assembly A3
21. Connect DVM test leads to POWER
SUPPLY +17V and PWR RTN test jacks
DVM indicates +16.9 to
+17.1V
If voltage is +16 to +18.3V adjust
AR36. Otherwise replace +17V
converter-regulator circuit card
assembly A 1
2m.. Connect DVM test leads to POWER
SUPPLY + INV DR and PWR-RTN test
jacks
DVM indicates +12.5 to
+14.OV
If voltage is out of tolerance, replace
28V converter-regulator circuit card
assembly A3
2n. Connect DVM test leads POWER SUPPLY
+24 AUX and PWR RTN test jacks
DVM indicates +21 to
+24.5V
Check input power. If voltage is missing, check continuity from main
relay KI-A2 to 3J5-5
20. Set DVM to DC volts and connect DVM
test leads to POWER SUPPLY +24V
UNREG and PWR RTN test jacks
DVM indicates +21 to
+24.5V
Same as step 2n
2p. Connect DVM test leads to POWER
SUPPLY AMB PWR HEAT and PWR
RTN test jacks
DVM indicates 0 (±0.9) VDC
Replace +20V converter-regulator circuit card assembly A2, then sequence
monitor circuit card assembly A5
2q. Connect DVM test leads to POWER
SUPPLY AMB PWR COOL and PWR RTN
test jacks
DVM indicates 0 (±0.9) VDC
Same as step 2p
4-112
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-19. PS Testing and Troubleshooting – Continued
Test procedure
Normal indication
Malfunction
indication/corrective action
2r Connect DVM test leads to POWER
SUPPLY HTR 1 and PWR RTN test jacks
DVM indicates 0 (~0.9) VDC
Measure voltage between K2-X1 and
K2-X2. If less than 10V, replace K2;
if greater than 10V, replace sequence
monitor circuit card assembly A5
2s. Connect DVM test leads to POWER
SUPPLY HTR 2 and PWR RTN test jacks
DVM indicates 0 (~0.9) VDC
Same as 2r
2t. Set multimeter to AC volts and connect
test leads to POWER SUPPLY 115V /0
and PWR RTN test jacks
Multimeter indicates 85 to
115 VAC
If incorrect, replace power inverter
assembly A6
2u. Connect multimeter test leads to POWER
SUPPLY 115V f$JO and PWR RTN test
jacks
Multimeter indicates 100 to
121 VAC
Same as step 2t
2v. Connect multimeter test leads to POWER
SUPPLY COMP BLO and PWR RTN test
jacks
Multimeter indicates 45 to
65 VAC
If incorrect, replace power inverter
assembly A6, then C2
2w . Connect multimeter test leads to POWER
SUPPLY IMU BLO and PWR RTN test
jacks
Multimeter indicates 45 to
65 VAC
If incorrect, replace power inverter
assembly A6, then C3
2x. Connect multimeter test leads to POWER
SUPPLY 26V ~0 and PWR RTN test
jacks
Multimeter indicates 25.5 to
28.4 VAC
If the voltage is out of tolerance,
replace power inverter assembly A6
DVM indicates +26 to +30V
Voltage out of tolerance; replace 28V
converter-regulator circuit card
assembly A3
DVM indicates -24V to -28V
Same as step 2z
2y. Disconnect multimeter PSTS and press
POWER SUPPLY OFF switch; then set
MODE switch to FULL LOAD
2z. Press POWER SUPPLY ON switch. Set
DVM to DC volts and connect DVM to
POWER SUPPLY +28V and PWR RTN
test jacks
2aa.
Press POWER SUPPLY OFF switch, set
FUNCTION switch to -28V, press
POWER SUPPLY ON switch, and connect
DVM to POWER SUPPLY -28V and PWR
RTN test jacks
2ab.
Disconnect DVM from PSTS
2ac.
Set multimeter to AC volts. Press POWER Multimeter indicates 95 to
125 VAC
SUPPLY OFF switch, set FUNCTION
switch to 115V LO, press POWER SUPNOTE
PLY ON switch, and connect multimeter
to POWER SUPPLY 115V LO and PWR
If voltage is out of tolerance,
RTN test jacks
check input power before
taking corrective action, step
2c.
Voltage out of tolerance; replace power
inverter assembly A6
4-113
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-19. PS Testing and Troubleshooting – Continued
Test procedure
2ad. Press POWER SUPPLY OFF switch, set
FUNCTION switch to 115 LO, press
POWER SUPPLY ON switch, and connect multimeter to 115V ~90 and PWR
RTN test jacks
Normal indication
Malfunction
indication/corrective action
Multimeter indicates 100
to 121 VAC
Use oscilloscope to determine if
+17.0V remains on. If it does not,
replace +17V, converter-regulator
circuit card assembly A 1. If the +17
is present, replace power inverter
assembly A6
DVM indicates +16.0 to
+18.8V
If the voltage is out of tolerance or the
PS shuts off, replace +20V converterregulator circuit card assembly A2,
then sequence monitor circuit card
assembly AS, then K3
2a1. Comect DVM test leads to POWER
DVM indicates +10.0 to
SUPPLY AMB PWR COOL and PWR RTN +11.8V
test jack
If the voltage is out of tolerance or the
PS shuts off, replace sequence monitor circuit card assembly AS, then
+20V converter-regulator circuit card
assembly A2
2ae. Disconnect multirneter from PSTS
2af. Press POWER SUPPLY OFF switch, set
FUNCTION switch to PS AMB PWR
2ag. Set REFERENCE switch to AMB TEMP
+8V
2ah. Set DVM to DC volts. Press POWER
SUPPLY ON switch
2ai. Connect DVM test leads to POWER
SUPPLY AMB PWR HEAT and PWR
RTN test jacks
2aj. Press POWER SUPPLY OFF switch and
set REFERENCE switch to AMB TEMP
V LAMP-5 VDC
2ak. Press POWER SUPPLY ON switch
2am. Press POWER SUPPLY OFF switch
2an. Set REFERENCE switch AMB TEMP
+8 VDC
2ao. Press POWER SUPPLY ON switch
2ap. Connect DVM test leads to POWER
SUPPLY HTR 1 and PWR RTN test jacks
DVM indicates +25 to +29V
Voltage out of tolerance: Replace
sequence monitor circuit card
assembly AS, then K2
2aq. Connect DVM meter test leads to
POWER SUPPLY HTR 2 and PWR RTN
test jacks
DVM indicates +24 to +28V
Voltage out of tolerance: Replace K2
4-114
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-19. PS Testing and Troubleshooting – Continued
Test procedure
Malfunction
indication/corrective action
DVM indicates 0 (±0.1) VDC
Voltage out of tolerance: Replace
sequence monitor circuit card
assembly A5, then K2
2av. Set multimeter to AC volts. Set
FUNCTION switch to PS 115V LO, press
POWER SUPPLY ON switch and connect
multimeter to POWER SUPPLY 115V
LO and PWR RTN test jacks
Multimeter indicates 100 to
130 VAC
Voltage out of tolerance: Replace
power inverter assembly A6
2aw. Set MODE switch to -RECT LOAD
Voltage should be same as
reading in step 2av, -1-10
volts
Same as 2av
25x. Momentarily set POWER SUPPLY FLAG
switch to RESET; then, to SET
CHARGE/BATTERY indicator lights when set. PS
BATT FAIL and PS FAIL
fault indicators DS 1 and
DS2 reset to black and then
set to white
If either fault indicator fails to
activate, disc onnect PS, remove
sequence monitor circuit card
assembly A5, apply 24 VDC between
chassis (-) X45- I 2. Then a momentary ground to A5J2-23 or A5J12-24
should activate the indicator. A
ground to 3J5-12 should clear both
indicators. If this doesn’t work, check
for broken wires; if no broken wires
are found, DS 1 and/or DS2 are faulty
and should be replaced. Reinstall
sequence monitor circuit card
assembly A5
2ar.
Set REFERENCE switch to AMB TEMP
V LAMP -1 VDC
Normal indication
2as. Disconnect DVM from PSTS
2at. Press POWER SUPPLY OFF switch
2au. Set MODE switch to +RECT LOAD
2ay. Set MODE switch to OVERLOAD
2az. Set POWER SUPPLY FLAG switch to
RESET
PS BATT FAIL and PS FAIL
fault indicators DS1 and
DS2 to black
2ba. Set FUNCTION switch to PS +28V
2bb. Press INITIATE switch
PS ON indicator goes off
PS FAIL fault indicator
DS2 goes to white
2bc. Press POWER SUPPLY ON switch
PS ON indicator lights
OVERLOAD FAIL indicator lights:
Replace sequence monitor circuit card
assembly A5, then 28V converterregulator circuit card assembly A3,
then +20V converter-regulator circuit
card assembly A2, if required
4-115
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-19. PS Testing and Troubleshooting – Continued
Test procedure
Normal indication
Malfunction
indication/corrective action
2bd. Set FUNCTION switch to PS 115V &O
2be. Set POWER SUPPLY FLAG switch to
RESET
PS FAIL fault indicator DS2
goes black
2bf. Press INITIATE switch
PS ON indicator goes off
PS FAIL fault indicator
DS2 goes white
OVERLOAD FAIL indicator lights:
Replace power inverter assembly A6,
then sequence monitor circuit card
assembly AS
2bg. Set FUNCTION switch to PS AMB
PWR and MODE switch to OVERVOLT
2bh. Press POWER SUPPLY ON switch
PS ON indicator lights
2bi. Set POWER SUPPLY FLAG switch to
RESET
PS FAIL fault indicator DS2
goes black
2bj. Press INITIATE switch
PS ON indicator goes off
PS FAIL fault indicator
DS2 goes white
2bk. Press POWER SUPPLY ON switch
PS ON indicator lights
2bl. Momentarily set POWER SUPPLY FLAG
switch to RESET
PS FAIL fault indicator DS2
goes black
Same as step 2ax
2bm. Momentarily set POWER SUPPLY IMU
OVERTEMP switch to ON
PS ON indicator goes off
PS FAIL fault indicator
DS2 goes white
PS ON indicator remains on: Replace
sequence monitor circuit card
assembly A5
2bo. Press POWER SUPPLY ON switch
CHARGE and BATTERY
indicators do not light
Indicator(s) does not light: Replace
sequence monitor circuit card
assembly A5
2bp. Set POWER SUPPLY FLAG switch to
RESET
PS FAIL fault indicator DS2
goes black
2bq. Set POWER SUPPLY INTER LOCK
switch to OFF
BATTERY indicator lights
2br. Set POWER SUPPLY INTER LOCK
switch to ON
BATTERY indicator goes off
2bs. Adjust 0 to +40V external power source
to +19.0 (±0.5)V. Measure power supply
voltage at POWER SUPPLY PWR IN and
PWR RTN test jacks
BATTERY indicator flashes
on and off
OVERLOAD FAIL indicator lights:
Replace sequence monitor circuit
card assembly A5
2bn. Set MODE switch to NO LOAD
4-116
Battery indicator does not light:
Replace sequence monitor circuit card
assembly A5
BATTERY indicator does not flash off
and on: Replace sequence monitor
circuit card assembly A5
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-19. PS Testing and Troubleshooting – Continued
Test procedure
Normal indication
Malfunction
indication/corrective action
2bt. Adjust 0 to +40V external power source
to +28, then to +24 (±0.5)V. Measure
power supply voltage at POWER
SUPPLY PWR IN and PWR RTN test
jacks
BATTERY indicator goes
off
BATTERY indicator lights: Replace
sequence monitor circuit card
assembly A5
2bu. Set PS VEHICLE circuit breaker CB2 to
off
BATTERY indicator lights
BATTERY indicator dots not light:
Replace sequence monitor circuit card
assembly A5
2bv. Set PS VEHICLE circuit breaker CB2
to on
BATTERY indicator goes
off
If shutdown occurs, replace sequence
monitor circuit card assembly A5. If
shutdown prevails, replace diode CR3
2bw. Press POWER SUPPLY OFF switch.
Set MODE switch to BATT SIM 1A.
Set POWER SUPPLY INTERLOCK
switch to OFF. Connect DVM test
leads to POWER SUPPLY BATT and
PWR RTN test jacks
DVM indicates +22 to
+25V
Voltage out of tolerance: Check R4.
Replace sequence monitor circuit
card assembly A5, then battery
charger circuit card assembly A7
2bx. Set POWER SUPPLY INTERLOCK
switch to ON (wait approximately 14
seconds)
DVM indicates +26.9 to
+29.1V. CHARGE indicator flashes on then
remains off
If voltage is within tolerance but
CHARGE indicator stays on, replace
sequence monitor circuit card
assembly A5
If voltage is out of tolerance, replace
sequence monitor circuit card
assembly A5, then battery charger
circuit card assembly A7
2by. Set MODE switch to BATT SIM 4A
DVM indicates +26.9 to
+29.1V CHARGE indicator
lights
If voltage is within tolerance but
CHARGE indicator does not light,
replace sequence monitor circuit card
assembly A5
If voltage is out of tolerance, replace
battery charger circuit card assembly
A7, then sequence monitor circuit
card assembly A5
2bz. Connect DVM test leads to POWER
SUPPLY PWR IN and PWR RTN test
jacks
2ca. Slowly decrease +28V power source
until CHARGE indicator goes off
DVM indicates +24 to +25V
Same as step 2by
2cb. Set POWER SUPPLY VEHICLE SENSE
switch to OFF. Increase external +28V
power source to +28V
CHARGE indicator lights
If CHARGE indicator does not light,
replace sequence monitor circuit card
assembly A5, then battery charger
circuit card assembly A7
Change 5
4-117
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-19. PS Testing and Troubleshooting - Continued
Test procedure
2cc. Slowly decrease external +28V power
source until CHARGE indicator goes
off
Normal indication
DVM indicates +22.5 to +24V Same as step 2by
PS ON indicator lights.
2cd. Set MODE switch to NO LOAD. Set
BATTERY indicator goes
PS VEHICLE circuit breaker CB2 to
OFF. Press POWER SUPPLY ON switch ON
2ce. Set PS BATTERY circuit breaker CB1
to OFF
2cf. Press POWER SUPPL TEST SET ON
switch-indicator to off
2cg. Set INPUT POWER PSTS circuit breaker
to OFF. Disconnect PS from PSTS
2ch. Increase external +28V power source to
+28V
2ci. Reconnect power supply fan connector
to J6
2cj. Adjust 0 to +40V external power
source to 0V
TEST COMPLETED
4-118
Change 5
Malfunction
indication/corrective action
If power supply does not turn on,
replace sequence monitor circuit card
assembly AS
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 4-11. Power Supply Circuit Card Adjustment Locations (Sheet 1 of 2)
4-119
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 4-11. Power Supply Circuit Card Adjustment Locations (Sheet 2 of 2)
d. PS Troubleshooting Subroutine No. 1 - Input
Power Short and Continuitv Checks. This subroutine
checks the circuits that carry the + 24v input power
ahead of the main relay K1. The power supply runs on
+ 24V from either the vehicle battery at 3J4 or the
backup battery at 3J2. The normal mode of operation is
to use only the vehicle power through filter FL1,
vehicle circuit breaker CB2, and power diode CR2 to
the main relay K1. When the system draws more ower
than the normal path can supply (60 to 100 amps, or if
the normal path is intermpted, sequence monitor circuit card assembly A5 will turn on controlled rectifier
CR3. This allows the backup battery to maintain a
continuous flow of power to the system, When controlled rectifier CR3 is turned on to connect backup power
to the main relay Kl, it will stay on as long as a current
flows through it, The flow of current from the backup
battery is sensed by a change in inductance of T1. This
is done to keep the battery charger off while CR3 is
conducting. Controlled rectifier CR3 will stop conducting and turn off when the vehicle voltage recovers
enough to support the total load. When CR3 is not
conducting, the battery charger will keep the backup
battery at + 28V, Power diode CR2 keeps backup
power from flowing out 3J4 to the vehicle if the vehicle
battery is low or if the vehicle starter is engaged. FL1
removes 40 kHz ripple that would otherwise be placed
on the vehicle battery. Perform subroutine no. 1 as
follows:
4-120
(1)
Set BATTERY and VEHICLE circuit breakers
CB1 and CB2 to OFF.
(2)
If 0 to + 40V input power source still indicates greater than 1 amp, the short remains:
replace filter FL1.
(3)
If short is removed, check from filter FL1-1 to
ground for + 5V.
(4)
If + 5V is not present, replace filter FL1.
(5)
Set PSTS INPUT POWER UUT circuit
breaker to OFF.
(6)
Set INPUT POWER PSTS circuit breaker to
OFF.
(7)
Set 0 to + 40V input power source to off.
(8)
Remove battery char er circuit card assembly
A7 (paragraph 4-19b(7)) far enough to disconnect connector A7P1. Leave transistors A706
and A7Q7 installed. Secure circuit card with
one screw.
(9)
Set PSTS INPUT POWER PSTS circuit
breaker to ON.
(lo)
Set INPUT POWER UUT circuit breaker to
ON.
(11)
Set 0 to + 40V input power source to on.
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
(12)
Set BATTERY and VEHICLE circuit breakers
CB1 and CB2 to ON.
(13) If short is removed, replace battery charger
circuit card assembly A7.
(14) Set BATTERY and VEHICLE circuit breakers
CB1 and CB2 to OFF.
(15) Set PSTS INPUT POWER UUT circuit
breaker to OFF.
(16) Set INPUT POWER PSTS circuit breaker to
OFF.
(17) Set 0 to + 40V input power source to off.
(18) Reinstall battery charger circuit card assembly
A7.
(19) Set PSTS INPUT POWER PSTS circuit
breaker to ON.
(20) Set INPUT POWER UUT circuit breaker to
ON.
(21) Set 0 to + 40V input power source to on.
(22) Set BATTERY circuit breaker CB1 to ON.
(23) If short is present, set BATTERY circuit
breaker CB1 to OFF.
(24)
Set PSTS INPUT POWER UUT circuit
breaker to OFF.
(25)
Set INPUT POWER PSTS circuit breaker to
OFF.
Set 0 to + 40V input power source to off.
Check diode CR3 anode to ground for short.
If short exists, check diode CR3 anode terminal lug and insulator for damage. Repair or
replace as necessary.
If diode CR3 mode is not shorted, set BATTERY circuit breaker CB1 to ON and check
BATTERY circuit breaker CB1-3 to ground
for short.
(26)
(27)
(28)
(29)
(30)
If short is not present, replace BATTERY
circuit breaker CB1.
(31) Set PSTS INPUT POWER PSTS circuit
breaker to ON.
(32) Set INPUT POWER UUT circuit breaker to
ON.
(33) Set 0 to + 40V input power source to on.
(34) Check diode CR3 anode to ground for + 5V.
(35) If + 5V is not present, check BATTERY circuit breaker CB1-1 to ground for + 5V.
(36) If + 5V is not present, replace BATTERY
circuit breaker CB1.
(37) Set BATTERY circuit breaker CB1 to OFF.
(38)
Set VEHICLE circuit breaker to CB2 to ON.
(39)
If short is present, set VEHICLE circuit
breaker CB2 to OFF and check diode CB2
anode to ground for a short.
(40)
If short is present, check diode CR2 anode
terminal lug and insulator for damage. Repair
or replace as necessary.
(41)
Set VEHICLE circuit breaker CB2 to ON and
check VEHICLE circuit breaker CB2-3 to
ground for a short.
(42)
If short is not present, replace VEHICLE
circuit breaker CB2.
(43)
Check diode CR2 anode to ground for + 5V.
(44)
If + 5V is not present, check VEHICLE circuit breaker CB2-1 to ground for + 5V.
(45)
If + 5V still is not present, redate
VEHICLE
.
circuit breaker CB21
NOTE
If subroutine 1 is done for step 2h of
table 4-19, voltage indications will be
approximately +24 volts.
e. PS Troubleshooting Subroutine No. 2 – Bus
Power Short and Continuity Checks. This subroutine
checks that the DC input power can be applied to the
circuits when main relay K1 is turned on: ‘Before it is
closed, only the battery charger and sequence monitor is
active. When K1 closes, some of the + 24V power is
sent directly to connector 3J5-6 for use by the system
computer. Most of the remaining current flows to the
input filter board, In the switching regulator section of
the chassis, this current is then divided to the three
regulators. The most probable failures are shorted transistors and shorted capacitors. These are found by
removing assembles. Perform subroutine no. 2 as follows:
(1)
Set BATTERY circuit breaker CB1 to OFF.
(2)
Check that standoff terminal El is shorted to
standoff terminal E2. Standoff terminal E2.
Standoff terminals El and E2 are located on
filter circuit card assembly A4 where terminal
lugs are connected.
(3)
Pull filter circuit card assembly A4 away from
intercomection assembly by loosening wedgelocks and heat sink captive screws.
(4)
If short between standoff terminals El and E2
is removed, reinstall filter circuit card assembly A4.
(5)
If short between standoff terminals El and E2
remains, replace filter circuit card assembly
A4.
4-121
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
(6) Start removing one at a time, until short is
removed, the power inverter assembly A6,
28V converter-regulator circuit card assembly
A3, + 17V converter-regulator circuit card
assembly Al, + 20V converter-regulator circuit card assembly A2, and sequence monitor
circuit card assembly A5, Monitor standoff
terminals El and E2 until short disappears.
(7) Reinstall all circuit card assemblies except one
which is determined to have caused short and
verify that no other shorts exist.
(8) Replace suspected malfunctioning circuit card
assembly.
(9) If short between standoff terminals El and E2
still exits’ with disconnection of filter circuit
card assembly A4, disconnect standoff terminal
El and see if short is removed from between
standoff terminals El and E2.
(l0) If short remains, replace filter circuit card
assembly A4.
(11) If short is removed, check diode CR5 and the
output filter circuit card assembly A9.
f. PS Troubleshootfng Subroutine No. 3- Relay
Check. This subroutine checks the function of relay K1.
Relay K1 is the main system on-off relay. It connects the
+ 24V input power from either vehicle or the backup
battery, or both, to the power bus leading to the
regulators and inverters. Coil K1-X2 is connected to the
+ 24V power by diodes on the battery charger circuit
card assembly A7, The other side of coil K1-X1 is
connected to ground to energize the relay by the sequence monitor circuit card assembly A5. Perform
subroutine no. 3 as follows:
(1) Set BATTERY and VEHICLE circuit breakers
CB1 and CB2 to OFF.
(2) Remove lead from standoff terminal E1 (on
filter circuit card assembly A4).
high, This point is supplied by a diode from either the
vehicle power or the backup power. This means that
AUX + 24V will exist if only one of the power sources
is available. The AUX + 24V is protected from vehicle
voltage transients to 50 volts. This protected AUX
+ 24V is sent to the computer power supply on 3J5-5
and is used to drive relay K1. The + 12V is generated
from the AUX + 24V to turn the system on. The + 12V
is used on 28V converter-regulator circuit card assembly A3 to power the switching regulator circuits until
the + and –14V is available. The + 12V is also used
on the sequence monitor circuit card assembly A5.
Perform subroutine no. 4 as follows:
(1)
(2) If AUX + 24V is not present, set BATTERY
and VEHICLE circuit breakers CB1 and CB2
to OFF.
(3) Set PSTS INPUT POWER UUT circuit
breaker to OFF.
(4)
4-122
Set INPUT POWER PSTS circuit breaker to
OFF.
(5) Set O to + 40V input power source to off.
(6) Replace battery charger circuit card assembly
A7.
(7)
Set PSTS INPUT POWER PSTS circuit
breaker to ON.
(8) Set INPUT POWER UUT circuit breaker to
ON.
(9)
(l0)
Set O to + 40V input power source to on.
Set BATTERY and VEHICLE circuit breakers
CB1 and CB2 to ON.
(11) Check for + 12V at sequence monitor circuit
card assembly A5 connector P2-1.
(12)
If + 12V is not present, the fault is in one of
three assemblies; 28V converter-regulator circuit card assembly A3, sequence monitor circuit card assembly A5, or battery charger
circuit card assembly A7.
(13)
Set BATTERY and VEHICLE circuit breakers
CB1 and CB2 to OFF.
(14)
Set PSTS INPUT POWER UUT circuit
breaker to OFF.
(15)
Set INPUT POWER PSTS circuit breaker to
OFF.
(16)
Set O to + 40V input power source to off.
(17)
Remove 28V converter-regulator circuit card
assembly A3.
(18)
Set PSTS INPUT POWER PSTS circuit
breaker to ON.
(3) Check from lead to ground for O VDC.
(4) Set BATTERY and VEHICLE circuit breakers
CB1 and CB2 to ON.
(5) Ground relay K1-XL
(6) Voltage between lead removed from terminal
El and ground should be +23 to + 29V.
(7) If less than + 23V, check diode CR5 for short.
If not shorted, replace relay K1.
(8) Reinstall lead on standoff terminal El.
g. PS Troubleshooting Subroutine No. 4 - A UX
+24V and +12V and +12V Check.This subroutine checks the
functioning of the internal voltages AUX +24V and the
+ 12V. The power supply generates for internal use the
two voltages called AUX + 24V, and + 12V. The AUX
+ 24V starts at A7-J-11 and is called main relay coil
Measure AUX + 24V at relay K1-X2.
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
(19) Set INPUT POWER UUT circuit breaker to
ON.
(20) Set 0 to + 40V input power source to on,
(21) Set BATTERY and VEHICLE circuit breakers
CB1 and CB2 to ON.
(22) Check for + 12V at sequence monitor circuit
card assembly AS connector P2-1.
(23) If + 12V is present, perform the following
steps:
(a) Set BATTERY and VEHICLE circuit breakers CB1 and CB2 to OFF.
(b) Set PSTS INPUT POWER UUT circuit
breaker to OFF.
(c) Set INPUT POWER PSTS circuit breaker
to OFF.
(d) Set 0 to + 40V input power source to off.
(e) Replace 28V converter-regulator circuit
card assembly A3.
(24) If + 12V is not present, perform the following
steps:
(a) Reinstall 28V converter-regulator circuit
card assembly A3.
(b) Disconnect connector A5 J2 from sequence
monitor circuit card assembly A5.
(c) Set PSTS INPUT POWER PSTS circuit
breaker to ON.
(d) Set INPUT POWER UUT circuit breaker
to ON.
(e) Set 0 to + 40V input power source to on,
(f) Set BATTERY and VEHICLE circuit breakers CB1 and CB2 to ON,
(g) Check for + 12V at sequence monitor circuit card assembly A5 connector P2-1.
(h) If + 12V is present, set BATTERY and VEHICLE circuit breakers CB1 and CB2 to
OFF.
(i)
Set PSTS INPUT POWER UUT circuit
breaker to OFF.
(j) Set INPUT POWER PSTS circuit breaker
to OFF.
(k) Set 0 to + 40V input power source to off,
(1) Replace sequence monitor circuit card assembly A5.
(m) If + 12V is not present, replace battery
charger circuit card assembly A7.
(n) Reconnect connector A5T2 to sequence
monitor circuit card assembly A5.
4-14. Computer Power Supply Testing and Troubleshooting.
a. Test Equipment and Materials.
(1) Power supply test set (PSTS)
(2) Digital Voltmeter AN/GSM-46B
(3) Multimeter AN/USM-223
(4) Oscilloscope AN/USM-281A or AN/USM-273
b. Procedure.
NOTE
When card Al, A2, or A3 is removed
during the troubleshooting process, be
sure to note the serial number of the
original card so it will not be confused
with any new replacements and installed
inadvertently,
Perform computer PS testing and troubleshooting in
accordance with table 4-20, Figure 4-12 contains the
test setup interconnection diagram. See figure 4-13 for
circuit card adjustment locations, See figure 4-15 to
locate circuit cards in the computer power supply.
After a repair action has been taken, the complete test
(part 2 of table 4-20) should be performed. In any test
where more than one circuit card has been replaced,
circuit cards other than the last circuit card changed
shall be replaced and the step repeated.
4-123
ARMY TM 8-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 4-12. Computer Power Supply Testing and Troubleshooting Interconnection Diagram
4-124
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 4-13. Computar Power Supply Circuit Card Adjustment Locations
4-125
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-20. Computer Power Supply Testing and Troubleshooting
Normal indication
Test procedure
Malfunction
indication/corrective action
Before removing covers or circuit cards, disconnect power from the power supply by
setting COMP PS switch and INPUT POWER UUT circuit breaker to OFF or damage to
equipment may result.
NOTE
AU controls, indicators, switches, switch indicators, and test jacks called out in the
testing and troubleshooting procedure are located on the PSTS, unless otherwise indicated.
TM 5-6675-309-14
TM 08840A-14/1
figure 4-12
4-126
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-20. Computer Power Supply Testing and Troubleshooting - Continued
Test procedure
2.
Normal indication
Malfunction
indication/corrective action
COMPUTER POWER
SUPPLY TEST.
2a. Set switches as follows:
Switch
COMP PS
INPUT
POWER
PSTS
INPUT
POWER
UUT
MODE
FUNCTION
Setting
OFF
OFF
OFF
OVERLOAD
COMP PS
+ 5V
REFERENCE
AMB TEMP
V LAMP
0 VDC
OFF
SELF TEST
2b. Turn on external +28V power
source
2c. Turn on external 0 to +40V
power source and adjust to 0V.
Set current limit to 10 amps
2d. Set INPUT POWER PSTS circuit breaker to ON
PSTS fan comes on
2e. Press POWER SUPPLY TEST
SET ON switch-indicator. Set
MODE switch to NO LOAD.
POWER SUPPLY TEST SET ON
switch-indicator goes on
2f. Set INPUT POWER UUT circuit breaker to ON
2g. Set COMPT PS switch to ON.
Gradually increase external 0
to +40V power source to +24
(±0.5)V. Measure voltage at
COMPUTER POWER SUPPLY PWR IN and PWR RTN
test jacks
Current drawn from 0 to +40V external power source is less than 7
amps and COMP PS ON indicator
lights
If a short is indicated, exchange 5V
power s u p p l y c i r c u i t c a r d
assembly A1, then 15V power
supply circuit card assembly A2,
then wiring harness A3
2h. Set COMP PS switch to OFF,
then to ON
COMPS PS ON indicator goes off,
then lights
If indicator light does not go off
when COMP PS switch is set to
OFF, replace 15V power supply
circuit card assembly A2
If indicator does not stay on when
COMP PS switch is set to ON, try
replacing 5V power supply circuit
card assembly A1, or 15V power
supply circuit card. assembly A2,
or wiring harness A3
Change 2
4-127
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-20.
Test procedure
Computer Power Supply Testing and Troubleshooting—Continued
Normal indication
Malfunction
indication/corrective action
.
4-128
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-20. Computer Power Supply Testing and Troubleshooting – Continued
Test procedure
2x. Set COMP PS switch to OFF
Normal indication
Malfunction
indication/corrective action
COMP PS ON indicator goes
off
2y. Set REFERENCE AMB TEMP V LAMP
switch to O V
22. Set FUNCTION switch to COMP PS +15V
PREC
2aa. Set COMP PS switch to ON
COMP PS ON indicator lights
2ab. Connect DVM test leads to COMP PWR
SPLY PREC + 15V and PWR RTN test
jacks
DVM indicates +14.8 to
+15.2V
2ac. Set COMP PS switch to OFF
COMP PS ON indicator goes
off
If the voltage is out of tolerance,
replace 5V power supply circuit card
assembly A1
2ad. Set FUNCTION switch to COMP PS
-15V PREC
2ae. Set COMP PS switch to ON
COMP PS ON indicator lights
2af. Connect DVM test leads to COMP PWR
SPLY PREC -1 5V and PWR RTN test
jacks
DVM indicates -14.7 to
-15.3V
2ag. Set COMP PS switch to OFF
COMP PS ON indicator goes
off
If the voltage is out of tolerance,
replace 5V power supply circuit card
assembly A1
2ah. Set FUNCTION switch to COMP PS +5V
2ai. Set COMP PS switch to ON
COMP PS ON indicator lights
2aj. Connect DVM t est leads to COMP PWR
SPLY +5V and PWR RTN test jacks
DVM indicates +4.8 to +5.2V
If the voltage is out of tolerance,
replace 5V power supply circuit card
assembly A1
2ak. Disconnect DVM from PSTS
2al. Set COMP PS switch to OFF
COMP PS ON indicator goes
off
2am. Set MODE switch to NO LOAD
2an. Connect oscilloscope to POR* and
PWR RTN test jacks
2ao. Adjust oscilloscope vertical sensitivity
to 2 volts/division and center trace, then
set to DC coupling
4-129
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-20. Computer Power Supply Testing and Troubleshooting – Continued
Test procedure
Normal indication
Set COMP PS switch to ON
Oscillsocope trace rises to +3
to +6V when switch is set
and then drops to 0 to 0.5
VDC after 0.5 to 1.5
seconds and remains at this
level
If the voltage is out of tolerance,
replace 15V power supply circuit card
assembly A2
Connect the oscilloscope to OFF and
PWR RTN test jacks. Turn COMP PS
switch to OFF
OFF signal should be +3 to
+6 VDC
Replace 15V power supply circuit card
assembly A2 if off signal is not +3
to +6 VDC
Turn COMP PS switch to ON
Off signal should be 0 to
0.5 VDc
Replace 15V power supply circuit card
assembly A2 if off signal is not 0
to 0.5 VDC
Turn COMP PS switch to OFF
Set INPUT POWER UUT circuit breaker
to OFF
Press POWER SUPPLY TEST SET ON
switch-indicator
Set INPUT POWER PSTS circuit breaker
to OFF
Disconnect computer power supply from
PSTS
NOTE
Before turning off 0-40V power
supply, adjust to 0 volts.
Disconnect all test equipment
TEST COMPLETED
4-130
Malfunction
indication/corrective action
Switch-indicator light goes
off
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Section IV. MAINTENANCE OF PADS
4-15. General.
a. Maintenance of PADS allocated to general support by MAC consists of testing and repair of computer,
computer power supply, control and display unit, inertial measurement unit, and power supply.
4-16. Computer Maintenance. Computer maintenance
consists of computer and computer power supply testing and repair.
a. Computer Testing. Testing is performed using
the PADS test set as described in paragraph 4-9.
b. Computer Power Supply Testing. Testin is performed using the power supply test set (PSTS as described in paragraph 4-14.
c. Computer Repair. Computer repair consists of
replacing circuit card assemblies, memory unit, computer power supply, RFI gasket, fault indicator, elapsed
time indicator and thermostatic switch, and repair of
flexible harness assembly. See figure 4-14 for an exploded view of the computer. Refer to table 3-5 for
circuit card identification.
sparks. Avoid prolonged or repeated inhalation of vapors.
1.
Clean shoulder of fault indicator DS1 (21)
where it contacts computer subassembly
(10) using isopropyl alcohol and clean,
lint-free cloth. Repeat at least three times
using clean cloth each time. When clean,
wipe dry.
2.
Apply adhesive (MIL-A-46146, Type 1)
0.010- to 0.030-inch thick on fault indicator shoulder contact surface. Install fault
indicator DS 1 (21 ) in computer subassembly (10) within 5 minutes after applying
adhesive.
3.
Install nut (23) and lochwasher (22) securing fault indicator DS 1 (21 ) to computer
subassembly (lo) and tighten nut (23)
sufficiently to hold but not enough to
reduce the adhesive thickness to less than
().()1() inch.
4.
Prepare and solder tagged wires to fault
indicator DS1 (21). Clean solder joints.
5.
Place computer cover (3) on computer
subassembly (10); align mounting holes.
6.
Torque 16 screws (2) and washers (1)
securing computer cover (3) to computer
subassembly (l0) 16 inch-pounds using
procedures described in paragraph 3-11.
NOTE
Removal and replacement of circuit
cards, memory unit, and computer power
supply are described in paragraph 3-15.
Torquing procedures are given in paragraph 3-11.
(1) Fault indicator DS1. Remove and replace fault
indicator DS1 (21, figure 4-14) as follows:
(a) Removal.
1. Remove 16 screws (2) and washers (1)
securing computer cover (3) to computer
subassembly (10). Remove computer
cover.
2. Tag and unsolder wires connected to fault
indicator DS1 (21).
3. Remove nut (23) and lockwasher (22) securing fault indicator DS1 (21) to computer subassembly (10). Remove fault indicator DS1.
(b) Replacement.
(2) Elasped time indicator M1 Remove and replace elapsed time indicator M1 (25, figure 4-14) as
follows:
(a) Removal.
1.
Remove 16 screws (2) and washers (1)
securing computer cover (3) to computer
subassembly (10). Remove computer
cover.
2.
Tag and unsolder wires connected to
elapsed time indicator M1 (25).
3.
Remove two screws (27), spacers (26), and
one terminal lug (24) securing elapsed
time indicator M1 (25) to computer
subassembly (10). Remove elapsed time
indicator Ml.
(b) Replacement.
Isopropyl alcohol is flammable and gives
off harmful vapors. Use only in well-ventilated area away from open flames and
1. Install two screws (27), spacers (26), and
one terminal lug (24) securing elapsed
time indicator Ml (25) to computer
subassembly (10).
Change 1
4-131
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 4-14. Computer Exploded View
4-132
Change 5
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Legend for Figure 4-14
1. Washer
2. Screw
3. Computer cover
4. CDU mount bracket
5. Catch strike
6. Screw
7. Solid state memory unit A1
7.1 Core memory unit A1
8. Screw
9. Wedgelock
10. Computer subassembly
11. Washer
12. Screw
13. Air deflector
14. Screw
15. Washer
16. Guide pin
17. Captive screw assembly
18. Computer power supply
19. RFI gasket
2.
Prepare and solder tagged wires to
elapsed time indicator M1 (25). Clean
solder joints.
3.
Place computer cover (3) on computer
subassembly (10); align mounting holes.
4.
Torque 16 screws (2) and washers (1)
securing computer cover (3) to computer
subassembly (10) 16 inch-pounds using
procedures described in paragraph 3-11.
(3) Thermostatic switch S1. Remove and replace
thermostatic switch S1 (38, figure 4-14) as follows:
20.
21.
22.
23.
24.
25.
26.
27.
28.
29.
30.
31.
32.
33.
34.
35.
36.
37.
38.
Flexible harness assembly
Fault indicator DS1
Lockwasher
Nut
Terminal lug
Elapsed time indicator M1
Spacer
Screw
A/D converter circuit card assembly A11
I/O discrete circuit card assembly A9
Platform I/O circuit card assembly A8
I/O controller circuit card assembly A7
Data buffer circuit card assembly A6
Control no. 3 circuit card assembly A5
Control no. 2 circuit card assembly A4
Control no. 1 circuit card assembly A3
16-bit data circuit card assembly A2
RFI gasket
Thermostatic switch S1
sparks. Avoid prolonged or repeated inhalation of vapors.
1.
Clean thermostatic switch S1 (38) threads
and engaging threads in chassis using isopropyl alcohol. Use clean lint-free cloth
to apply alcohol and to wipe parts.
2.
Apply sealing compound (MIL-S-22473,
Grade H) to threads of thermostatic
switch S1 (38).
3.
Install thermostatic switch S1 (38) by
screwing into threaded mounting hole in
chassis.
4.
Prepare and solder tagged wires to thermostatic switch S1 (38). Clean solder
joints.
(a) Removal.
1. Tag and unsolder wires connected to thermostatic switch S1 (38).
2. Remove thermostatic switch S1 (38) by
unscrewing from chassis.
(b) Replacement.
(4) Computer flexible harness assembly repair.
Damaged printed circuitry on the computer flexible
harness assembly (20, figure 4-14) shall be repaired by
splicing with haywires. Repair flexible harness assembly
(20) as follows:
(a) Remove 16 screws (2) and washers (1) securing computer cover (3) to computer subassembly (10). Remove computer cover.
Isopropyl alcohol is flammable and gives
off harmful vapors. Use only in well-ventilated area away from open flames and
(b) Remove circuit card assemblies (28 thru 36).
(c) Remove memory unit (7 or 7.1).
Change 1
4-133
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Cut length of 28 AWG stranded insulated
wire long enough to connect termination
points of damaged circuitry. Strip insulation
for a length of 1/8 inch at each end of wire.
Solder wire to terminations using standard
shop practices.
Tack wire to flexprint at one-inch-intervals
as follows:
NOTE
Removal of 5V power supply circuit card
assembly Al (15) and 15V power supply
circuit card assembly A2 (22) are identical, therefore, only 5V power supply circuit card assembly Al will be covered.
1. Loosen 10 captive screws (20) securing
end plate (19) to chassis (10); remove end
plate.
2, Loosen two screws (17) securing wedgelocks (16) until 5V ower supply circuit
card assembly Al (15) is free.
NOTE
Isopropyl alcohol is flammable and gives
off harmful vapors. Use only in well-ventilated area away from open flames and
sparks. Avoid prolonged or repeated inhalation of vapors.
1. Clean wire and flexprint tack points using
isopropyl alcohol.
2. Apply bonding primer (A4094) to tack
points on flexprint. Allow to air dry.
3. Apply adhesive (RTV 156 or 30-079) to
tack points on flexprint and wire, apply
sufficient pressure to ensure good bond.
(g) Replace memory unit (7 or 7.1).
(h) Replace circuit card assemblies (28 thru 36).
(i) Torque 16 screws (2) and washers (1) securing computer cover (3) to computer subassembly (10) 16 inch-pounds using procedure
described in paragraph 3-11.
d. Computer Power Supply Repair. Computer
power supply repair consists of removal and replacement of circuit card assemblies, guide pins, captive
screws, RFI gasket, and repair of the wiring harness.
Replacement of the guide pins and captive screws are
described in paragraph 3-15. Replacement of RFI gaskets is described in paragraph 3-13. See figure 4-15 for
an exploded view of the computer power supply. Refer
to table 4-21 for circuit card identification. Replacement of the circuit card assemblies and repair of the
wiring harness is described in the following paragraph.
(1) 5V power supply circuit card assembly Al and
F&tier supply circuit card assembly A 2. Remove
and replace 5V ower supply circuit card assembly A1
(15, figure 4-15) or 15V power supply circuit card
assembly A2 (22) as follows:
(a) R e m o v a l .
4-134 Change 1
It may be necessary to loosen the wedges
if they become frozen. This can be done
by simply tapping the wedge screws
downward until the bottom wedges become loose.
3. Loosen three captive screws (18) securing
5V power supply circuit card assembly
Al (15) heat sink to chassis (10).
4. Use a card extractor to remove 5V power
supply circuit card assembly Al (15).
(b) Replacement.
NOTE
Replacement of 5V power supply circuit
card assembly Al (15) and 15V power
supply circuit card assembly A2 (22) are
identical; therefore, only 5V power supply circuit card assembly Al will be covered.
Insert 5V power supply circuit card assembly Al (15) into slot in chassis (10)
and carefully guide it into place.
2. Just before the connectors mate, check
that 5V power supply circuit card assembly Al (15) is free in its guides and its top
edge is parallel to the chassis (10) top
surface.
3. Seat 5V power supply circuit card assembly Al (15) by applying moderate, even
pressure at both corners. The top should
be flush with the chassis top surface. If
card does not readily seat, pull card out
and inspect for bent or broken connector
pins.
4. Tighten three captive screws (18) securing 5V power supply circuit card assembly Al (15) heat sink to chassis (10).
1.
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 4-15. Computer Power Supply Exploded View
4-135
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Legend for Figure 4-15
1.
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.
14.
15.
16.
17.
18.
19.
20.
21.
22.
Screw
Washer
Cover
RFI gasket
Wiring harness A3
Screw
Washer
Spacer
Nut
Chassis
Screw
Washer
Guide pin
Captive screw
5V power supply circuit card assembly Al
Wedgelock
Screw
Captive screw
End plate
Captive screw
Gasket
15V power supply circuit card assembly A2
Table 4-21. Computer Power Supply Circuit Card Assembly Identification
Card
part no.
Figure 4-15
index no.
5V power supply circuit card
assembly Al
Near top (opposite connector end) along
side edge on component side
880598-1 (preferred)
880780-14,880793-3,
8807934,880793-5,
and 880793-6
(alternates)
15V power supply circuit card
assembly A2
Near top (opposite connector end) along
side edge on component side
880753-2
Wiring harness A3
In middle on side that wire harnesses
connects
15
880595-6 (preferred)
8805954:880595-5,
880770-7,880770-8,
880770-9, and 880770-11
(alternates)
22
5
5. Tighten two screws (17) in wedgelocks
(16) until wedges are tight against edge of
slots.
1. Loosen 10 captive screws (20) securing
end plate (19) to chassis (10); remove end
plate.
6. Inspect gasket (21) on end plate (19).
Replace if cracked, tom, or excessively
compressed.
2. Loosen four screws (17) securing wedgelocks (16) until 5V ower supply circuit
card assembly Al (15) and 15V power
supply circuit card assembly A2 (22) are
free.
7. Secure end plate (19) to chassis (10) with
10 captive screws (20).
(2) Wiring harness A3 Remove. repair. and replace wiring harness A3 (5, figure 4-15) as follows:
(a) Removal.
4-136
Part no. location on card
reference designator
Change 7
NOTE
It may be necessary to loosen the wedges
if they become frozen. This can be done
by simply tapping the wedge screws
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
downward until the bottom wedges become loose.
3. Loosen six captive screws (18) securing
5V ower supply circuit card assembly
A1 (15) and 15V power supply circuit
card assembly A2 (22) heat sinks to chassis (10).
4. Use a card extractor to remove 5V power
supply circuit card assembly A1 (15) and
15V power supply circuit card assembly
A2 (22).
5. Remove 14 screws (1) and washers (2)
securing cover (3) to chassis (10); remove
cover.
6. Remove two screws (6), washers (7), and
spacers (8), four screws (11) and washers
(12), and nut (9) securing wiring harness
A3 (5) to chassis (9); carefuly remove
wiring harness A3.
(b) Repair. Repair of the wiring harness A3 (5)
consists of replacing damaged wires and components.
See figure 4-16 and table 4-22 and replace damaged
wiring and components using standard shop practices.
(c) Replacement.
1. Install wiring harness A3 (5) in chassis
(10) and loosely attach with four screws
(11) and washers (12).
2. Insert 5V power supply circuit card assembly A1 (15) into slot in chassis (10)
and carefully guide it into place.
3. Just before the connectors mate, check
that 5V power supply circuit card assembly A1 (15) is free and its guides and its
top edge is parallel to the chassis (10) top
surface.
4. Seat 5V power supply circuit card assembly A1 (15) by applying moderate, even
pressure at both corners. The top should
be flush with the chassis top surface. If
card does not readily seat, pull the card
out and inspect for bent or broken connector pins.
5. Tighten two screws (17) in wedgelock
(16) until wedge is tight against edge of
slot. Allow wiring harness A3 (5) to seek
its optimum position when wedgelocks
are tightened 4 to 5 inch-pounds.
6. Tighten top two screws (11) securing wiring harness (5) to chassis (10) while holding card (15).
7. Loosen two screws (17) securing wedgelocks (16) until 5V power supply circuit
card assembly A1 (15) is loose.
8. Use a card extractor to remove 5V power
supply circuit card assembly A1 (15).
9. Tighten remaining two screws (11) securing wiring harness (5) to chassis (10).
10. Finish securing wiring harness A3 (5) to
chassis (10) with two screws (6), washers (7),
and spacers (8), and nut (9). Apply sealing
compound (MIL-S-22473, Grade C) to
threads of screws (6). Tighten nut 110 to 120
inch-pounds. Check electrical bonding between nut and chassis (10) with an ohmmeter. Resistance should be 2.5 milliohms
maximum.
11. Insert 5V power supply circuit card assembly A1 (15) and 15V power supply
circuit card assembly A2 (22) into their
respective slots in chassis (10) and carefuly guide them into place.
12. Just before the connectors mate, check
that 5V power supply circuit card assembly A1 (15) and 15V power supply circuit
card assembly A2 (22) are free in their
respective guides and top edges are parallel to the chassis (10).
13. Seat 5V power supply circuit card assembly A1 (15) and 15V power supply circuit
card assembly A2 (22) by applying moderate, even pressure at both corners of each
card. The top should be flush with the
chassis top surface. If 5V power supply
circuit card assembly A1 (15) or 15V
power supply circuit card assembly A2
(22) does not readily seat, pull the card
out and inspect for bent or broken connector pins.
14. Tighten six captive screws (18) securing
5V power supply circuit card assembly
A1 (15) and 15V power supply circuit
card assembly A2 (22) heat sinks to chassis (10).
15. Tighten four screws (17) in wedgelocks
(16) of 5V power supply circuit card assembly A1 (15) and 15V power supply
circuit card assembly A1 (22) until wedge
is tight against edge of slot.
16. Inspect gasket (21) on end plate (19).
Replace if cracked, torn, or excessively
compressed.
17. Secure end plate (19) to chassis (10) with
10 captive screws (20).
18. Secure cover (3) to chassis (10) with 14
screws (1) and washers (2).
Change 5
4-137
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 4-16.
4-138
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4-22. Computer Power Supply Wiring Harness A3 Wiring Data
From
To
Branch
Color
4-139
ARMY TM 5-6675-308-34
MARlNE C0RPS TM 08837A-34/2
Table 4-22. Computer Power Supply Wiring Harries A3 Wiring Data-Continued
From
To
Branch
Color
NOTES
1. All wire is MIL-W-16878/4, Type E-22, 19 strands, except wire between A2-30 and
A2-31 which is uninsulated, type S, 22 AWG, solid, soft, tinned.
2. Termination points A3-1, etc, are located on interconnect printed wiring board as
shown on figure 4-16.
4-17. CDU Maintenance.
a. CDU Testing. Testing is performed using the
PADS test set as described in paragraph 4-10.
b. CDU Repair. CDU repair consists of removal
and replacement of circuit card assemblies, chassismounted components, cover, panel, gasket, and repair
of the flexible harness, Figure 4-17 is an exploded view
of the CDU, Refer to table 3-6 for circuit card identification. Replacement of circuit cards are described in
paragraph 3-7.
Before conducting any repairs or performing any disassembly procedures, make
certain, that PS BATTERY CB1 and VEHICLE CB2 circuit breakers are in OFF
position or damage to equipment may
result.
4-140
(1) Control and display unit cover. Remove and
replace control and display unit cover (12, figure 4-17)
as follows:
(a) Removal
1.
Remove 16 screws (29), and washers (30)
securing control and display panel (31) to
control and display unit cover (12). Separate control and display unit cover (12)
and control and display panel (31) to permit access to electrical and mechanical
connections.
2.
Remove screw (17) securing terminal lug
(16) to control and display unit cover (12.).
3. Remove hvo screws (35) and four fiber
washers (33 and 34) securing wiring harness (36) to control and display
. . unit cover
(12).
4. Tag and unsolder wires connected to audible alarm DS3 (13).
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 4-17.
4-141
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Legend for Figure 4-17
Screw
Lockwasher
3. Washer
4. Relay K1
5. Diode CR1
6. Display logic circuit card assembly Al
7. Display logic circuit card assembly A2
8, Keyboard and control circuit card assembly A3
9. Control display unit holder
10. Screw
11. Washer
12. Control and display unit cover
13. Audible alarm DS3
14. Audible alarm gasket
15. Nut
16. Terminal lug
17. Screw
18. Washer
Nut
20. JacksCrew
2.
21.
22.
23.
24.
25.
26.
27.
28.
29.
30.
31.
32.
33.
34.
35.
36.
37.
38.
39.
Connector PI
Connector 4J1
Screw
Screw
Bezel
Fault indicator DS2
Washer
Nut
Screw
Washer
Control and display panel
Gasket
Fiber washer
Fiber washer
Screw
Flexible harness assembly
Display unit DS1
Screw
Washer
6.
5. Unscrew audible alarm DS3 (13) from
control and display unit cover (12).
6.
Remove audible alarm gasket (14) from
control and display unit cover (12).
7.
Remove nut (15) securing connector 4J1
(22) to control and display unit cover (12).
8. Remove control and display unit cover
(12).
Install connector 4J1 (22) in D-hole provided in control and display unit cover (12)
and secure with nut (1 5). Apply sealing compound (MIL-S-22373, Grade C) to threads of
nut. Torque nut 65 to 75 inch-pounds. Check
electrical bonding between nut and cover
with an ohmmeter. Resistance should be
5 milliohms maximum.
7. Inspect gasket (32). Replace if cracked,
tom, loose, or excessively compressed.
8.
(b) Replacement.
1.
Install screw (17) securing terminal lug
(16) to control and display unit cover (12).
2. Secure wiring harness (36) to control and
dis lay unit cover (12) with two screws
(35) and four fiber washers (33 and 34).
3. Install audible alarm gasket (14) in audible alarm mounting hole in control and
display unit cover (12).
(2) Relay K1. Remove and replace relay K1 (4,
figure 4-17) as follows:
(a) Removal.
1.
Remove 16 screws (29) and washers (30)
securing control and display panel (31) to
control and display unit cover (12). Se arate control and display unit cover (12)
and control and display anel (31) to permit access to relay K1 (4 ).
2.
Remove two screws (l), lockwashers (2),
and washers (3) securing relay K1 (4) to
4. Screw audible alarm DS3 (13) in mounting bole in control display unit cover (12).
5.
4-142
Prepare and solder two tagged wires that
connect audible alarm DS3 (14) to terminnals ( + lead to E15, - lead to E14).
Clean solder joint to remove flux.
Change 5
Position control and display panel (31)
against control and display unit cover
(12). Torque 16 screws 29 and washers
(3) securing control and display panel (31)
to control and display unit cover (12) 5
inch-pounds using procedures described
in paragraph 3-11.
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
control display unit holder (9). Move relay K1 (4) away from holder far enough to
permit access to wires.
3. Tag and unsolder wires connected to relay K1 (4); remove relay.
4. Unsolder and remove diode CR1 (5).
(b) Replacement.
1.
Prepare and install plastic tubing on
diode. Solder diode CR1 leads to relay
terminals observing polarity and note of
figure 4-17.
2.
Solder tagged wires to terminals of relay
K1 (4).
3.
Install relay K1 (4) and secure to control
display unit holder (9) with two screws
(l), lockwashers (2) and washers (3). To
ensure proper orientation blue bead must
be located as shown in figure 4-17.
4.
Inspect gasket (32). Replace if cracked,
torn loose, or excessively compressed.
5.
Position control and display panel (31)
against control and dis la unit cover
(12). Torque 16 screws (29) and washers
(30) securing control and display panel
(31) to control and display unit cover (12)
5 inch-pounds using procedures described
in paragaph 3-11.
(3) Control and display panel. Remove and replace control and display panel (31, figure 4-17) as
follows:
(a) Removal.
1. Remove 16 screws (29) and washers (30)
securing control and display panel (31) to
control and display unit cover (12). Separate control and display panel (31) and
control and display unit cover (12) to
permit access to front panel mechanical
and electrical connections.
2. Remove eight screws (24) securing bezel
(25) to control and display panel (13).
3. Remove four screws (23) securing display
unit DS1 (37) to control and display panel
(31).
4. Disconnect connector (21) from control
and display panel (31 ) by turning two
jackscrews (20).
5. Tag and unsolder wires connected to fault
indicator DS2 (26).
6.
Remove nut (28) and washers (27) securing fault indicator DS2 (26) to control
and display panel (31) and remove fault
indicator DS2 (26).
7. Remove six screws (38) and washers (39)
securing control display unit holder (9) to
display and control panel (31). Remove
control and display panel (31).
(b) Replacement.
Isopropyl alcohol is flammable and gives
off harmful vapors. Use only in well-ventilated area away from open flames and
sparks. Avoid prolonged or repeated inhalation of vapors.
1. Clean shoulder of indicator DS2 (26)
where it contacts display and control
panel (31) using isopropyl alcohol and
clean lint-free cloth. Repeat at least three
times using clean cloth each time. When
clean, wipe dry using lint-free material.
2. Apply adhesive (MIL-A-46146, Type I)
0.010- to 0.030-inch thick on shoulder
contact surface. Install in control and
display panel (31) within 5 minutes after
applying adhesive.
3. Install nut (28) and washer (27) that secure indicator DS2 (26) to control and
display panel (31) and tighten nut (28)
sufficiently to hold but not enough to
reduce adhesive thickness to less than
0.010 inch.
4. Cure adhesive for 72 hours minimum.
5. Secure control display unit holder (9) to
control and display panel (31) with six
screws (38) and washers (39).
6. Prepare and solder tagged wires to indicator DS2 (26).
7. Connect connector (21) to control and
display panel (31) by engaging and turnning two jackscrews (20).
8. Secure indicator DS1 (37) to control and
display panel (31) with eight screws (23).
9.
Secure bezel (25) to control and display
panel (31) with four screws (24).
10. Inspect gasket (32). Replace if cracked,
torn, loose, or excessively compressed.
11. Position control and display panel (31)
against control and dis la unit cover
(12). Torque 16 screws (29) and washers
4-143
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
(30) securing control and display unit
panel (31) to control and display unit
cover (12) 5 inch-pounds using procedures described in paragraph 3-11.
6.
Inspect gasket (32). Replace if cracked,
tom, loose, or excessively compressed.
7.
Position control and display panel (31)
against control and dis la unit cover
(12). Torque 16 screws (29) and washers
(30) securing control and display panel
(31) to control and dispaly unit cover (12)
5 inch-pounds using procedures described
in paragraph 3-11.
(4) Fault indicator DS2. Remove and replace fault
indicator DS2 (26, figure 4-17) as follows:
(a) Removal.
1. Remove 16 screws (29) and washers (30)
securing control and display panel (31) to
control and display unit cover (12). Separate control and display panel (31) and
control and display “unit “cover (12) to
permit access to front panel mechanical
and electrical connections.
2. Tag and unsolder wires connected to indicator DS2 (26).
3. Remove nut (28) and washer (27) securing
indicator DS2 (26) to control and dis la
panel (31) and remove indicator DS2 26.
(b) Replacement.
(5) Audible alarm DS3.
(a) Removal.
1. Remove 16 screws (29) and washers (30)
securing control and display panel (31) to
control and display unit cover (12). Separate control and display unit cover 12
and control and display panel (31) to permit access to audible alarm DS3 and its
connecting wires.
2. Tag and unsolder wires connected to audible alarm DS3 (13).
3. Unscrew audible alarm gasket (14) from
control and display unit cover (12).
4.
Remove audible alarm gasket (14) from
control and display unit cover (12).
(b) Replacement.
off harmful vapors. Use only in well-ventilated area away from open flames and
sparks. Avoid prologned or repeated inhalation of vapors.
1. Clean shoulder of indicator DS2 (26)
where it contacts display and control
panel (31) using isopropyl alcohol and
clean, lint-free cloth. Clean area on control and display panel where indicator
makes contact. Repeat at least three times
using clean cloth each time, When clean,
wipe dry using lint-free cloth.
2.
Apply adhesive (MIL-A-46146, Type I)
0.010- to 0.030-inch thick on shoulder
contact surface. Install in control and
display panel (31) within 5 minutes after
applying adhesive.
3. Install nut (28) and washer (27) that secure fault indicator DS2 (26) to control
and display panel (31). Tighten nut (28)
sufficiently to hold but not enough to
reduce adhesive thickness to less than
0,010 inch.
4. Cure adhesive for 72 hours minimum.
5.
4-144
Pre are and solder tagged wires to fault
indicater DS2 (26).
1.
Install audible alarm gasket (14) in audible alarm mounting hole in control and
display unit cover (12).
2.
Screw audible alarm DS3 (13) in mounting hole in control display unit cover (12).
3. Prepare and solder two wires that connect
audible alarm DS3 (13) using tagged
wires from removed audible alarm as a
guide (+ lead to E15, – lead to E14).
Clean solder joint to remove flux.
4.
Inspect gasket (32). Replace if cracked,
tom, loose, or excessively compressed.
5.
Position control and display panel (31)
against control and dis la unit cover
(12). Torque 16 screws (29) and washers
(30) securing control and display panel
(31) to control and display unit cover (12)
5 inch-pounds using procedures described
in paragaph 3-11.
(6) Control and display unit flexible harness assembly. Damaged printed circuitry on the control display unit flexible harness assembly (36, figure 4-17) shall
be repaired by splicing with haywires. Repair flexible
harness assembly (36) as follows:
(a) Removal. Remove display logic circuit card
assemblies Al (6), A2 (7), and keyboard and
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
control circuit card assembly A3 (8) following procedures described in 3-17a(l).
(b) Repair.
1. Cut length of 28 AWG stranded insulated
wire long enough to connect termination
points of darnaged circuitry. Strip insulation for a length of 1/8 inch at each end
of wire.
2.
Solder wire to termination using standard
shop practices.
3. Tack wire to flexprint at one-inch-intervals in accordance with the following
steps.
NOTE
The tilt of the porro prism assembly must
be adjusted to gain access to the screws.
2. Remove three screws (21) and washers
(20) securing porror prism assembly (19).
Remove porro prism assembly.
(b) Replacement.
1. Position porro prism assembly (19)
against mounting surface, align mounting
holes.
2.
Install three screws (21) and washers (20)
securing porro prism assembly (19). A ply
tamper detection compound (7526F) to
screw heads.
3.
Isopropyl alcohol is flammable and gives
off harmful vapors. Use only in well-ventilated area away from open flames and
sparks. Avoid prolonged or repeated inhalation of vapors.
4. Clean wire and flexprint tack points using
isopropyl alcohol,
5. Applying bonding primer (A4094) to tack
points on flexprint. Allow to air dry.
6. Apply adhesive (RTV 156 or 30-079) to
tack points on flexprint and wire. Apply
sufficient pressure to ensure good bond.
.
(c) Replacement. Install display logic circuit
card assemblies Al (6) and A2 (7) and keyboard and
control circuit card assembly A3 (8) and reassemble
control display unit following procedures described in
3-17a(2).
4-18. IMU Maintenance.
a. IMU Testing. Testing is performed using PADS
test set as described in paragraph 4-11.
b. IMU Repair. IMU repair allocated to general
support by the MAC consists of replacing the porro
prism. Alignment of porro prism after replacement is
described in paragraph 4-11. Figure 4-18 is an exploded
view of the IMU.
(1) Porro prism assembly. Remove and replace
porro prism assembly (19, figure 4-18) as follows:
(a) Removal.
1. Release two clamping catches (18) securing porro prism cover (15). Remove
cover.
Align IMU following procedures described in paragraph 4-11.
4. Fit porro prism cover (15) to IMU and
secure with two clamping catches (18).
4-19. Power Supply Maintenance.
a. Power Supply Testing. Testing is performed using the PSTS as described in paragraph 4-13.
b. Power Supply Repair. Power supply repair consists of removal and replacement of circuit card assemblies, chassis-mounted ‘components, gaskets, and hardware. Figure 4-19 and 4-20 are exploded views of the
power supply and power supply subassembly, respectively. Refer to table 4-23 for circuit card identification.
When removing, replacing, or handling
sequence monitor circuit card assembly
A5, power inverter assembly A6, or battery charger circuit card assembly A7, do
not touch connector pins as damage to
the assembly may result. Check that circuit card(s) is transported in conductive
bag with CAUTION label identifying its
contents as static sensitive device.
Prior to removal of assembly from packaging, operator should discharge static
electricity by making arm contact with an
earth ground.
(1) + 17V converter-regulator circuit card assembly A1. Remove and replace + 17V converter-regulator
circuit card assembly Al (52, figure 4-19, sheet 3) as
follows:
(a) Removal.
1. Loosen 25 captive screws (43) and washers (44) securing bottom cover (45) and
4-145
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 4-18. IMU Exploded View
4-146
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Legend for Figure 4-18
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.
Screw
Washer
Cover plate
Thermostatic switch S3
Capacitor C3
Capacitor C4
Gasket
Screw
Clamping catch
Washer
Nut
Upper IMU subassembly
Lower IMU subassembly
14. Guide pin
15. Porro prism cover
16. Screw
17. Washer
18. Clamping catch
19. Porro prism
20. Lockwasher
21. Screw
22. Retainer nut
23. Washer
24. Bolt assembly
25. IMU cover
gasket (46) to chassis (22); remove cover
and gasket.
4.
Tighten four captive screws (51) securing
card (52) to chassis (22).
2. Loosen four captive screws (51) securing
+ 17V converter-regulator circuit card
assembly Al (52) to chassis (22).
5.
Ti hten four screws (53) in wedgelocks
(54) until wedges are tight against edge of
slots.
3. Loosen four screws (53) securing wedgelocks (54) until + 17V converter-regulator
circuit card assembly Al (52) is free.
6.
Secure bottom cover (45) and gasket (46)
to chassis (22) with 25 captive screws (43)
and washers (44). Torque screws to 9
inch-pounds using procedures described
in paragraph 3-11.
NOTE
It may be necessary to loosen the wedges
if they become frozen, This can be done
by simply tapping the wedge screws
downward until the bottom wedges become loose,
4. Remove + 17V converter-regulator circuit card assembly Al (52) from chassis
(22).
(b) Replacement.
1.
Insert + 17V converter-regulator circuit
card assembly Al (52) into slot in chassis
(22) and carefully guide it into place.
2. Just before the connectors mate, check
that + 17V converter-regulator circuit
card assembly Al (52) is free in its guides
and its top edge is parallel to the chassis
(22) top surface.
3. Seat + 17V conveter-regulator circuit
card assembly Al (52) by applying moderate, even pressure at both comers. If card
does not readily seat, pull the card out
and inspect for bent or broken connector
pins.
(2) + 20V converter-regulator circit card assembly
A2. Remove and replace + 20V converter-regulator
circuit card assembly A2 (50, figure 4-19, sheet 3) as
follows.
(a) Removal.
1.
Loosen 25 captive screws (43) and washers (43) securing bottom cover (45) and
gasket (46) to chassis (22); remove cover
and gasket.
2.
Loosen four captive screws (49) securing
+ 20V converter-regulator circuit card
assembly A2 (50) to chassis (22).
3.
Loosen four screws (48) securing wedgelocks (47) until + 20V converter-regulator
circuit card assembly A2 (50) is free.
NOTE
It may be necessary to loosen the wedges
if they become frozen. This can be done
by simply tapping the wedge screws
downward until the bottom wedges become loose.
4-147
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 4-19. Power Supply Exploded View (Sheet 1 of 3)
4-148
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
.
Figure 4-19. Power Supply Exploded View (Sheet 2 of 3)
4-149
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 4-19.
4-150
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Legend for Figure 4-19
1. Captive screw
2. Washer
3. Side cover
.
4. Gasket
5. Jackscrew
6. Connector A7P1
7. Screw
8. Washer
9. Washer
10, Terminal lug
11. Shouldered washer
12. Transistor A7Q6
13. Thermal pad
14. Capacitor A7C3
15. Screw
16. Washer
17. Washer
18. Shouldered washer
19. Terminal lug
20. Transistor A7Q7
21. Thermal pad
22. Chassis
23. Battery charger circuit card assembly A7
24. Captive screw
25. Thermal pad
26. Power inverter assembly A6
27. Captive screw
28. Terminal lug
29. Terminal lug
30. Lockwasher
31. Screw
32. Terminal lug
33. Screw
34. Terminal lug
35. Screw
36.
37.
38.
39.
40.
41.
42.
43.
44.
45.
46.
47.
48.
49.
50.
51.
52.
53.
54.
55.
56.
57.
58.
59.
60.
61.
62.
63.
64.
65.
66.
67.
68.
69.
70.
Screw
LockWasher
Terminal lug
Terminal lug
Terminal lug
Connector A6P1
Jackscrew
Captive screw
Washer
Bottom cover
Gasket
Wedgelock
Screw
Captive screw
+20V converter-regulator circuit card assembly A2
Captive screw
+17V converter-regulator circuit card assembly A1
Screw
Wedgelock
Terminal lug
Screw
Terminal lug
Screw
Wedgelock
Screw
Sequence monitor circuit card assembly A5
Captive screw
28V converter-regulator circuit card assembly A3
Screw
Wedgelock
Screw
Wedgelock
Filter circuit card assembly A4
Jackscrew
Connector A5P2
4-151
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 4-20. Power Supply Subassembly Exploded View (Sheet 1 of 6)
4-152
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 4-20. Power Supply Subassembly Exploded View (Sheet 2 of 6)
Change 5
4-153
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 4-20. Power Supply Subassembly Exploded View (Sheet 3 of 6)
4-154
Change 5
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 4-20. Power Supply Subassembly Exploded View (Sheet 4 of 6)
4-155
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
.
Figure 4-20. Power Supply Subassembly Exploded View (Sheet 5 of 6)
4-156
Change 5
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 4-20. Power Supply Subassembly Exploded View (Sheet 6 of 6)
Change 5
4-157
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Legend for Figure 4-20
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.
14.
15.
16.
17.
18.
19.
20.
21.
22.
23.
24.
25.
26.
27.
28.
29.
30.
31.
32.
33.
34.
35.
38.
39.
40.
41.
42.
43.
44.
45.
46.
47.
48.
49.
50.
51.
52.
53.
54.
55.
56.
57.
4-158
Screw
Washer
Circuit breaker cover
Screw
Washer
Catch strike
Terminal lug
Chassis
Self-locking nut
Washer
Bus bar W5
Screw
Washer
Terminal lug
Self-locking nut
Washer
Bus bar W2
Filter FL1
Gasket
Screw
Washer
Screw
Screw
Washer
Circuit breaker CB1
Capacitor C4
Bus bar W1
Self-locking nut
Washer
Self-locking nut
Washer
Terminal lug
Terminal lug
Circuit breaker CB2
Self-locking nut
Washer
Washer
Self-locking nut
Washer
Terminal lug
Diode CR2
Nut
Washer
Terminal lug
Fault indicator DS1
Diode CR8
Fault indicator DS2
Diode CR9
Diode CR10
Terminal board TB1
Screw
Washer
Deleted
Deleted
Relay K2
Screw
Washer
Nut
Change 5
58. Lockwasher
59. Terminal lug
60. Screw
61. Washer
62. Elapsed time indicator M1
63. Gasket
64. Screw
65. Terminal lug
66. Terminal lug
67. Rectifier CR3
68. Washer
69. Nut
70. Thermostatic switch S1
71. Screw
72. Washer
73. Relay K1
74. Nut
75. Washer
76. Terminal lug
77. Terminal lug
78. Diode CR4
79. Nut
80. Washer
81. Terminal lug
82. Terminal lug
83. Self-locking nut
84. Washer
85. Terminal lug
86. Terminal lug
87. Terminal lug
88. Self-locking nut
89. Washer
90. Terminal lug
91. Terminal lug
92. Screw
93. Bus bar W3
94. Screw
95. Washer
96. Washer
97. Reactor L2
98. Screw
99. Washer
100. Terminal lug
101. Terminal lug
102. Countersunk lockwasher
103. Screw
104. Washer
105. Screw
106. Washer
107. Screw
108. Washer
109. Terminal lug
110. Terminal lug
111. Bus bar W4
112. Diode CR5
113. Screw
114. Countersunk lockwasher
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Legend for Figure 4-20 – Continued
115. Reactor L1
116. Standoff terminal E37
117. Capacitor C2
118. Standoff terminal E36
119. Capacitor C3
120. Screw
121. Washer
122. Shoulder washer
123. Terminal lug
124. Washer
125. Capacitor Cl
126. Standoff terminal E35
126.1 Thermostatic switch S2
126.2 Capacitor C5
127. Screw
128. Washer
129. Interconnection assembly A8
130. Output falter circuit card assembly A9
131. Screw
132. Washer
133. Nut
134. Washer
135. Connector 3J5
136. Ring
137. Nut
138. Connector 3Jl
139. Ring
140. Nut
141. Screw
142. O-ring
143. Connector 3J3
144. Ring
145. Nut
146. Relay K3
147. Diode CR7
148. Screw
149. Washer
150. Spacer
Change 5
4-158.1/(4-158.2 blank)
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Table 4–23. Power Supply Circuit Card Assembly Identification
Figure no. and
index no.
Card part no.
Card nomenclature and
reference designator
Part no. location on card
4-19, 52
(sheet 3)
880665-11 (preferred)
880665-5, 880665-6,
880665-7, 880665-8,
880665-9, and 880665-10
(alternates)
+17V converter–regulator
circuit card assembly A1
Near connector and side edge
on component side
4-19, 50
(sheet 3)
880660-10 (preferred)
880660-5, 880660-6,
880660-7, 880660-8, and
880660-9 (alternates)
+20V converter–regulator
circuit card assembly A2
Near connector and side edge
on component side
4-19, 63
(sheet 3)
880670-14 (preferred)
880670-13 and
880670-12 (alternate)
28V converter-regulator circuit card assembly A3
Near connector and side edge
on component side
4-19, 68
(sheet 3)
4-19, 61
(sheet 3)
880640-1
Filter circuit card assembly
A4
Near side (opposite connector end) on component side
8806904 (preferred)
880645-15, 880645-16,
880695-2, 880695-3, and
880690-3 (alternates)
Sequence monitor circuit
card assembly A5
Near top edge on component
side
4-19, 26
(sheet 2)
880654-10 (preferred)
880654-7, 880654-8, and
880654-9 (alternates)
Power inverter assembly A6
On board with cutout near
cutout
4-19, 23
(sheet 2)
880592-1 (preferred)
880650-7, 880650-8,
880688-1, and 880688-2
(alternates)
Battery charger circuit care
assembly A7
On large board near corner
that is cut at an angle
4-20, 129
(sheet 6)
880635-4
Interconnection assembly
A8
Along side near cutout
4-20, 130
(sheet 6)
880675-3
Output filter circuit card
assembly A9
Near one comer opposite side
of capacitor C22 on component side
Change 7
4-159
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
4. Remove + 20V converter-regulator circuit card assembly A2 (50) from chassis
(22).
(b) Replacement.
1.
Insert + 20V converter-regulator circuit
card assembly A2 (50) into slot in chassis
(22) and carefully guide it into place.
2. Just before the connectors mate, check
that the + 20V converter- regulator circuit card assembly A2 (50) is free in its
guides and its top edge is parallel to the
chassis (22) top surface.
3. Seat + 20V converter-regulator circuit
card assembly A2 (50) by applying moderate, even pressure at both corners. If card
does not readily seat, pull the card out
and inspect for bent or broken connector
pins.
4. Tighten four captive screws (49) securing
card (50) to chassis (22).
5. Ti hten four screws (48) in wedgelocks
(47) until wedges are tight against edge of
slots.
6.
Secure bottom cover (45) and gasket (46)
to chassis (22) with 25 screw; (43) and
washers (44). Torque screws to 9 inchpounds using procedures described in paragraph 3-11.
(3) 28V converter-regulator circuit card assembly
A3. Remove and replace 28V converter-regulator circuit card assembly A3 (63, figure 4-19, sheet 3) as
follows:
(a) Removal.
1. Loosen 25 captive screws (43) and washers (44) securing bottom cover (45) and
gasket (46) to chassis (22); remove cover
and gasket.
2. Remove two screws (56 and 58) securing
terminal lugs (55 and 57) to filter circuit
card assembly A4 (68); tag and remove
terminal lugs.
3. Loosen four captive screws (62) securing
28V converter-regulator circuit card assembly A3 (63) to chassis (22).
4. Loosen four screws (66) securing wedgelocks (67) until 28V converter-regulator
circuit card assembly A3 (63) is free.
4-160
downward until the bottom wedges become loose.
5. Remove 28V converter-regulator circuit
card assembly A3 (63) from chassis (22).
(b) Replacement.
1. Insert 28V converter-regulator circuit
card assembly A3 (63) into slot in chassis
(22) and carefully guide it into place.
2. Just before the connectors mate, check
that the 28V converter-regulator circuit
card assembly A3 is free in its guides and
its top edge is parallel to the chassis (22)
top surface.
3. Seat 28V converter-regulator circuit card
assembly A3 (63) by applying moderate,
even pressure at both corners. If card
does not readily seat, pull the card out
and inspect for bent or broken connector
pins.
4. Tighten four captive screws (62) securing
card (63) to chassis (22).
5. Tighten four screws (66) in wedgelocks
(67) until wedges are tight against edge of
slots.
6. Reinstall two terminal lugs (55 and 57) to
filter circuit card assembly A4 (68) with
screws (56 and 58).
7. Secure bottom cover (45) and gasket (46)
to chassis (22) with 25 captive screws (43)
and washers (44). Torque screws to 9
inch-pounds using procedures described
in paragraph 3-11.
(4) Filter circuit card assemblv A4. Remove and
replace filter circuit card assembly A4 (68, figure 4-19,
sheet 3) as follows:
(a) Removal.
1. Loosen 25 captive screws (43) and washers (44) securing bottom cover (45) and
gasket (46) to chassis (22); remove cover
and gasket.
2. Remove two screws (56 and 58) securing
terminal lugs (55 and 57) to filter circuit
card assembly A4 (68); tag and remove
terminal lugs.
3. Loosen four screws (64) securing wedgelocks (65) until filter circuit card assembly
A4 (68) is free.
NOTE
NOTE
It maybe necessary to loosen the wedges
if they become frozen. This can be done
by simply tapping the wedge screws
It may be necessary to loosen the wedges
if they become frozen. This can be done
by simply tapping the wedge screws
*U.S. GOVERNMENT PRINTING OFFICE: 1994- 555-028/00048
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
downward until the bottom wedges become loose.
4. Remove filter circuit card assembly A4
(68) from chassis (22).
(b) Replacement.
1. Insert filter circuit card assembly A4 (68)
into slot in chassis (22) and carefully
guide it into place.
2. Just before the connectors mate, check
that the filter circuit card assembly A4
(68) is free in its guides and its top edge is
parallel to the chassis (22) top surface.
3. Seat filter circuit card assembly A4 (68)
by applying moderate, even pressure at
both comers. If card does not readily seat,
pull the card out and inspect for bent or
broken connector pins.
4. Ti hten four screws (64) in wedgelocks
(65) until wedges are tight against edge of
slots.
5. Reinstall two terminal lugs (55 and 57) to
filter circuit card assembly A4 (68) with
screws (56 and 58).
6. Secure bottom cover (45) and gasket (46)
to chassis (22) with 25 captive screws (43)
and washers (44). Torque screws to 9
inch-pounds using procedures described
in paragraph 3-11. (5) Sequence monitor card assembly AS. Remove
and replace sequence monitor circuit card assembly A5
(61, figure 4-19, sheet 3) as follows:
(a) Removal.
1. Loosen 25 captive screws (43) and washers (44) securing bottom cover (45) and
gasket (46) to chassis (22); remove cover
and gasket.
2. Loosen two jackscrews (69) securing connector A5P2 (70) to sequence monitor
circuit card assembly A5 (61) connector;
disconnect connectors.
3. Loosen four screws (60) securing wedgelocks (59) until sequence monitor circuit
card assembly A5 (61) is free.
(b) Replacement.
1. Insert sequence monitor circuit card assembly A5 (61) into slot in chassis (22)
and carefully guide it into place.
2. Just before the connectors mate, check
that se uence monitor circuit card assembly A5 61) is free in its guides and its top
edge is parallel to the chassis (22) top
surface.
3. Seat sequence monitor circuit card assembly A5 (61) by applying moderate, even
pressure at both corners. If card does not
readily seat, pull the card out and inspect
for bent or broken connector pins.
4.
5.
Mate connector A5P2 (70) with sequence
monitor circuit card assembly A5 (61)
connector and secure with two jackscrews
(69).
6. Secure bottom cover (45) and gasket (46)
to chassis (22) with 25 captive screws (43)
and washers (44). Torque screws to 9
inch-pounds using procedures described
in paragraph 3-11.
(6) Power inverter assembly A6. Remove and replace power inverter assembly A6 (26, figure 4-19, sheet
2) as follows:
(a) Removal.
NOTE
Tag all wires before removal,
1.
Loosen 19 captive screws (1, figure 4-19,
sheet 1) and washers (2) securing side
cover (3) and gasket (4) to chassis (22,
figure 4-19, sheet 2); remove cover and
gasket.
2.
Loosen two jackscrews (42) securing connector A6P1 (41) to power inverter assembly A6 (26) connector; disconnect
connectors.
3.
Remove screw (31) and lockwasher (30)
securing terminal lugs (28 and 29) to
power inverter assembly A6 (26); remove
terminal lugs.
4.
Remove screws (33) securing terminal lug
(32) to power inverter assembly A6 (26);
remove terminal lug.
Remove screw (35) securing terminal lug
(34) to power inverter assembly A6 (26);
remove terminal lug.
NOTE
It may be necessary to loosen the wedges
if they become frozen. This can be done
by simply tapping the wedge screws
downward until the bottom wedges become loose.
4. Remove sequence monitor circuit card
assembly AS (61) from chassis (22).
Ti hten four screws (60) in wedgelocks
(59) until wedges are tight against edge of
slots.
5.
4-161
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
6. Remove screw (36) and lockwasher (37)
securing terminal lugs (38, 39 and 40) to
power inverter assembly A6 (26); remove
terminal lugs.
7. Loosen seven captive screws (27) securing
power inverter assembly (26) and thermal
pad (25) to chassis (22); remove power
inverter assembly and thermal pad.
(b) Replacement.
1. Install power inverter assembly A6 (26)
and thermal pad (25) into chassis (22) and
secure with seven captive screws (27).
2. Secure terminal lugs (38, 39, and 40) to
power inverter assembly A6 (26) with
screw (36) and lockwasher (37).
3.
Secure terminal lug (34) to power inverter assembly A6 (26) with screw (35).
4.
Secure terminal lug (32) to power inverter assembly A6 (26) with screw (33),
Secure terminal lugs (28 and 29) to power
inverter assembly A6 (26) with screw (31)
and lockwasher (30).
6. Mate connector A6P1 (41) with power
inverter assembly A6 (26) connector and
secure with two jackscrews (42).
7. Secure side cover (3, figure 4-19, sheet 1)
and gasket (4) to chassis (22, figure 4-19,
sheet 2) with 19 captive screws (1, figure
4-19, sheet 1) and washers (2). Torque
screws to 9 inch-pounds using procedures
described in paragraph 3-11.
(7) Battery charger circuit card assembly A 7. Remove and replace battery charger circuit card assembly
A7 (23, figure 4-19, sheet 2) as follows:
A7Q6 and thermal pad. Do not disconnect wires from transistor, Allow transistor to hang down with wires connected to
battery charger circuit card assembly A7
(23).
4. Remove two screws (15), four washers (16
and 17), two shouldered washers (18), and
two terminal lugs (19), with other end of
capacitor A7C3 (14) connected to one of
the terminal lugs, securing transistor
A7Q7 (20) and thermal pad (21) to chassis
(22); remove transistor, capacitor C3, and
thermal pad. Do not disconnect wires
from transistor. Allow transistor to hang
down with wires connected to battery
charger circuit card assembly A7 (23).
5.
Loosen four captive screws (24) securing
battery charger circuit card assembly A7
(23) to chassis (22). Pull battery charger
circuit card assembly A7 and transistors
far enough out of chassis to gain access to
jackscrews (5) on connector A7P1 (6).
6.
Loosen two jackscrews (5) securing connector A7P1 (6) to battery charger circuit
card assembly A7 (23) connector; disconnect connectors,
7.
Remove battery charger circuit card assembly A7 (23) ‘from chassis (22).
5.
(a) Removal.
1. Loosen 19 captive screws (1, figure 4-19,
sheet 1) and washers (2) securing side
cover (3) and gasket (4) to chassis (22
figure 4-19, sheet 2); remove cover and
gasket.
2. Loosen two jackscrews (42) securing connector A6P1 (41) to power inverter assembly A6 (26) connector; disconnect
connectors.
3 . Remove two screws (7), four washers (8
and 9), two terminal lugs (10), with one
end of capacitor A7C3 (14) connected to
one of the terminal lugs, and two shouldered washers (11) securing transistor
A7Q6 (12) and thermal pad (13) to chassis
(22); remove transistor A7Q6 and thermal
pad (13) to chassis (22); remove transistor
4-162
(b) Replacement.
1. Slide battery charger circuit card assembly A7 (23) part way into chassis (22) and
mate connector A7P1 (6) with battery
charger circuit card assembly A7 connector and secure with two jackscrews (5).
2. Secure battery charger circuit card assembly A7 (23) to chassis (22) with four captive screws (24).
When installing transistors A7Q6 and
A7Q7, make sure they are isolated from
the chassis by centering on the shouldered
washer. Check with ohmmeter to be sure.
3. Secure transistor A7Q7 (20) and thermal
ad (21) to chassis (22) with two screws
(15), four washers (16 and 17), two shouldered washers (18), and two terminal lugs
(19), with one end of capacitor A7C3 (14)
attached to one of the terminal lugs.
4. Secure transistor A7Q6 (12) and thermal
ad (13) to chassis (22) with two screws
(7), four washers (8 and 9), two terminal
lugs (10), with other end of capacitor
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
A7C3 (14) attached to one of the terminal
lugs, and shouldered washer (11).
5.
6.
.
Mate connector A6P1 (41) with power
inverter assembly A6 (26) connector and
secure with two jackscrews (42).
Secure side cover (3) and gasket (4) to
chassis (22) with 19 captive screws (1) and
washers (2). Torque screws to 9 inchpounds using procedures described in paragraph 3-11.
(8) Interconnect and output jilter wiring harness.
The interconnect and output filter wiring harness consists of interconnection assembly A8 (129, figure 4-20,
sheet 6), output filter circuit card assembly A9 (130),
connectors (135, 138, and 143), and relay (146). Remove
and replace interconnect and output filter wiring harness as follows:
(a) Removal.
10.
Remove nut (140) securing rin (139) and
connector 3J1 (138) to chassis 8); remove
ring and connector.
11.
Remove nut (137) securing rin (136) and
connector 3J5 (135) to chassis 8); remove
ring and connector.
12.
Remove three screws (148), washers (149),
and spacers (150) securing relay K3 (146)
to chassis (8); remove relay.
13.
Release wire harness from interconnection assembly A8 (129).
14.
Remove six screws (127) and washers
(128) securing interconnection assembly
A8 (129) to chassis (8). Carefully remove
interconnect and output filter wiring harness.
(b) Replacement.
1.
Loosen 25 captive screws (43, figure 4-19,
sheet 3) and washers (44) securing bottom
cover (45) and gasket (46) to chassis (22);
remove cover and gasket.
1. Carefully install interconnect and output
filter wiring harness on chassis (8) and
route connectors and relay to their respective mounting positions on the chassis.
2.
Remove + 17V converter-regulator circuit card assembly Al (52) in accordance
with paragraphs 4-19b(l)(a)2 thru
4-19b(l)(a)4.
2, Secure relay K3 (146) to chassis (8) with
three screws (148); washers (149), and
spacers (150).
3.
Remove + 20V converter-regulator circuit card assembly A2 (50) in accordance
paragaphs
4-19b(2)(a)2 thru
with
4-19b(2)(a)4.
4.
Remove 28V converter-regulator circuit
card assembly A3 (63) in accordance with
paragraph 4-19b(3)(a)2 thru 4-19b(3)(a)5.
5.
Remove filter circuit card assembly A4
(68) in accordance with paragraphs
4-19b(4)(a)2 thru 4-19b(4)(a)4.
6.
Remove sequence monitor circuit card
assembly A5 (61) in accordance with paragraph 4-19b(5)(a)2 and 4-19b(5)(a)4.
7.
Remove nut (145, figure 4-20, sheet 6)
securing ring (144) and connector 3J3
(143) to chassis (8); remove connector and
ring.
8.
Remove three screws (131) and washers
(132) securing output filter circuit card
assembly A9 (130) to chassis (8).
9.
Remove two nuts (133), two washers
(134), two O-rings (142), and two screws
(14 1) securin output filter circuit card
assembly A9 (130) to chassis (8). Carefully
lift card away from chassis to gain access
to nuts (137 and 140).
3. Secure interconnection assembly A8 (129)
to chassis (8) with six screws (127) and
washers (128).
NOTE
After installation of connectors 3J5, 3J1,
and 3J3, the resistance between chassis
and connector must not exceed 0.005
ohm.
4. Secure connector 3J5 (135) and ring (136)
with nut (137).
5. Secure connector 3J1 (18) and ring (139)
with nut (140).
6. Secure connector 3J3 (143) and ring (144)
with nut (145).
7. Attach wire harness to interconnection
assembly A8 (129).
8. Secure output filter circuit card assembly
A9 (130) to chassis (8) with three screws
(131), three washers (132), two screws
(141), two washers (134), two O-rngs
(142), and two nuts (133).
9. Install + 17V converter-regulator circuit
card assembly Al (52, figure 4-19, sheet 3)
in accordance with
paragraphs
4-19b(l)(b)l thru 4-19b(1)(b)5.
4-163
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
10. Install + 10V converter-regulator circuit
card assembly A2 (50) in accordance with
paragraphs 4-19b(2)(b)l thru 4-19b(2)(b)5.
11.
12.
13.
14.
Install 28V converter-regulator circuit
card assembly A3 (63) in accordance with
paragraphs 4-19b(3)(b)l thru 4-19b(3)(b)6.
Install filter circuit card assembly A4 (68)
in accordance with
paragraphs
4-19b(4)(b)l thru 4-19b(4)(b)5.
Install sequence monitor circuit card assembly A5 (61) in accordance with paragaphs 4-19b(5)(b)l thru 4-19b(5)(b)5.
Secure bottom cover (45) and gasket (46)
to chassis (22) with 25 screws (43) and
washers (44). Torque screws to 9 inchpounds using procedures described in paragraph 3-11.
(9) Chassis-mounted component removal and replacement. The following procedures describe removing
and replacing of chassis-mounted components. Some
components can be replaced using standard shop practices and are not covered here. When self-locking nuts
are removed, replace with new self-locking nuts. Remove side cover (3, figure 4-19, sheet 1) or bottom
cover (45, figure 4-19, sheet 3) to gain access to components when applicable. After component is replaced,
secure cover and torque screws to 9 inch-pounds using
procedures described in paragraph 3-11.
(a) Circuit breaker cover removal
1.
Release circuit breaker cover (3, figure
4-20, sheet 1) clamping catch from strike
(6).
1. Remove self-locking nut (28, figure 4-20,
sheet 2) end washer (29) securing bus bar
W1 (27) to circuit breaker CB1 (25); remove bus bar W 1,
2. Remove self-locking nut (30) and washer
(31) securing terminal lugs (32 and 33) to
circuit breaker CB1 (25); remove terminal
lugs.
3. Remove screw (55) and washer (56) securing terminal lug (59) to relay K2 (54);
remove terminal lug.
4. Tag and unsolder wires from terminals on
circuit breaker CB1 (25).
5. Open circuit breaker cover and remove
two screws (22 and 23) and washer (24)
securing circuit breaker CB 1 (25) to chassis (8); remove circuit breaker CB1.
6. Remove capacitor C4 (26) from circuit
breaker CB1 (25).
(d) Circuit breaker CB1 replacement.
NOTE
Discard hardware supplied with new circuit breaker except flat washers,
1. Bond capacitor C4 (26) to circuit breaker
(25) using urethane adhesive (960278-4).
2. Secure circuit breaker CB1 (25) to chassis
(8) with two screws (22 and 23) and
washer (24). Close circuit breaker cover.
3.
NOTE
When removing other circuit breaker
cover, also remove terminal lug (7).
2. Remove two screws (1) and washers (2)
securing circuit breaker cover (3) to chassis (8); remove circuit breaker cover.
(b) Circuit breaker cover replacement.
1. Inspect circuit breaker cover (3) gasket
for darnage and replace if required.
NOTE
When replacing other circuit breaker
cover, also secure terminal lug (7).
2. Secure circuit breaker cover (3) to chassis
(8) with two screws (1) and washers (2).
3. Secure circuit breaker cover (3) clamping
catch to strike (6).
(c) Circuit breaker CB1 removal.
4-164
Change 5
Secure terminal lugs (32 and 33) to circuit
breaker CB1 (25) with self-locking nut
(30) and washer (31).
4. Secure bus bar W1 (27) to circuit breaker
CB1 (25) with self-locking nut (28) and
washer (29).
5. Solder wires to terminals on circuit
breaker CB1 (25).
6. Secure terminal lug (59) to relay K2 (54)
with screw (55) and washer (56).
(e) Circuit breaker CB2 removal.
1.
Remove self-locking nut (35, figure 4-20,
sheet 2) and two washers (36 and 36.1)
securing bus bar W5 (1 1 ) to circuit breaker
CB2 (34); remove bus bar W5.
2. Remove self-locking nut (37) and washer
(38) securing terminal lug (39) to circuit
breaker CB2 (34); remove terminal lug.
3. Tag and unsolder wires from terminals on
circuit breaker CB2 (34).
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
4. Open circuit breaker cover and remove
two screws (22 and 23) and washer (24)
securing circuit breaker to chassis (8);
remove circuit breaker CB1.
(f) Circuit breaker CB2 replacement.
NOTE
Discard hardware supplied with new circuit breaker except flat washers.
2. Tag and unsolder wires and diode CR7
(147) from relay K3 (146); remove relay
(j) Relay K3 replacement.
1. Prepare and solder tagged wires and
diode CR7 (147) to relay K3 (146).
2. Secure relay K3 (146) to chassis (8) with
three screws (148), washers (149), and
spacers (150).
1, Secure circuit breaker CB2 (34) to chassis
(8) with two screws (22 and 23) and
washer (24). Close circuit breaker cover.
(k) Fault indicators DS1 or DS2 removal.
2. Secure terminal lug (39) to circuit breaker
CB2 (34) with self-locking nut (37) and
washer (38).
Fault indicators DS1 (44, figure 4-20,
sheet 3) and DS2 (46) removal is similar,
therefore, only fault indicator DS2 will be
covered.
1. Tag and unsolder wires connected to fault
indicator DS2 (46).
3. Secure bus bar W5 (11) to circuit breaker
CB2 (34) with self-locking nut (35) and two
washers (36 and 36. 1).
4. Solder wires to terminals on circuit
breaker CB2 (34).
(g) Filter FL1 removal.
1. Remove two screws (12, figure 4-20, sheet
2), two washers (13), self-locking nut (15),
and washer (16) securing terminal lug (14)
and bus bar W2 (17) to filter FL1 (18);
remove terminal lug and bus bar W2.
NOTE
2. Unsolder diodes CR9 (47, figure 4-20,
sheet 4) and CR10 (48) from fault indicator DS2 (46, figure 4-20, sheet 3).
3. Remove nut (57) and lockwasher (58) securing fault indicator DS2 (46) to chassis;
remove fault indicator DS2.
(1) Fault indicators DS1 and DS2 replacement.
2. Remove self-locking nut (9) and washer
(10) securing bus bar W5 (11) to filter
FL1 (18); remove bus bar W5.
3. Remove four screws (20) and washers (21)
securing filter FL1 (18) and gasket (19) to
chassis (8); remove filter FL1 and gasket.
(h) Filter FL1 replacement.
1.
Inspect gasket (19) for darnage and replace if required.
2. Secure filter FL1 (18) and gasket (19) to
chassis (8) with four screws 20) and washers (21).
3. Secure bus bar W5(11) to filter FL1 (18)
with self-locking nut (9) and washer (10).
4.
Secure bus bar W2 (17) and terminal lug
(14) to filter FL1 (18) with two screws
(12), two washers (13), self-locking nut
(15), and washer (16).
(i) Relay K3 removal.
1. Remove three screws (148, figure 4-20,
sheet 6), washers (149), and spacers (150)
securing relay K3 (146) to chassis (8). Pull
relay away from chassis far enough to
gain access to wires soldered to relay.
Isopropyl alcohol is flammable and gives
off harmful vapors. Use only in well-ventilated area away from open flames and
sparks. Avoid prolonged or repeated inhalation of vapors.
NOTE
Fault indicator DS1 (44) and DS2 (46)
replacement is similar, therefore, only
fault indicator DS2 will be covered.
1. Clean shoulder of fault indicator DS2 (46)
where it contacts chassis (8) using isopropyl alcohol and clean, lint-free cloth.
Clean area on chassis where fault indicator makes contact. Repeat at least three
times using a clean cloth each time.
When clean, wipe dry using lint-free
cloth.
2. Apply adhesive (MIL-A-46146, Type I)
0.010- to 0.030-inch thick on shoulder
contact surface of fault indicator DS2
(46); install in chassis (8) within 5 minutes
after applying adhesive.
Change 5
4-165
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
3. Secure fault indicator DS2 (46) with nut
(57) and lockwasher (58). Tighten nut
sufficiently to hold but not enough to
reduce adhesive thickness to less than
0,010 inch.
4. Cure adhesive for 72 hours minimum.
5. Prepare and solder tagged wires and diodes CR9 (47, figure 4-20, sheet 4) and
CR10 (48) to fault indicator DS2 (46,
figure 4-20, sheet 3)
(m) Relay K2 removal.
1. Remove two screws (55, figure 4-20, sheet
3) and washers (56) securing relay K2 (54)
to chassis (8). Pull relay K2 far enough
out of chassis to gain access to wires.
2. Tag and unsolder wires connected to relay K2 (54); remove relay K2.
(n) Relay K2 replacement.
L Prepare and solder tagged wires to relay
K3.
2. Secure relay K2 (54) to chassis (8) with
two screws (55) and washers (56).
(o) Elasped time indicator Ml removal.
L Tag and unsolder wires connected to
elapsed time indicator M 1 (62, figure
4-20, sheet 3).
2. Remove two screws (60) and washers (61)
securing elapsed time indicator M 1 (62)
and gasket (63) to chassis (8); remove
elapsed time indicator and gasket.
Isopropyl alcohol is flammable and gives
off harmful vapors. Use only in well-ventilated area away from open flames and
sparks. Avoid prolonged or repeated inhalation of vapors.
1. Clean diode CR2 (40) and heat sink
mounting surfaces using isopropyl alcohol. Use lint-free cloth to apply alcohol
and to wipe parts.
2. Apply sealing compound (MIL-S-22473,
Grade C) to diode CR2 (40) threads.
3. Install diode CR2 (40) in heat sink and
tighten with socket wrench.
4. Secure terminal lug (43) to diode with nut
(41) and washer (42) .
(s) Rectifier CR3 removal.
1. Remove nut (69, figure 4-20, sheet 3),
washer (68), and screw (64) securing two
terminal lugs (65 and 66) to rectifier CR3
(67); remove terminal lug.
2. Tag and unsolder wires connected to rectifier CR3 (67).
3. Usin socket wrench, remove rectifier
CR3 (67) from heat sink.
(t) Rectifier CR3 replacement.
(p) Elapsed time indicator Ml replacement.
1.
Inspect gasket (63) for damage and replace if required.
2.
Secure elapsed time indicator Ml (62)
and gasket (63) to chassis (8) with two
screws (60) and washers (61).
3.
Prepare and solder tag ed wires to
elapsed time indicator Ml (62).
(q) Diode CR2 removal.
1.
Remove nut (41, figure 4-20, sheet 3) and
washer (42) securing terminal lug (43) to
diode CR2 (40).
2.
Using socket wrench, remove diode CR2
(40) from heat sink,
(r) Diode CR2 replacement.
4-166
Isopropyl alcohol is flammable and gives
off harmful vapors. Use only in well ventilated area away from open flames and
sparks. Avoid prolonged or repeated inhalation of vapors.
1. Clean rectifier CR3 (67) and heat sink
mounting surfaces using isopropyl alcohol. Using lint-free cloth to apply alcohol
and to wipe parts.
2. Apply sealing compound (MIL-S-22473,
Grade C) to rectifier CR3 (67) threads.
3. Install rectifier CR3 (67) in heat sink and
tighten with socket wrench.
4. Prepare and solder tagged wires to rectifier CR3 (67).
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
5. Secure two terminal lugs (65 and 66) to
rectifier CR3 (67) with screw (64), nut
(69), and washer (68).
W3 (93); tag wires and remove terminal
lugs.
2.
Remove screw (107) and washer (108)
securing two terminal lugs (109 and 110)
to bus bar W4 (111); tag wires and remove terminal lugs.
3.
Remove screw (92) and countersunk lockwasher (102) securing bus bar W3 (93) to
reactor L2 (97).
4.
Loosen screw (103) and move bus bar \V3
(93) away from reactor L2 (97).
5.
Remove screw (105) and washer (106)
securing bus bar W4 (111) to reactor L2
(97).
6.
Loosen screw (113) and move bus bar W 4
(11 1) away from reactor L2 (97).
7.
Remove screw (94) and two washers (95
and 96) securing reactor L2 (97) to chassis
(8); remove reactor L2.
(u) Relay K1 removal.
1. Tag all wires connected to relay K1 (73,
figure 4-20, sheet 3).
2. Remove nut (74) and washer (75) securing
terminal lug (76) with one end of diode
CR4 (78) and terminal lug (77) to relay
K1 (73); remove terminal lugs.
3. Remove nut (79) and washer (80) securing
terminal lug (81) with other end of diode
CR4 (78) and terminal lug (82) to relay
K1 (73); remove terminal lugs and diode
CR4.
4. Remove nut (88) and washer (89) securing
terminal lugs (90 and 91) to relay K 1 (73);
remove terminal lugs.
5. Remove nut (83) and washer (84) securing
terminal lugs (85, 86, and 87) to relay K1
(73); remove terminal lugs.
6. Remove two screws (7) and washers (72)
securing relay K1 (73) to chassis (8); remove relay K1.
(v) Relay K1 replacement.
NOTE
Discard lockwashers supplied with new relay.
(x) Reactors L1 and L2 replacement.
NOTE
Reactors L1 (115) and L2 (97) replacement is similar, therefore, only reactor L2
will be covered.
1.
1. Secure relay K1 (73) to chassis (8) with two
screws (71 ) and washers (72).
Secure reactor L2 (97) to chassis (8) with
screw (94) and two washers (95 and 96).
2.
NOTE
In steps 2 thru 5, apply epoxy adhesive (EC 2216
B/A) to nuts.
Secure bus bar W4 (1 11) to reactor L2
(97) with screw (105) and washer (106).
3.
Tighten screw (113).
4.
Secure bus bar W3 (93) to reactor L2 (97)
with screw (92) and countersunk lockwasher (102).
5.
Tighten screw (103).
6.
Secure two terminal lugs (109 and 110) to
bus bar W4 (1 11) with screw (107) and
washer (108).
7.
Secure terminal lugs (100 and 101) to bus
bar W3 (93) with screw (98) and washer
(99).
2. Secure terminal lugs (85, 86, and 87) to relay K1 (73) with nut (83) and washer (84).
3. Secure terminal lugs (90 and 91) to relay
K1 (73) with nut (88) and washer (89).
4. Secure terminal lug (81) with one end of
diode CR4 (78) and terminal lug (82) to relay K1 (73) with nut (79) and washer (80).
5. Secure terminal lug (76) with other end of
diode CR4 (78) and terminal lug (77) with
nut (74) and washer (75).
(w) Reactors L1 and L2 removal.
(y) Capacitors Cl, C2, and C3 removal.
NOTE
NOTE
Reactors L1 (1 15, figure 4-20, sheet 5 )
and L2 (97) removal is similar, therefore,
only reactor L2 will be covered.
Capacitors Cl (125, fi re 4-20, sheet 5),
C2 (117), and C3 (119 removal is similar.
1. Remove screw (98) and washer (99) securing terminal lugs (100 and 101) to bus bar
1. Tag wires connected to standoff terminals
where capacitor is connected that is to be
removed.
Change 5
4-167
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
2. Remove screw (120), washer (121), and
shoulder washer (122) securing terminal
lug (123) to chassis (8).
3. Unsolder capacitor terminal lug (123);
remove capacitor.
(z) Capacitors C1, C2, and C3 replacement.
1.
Clean old adhesive from area on chassis
(8) where capacitor is to be installed.
2.
Prepare and solder capacitor and tagged
wires to standoff and terminal lug.
3.
Secure terminal lug (123) to chassis (8)
with screw (120), washer (121), and shoulder washer (122).
4.
Bond capacitor to wail of chassis (8) using
urethane adhesive (724-14C).
(aa) Capacitor C5 and thermostatic switch S 2
removal.
1. Tag and unsolder wires connected to capacitor C5 (126.2) and thermostatic switch S2
(126.1)0. Remove capacitor.
2. Remove thermostatic switch.
(ab) Capacitor C5 and thermostatic switch S 2
replacement.
1. Clean old adhesive from area on chassis (8)
where thermostatic switch is to be installed.
2. Bond thermostatic switch to wall of chassis
(8) using epoxy adhesive (163-4LVFF).
3. prepare and solder capacitor and tagged
wires to thermostatic switch. Place insulation sleeving (MIL-1-22129) on capacitor
leads.
3. Check electrical bonding between 3J1, 3J2,
3J3, 3J5. and J6 mounting nuts and chassis
with an ohmmeter. Resistance should be
5 milliohms maximum.
(10) Output filter circuit card assembly A9 repair.
Repair of the output circuit card assembly A9 (130,
figure 4-20, sheet 6) consists of replacing defective
components. See figure 4-21 for a parts location diagram and repair output filter circuit card assembly A9
using standard shop practices.
(11) Wire harness repair. Repair of the wire harness consists of replacing broken or burned wires. Refer
to wires listed in table 4-4 and repair wiring using
standard shop practices.
4-20. Cable and Connector Repair.
a. General. Cable repair consists of connector pin
replacement, terminal lug replacement, and repair of
broken wires by substituting wires. Connectors are
repaired by pin replacement.
(1) Connector pins are replaced from the connector rear. Remove the appropriate covers and panels to
obtain access to chassis-mounted connectors. The backshell must be disassembled for cable connectors.
(2) After access is obtained, remove the defective
pin and cut off the wire. Prepare the wire and crimp a
new pin on the wire. If the newly prepared wire is too
short, there are usually spare wires in cables. Insert the
new pin into the connector and reassemble the equipment.
(3) Procedures for backshell disasssembly/assembly, pin removal and replacement, crimping tool operation, and lug replacement are given below.
4. Bond capacitor to wall of chassis (8) using
urethane adhesive (724-14C).
(ac) Connectors 3J1, 3J2, 3J3, 3J5, and J6.
1. When replacing connectors 3J1, 3J2. and
3J3, torque mounting nut 90 to 95 inchpounds.
2. When replacing connector 3J5, torque
mounting nut 85 to 90 inch-pounds.
4-168
Change 5
Use a strap wrench (figure 4-22) to loosen
or tighten backshell components which
do not have wrench flats. Use of pliers,
pipe wrench, etc., may damage the connectors.
ARMY TM 5-6675-308-34
MAR INE CORPS TM 08837A-34/2
Figure 4-21. Output Filter Circuit Card Assembly A9 Parts Location Diagram
Change 5
4-168.1/(4-168.2 blank)
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
NOTE
To loosen or tighten backshell components. mate the connector to a chassismounted connector. Use of the strap
wrench is shown in figure 4-22.
b. Backshell Disassembly/Assembly. Several styles
of backshells are used with PADS cables and are illustrated in figures 4-23 and 4-24. Cables may differ in
minor details such as use of shields, etc. Adapt the
procedure as appropriate for the particular connection.
(1) Straight backshell disassembly. See figure 4-23
and disassemble backshell as follows:
Different shield terminations are used
with different backshells. Do not damage
shield.
(e) Carefully manipulate the shield and slide
the RFI ring away from connector.
(f) Unscrew backshell from adapter ring and
slide away from connector.
(2) Straight backshell assembly. See figure 4-23
and assemble backshell as follows:
(a) Screw backshell onto connector.
(b) Slide RFI ring into backshell.
(a) Slide cable marker away from connector to
allow clearance for disassembly.
(b)
Loosen two screws securing cable clamps to
cable. Remove any tape, etc., which may
prevent ring from sliding.
(c)
Unscrew cable clamp ring from backshell.
Slide cable clamp ring away from connector.
(d)
Carefully pull O-ring, grommet, and environmental ring out of backshell and slide
away from connector.
NOTE
Shields originally terminated differently
than shown may be regerminated as they
were originally or as shown.
There may be ground wires from the connector which must be terminated with the
shield.
Different shield terminations are shown
for the different RFI sleeves and rings.
The shield should be spot tied around the
RFI sleeve or cable as appropriate.
Figure 4-22. Backshell Strap Wrench
4-169
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 4-23. Straight Backshell Disassembly/Assembly
Figure 4-24. Right Angle Backshell Disassembly/Assembly
4-170
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
(c)
(d)
Flare shield and terminate against RFI ring.
(e)
Screw cable clamp ring onto rear of backshell. Tighten enough to compress grommet.
Slide environmental ring, grommet, and
grommet ring into end of backshell.
(f) Tighten screws to tighten cable clamp
around cable.
(3) Right angle backshell disassembly. See figure
4-24 and disassemble backshell as follows:
(a)
Slide cable marker away from connector to
allow clearance for disassembly.
(b)
Loosen two screws securing cable clamps to
cable. Remove any tape, etc., which may
prevent ring from sliding.
(c)
Unscrew cable clamp ring from backshell.
Slide cable clamp ring, friction washer,
grommet ferrule, grommet, and RFI ferrule
away from connector.
(d)
Carefully manipulate the shield so backshell
can slide over it.
(e)
Remove wire securing backshell to retaining
ring.
(f)
Unscrew retaining ring from connector, taking care to not twist wires. Slide backshell
away from connector. The connector rear is
now- exposed for pin replacement.
(4) Right angle backshell assembly. See figure
4-24 and assemble backshell as follows:
Isopropyl alcohol is flammable and gives
off harmful vapors. Use only in well-ventilated area away from open flames and
sparks. Avoid prolonged or repeated inhalation of vapors.
(a) Clean threads of connector and retaining
ring with isopropyl alcohol.
Application of excess thread sealant may
prevent future disassembly of the connector.
(b) Apply one drop, only, of sealing compond
(MIL-S-22473. Grade C) to threads of all
connectors except for the threads of connectors on cables 880515-1 (W7) and 880531-1
(W6) which require Grade A sealing compound.
(c) Screw and tighten retaining ring to connector.
(d) Turn backshell to the proper orientation
and secure to retaining ring with set screws.
NOTE
Shields originally terminated differently
than shown may be reterminated as they
were originally or as shown.
There may be ground wires from the connector which must be terminated with the
shield.
Some shields may be terminated with a
wire and terminal lug which is connected
to a cable clamp screw.
(e) Flare shield and terminate against rear of
backshell with RFI ferrule.
(f) Slide grommet, grommet ferrule, friction
washer, and cable clamp ring against RFI
ferrule. Screw cable clamp ring onto
adapter.
(g) Tighten screws securing cable clamps to
cables.
(h) Secure backshell to retaining ring with
safety wire.
c. Pin Removal/Insertion.
(1) Tools and contact pins. Refer to table 4-24 for
correct size insertion and removal tools. The contact
pins and two types of insertion and removal tools are
shown in figure 4-25.
Use of wrong size insertion or removal
tool may damage the connector beyond
repair.
(2) Removal.
NOTE
Bent pins must be straightened before
removal.
(a) Clip removal tool around wire connected to
pin to be removed. See figure 4-26.
(b) Slide tool down wire until it enters the
connector grommet.
(c) Carefully work the tool over the contact
barrel until it hits the contact shoulder.
(d) Simultaneously pull the tool and wire out
the rear of the connector.
4-171
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
4-172
Table 4-24.
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 4-25. Contact Pins and Insertion and Removal Tools
Figure 4-26. Contact Pin Removal
4-173
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
the positioner is seated on the tool; then
secure the 9/64-inch socket head screws
with a sockethead screw key. Turret should
now index easily without binding.
(e) Disengage the tool from the contact pin.
(3) Insertion.
(a) Clip insertion tool around wire and slide
tool against contact shoulder. See figure
4-27, view A.
(b) Guide the contact into the correctly numbered grommet hole in the rear face of the
insert and feed the contact carefully into the
hole, See figure 4-27, view B.
(c) Push the tool straight in at right angles to
the grommet surface, until contact is fully
seated and you feel the contact retention
clip snap into place on the contact with a
slight audible click.
Do not attempt to reseat a contact once
the insertion tool has been removed. Remove contact and start over again.
(d) Withdraw the tool, keeping it perpendicular
to the grommet face. Check the contact by
pulling on wire lightly to assure contact is
firmly locked,
d. Crimping Tool Operation.
(1) General. Two types of crimping tools and
positioners are used depending on the contact pin size.
(See figures 4-28 and 4-29,) Refer to table 4-24 for the
correct contact size, crimping tool, and positioner.
(2) Crimping tool MS3198-1 and positioner
MS3198-6P assembly.
NOTE
The tool handles must be fully opened
when inserting the positioner, and when
changing the selector positioner.
(a) To install the positioner, place positioner in
bayonet socket at the back of the tool.
(b) Push positioner in and rotate 90 degrees
clockwise until locked in position.
(3) Crimping tool MS3198-4 and positioner
MS3191-9T assembly.
NOTE
The tool handle must be fully opened
when inserting the positioner, and when
changing the selector position.
(a) TO install the positioner, press the trigger to
release turret to the indexing position,
(b) Position the positioner over the retaining
ring on the back of the tool, Make certain
4-174
(c)
Press trigger and spring-loaded turret will
snap out to indexing position.
(d) The turret has three posiitons which are
color coded and marked with the applicable
contact size. Rotate the turret until the
correct position is lined up with the index
mark on the positioner.
(e)
Push the turret into the positioner until it
snaps into the locked position.
(4) Crimping. See figure 4-30 and perform crimping operation as follows:
(a)
Tool must be in open position. Close handles to trip ratchet and then release pressure.
(b)
Remove safety clip wire from selector control.
(c) Turn selector control in complete revolutions until correct selector number is visible
in the selector number window.
(d) Tool is now ready for use. Replace safety
clip wire.
(e) Insert the stripped wire into the contact
until end of wire can be seen through the
inspection hole. Turn the tool around so the
front is facing you then insert wire and
contact through the indentor opening until
it bottoms in the positioner.
(f)
Squeeze handles together until the positive
stop is reached. Tool will then release the
return to fully open position. Remove
crimped contact and wire. Make sure the
wire strands are visible through the inspection hole in the contact.
e. Lug Replacement. Large terminal lugs, used on
the ends of power cables, etc., ma be replaced using
crimping tool MY28-4 (figure 4-31 and the following
procedure.
(1) Remove any insulating tubing from terminal
and use hacksaw to cut off old lug at the point
where cable just enters lug barrel.
(2) Strip cable insulation to the depth of the lug
barrel. Clean cable as required. See figure
4-32.
(3) See figure 4-31 and adjust crimping tool as
follows:
(a) Loosen nest die lock screw.
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 4-27. Contact-Pin Insertion-Tool Loading
(b) Turn knurled screw until index line on nest
die is aligned with proper cable size on
cable scale.
(c) Lock nest die by tightening nest die lock
screw.
(4) Insert stripped end of cable into lug barrel.
(5) Insert cable and terminal assembly into the
open nest die so the terminal barrel is centered in the die. See figure 4-33.
(6) Close crimping tool handles until stop hits the
other handle.
(7) Open crimping tool handles and remove
crimped terminal. Tug on terminal to make
sure it is firmly crimped.
(8) Replace insulating tubing as required.
4-175
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
1. CONTACT PIN SIZE 22.
SELECTOR NUMBER 4
2. THE TOOL HANDLES MUST BE FULLY OPENED
WHEN INSERTING THE POSITIONER AND WHEN
CHANGING THE SELECTOR POSITION
Figure 4-28. Crimping Tool MS3198-1 with Positioner MS3198-6P
4-176
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 4-29. Crimping Tool MS3191-4 with Positioner MS3191-9T
4-177
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 4-31. Crimping Tool MY28-4
4-178
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 4-32. Terminal Lug and Wire Preparation
Figure 4-33. Cable and Terminal Assembly Crimping
4-179/(4-180 blank)
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
CHAPTER 5
MATERIEL USED IN CONJUNCTION WITH MAJOR ITEM
5-1. General. The Position and Azimuth Determining
System Test AN/USM-427 is used to test the PADS
computer, CDU, and IMU. Its operation is described in
TM 5-6675-238-14. Marine Corp users shall refer to TM
08839A-14/1
a. The Power Supply Test Set AN/USM-428 is
used to test the PADS power supply and computer
power supply. Its operation is described in TM 5-6675309-14. Marine Corp users shall refer to TM 08840A14/1.
b. A Wild theodolite T-2 and target set are required for IMU alignment. Their operation is described
below.
5-2. Theodolite T-2
a. The theodolite T-2, roil-graduated, is used to
measure angles for PADs alignment. The theodolite,
ving only one spindle, is a direction-type instrument.
t has interior scales which are read by a built-in optical
system. The scales, graduated in roils, are readable
directly to 0.002 mil and by estimation to the nearest
0.001 roil. The scales may be illuminated by sunlight or
by a built-in wiring system using artificial light. All
components of the instrument which can be seriously
damaged by dust or moisture are enclosed.
.
b. The theodolite is used with a canvas accessory
case containing diagonal eyepieces for the telescope and
reading microscope, a sun filter, a jeweler’s screwdriver,
two adjusting pins, a camel’s-hair brush, a plastic instrument head cover, two lamp fittings for artificial illumination a battery case containing lighting devices and
spare bulbs, and a universal tripod with a plumb bob,
plug-in sleeve, and tripod key in a leather pouch attached to the tripod. The accessories of some models of
the theodolite are stored in the base of the carrying
case.
c. Nomenclature of the Theodolite T-2. (See figure
5-1, sheets 1 and 2.)
(1) Ttibach. The tribrach is that part of the
theodolite which contains the three leveling screws and
e circular level. The leveling screws are enclosed and
dustproof. On models manufactured subsequent to
1956, the tribrach is detachable. On these models, the
tribrach is secured to the theodolite by three tapered
locking wedges controlled by the tribrach clamp lever.
An optical plumb system is located in the tribrach for
accurately centering the theodolite over a station.
(2) Horizontal circle housing. The horizontal circle housing contains the horizontal circle, the vertical
axis assembly, prisms for illuminating and reading the
horizontal circle, contacts and connections for electric
illumination, and three spike feet for securing the
theodolite to the tribrach. The following items are
located on the horizontal circle housing:
(a) Circle-setting knob and cover. The circlesetting knob, which is located on the side of the horizontal circle housing, is used to rotate the horizontal
circle to any desired position. The cover of the circlesetting knob is provided to prevent the operator from
disturbing the orientation of the horizontal circle by an
accidental touch. The cover should be closed at all
times except when the horizontal circle is being oriented.
(b) Horizontal circle illumination mirror. A
hinged, tilting mirror to illuminate the horizontal circle
is located on the lower portion of the horizontal circle
housing. The intensity of the light on the horizontal
circle can be adjusted by rotating and tilting the mirror
until the circle is properly lighted. For artificial illumination, this mirror is removed and replaced by a plug-in
lamp.
(c) Instrument support lugs. Three rectangularshaped instmment support lugs uniformly spaced
around the base of the horizontal circle housing. These
lugs are used to secure the theodolite to the base of the
carrying case. The plug-in socket, which received the
battery box cable for artificial illumination, is located
immediately above one of the lugs.
(3) Alidade. The alidade is the upper (rotating)
part of the theodolite. It includes the telescope and
microscope assemblies and the two standards that support them, the vertical circle housing, and the horizontal clamp assembly. Located on the alidade are the
following
(a) U-standard assembly. The U-standard assembly forms the’ support for all the components making up the upper part of the instrument and includes
the horizontal circle axle and flange, the circle selector
knob and prism, and the horizontal axis prism.
(b) Levels. The theodolite has a plate level and,
a vertical circle level (split bubble) in addition to the
circular level on the tribrach. The plate level is located
at the bottom of the opening between the standards and
is graduated to aid the operator in the precise leveling
5-1
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 5-1. Nomenclature of Theodolite T-2 (Sheet 1 of 2)
5-2
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 5-1. Nomenclature of Theodolite T-2 (Sheet 2 of 2)
5-3
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
of the instrument. The vertical circle level is completely built-in and is located adjacent to the vertical
circle.
(c) Collimation level tangent screw. The collimation level tangent screw is located below the vertical
circle and on the same standard. This control is used for
precise leveling of the vertical circle level (split bubble)
by bringing the images of the ends to the bubble into
coincidence. A collimation level mirror on the side of
the standard is provided for viewing the position of the
bubble. Below the collimation level mirror, a hinged
collimation level reflector is rotated outward to provide
illumination of the vertical circle level.
(d) Telescope. The 28-power telescope of the
theodolite can be rotated vertically about the horizontal
axis of the theodolite. Objects appear inverted when
viewed through the telescope. The reticle of the telescope is etched on glass and consists of horizontal and
vertical crosslines and stadia lines. The reticle crosslines
are focused by rotating the eyepiece; the image, by
rotating the knurled focusing ring. Three adjusting
screws are provided for correcting the horizontal collimation error. A reticle illuminating mirror control knob
located on top of the telescope controls a small mirror
inside the telescope for illuminating the reticle when
electric illumination is used.
(e) Circle selector knob. The circle selector
knob is located immediately above the trademark inscription “Wild’. The knob is inscribed with a heavy
black line which indicates whether the image of the
horizontal or the vertical circle is visible in the circlereading microscope. When the line is horizontal, the
horizontal circle may be viewed; when the line is
vertical, the vertical circle may be viewed.
(f) Microscope. Attached to the telescope is a
microscope for viewing the horizontal and vertical
circles. The circle to be viewed is selected by turning
the circle selector knob to either the horizontal or the
vertical position, The field of view of the microscope
appears to contain two small windows. The upper
window contains images of two diametrically opposite
portions of the horizontal or vertical circle. One of the
images of the circle is inverted and appears above the
other image, The lower window contains the image of a
portion of the micrometer scale. The image of the scale
is brought into focus by rotating the knurled microscope eyepiece.
(g) Coincidence knob. The coincidence knob on
the side of the right standard is used to obtain readings
for either the horizontal or vertical circle in conjunction with the micrometer scale. It operates the micrometer scale to bring the vertical or horizontal circle
graduations into coincidence.
(h) Vertical circle illumination mirror. A tilting
mirror for illuminating the vertical circle is located on
the side of the standard at the center of the vertical
5-4
circle. This mirror is identical with the mirror on the
horizontal circle in construction and use.
(i) Horizontal clamping screw. The horizontal
clamping screw is located on the right front portion of
the instrument imemdiately above the horizontal circle
housing. This control is used to lock the alidade in any
desired position on its vertical axis.
(j) Horizontal tangent screw. The horizontal
tangent screw is located on the right rear portion of the
instrument immediately above the horizontal circle
housing. This control enables precision adjustment in
the horizontal positioning of the telescope.
(k) Vertical clamping screw. The vertical
clamping screw is located adjacent to the vertical circle.
This control permits the telescope to be rotated vertically about its axis or to be locked in a fixed vertical
position.
(l) Vertical tangent screw. The vertical tangent
screw is immediately below the vertical clamping
screw. This control permits precision adjustment in the
vertical position of the telescope.
(4) Carrying case. The carrying case for the theodolite consists of a base plate and steel dome-shaped
hood. When the theodolite is placed on the base plate,
it rests on three supports and is secured to the support
by three clamps. A padded wooden box is also furnished
for transporting the theodolite in its carrying case.
(5) Electric illumination device. The theodolite
contains a built-in wiring system for illuminating the
circles, the micrometer scale, and the telescope reticle.
Two bulb holders are in the base of the carrying case or
in the accessory case. Each of the circle-illuminating
mirrors can be replaced by pulling a mirror off the
instrument and inserting a bulb holder in its place. A
battery case is attached to one of the tripod legs, and
the wiring from this case leads to an illumination socket
located in the tribrach. A second wire from the battery
case leads to a hand lamp that is used for general
illumination around the instrument. A rheostat is provided on the battery case for adjusting the intensity of
light, Telescope reticle illumination is adjusted by turning the reticle illumination knob on top of the telescope
to rotate a small mirror located at the horizontal axis in
the telescope.
(6) Tripod. The universal tripod is issued with the
theodolite. This tripod has extension legs and accessory
case. The overall length of the closed tripod is 3 feet;
the etended length is 5.2 feet. The accessory case is
made of leather and is mounted on the tripod. The case
contains a plumb bob with a plug-in sleeve and a
wrench for the tripod legs. The head of the tripod is
covered with a screw-on protector cap.
-
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
5-3. Target Set. (See figure 5-2). The target set includes
a target, tribrach, and artificial illumination device. The
tribrach is the same that is used with the theodolite and
is provided with leveling screws and an optical plumb.
The target is black on white to provide a sharp aiming
point. It rotates on its base and has a level vial for use
in leveling, The target may be backlighted with the
illumination device, which is connected to the theodolite battery box.
5-4. Setting Up the Theodolite and Target Set. The
theodolite and target set are mounted on tripods and
plumbed and leveled over the primary and azimuth
survey markers, respectively.
then releasing it, If the leg is properly adjusted, it should fall to about 45 degrees and
stop. If it does not, the tripod leg should be
adjusted by tightening or loosening the tripod
clamping nut. The test should be repeated
until successful.
(4)
Spread the legs and place the tripod over the
station to be occupied, with one leg approximately bisecting the angle(s) to be measured.
The head of the tripod should be set up at a
height which will place the telescope at a
convenient height for the operator.
(5)
Insert the plug-in sleeve of the plumb bob into
the instrument-fixture screw and extend the
plumb bob so that it will hang about an inch
above the station. Center the tripod approximately over the station.
(6)
Firmly embed the tripod legs, making sure
that the plumb bob is within one-half inch
(laterally) of being centered over the station
and that the tripod head is approximately level
when the legs are embedded.
(7)
Remove the tripod head cover and secure it to
the tripod leg.
a. Setting Up the Tripod. The procedure for setting
up the tripod is as follows:
(1) Upend the tripod and place the tripod head on
the toe of the shoe. Unbuckle the restraining
strap and secure the strap around the leg to
which it is attached.
(2) Loosen the leg clamp wing screws and extend
the tripod legs to the desired length. Tighten
the leg clamp wing screws.
(3) Turn the tripod to its upright position and test
the adjustment of each tripod leg by elevating
each leg, in turn, to a horizontal position and
b. Removing the Theodolite from its Case. To remove the theodolite from its case:
Figure 5-2. Tripod and Target Set
5-5
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
(1) Grasp the carrying strap with both hands just
above the two clamping levers and pull outward to release the clamping levers from the
base assembly.
(2)
Lift the dome-shaped cover directly off the
instrument and lay it to one side,
(3)
Release the three clamps which secure the
theodolite to the case base. Grasp the theodolite by the standard that has the trademark
inscribed on it and lift the theodolite off the
base.
(4)
Attach the instrument to the tripod head by
screwing the fixing screw snugly into the base
of the tribrach.
(5) Replace the cover on the base of the case to
prevent dust and moisture from entering the
case.
c. plumbing and Leveling the Theodolite. The proocedure. for plumbing and leveling the theodolite is as
follows:
(1)
Loosen the fixing screw slightly and carefully
move the instrument around on the head of
the tripod until the point of the plumb bob is
centered exactly over the station.
Tighten the instrument to the tripod head,
making sure that the point of the plumb bob
remains centered over the station.
Excessive tightening of the fixing screw
will bend the slotted arm and damage the
tripod head.
(3)
Loosen the leveling screws to expose sufficient
thread (3/8 to 1/2 inch) on the three screws to
permit the instrument to be leveled. Rotate
the instrument until the axis of the tubular
level is parallel to any two of the three leveling screws. Center the bubble by using these
two leveling screws. Grasp the leveling screws
between the thumb and forefinger of each
hand and turn the screws simultaneously so
that the thumbs of both hands move either
toward each other or away from each other at
the same time. This movement tightens one
screw as it loosens the other. The bubble
always moves in the same direction as the left
thumb.
(4) Rotate the instrument 1,600 roils; this places
one end of the plate level over the third
leveling screw. Using this screw, center the
bubble,
5-6
(5)
Return the instmment to the first position ((3)
above) and again center the bubble.
Return the instrument to the second position
((4) above) and again center the bubble.
(7) Repeat (5) and (6) above until the bubble
remains centered in both positions,
(8) Rotate the instrument 3,200 roils from the first
position. If the bubble remains centered in this
position, rotate the instrument 3,200 roils
from the second position. If the bubble remains centered in this position, rotate the
instrument throughout 6,400 roils. The bubble
should remain centered; if it does, the instrument is level.
(6)
(9) If the bubble is not centered when the instrument is rotated 3,200 roils from the first position ((8) above), the level vial is out of adjustment. To compensate, move the bubble halfway back to the center of the level vial, using
the same leveling screws that were used for
the first position. Rotate the instrument 3,200
roils from the second position and move the
bubble halfway back to the center of the level
vial, using the one remaining leveling screw.
The instrument is now level, and the bubble
will come to rest in its vial at the same offcenter position regardless of the direction in
which the instrument is pointed. The level vial
should be adjusted at the first opportunity.
(10) After the instrument is leveled, check the
optical plumb to ensure that the instrument is
centered exactly over the station. If it is not,
center the instrument over the station by shifting it on the tripod head, and again check the
level of the instrument. If necessary, repeat
the leveling process and again check the optical plumb. Repeat this process until the instrument is level and centered over the station,
d. Focusing the Telescope to Eliminate Parallax.
Before a theodolite is used for measuring angles, the
telescope must be focused to eliminate parallax by
bringing the focus of the eyepiece and the focus of the
objective lens to the plane of the reticle (crosslines).
This is accomplished as follows: Point the telescope
toward the sky or a neutral background and rotate the
knurled ring on the telescope eyepiece until the reticle
crosslines are sharp, distinct lines. (In doing this, the
observer should be very careful to focus his eye on the
crosslines, not the sky). Next, point the telescope
toward a well-defined distant point and, still focusing
the eye on the crosslines, bring the point into a clear,
sharp image by rotating the knurled focusing ring on
the telescope. Use the horizontal tangent screw to
center the vertical crossline on the point. To check for
elimination of parallax, move the eye horizontally back
and forth across the eyepiece. If the parallax has been
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
eliminated, the crossline will remain fixed on the object
as the eye is moved. If all parallax has not been eliminated, the crossline will appear to move back and forth
across the object. To eliminate any remaining parallax,
change the focus of the eyepiece slightly to bring the
crosslines into sharper focus, and refocus the telescope
accordingly until there is no apparent motion, Each
time an angle is to be measured, the telescope should
be focused to eliminate parallax, since accurate pointings with the instrument are not possible if parallax
exists.
e. Setting Up the Target Set. The procedure for
setting up the target set is as follows:
(1) Remove the tribrach and target from the case.
(2) Secure the target to the tribrach.
(3) Attach the target to the tripod by screwing the
fixing screw snugly into the base of the tribrach.
(4) Plumb and level the target in a manner similar
to paragraph 5-4c.
(5) Rotate the target so it faces the theodolite.
5-5. Horizontal Circle Readings. (See figure 5-3.) On
the roil-graduated theodolite, the main scale (upper
window) is graduated in 2-mil increments. Each fifth
graduation is numbered, omitting the unit digits; e.g.,
10 roils appear as 1; 250 roils as 25; and 3,510 roils as
351. The micrometer scale (lower window) is graduated
from 0.000 mil to 1.000 roil. Each 0.002 mil is marked
with a graduation, and each fifth graduation is numbered (hundredth of a roil). The scale may be read to
0.001 mil by interpolation. To determine a reading on
the horizontal circle:
a. Rotate the circle selector knob until the black
line on the face of the knob is horizontal.
b. Adjust the horizontal circle illuminating mirror
so that both windows in the circle reading microscope are uniformly lighted. If there is insufficient light, replace the mirror with a lamp
assembly.
c. Focus the microscope eyepiece so that the graduations of the circle and micrometer scale are
sharply defined.
d. Observe the images in the microscope. Bring the
circle graduations into coincidence at the center
of the upper window by turning the coincidence
knob, When the knob is turned, the images of
the opposite sides of the circle appear to move
in opposite directions across the upper window
in the circle-reading microscope. The image of
the micrometer scale in the lower window also
moves. The graduations of the circle (upper
window) are brought into coincidence so that
they appear to form continuous lines across the
e.
f.
g.
h.
i.
dividing line. The center of the field of view in
the upper window is marked by a fixed vertical
index line. The final coincidence adjustment
should be made between circle graduations in
the vicinity of this index line, The line is not
used in reading the circle, The final motion of
the coincidence knob must be clockwise.
Determine the first erect numbered graduation
to the left of the index line that marks the center
of the upper window. This numbered graduation
indicates the value of the circle reading in tens
of roils. In figure 5-3, this value is 121.
Locate on the inverted scale the graduation for
the number diametrically opposite 121 (the number +320). This number is 441 (viewed
The inverted number is always to the right of the
index line which marks the center of the field of
view. When the unit roils of the circle reading is
zero, coincidence is obtained with the circle
reading and its diametrically opposite number in
coincidence with each other in the immediate
vicinity of the index line, Both values always end
in the same number — in this case, the number
1.
Count the number of spaces between graduations from 121 to the inverted 441. There is one
space, representing 1 roil. Each of these spaces
represents 1 roil.
Convert 121, which is tens of roils, to 1,1210
roils, and to this value, add the unit roils determined in c above (1,210 + 1 = 1,211 roils, the
angular value obtained from the main scale).
On the micrometer scale (lower window), the
index line that marks the center of the field also
indicates the value to be read from the micrometer scale. This value is 0.403 roil.
Add the values determined in h and i above
(1,211 + 0.403) = 1,211.403 roils, the angular
value displayed in figure 5-3.
5-6. Setting the Horizontal Circle. The horizontal
circle can be set to read a given value with the telescope ointed at a target. The initial circle setting of
0.150 ±0. 100 mil) is used as an example.
a. Point the instrument at the target.
b. Using the coincidence knob, place a reading of
0.150 on the micrometer scale.
c. Using the scale-setting knob, zero the main scale
as accurately as possible, insuring that the numbered lines, which are 3,200 roils apart (the erect
0 graduation and the inverted 320 graduation),
are touching each other.
d. With the coincidence knob, bring the main scale
graduations into a more precise coincidence.
5-7
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 5-3. Horizontal Circle Readings
e. Read the horizontal circle. The reading should
be 0.150 (within ±0.100 roil), With care, a circle
may be set to an accuracy of 0.010 mil.
5-7. Pointing the Theodolite.
a. Release the horizontal and vertical clamping
screws.
b. Aim the telescope on the target. Focus as necessary.
c. When the telescope crosshairs are on the target,
tighten the horizontal and vertical clamping
screws.
d Use the telescope focusing ring to bring the
image into sharp focus.
e. Use the horizontal and vertical tangent screws to
exactly center the intersection of the horizontal
and vertical crosshairs over the target. If the
target is a vertical line, like a pole, the same
point on the target must be used for each sighting.
5-8. Autoreflection. (See figure 5-4.)
5-8
NOTE
To increase visibility, color the theodolite
sight white with typewriter correction
fluid. At night, illuminate the sight with
the theodolite handlamp.
a. Level the porro prism using the level adjust
knob and level vial. The level adjustment can
accommodate slopes up to ±20 degrees.
b. Aim the theodolite so the horizontal crosshair
lies along the centerline of the prism.
c. Increase the telescope focus towards infinity until the reflected image of the front of the telescope is visible.
d Adiust the theodolite so the reflected image of
the theodolite sight is centered on the vertical
crosshair. See figure 5-5. Lock the clamping
screws and readjust as necessary.
5-9. Measuring Horizontal Angles. (See figure 5-8.)
a. With the telescope in the direct (D) (sight on
top) position, point the telescope on the azimuth
target.
b. Set the horizontal circle to approximately 0.150
roil.
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 5-4. Leveling the Porro Prism
Figure 5-5. Theodolite Reflected Image
5-9
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure 5-6. Measuring Horizontal Angles
Verify the telescope is properly pointed on the
target and record the horizontal circle reading
(0.158 mil).
With the telescope in the direct (D) position,
turn it in a clockwise direction and autoreflect
on the porro prism. Record the horizontal circle
reading (824.376 mils).
Plunge the telescope to the reverse (R) (sight on
bottom) position.
Autoreflect on the porro prism and record the
horizontal circle reading (4024.372).
With the telescope in the reverse (R) position,
point on the azimuth target, Record the horizontal circle reading (3200.156).
Subtract the direct reading on the target from
the direct reading on the porro prism to obtain
the direct angle (DA).
824,376
-0.158
DA = 824.218
Subtract the reverse reading on the target from
the reverse readin on the porro prism to obtain
the reverse angle (RA).
4024.372
-3200,156
RA = 824.216
5-10
j. If DA and RA differ by more than 0.1 mil, check
the plumb and level of the theodolite and target
and remeasure the angles, If there is a consistent
error, adjust the instrument in accordance with
paragraph 5-14.
k. Mean DA and RA to obtain the horizontal angle
(HA).
824.218
+824.216
1648.434
÷2
HA = 824.217
5-10. Taking Down the Theodolite. When observations
are completed at a station, the theodolite and tripod are
taken down as follows:
a. Place the telescope in a vertical position with
the objective lens down and tighten the vertical
clamping screw.
b. Turn each leveling screw to the same height.
c. Position the horizontal clamping screw directly
over one of the leveling screws and tighten it.
d. Grasp the instrument by its right standard and
unscrew the instrument-fixing screw. Lift th
theodolite from the tripod and secure it in the
carrying case. Replace the dome-shaped cover.
e. Replace the tripod head cover. collapse the tripd, and strap the tripod legs together.
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
5-11. Care of the Theodolite. The theodolite is a delicate instrument, and care must be taken not to drop it
or bump it against any object. If the instrument gets
wet, it must be dried before it is returned to the
carrying case. As soon as possible, the instrument
should be placed in a dry room or tent. It should be
removed from the carrying case so that it may dry
completely. If left in the closed carrying case, it will
absorb the humidity in the air if there is an increase in
temperature. Should the temperature drop afterwards,
the moisture will condense on the interior of the instrument, A man on foot may carry the instrument,
mounted on the tripod, with the tripod under one arm
and a hand supporting the theodolite itself. All motions
should be clamped with the telescope in the vertical
position. When the theodolite is carried over rough
terrain, the instrument should be transported in its
carrying case. When transported in a vehicle, the theodolite should be in the dome-shaped carrying case, and
the case should be in the padded box. For short distances, the carrying case may be held in an upright
position on the lap of the instrument operator.
5-12. Cleaning the Theodolite. The theodolite must be
kept clean and dry. During use, as necessary, and after
use, the instrument should be cleaned as follows:
a.
Painted surfaces should be wiped with a clean
cloth.
b. The lenses should be cleaned only with a camel’s-hair brush and lens tissue. The lens should be
cleaned first with the brush to remove any dust
or other abrasive material and then with the lens
tissue. Any smudge spots remaining after the lens
tissue is used can be removed by slightly moistening the spot and again cleaning with the lens
tissue. Care should be taken not to scratch the
lens or remove the coating. The coating reduces
glare for the observer.
c. All metal parts of the tripod should be cleaned
with a cloth moistened with an approved cleaning solvent and wiped dry. The wooden parts
should be cleaned with a soft cloth moistened
with water and then dried thoroughly. The
leather strap should be cleaned with a suitable
leather cleaner.
5-13. Repair of the Theodolite. Adjustment (except as
explained in paragraphs 5-15 through 5-20) and repair
of the theodolite must be performed by qualified instrument repair personnel. Theodolites in need of adjustment or repair should be turned in to the engineer unit
responsible for providing maintenance service. TM
5-6675-286-12 and/or TM 08837A-12/1 outlines the
categories of maintenance.
5-14. Adjustment of the Theodolite.
a. The theodolite must be kept in correct adjustment if accurate results are to be obtained.
There are five tests and adjustments of the theodolite that should be made periodically. These
tests should be performed in the sequence in
which they are discussed in paragraphs 5-15
through 5-19, When a test indicates that an
adjustment is necessary, this adjustment should
be made and the instrument tested for accuracy
before the next test is performed.
b. The five tests and adjustments of the theodolite
are made with the instrument mounted on its
tripod and accurately leveled. For these tests and
adjustments, the instrument should be set up in
the shade on firm ground with the head of the
tripod as nearly level as possible. The theodolite
should also be protected from the wind.
5-15. Plate Level Adjustment.
a. Purpose. The purpose of the plate level adjustment is to make the vertical axis of the theodolite truly vertical when the bubble of the plate
level is centered in its vial.
b.
Test. To test the adjustment of the plate level,
place the axis of the plate level parallel to two
of the three leveling screws. With these two
leveling screws, center the bubble of the plate
level. Rotate the instrument 1,600 mils and again
center the bubble, using the third leveling screw.
Repeat these steps until the bubble remains
centered in both positions. Carefully center the
bubble in the first position and then rotate the
instrument 3,200 mils. If the bubble does not
remain centered, adjustment is required; the discrepancy noted in the position of the bubble is
the apparent error, or twice the actual error, of
the plate level.
c. Adjustment. To adjust the plate level, remove
one-half of the apparent error (the actual error)
by turning the capstan adjusting screw located
below the collimation level illuminator. The
adjusting pin is used to turn the capstan adjusting screw. Repeat the test to detect any error
remaining in the adjustment of the plate level
and adjust, if necessary.
5-16. Optical Plumb Adjustment.
a. Purpose.
of the optical plumb adjustment is to make the vertical axis of the
theodolite pass through the station mark when
the theodolite is properly leveled and the station
mark is centered in the reticle of the optical
plumb.
5-11
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Test. To test the optical plumb, suspend the
plumb bob from the leveled instrument and
mark a point on the ground exactly under the
point of the plumb bob. Remove the plumb bob
from the instrument and check to insure that the
instrument is accurately leveled (i.e., the vertical
axis is truly vertical). Look into the eyepiece of
the optical plumb. If it is in correct adjustment,
the mark on the ground will be centered in the
reticle.
c. Adjustment. There are three adjusting screws on
the telescope, a horizontal screw on the left side
and two slant screws on the right side. If the
vertical line does not continuously bisect the
sighted point, turn the two slant screws an equal
amount in opposite directions to rotate the reticle until the vertical crossline does bisect the
point throughout the elevation and depression of
the telescope.
c. Adjustment. If the point on the ground is not
centered in the optical plumb reticle, center the
point by means of the three capstan adjusting
screws located near the optical plumb eyepiece.
Two of these adjusting screws are located on
opposite sides of the eyepiece, and the third
adjusting screw is located below the eyepiece
opposite a sprint-loaded plunger. The bottom
adjusting screw is locked in place by a capstan
retaining nut, which is located immediately
above the head of the adjusting screw. With an
adjusting pin, loosen the retaining nut and raise
or lower the reticle by turning the bottom adjusting screw to move the reticle image along
the axis of the optical plumb in the same direction that the screw travels. The two side adjusting screws are used to move the image of the
reticle in the opposite direction from their
travel. If it is necessary to use these screws, they
should be rotated an equal amount in opposite
directions, It is usually necessary to loosen the
screw below the eyepiece slightly to adjust the
screws on the side and vice versa. To make the
adjustment, loosen one of the two opposed
screws and the retaining nut slightly. The springopposed adjusting screw should be used for necessary adjustments, and the opposed adjusting
screws should be used to complete these adjustments. When the adjustment is complete, the
two opposed adjusting screws must be faily tight.
Lock the bottom adjusting screw in place by
tightening the retaining nut.
5-18. Horizontal Collimation Adjustment.
a. Purpose. The purpose of the horizontal collimation adjusting is to make the line of sight
perpendicular to the horizontal axis of the telescope.
b. Test. To test the horizontal collimation, select a
well-defined point at least 100 meters from the
instrument and at approximately the same relative height. With the telescope in the direct
position, center the vertical crossline on the
selected point. Set the horizontal circle to any
reading less than 3,200 mils, close the cover on
the circle-setting knob, and record the reading.
Plunge the telescope to the reverse position and
take a second reading on the same point. The
instrument operator should repeat both readings
to insure that no error was made in reading the
instrument. These two readings should differ by
3,200 mils. Assuming no error in the pointings or
readings, any discrepancy between actual difference in the two readings and 3,200 mils is the
apparent error, or twice the horizontal collimation error. If this discrepancy exceeds plus or
minus 0.100 mil (20”), the horizontal collimation
adjustment should be performed.
c. Adjustment. For the purpose of illustration assume that the horizontal circle reading in the
direct position is 0000.200 mil and in the reverse
position is 3,200.800 mils. With the telescope in
the direct position, use the coincidence knob to
set the mean value (0.500) on the micrometer
scale. Using the horizontal tangent screw, bring
the main scale into coincidence with a value of 0
mil on the scale. In doing this, the vertical
crossline is moved off the point by the amount of
the horizontal collimation error. The vertical
crossline is then aligned on the selected point by
lateral movement of the reticle within the telescope. To move the reticle, loosen (tighten) the
two adjusting screws in the slant position on the
right side of the telescope equally, and tighten
(loosen) the single adiusting screw on the left
side of the telescope. For moving the reticle, the
adjusting screw(s) should be loosened before the
screw(s) on the opposite side of the telescope is
tightened. Repeat the test and adjustment procedure until the difference between the direct and
b.
5-17. Verticality Adjustment.
a. Purpose. The purpose of the verticality adjustment is to make the vertical crossline of the
reticle lie in a plane perpendicular to the horizontal axis of the telescope.
b. Test. To test the verticality of the vertical
crossline, select a well-defined distant point as
near as possible to the horizontal plane of the
instrument and center the vertical crossline on
the selected point. With the vertical tangent
screw, elevate and depress the telescope. If the
vertical crossline continuously bisects the point,
the adjustment is correct.
5-12
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
reverse points is less than 0.05 mil (10”). When
this adjutment is completed, repeat the verticality test to insure that the vertical crossline is still
perpendicular to the horizontal axis of the tele.
scope.
NOTE
This adjustment can also be made with
the telescope in the reverse position, using the mean value for the reverse pointing, i.e., 3,200.500.
5-19. Vertical Collimation Adjustment.
a. Purpose. The purpose of the vertical collimation
justrnent is to make the line of sight horizontal
when the vertical circle reads 1,600 mils with
the telescope in the direct position (4,800 mils
with the telescope in the reverse position) and
the ends of the collimation level bubble are in
alignment.
b.
Test. To test the vertical collimation, select a
well-defined point at least 100 meters from the
instrument. With the telescope in the direct
position take a vertical circle reading on the
point, making sure that the collimation level
bubble is precisely aligned. Plunge the telescope
to the reverse position and again take a vertical
circle reading to the same point. The collimation
level bubble must be precisely aligned before,
and checked after, each vertical circle reading.
Repeat these two measurements to insure that no
error was made. The sum of the two readings
should equal 6,400 mils. Assuming no error in
the pointings or readings, any difference between
the sum of the two readings and 6,400 mils is the
apparent (index) error, or twice the collimation
level error. If the difference exceeds plus or
minus 0.150 mil (30”), the vertical collimation
level should be adjusted.
c. Adjustment. To adjust the vertical level, compute the correct vertical circle reading by applying one-half of the index error of the vertical
circle to the direct heading. If the sum of the
two readings is greater than 6,400 mils, subtract
one-half the index error from the direct reading;
if the sum is less than 6,400 mils, add one-half
the index error to the direct reading. Place the
instrument in the direct position and accurately
sight on the point. Using the coincidence knob,
set the fractional part of the correct vertical
circle reading on the micrometer scale, and then
obtain coincidence on the main scale at the
correct vertical circle reading by using the collimation level tangent screw. With the telescope
sighted on the point and the correct reading on
the vertical circle, the ends of the collimation
level bubble will not be aligned. Align the images of the ends of the collimation level bubble
by using the two capstan adjusting screws located immediately below the collimation level.
When adjusting the bubble, rotate both screws
the same amount in opposite directions. After
making the adjustment, tighten the screws by
rotating the screws slightly in opposite directions, being careful not to change the alignment
of the ends of the bubble. Repeat the test and
adjustment procedure until the collimation level
error is less than 0.05 mil (10”).
Example:
Vertical circle reading for
direct pointing
1,544.400
Vertical circle reading for
reverse pointing
4,856.098
Sum
6,400.498
Apparent index error = 6,500,498 – 6,400 =
100.498 mil
Collimation error = 100.498 – 2 –0.249 mil
Correct vertical circle reading (direct) = 1,544.400
– 0.249 = 1.544.151
With the telescope in the direct position, accurately
sight on the point. Set the fractional portion of the
correct scale reading on the micrometer scale by using
the coincidence knob, and then obtain coincidence on
the main scale at the correct vertical circle reading
(1,544.151) by using the collimation level tangent
screw. Bring the split bubble into coincidence by turning its adjusting screws.
NOTE
This adjustment can also be made with
the telescope in the reverse position, using the mean value for the reverse pointing, i.e., 4,856.098 – 0.249 = 4,855.849
roils.
5-20. Other Adjustments. Other adjustments to the
theodolite that ‘may be required periodically are as
follows:
a. Leveling Screws. The three leveling screws must
turn smoothly, and with moderate ease and without any shake or backlash. To tighten or loosen
the movement of the leveling screw, use the
capstan adjusting screw located immediately
above each leveling screw.
b. Tangent Screws. The tangent screws must turn
easily and smoothly, without backlash, throughout their travel. A capstan adjusting ring is
located immediately behind each tangent screw,
To adjust the tangent screws, rotate the adjusting
ring with an adjusting pin.
5-13
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
c. Circle-Setting Knob. To adjust the circle-setting
knob, turn the knob until three screws can be
seen through the three holes in the face of the
knob, Carefully loosen these screws enough to
press the knob upward or downward to loosen or
tighten the movement.
d. Tripod. There should be no play at the junction
of the wood and metal parts of the tripod. If
5-14
play exists, tighten the hexagon nuts on the foot
plates and on the extensions of the tripod head,
The legs, when released from the horizontal
position, should fall to an angle of about 45
degrees and remain there. Cheek the movement
of the legs and, if necessary, tighten the clamping screws under the head of the tripod.
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
APPENDIX A
REFERENCES
A-1. Painting
TM 43-0139
Painting Instructions for
Field Use
A-2. Shipment and Storage
TM 5-6675-309-14
or
TM 08840A-14/1
Operator’s, Organizational,
Direct Support, and General Support Maintenance
Manual for Test Set,
Power Supply, PADS AN/
USM-428
TM 5-6675-309-24P
or
TM 08840A-24P/2
Organizational, Direct Support, General Support, and
Depot Maintenance Repair
Parts and Special Tools
List for Test Set, Power
Supply AN/USM-428
TB 740-97-2
or
TM 740-90-1
of USAME
Preservation
COM Mechanical Equipment for Shipment and
Storage
TM 740-90-1
Administrative Storage of
Equipment
MCO 4450.7
Marine Corps Warehousing
Manual
A-4. Demolition
DA PAM 738-750
or
TM 4700-15/1
Marine Corps
The Army Maintenance Management System (TAMMS)
A-5. Forms
TM 5-6675-308-24P
or
TM 08837A-24P/3
Marine Corps
Organization, Direct Support
and General Support, Repair Parts and Special
Tools List, Position and
Azimuth Determining System AN/USQ-70
TM 5-6675-238-14
or
TM 08839A-14/1
Operator’s, Organizational
Direct Support, and General Support Maintenance
Manual for Test Set, Position and Azimuth Determining System AN/USM427
TM 750-244-3
Destruction of Army Materiel to Prevent Enemy Use
A-3. Maintenance
TM 5-6675-238-24P
or
TM 08839A-24P/2
TM 5-6675-308-12
or
TM 08837A-12/1
Organizational, Direct Support, General Support and
Depot Maintenance Repair
Parts and Special Tools
List for Test Set, Position
and Azimuth Determining
System AN/USM-427
Operator’s and Organizational Maintenance Manual for Position and Azimuth Determining System
AN/USQ-70
NAVMC Form 10772
Recommended Changes to
Technical Publications
DA Form 2028
Recommended Changes to
Publications and Blank
Forms
DA Form 2028-2
Recommended Changes to
Technical
Equipment
Publications
DA Form 12-25A
Requirements for Technical
Publications for Army
Mobility Support Equipment
DD Form 6
Packaging Improvement Report
SF 361
Discrepancy in Shipment
Report (DISREP)
SF 368
Quality Deficiency Report
CTA 50-970
Expendable/Durable
Items
(Except: Medical, Class
V, Repair Parts, and Heraldic Items)
MCO 1650.17
Marine Corps Military Incentive Awards Program
MCO P4610.19C
Discrepancy in Shipment
MCO 4855.10
Quality Deficiency Report
Change 1
A-1
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
DA Pam 750-10
SL l-2/SL 1-3
700-20
U.S. Army Equipment Index
of Modification Work Orders
Army Adapter/Other Items
Selected for Authorization List of Portable
Items
TM 4700-15/1
Equipment Record Procedures
A 2 Change 1
TM 9-6140-200-14
Operator’s, Organizational,
Direct Support, and
General Support Maintenance Manual for
Storage
Lead-Acid
Batteries.
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
GLOSSARY
Section I. DEFINITIONS OF SPECIAL TERMS
A
ACCELEROMETER – Electric transducer used to
measure linear acceleration.
AUTOREFLECTION – A method of directing a
straight line by projecting an image of theodolite
sight to a reflecting plane and then back to the
telescope.
AZIMUTH – Horizontal angle measured clockwise from true north (true azimuth), or from grid
north (grid azimuth), to a line through an observed or designated point.
GYROCOMPASSING – A capability of advanced
inertial measurement systems (included PADS)
whereby the system, after startup and receiving
position information, will align itself with true
north.
B
M
BIT – A built-in-test; normally, a test for proper
functioning.
BITE – Built-in-test equipment; components
within an equipment which are used to conduct
built-in tests.
MIL – A unit of angular measurement equal to
1/6400 of 360°, or approximately 0° 03.4’ of
arc; approximately equal to 1/1000 of the range,
E
EARTH RATES – Forces generated by earth’s
rotation that affect inertial measurement system
accuracy. Corrections are applied by computer
to compensate for the effect of these forces.
EASTING – The east-west distance of a location
from the central meridian of a grid.
L
LOCAL VERTICAL – Coincident with gravity
vertical.
N
NORTHING – A designation for the distance a
position lies in a north-south direction from a
designated latitude line; in UTM grid, the equator is zero for points in the northern hemisphere;
the equator carries an artificial label of 10,000
kilometers north for points in the southern hemisphere.
0
F
FAULT INDICATOR – An indicator which allows an observer to see that the system concerned is functioning properly (black color), or
malfunctioning (white color).
OPTICAL AZIMUTH TRANSFER – Transfer of
orienting line angle information from PADS to a
survey control point by autoreflecting a theodolite on PADS porro prism.
P
G
GYROSCOPE – A device, based about a wheel, so
mounted that its spinning axis is free to rotate
about either of tsvo other axes perpendicular to
itself and to each other.
PORRO PRISM – A prism that has two reflecting
surfaces orthogonal to each other.
Glossary 1
ARMY TM 5-6675-308-34
MARINE CORP5 TM 08837A-34/2
R
RESOLVER – Senses synchro error signal and
drives torquer to remove angular orientation
difference between stable element and vehicle.
S
SPHEROID – An earth spheroid model used for
computing geodetic positions. There are seven
spheroid systems which PADS can accommodate. These are:
(1) Clarke 1866
(2) Clarke 1880
(3) International
(4) Bessel
(5) Everest
(6) Malayan
(7) Australian Net
STABLE ELEMENT - Part of inertial measurement unit that contains gyros and accelerometers,
SYNCHRO - A device that senses any differences
in angular orientation between the stable element and the vehicle,
T
TARGET SET - A target, usually mounted on a
tripod, marking the distant end of an orienting
line; usually capable of being lighted so that the
orienting line may be viewed at night.
TWO-POSITION AZIMUTH TRANSFER – A
method whereby PADS lays out an azimuth
(orienting) line by taking departure from one
point, driving the utility truck to a second point,
marking the second point, and automatically
computing the azimuth from first to second
point.
TORQUERS – Motors that process the gyro axes
to maintain the stable element in a locally level
north-point attitude.
U
UPDATE – As applied to PADS, a correction of
PADS position or azimuth data. The correction
is a transfer of position and azimuth data from
that which has been accurately determined by a
higher order survey, such as celestial,
UTM – Universal Transverse Mercator – the
name of a grid system where meridians (longitude lines) and parallels (latitude lines) of the
earth are represented on a plane in the same
manner as a rectangular coordinate system.
Z
ZERO-VELOCITY CORRECTION – A method
by which PADS navigating errors are minimized.
With the vehicle stopped, the PADS computer
checks to see if the system calculates a stop, or is
indicating movement. If movement is being indicated, the computer performs a biasing procedure to cause the system to indicate a stop. The
biasing computation is then used to correct navigation data computed since the previous correction or update.
ZONE NUMBER – The number assigned to UTM
to identify each of the 60 UTM zones (each 6° of
longitude). Zones are numbered consecutively
eastward from the 180th meridian.
SECTION II. NONSTANDARD ABBREVIATIONS
A/D – Analog-to-digital
CDU – Control and display unit
COMP – Computer
CPU – Central processing unit
CUCV – Commercial utility cargo vehicle
CUV – Commercial utility cargo vehicle
D/DC – Digital-to-dc
DMA – Direct memory access
Glossary 2
Change 5
D/R – Digital-to-resolver
D/S – Digital-to-synchm
EIR – Equipment improvement recommendations
ENT – Enter
HMMWV - High-mobility multipurpose wheeled
vehicle
HUM – High-mobility multipurpose wheeled vehicle
ID – Identification
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
IMU - Inertial measurement unit
SCR - Silicone controlled rectifier
I/O - Input/output
SDB - Serial data bus
MAC - Maintenance allocation chart
SEL - User selected data
M151 - Standard U.S. Army jeep with pintle mount
SPH - Spheroid
OH-58 - Helicopter
SPU - Signal processor unit
PADS - Position and azimuth determining system
SUSV - Small unit service vehicle
PLMB - Standard U.S. Army jeep with PADS plumb
bob arm
SUV - Small unit service vehicle
POR - Power on reset
UART - Universal asynchronous receiver/transmitter
UH-1 - Helicopter
PS - Power supply
UTM - Universal Transverse Mercator
PSTS - Power supply test set
SECTION III. SYMBOLS
AV - Incremental velocity
AU - Incremental angular motion
AVX - Incremental velocity in the north-south
direction; along the x-axis
AVY - Incremental velocity along the east-west
direction; along the y-axis
AVZ - Incremental vertical velocity; along the
z-axis
Ux - Angular velocity about the x-axis; gyro y-axis
torquing signal
Uz - Angular velocity about the z-axis; gyro x-axis
torquing signal
AWX - Incremental angular velocity about the
x-axis; gyro y-axis torquing signal
Auy - Incremental angular velocity about the
y-axis; gyro x-axis torquing signal
Auz - Incremental angular velocity about the
z-axis; gyro y-axis torquing signal
* - Asterisk denotes negative logic
L – Horizontal angle
Uy - Angular velocity about the y-axis; gyro x-axis
torquing signal
Change 5
Glossary 3/(Glossary 4 blank)
ARMY TM 5-6675-308-34
MARINE CORPS TM 00837A-34/2
INDEX
subject
Paragraph
Figure, Table,
Number
A
Adjustments:
Connector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .....
Horizontal collimation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Locations, computer power supply circuit card . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Locations, power supply circuit card . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Optical plumb . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Plate level. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .......
Theodolite . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .....
Verticality . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Vertical collimation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Administrative storage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Alignment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Alignment procedure, IMU . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Alignment surface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Auxiliary equipment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Angle measurement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Autoreflection . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3-7
5-18
F4-13
F4-11
5-16
5-15
5-14
5-17
5-19
1-4
3-6
4-11, T 4-14
F 4-7
1-9, F 1-1,
T 1-1
F 4-9
5-8
B
Battery box maintenance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Bench testing:
CDU . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Computer . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...
Computer power supply . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power supply . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3-21
4-4
4-2
4-3
4-5
c
Cables assemblies wiring diagram . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Cable testing/connector adjustment . . . . . . . . . . . . . . . . . . . . . . . . . . ... . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .... . . . .
Cable and connector repair.. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Backshell strap wrench . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Crimping tool operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . .
Lug replacement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Pin insertion . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Pin removal . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...
Tooling and contact identification . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Right angle backshell assembly . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Right angle backshell disassembly . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Straight backshell assembly . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Straight backshell disassembly . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Tools and contact pins . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
C a l i b r a t i o. . n. . ... . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ............. .
Care of theodolite . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
CDU bench testing. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
FO-4
3-7, F 3-2
4-20
F 4-22
4-20d, F 4-28
thru
F 4-33
4-20e
4-20c(3)
4-20c(2), F 4-26
T 4-22
4-20b(4), F 4-24
4-20b(3), F 4-24
4-20b(2), F 4-23
4-20b(l), F 4-23
F 4-25
1-5
5-11
4-4
Index 1
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
INDEX
subject
Paragraph,
Figure, Table,
Number
CDU circuit card identification . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . T 3-6
CDU exploded view . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..... . . . . . . ... F 3-9, F 4-17
CDU functional block diagram . . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . F 2-1
CDU functional description: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2 - 3
CDU power requirements . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-3e
Discrete logic . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ................. 2-3d
Display logic registers and drivers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-3b
Keyboard and associated logic . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-3c
Serial data bus logic . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..... 2-3a
4-17
.
CDU maintenance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ............ 3-17,
CDU mounting bracket installation. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-22s
CDU, removal and replacement . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-13a
CDU repair . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ....... .............4-17b
CDU test point identification. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . F 4-2
CDU testing and troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . T 4-11
CDU automatic test mode malfunction teletypewriter messages . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . T 4-13
CDU chassis schematic . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . F 4-4
CDU interconnection diagram . . . . . . . . . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . F 4-5
CDU keyboard interconnection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . F 4-6
CDU test, TTY printout for . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . T 4-10
Procedure . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ............. .......4-10b, T 4-11
Test equipment and materials . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-10a
CDU wire list. . . . . . . . . ..... . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ... .........T 4-2
Circuit card identification:
CDU . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ................................. T 3-6
Computer . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .... . . . . . . . . . . . ... . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ....T 3-5
Computer power supply ... . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .... . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . T 4-21
Power supply. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..........T 4-23
Circuit card removal . . . . .... . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .F 3-8
Cleaning the theodolite . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-12
Computer bench testing . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ....... 4-2
Computer circuit card identification . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . T 3-5
Computer exploded view . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . F 3-7, F 4-14
Computer functional block diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .FO-2
Computer functional description. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-4
Central processing unit, control section . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-4a(2)
Central processing unit, data section . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...... . . . . . .... 2-4a(1)
Computer power supply . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-4e
.
Core memory . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ......... 2-4b
Data flow orientation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-4c
Input/output section . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ......2-4d
Solid state memory . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..... 2-4b.1
4-16
.
Computer maintenance . . . . . . . . . . . .... . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-15,
Computer power supply circuit card identification . . . . . . . . . . . . . . . . . . . . . ........ . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . T 4-21
Computer, removal and replacement . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-13b
Computer repair . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .............4-16C
Computer testing . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-16a
Computer testing and troubleshooting. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-9
Computer automatic test mode malfunction teletypewriter messages . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . T 4-10
Computer Diagnostic/Alignment Programs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . T 4-6, T 4-6.1
Index 2
Change 1
ARMY TM 5-6675-308-34
MARlNE CORPS TM 08837A-34/2
INDEX – Continued
Paragraph,
Figure, Table,
Number
Subject
Computer test, TTY printout of . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . T 4-8
Computer testing and troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . T 4-7
Interconnection diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . F 4-3
Procedure . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-9b
Solid state memory loading . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . T 4-6.2, T 4-6.3
Test equipment and materials . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-9a
Computer test point identification . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . F 4-1
Computer wire list . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . T 4-1
Computer power supply bench testing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-3
Computer power supply exploded view . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . F 4-15
Computer power supply functional block diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . F 2-2
Computer power supply maintenance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-16
Computer power supply repair. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . .. . . . . . . . . .. . 4-16d
Computer power supply schematic diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . FO-5
Computer power supply testing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-16b
Computer power supply testing and troubleshooting: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . T 4-20
Circuit card adjustment locations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . F 4-13
Interconnection diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . F 4-12
Procedure . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . T 4-20
Test equipment and materials . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-14a
Testing and troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-14, T 4-20
Computer power supply wiring harness wiring data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . T 4-22 F 4-16
D
Data, tabulated . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Data entry/display . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Destruction of Army materiel to prevent enemy use . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Direct support test procedure . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Direct support testing procedures . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . .
Direct support troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1-8
3-5
1-7
1-3
T 3-1
3-30
T 3-3
E
Electrical connections for test, direct support test procedure . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-2, F 3-1
Electrical equipment mounting base, exploded view . . . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . F 3-12
Electrical equipment mounting base maintenance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-20
F
Functional description:
CDU . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-3
Computer . . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-4
IMU. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-2
Power supply. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-5
Functional block diagram:
CDU . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . F 2-1
Computer . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . FO-2
Computer power supply . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. F2-2
PADS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . FO-1
Power supply. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . FO-3
Change 4
Index 3
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
INDEX - Continued
Subject
Paragraph,
Figure, Table,
Number
H
Heater air intake system, removal of . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Helicopter pallet modification . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...... . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
High-mobility wheeled vehicle (HMMWV) modification . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Horizontal measuring, angle . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Horizontal collimation adjustment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..... . . . . . . .
Horizontal circle readings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3-24a
3-25, F 3-17
3-27, F 3-19
5-6
5-18
5-5
I
IMU exploded view. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IMU functional description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IMU maintenance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
IMU replacement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IMU repair. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ......... ...
IMU testing alignment, troubleshooting and memory matching
procedure . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ....... . . . . . . . . . . . . . . . . . . . . . . .
Angle measurement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Definitions of Teletypewriter input messages . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IMU automatic test mode malfunction teletypewriter messages . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IMU testing alignment and troubleshoothg . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Interconnection diagram for the IMU test . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Siting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Survey requirements . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Test equipment and materials . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Test procedure . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
TTY printout for IMU test . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Intensity Setting/lamp test . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Installation:
Air pipe (transition joint). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Angle bracket . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Bottom plate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
CDU mounting bracket . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Diagram, utility truck winterization kit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Door frame . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Door latching mechanism . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Kit maintenance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Left side mounting plate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
NutPlate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . ..
Porro prism door . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Right side mounting plate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Vehicle rear panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
F 3-10, F 4-18
2-2
3-18
3-13c
4-18b
4-11
F 4-9
T 4-16
T 4-17
T 4-14
F 4-8
4 11f
4-11c
4-11b
4-11h
T 4-15
3-4
3-24s
3-24e
3-24d
3-24s
F 3-16
3-24o
3-24q
3-19
3-14c
3-24l
3-24p
3-24c
3-24t
M
Maintenance forms and records . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Maintenance:
Battery box . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .......
CDU . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ........
Computer . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . ...
Computer power supply . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IMU . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Index 4
Change 4
1-2
3-21
3-17,
3-15,
3-16,
3-18,
4-17
4-16
4-16d
4-18
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
INDEX – Continued
Paragraph
Figure, Table,
Number
Subject
IMU transit case. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Installation kit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Mounting base subassembly. . . . . . . . . . . . . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
PADS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...............
PADS transit case . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ......
Power supply. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
Tools and materials required for direct support . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Tools and materials required for general support . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Memory matching procedure, IMU. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
O
3-23
3-19
3-20
4-15
3-22
4-19
3-8, T 3-2
4-7, T-4-5
4-11
Optical plumb adjustment. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Operational program loading . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Other adjustments, theodolite . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
P
5-16
4-12, T 4-18
PADS functional block diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Performance standards . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Plate level adjustment. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Plumb bob assembly
Exploded view . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Maintenance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ....
Removal. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...........
Replacement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
Pointing the theodolite . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Porro prism window installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power supply bench testing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...
Power supply circuit card identification . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power supply exploded view. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power supply functional block diagram. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power supply functional description
Ambient temperature control DC power supply . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Battery charger. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Battery monitor and control . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
DC to AC square wave inverter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
DC to AC sine wave inverters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power supply monitor and control. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
28 vdc power supply . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
RFI filters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
Power supply maintenance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power supply repair. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power supply schematic diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power supply subassembly exploded view . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
P o w e r s u p p l y . . t. . e. . .s. . t. . i. . n. . . g. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power supply testing and troubleshooting. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Circuit card test point and adjustment locations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Interconnect diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Procedure . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .....
Subroutine no. 1 – input power short and continuity checks . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Subroutine no. 2 - bus power short and continuity checks . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
FO-1
3-27
5-15
..............
..
5-20
F 3-13
3-20e
3-20d(l)
3-20d(2)
5-7
3-22p
4-5
T 4-23
F 4-19
FO-3
2-5c
2-5g
2-5h
2-5e
2-5d
2-5f
2-5b
2-5a
4-19
4-19b
FO-6
F 4-20
4-19a
4-13
F 4-11
F 4-10
4-13b
4-13d
4-13e
Index 5
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
INDEX – Continued
Subject
Paragraph,
Figure, Table,
Number
Subroutine no. 3 – relay check . . . . . . . . . . . . . . . . . . . . . . .. . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-13f
Subroutine no. 4 – AUX + 24V and + 12V checks . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-13g
Test equipment and materials. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-13a
Testing and troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . T 4-19
Power supply harness assembly wire list . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . T 4-4
Power supply wire list . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..T 4-3
Primary pallet exploded view . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . F 3-6
R
Repair:
...
Cable and connector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4-20
CDU. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ................ 4-17b
Computer . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ....4-16C
...
Computer power supply. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4-16d
IMU . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..... ... ... 4-18b
Pin removal/insertion . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-20c
Power supply . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .......... 4-19b
Subfloor, metal parts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-19a(4)
Subfloor plate, strap tiedown . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-19a(2)
Subfloor plate, stud . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-19a(3)
Thedolite . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .............. 5-13
Removal, heater air intake system . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-24a
Remove and replace – CDU: . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . 3-13a
Audio alarm DS3 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-17b(5)
Control and display unit cover . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-17b(l)
Control and display panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-17b(3)
Control and display unit flexible harness assembly . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-17b(6)
Display logic Al and A2 and keyboard control circuit A3 card
assemblies . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...... . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ........... . . . . . . . . . . . . . . . . . . . .3-17a
Fault indicator DS2 . . . . . . . . . . . .... . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-17b(4)
Relay K1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ... . . . . . . . . . ................4-17b(2)
Remove and replace – Computer:. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-13b
Circuit card assembly replacement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-15a
Computer power supply and computer subassembly replacement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-15c
...
. Elapsed time indicator Ml . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-16c(2)
Fault indicator DS1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4-16c(1)
...
Memory unit replacement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3-15b
Thermostatic switch Sl . . .. .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-16c(3)
:
Remove and replace – Computer power supply: . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-15c
Captive screw. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. 3-16b
5V power supply circuit card assembly Al . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-16d(1)
15V power supply circuit card assembly A2 . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-16d(l)
Guide pins . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-16a
Wiring harness A3 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .... 4-16d(2)
Remove and replace – Electrical equipment mounting base . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-20
...
Plumb bob assembly . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3-2M
Retainer . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ............. ..........3-20c
.
Support strips . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . 3-20b
Vibration mounts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ......3-20a
Index 6 Change 1
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
INDEX – Continued
Subject
Remove and replace – IMU: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Ambient temperature thermostatic witch . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Bolt assembly . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .....
Guide pin . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ............
Porro prism . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .......
Transit case . . . . . . . . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .......
Remove and replace – Other:
Gasket . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..................
IMU transit case shock and vibration isolator mount . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
PADS transit case shock and vibration isolator mount . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Porro prism window . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Subfloor plate, threaded insert . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Subfloor mounting bracket, nut plate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Remove and replace – Power supply: . . . . . . . . . . . . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Battery charger circuit card assembly A7 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Capacitors Cl, C2, and C3 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Chassis-mounted components . . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Circuit breaker CB1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Circuit breaker CB2 . . . . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Circuit breaker cover . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Diode CR2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . .
Elapsed time indicator Ml . . . . . . . . . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Fault indicator DS1 or DS2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Filter circuit card assembly A4 . . . . . . . . . . . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Filter FL1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Interconnect and ouput filter wiring harness . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power inverter assembly A6 . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Reactor L1 and M . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Rectifier CR3 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Relay K1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ......
Relay K2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Relay K3 . . . . . . . . . . . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .........
Sequence monitor circuit card assembly AS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
17V converter-regulator circuit card assembly Al . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
20V converter-regulator circuit card assembly A2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
28V converter-regulator circuit card assembly A3 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Reporting equipment improvement recommedation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Paragraph
Figure, Table,
Number
3-13c
3-18c
3-18a
3-18b
4-18b(l)
3-12, F 3-5
3-14
3-23, F 3-15
3-22, F 3-14
3-24s
3-19a(l), F 3-11
3-19b(l)
3-13d
4-19b(7)
4-19b(9)(y),
4-19b(9)(z)
4-19b(9)
4-19b(9)(c),
4-19b(9)(d)
4-19b(9)(e),
4-19b(9)(f)
4-19b(9)(a),
4-19b(9)(b)
4-19b(9)(q),
4-19b(9)(r)
4-19b(9)(o),
4-19b(9)(p)
4-19b(9)(k),
4-19b(9)(l)
4-19b(4)
4-19b(9)(g),
4-19b(9)(h)
4-19b(8)
4-19b(6)
4-19b(9)(w),
4-19b(9)(x)
4-19b(9)(s),
4-19b(9)(t)
4-19b(9)(u),
4-19b(9)(v)
4-19b(9)(m),
4-19b(9)(n)
4-19b(9)(i),
4-19b(9)(j)
4-19b(5)
4-19b(l)
4-19b(2)
4-19b(3)
1-6
Index 7
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
INDEX – Continued
Paragraph,
Figure, Table,
Number
Subject
S
Small utility support vehicle (SUSV) modification . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Setting up the theodolite and target set . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Setting up the horizontal circle . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Subfloor plate modification . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
T
Target set . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Test setup, direct support test procedure . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Testing procedures, direct support . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Testing:
CDU . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ........
CDU bench . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Computer . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Computer bench . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Computer power supply . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Computer power supply bench . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IMU . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .......
Power supply. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power supply bench . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Testing and troubleshooting:
CDU . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .............
Computer . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Computer power supply . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Direct support . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IMU. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power supply. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
With bit malfunction words . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Theodolite T2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Theodolite, asjustment of . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Theodolite, care of . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Theodolite, cleaning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Theodolite, nomenclature . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Theodolite, reflected image . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Theodolite, repair of . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Theodolite, taking down . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Theodolite and target set, setting up . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Tools and materials required for direct support maintenance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Tools and materials required for general support maintenance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Torquing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Torquing sequence. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Torque wrench use of . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Tripod and target set . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Turn On/turn Off . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3-29, F3-21, F3-22
5-4
5-6
3-25.3, F3-20
5-3
3-2
3-26
4-10, 4-17a,
T 4-11
4-4
4-9, 4-16a,
T 4-6
4-2
4-14, 4-16b,
T 4-20
4-3
4-11, 4-18a,
T 4-14
4-13, 4-19a,
T 4-19
4-5
4-10, T 4-11
4-9, T 4-6
4-14, T 4-20
3-9, T 3-3
4-11, T 4-14
4-13, T 4-19
3-9, T 3-4
5-2
5-14
5-11
5-12
F 5-1
F 5-5
5-13
5-10
5-4
3-8, T 3-2
4-7, T 4-5
3-11, F 3-3
3-11b, F 3-4
3-11a
F 5-2
3-3
U
Utility cargo vehicle (CUCV) modification . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Utility truck winterization kit installation diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Index 8
Change 4
3-26, F3-18
3-24, F3-16
*U.S. GOVERNMENT PRINTING OFFICE: 1990- 754-029/20148
PIN:
050237-004
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
INDEX — Continued
Paragraph,
Figure, Table,
Number
Subject
V
Vehicle example. nonstandard . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Verticality adjustment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Vertical collimation adjustment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
F3-1.1
5-17
5-19
W
Winterization kit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...
Wire list format . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . .
Wire list notation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
Change 5
3-24
4-6
4-6
Index 9/(Index 10 blank)
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure FO-2. Computer Functional Block Diagram
Change 1
FP-3/(FP-4 blank)
ARMY TM 5-6475-303-34
MARINE CORPS TM 08837A-34/2
Figure FO-3. Power Supply Functional Block
Diagram
FP-5/(FP-6
Blank)
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure FO-4. Cable Assemblies Wiring Diagram
(Sheet 1 of 2)
FP-7/(FP-8 Blank)
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure FO-4. Cable Assemblies Wiring Diagram
(Sheet 2 of 2)
Change 5
FP-9/(FP-10 blank)
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
NOTE
1. REFERENCE DESIGNATIONS ARE ABBREVIATED. PREFIX THE DESIGNATION
WITH UNIT NUMBER, ASSEMBLY, OR SUBASSEMBLY DESIGNATION, AS APPLICABLE
2. CAPACITANCE VALUES ARE IN MICROFARADS.
Figure FO-5. Computer Power Supply Schematic
Diagram
FP-11/(FP-12
Blank)
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure FO-2. Computer Functional Block Diagram
FP-17/(FP-18
Blank)
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure FO-3. Power Supply Functional Block
Diagram
FP-19/(FP-20
Blank)
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure FO-4. Cable Assemblies Wiring Diagram
(Sheet 1 of 2)
FP-21/(FP-22
Blank)
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure FO-4. Cable Assemblies Wiring Diagram
(Sheet 2 of 2)
FP-23/(FP-24
Blank)
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
NOTE
1. REFERENCE DESIGNATIONS ARE ABBREVIATED. PREFIX TNE DESIGNATION
WITH UNIT NUMBER, ASSEMBLY, OR SUBASSEMBLY DESIGNATION, AS APPLICABLE
2. CAPACITANCE VALUES ARE IN MICROFARADS.
Figure FO-5. Computer Power Supply Schematic
Diagram
FP-25/(FP-26
Blank)
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure FO-2. Computer Functional Block Diagram
FP-31/(FP-32
Blank)
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure FO-3. Power Supply Functional Block
Diagram
FP-33/(FP-34
Blank)
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure FO-4. Cable Assemblies Wiring Diagram
(Sheet 1 of 2)
FP-35/(FP-36
Blank)
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
Figure FO-4. Cable Assemblies Wiring Diagram
(Sheet 2 of 2)
FP-37/(FP-38
Blank)
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
NOTE:
1.
REFERENCE DESIGNATIONS ARE ABBREVIATED. PREFIX THE DESIGNATION
WITH UNIT NUMBER, ASSEMBLY, OR SUBASSEMBLY DESIGNATION, AS APPLICABLE
2. CAPACITANCE VALUES ARE IN MICROFARADS.
Figure FO-5. Computer Power Supply Schematic
Diagram
FP-39/(FP-40 Blank)
ARMY TM 5-6675-308-34
MARINE CORPS TM 08837A-34/2
By Order of the Secretaries of the Army and the Navy:
JOHN A. WICKHAM, JR.
Genera1, United States Army
Chief of Staff
Official:
DONALD J. DELANDRO
Brigadier Genera1, United States Army
The Adjutant General
Official:
GEORGE B. CRIST
Lieutenant General, USMC
D e p u t y Chief of Staff for Installation and Logistics
DISTRIBUTION:
To be distributed in accordance with DA Form 12-25A, Direct and General Support Maintenance Requirements for Surveying.
* U.S.
GOVERNMENT PRINTING OFFICE:
1985-564-030/20079
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