Nautel NX25 / NX15 Troubleshooting Manual

NX25 Transmitter

Troubleshooting Manual

Document:NX025-TROUBLESHOOT

Issue: 0.3 2009-12-08

Status: Preliminary

Nautel Limited

10089 Peggy’s Cove Road

Hackett’s Cove, NS Canada B3Z 3J4

Phone: +1.902.823.3900 or

Toll Free: +1.877.6NAUTEL (6628835) (Canada & USA only)

Fax: +1.902.823.3183

Nautel Inc.

201 Target Industrial Circle

Bangor, Maine USA 04401

Phone: +1.207.947.8200

Fax: +1.207.947.3693

Customer Service (24 hour support)

+1.877.628.8353 (Canada & USA only)

+1.902.823.5100 (International)

Email: [email protected]

Web: www.nautel.com

The comparisons and other information provided in this document have been prepared in good faith based on publicly available information. The reader is encouraged to consult the respective manufacturer's most recent published data for verification.

© Copyright 2009 NAUTEL. All rights reserved.

Table of contents NX25 Troubleshooting Manual

Contents

Release control record

About this manual

About safety

Safety precautions xv

Responding to alarms 1-1

Corrective maintenance

Electrostatic protection

Identifying an alarm

Responding to alarms

Removing and reinstalling RF power modules

Troubleshooting RF power modules

Control/exciter panel board removal/replacement

PDM Drive Distribution PWB replacement

RF drive distribution PWB replacement

1-37

1-38

Rack Interface PWB replacement 1-39

SCR Rectifier Inspection/Replacement 1-40

Low Voltage Power Supply Replacement

RF Power Module Fan Tray replacement

1-41

1-43

1-17

1-21

1-24

1-30

1-1

1-3

1-4

Detailed Circuit Descriptions

Control/interface PWB (NAPC154C)

Digital AM exciter PWB (NAPE78)

Remote interface PWB (NAPI106)

RF power module (NAP36B)

2-1

2-1

2-5

2-8

2-9

vii

ix

xiii

Page v

NX25 Troubleshooting Manual

Parts Lists

Parts information

Family tree

How to locate information about a specific part

Column content

OEM code to manufacturer’s cross-reference

Common abbreviations/acronyms

Wiring/connector lists

Wiring lists provided

Wiring lists not provided

Connector mating information

Wire colours

Printed wiring board patterns

Reading Electrical Schematics

Component values

Graphic symbols

Logic symbols

Reference designations

Unique symbols

Identifying schematic diagrams

Structure of schematics

Locating schematic diagram(s) for a functional block

Locating a part or assembly on a schematic

Mechanical Drawings

Identifying mechanical drawings

Content of mechanical drawings

List of terms

Page vi Issue 0.3 2009-12-08

Table of contents

5-1

5-1

5-2

5-2

5-2

5-1

5-1

5-1

5-3

5-3

4-1

4-1

4-1

4-1

4-1

4-1

3-1

3-1

3-1

3-1

3-2

3-3

3-4

6-1

6-1

6-1

7-1


Release control record

Issue

0.1

0.2

0.3

Date

2009-01-15

2009-05-19

2009-12-08

Reason

Initial release of manual

Incorporated Engineering review comments; updated electrical schematics and mechanical drawings; update Wiring Lists as per First Article changes

Section 3: Updated Figure 3.1 (Family Tree) to current nomenclatures

Section 5: Updated Table 5.1 to current nomenclatures

Electrical schematics: changed SD-7 through SD-13 to NAPC154C (from NAPC154B); changed SD-16,

SD-17 and SD-18 to NAPI100A/01 (from NAPI100A)

Section 6: Updated Table 6.1 to current nomenclatures

Mechanical drawings: changed MD-4, MD-6, MD-10 and MD-21

Issue 0.3 2009-12-08 Page vii


Page viii Issue 0.3 2009-12-08


About this manual

This manual provides troubleshooting information for the NX25 transmitter. It is intended for use by field technicians. This manual allows the troubleshooting technician to diagnose a fault to the system level, using alarm response procedures, parts lists, wiring lists, and electrical schematics.

Electrical schematics and mechanical drawings are included at the end of the manual.

Performing procedures

When using procedures in this manual, perform each step in sequence.

• If you are asked to see another section of this manual, or another document, refer to that section or document for additional information, then continue the procedure.

• If you are asked to go to another step within the procedure, jump directly to that step without performing the intervening steps.

• If you are asked to go to another section or document, stop the procedure and perform the tasks described in the other section or document.

• If you are asked to check a voltage , use a digital voltmeter and test the voltage relative to ground (unless otherwise instructed).

• If you are asked to check a signal , use an oscilloscope and test the signal relative to ground

(unless otherwise instructed).

Technical support

Nautel offers technical support to customers over the Internet and by telephone. Nautel’s customer support team will answer your questions and work with you to identify and resolve problems.

For 24-hour technical support, call toll free at 1.877.628.8353 (in USA and Canada only) or call

1.902.823.5100 (international) or find us on the Internet at http://www.nautel.com

.

For parts and tools information, see “Parts and tools” on page 7-1 of the NX25 Pre-Installation

Manual .

For extended warranty information, see “Pre-installation assistance” on page 8-1 of the

NX25 Pre-Installation Manual .

Issue 0.3 2009-12-08 Page ix


NX25 transmitter manuals

The NX25 documentation suite includes the following documents:

NX25 Pre-installation Manual, NX25-PREINST.

Provides instructions and reference information needed when planning and preparing for the installation of an NX25 transmitter.

Nautel Site Protection Manual.

Provides detailed information about protecting your site from lightning-related hazards.

NX25 Installation Manual, NX25-INST.

Provides instructions and reference information needed when installing an NX25 transmitter.

NX25 Operating and Maintenance Manual, NX25-OPS-MAINT.

Provides instructions for operating, maintaining and troubleshooting an NX25 transmitter. It also provides reference information needed when performing diagnostic procedures.

NX25 Troubleshooting Manual, NX25-TROUBLE.

Provides detailed technical information about the NX25 transmitter, including electrical schematics and mechanical drawings.

Nautel website / Online resources

The Nautel website provides useful resources to keep you up to date on your NX25.

Nautel User Group (NUG)

The website includes a special section that customers can log into in order to access the Nautel customer newsletter, product manuals, frequently asked questions (FAQ), information sheets, and information about field upgrades.

Documentation: online and printed

The website’s NUG section provides online access to all the documentation for your NX25.

Documentation is provided in Acrobat (PDF) format. You can use the documentation online or print the sections that you need.

When using online documents:

• Click on blue text (hyperlinks) to jump to a related section, or to get additional information

(e.g., view a term’s definition).

• To search a document to find keywords, use Find in Acrobat Reader’s Edit menu.

Page x Issue 0.3 2009-12-08


• To quickly find a specific section, click the section in the PDF file’s Bookmarks list.

When using printed documents:

• To find keywords, go to the Index section at the end of the manual.

• To find a specific term, go to the List of Terms section near the end of the manual.

Issue 0.3 2009-12-08 Page xi


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About safety

All Nautel transmitters are designed to meet the requirements of EN60215, Safety Requirements for

Radio Transmitters .

The philosophy of EN60215 is that the removal of any cover or panel that can only be opened using a tool is a maintenance activity, and that any person performing a maintenance activity is expected to be trained for that activity. Under EN60215 , it is assumed that trained personnel will be knowledgeable and will take precautions such as removing all power to the transmitter before accessing its components.

Electrical hazards

To remove power from the transmitter, switch off and lock out the ac power. There are three amber

LEDs at the bottom rear of the cabinet that glow to remind anyone who has not turned off the power that the system is live and serious danger is present.

WARNING: It is not enough to remove RF power. The power line is still connected.

Mount the transmitter ac power disconnect switch/breaker close to the transmitter so that it can be reached quickly in an emergency. Clearly label the disconnect switch/breaker (e.g., EMERGENCY

SWITCH ).

After turning off the power, always perform a measurement to confirm that the power is off before touching anything within the transmitter. If the wrong breaker was opened, the equipment will be live.

WARNING: Do not use an ordinary multimeter to check for voltage, since it may have been left inadvertently on the AMP (A) range, triggering a short and an arc blast that could result in severe burns and even death.

Use only a non-contact voltage probe or a safety voltmeter (available from vendors such as Fluke,

Ideal, and Teagam).

Use a proper lockout procedure to ensure that another worker cannot accidentally reapply power while you are performing maintenance on any part of the transmitter or site.

Issue 0.3 2009-12-08 Page xiii


Lightning hazards

Before opening the transmitter and touching internal parts, remove and solidly ground the antenna connection.

WARNING: It is not enough to ground the antenna terminal with the antenna still connected. Even a small impedance in the ground strap will result in lethal voltages during a lightning strike.

RF hazards

A serious RF hazard and very high voltages exist in the vicinity of the antenna and its networks during normal operations.

Toxic hazards

There are devices used in this equipment containing beryllium oxide ceramic, which is non-hazardous during normal device operation and under normal device failure conditions. These devices are specifically identified with “(BeO)” in the Description column of the Troubleshooting Manual’s parts list(s).

Do not cut, crush or grind devices because the resulting dust may be hazardous if inhaled.

Unserviceable devices should be disposed of as harmful waste.

Other hazards

Ensure that appropriate fire alarms and fire extinguishers are available. Extinguishers must be suitable for use on electrical fires.

Many other site safety risks exist. It is beyond the scope of this manual to identify all the risks and procedures.

Page xiv Issue 0.3 2009-12-08


Safety precautions

This section provides very important information about protecting the safety of personnel and equipment:

•

Personal safety - see page xv

• Site safety - see

page xvi

•

Equipment safety - see page xviii

Personal safety

Training

The training of any personnel who will have physical access to the site or the transmitter is very important. Personnel must be familiar with the transmitter, so that they can avoid physical danger, and be aware of hazards to themselves and the equipment.

Nautel offers a number of training courses covering the basic fundamentals of RF systems and transmitters, and the operation and maintenance of the transmitter. For more information about available courses and schedules, go to the Nautel website at http://www.nautel.com/Training.aspx

, or ask your Nautel sales representative.

Site orientation

When you give personnel access to the transmitter site (e.g., hiring new personnel, or giving access keys to personnel), perform a site orientation to ensure that they are familiar with the site, on-site procedures, and on-site hazards. Cover the following topics:

• Securing the site (locking doors and fences) to prevent unauthorized access

• How and when to call for technical support or emergency assistance

• Areas of the site and pieces of equipment that are off limits

Issue 0.3 2009-12-08 Page xv


Voltage awareness

Ensure that all personnel that are able to access areas with high voltage circuits or high field strengths are aware of the hazards associated with high voltage. Cover the following topics:

• High voltage or high field strength areas where caution is required

• Physical risks of electric shock

• Risks for personnel with pacemakers or other medical implants

• Induced voltages in high field strength areas

• On-site risks during thunderstorms and lightning strikes

• Operation of safety interlocks (if installed)

First aid

Nautel does not offer first aid training, since the hazards associated with high voltage and RF energy are not specific to the transmitter. However, the customer should provide first aid training to all personnel who have access to the transmitter site. First aid training should include CPR, care of burns, artificial respiration, and defibrillation if specific equipment is available on-site.

Site safety

Controlling access

Transmitters and antennas generate and carry dangerous voltages that can be harmful or fatal. It is very important that you control access to the site and its equipment. To secure your transmitter site, use:

• Locking steel or security doors to prevent casual access

• A perimeter fence to keep trespassers away from the antenna system and feedline

• “No Trespassing” signs

• An alarm system

Page xvi Issue 0.3 2009-12-08


Marking hazards

Place warning signs close to any hazardous areas or systems (e.g., the feedline or the antenna system).

Make the signs large enough that they cannot be missed. Provide signage in all languages used in the region. These signs are intended not only for authorized personnel, but also for emergency responders or accidental trespassers.

Qualifying site personnel

Make sure that personnel who have access to the site are qualified to work around electronics and high voltage systems.

Ac power protection

You should take steps to protect equipment from surges (over-voltage spikes) on the ac power lines.

Surges may occur during thunderstorms, or because of malfunctions in the electrical distribution grid.

Surge suppressors and ac power conditioners can prevent serious damage to your on-site equipment, including the transmitter.

RF protection

Transmitters and their antenna systems create intense radio frequency fields at the transmitter site, particularly near the feedline, antenna and tower. At some sites, these fields may cause biological effects, including the heating of body tissues. Intense fields can also create dangerous high voltages on ungrounded, conductive surfaces and objects. At certain points where high voltage conductors come close to grounded conductors (e.g., at feedline junctions or on the tower), dangerous electrical arcing or flashovers can occur. It is very important that you take the following steps to prevent damage to equipment or personnel due to RF fields:

• Use safety interlocks to de-energize transmitters if personnel open doors or panels accessing high field areas

• Place warning signs in any locations where high fields can occur

• Train personnel about the short-term and long-term hazards of RF radiation

• Physically block access to the area around the antenna system, feedline and tower

• Ground all exposed conductive surfaces or objects in high field areas

The RF connection to the transmitter output can be a serious safety hazard. Connect a 50 Ω test load during installation and commissioning. It is recommended that a switch be used to automatically connect the transmitter to the antenna system without human contact with the transmitting conductors.

Issue 0.3 2009-12-08 Page xvii


Safety interlocks

The transmitter contains an electrical interlock, which is an external circuit that turns off the RF output if any of its switches are opened.

Ac disconnect switch

Safe operation of the transmitter requires an ac disconnect switch. Lock the ac disconnect switch in the disconnected (open) position during the installation process.

Equipment safety


The transmitter’s systems are very rugged and resistant to damage. However, it is possible for damage to occur because of high voltage electrostatic discharges during servicing. Train all service personnel to ground themselves to bleed off any static charge before opening the transmitter or touching any exposed components. Provide a grounding wand or known ground (e.g., a grounded metal table) that personnel can use to discharge themselves.

Surge protection

Surge protection is recommended for your entire site. However, even if you do not use a surge protector on the service entrance to the site, you should install a surge protector in the transmitter’s ac power feed to prevent over-voltage from entering the transmitter.

Lightning protection

The transmitter is designed to resist lightning strike damage. However, intense or repeated strikes could damage the transmitter. We recommend that you install lightning suppression on the antenna, tower and feedline to reduce the effect of lightning strikes on the transmitter itself (and to protect the rest of your site equipment and your personnel). For detailed information about lightning protection, see the Nautel Site Preparation Manual , available from your Nautel sales agent, or online from the

Nautel website.

Physical protection

Consider physical hazards to equipment at your site, including the transmitter. Ensure that equipment is protected from weather (e.g., rain or flooding), even during extreme weather events. Place equipment so that it is not in the path of swinging doors or high-traffic areas. Do not allow wheeled items like office chairs or tables with wheels in the transmitter room, as these may damage equipment if accidentally pushed or knocked over. Do not place the transmitter under water pipes, drains, or sprinklers. Keep any equipment that generates heat, like the transmitter, away from flammable materials like ceiling panels, cubicle dividers, and curtains.

Page xviii Issue 0.3 2009-12-08


Earthquake protection

If the transmitter site is in a region that experiences any noticeable earthquake activity, take steps to prevent the transmitter from shifting or rocking during an earthquake. Even during minor earthquakes, rocking or movement of the transmitter is likely to damage the feedline connection, and could even cause a catastrophic failure of the ac power feed into the transmitter. During larger earthquakes, the weight of the transmitter chassis could be hazardous to nearby equipment or personnel.

Issue 0.3 2009-12-08 Page xix


Page xx Issue 0.3 2009-12-08

NX25 Troubleshooting Manual Responding to alarms

Section 1: Responding to alarms

This section provides instructions you need when performing troubleshooting on the NX25 transmitter. This section includes the following topics:

•


•

Electrostatic protection - see page 1-3

•

Identifying an alarm - see page 1-4

• Responding to alarms - see page 1-16

•

Troubleshooting RF power modules - see page 1-24

If none of the procedures and alarms described in this section address your problem, contact Nautel for assistance. See “Technical support” on page viii .


Corrective maintenance procedures consist of identifying and correcting defects or deficiencies that arise during transmitter operation. Local and/or remote alarm signals are generated when a malfunction occurs. If an alarm condition is caused by a malfunction in the RF power stage, the transmitter may maintain operation at a reduced RF output level. The nature of the fault – and station policy – will dictate whether an immediate maintenance response is necessary. Fault analysis and rectification may be conducted from three different levels, with a different technical competence level required for each: on-air troubleshooting, remote or local, and off-air troubleshooting.

CAUTION:

The transmitter contains many solid state devices that may be damaged if subjected to excessive heat or high voltage transients. Every effort must be taken to ensure that circuits are not overdriven or disconnected from their loads while turned on.

On-air troubleshooting

On-air troubleshooting can be performed from a remote location, or locally at the transmitter site.

Issue 0.3 2009-12-08 Page 1-1


Remote troubleshooting

Remote on-air troubleshooting consists of monitoring the transmitter's radiated signal using an on-air monitor, and observing the status of each remote fault alarm indicator. Information obtained from these sources should enable an operator to decide whether an alarm response may be deferred to a more convenient time, an immediate corrective action must be taken, or if a standby transmitter must be enabled (if one is available). It is recommended that the significance of remote indications, and the appropriate responses, be incorporated into a station's standard operating procedures. Refer to

“Identifying an alarm” on page 1-4 to determine the remedial action required for a given fault.

Local troubleshooting

Local on-air troubleshooting consists of monitoring the transmitter's integral meters and fault alarm indicators. Analysis of this data will normally identify the type of fault, and in most cases will determine what corrective action must be taken. Refer to

“Identifying an alarm” on page 1-4

to determine the remedial action required for a given fault.

The power amplifier stage contains an integral modular reserve (IMR) feature. This feature permits the transmitter to operate at a reduced RF output level when a malfunction occurs in one of its power modules. Station operating procedures will dictate whether a reduced RF output level is acceptable.

When a reduced RF output level can be tolerated, replacement of the defective RF power module may be deferred to a convenient time.

A defective RF power module may be removed from the transmitter for servicing, while the transmitter is operating, provided that the conditions in the removal instructions detailed in

“Removing an RF power module” on page 1-21 are met.

Off-air troubleshooting

Off-air troubleshooting must be performed when the replacement of a defective RF power amplifier module, or routine on-air calibration adjustments, will not restore operation.

It is recommended that the transmitter’s output be connected to a precision 50 Ω resistive dummy load (rated for at least the maximum transmitter power rating) before starting off-air troubleshooting procedures. If an appropriate dummy load is not available, troubleshooting for a majority of faults can be performed with RF power stage turned off. The transmitter may remain connected to its antenna system for these procedures.

NOTE:

Reduce the RF output level to a minimal value when troubleshooting faults in the power amplifier stage while the transmitter’s RF output is connected to the antenna system.

Page 1-2 Issue 0.3 2009-12-08



The transmitter's assemblies contain semiconductor devices that are susceptible to damage from electrostatic discharge. The following precautions must be observed when handling an assembly which contains these devices.

CAUTION:

Electrostatic energy is produced when two insulating materials are rubbed together. A person wearing rubber-soled shoes, walking across a nylon carpet or a waxed floor, can generate an extremely large electrostatic charge. This effect is magnified during periods of low humidity. Semiconductor devices such as integrated circuits, field-effect transistors, thyristors and Schottky diodes may be damaged by this high voltage unless adequate precautions are taken.

Electrical discharging of personnel

Personnel should be electrically discharged by a suitable grounding system (e.g., anti-static mats, grounding straps) when removing an assembly from the transmitter, and while handling the assembly for maintenance procedures.

Handling/Storage

An assembly should be placed in an anti-static bag when it is not installed in a host transmitter, or when it is not undergoing maintenance. Electronic components should be stored in anti-static materials.

Tools/Test equipment

Testing and maintenance equipment – including soldering and unsoldering tools – should be suitable for contact with static sensitive semiconductor devices.

Stress current protection

Every precaution should be taken to ensure the static sensitive semiconductor devices are protected from unnecessary stress current. This is achieved by ensuring that current is not flowing when an electrical connection is broken , and that voltages are not present on external control/monitoring circuits when they are connected .

Issue 0.3 2009-12-08 Page 1-3


Identifying an alarm

The best way to identify an alarm is by viewing the front panel’s Transmitter Status page

( Figure 1.1

). If an alarm exists, the Status button at the bottom of the AUI display will be red. Press or click the Status button to go to the Transmitter Status page.

Figure 1.1: Transmitter Status Page

1. View the list of active faults by pressing the Alarms tab. Alarms are listed by their origin

( Device column), then by name ( Alarm column), and then by severity [1 = low (RF output not affected), 5 = medium (RF output is reduced), 10 = high (RF output is inhibited); see

Level

column]. See “List of current alarms” on page 1-5

.

2. Attempt to clear any latching alarms by pressing the Reset button on the bottom banner of the page. If the alarm persists, it will not be cleared from the display.

3. Refer to Table 1.1 on page 1-6

for troubleshooting tips on the offending alarm(s), which may also reference replacement and subsequent re-calibration procedures. Note the origin of the alarm (i.e., contained within Controller, Exciter, Rack # or Cube # sub-system folders).

Page 1-4 Issue 0.3 2009-12-08


4. If the troubleshooting and subsequent replacement of a suspect PWB or RF power module does not remove the fault condition, contact Nautel.

NOTE:

Before undertaking any troubleshooting, record all AUI meter readings and note if any other alarms are displayed on the Transmitter Status page . Record all alarms. The most convenient way to do this is by using a web browser over a LAN connection to save screen shots of critical status, meter and alarm pages. From the System Review page, press the information ( !

) button for each sub-device (Controller, Exciter and Module) to view (and save) detailed information.

List of current alarms

If an alarm exists and is being recognized by the transmitter, it is displayed under the Alarms tab of the transmitter status page (see

Figure 1.1 on page 1-4

). The Device name indicates the sub-system origin of the alarm. The sub-systems that can be displayed are:

– Controller: All alarms in this sub-system apply to the controller.

– Exciter A: All alarms in this sub-system apply to exciter A.

– Exciter B: All alarms in this sub-system apply to exciter B.

– Rack #: All alarms in this sub-system apply to the associated rack (or cabinet).

– Cube #: All alarms in this sub-system apply to the associated cube (or RF power module).

Table 1.1 on page 1-6

contains a column for most Alarms that can occur, sorted alphanumerically for each sub-system. The Description and Troubleshooting Action column provides a brief description of the alarm, troubleshooting tips and a cross-reference to more detailed troubleshooting, as applicable.

Issue 0.3 2009-12-08 Page 1-5


Table 1.1: Troubleshooting Alarms

Alarm (with Prefix)

Controller: DRM Exciter

Changeover

Controller: EEPROM

Failure: Thresholds

Controller: EEPROM

Failure: Potentiometers

Description and Troubleshooting Action

This event is caused by a fault related to the optional DRM exciter(s).

This alarm occurs if there is no valid EEPROM threshold data to load. Try restoring factory settings through the Hardware

Configuration page. Remove and reapply the ac power to the transmitter. If the alarm persists after replacing the battery,

replace the control/interface PWB (see “Control/interface PWB replacement” on page 1-36

).

This alarm occurs if there is no valid EEPROM potentiometers data to load. Try restoring factory settings through the Hardware



).

Controller: EEPROM

Failure: Schedule

Controller: Exciter

Changeover

This alarm occurs if there is no valid EEPROM schedule data to load. Try restoring factory settings through the Hardware



).

This event is caused by a fault in the active exciter while the automatic changeover function is enabled. No further exciter changeovers can occur until the fault is cleared. Check for associated alarm(s) that may have caused the changeover and refer to their troubleshooting action.

Controller: External PDM

Inhibit

This alarm occurs if the external PDM inhibit, wired to the control/ interface PWB, is active. Transmitter power is reduced to 0 W.

See

“Controller: External PDM Inhibit” on page 1-17 .

Controller: Firmware

Checksum Failure

This alarm occurs if the Checksum for the firmware is in error.

Remove and reapply the ac power to the transmitter. If the alarm persists after replacing the battery, replace the control/interface

PWB (see “Control/interface PWB replacement” on page 1-36

).

Page 1-6 Issue 0.3 2009-12-08



Controller: Interlock

Open

Controller: Low Battery

Controller: Not

Responding Exciter A

Controller: Not

Responding Exgine

Controller: PDM Duty

Cycle High

Controller: PDM Duty

Cycle Low

Controller: PDM Latch


The external interlock input wired to the control/interface PWB is open. An alarm will be triggered by user-set conditions (e.g., the

state of the door to the transmitter room). See “Controller:

Interlock Open” on page 1-17 .

This alarm occurs if the voltage of the backup battery has fallen below an acceptable level. Replace the battery (BT1) on the control/interface PWB while ac power is on. If the alarm persists after replacing the battery, replace the control/interface PWB (see

“Control/interface PWB replacement” on page 1-36

).

This alarm occurs if exciter A is not responding to serial messages. May cause an exciter changeover. Replace the digital

AM exciter PWB of the exciter which is no longer responding (see

“Digital AM exciter PWB replacement” on page 1-31

).

This alarm occurs if the optional Exgine PWBis not responding to

serial messages. Replace the Exgine PWB (see “Exgine PWB replacement” on page 1-36

).

This alarm occurs if the duty cycle of the PDM drive on the active exciter is more than 10% above desired. Press RF Off , press the

Reset button (S1) on the digital AM exciter PWB, then press RF

On . If the alarm persists, replace the digital AM exciter PWB (see


).

This alarm occurs if the duty cycle of the PDM drive on the active exciter is more than 10% below desired. Press RF Off , press the




).

This alarm occurs if the duty cycle of the PDM drive on the active exciter is more than 95% steady state. Press RF Off , press the




).

Issue 0.3 2009-12-08 Page 1-7



Controller: RF Drive

High


This alarm occurs if the duty cycle of the RF drive on the active exciter is more than 60%. PDM is inhibited and an exciter changeover occurs, if enabled. Try restoring factory settings through the Hardware Configuration page. If the alarm persists,

change over to the standby exciter. If this clears the alarm, there

is likely a fault with one of the control/interface PWB’s high speed

comparators. Replace the control/interface PWB (see “Control/ interface PWB replacement” on page 1-36

).

Controller: RF Drive Low This alarm occurs if the duty cycle of the RF drive on the active exciter is less than 40%. PDM is inhibited and an exciter changeover occurs, if enabled. Try restoring factory settings through the Hardware Configuration page. If the alarm persists, change over to the standby exciter. If this clears the alarm, there is likely a fault with one of the control/interface PWB’s high speed

comparators. Replace the control/interface PWB (see “Control/ interface PWB replacement” on page 1-36

).

Controller: Synch

Changeover

This event is caused by a fault reported by the active exciter related to the optional 1 PPS, 10 MHz or 1 kHz synchronization signals.

Controller: Unknown

PDM Inhibit

Cube #: Bad RF Drive

This alarm occurs if a PDM inhibit signal is active. It may be caused by an external PDM inhibit, an open interlock circuit, or another shutback source. Transmitter power is reduced to 0 W.

Check for associated alarm(s) that may have caused the PDM inhibit and refer to their troubleshooting action.

The duty cycle of the RF drive or the dead time between RF drive

phases is not as expected. See “Troubleshooting RF power modules” on page 1-24 to determine whether to replace the

affected cube or to repair damaged parts.

Cube #: B+ Voltage High The B+ voltage exceeds 112.5% of its expected level.

Cube #: B+ Voltage Low The B+ voltage is at least 10% below its expected level. Replace the fuse on the power module interface PWB for the affected cube

(see “Cube #: B+ voltage low” on page 1-19

). See

“Troubleshooting RF power modules” on page 1-24 to determine

whether to replace the affected cube or to repair damaged parts.

Cube #: Close RF Relay Status that indicates the cube’s shorting relay contact is closed.

Page 1-8 Issue 0.3 2009-12-08



Cube #: Disable PDM

Cube #: EEPROM

Failure

There is no valid EEPROM data to load. See “Removing and reinstalling RF power modules” on page 1-21 to replace the

affected cube.

Cube #: External Disable

Active

The PDM drive cable is unplugged. Reconnect or replace the

PDM drive cable. If the problem persists, replace the affected cube (see

“Removing and reinstalling RF power modules” on page 1-21 ). If the problem persists, replace the PDM drive

distribution PWB (see

“RF drive distribution PWB replacement” on page 1-38 ).

Cube #: Fan Speed 1 (or

2) Low

The specified fan below the specified cube is rotating at a speed less than 3000 RPM. If multiple cubes (from the same column) report this alarm, replace the associated fan tray assembly (see

“RF Power Module Fan Tray replacement” on page 1-43

). If only one cube reports this alarm, replace the affected cube (see

“Removing and reinstalling RF power modules” on page 1-21

).

Cube #: High DC Current This alarm occurs if the dc current in the cube is above 20 A. See

“Troubleshooting RF power modules” on page 1-24 to determine

whether to replace the affected cube or to repair damaged parts.

Cube #: High PA Volts

Cube #: High RF Drive

Cube #: High

Temperature


Status that indicates the PDM drive in the cube is disabled.

The PA voltage is at least 10% above the product of the B+ level and the PDM duty cycle (and the PDM duty cycle is at least 10%).

See

“Troubleshooting RF power modules” on page 1-24

to determine whether to replace the affected cube or to repair damaged parts.

The duty cycle of the RF drive on the active exciter is more than

50%. PDM is inhibited. See “Troubleshooting RF power modules” on page 1-24 to determine whether to replace the affected cube or

to repair damaged parts.

The temperature of the cube is more than 90°C (194°F). If this alarm is accompanied by another alarm, troubleshoot the other alarm first. If the alarm occurs on its own, see

“Troubleshooting

RF power modules” on page 1-24


Issue 0.3 2009-12-08 Page 1-9



Cube #: Invalid

Thermistor Sample

Cube #: Low Voltage

Supply Fault

Cube #: Low PA Volts

Cube #: Low RF Drive

Cube #: No Serial

Comms


A sample of the heatsink temperature is monitored. An alarm occurs if the sample is below an acceptable level for monitoring.

See



The voltage of the +15 V or +5 V power supply is more than its specified limits.

The PA voltage is at least 10% below the product of the B+ level and the PDM duty cycle (and the PDM duty cycle is at least 10%).

See



The duty cycle of the RF drive on the active exciter is less than

35%. PDM is inhibited. See “Troubleshooting RF power modules” on page 1-24 to determine whether to replace the affected cube or

to repair damaged parts.

There is no serial communication with the cube. See “Removing and reinstalling RF power modules” on page 1-21

to replace the affected cube.

Cube #: Overmodulation The average PDM duty cycle is more than 95%. If PDM is enabled, the High DC Current alarm will occur first.

Cube #: PDM Enabled Status that indicates the PDM drive in the cube is enabled.

Cube #: Residual PA

Volts

An unexpected level of PA voltage is detected when the modulator

or PA of a specific cube is disabled. See “Troubleshooting RF power modules” on page 1-24


Status that indicates the RF drive in the cube is enabled.

Cube #: RF Drive

Enabled

Cube #: RF Relay Open Status that indicates the cube’s shorting relay contact is open.

Cube #: Serial RF OFF Status that indicates the cube is in an RF off state.

Page 1-10 Issue 0.3 2009-12-08



Exciter A/B: Analog SRC

Offline


The analog sample rate converter is malfunctioning. Cycle the power (off, then on) to the affected exciter. If the alarm persists,

replace the affected digital AM exciter PWB (see “Digital AM exciter PWB replacement” on page 1-31 ).

Exciter A/B: Audio

Overmod Protection

Due to a combination of audio and the current settings, too much power is being drawn from the transmitter. Decrease the audio input level until the alarm disappears.

Exciter A/B: B+ ADC

Overflow

Exciter A/B: B+ High

The B+ sample voltage is too high, causing clipping in the ADC.

B+ compensation will be unreliable.

The B+ voltage is significantly more than expected. Check samples and calibration.

Exciter A/B: B+ Low

Exciter A/B: Cutback

Active

Exciter A/B: Digital SRC

Offline

The B+ voltage is too far below expected for B+ compensation to function.

The forward power has been reduced due to multiple shutbacks.

Exciter A/B: External

Inhibit Active

Exciter A/B: FPGA Test

Failed

The digital sample rate converter is malfunctioning. Cycle the power (off, then on) to the affected exciter. If the alarm persists,

replace the affected digital AM exciter PWB (see “Digital AM exciter PWB replacement” on page 1-31 ).

An externally generated PDM inhibit (via the control/interface

PWB) is active. Transmitter power is reduced to 0 W.

Exciter A/B: High

Current Foldback Active

Exciter A/B: High DC

Current Foldback Active

There was a programming failure with the FPGA. Possibly indicates a fault with the control/interface PWB. Cycle the power

(off, then on) to the affected exciter. If the alarm persists, replace the affected digital AM exciter PWB (see


).

The forward power has been reduced due to a high level of RMS

RF current. Decrease the transmitter’s power level until the alarm disappears and/or check the transmitter’s output network.

The forward power has been reduced due to a high level of RMS dc current.

Issue 0.3 2009-12-08 Page 1-11



Exciter A/B: High Fwd

Foldback Active

Exciter A/B: High

Temperature Foldback

Active

Exciter A/B: Input Loss

Side A (or B)

Exciter A/B: Main PLL

Unlocked

Exciter A/B: Missed

FPGA Watchdog

Exciter A/B: Muted

Analog Source

Exciter A/B: Muted

Digital Source

Exciter A/B: No Analog

AES Lock

Exciter A/B: No Audio


The forward power has been reduced due to a high level of RMS forward power. Decrease the transmitter’s power level unttil the alarm disappears and/or check the transmitter’s output network.

The forward power has been reduced due to excessive temperature in the cubes or SCR rectifiers. Check the transmitter’s output network and verify that the air filters in the back of each cabinet are clean. Verify the temperature of the transmitter building is within specifications.

The input sample rate converter cannot lock OR the modulation level is less than 10% for an extended period (two minutes).

The main clock source has unlocked. Usually accompanied by No

Ext 10 MHz. Cycle the power (off, then on) to the affected exciter.

If the alarm persists, replace the affected digital AM exciter PWB

(see “Digital AM exciter PWB replacement” on page 1-31

).

The DSP software failed to synchronize with the FPGA.

Due to a lack of input, the analog source has been muted. Check the audio input.

Due to a lack of input, the digital source has been muted. Check the audio input.

No AES stream is detected on the analog AES input. Check the audio input.

There is no valid signal to transmit with the current settings.

Check the audio input.

Exciter A/B: No B+

Sample

The B+ sample voltage is missing or is extremely low. If this alarm is accompanied by another alarm, troubleshoot the other alarm first. If the alarm occurs on its own, replace the affected digital AM exciter PWB (see

“Digital AM exciter PWB replacement” on page 1-31 ).

Page 1-12 Issue 0.3 2009-12-08



Exciter A/B: No Current

Sample

Exciter A/B: No Digital

AES Lock

Exciter A/B: No Ext 10

MHz

Exciter A/B: No Voltage

Sample

Exciter A/B: Over

Current Shutback

Exciter A/B: Over

Voltage Shutback

Exciter A/B: PDM

Inhibited

Exciter A/B: Power

Below Setpoint

Exciter A/B: Serial IQ

Stream Missing

Exciter A/B: SWR

Shutback

Exciter A/B: VSWR

Foldback Active


The RF current sample voltage is missing or is extremely low. If the standby exciter does not indicate this alarm, replace the

affected digital AM exciter PWB (see “Digital AM exciter PWB replacement” on page 1-31

). If both exciters indicate this alarm,

replace the affected digital AM exciter PWB (see “Control/ interface PWB replacement” on page 1-36

).

No AES stream is detected on the digital AES input. Check the audio input.

No 10 MHz is detected on the external 10 MHz input. Check the

10 MHz input.

There is a fault with the transmitter’s voltage probe. If the standby exciter does not indicate this alarm, replace the affected digital

AM exciter PWB (see

“Digital AM exciter PWB replacement” on page 1-31 ). If both exciters indicate this alarm, replace the

affected digital AM exciter PWB (see “Control/interface PWB replacement” on page 1-36

).

The RF current is above its factory-set threshold. Check the output network.

The RF voltage is above its factory-set threshold. Check the output network.

An internally generated PDM inhibit (from the DSP) is active.

Transmitter power is reduced to 0 W.

The power set point cannot be attained, due to a foldback, cube failure(s), or a load impedance mismatch.

No data detected on the LVDS interface to Exgine.

The reflected power is above its factory-set threshold - approximately 4 kW. Check the output network.

The forward power has been reduced due to a high VSWR. Check the output network.

Issue 0.3 2009-12-08 Page 1-13


Alarm (with Prefix) Description and Troubleshooting Action

Rack #: AC Phase Loss The SCR rectifier assembly detects a phase loss on the ac input.

Check the ac mains fuses for a phase loss. If the ac mains phases are OK, replace the SCR rectifier assembly (U1) (see

“SCR

Rectifier Inspection/Replacement” on page 1-40

).

Rack #: EEPROM

Failure

Rack #: Firmware

Checksum Failure

There is no valid EEPROM data to load. Remove and reapply the ac power to the transmitter. If the alarm persists, replace the rack

interface PWB (see “Rack Interface PWB replacement” on page 1-39 ).

The Checksum for the firmware is in error. Remove and reapply the ac power to the transmitter. If the alarm persists, replace the rack interface PWB (see

“Rack Interface PWB replacement” on page 1-39 ).

Rack #: High B+ Fault

Rack #: Low AC

This alarm occurs if the B+ voltage is at least 10% above its nominal level. If this alarm persists while the transmitter is producing RF power, replace the rack interface PWB (see

“Rack

Interface PWB replacement” on page 1-39

).

A sample of the power transformer’s secondary voltage is monitored. An alarm occurs if the ac input voltage is more than

45% below nominal.

Rack #: Low B+ Alarm Status indication. Occurs if the B+ voltage is at least 25% below its expected level. See

“Rack #: Low AC” on page 1-20

.

Rack #: Not Responding

Cube #

This alarm occurs if one or more of the 10 RF power modules is not responding to serial messages. Try swapping the affected

module with a module in another location (see “Removing and reinstalling RF power modules” on page 1-21

). If the alarm follows the module, replace the module. If the alarm follows the location, check the connections between the module location and its associated power module interface PWB and rack interface PWB.

Rack #: Rectifier Fan 1

(or 2) Fail

Rack #: +15 V PS A (or

B) Fault

This alarm occurs if the speed of one of the SCR rectifier’s cooling fans is below 1650 RPM (half its nominal value of 3300 RPM).

Inspect the affected fan and, if necessary, replace it (see

“SCR

Rectifier Inspection/Replacement” on page 1-40

).

The digital fault reporting output of either +15 V power supply (U3 or U4) is active. Replace the affected 15 V power supply (see

“Low Voltage Power Supply Replacement” on page 1-41 ).

Page 1-14 Issue 0.3 2009-12-08



Rack #: -15 V PS (A or

B) Fault


This alarm occurs if the -15 V rail is outside its acceptable range of -13 to -17 V. Suspect a faulty dc-dc converter (U22 for A or U25 for B) on the rack interface PWB. Remove the rack interface PWB

(see “Rack Interface PWB replacement” on page 1-39

) and replace the defective dc-dc converter or the entire rack interface

PWB.

Rack #: +30 V PS Fault This alarm occurs if the +30 V rail has varied outside its acceptable range of 26 to 34 V. Suspect a faulty dc-dc converter

(U11 for A or U14 for B) on the rack interface PWB. Remove the rack interface PWB (see

“Rack Interface PWB replacement” on page 1-39 ) and replace the defective dc-dc converter or the entire

rack interface PWB.

Rack #: +48 V PS A (or

B) Fault

The +48 V power supplies (U5 and U6) are monitored. An alarm occurs if the power supply voltage varies outside its acceptable range of 44 to 52 V. Replace the affected 48 V power supply (see

“Low Voltage Power Supply Replacement” on page 1-41 ).

Rack #: +5 V PS (A or B)

Fault

This alarm occurs if the +5 V rail is outside its acceptable range of

4.8 to 5.6 V. Suspect a faulty dc-dc converter (U2 for A or U4 for

B) on the rack interface PWB. Remove the rack interface PWB

(see “Rack Interface PWB replacement” on page 1-39

) and replace the defective dc-dc converter or the entire rack interface

PWB.

Issue 0.3 2009-12-08 Page 1-15


Table 1.2: Module Replacement

Module

RF Power Module

Power Amplifier MOSFET

Modulator MOSFET

Remote Interface PWB

Digital AM Exciter PWB

Control/Interface PWB

GPS Sync PWB

Exgine PWB

PDM Distribution PWB

RF Drive Distribution PWB

Rack Interface PWB

Low Voltage Power Supplies

RF Power Module Fan Tray


Replacement Procedure

See page 1-21

See page 1-27

See page 1-29

See page 1-31

See page 1-31

See page 1-36

See page 1-36

See page 1-36

See page 1-37

See page 1-38

See page 1-39

See page 1-41

See page 1-43

Page 1-16 Issue 0.3 2009-12-08



Controller: External PDM Inhibit

The external PDM inhibit is wired to the control/interface PWB.

A Controller: External PDM Inhibit alarm indicates that an external PDM inhibit command is present. The alarm could be caused by an short circuit in the external wiring path to the control/ interface PWB or a fault in the switching circuitry on the control/interface PWB. Troubleshoot as follows:

1. If the control/interface PWB’s shorting jumper E2 is in the INT position (shorting pins 2 and 3), verify the dc voltage between J6-4 and ground on the control/interface PWB is approximately 15 V. This signifies there is no external PDM inhibit command.

2. If the control/interface PWB’s shorting jumper E2 is in the EXT position (shorting pins 1 and 2), verify the dc voltage between J6-3 and J6-4 on the control/interface PWB is 0 V.

This signifies there is no external PDM inhibit command.

3. If the conditions in Step 1 and Step 2 are met, suspect the control/interface PWB and if

necessary, replace it (see “Control/interface PWB replacement” on page 1-36

).

Controller: Interlock Open

A Controller: Interlock Open alarm indicates an external interlock is open. The transmitter’s RF output will be inhibited.

The external interlock input is wired to the control/interface PWB by the end user and triggered by the conditions that they set (e.g., the state of the door to the transmitter room).

1. Gain access to the control/exciter panel (A11) (see Figure 1.6 on page 1-30 ) by opening the control cabinet’s front door. The door is not latched and just swings open to the left.

2. Connect a digital multimeter (set to measure dc) between J6-2 of the control/interface PWB and ground.

3. If 15 V is present on J6-2, the external interlock circuit is intact and the probable cause of the alarm is a defective monitoring circuit. Suspect the control/interface PWB and if necessary,

replace it (see “Control/interface PWB replacement” on page 1-36

).

4. If 15 V is not present on J6-2, measure the voltage between J6-5 (external 15 V) of the control/interface PWB and ground, then between J6-1 (+15 V) and ground.

Issue 0.3 2009-12-08 Page 1-17


5. If 15 V is present on J6-5 and J6-1, the external interlock circuit is open (normally caused by an open interlock switch).

Cube faults

There are many alarms on the AUI, prefixed by the text Cube , that indicate faults related to one or more of the 10 RF power modules (or cubes) in a cabinet. The number that appears after Cube or

CU, identifies the serial number of the affected cube. These serial numbers are labeled on the front panel of each RF power module.

1. Check the forward power reading on the AUI. If it is less than the preset level, one or more

RF power modules are defective. Proceed to “RF power module fault validation” .

2. If the forward power reading in Step 1 is normal press the Transmitter Status button on the

AUI to check for other alarms that may have triggered the RF power module alarm.

RF power module fault validation

Each RF power module has a multi-colour LED on its front panel, which can help in identifying a

fault and allowing you to determine whether remedial action is required now or later.

Identify and isolate a defective RF power module, and verify the nature of the defect by checking the

LEDs on the RF power modules’ front panels. Note which RF power module is not operating normally and producing RF power (i.e., LED is not solid green). Record which RF power modules are displaying an alarm and the state of its LED (see below).

– amber, off: module is RF off

– solid red: module has a non-latching alarm

– flashing red, then green: module is producing RF, but has an alarm

– long red, short amber: module has a latching alarm

– long red, short off: module has no valid serial number

– short red, long off: module has no valid serial address on the internal bus

– long amber, short green: module is producing RF, but no serial communications

– long amber, short red: module is not producing RF and no serial communications

Except in the case of a High DC Current , High PA Volts and Residual PA Volts alarm, attempt to reset an RF power module by disconnecting and reconnecting the RJ45 plug in the front of the module. If you cannot reset the front panel LED alarm, see

“RF power module troubleshooting”

.

Page 1-18 Issue 0.3 2009-12-08


RF power module troubleshooting

Refer to “Removing and reinstalling RF power modules” on page 1-21

for removal and installation instructions and then refer to

“Troubleshooting RF power modules” on page 1-24 for detailed

troubleshooting information.

NOTE:

A defective RF power module can be removed for repair, without turning off the transmitter, as described in

“Removing an RF power module” on page 1-21

. The transmitter can be operated at a reduced output power level with an RF power module removed.

Cube #: B+ voltage low

A Cube # B+ Voltage Low alarm is triggered when the B+ voltage is at least 10% below its expected level.

1. If all cubes are reporting this alarm, it is very likely there is also a Rack #: Low B+ alarm. If

so, the fault is not likely associated with an RF power module; proceed to “Rack #: Low

AC” on page 1-20

for further troubleshooting information. If not, proceed to Step 2

.

2. Check and, if necessary, replace the the fuse on the power module interface PWB for the affected RF power module. Each power module interface PWB serves four RF power modules and therefore has four B+ fuses (F1 through F4). Refer to Figures MD-2 and MD-3 in the Mechanical Drawings section of this manual to locate the associated power module interface PWB and then refer to Figure MD-3 or MD-4 to locate the specific fuse.

3. Check and, if necessary, replace the affected RF power module. See “Troubleshooting RF power modules” on page 1-24.

Issue 0.3 2009-12-08 Page 1-19


Rack #: Low AC

A Rack # (1-8): Low AC alarm is triggered when the ac input voltage is at least 45% below its expected level. Recovery from this alarm is automatic when the ac voltage rises to an acceptable level.

If the transmitter does not automatically recover from this alarm, the low ac voltage is normally caused by low ac mains voltage or improper primary taps on the power transformer. Troubleshoot a

Rack #: Low AC alarm as follows.

WARNING:

Lethal voltages exist in the power supply compartment of the transmitter. Use extreme caution in this area.

1. Measure the ac input voltage and verify the power transformer is tapped as shown in Section

4, “Connecting transformer taps/load wiring” on page 4-1 of the NX25 Installation Manual . If necessary, turn off the transmitter, lock out the ac input voltage and retap the power transformer for the next highest voltage.

2. If the transformer taps are correct, the monitoring circuit is suspect. Contact Nautel for troubleshooting information.

Rack #: Low B+ alarm

A Rack # (1-8): B+ Voltage Low alarm is triggered when the B+ voltage is at least 25% below its expected level. Recovery from this alarm is automatic when the B+ voltage rises to an acceptable level.

If the transmitter does not automatically recover from this alarm, the low B+ voltage is normally caused by low ac input voltage, improper primary taps on the power transformer, or a faulty rectifier assembly. Troubleshoot a Rack #: Low B+ alarm as follows.

WARNING:

Lethal voltages exist in the power supply compartment of the transmitter. Use extreme caution in this area.

1. Check the B+ voltage on the transmitter's AUI. If it is less than 75% of desired, the ac power source voltage or power transformer tap selection is suspect.

2. Measure the ac input voltage and verify the power transformer is tapped as shown in Section

4, “Connecting transformer taps/load wiring” on page 4-1 of the NX25 Installation Manual . If necessary, turn off the transmitter, lock out the ac input voltage and retap the power transformer for the next highest voltage.

Page 1-20 Issue 0.3 2009-12-08


3. If the transformer taps are correct, the monitoring circuit is suspect. Contact Nautel for troubleshooting information.

Removing and reinstalling RF power modules

Removing an RF power module

1. Confirm the location of the RF power module that is being removed. Note the alarm text includes a Cube or CU serial number that is also identified on the front panel of each RF power module. See

Figure 1.3 on page 1-23 to determine the location for a given RF power

module (A15 through A24).

2. If possible, turn off the transmitter before removing an RF power module. If you need to remove a module while “on air”, disable the RF power module to be removed using the

AUI. From the System Review page, click on the Rack information button. The rack status

screen (see Figure 1.2 on page 1-22

) should appear. Click on the associated RF power module’s Cube Communication Status icon. The icon colour should change from green to yellow, indicating the RF power module is disabled. You should hear a relay in the back of the cabinet drop out (de-energize)

3. Disconnect the RJ45 cable from the front of the RF power module. If the module was not

disabled in Step 2

, you should now hear a relay in the back of the cabinet drop out (deenergize)

4. Remove both mounting screws from the RF power module’s front panel.

5. Grasp the handle on the front of the RF power module and carefully pull the RF power module out of the transmitter.

Issue 0.3 2009-12-08 Page 1-21


Figure 1.2: Disabling/Enabling an RF Power Module


Green indicates enabled. Click to disable (will turn yellow); clcik again to re-enable (will turn green)

Page 1-22 Issue 0.3 2009-12-08


Installing an RF power module

1. If possible, turn off the transmitter before installing an RF power module. Grasp the handle on the front of the RF power module and insert it into the transmitter.

2. Carefully push the RF power module into place so that its card-edge connector mates with the transmitter.

3. Install both mounting screws in the RF power module’s front panel.

4. Connect the RJ45 cable to the front of the RF power module. If you are installing the RF power module while the transmitter is “on-air”, click on the associated RF power module’s

Cube Communication Status

icon as shown in Figure 1.2

. The icon colour should change from yellow to green, indicating the RF power module is enabled. You should hear a relay in the back of the transmitter pick up (energize).

5. Upgrade the subsystem software using the AUI’s Upgrade Subsytem Software page under the Software Configuration menu. See the NX25 Operations and Maintenance Manual for detailed instructions.

Figure 1.3: RF Power Module Locations

RF Power

Modules

Front Door Removed for Clarity

Issue 0.3 2009-12-08 Page 1-23


Troubleshooting RF power modules

Maintenance philosophy

Recommended troubleshooting procedures for RF power modules are limited to “go” or “no-go” resistance or diode measurements on the module’s power semi-conductors and replacement procedures for these devices.

Special Tools and Test Equipment

The following test equipment and cables are required to troubleshoot an RF power module.

• A digital multimeter with resistance and diode settings.

• A torque screwdriver with a torque range of 0.0 to 2.26 N-m (0 - 20 in.-lbs). Required for installing MOSFET attaching hardware.

• A soldering iron and desoldering tool.

• An NX25 spares kit (contains replacement semi-conductors).

Electrostatic Precautions

The RF power module contains semiconductor devices that are susceptible to damage from

electrostatic discharge. Be sure to follow the electrostatic precautions in “Electrostatic protection” on page 1-3

at all times.

Preparation for Troubleshooting

1. Follow the procedure in “Removing an RF power module” on page 1-21 to remove the RF

power module from the transmitter.

2. Place the RF power module on a suitable work surface.

3. Perform the resistance measurements on the modulator and power amplifier MOSFETs as described in

“Resistance measurements” on page 1-25 .

4. Perform the diode checks on the free-wheel diodes as described in “Power Amplifier FET replacement” on page 1-27

Page 1-24 Issue 0.3 2009-12-08


Resistance measurements

Complete the following resistance measurements for each suspect RF power module. See Figure 1.4 on page 1-26 to identify the power MOSFETs on the RF power module.

1. Remove fuse F1 from its holder and measure its resistance using a digital multimeter. A blown fuse will measure an open circuit. If the fuse is OK, return it to its holder.

2. For each power amplifier MOSFET (Q7 through Q10) and each modulator MOSFET (Q11,

Q12 and Q13), use a digital multimeter to make the following resistance measurements.

Note that Q7 through Q10 have screw-head terminals and Q11 through Q13 have solder pads (see Figure 1.4 on page 1-26 ):

• Check for 1,000 Ω between the gate and source.

• Check for an open circuit between the gate and drain.

3. If either measurement in Step 2 is not satisfactory, replace the affected power amplifier

MOSFET (see

“Power Amplifier FET replacement”

) or modulator MOSFET (see

“Modulator FET replacement” on page 1-29 ).

4. If both measurements in Step 2 are satisfactory, replace the entire RF power module (see

“Removing and reinstalling RF power modules” on page 1-21 ).

Diode checks

Complete the following diode checks for each suspect RF power module. See Figure 1.4 on page 1-

26 to identify the free-wheel diode on the RF power module.

1. Use a digital multimeter (on its diode setting) to check free-wheel diode CR8, noting the anode (A) and cathode (K) markings (see Figure 1.4 on page 1-26 ):

2. If the diode is not satisfactory, replace the it by desoldering its surface-mount leads and case from the PWB. Locate a replacement diode (Nautel Part # QM54) in the spares kit, if purchased, and solder it to the PWB, noting correct orientation.

3. If the diode is satisfactory, proceed to MOSFET replacement, as necessary, or replace the entire RF power module (see

“Removing and reinstalling RF power modules” on page 1-21 ).

Issue 0.3 2009-12-08 Page 1-25


Figure 1.4: RF Power Module MOSFET and Diode Location


Modulator MOSFETs

Freewheel diode

CR8

A

K

G D S

Q13

Partial View of

NAPA19A Modulator/

Power

Some parts removed for clarity

G D S

Q12

G D S

Q11

Power Amplifier

MOSFETs

Page 1-26

Q10 Q9 Q8 Q7

Issue 0.3 2009-12-08


Power Amplifier FET replacement

See Figure 1.5 on page 1-28 .

1. Remove five M3 screws that secure the modulator/power amplifier PWB to the chassis.

2. Remove 16 M4 screws (four for each MOSFET) that secure the PWB to the MOSFETs.

3. Swing the PWB away from the chassis and remove two M4 screws that secure the defective

MOSFET to the chassis. If necessary, remove the screw securing the thermistor wire to the

PWB.

4. Discard the defective MOSFET and its associated thermal pad (between MOSFET and chassis).

5. Ensure the surface of the chassis/heat sink is clean and free of debris.

6. Obtain a replacement MOSFET (Nautel Part # QR) and a new thermal pad (Nautel Part #

HAK55) from the spares kit, if purchased, and install them on the RF power module chassis using the two M4 screws removed in step 3. Torque hardware to 12 in-lbs (1.3 N-m).

7. Replace any other defective MOSFETs and then re-install the PWB to the chassis by reversing the instructions in steps 1 through 3. Torque the 16 MOSFET screws (four for each MOSFET) to a maximum of 10 in-lbs (1.1 N-m).

8. Return the RF power module to service (see “Installing an RF power module” on page 1-

23 ).

Issue 0.3 2009-12-08 Page 1-27


Figure 1.5: Power Amplifier FET Replacement


Page 1-28 Issue 0.3 2009-12-08


Modulator FET replacement

1. Remove five M3 screws that secure the modulator/power amplifier PWB to the chassis.

2. Remove 16 M4 screws (four for each MOSFET) that secure the PWB to the MOSFETs.

3. Desolder the gate, drain and source connections that secure the defective MOSFET to the

PWB (see Figure 1.4 on page 1-26 ). Also desolder the two connections that secure the defective MOSFET’s heatsink to the PWB. Remove the heat sink and MOSFET from the

PWB.

4.

Remove the heatsink clip that holds the MOSFET on its heat sink . Remove and discard the defective MOSFET.

CAUTION:

The heat sinks of modulator MOSFETs are coated with a film of thermal compound. Use care to ensure the film does not become contaminated with foreign particles.

When installing a replacement MOSFET, visually inspect the mating surfaces of the MOSFET and its heat sink. Ensure the heat sink surface is coated with a thin film of thermal compound. Ensure foreign particles that may affect thermal transfer are not embedded in the compound.

5. Clean the surface of the heat sink and make sure its is free of debris.

6. Apply a thin film of thermal compound to the heatsink.

7. Obtain a replacement MOSFET (Nautel Part # QR56) from the spares kit, if purchased, and install it on the heat sink using the alignment post on the heat sink as an installation aid.

Reinstall the heat sink clip removed in Step 4

.

8. Replace any other defective MOSFETs and then re-install the heatsink on the PWB, first by soldering the two heatsink connections and then by soldering the MOSFET’s gate, drain and source leads.

9. Reinstall the PWB to the chassis by reversing the instructions in steps 1 and 2. Torque the 16 power amplifier MOSFET screws (four for each MOSFET) to a maximum of 10 in-lbs (1.1

N-m) .

10. Return the RF power module to service (see “Installing an RF power module” on page 1-

23 ).

Issue 0.3 2009-12-08 Page 1-29


Control/exciter panel board removal/replacement

The control/exciter panel (A11, see Figure 1.6

) contains the control/interface PWB (A11A1), two digital AM exciter PWBs [A (A11A2) and B (A11A3)], remote interface PWB (A11A4) and optional

GPS sync PWBs (A11A5 and A11A6) and Exgine PWB (A11A7). The control/interface PWB physically interconnects with both digital AM exciter PWBs and the remote interface PWB.

NOTE:

To remove the control/interface PWB, you must first remove either the remote interface PWB or both digital AM exciter PWBs.

Figure 1.6: NX25 Control/Exciter Panel

Page 1-30 Issue 0.3 2009-12-08


Preparation

1. If you are removing the control/interface PWB, record (as a minimum) the following information from the front panel AUI:

– Scheduler page: record Yearly Schedule and 24 Hour Repeating Cycle information.

– Hardware Configuration page: record all information in the Rack and Cube

Configuration , Symmetry Adjustment and Power Lockout menus.

– Remote I/O page: record all information for the user-defined remote Inputs and

Outputs , including Channel and Control settings.

2. Disconnect all the cables from the PWB(s) to be removed. See Figure 1.6 on page 1-30 .

3. Replace the PWB according to its replacement procedure in the following paragraphs.

Remote interface PWB replacement

1. Remove and retain six sets of mounting hardware from the remote interface PWB (A11A4).

2. Pull the remote interface PWB away from the control/interface PWB (A11A1). It may be helpful to gently pry the connector loose with a screwdriver.

3. Set the STATUS/ALARM jumpers (E1 through E16) on the new remote interface PWB to the same positions as the defective PWB.

4. Use an indelible marker to identify the LED and switch labels on the new remote interface

PWB to match the labels on the defective PWB.

5. Install the new remote interface PWB by reversing Step 1 and Step 2 .

6. Reconnect all interface wiring to the new remote interface PWB.

Digital AM exciter PWB replacement

1. Set the transmitter to its RF Off state.

2. Connect a cable between the defective digital AM exciter PWB’s RS-232 connector (9-pin

D-sub J3, see Figure 1.7 on page 1-32 ) and a PC.

Issue 0.3 2009-12-08 Page 1-31


Figure 1.7: Part of Digital AM Exciter PWB - Location of RS-232 Connector J3

P3

ND

TP4

+2.5V

C42

C45

L12

TP7

+1.2V

R59

R58 R72

R73

R71

R78

U22

U26

TP9

R82

R83

GND

C63

C69 C77

R95

R96

R97

R98

RESET Y3

R60

S1

RS-232 1

J3

C40 R51

R50

BOOTLOADER

1

R74

R75

MODE

J5

1

PROGRAM

E1

NORMAL

3. On MODE program header E1 (see Figure 1.7

), install the shorting jumper in the PROGRAM position (shorting pins 1 and 2). Press RESET switch S1, located directly above E1.

4. From the PC, run the NCode Uploader application (see Figure 1.8

). Click Settings and ensure the COM port reflects the port that the serial cable is connected to on your PC.

Figure 1.8: NCode Uploader Menu

Page 1-32 Issue 0.3 2009-12-08


Figure 1.9: Upload DSP Firmware Menu


5. Click the Upload DSP Firmware button (see Figure 1.8 on page 1-32 ). The menu shown in

Figure 1.9

should appear, along with the Connected to DSP successfully!

prompt. Click OK .

6. Once connected, click the Read Exciter Configuration button. Select Save file to disk and click OK

(see Figure 1.10 on page 1-34 ) to save the current calibration data. Browse to a

desired location to save the file.

7. If the defective exciter does not allow the previous steps to be performed, try using the operational exciter to save the required calibration data. In this case, repeat

Step 2 through

Step 6

for the operational exciter’s digital AM exciter PWB. If there is no operational exciter, contact Nautel for the required calibration data.

Issue 0.3 2009-12-08 Page 1-33


Figure 1.10: Upload DSP Firmware Menu - Select an Option


8. Remove and retain four sets of mounting hardware from the digital AM exciter PWB being replaced (A11A1 or A11A2).

9. Pull the digital AM exciter PWB away from the control/interface PWB (A11A1). It may be helpful to gently pry the connector loose with a screwdriver.

10. Install the new digital AM exciter PWB by reversing

Step 8

and

Step 9 .

11. Connect a cable between the replacement digital AM exciter PWB’s RS-232 connector (9-pin

D-sub J3, see Figure 1.7 on page 1-32 ) and a PC.

12. On the digital AM exciter PWB’s MODE program header E1 (see Figure 1.7

), install the shorting jumper in the PROGRAM position (shorting pins 1 and 2). Press RESET switch S1, located directly above E1.

13. Once connected, use the PC to browse to the configuration file saved in

Step 6 by clicking

the Browse button next to the “Please Select a Exciter Configuration file:”

field (see Figure 1.11 on page 1-35

).

Page 1-34 Issue 0.3 2009-12-08


Figure 1.11: Upload DSP Firmware Menu - Browse for configuration file

14. Click the Program Exciter Configuration

checkbox (see Figure 1.11 on page 1-35 ) so that

the box contains a checkmark and then click the Program New Firmware button.

15. On the digital AM exciter PWB’s MODE program header E1 (see Figure 1.7

), return the shorting jumper to the NORMAL position (shorting pins 2 and 3). Press RESET switch S1, located directly above E1.

16. On the front panel AUI, reset any active alarms.


18. Set the transmitter to its RF On state.

Issue 0.3 2009-12-08 Page 1-35


Control/interface PWB replacement

1. Remove either the remote interface PWB (A11A4) or both digital AM exciter PWBs (A11A2 and A11A3), whichever is easier. It may be helpful to gently pry the connectors loose with a screwdriver.

2. Remove and retain 13 sets of mounting hardware from the control/interface PWB (A11A1).

3. Set the EXT/DRM (E1), PDM INH (E2) and REMOTE SUPPLY (E3) jumpers on the replacement PWB to the same positions as the defective PWB.

4. Install the new control/interface PWB by reversing Step 1 and Step 2 .

5. Reconnect all mating connectors to the new control/interface PWB.

6. Re-enter all the AUI information recorded in Step 1 of “Preparation” on page 1-31

.


GPS Sync PWB replacement

1. Remove and retain four sets of mounting hardware from the GPS sync PWB being replaced

(A11A5 or A11A6).

2. Set the jumpers on the replacement PWB to the same positions as the defective PWB.

3. Install the new GPS sync PWB by reversing Step 1 and Step 2 .

Exgine PWB replacement

1. Remove and retain four sets of mounting hardware from the exgine PWB (A11A7).

2. Set the jumpers on the replacement PWB to the same positions as the defective PWB.

3. Install the new exgine PWB by reversing Step 1 and Step 2 .

Page 1-36 Issue 0.3 2009-12-08


PDM Drive Distribution PWB replacement

WARNING:

Lethal voltages exist inside the transmitter when the power is turned on. Turn off the power at the source and verify the 10 bright green

LEDs on the power module interface PWBs - in the back of each cabinet

- are off before removing any connections or PWBs.

See Figure 1.12

.

Figure 1.12: Location of PDM Drive Distribution PWB

FRONT OF

CABINET

Front Door

Removed for

Clarity

PDM Drive

Distribution

PWB

1. Open the front door.

2. Disconnect all cables attached to the PDM drive distribution PWB, taking note of the connector labels on the cables and the PWB.

3. Remove and save six sets of mounting hardware.

4. Remove the defective PWB from the transmitter.

5. Reverse Step 1

through Step 4 to install the new PWB.

Issue 0.3 2009-12-08 Page 1-37


RF drive distribution PWB replacement

WARNING:

Lethal voltages exist inside the transmitter when the power is turned on. Turn off the power at the source and wait until the 10 bright green LEDs on the power module interface PWBs - in the back of each cabinet - are off before removing any connections or PWBs.

See Figure 1.13

.

Figure 1.13: Location of RF Drive Distribution and Rack Interface PWBs

PWBs located on underside of this chassis

Back Door and Side Panel

Removed for Clarity

1. Turn off the ac power at the source. Open the back door and verify the green LEDs on the power module interface PWBs are off, indicating the capacitors are discharged. For additional safety, measure the dc voltage across the + and - terminals of any of the large, electrolytic capacitors on the floor of the cabinet. There should be little or no voltage.

2. Disconnect all cables attached to the RF drive distribution PWB, taking note of the connector labels on the cables and the PWB.

3. Carefully remove and save seven sets of mounting hardware.

4. Remove the PWB from the transmitter.

5. Reverse

Step 1 through Step 4 to reinstall the PWB.

Page 1-38 Issue 0.3 2009-12-08


Rack Interface PWB replacement

WARNING:

Lethal voltages exist inside the transmitter when the power is turned on. Turn off the power at the source and wait until the 10 bright green LEDs on the power module interface PWBs - in the back of each cabinet - are off before removing any connections or PWBs.



2. Remove the interconnecting RF drive distribution PWB (see

“RF drive distribution PWB replacement” on page 1-38 ). It may be helpful to gently pry the connectors loose with a

screwdriver.

3. Disconnect all cables attached to the rack interface PWB, taking note of the connector labels on the cables and the PWB.

4. Carefully remove and save 12 sets of mounting hardware.

5. Remove the PWB from the transmitter.

6. Reverse

Step 1 through

Step 5 to reinstall the PWB.

7. If you are replacing the Controller’s rack interface PWB, disengage all RF power modules in the transmitter (see

“Removing and reinstalling RF power modules” on page 1-21

).

8. One at a time, reinstall each RF power module. The LED sequence on the front panel of each module should change to solid red.


10. From the AUI’s Hardware Configuration page, in the DC Current per Rack menu, press

Start .

Issue 0.3 2009-12-08 Page 1-39


SCR Rectifier Inspection/Replacement

WARNING:

Lethal voltages exist inside the transmitter when the power is turned on. Turn off the power at the source and wait until the 10 bright green LEDs on the power module interface PWBs - in the back of each cabinet - are off before removing any connections or assemblies.

See Figure 1.14

.

Figure 1.14: Location of SCR Rectifier Assembly U1 and its Cooling Fans

Cooling Fans

1 and 2

SCR Rectifier

Assembly U1




Page 1-40 Issue 0.3 2009-12-08


2. If you are responding to a Rectifier Fan 1 (or 2) Fail

alarm (if not, proceed to Step 3

), inspect the SCR rectifier assembly’s cooling fans (see

Figure 1.14 on page 1-40 ) for debris that might

restrict proper movement of the fan blades. If there is no noticeable debris, remove the suspect fan (1 or 2, as specified by the alarm) by disconnecting its wiring and then removing the four Philips screws securing it to the top of U1. Replace the fan with a suitable replacement (48 V muffin fan, EBM Part # W1G110-AG07-05). Secure the replacement fan to the SCR rectifier assembly and connect the fan’s wiring as it was previously installed.

Return the transmitter to service.

3. Disconnect all wiring attached to the SCR rectifier assembly, taking note of the wiring labels.

4. While supporting the weight of the SCR rectifier assembly, remove and save 12 sets of mounting hardware.

5. Remove the SCR rectifier assembly from the transmitter.

6. Reverse Step 1

through Step 4

to reinstall the new or repaired SCR rectifier assembly. Ensure all connections are tight, noting some connections have special torque requirements (e.g., torque the 2 AWG wires connecting to AC-1, AC-2 and AC-3 to 12 N-m (106 in-lbs). For wiring termination assistance with connections to the SCR rectifier assembly (U1), check the wiring list in Section 4, “Wiring/connector lists” on page 4-1 .

Low Voltage Power Supply Replacement

WARNING:

Lethal voltages exist inside the transmitter when the power is turned on. Turn off the power at the source and wait until the 10 bright green LEDs on the power module interface PWBs - in the back of each cabinet - are off before removing any connections or assemblies.



2. Disconnect all wiring attached to the affected power supply module (U3 through U7), taking note of the connector labels on the cables.

Issue 0.3 2009-12-08 Page 1-41


Figure 1.15: Location of Low Voltage Power Supplies U3 through U7

15 V Power

Supplies

U3 (A) and U4 (B)

48 V Power

Supplies

U5 (A) and U6 (B)

12 V Power

Supply U7



3. Remove and save four sets of mounting hardware.

4. Remove the power supply module from the transmitter, noting its reference designation (U3 through U7) should be marked on the side panel near the module.

5. Reverse

Step 1 through

Step 4 to reinstall the new power supply module. Reconnect all

wiring.

Page 1-42 Issue 0.3 2009-12-08


RF Power Module Fan Tray replacement

See Figure 1.16

.

Figure 1.16: Location of Fan Tray Assemblies

Fan Associated Cube #s

Tray (A15-A24)

A35 A15 and A16

A36 A17 and A18

A37 A19 and A20

A38 A21 and A22

A39 A23 and A24

Fan Tray

Assemblies

A35 A36 A37 A38 A39

Front Door Removed for Clarity

1. Open the front door.

2. Determine the suspect fan tray assembly ( through ) associated with the offending cube # alarm(s).

3. Remove and save two sets of mounting hardware. Pull the fan tray assembly out of the transmitter.

4. Reverse Step 1

through Step 3 to install the new fan tray assembly.

Issue 0.3 2009-12-08 Page 1-43


Page 1-44 Issue 0.3 2009-12-08

NX25 Troubleshooting Manual Detailed Circuit Descriptions

Section 2: Detailed Circuit Descriptions

Refer to the functional block diagram: “NX Series Transmitter Block Diagram” on page 1-11 and high level descriptions of the NX25 Operation and Maintenance Manual .

This section provides a detailed description of the transmitter’s key modules and assemblies, including:

•

Control/interface PWB (NAPC154C) - see page 2-1

•

Digital AM exciter PWB (NAPE78) - see page 2-5

•

Remote interface PWB (NAPI106) - see page 2-8

•

RF power module (NAP36B) - see page 2-9

NX25 electrical schematics

The descriptions in this section all refer to the NX25 electrical schematics listed in Table 5.1 on page 5-5 of the NX25 Troubleshooting Manual .

Control/interface PWB (NAPC154C)

See electrical schematics Figures SD-7 through SD-13.

Microcontroller

Microcontroller IC U57 interfaces with the transmitter via several serial buses. J3 provides an isolated

RS-232 interface with the front panel’s advanced user interface (AUI). J13 provides an isolated

RS-232 interface for debugging. There are also serial interfaces with exciter A (via J17), exciter B (via

J19), optional Exgine PWB (via J21), optional DRM exciters A (via J22A) and B (via J22B) and optional GPS sync PWBs A (via J27A) and B (via J27B).

U57 also acts as an internal and external serial interface for transmitter alarm and status signals.

RF drive selection and distribution

The RF drive signals from exciters A and B are applied to J16-13 (+)/J16-25 (-) and J18-13 (+)/

J18-25 (-) respectively. Each signal is stepped up through a 1:4 transformer (T7 or T5) to a nominal

7 volts peak-to-peak.

Issue 0.3 2009-12-08 Page 2-1


The RF drive signals are applied to high speed comparators U13:A and U42:A, which are used to generate a square wave. These comparators also receive threshold data from digital potentiometer

U38, which acts to control the RF drive duty cycle. The outputs of the high speed comparators are applied to multiplexer U22, which selects the active RF drive signal based on the status of the Select

Side B input on U22-1.

The active RF drive 1 and 2 signals are buffered using AND gates U20:A through U20:D and then split, using differential line drivers U9 through U12, to be applied to each cabinet’s RF drive distribution PWB (A16). An RF Drive Sample signal is also applied to microcontroller IC U57 for monitoring.

PDM drive selection and distribution

The PDM 1 through 9 signals from exciters A and B are applied to J16-9 (1)/J16-5 (2)/J16-16 (3)/

J16-6 (4)/J16-17 (5)/J16-3 (6)/J16-18 (7)/J16-4 (8)/J18-15 (9) and J18-9 (1)/J18-5 (2)/J18-16 (3)/

J18-6 (4)/J18-17 (5)/J18-3 (6)/J18-18 (7)/J18-4 (8)/J18-15 (9) respectively.

The PDM signals are applied to multiplexers U24, U25 and U26, which select the active PDM signals based on the status of the Select Side B input on U22-1.

The nine active PDM signals are split, using differential line drivers U2 through U5 and U14 through

U17, and applied in three groups to each cabinet’s PDM distribution PWB (A17). A Modulation

Sample , representative of the sum of all nine signals, is also applied to microcontroller IC U57 for monitoring.

Each PDM signal is monitored by a comparator (U31, U32 or U33). If one of the PDM signals goes logic high for longer than desired, a PDM Latch signal is generated and applied to microcontroller

U57. This will inhibit the transmitter’s RF output power and generate an exciter changeover, if enabled.

Audio input conditioning

Various audio inputs can be applied to the control/interface PWB. All inputs are conditioned and then applied to the digital AM exciter PWBs via connectors J17 (exciter A) and J19 (exciter B).

Serial frame, clock and data inputs from the optional Exgine PWB (A11A7) are applied to RJ45 connector J20. These low voltage differential inputs are converted to 3 V CMOS output levels by

LVDS receivers U66 and U73.

Page 2-2 Issue 0.3 2009-12-08


Synchronization input selection

Various synchronization inputs (1 PPS, 1 kHz and 10 MHz) can be applied to the control/interface

PWB. Selection circuits determine which sources (A or B, then internal or external) provide the signals applied to the digital AM exciter PWBs via connectors J17 (exciter A) and J19 (exciter B).

1 PPS, 1 kHz and 10 MHz inputs from the optional GPS sync PWBs [A11A5 (A) and A11A6 (B)] are applied to connectors J5A and J5B respectively. Multiplexer U44 selects which sync inputs are passed based on the status of the Select Sync B input on U44-1. Shorting jumper E1 must be installed in the

EXT position (shorting pins 1 and 2).

Multiplexer U45 selects either internal or external sync inputs based on the status of the Select Sync Int input on U45-1. For internal input selection, the inputs from the selected GPS sync PWB (from multiplexer U44) are applied to the digital AM exciter PWBs. For external input selection, the externally sourced 1 PPS (J9) and 10 MHz (J8) inputs are applied to the digital AM exciter PWBs.

Remote inputs and outputs

The user can interface with up to 16 pre-defined digital inputs, 16 digital outputs and four analog

outputs via the remote interface PWB (A11A4) (see “Remote interface PWB (NAPI106)” on page 2-

8

). The control/interface PWB configures these inputs and outputs based on customer interface with the AUI. These inputs and outputs may be user-defined or factory defaulted (see the NX300

Installation Manual for default settings).

Digital inputs

RFI filtering is provided on all digital input lines to ensure transmitter operation is not interrupted due to RF pick up on control lines. Opto-couplers buffer/isolate the external circuits and prevent unwanted transients from affecting transmitter operation. The digital inputs on connector J24 are shifted in through shift registers U76 and U74. These values are then relayed to microcontroller U57 over the SPI bus.

Digital outputs

Shift registers U77 and U78, controlled by microcontroller U57 over the SPI bus, control the status of the digital outputs applied to connector J23. Digital output logic levels are configured through the

AUI.

Analog outputs

Digital samples of the selected (or defaulted) analog outputs are applied to DAC U72 by microcontroller U57 over the SPI bus. The analog outputs of DAC U72 are applied to connector J23, via operational amplifiers U79:A through U79:D.

Issue 0.3 2009-12-08 Page 2-3


RF monitor circuit

Forward and reflected power samples of the transmitter’s RF output are applied from the RF output filter to the Fwd Pwr Sample (J4-1) and Refld Pwr Sample (J4-7) inputs. One of these inputs, as selected by RF MON switch S5, is applied through variable gain amplifier U67, current feedback amplifier

U64:A and transformer T1 to the RF MONITOR BNC output (J7). This output provides a true sample of the forward or reflected power waveform and is intended for use by a modulation monitor.

The RF Mon Gain signal, applied to U67 from microcontroller U57 via DAC U68 , allows for automatic adjustment of the RF MONITOR output to maintain a constant output, regardless of power level. The user can set this level using the AUI’s Hardware Configuration menu. The level should automatically adjust based using the power set-point as a reference.

Page 2-4 Issue 0.3 2009-12-08


Digital AM exciter PWB (NAPE78)


Figure 2.1: Block Diagram - Digital Exciter Block Diagram


DSP

The DSP (U25) is an Analog Devices BF533 “Blackfin” IC. It provides initial data conditioning, including initial filtering and interpolation of incoming audio or digital radio data before it is applied to the FPGA. The DSP acts as the master controller for the PWB in that it provides startup configuration for the FPGA and other ICs and also performs error monitoring while the PWB is in operation.

The DSP has an external SDRAM IC (U27), which is used as a capture buffer for precorrection data and for network/spectrum analyzer purposes.

FPGA

The FPGA (U13) is a Xilinx Spartan-3 1000 IC. It performs digital up-conversion, reverse path demodulation and down-conversion, B+ voltage compensation, digital PDM generation and RF drive synthesis. It also monitors digitized samples of the RF output voltage and current and provides necessary corrections to the drive signals for amplifier and modulator non-linearities. See Figure 2.2 on page 2-6 for a block diagram of the FPGA.

Issue 0.3 2009-12-08 Page 2-5


Figure 2.2: Block Diagram - FPGA


Digital PDM generator

See Figure 2.3

. The FPGA generates nine modulation phases, each separately synthesized at 317

MSPS, resulting in very low quantization noise. The nine-phase process samples the modulation envelope at over 2.7 million samples per second. Distortion due to the modulation process is essentially eliminated.

Figure 2.3: 9-Phase Digital Modulation

Modulation Process

1

0.5

0

0 1 2 5 6 3

1 Phase Modulator

4 x 10

-5

1

0.5

0

0 1 2 5 6 3

9 Phase Modulation

4 x 10

-5

1

0.5

0

0 1 2 3 4 5 6 x 10

-5

Page 2-6 Issue 0.3 2009-12-08


Audio and IBOC digitization

Differential analog audio is applied to J2-10 (+) and J2-22 (-). Differential line receiver U29 converts the incoming audio to a single-ended signal and ADC U35 digitizes the signal. Analog audio can also be applied - in AES/EBU format - to J2-8. In this case, SRC U23 digitizes and rate converts the incoming audio.

A second SRC (U20) accepts I/Q data in two different formats. AES/EBU format, as generated by a

DRM exciter, is applied to J2-20. CMOS format, as generated by an Exgine PWB or NE IBOC generator, is applied to J2-7 (data), J2-6 (clock), and J2-19 (FS).

The digitized audio signals are applied to DSP U25 for conditioning and filtering.

RF data conversion

Synthesized RF drive data from FPGA U13 is applied to 14-bit DAC U1. U1 provides an analog RF drive output (nominally 2 V peak-to-peak) on J1-13 (+) and J1-25 (-), via isolation transformer T1. A low-pass reconstruction filter, comprised of capacitors C1 through C4 and inductors L1 through L6, removes the high frequency images present in the synthesized output signal.

Samples of the RF output voltage (J1-11) and the RF output current (J1-10) are are applied to ADCs

U8 and U12, through isolation transformers T2 and T3. FPGA U13 monitors the digitized sample data from the ADCs for metering and protection purposes as well as regulating the synthesized drive outputs to maintain acceptable operating levels or to correct for amplifer and modulator nonlinearity.

10 MHz sync

A 10 MHz signal can be used to synchronize (i.e., GPS lock) with the system clock. An internal

10 MHz reference is provided by VCXO oscillator U2. An external 10 MHz (J2-17) can also be applied from a user supplied source or an optional GPS sync PWB. This signal is first applied through the control/interface PWB. If supplied by the user, the external signal must be precisely 10.00 MHz and its peak-to-peak voltage (sine or square wave) must be between 2.2 V and 8.0 V.

PDM inhibit

When faults are detected or actions are initiated that may cause RF stress current thresholds to be exceeded, 0 V is applied to the PDM Inhibit input (J2-16). FPGA U13 inhibits the 'on time' of the

PDM outputs and, in turn, the RF output of the transmitter.

Issue 0.3 2009-12-08 Page 2-7


RS-485 interface

Communications between the exciter and the front panel AUI are performed via an RS485 serial bus.

The front panel AUI sends configuration settings for the exciter, such as operating frequency, power level and audio input. The exciter sends status and error conditions to the AUI.

Remote interface PWB (

NAPI106

)

See electrical schematic Figure SD-19.

The remote interface PWB (A1A11A4) performs the following functions:

• Provides an interface between the remote control/monitor facility and the transmitter.

• Provides momentary contact activation switches for each of the 16 digital inputs.

• Provides configurable status or alarm indicator LEDs for each of the 16 digital outputs.

Digital inputs

Up to 16 digital inputs can be connected to terminal blocks J7, J8 and J9. You can define these digital inputs using the advanced user interface (AUI). Each must provide a logic low input (0 V) in its active state to the associated terminal of the remote interface PWB. Momentary switches S1 ( 01 ) through

S16 ( 16 ), which can be labelled according to their function, provide a means to locally activate the digital inputs.

Digital outputs

Up to 16 digital outputs can be connected to terminal blocks J3, J4 and J5. You can define these digital outputs (alarm or status) using the advanced user interface (AUI). Each provides a negative logic (current-sink-to-ground) output when a ‘true’ (alarm condition or active status) exists. The outputs provide an open collector during logic 'false' conditions (non-alarm or non-active status condition) and have no influence on the external monitoring circuit. Each monitoring circuit must present impedance between the switching device and a positive dc voltage source that results in a current flow of not more than 30 mA. A +15 V supply is available for use by the remote monitoring circuits on J2-24 or J2-25 (ground on J2-22 or J2-23). Bi-position shorting jumpers E1 through E16 allow you to connect each digital output to a STATUS (green) or ALARM (red) LED, depending on its function. The outputs can also be labelled according to their function.

Page 2-8 Issue 0.3 2009-12-08


RF power module (

NAP36B

)

See electrical schematics Figures SD-23 and SD-24.

The RF power module is effectively four wideband RF amplifiers for the AM broadcast frequency band (530 - 1710 kHz). It operates from a 400 V dc bus with a carrier output level of 2500 W and can deliver peak power levels of 13.25 kW. The module contains a three phase modulator section that feeds directly to a highly efficient class D RF amplifier. All circuitry has been integrated into a single

PWB (NAPA19A Modulator/Power Amplifier PWB) eliminating the requirement for interconnect wiring between stages. This simplifies troubleshooting, and serviceability of the entire power chain.

The RF power module contains three main operating blocks, which are described in the following paragraphs:

• Modulator

• RF amplifier

• Protection/monitoring circuitry

Modulator circuit

The modulator circuit is a voltage regulating stage between the B+ voltage and RF amplifier. The modulator output will vary with any change in PDM duty cycle. The PDM duty cycle is determined by the carrier level plus the envelope information. For an envelope peak (maximum duty cycle) the modulator output will be approaching the B+ level; for an envelope trough (minimum duty cycle) the modulator output will approaching zero.

The modulator stage receives three separate PDM signals that are operating 120° out of phase from each other but with the same duty cycle. This acts to provide cancellation of the fundamental switching frequency.

PDM Inputs

The three-phase PDM signals are applied to the RF power module through the RJ45 connector (J1) at the front of the module. The PDM signals are received as differential signals and converted to TTL signals through individual RS422 receivers U1:A, U1:C and U1:D. A PDM sample is generated by summing the TTL outputs using resistors R25, R20, and R21. This sample allows for onboard monitoring of the PDM duty cycle. Each PDM signal is also fed to a FET driver IC (U12:A, U14:A and U15:A).

Issue 0.3 2009-12-08 Page 2-9


FET Driver

FET drivers U12:A, U14:A and U15:A are capable of switching at very high speeds and sinking/ sourcing high amounts of current. These devices switch the energy required to turn the modulator power MOSFETs’ gates on and off. They also contain enable circuitry that allows the PDM signals to be interrupted immediately during a fault condition. When the Enable input (pin 5) of each FET driver IC is held high (+15V), the driver output is enabled and a 0 to 15 V PDM signal is applied to the power MOSFET. During a fault condition, the Enable input is held low and the FET driver outputs will be 0 V.

The #Mod_Drive_Enable+ signal is common to all three modulator FET drivers and is generated by e microprocessor U22 and MOSFET Q6. When the output from the microprocessor is low (0 V), Q6 will be off causing the #Mod_Drive_Enable+ signal to be +15 V. When the output from the microprocessor is high (5 V), Q6 will turn on causing the #Mod_Drive_Enable+ signal to be low (near

0 V).

Switching Power MOSFETs

Power MOSFETs Q11, Q12, and Q13 are ground referenced power switches that turn on during the positive duty cycle of the PDM signals. The three power MOSFETs all switch based on the PDM duty cycle, but operate 120° out of phase from each other. The drain of each MOSFET switches between B+ and ground. When the MOSFET turns on it will conduct current and the drain voltage will fall to 0 V. When the MOSFET turns off it will stop conducting and the drain voltage will rise up to the B+ level. The modulator output voltage is determined by the duty cycle at which the switching

MOSFETs are conducting (e.g., for a duty cycle of 42.5% and B+ of 400 V dc, the output of the modulator will be 170 V dc).

Each power MOSFET drain is connected to an individual filter inductor (L12, L13, L14) and freewheeling diode (CR19, CR20, CR21). The three inductors sum the drain currents together at a common point in the modulator filter, providing cancellation of the fundamental PDM frequency.

The freewheeling diodes provide a path for current to continue to flow through the inductors when the respective MOSFET turns off, clamping the drain voltage to B+.

Modulator Filter

The modulator filter is configured as a low pass filter that will filter the fundamental PDM frequency and harmonics. The first LC filter stage is comprised of capacitor C55 and the parallel combination of inductors L12, L13, and L14. The second LC filter stage contains inductor L10/L11 and parallel

RF decoupling capacitors C116 and C117.

Page 2-10 Issue 0.3 2009-12-08


The modulator filter’s output voltage is across capacitors C116 and C117, but is not ground referenced. The output (PA voltage) applied to the RF power amplifier will be positive and is the sum of a dc component (carrier level) and an ac component (modulating source). The output voltage is related directly to the PDM positive duty cycle. If the duty cycle is constant the modulator filter output will be a dclevel. If the duty cycle is varying the modulator filter output will be a dc value plus an ac component.

Diodes CR8 and CR9 are connected in series between the modulator filter output and ground. They prevent the modulator filter output from going negative, and possible RF MOSFET damage due to overvoltage.

Modulator Current Sense

The modulator output passes through a hall effect current sensor (U17). The sensor provides a dc voltage sample that is indicative of the modulator output current. Microprocessor U22 monitors the current sample and shuts down the power module during an overcurrent event. This provides short circuit protection for the modulator circuitry.

The output of the current sensor (U17 pin 3) has a zero current offset of 0.6 V dc. Its output sensitivity is 65 mV/A.

RF power amplifier circuit

The RF power amplifier circuit contains a Class D, resonant switching amplifier. The switching

MOSFET's have very low on resistance, minimizing conduction losses. This allows for very efficient operation of the amplifier. The amplifier is capable of operating from 530 to 1710 kHz into a tuned load. Different load impedances and dead times are required for different frequencies to ensure proper switching of the MOSFET's. Each MOSFET has its own gate drive circuit allowing asymmetrical drive signals to be used. This allows a dead time to be introduced between each switching cycle of the Class D amplifier.

RF Drive Inputs

The RF drive signals are applied to the RF power module through the card edge connector (P1).

There are two separate signals at the desired carrier frequency: RF Drive 1 and RF Drive 2 . They are operating 180° out of phase with each other, with a pre-determined dead time inserted. The dead time is what allows the zero voltage resonant switching to occur within the class D amplifier. The amount of required dead time depends on many factors such as operating frequency, MOSFET device, gate drive circuit, and load current.

The balanced RF drive input signals are converted to TTL signals using RS422 receivers U27:A and

U27:B. These receivers are always enabled allowing for a constant RF drive sample to be monitored by microcontroller U22.

Issue 0.3 2009-12-08 Page 2-11


Gate Drive Circuit

Each RF power MOSFET is driven individually by gate driver IC's U23:A, U24:A, U26:A, and

U29:A. The #RF_Drive_Enable+ is controlled by microcontroller U22 through Q5. This allows the microcontroller to perform proper shutdown sequencing during a fault condition.

The output of each driver is connected to individual gate transformers through a dc blocking capacitor and dampening resistor. A dc restoration circuit is present on the gate of each RF power

MOSFET, providing the optimal turn on and turn off voltages for the MOSFET.

The dc restoration circuit consists of a storage capacitor, blocking diode, zener diode, and dc loading resistor.

Figure 2.4: Dc restoration circuit

15V 9.1V

RF DRIVE

0

C1

1.0

2.5

T1

1:1

- (1.7) +

C2

1.0

D1

-5.8V

R1

1000

TO MOSFET

D2

See Figure 2.4

. The MOSFET driver output can be considered a square wave switching between 0 and 15 V. Initially the gate signal will switch between 0 and 15 V until a dc voltage is developed across

C2. The voltage across C2 is determined by the combined clamp voltage of zener diode D1 and rectifier D2. In this case the voltage V

C2

= (Vcc/2) - (V

Z

+ V

FD2

).

V

C2

= 7.5 - (5.1 + 0.7) = 1.7 V dc

The actual gate drive signals transition from -5.8 V to +9.1 V, ensuring proper turn on and turn off events.

RF Drive Sample and Detection

RF drive 1 and RF drive 2 are averaged together using 10 k Ω resistors R105 and R108 and capacitor

C80. This allows for a slow responding, average sample for microcontroller U22. U22 monitors the sample and disables the module if the sample is lost completely, or outside the range of <30% and

>50% duty cycle.

Page 2-12 Issue 0.3 2009-12-08


Fast RF drive loss detection is accomplished using XOR gate U25:A and comparator U18:A. The

XOR gate monitors both RF drive signals and, during normal operation, delivers a short low pulse during the dead time between the two drive signals. If one of the drive signals is lost the XOR gate produces a longer pulse equal to half of the carrier period plus two dead times. This will cause the sample voltage applied to U18:A’s non-inverting input below the threshold on the inverting input

(2.5 V). In this case, U18:A’s inverting input will switch high and latch itself on for a minimum of

332 us.

The inverting output of U18:A ( #RF_Drive_Fail+ ) is applied to the INT0 input of microcontroller

U22. When this signal switches high, U22 will immediately (within 5 - 10 us) produce an interrupt to disable the module.

Power Amplifier

The class ‘D’ power amplifier consists of four switching devices (Q7 through Q10) arranged in an H-

bridge configuration (see Figure 2.5

) to produce unfiltered, modulated RF output. The switching devices are controlled such that each diagonal pair turns on simultaneously, while the second diagonal pair remains off. This creates two opposite power strokes through the load which is connected in the center of the H-bridge.

The amplifier will switch at the desired carrier frequency and generate an RF signal that varies between ± PA volts. Dc blocking capacitors are connected to one side of the bridge to ensure that dc current does not flow through the RF transformer connected to the module.

Figure 2.5: Power amplifier H-bridge

Q1 Q3 Q1 Q3

Q2 Q4 Q2 Q4

Issue 0.3 2009-12-08 Page 2-13


Control, Monitoring and Protection

Microprocessor U22 performs all control, monitoring, and protection services required. It monitors analog samples and alarm conditions and will report back to a rack master controller via a serial data bus. Each RF power module is programmed with a unique serial number and when inserted into a transmitter is assigned a serial address by the rack master.

CONTROL

Serial Bus:

The RF power module uses the RS485 serial protocol for communication with the rack master. This allows many devices to communicate on the same serial bus without interfering with each other. Each RF power module is capable of sending status and analog sample data to the rack master for diagnosis and display purposes. Modules also receive control data from the rack master.

Microcontroller U22 sends and receives data through RS485 transceiver U20. U20 converts either the

RX or TX TTL data to a balanced RS485 signal that can interface with the serial bus. U22 determines if it is transmitting or receiving data by controlling drive enable and receive enable pins (2 and 3) of

U20. Typically U22 only transmits data over the serial bus when requested by the rack master.

Module Enable:

A discrete enable control line is connected to each module through the front RJ45 connector (J1). The enable signal is received as a differential signal and converted to a TTL signal through RS422 receiver U1:B.

When the mating cable is unplugged from J1, the output of U1:B defaults to a high state. This places

5 V on pin 1 ( INT1 ) of microprocessor U22, which causes an interrupt to occur within U22, disabling the module. A Cube #: External Disable Active alarm is generated.

Mod Drive Enable:

The Mod Drive Enable signal is a status line that is switched through Q6. It enables and disables PDM MOSFET drivers U12, U14 and U15.

RF Drive Enable:

The RF Drive Enable signal is a status line that is switched through Q5. It enables and disables RF MOSFET drivers U23, U24, U25 and U26.

RF Relay Close and Open:

The RF Relay Close and RF Relay Open lines control the RF shorting relay connected across the primary of the RF output transformer at the output of each module. The RF shorting relay is a latching relay with both an ‘operate’ and ‘release’ coil.

By default the RF shorting relay is forced into the closed position due to pullup resistor R65 on the gate of Q3. This causes Q3 to conduct current through the ‘operate’ coil as soon as the 5 V supply is present. During normal operation microcontroller U22 holds the gate of Q3 low, preventing it from conducting current.

Page 2-14 Issue 0.3 2009-12-08


During normal operation the RF shorting relay is in an open state. U22 sends out a 5 V pulse for

50 ms to the gate of Q4. This allows Q4 to conduct current through the ‘release’ coil causing the RF shorting relay to open its contacts. After the 50 ms pulse the gate of Q4 will return to 0 V and Q4 will stop conducting, the relay will remain latched in the open position. A Cube #: RF Relay Open status event is generated.

When the module is disabled or an internal alarm occurs, U22 disables the RF drive signal and then closes the RF shorting relay by sending a 5 V 50 ms pulse to the gate of Q3. The shorting relay will be latched into the closed position, allowing the module to be removed from the transmitter.

LED Indicator:

Bi-colour LED DS1 is visible from the front cover of the RF power module.

Microcontroller U22 controls the light colour of DS1 by allowing Q1, Q2, or both, to conduct. Refer to the following colour codes to determine the status of the RF power module:

– green, solid: module is operating normally and producing RF power

– amber, off: module is RF off

– solid red: module has a non-latching alarm

– flashing red, then green: module is producing RF, but has an alarm

– long red, short amber: module has a latching alarm

– long red, short off: module has no valid serial number

– short red, long off: module has no valid serial address on the internal bus

– long amber, short green: module is producing RF, but no serial communications

– long amber, short red: module is not producing RF and no serial communications

Programming Header:

Connector J2 is a JTAG programming header used for initially programming microcontroller U22. It is not used during normal operation.

MONITORING

Dc Current:

The Dc Current sample from the modulator output is monitored by microcontroller

U22 for diagnostic, telemetry and fault detecting purposes. The sample is monitored by two separate sections of U22.

The analog average dc current sample is detected by ADC0 (pin 23) of U22. The dc current sample is heavily filtered through R75 and C74, minimizing current sample variations due to modulation.

Issue 0.3 2009-12-08 Page 2-15


Fast overcurrent conditions are detected through the use of an internal comparator of U22. The unfiltered dc current sample flows through diode CR10 and receives high frequency filtering with

R91 and C91. This voltage is applied to the comparator input AIN0 (pin 10) of U22. The comparator reference voltage is applied to AIN1 (pin 11) of U22 and is set through resistors R84 and

R85. This reference voltage should be 3.09 V dc. When the dc current sample exceeds this voltage, indicative of a peak current in excess of 53 A, an interrupt occurs within U22 and the module will be latched off immediately.

B+ Sample:

The B+ Sample is generated by the output of a voltage divider formed with resistors R51,

R52, R53 and R66. The sample is filtered through R74 and C81 and buffered through U21:A. This voltage is indicative of the B+ level applied to the module and is a nominal 3.8 V dc for a B+ level of

400 V dc. U22 monitors the analog sample through its ADC2 input (pin 25).

PA Volts Sample:

The PA Volts Sample is generated by the output of a voltage divider formed with resistors R59, R68, R63 and R69. The sample is filtered through R54 and C65 and buffered through

U21:B. This voltage is indicative of the PA voltage applied to the modulator circuit and is a nominal

2.2 V dc for a PA voltage of 170 V dc. U22 monitors the analog sample through its input ADC1 input (pin 24). U22 uses this sample to calculate the actual PA voltage level that is present across the

RF amplifier. The value is calculated by subtracting the PA voltage sample from the B+ sample.

Modulation Sample:

The Modulation sample is a low level dc voltage that indicates the average

PDM positive duty cycle. The three PDM phases are summed together through resistors R25, R20, and R21, and form a voltage divider with R64. Capacitor C67 provides heavy filtering to minimize the sample variation due to modulation. A nominal level of 1 V dc (42.5% positive duty cycle) is applied to the ADC3 input (pin 26) input of U22.

RF Drive Level:

The RF Drive Level sample is a low level dc voltage that indicates the average RF drive positive duty cycle. RF Drive 1 and RF Drive 2 are summed together through resistors R105 and

R108. A voltage divider is formed with R72. Capacitor C80 filters the RF component out of the sample. The nominal RF drive positive duty cycle is between 36 and 42%. This generate a dc voltage of between 1.3 and 1.4 V dc on the ADC6 input (pin 19) of U22.

RF Drive Fail:

The #RF_Drive_Fail + status line is a logic level signal that comes from the RF drive fast detection circuit. This signal is low during normal operation. In the event of an RF drive failure the output of comparator U18:A switches high (4 V). This voltage is applied to the INT0 input (pin

32) of U22, causing an immediate interrupt to occur within the U22 The RF power module will be disabled within 10 us.

Page 2-16 Issue 0.3 2009-12-08


Fan Tach A and B:

Each power module monitors the tachometer signals from both fans that are operating within its respective column. The fan tachometer output is an open collector output that will switch on and off in direct relation to the fan speed. Pullup resistors R88 and R73 provide switching signals from 0 to 5 V. The tachometer signals are then applied to the T1 and T0 timer inputs (pins 9 and 2) of U22, allowing for fan speed monitoring.

Thermistor:

A thermistor is mounted directly on the RF power module heatsink. A voltage sample is generated with resistor R87 and the parallel combination of R101 and the thermistor. Resistors R87 and R101 have been selected to provide the most linear voltage response for the operating temperature range of the RF power module. The voltage sample is filtered through R79 and C72 and buffered through U21:C. The temperature sample is monitored by the ADC7 input (pin 22) of U22.

U22 disables the module if the heatsink temperature exceeds 90°C.

Analog Reference:

An analog reference of 4.46 V dc is generated by a voltage divider formed by resistors R77 and R82. The dc value is buffered through U21:D and applied to the AREF input (pin

20) of U22. U22 uses this reference for all of its internal analog to digital converters.

Issue 0.3 2009-12-08 Page 2-17


Page 2-18 Issue 0.3 2009-12-08

Parts Lists NX25 Troubleshooting Manual

Section 3: Parts Lists

Parts information

This section contains reference designation lists that provide descriptive and provisioning information for all electrical and mechanical parts that have an assigned reference designation and form a part of the subject equipment.

Family tree

Figure 3.1 depicts the family tree for the subject equipment. It is based on the descending order of the reference designation hierarchy and identifies all assemblies that have an assigned Nautel configuration control number.

How to locate information about a specific part

To locate the information for a specific part, the assigned reference designation for the part must be known. In addition, the Nautel nomenclature (e.g., NAP36B) assigned to the assembly containing the part or the full reference designation, including the reference designation of all higher assemblies, must be known.

When the nautel nomenclature is known:

• Refer to the family tree (Figure 3.1) and identify the block(s) associated with the Nautel nomenclature. At the bottom of each family tree block, a reference is made to “See Part

Number Index Table”. Locate the part's reference designation in the identified reference designation list in this section, noting they are sorted alphanumerically.

When the reference designation is known:

• Refer to the family tree depicted in Figure 3.1 with the full reference designation.

• Follow the family tree branches to the block that represents the lowest level assembly assigned a Nautel configuration control number. Then locate the part number index table for that Nautel configuration control number.

• Locate the part's reference designation in the specified table.

Issue 0.3 2009-12-08 Page 3-1

NX25 Troubleshooting Manual Parts Lists

Reference designation lists

Individual reference designation lists are provided for:

• assemblies that are assigned an alpha-prefixed Nautel nomenclature (e.g., NAP36B)

• cable harnesses that are assigned a numbered Nautel part (e.g., 207-8132)

• optional kits that are assigned a numbered Nautel part

To obtain the full reference designation for a specific part the Nautel configuration control number must be located in the family tree (Figure 3.1) to include the reference designation of all higher level assemblies. The reference designation lists, which are titled and presented in alphanumeric order, are divided into columns to aid in locating specific information.

Column content

The following paragraphs provide an explanation of the purpose and contents of each column in the part number indexes.

Ref des column

The 'ref des' column contains the reference designation for a specific part. These designations are assigned in accordance with the requirements of American National Standard Specification ANSI

Y32.16.

Description column

This column contains the name and descriptive information for each part. The key word is presented first, followed by the adjective identifiers. When the description is 'See Family Tree for Assembly

Nomenclature', the associated part is subject to its own part index table or is contained in an optional kit's list. Look up the reference designation list title (nomenclature) and the reference designation of the associated part in the family tree (Figure 3.1) to determine where to locate its part information.

Nautel # column

This column contains the Nautel number assigned to each part. This number is Nautel's drawing number for Nautel manufactured parts, Nautel's configuration control number for assemblies that are under configuration control management, or Nautel's inventory management number for purchased parts. When a Nautel configuration control number (e.g. NAPC*) is referenced in this column, the associated ref des item is subject to its own part index table.

Page 3-2 Issue 0.3 2009-12-08


Vendor # column

This column contains an original equipment manufacturer's part number for a part. A single part number is listed for each part, even though there may be more than one known manufacturer. The listed number is Nautel's usual or preferred choice. The use of this number does not restrict Nautel from selecting and using commercial equivalents during manufacture, where their use will not degrade circuit operation or reliability.

OEM code column

This column typically contains a five digit coded group as the original equipment manufacturer's

(OEM) identifier. The code was extracted from Cataloging Handbook H4/H8 Commercial and

Government Entity (Cage) Code. Manufacturers that were not listed in the catalog when this listing was compiled have been assigned a unique five-letter code. This code is assigned arbitrarily and has no other significance. The manufacturers identified for parts that have JAN or MIL part numbers are

Nautel's normal supply source for that part.

Note: OEM code 37338 is listed for parts manufactured by Nautel or to a Nautel control drawing. United States of

America customers should refer all replacement part orders to Nautel Maine Incorporated (OEM code 57655).

OEM code to manufacturer’s cross-reference

The OEM (CAGE) codes listed in the reference designation lists are representative of the original equipment manufacturers of those parts. To determine a specific part's manufacturer contact information, enter the five-character OEM (CAGE) code for that part in the following website: https://www.bpn.gov/bincs/begin_search.asp

After entering the OEM (CAGE) code number, manufacturer pertinent information (address, telephone number, fax number, etc.) will be displayed. Please contact Nautel if a part cannot be obtained (see also “On-Line Part Quotes” in the Warranty section of this manual).

Manufacturer's index

For customers without web access, Table 3.1 provides a cross-reference from the original equipment manufacturer's (OEM) codes to the manufacturer's name. The listing is sorted alphanumerically by the OEM code.

Issue 0.3 2009-12-08 Page 3-3


Common abbreviations/acronyms

The following abbreviations/acronyms may appear in the Description of Part column:

• SMT

Denotes item is designed to be installed using Surface Mount Technology.

• MTA

Denotes item is a Mass Termination Assembly connector.

• SIP

Single In-line Package

• DIP

Dual In-line Package

• IDC

Denotes item is an Insulation Displacement connector for ribbon cable.

Parts Lists

Table 3.1: OEM Codes / Manufacturers

OEM Code Manufacturer

00779 CTS Company Incorporated

07EN1

08779

09482

09581

0A5K5

0AG18

0B0A9

0CVK3

01295

01961

02660

03LB0

04713

06090

07263

07933

Texas Instruments Incorporated

Pulse Engineering Inc.

Amphenol Corp., Spectra-Strip/ITD

Sandisk Corporation

Motorola Incorporated

Raychem Corporation

Fairchild Semiconductor Corp

Fairchild Semiconductor Corp

Advanced Monolythic Ceramics

Signal Transformer Co. Inc.

Amp of Canada Limited

3M Canada Incorporated

IXYS Corporation

Hirose Electric / USA / Inc.

Dallas Semiconductor Corporation

Allegro Microsystems Inc.

OEM Code Manufacturer

0DY74 Microsemi Corp-Power Products Grp

1AA44

1E4C5

1FN41

1JRT7

1KK13

1MQ07

1N3T0

1W344

0FMA6

0G343

0GP12

0P2J5

12060

13919

14655

15542

Neutrik USA Inc

Huffman Manufacturing Co.

Radiall Inc.

Kingston Technology Company Inc.

Diodes Inc.

Burr-Brown Corp.

Cornell Dubilier Electronics

Scientific Components Corp.

Collmer Semiconductor Inc

SEI Electronics Inc.

Atmel Corporation

Epson Electronics American Inc.

ITT Industries Incorporated

ZRG Incorporated

Semikron Inc.

United Chemi-Con Mfg Inc.

Page 3-4 Issue 0.3 2009-12-08



OEM Code

22421

23598

56845

59124

59993

5Y407

63590

64155

65786

71400

48862

49588

4G927

4TKQ5

54473

54583

56289

56699

71468

75042

75915

35005

37338

3CYG3

3DX59

3EH09

3USB5

3WCG0

45496

23875

24355

27014

27264

2D829

31433

31781

33062

Manufacturer

Thomas and Betts Limited

Ross Engineering Corp.

M-Tron Industries Incorporated

Analog Devices Incorporated

National Semiconductor Corporation

Molex Incorporated

Cornell Dubilier Electronics Corp.

Kemet Electronics Corporation

Edac Incorporated

Ferronics Incorporated

Dale Electronics

Nautel Limited

Sanyo Denki America Inc.

Citizen America Corporation

Murata Electronics North America Inc

Startech.com USA LLP

Ferraz Shawmut Incorporated

Digital Systems

GC Electronics

S B E Incorporated

Raychem Corporation

UPE Inc.

Matsushita Electric Corp of America

TDK Electronics Corp.

Sprague Electric Company

BC Components

Vishay Dale Electronics Inc.

KOA Speer Electronics Inc.

International Rectifier Corp.

Phoenix Contact Inc.

Premier Industrial Corp.

Linear Technology Corporation

Cypress Semiconductor Corp.

Cooper Bussman Inc.

ITT Corporation

TRW Incorporated

Littelfuse World Headquarters

OEM Code

79942

7D893

Comp Corp

CORNELL

CREE INC

ER737

HYPERTR

IDT

ITT INDUS

KEYSTONE

KYCON

LINEAR

LITEON

L3845

MARKTEC

MICRON

MINI-CIRC

MOLEX

NATIONAL

NXP SEMI

ON-SEMI

80294

83330

90201

91833

91929

95146

96095

AMP/TYCO

ANALOG D

ASTEC

AVAGO

AVX CORP

C3057

C4751

C & D

COMET

Manufacturer

Intel Corp Sales Office

Fairchild Semiconductor Corporation

Bourns Instrument Incorporated

Dialight Corporation, DBA Dialight

Hammond Mfg. Co. Ltd.

Keystone Electronics Corporation

Honeywell Incorporated

Alco Electronic Products Inc.

AVX Ceramics, Div of AVX Corp

Tyco Electronics Corporation

Analog Devices

Astec Power

Avago Technologies

AVX Corporation

Conec Elektronische Bauelemente

Epcos AG

C & D Technologies

Components Corporation

See 2D829

Cree Inc.

Texas Instruments

Hypertronics Corporation

Integrated Device Technology, Inc.

See 1KK13

See 91833

Kycon Cable & Connector Inc.

See 64155

Vishay-Liteon Power Semiconductor

Circuit-Test Electronics Ltd.

Marktech Optoelectronics

Micron Technology, Inc.

Mini-Circuits

Molex Inc.

See 27014

NXP Semiconductors

ON Semiconductor

Issue 0.3 2009-12-08 Page 3-5



OEM Code

PANAS

PHOENIX

SARONIX

SAW84

SB ELE

SCT30

Panasonic

See 5Y407

Manufacturer

Saronix

IEI Technology Corp.

SB Electronics Incorporated

Fairchild

Parts Lists

OEM Code

SL575

TDK

TEXAS

U3040

VENKEL

WANJIA

Manufacturer

Meanwell Sales Information

See 54583

See ER737

ST Microelectronics

Venkel Ltd

Wanjia

Page 3-6 Issue 0.3 2009-12-08


Figure 3.1: NX25 Family Tree

A1 - A5

RF COMBINER BACK PLANE

NAH60

A1A1 - A5A1

POWER MODULE INTERFACE PWB

NAPI95/02

A9

B+ DISTRIBUTION ASSEMBLY

NAX243A

A12 - A14

NOT USED

A16 - A24

RF POWER MODULE (B - J)

SAME AS A15

Parts Lists

25 kW AM BROADCAST TRANSMITTER

NARA59

A6

RACK INTERFACE PWB

NAPI100A/01

A10

NOT USED

A15

RF POWER MODULE (A)

NAP36B

A15A1

MODULATOR/POWER AMPLIFIER PWB

NAPA19A

A25 - A34

NOT USED

A7

RF DRIVE DISTRIBUTION PWB

NAPI98

A8

PDM DRIVE DISTRIBUTION PWB

NAPI99

A11A1

CONTROL/INTERFACE PWB

NAPC154C

A11A3

DIGITAL AM EXCITER PWB (B)

NAPE78

A11A5

GPS SYNC PWB (A)

NAPX36

(OPTIONAL)

A11A7

EXGINE PWB

NAPE74

(OPTIONAL)

A11A9

NOT USED

A11

CONTROL/EXCITER PANEL

NAE96A

A11A2

DIGITAL AM EXCITER PWB (A)

NAPE78

A11A4

REMOTE INTERFACE PWB

NAPI106

A11A6

GPS SYNC PWB (B)

NAPX36

(OPTIONAL)

A11A8

NOT USED

A11A10

VSWR PROTECTION PWB

NAPV03

A35 - A39

FAN TRAY ASSEMBLY

207-8133

F2070112 V2

A40

CONTROL/DISPLAY DOOR ASSEMBLY

207-2010-05

A43

DIRECTIONAL COUPLER

NAFP106/02

A44

STATIC DRAIN CHOKE

183-6059

A41

VOLTAGE PROBE

207-6211

A45

FUSE AND MOV ASSEMBLY

207-8288-01

A42

CURRENT PROBE

207-6212-06

Issue 0.3 2009-12-08 Page 3-7


Page 3-8 Issue 0.3 2009-12-08

206-5402

REFDES DESCRIPTION

P01

P02

Monitor Kit Cable Set Assy

Conn, Barrel-Power, 5.5mm/2.1mm, Socket

Conn, Barrel-Power, 5.5mm/2.5mm, Plug

NAUTEL #

JT114

JT113

VENDOR #

PR-002A(RoHS)

PP3-002B(RoHS)

OEM CODE

0P9A7

0P9A7

207-1036-05 Relay Assy


K01

P01

P01

Relay, Latching, 100A, Dbl Coil, Reverse Polarity

MTA, Standard Dust Cover, 4 pin

MTA, Keyed Closed End Housing,4 pin,22AWG

NAUTEL #

KA60

JU02

JU27

VENDOR #

K100B-10-048AR-

048(RoHS)

640551-4

3-644463-4(ROHS)

AMP

OEM CODE

09482

00779

207-1045


K01

K02

Relay Assy

Not Used

Transformer Assy

207-1045-01 Transformer Assy


K01

K02

Not Used

Relay Assy

NAUTEL #

-

207-1036-05

VENDOR #

207-1036-05

NOT USED

OEM CODE

37338

37338

NAUTEL #

-

207-1036-05

207-2010-05 Control/Display Door AssyNX Series

REFDES DESCRIPTION NAUTEL # VENDOR #

A01 Door Computer 207-8708-01 207-8708-01

207-6045


U01

Gas Discharge PWB Assy

Gas Discharge Tube, 600V, Fail Short

NAUTEL #

UM78

VENDOR #

NOT USED

207-1036-05

OEM CODE

37338

37338

OEM CODE

37338

VENDOR #

GTCR38-601M-R10-

FS(RoHS)

OEM CODE

Page 1 of 94 207-6045

207-6211


C01

C02

C03

E01

J01

Voltage Probe Kit - NX50

Capacitor, Polyprop, 0.039uF,5%, 600V

Capacitor, Polyprop, 0.1uF,600V

Capacitor, Ceramic, 50pF +10%15000V

Surge Arrestor, 5000VDC 10%

Conn, Coax, BNC, Recept, 50ohm

NAUTEL #

CT42

CT45

CCG42

UM51

JDP26

207-6212-06 Current Probe - NX50/NX100

REFDES DESCRIPTION NAUTEL #

J01

R01

R02

R03

T01

Conn, Coax, BNC, Recept, 50ohm, Insul

Resistor, Film, 15 Ohms, 5% 2W



Current Transformer NX50/NX100

JT05

RBP02

RBP02

RBP02

207-6218-02

VENDOR # OEM CODE

716P39356KA3 SB ELEC

715P10496LD3 SB ELEC

T500K99COGW8570 56699

GXH50

UG1094/U

1C532

02660

VENDOR #

31-10

GS-3, 15 OHMS

GS-3, 15 OHMS

GS-3, 15 OHMS

207-6218-02

OEM CODE

02660

75042

75042

75042

37338

Page 2 of 94 207-6212-06

207-6280


C09

C10

C11

C12

C13

C14

C15

C16

C17

C18

C19

C20

C21

C22

C01

C02

C03

C04

C05

C06

C07

C08

FWD/REFLD Power Probe PWBAssy (Basic)

Capacitor, Mica, Dipped, 9100pF 2% 500V





Not Used

Not Used

Not Used

Not Used

Not Used

Not Used

Not Used

Capacitor, Ceramic, 0.1uF 10%100V









Capacitor, Ceramic, 1.0uF 100V

NAUTEL #

-

-

-

-

CCG07

CCG07

CCG07

CCG07

CCG07

CCG07

CCG07

CCG07

CCG07

CAP16

CB06

CB06

CB06

-

-

-

CB06

CB06

C23

C24

C25

C26

L01

L02

R01

R02

R03

R04

CR01

CR02

J01

J02

J03

Capacitor, Tantalum, Dipped, 10uF, 35V


Capacitor, Ceramic, 1.0uF 100V

Capacitor, Tantalum, Dipped, 10uF, 35V

Not Used

Not Used

Conn, BNC, Recept, Rt Angle, PWB Mt


Conn, Socket, D-Sub, 9 pin, PWB Mt

Inductor, Choke, 2.5 Turns, JMtl






CCP36

CCG07

CAP16

CCP36

-

-

JS21

JS21

JQ34

LA16

LA16

RBP05

RBP05

RBP05

RBP05


CM07FD912G03

CM07FD912G03

CM07FD912G03

CM07FD912G03

CM07FD912G03

NOT USED

NOT USED

NOT USED

NOT USED

NOT USED

NOT USED

NOT USED

CKR06BX104KRV

CKR06BX104KRV

CKR06BX104KRV

CKR06BX104KRV

CKR06BX104KRV

CKR06BX104KRV

CKR06BX104KRV

CKR06BX104KRV

CKR06BX104KRV

56289

56289

56289

56289

56289

RPE114Z5U105M100V

T351G106K035AT(Ro

HS) KEMET

CKR06BX104KRV

91929

96095

56289

RPE114Z5U105M100V

T351G106K035AT(Ro

HS) KEMET

NOT USED

91929

96095

37338

NOT USED 37338

R141665161

R141665161

K22-E9S-NJ

82-152-J

82-152-J

GS-3, 47 OHMS

GS-3, 47 OHMS

GS-3, 47 OHMS

GS-3, 47 OHMS

0GP12

0GP12

KYCON

33062

33062

75042

75042

75042

75042

14655

14655

14655

14655

14655

37338

37338

37338

37338

37338

37338

37338

56289

56289

56289

56289

Page 3 of 94 207-6280

207-6280


R18

R19

R20

S01

U01

U02

R13

R14

R15

R16

R17

R05

R06

R07

R08

R09

R10

R11

R12

Continued from previous page

FWD/REFLD Power Probe PWBAssy (Basic)

Resistor, Film, 100 Ohms, 5%2W

Resistor, Film, 220 Ohms, 5%,2W

Resistor, Film, 330 Ohms, 2PC1/2W


Resistor, Film, 1000 Ohms, 2PC 1/2W

Resistor, Film, 2200 Ohms, 2PC 1/2W


Installed at Next Higher Assy

Resistor, MF, 1.50K Ohms, 1PC1/4W

Resistor, MF, 562 Ohms, 1PC 1/4W





Not Used


Switch, 8-Position, Piano, DIP, 1PST

IC,Amplifier,35MHz,CurrentFeedback,1.1A

IC,Amplifier,35MHz,CurrentFeedback,1.1A

NAUTEL #

RBP07

RK31

RAP07

RC35

RAP09

RC41

RC33

+

RAB27

RAB22

RBP05

RC33

+

RAB27

-

RBP05

SD28

UT88

UT88


GS-3, 100 OHMS

GS-3, 220 OHMS

RL20S331G DALE

75042

75042

35005

RL20S681G

RL20S102G

35005

35005

RL20S222G

RL20S471G

35005

35005

INSTALLED AT NEXT

HIGHER ASSY

MF1/4DL1501F

MF1/4DL5620F

37338

59124

59124

GS-3, 47 OHMS

RL20S471G

75042

35005

INSTALLED AT NEXT

HIGHER ASSY

MF1/4DL1501F

37338

59124

NOT USED

GS-3, 47 OHMS

37338

75042

76PSB08 81073

LT1210CT7(STATIC) 64155

LT1210CT7(STATIC) 64155

207-6280-03 NX25 FWD/REFLD Power ProbePWB Assy

REFDES DESCRIPTION NAUTEL # VENDOR #

R12

R17

Resistor, Film, 10 Ohms, 2%1/2W

Resistor, Film, 10 Ohms, 2%1/2W

RAP01

RAP01

RL20S100G

RL20S100G

OEM CODE

35005

35005

207-7055-04 25/50KW Rectifier Assy


A01 AC Power Indicator Assy, NXSeries 207-7144

VENDOR #

207-7144

OEM CODE

37338

Page 4 of 94 207-7055-04

207-7129


C01

Capacitor Assy - NX25

Capacitor,Elect.,10,000uf,450Vdc

NAUTEL #

CT54

C02

C03

K01

R01

R02

R03

R07

U08

U09



Discharge Relay Assy

Resistor,Cap Discharge,27Komhs5%,13W



Resistor, Wirewound, HL, 50 ohms/350W/5% c/w mt fixture

Rect/Assy, Bridge, 800V, 35A

Rect/Assy, Bridge, 800V, 35A

CT54

CT54

207-8611-01

RC44

RC44

RC44

RX53

UF28

UF28

NAUTEL #

ZAP37


3186GN103T450MPA1

3186GN103T450MPA1

3186GN103T450MPA1

207-8611-01

14655

14655

14655

37338

UP10SR-27K-J 4TKQ5

UP10SR-27K-J

UP10SR-27K-J

4TKQ5

4TKQ5

DQR-F 350W 50 ohms

GBPC3508

GBPC3508

LITEON

LITEON

207-7144


DS01

DS02

DS03

E01

E02

J01

J01

P01

P01

AC Power Indicator Assy, NXSeries

LED, Pilot Light, Amber, 230Vac



Connector, Quick-Dis, M,1/4 Tab, 14-16 AWG

Conn,Quick-Dis,F,1/4 Tab 14-16Shrink

Conn, Mate-N-Lok, Cap, 4,600V/36A, .250" Centerline

Conn, Contact, Socket, 18-14,Mate-N-Lock

Conn, Mate-N-Lok, Plug, 2,600V/36A, .250" Centerline

Conn, Contact, Pin,18-14MATE-N-LOK

NAUTEL #

BAP44

BAP44

BAP44

HAM60

HAM69

JT115

JT46

JT116

JT66

VENDOR #

LEDTECA220AC

LEDTECA220AC

LEDTECA220AC

3-520107-2

B-106-3632

1-480703-0(RoHS)

350919-3

1-480702-0(RoHS)

350918-3

OEM CODE

09482

06090

L2433

00779

L2433

00779

207-8133


B01

Fan Tray Assy

Fan,6.75"x2',[email protected], Tach

B02

J01

J01

Fan,6.75"x2',[email protected], Tach

Conn, Plug, D-Sub, 9 pin

Conn, Lock Screw, D-Sub, Female

ZAP37

JR28

JS32


109E5748C503(RoHS)

SANYO DENKI

AMERICA INC

109E5748C503(RoHS)

SANYO DENKI

AMERICA INC

205204-1

D110551

3CYG3

3CYG3

09482

71468

Page 5 of 94 207-8133

207-8288-01 Fuse and MOV Assy


F01

F02

U01

U02

U03

XF01

Fuse, 15A, 500Vdc, Non Time Delay KLM

Fuse, 15A, 500Vdc, Non Time Delay KLM

Varistor, Therm Prot, 50Ka8/20us, 420Vac/560Vdc



Fuseblock, 2-Pole, 30A, 600V

NAUTEL #

FA35

FA35

QAP53

QAP53

QAP53

FD02

VENDOR #

KLM-15

KLM-15

420TPMOV(RoHS)

420TPMOV(RoHS)

420TPMOV(RoHS)

BM6032SQ

OEM CODE

71400

71400

3WC3G

3WC3G

3WC3G

71400

Page 6 of 94 207-8288-01

207-8564


P05

P06

P07

P08

P09

P10

P11

P12

P13

P14

P15

P16

P17

E01

E02

E03

E04

P01

P02

P03

P04

P26

P27

P28

P29

P30

P31

P32

P33

P33

P18

P19

P20

P21

P22

P23

P24

P25

Cableform, Main, NX25

Lug, Crimp, Joint, Butt,16-14 AWG, Blue

Lug, Crimp, Joint, Butt,16-14 AWG, Blue



Conn, Socket, D-Sub, 9 pin





Conn, Plug, D-Sub, 25 pin, HDP-20



Conn, Socket, D-Sub, HDP-20, 25 pin



Connector,Plug,2 P,Socket,66A,600V, 10.16mm

Connector,Plug,2 P,Socket,66A,600V, 10.16mm



Conn,Socket,4-Pin,24-28 AWG


Not Used

Not Used

Not Used

Not Used

Not Used

Conn, Coax, BNC, Plug, 50ohm,Crimp


Conn, HRS, DF11, 2mm, DualSocket 6, Crimp

Conn, HRS, DF11, 2mm, DualSocket 6, Crimp


Conn, Coax, BNC, Plug, 50ohm,Clamp

Not Used

Conn, Recept, Mini-Fit dualrow, 4-pin



Conn, 2mm, Housing 2, PH Series, White

Conn, Term, PH Series, Crimp,24-30 AWG

NAUTEL #

JR27

JR39

JR39

JR39

JR38

JR28

JR38

JT94

JT94

JR38

JR27

JT53

JR27

HAR29

HAR29

HAM69

HAM69

JR27

JR27

JR27

JR27

JU56

JR28

-

JDP25

JP59

JDP24

JDP24

JU63

JU64

-

-

-

-

-

JDP24

JDP24

JU56

P34

Page 7 of 94

Conn, ferrule, 8mm, non insul, for 22AWG

207-8564

JQ64

VENDOR #

320562

320562

B-106-3632

B-106-3632

205203-1

205203-1

205203-1

205203-1

205203-1

205208-1

205208-1

205208-1

205207-1

205204-1

205207-1

1967375

1967375

205207-1

205203-1

22-50-3045

205203-1

NOT USED

NOT USED

NOT USED

NOT USED

NOT USED

225395-7

225395-7

DF11-6DS-2C

DF11-6DS-2C

205204-1

69475

NOT USED

39-01-2045

225395-7

225395-7

PHR-2(RoHS)

SPH-002T-

P0.5S(RoHS)

F75-8-M

OEM CODE

09482

09482

06090

06090

09482

09482

09482

09482

09482

09482

09482

09482

09482

09482

09482

PHOENIX

PHOENIX

09482

09482

27264

09482

37338

37338

37338

37338

37338

09482

09482

0AG18

0AG18

09482

02660

37338

MOLEX

09482

09482


207-8564


P34

W61

W62

W63

W64

W65

W66

W67

W69

W70

Cableform, Main, NX25

Plug, Mini, 8-pole,Screw Clamp

Cable, Cat5e, SuperFlat, 7feet Blk, Shld




Cable 6ft, 18AWG, Plug Ø 2.1mm/5.5mm

Cable, 6 ft.,9-pin D-Sub,M/F,Straight-Through

Cable, 6 ft.,9-pin D-Sub,M/F,Straight-Through

RS232 Cable 2Ft, DB25(M) toDB25(F)

RS232 Cable 2Ft, DB25(M) toDB25(F)

NAUTEL #

JU33

UA107

UA107

UA107

UA107

UB75

UA82

UA82

JN49

JN49

207-8578


W21

W22

W23

W24

W25

W26

W27

W28

W29

W30

Cableform, RF NX25


Not Used


Not Used


Not Used


Not Used


Not Used

NAUTEL #

-

UA107

-

UA107

-

UA107

UA107

-

-

UA107

VENDOR #

AKZ1550/8

Cat5e-sf-7-shld

Cat5e-sf-7-shld

Cat5e-sf-7-shld

Cat5e-sf-7-shld

310-920

MXT100

MXT100

45-0358-0000

45-0358-0000

VENDOR #

Cat5e-sf-7-shld

NOT USED

Cat5e-sf-7-shld

NOT USED

Cat5e-sf-7-shld

NOT USED

Cat5e-sf-7-shld

NOT USED

Cat5e-sf-7-shld

NOT USED

OEM CODE

0DV12

L3845

3USB5

3USB5

48862

48862

OEM CODE

37338

37338

37338

37338

37338

Page 8 of 94 207-8578

207-8579


W09

W10

W11

W12

W13

W14

W15

W16

W17

W18

W19

W20

W01

W02

W03

W04

W05

W06

W07

W08

Cableform, PDM NX25

Not Used

Cable, Cat5e, SuperFlat, 3feetGray

Not Used


Not Used


Not Used


Not Used


Not Used


Not Used


Not Used


Not Used


Not Used


NAUTEL #

-

UA110

-

UA111

-

UA111

-

UA111

-

UA111

-

UA110

-

-

UA110

-

UA110

-

UA110

UA111

207-8611-01 Discharge Relay Assy


K01 Relay, 12KV, NC, 180V, AUX SW, Ext Range KC76

207-8708-01 Door Computer


B01

U01

U02

Fan, 1RU, Celeron M. FCPGA,1.6C/W

Motherboard, EPIC, 825GM,479 FSB400, 12V

IC, CPU, Pentium M, FCPGA

U03

U04

U05

IC, Memory,1GB, 64B, DDR400,SODIM

Not Used

Memory, Compact Flash Card,4GB

VENDOR #

NOT USED

Cat5e-sf-3-gray

NOT USED

Cat5e-sf-3-gray

NOT USED

Cat5e-sf-3-gray

NOT USED

Cat5e-sf-2-gray

NOT USED

Cat5e-sf-3-gray

NOT USED

Cat5e-sf-2-gray

NOT USED

Cat5e-sf-2-gray

NOT USED

Cat5e-sf-2-gray

NOT USED

Cat5e-sf-2-gray

NOT USED

Cat5e-sf-3-gray

VENDOR #

E12-NC-12-1T-181-

NAU

OEM CODE

OEM CODE

37338

37338

37338

37338

37338

37338

37338

37338

37338

37338

NAUTEL #

ZAP31

UB66

UB80

UB68

-

UB76


I31G

NANO-8522G-R10

SAW84

SAW84

RH80536GC0292M(St atic)

79942

KVR400X64SC3A/1G OP2J5

NOT USED

SDCFH-4096-

901(Static) Sandisk

Corporation

37338

03LB0

Page 9 of 94 207-8708-01

NAE96A


A01

A02

A03

A04

A05

Control/Exciter Panel Assy. NXseries

Control/Interface PWB Assy

Digital AM Exciter PWB Assy


Remote Interface PWB Assy

See Sales Order

NAUTEL #

NAPC154C

NAPE78

NAPE78

NAPI106

%

A06

A07

A08

A09

A10

See Sales Order

See Sales Order

See Sales Order

See Sales Order

VSWR Protection PWB

%

%

%

%

NAPV03

VENDOR #

207-3020-03

207-3050

207-3050

207-3040

% SEE SALES

ORDER

% SEE SALES

ORDER

% SEE SALES

ORDER

% SEE SALES

ORDER

% SEE SALES

ORDER

207-6270

NAFP106/02


A01

C01

T01

Directional Coupler (FWD/REFLPWR) for NX25

NX25 FWD/REFLD Power ProbePWB Assy

Capacitor, Ceramic, 50pF +10%15000V

Transformer Current Assy

NAUTEL #

207-6280-03

CCG42

149-6052-05


207-6280-03 37338

T500K99COGW8570 56699

149-6052-05 37338

NAH60


A01

A02

A03

Back Plane, RF Combiner - (<-- TOP)

Power Module Interface PWB

Transformer Assy

Transformer Assy

NAUTEL #

NAPI95/02

207-1045

207-1045-01

VENDOR #

207-1040-02

207-1045

207-1045-01

OEM CODE

37338

37338

37338

OEM CODE

37338

37338

37338

37338

37338

37338

37338

37338

37338

37338

Page 10 of 94 NAH60

NAP36B


A01

Q07

RF Power Module Assy,NX Series

Modulator/Power Amplifier PWBAssy

Transistor, FET, N Channel, 500V, 0.05ohm fast

NAUTEL #

NAPA19A

QR68

Q08

Q09

Q10

R01




Thermistor,-30/105ºC,10Kohms@25ºC,Neg,Bvalue

3435K

QR68

QR68

QR68

RX49


207-1050-01 37338

APT50m50JFLL(Static)




EC2F103A2-07U002

Page 11 of 94 NAP36B

NAPA19A


C001

C002


Cap,SMT,Ceramic,0.1uF,10%,50V,X7R,0805

Cap,SMT,Ceramic,1uF,10%,100V,X7R,1210

NAUTEL #

CCFS07

CCFS60

C010

C011

C012

C013

C014

C015

C016

C017

C018

C019

C003

C004

C005

C006

C007

C008

C009

C020

C021

C022

C023

C024

C025

C026

C027

C028

C029

C030

C031

C032

C033

C034

C035

C036

Not Used

Not Used

Not Used



Not Used


Not Used





Not Used

Not Used

Not Used



Not Used

Not Used


Not Used

Not Used



Not Used


Not Used

Not Used


Not Used


Not Used


Not Used -

-

-

-

CCFS07

-

CCFS07

CCFS60

-

CCFS07

CCFS07

-

-

CCFS07

CCFS07

-

CCFS07

CCFS60

-

-

CCFS07

-

-

CCFS60

CCFS07

-

CCFS60

-

-

-

CCFS07

CCFS60

-

CCFS60


C0805C104K5RAC

12101C105KAT2A(RO

HS)

NOT USED

31433

AVX CORP

37338

NOT USED

NOT USED

C0805C104K5RAC

C0805C104K5RAC

NOT USED

37338

37338

31433

31433

37338

AVX CORP 12101C105KAT2A(RO

HS)

NOT USED

C0805C104K5RAC

C0805C104K5RAC

37338

31433

31433

C0805C104K5RAC

C0805C104K5RAC

NOT USED

NOT USED

31433

31433

37338

37338

NOT USED

C0805C104K5RAC

37338

31433

12101C105KAT2A(RO

HS)

NOT USED

AVX CORP

37338

NOT USED

C0805C104K5RAC

NOT USED

NOT USED

37338

31433

37338

37338

12101C105KAT2A(RO

HS)

C0805C104K5RAC

AVX CORP

31433

NOT USED

12101C105KAT2A(RO

HS)

NOT USED

NOT USED

C0805C104K5RAC

NOT USED

37338

AVX CORP

37338

37338

31433

37338

12101C105KAT2A(RO

HS)

NOT USED

AVX CORP

37338


HS)

NOT USED 37338

Page 12 of 94 NAPA19A


C040

C041

C042

C043

C044

C045

C046

C047

C048

C049

C050

C058

C059

C060

C061

C062

C063

C064

C065

C051

C052

C053

C054

C055

C056

C057

NAPA19A


C037

C038

C039



Not Used


NAUTEL #

CCFS07

-

CCFS60

C066

C067

C068

C069

C070

C071

C072

Capacitor,Polyprop,0.15uF,5%,600V


Not Used

Not Used


Not Used

Not Used

Not Used

Not Used




Not Used

Not Used

Not Used


Not Used







Not Used

Not Used









-

CP31

CP31

-

-

-

CCFS07

-

-

CCFS07

CCFS60

-

-

-

CP31

-

CP31

CCFS60

CCFS07

CCFS01

CCFS01

-

-

CCFS07

CCFS07

CCFS60

CCFS07

CCFS60

CCFS07

CCFS07

CCFS60

CCFS60

CCFS07


C0805C104K5RAC

NOT USED

12101C105KAT2A(RO

HS)

715P15456MA3

715P15456MA3

NOT USED

31433

37338

AVX CORP

49588

49588

37338

NOT USED

C0805C104K5RAC

NOT USED

NOT USED

37338

31433

37338

37338

NOT USED

NOT USED

C0805C104K5RAC

12101C105KAT2A(RO

HS)

715P15456MA3

NOT USED

37338

37338

31433

AVX CORP

NOT USED

NOT USED

715P15456MA3

NOT USED

49588

37338

37338

37338

49588

37338

12101C105KAT2A(RO

HS)

C0805C104K5RAC

AVX CORP

31433

C0603C102K5RAC

C0603C102K5RAC

C0805C104K5RAC

C0805C104K5RAC

31433

31433

31433

31433

NOT USED

NOT USED

12101C105KAT2A(RO

HS)

C0805C104K5RAC

12101C105KAT2A(RO

HS)

C0805C104K5RAC

37338

37338

AVX CORP

31433

AVX CORP

C0805C104K5RAC

12101C105KAT2A(RO

HS)

12101C105KAT2A(RO

HS)

C0805C104K5RAC

31433

31433

AVX CORP

AVX CORP

31433



NAPA19A


C073



NAUTEL #

CCFS60

C074

C075

C076

C077

C078

C079

C080

C081

C082

C083

C084

C085

C086

C087

C088

C089

C090

C091

C092

C093

C094

C095

C096

C097

C098

C099

C100

C101

C102

C103

C104












Cap,SMT,Ceramic,18pF,2%,50V,C0G,0603




















CCFS60

CCFS07

CCFS60

CCFS60

CCFS07

CCFS60

CCFS07

CCFS60

CCFS07

CCFS07

CCFS07

CCFS23

CCFS07

CCFS23

CCFS07

CCFS07

CCFS07

CCFS01

CCFS07

CCFS07

CCFS07

CCFS60

CCFS07

CCFS07

CCFS60

CCFS60

CCFS60

CCFS07

CCFS60

CCFS60

CCFS60


12101C105KAT2A(RO

HS)

12101C105KAT2A(RO

HS)

C0805C104K5RAC

AVX CORP

AVX CORP

31433


HS)

12101C105KAT2A(RO

HS)

C0805C104K5RAC

12101C105KAT2A(RO

HS)

C0805C104K5RAC

12101C105KAT2A(RO

HS)

C0805C104K5RAC

C0805C104K5RAC

AVX CORP

31433

AVX CORP

31433

AVX CORP

31433

31433

C0805C104K5RAC

C0603C180G5GAC

C0805C104K5RAC

C0603C180G5GAC

31433

31433

31433

31433

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0603C102K5RAC

31433

31433

31433

31433

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

31433

31433

31433

12101C105KAT2A(RO

HS)

C0805C104K5RAC

AVX CORP

31433

C0805C104K5RAC

12101C105KAT2A(RO

HS)

12101C105KAT2A(RO

HS)

12101C105KAT2A(RO

HS)

C0805C104K5RAC

12101C105KAT2A(RO

HS)

12101C105KAT2A(RO

HS)

12101C105KAT2A(RO

HS)

31433

AVX CORP

AVX CORP

AVX CORP

31433

AVX CORP

AVX CORP

AVX CORP



NAPA19A


C105



NAUTEL #

CCFS60

C106

C107

C108

C109

C110

C111

C112

C113

C114

C115

C116

C117

C118

C119

C120

C121

C122

C123

C124

C125

C126

C127

C128

C129











Capacitor,SMT,0.054u,500V,NPO,5%,J-Lead,P38

Capacitor,SMT,0.054u,500V,NPO,5%,J-Lead,P38











CCFS07

CCFS60

CCFS60

CCFS07

CCFS60

CCFS60

CCFS60

CCFS60

CCFS60

CCFS60

CT55

CT55

CCFS60

CCFS60

CCFS60

CCFS60

CCFS60

CCFS60

CCFS60

CCFS60

CCFS60

CCFS60

-

CT57


12101C105KAT2A(RO

HS)

C0805C104K5RAC

12101C105KAT2A(RO

HS)

12101C105KAT2A(RO

HS)

C0805C104K5RAC

AVX CORP

31433

AVX CORP

AVX CORP

12101C105KAT2A(RO

HS)

12101C105KAT2A(RO

HS)

12101C105KAT2A(RO

HS)

12101C105KAT2A(RO

HS)

12101C105KAT2A(RO

HS)

12101C105KAT2A(RO

HS)

501P38N543JJ4

31433

AVX CORP

AVX CORP

AVX CORP

AVX CORP

AVX CORP

AVX CORP

07EN1

501P38N543JJ4

12101C105KAT2A(RO

HS)

12101C105KAT2A(RO

HS)

12101C105KAT2A(RO

HS)

12101C105KAT2A(RO

HS)

12101C105KAT2A(RO

HS)

12101C105KAT2A(RO

HS)

12101C105KAT2A(RO

HS)

12101C105KAT2A(RO

HS)

12101C105KAT2A(RO

HS)

12101C105KAT2A(RO

HS)

NOT USED

AVS337M25G24T

07EN1

AVX CORP

AVX CORP

AVX CORP

AVX CORP

AVX CORP

AVX CORP

AVX CORP

AVX CORP

AVX CORP

AVX CORP

37338

2D829

C130

C131

C132

C133

Not Used

Capacitor, SMT, Al Electroytic330uF, 25VDC,ESR

0.8ohm

Cap,SMT,Tantalum,10uF,10%,35V,2917



Capacitor, SMT, 0.47u, 630V,X7R, 20%, j-lead, MLCC

CTFS03

CTFS03

CTFS03

CT58

T494D106K035AS

T494D106K035AS

T494D106K035AS

CKG57NX7R2J474M(

RoHS)

31433

31433

31433



NAPA19A


C134


Capacitor, SMT, 0.47u, 630V,X7R, 20%, j-lead, MLCC

NAUTEL #

CT58

C135

C136

C137

C138

C139

C140

C141

C142

C143

C144

C145

C146

C147

CR01

CR02

CR03

CR04

CR05

CR06

CR07

CR08

CR09

CR10

CR11

CR12

CR13

CR14

CR15

CR16

CR17

CR18

CR19







Not Used

Not Used

Not Used





Diode,SMT,Fast Switching,80V,0.5A SOD-323

Not Used

Not Used

Not Used




Not Used

Diode, SMT, Ultrafast 1200V,12A, D2PAK


Diode,SMT,Zener,5.1V,5%,3W,SMB








Diode,Schottky,600V,10A,SIC

CCFS07

CCFS60

CCFS07

CCFS60

-

-

CCFS07

CCFS07

-

CTFS03

CTFS03

CTFS03

CTFS03

QM55

-

-

-

QM55

QM55

QM55

-

QM72

QM55

QDZS01

QDZS01

QM55

QM55

QDZS01

QM55

QDZS01

QM55

QK50


CKG57NX7R2J474M(

RoHS)

C0805C104K5RAC

12101C105KAT2A(RO

HS)

C0805C104K5RAC

12101C105KAT2A(RO

HS)

C0805C104K5RAC

C0805C104K5RAC

NOT USED

NOT USED

NOT USED

T494D106K035AS

31433

AVX CORP

31433

AVX CORP

31433

31433

37338

37338

T494D106K035AS

T494D106K035AS

T494D106K035AS

37338

31433

31433

31433

31433

12060 1N4448HWS-7-

F(STATIC)(ROHS)

NOT USED

NOT USED

NOT USED

37338

37338

37338

1N4448HWS-7-

F(STATIC)(ROHS)

1N4448HWS-7-

F(STATIC)(ROHS)

1N4448HWS-7-

F(STATIC)(ROHS)

NOT USED

12060

12060

12060

37338

STTH1212G(RoHS) 4QN91

1N4448HWS-7-

F(STATIC)(ROHS)

1SMB5918BT3

12060

04713

1SMB5918BT3

1N4448HWS-7-

F(STATIC)(ROHS)

1N4448HWS-7-

F(STATIC)(ROHS)

1SMB5918BT3

1N4448HWS-7-

F(STATIC)(ROHS)

1SMB5918BT3

04713

12060

12060

04713

12060

04713

1N4448HWS-7-

F(STATIC)(ROHS)

12060

CSD10060A(STATIC) CREE INC



NAPA19A


CR20

CR21

CR22

CR23

CR24

CR25

CR26

CR27




Not Used

Not Used

Not Used

Not Used

Not Used


NAUTEL #

QK50

-

QK50

-

-

-

-

QM55

CR28

CR29

CR30

CR31

CR32

CR33

CR34

CR35

CR36

CR37

DS01

F01

J01

J02

L01

L02

L03

L04

L05

L06

L07

L08

L09

L10


Diode,SMT,Ultrafast,200V,1A,SMB

Diode, TVS, 12V, 600W peakpulse Bi-Directional, SMB

Not Used

Not Used



Not Used

Not Used


Diode,SMT,LED,Bicolor,Red/Green,1210

Fuse,SMT,Fuse Block,3A VeryFast Acting,Installed

Conn, Jack, RJ45, PWB Mount

Conn, Header,Square Post,Gold,Dual,40-pin

Choke,SMT,Common Mode,2200 ohm,200mA,1206




Inductor, SMT, Choke, 600ohms,2A, 0805

Inductor,SMT,Pwr,Shielded DrumCore,P1167series,

2A, 10.0uH




Inductor Assy,

QM55

QM47

QI51

-

-

QI51

QI51

-

-

QI51

QDLS04

FA46

JM44

JF47

LS22

LS22

LS22

LS22

LCFS01

LS16

LCFS01

LS22

LS22

207-1053-03




NOT USED 37338

NOT USED

NOT USED

NOT USED

NOT USED

1N4448HWS-7-

F(STATIC)(ROHS)

1N4448HWS-7-

F(STATIC)(ROHS)

MURS120T3

P6SMB12CA(Static)(R oHS)

NOT USED

NOT USED



NOT USED

NOT USED


597-7701-

507(STATIC)

154 003(ROHS)

556591-1

37338

37338

37338

37338

12060

12060

04713

75915

37338

37338

75915

75915

37338

37338

75915

83330

75915

09482

09482

3EH09

4-102973-0

DLW31SN222SQ2L(R

OHS)

DLW31SN222SQ2L(R

OHS)

DLW31SN222SQ2L(R

OHS)

DLW31SN222SQ2L(R

OHS)

ILHB0805RK601V

P1167.103

3EH09

3EH09

3EH09

56845

01961

ILHB0805RK601V

DLW31SN222SQ2L(R

OHS)

DLW31SN222SQ2L(R

OHS)

207-1053-03

56845

3EH09

3EH09

37338



NAPA19A


L11

L12

L13

L14

L15

Q01

Q02

Q03

Q04

Q05

Q06

Q07


Inductor Assy,

Inductor Assy

Inductor Assy

Inductor Assy

Bead, Ferrite, 3.5mm, B Mtl

Transistor,SMT,MOSFET,N-Channel,100V,1.5A,SOT-

223


223


223


223


223


223


NAUTEL #

207-1053-03

207-1053-01

207-1053-01

207-1053-01

LXP20

QS25

QS25

QS25

QS25

QS25

QS25

+

Q08

Q09

Q10

R003

R004

R005

R006

R007

R008

R009

Q11

Q12

Q13

Q14

Q15

Q16

R001

R002

R010

R011

R012

R013




Transistor,FET,N,500V,0.1 Ohm



Not Used

Not Used

Not Used

Resistor,SMT,MF,475ohms,1%,1/10W,0603

Resistor, SMT, MF, 82.5 Ohms,1% 1/4W





Resistor,SMT,MF,10.0Kohms,1%,1/10W,0603







+

+

+

QR56

QR56

-

QR56

-

-

RFFS34

RAD12

RAD12

RFFS34

RAD12

RAD12

RFFS50

RFFS50

RFFS50

RFFS34

RFFS34

RFFS34

RFFS34


207-1053-03

207-1053-01

207-1053-01

37338

37338

37338

207-1053-01

21-030-B

37338

33062

IRLL110PbF(STATIC)(

ROHS)

IRLL110PbF(STATIC)(

ROHS)

59993

59993

IRLL110PbF(STATIC)(

ROHS)

IRLL110PbF(STATIC)(

ROHS)

IRLL110PbF(STATIC)(

ROHS)

IRLL110PbF(STATIC)(

ROHS)

INSTALLED AT NEXT

HIGHER ASSY

59993

59993

59993

59993

37338

INSTALLED AT NEXT

HIGHER ASSY

INSTALLED AT NEXT

HIGHER ASSY

37338

37338

INSTALLED AT NEXT

HIGHER ASSY

37338

STW26NM50(STATIC) 0G343



NOT USED 37338

NOT USED

NOT USED

37338

37338

RK73H1JLTD4750F 59124

RK73H2BL82R5F 59124

RK73H2BL82R5F 59124

RK73H1JLTD4750F 59124

RK73H2BL82R5F

RK73H2BL82R5F

59124

59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD4750F 59124

RK73H1JLTD4750F 59124

RK73H1JLTD4750F 59124

RK73H1JLTD4750F 59124



NAPA19A


R022

R023

R024

R025

R026

R027

R028

R029

R030

R031

R032

R033

R034

R014

R015

R016

R017

R018

R019

R020

R021

R043

R044

R045

R046

R047

R048

R049

R050

R051

R052

R035

R036

R037

R038

R039

R040

R041

R042


Resistor, SMT, MF, 221 Ohms,1% 1/4W












Not Used

Not Used

Not Used

Not Used

Resistor,SMT,MF,0.0ohms,Jumper,0603

Not Used


Not Used


Not Used


Not Used

Not Used

Resistor,SMT,MF,10ohms,1%,2W












Resistor, SMT, MF, 1.0M Ohms,1% 1/4W


NAUTEL #

-

-

-

-

RAD12

RAD12

RAD25

RFFS56

-

RFFS01

-

RFFS50

RFFS50

RAD17

RAD17

RAD12

RAD12

RFFS34

RFFS34

RFFS56

RFFS56

RAD25

RAD25

RAD25

RAD14

RAD14

RFFS44

RFFS44

RFFS44

RAE13

RAE13

-

-

-

RFFS50

RAD49

RAD50

RAD50

RAD50


RK73H2BL2210F

RK73H2BL2210F

RK73H2BL82R5F

59124

59124

59124

RK73H2BL82R5F 59124

RK73H1JLTD4750F 59124

RK73H1JLTD4750F 59124

RK73H1JLTD3322F 59124

RK73H1JLTD3322F 59124

RK73H2BL82R5F

RK73H2BL82R5F

59124

59124

RK73H2BL1001F 59124

RK73H1JLTD3322F 59124

NOT USED

NOT USED

NOT USED

NOT USED

37338

37338

37338

37338

RK73Z1JLTD

NOT USED

59124

37338

RK73H1JLTD1002F 59124

NOT USED 37338

RK73H1JLTD1002F 59124

NOT USED 37338

RK73H1JLTD1002F 59124

NOT USED

NOT USED

37338

37338

CR2512-2W-10R0F

CR2512-2W-20R0F

CR2512-2W-20R0F

CR2512-2W-20R0F

VENKEL

VENKEL

VENKEL

VENKEL

RK73H2BL1001F

RK73H2BL1001F

RK73H2BL1001F

RK73H2BL1210F

59124

59124

59124

59124

RK73H2BL1210F 59124

RK73H1JLTD3321F 59124

RK73H1JLTD3321F 59124

RK73H1JLTD3321F 59124

RK73H2BL1004F 59124

RK73H2BL1004F 59124



NAPA19A


R061

R062

R063

R064

R065

R066

R067

R068

R069

R070

R071

R072

R073

R053

R054

R055

R056

R057

R058

R059

R060

R082

R083

R084

R085

R086

R087

R088

R089

R090

R091

R074

R075

R076

R077

R078

R079

R080

R081



Resistor,SMT,MF,100Kohms,1%,1/10W,0603












Resistor,SMT,MF,28.7 KOhms,1%,1/10W,0603












Resistor,SMT,MF,22.1ohms,1%,1/10W,0603


Not Used











Resistor, SMT, 2740 Ohms, 1%, 1W, 2512

NAUTEL #

RFFS50

RFFS50

RAE13

RFFS50

RFFS50

RFFS83

RAE13

RAE13

RFFS83

RAD50

RAD50

RFFS50

RFFS50

RAE13

RFFS62

RAD50

RAD50

RAE13

RAE13

RAE13

RFFS44

RFFS49

RFFS50

RFFS49

RFFS50

RFFS44

RFFS40

RFFS50

RFFS50

RFFS50

RAD67

RFFS62

RFFS62

RAD14

RAD25

RFFS18

RFFS50

-

RFFS50


RK73H2BL1004F 59124

RK73H1JLTD1003F 59124

CR2512-2W-20R0F VENKEL

CR2512-2W-20R0F

RK73H2BL1004F

VENKEL

59124

RK73H2BL1004F

RK73H2BL1004F

59124

59124

RK73H1JLTD3321F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H2BL1004F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JT2872F 59124

RK73H2BL1004F

RK73H2BL1004F

59124

59124

RK73H1JT2872F

CR2512-2W-20R0F

59124

VENKEL


RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1003F 59124

RK73H1JLTD1003F 59124

RK73H2BL1210F

RK73H2BL1001F

59124

59124

RK73H1JLTD22R1F 59124

RK73H1JLTD1002F 59124

NOT USED 37338

RK73H1JLTD1002F 59124

RK73H1JLTD8251F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD8251F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD3321F 59124

RK73H1JLTD1501F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

ERJ-1TNF2741U



NAPA19A


R100

R101

R102

R103

R104

R105

R106

R107

R108

R109

R110

R092

R093

R094

R095

R096

R097

R098

R099




















Resistor,SMT,Power,2.5 ohms,1%,5W

R111

R112

R113

R114

R115

R116

R117

R118

R119

R120

R121

R122

R123

R124

R125

R126

R127

R128









Not Used

Not Used

Not Used

Not Used

Not Used

Resistor, SMT, MF, 4750 Ohms,1%, 1/4W



Not Used

Not Used

RAD25

RAD25

RAD25

-

-

-

-

RAD25

-

-

-

RAD33

RAD33

RAD49

NAUTEL #

RAD12

RAD29

RFFS50

RAD12

RAD12

RFFS50

RFFS50

RAD50

RFFS50

RFFS50

RAD56

RFFS34

RFFS49

RAD14

RFFS50

RFFS34

RAD12

RFFS34

RFFS34

RAD56

RAD49

RAD56

RAD56


RK73H1JLTD4750F 59124

RK73H1JLTD8251F 59124

RK73H2BL1210F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD4750F 59124

RK73H2BL82R5F 59124

RK73H1JLTD4750F 59124

RK73H1JLTD4750F 59124

RK73H2BL82R5F

RK73H2BL2211F

59124

59124

RK73H1JLTD1002F 59124

RK73H2BL82R5F 59124

RK73H2BL82R5F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124


RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

1E4C5 HPC122R5

1%R(ROHS)

HPC122R5

1%R(ROHS)

CR2512-2W-10R0F

HPC122R5

1%R(ROHS)

HPC122R5

1%R(ROHS)

RK73H2BL1001F

1E4C5

VENKEL

1E4C5

1E4C5

59124

RK73H2BL1001F

RK73H2BL1001F

RK73H2BL1001F

NOT USED

NOT USED

NOT USED

NOT USED

59124

59124

59124

37338

37338

37338

37338

NOT USED

RK73H2BL4751F

RK73H2BL4751F

CR2512-2W-10R0F

NOT USED

NOT USED

37338

59124

59124

VENKEL

37338

37338



U10

U11

U12

U13

U14

U15

U16

U17

U02

U03

U04

U05

U06

U07

U08

U09

NAPA19A


R129

R130

R131

T01

T02

T03

T04

U01


Not Used


Not Used

Toroid, Ferrite, Uncoated,22.1mmOD




IC,SMT,Quad RS-422 Receiver,16-SOIC

NAUTEL #

-

-

RFFS01

LA39

LA39

LA39

LA39

UT91

U18

U19

U20

U21

U22

U23

U24

U25

U26

U27

U28

U29

Not Used

Not Used

Not Used

Not Used

Not Used

Not Used

Not Used

Not Used

Not Used

Not Used

IC,SMT,FET Driver,14A, Non-Inverting TO-263

Not Used



Not Used

Current Sensor, Hall, 50A,AC/DC, Bi Direc

IC, SMT, High Speed Comparator, SOIC-8

Not Used

IC,SMT,RS-485 Transceiver,Sgl,SOIC-8

IC,SMT,Opamp,Quad,Rail-To-Rail,SOIC-14

IC,SMT,Micro, ADC,PWM,TQFP-32,16k Flash



IC,SMT,Single,2 InputExclusive OR,SOT23-5L



IC,SMT,Voltage Regulator,5V,1A, D2PAK


-

-

-

UT97

-

UT97

UT97

UP103

-

-

-

-

-

-

-

-

-

UT70

UDTS03

ULAS02

UX95

UT97

UT97

UD64

UT97

UT91

UT93

UT97


NOT USED

RK73Z1JLTD

NOT USED

37338

59124

37338

B64290-A719-X49

B64290-A719-X49

C4751

C4751

B64290-A719-X49

B64290-A719-X49

C4751

C4751

DS26C32ATM(STATIC

)

NOT USED

NATIONAL

37338

NOT USED 37338

NOT USED

NOT USED

NOT USED

NOT USED

NOT USED

NOT USED

NOT USED

NOT USED

37338

37338

37338

37338

37338

37338

37338

37338

IXDD414YI(STATIC) 0A5K5

NOT USED 37338



NOT USED 37338

ACS756KCA-050B-

PFF-T(Static)(RoHS)

TL3016ID(STATIC)

NOT USED

01295

37338

DS36C278TM(STATIC) 27014

TLV2374ID(STATIC) 01295

ATMEGA 168-

20AI(STATIC)

1FN41



74V1G86STR(STATIC)

(ROHS)

SCE76


DS26C32ATM(STATIC

)

NATIONAL

L7805ABD2T-

TR(STATIC)(ROHS)

ST MICRO




NAPA19A

REFDES

U30

DESCRIPTION


IC, SMT, Delay Line, 5 Taps,20-100nS, SOIC8 (150mil)

NAUTEL #

UD81

VENDOR #

U31

U32

Y01

IC, SMT, 2-Input Logic, UHSUniv Config SC70-6


Crystal,SMT,Fund,Par Res,11.0592MHz

UD82

UD82

XFPS01

OEM CODE

DS1100Z-

100+(Static)(RoHS)

Dallas

0B0A9

NC7SZ57P6X(Static)(R oHS)

07933


07933

CMR309T11.0592MAB

JTR

3DX59


NAPC154C


C008

C009

C010

C011

C012

C013

C014

C015

C016

C017

C018

C019

C020

BT01

C001

C002

C003

C004

C005

C006

C007

C021

C022

C023

C024

C025

C026

C027

C028

C029

C030

C031

C032

C033


Battery, Lithium, 3V,20mm Coin Cell

Cap,SMT,Ceramic,1uF,10%,25V,,X7R,1206
































Cap, SMT, Ceramic,47uF,20%,6.3V, 1210

NAUTEL #

BBLT01

CCFS10

CCFS10

CCFS07

CCFS07

CTFS03

CCFS10

CCFS10

CCFS07

CCFS07

CCFS04

CCFS07

CCFS10

CCFS10

CCFS10

CCFS10

CCFS07

CCFS07

CCFS07

CCFS07

CCFS10

CCFS10

CCFS07

CCFS07

CCFS07

CCFS07

CCFS10

CCFS10

CCFS10

CCFS10

CCFS07

CCFS07

CCFS10

CCFS53

C034

C035

C036

C037

C038

Page 24 of 94


Not Used




NAPC154C

CCFS10

-

CCFS07

CCFS07

CCFS07


CR2032

C1206C105K3RAC

C1206C105K3RAC

C0805C104K5RAC

C0805C104K5RAC

T494D106K035AS

C1206C105K3RAC

C1206C105K3RAC

C0805C104K5RAC

C0805C104K5RAC

C0603C103K5RAC

C0805C104K5RAC

C1206C105K3RAC

C1206C105K3RAC

C1206C105K3RAC

C1206C105K3RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C1206C105K3RAC

C1206C105K3RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C1206C105K3RAC

C1206C105K3RAC

C1206C105K3RAC

C1206C105K3RAC

C0805C104K5RAC

C0805C104K5RAC

C1206C105K3RAC

C3225X5R0J476M(Ro

HS)

C1206C105K3RAC

NOT USED

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

31433

37338

31433

31433

31433

PANAS

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

56289


NAPC154C


C039

C040

C041





NAUTEL #

CCFS10

CCFS07

CCFS53

C070

C071

C072

C073

C074

C075

C076

C077

C062

C063

C064

C065

C066

C067

C068

C069

C049

C050

C051

C052

C053

C054

C055

C056

C042

C043

C044

C045

C046

C047

C048

C057

C058

C059

C060

C061

Page 25 of 94





Not Used

Not Used

Not Used


Not Used





Not Used

Cap,SMT,Ceramic,10uF,20%,6.3V,X5R,0805











Cap, SMT, Ceramic, 0.1uF, 10%25V X7R, 0603











NAPC154C

CCFS10

CCFS10

CCFS10

CCFS10

CCFS10

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS10

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

-

-

-

CCFS07

-

CCFS07

CCFS10

CCFS10

CCFS10

CCFS10

-

CCFS57

CCFS57

CCFS07

CCFS57

CCFS07

CCFS07


C1206C105K3RAC

C0805C104K5RAC

C3225X5R0J476M(Ro

HS)

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

NOT USED

NOT USED

NOT USED

C0805C104K5RAC

NOT USED

C1206C105K3RAC

C1206C105K3RAC

C1206C105K3RAC

C1206C105K3RAC

NOT USED

C2012X5R0J106M

C2012X5R0J106M

C0805C104K5RAC

C2012X5R0J106M

C0805C104K5RAC

C0805C104K5RAC

C1206C105K3RAC

C1206C105K3RAC

C1206C105K3RAC

C1206C105K3RAC

C1206C105K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C1206C105K3RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

31433

31433

56289

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

37338

37338

37338

31433

37338

31433

31433

31433

31433

37338

54583

54583

31433

54583

31433

31433


NAPC154C


C086

C087

C088

C089

C090

C091

C092

C093

C094

C095

C096

C097

C098

C078

C079

C080

C081

C082

C083

C084

C085

C107

C108

C109

C110

C111

C112

C113

C114

C115

C116

C099

C100

C101

C102

C103

C104

C105

C106









































NAUTEL #

CCFS07

CCFS07

CTFS03

CCFS57

CCFS07

CCFS52

CCFS52

CCFS52

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS10

CCFS07

CCFS04

CCFS57

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS10

CCFS57

CCFS10

CCFS07

CCFS10

CCFS07

CCFS07

CCFS07

CTFS03

CCFS10

CCFS10

CCFS10

CTFS03

CCFS07

CTFS03

CCFS07

CCFS10

Page 26 of 94 NAPC154C

OEM CODE

31433

31433

31433

54583

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

54583

31433

31433

31433

31433

31433

31433

54583

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

VENDOR #

C0805C104K5RAC

C0805C104K5RAC

T494D106K035AS

C2012X5R0J106M

C0805C104K5RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C1206C105K3RAC

C0805C104K5RAC

C0603C103K5RAC

C2012X5R0J106M

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C1206C105K3RAC

C2012X5R0J106M

C1206C105K3RAC

C0805C104K5RAC

C1206C105K3RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

T494D106K035AS

C1206C105K3RAC

C1206C105K3RAC

C1206C105K3RAC

T494D106K035AS

C0805C104K5RAC

T494D106K035AS

C0805C104K5RAC

C1206C105K3RAC


NAPC154C


C125

C126

C127

C128

C129

C130

C131

C132

C133

C134

C135

C136

C137

C117

C118

C119

C120

C121

C122

C123

C124

C146

C147

C148

C149

C150

C151

C152

C153

C154

C155

C138

C139

C140

C141

C142

C143

C144

C145
































Not Used




Not Used




Not Used

NAUTEL #

CCFS01

CCFS10

CCFS07

CCFS10

CCFS07

CCFS07

CCFS10

CCFS07

CCFS10

CTFS03

CCFS07

CCFS07

CCFS01

CCFS01

CTFS03

CCFS07

CCFS01

CCFS01

CCFS07

CCFS07

CCFS10

CTFS03

CCFS07

CCFS10

CCFS10

CCFS01

CCFS07

CCFS07

CCFS07

-

CCFS04

CCFS04

CCFS04

-

-

CCFS57

CCFS04

CCFS07

CCFS04


OEM CODE

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

37338

31433

31433

54583

37338

31433

31433

31433

37338

VENDOR #

C0603C102K5RAC

C1206C105K3RAC

C0805C104K5RAC

C1206C105K3RAC

C0805C104K5RAC

C0805C104K5RAC

C1206C105K3RAC

C0805C104K5RAC

C1206C105K3RAC

T494D106K035AS

C0805C104K5RAC

C0805C104K5RAC

C0603C102K5RAC

C0603C102K5RAC

T494D106K035AS

C0805C104K5RAC

C0603C102K5RAC

C0603C102K5RAC

C0805C104K5RAC

C0805C104K5RAC

C1206C105K3RAC

T494D106K035AS

C0805C104K5RAC

C1206C105K3RAC

C1206C105K3RAC

C0603C102K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0603C103K5RAC

NOT USED

C0603C103K5RAC

C0603C103K5RAC

C2012X5R0J106M

NOT USED

C0603C103K5RAC

C0805C104K5RAC

C0603C103K5RAC

NOT USED


NAPC154C


C164

C165

C166

C167

C168

C169

C170

C171

C172

C173

C174

C175

C176

C156

C157

C158

C159

C160

C161

C162

C163

C185

C186

C187

C188

C189

C190

C191

C192

C193

C194

C177

C178

C179

C180

C181

C182

C183

C184






Not Used



































NAUTEL #

CCFS10

CCFS07

CCFS07

-

CCFS04

CCFS10

CCFS10

CCFS07

CCFS04

CCFS07

CCFS10

CCFS57

CCFS07

CCFS04

CCFS07

CCFS23

CCFS23

CTFS03

CTFS03

CCFS04

CCFS07

CCFS07

CCFS07

CCFS07

CCFS04

CTFS03

CCFS04

CCFS04

CCFS07

CCFS04

CCFS07

CCFS34

CCFS34

CCFS07

CCFS07

CCFS04

CCFS07

CCFS07

CCFS07


OEM CODE

31433

31433

31433

31433

37338

31433

31433

31433

31433

31433

31433

54583

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

VENDOR #

C1206C105K3RAC

C0805C104K5RAC

C0805C104K5RAC

C0603C103K5RAC

NOT USED

C1206C105K3RAC

C1206C105K3RAC

C0805C104K5RAC

C0603C103K5RAC

C0805C104K5RAC

C1206C105K3RAC

C2012X5R0J106M

C0805C104K5RAC

C0603C103K5RAC

C0805C104K5RAC

C0603C180G5GAC

C0603C180G5GAC

T494D106K035AS

T494D106K035AS

C0603C103K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0603C103K5RAC

T494D106K035AS

C0603C103K5RAC

C0603C103K5RAC

C0805C104K5RAC

C0603C103K5RAC

C0805C104K5RAC

C0603C221G5GAC

C0603C221G5GAC

C0805C104K5RAC

C0805C104K5RAC

C0603C103K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC


NAPC154C


C203

C204

C205

C206

C207

C208

C209

C210

C211

C212

C213

C214

C215

C195

C196

C197

C198

C199

C200

C201

C202

C224

C225

C226

C227

C228

C229

C230

C231

C232

C233

C216

C217

C218

C219

C220

C221

C222

C223









































NAUTEL #

CCFS04

CCFS04

CCFS57

CCFS07

CCFS10

CCFS10

CCFS10

CCFS07

CCFS07

CCFS01

CCFS07

CCFS07

CCFS04

CCFS07

CCFS07

CTFS03

CCFS04

CTFS03

CCFS07

CCFS10

CCFS04

CCFS07

CCFS07

CCFS04

CCFS04

CCFS07

CCFS04

CCFS10

CCFS07

CCFS07

CCFS07

CCFS10

CCFS10

CTFS03

CCFS07

CCFS07

CCFS07

CCFS07

CCFS01


OEM CODE

31433

31433

54583

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

VENDOR #

C0603C103K5RAC

C0603C103K5RAC

C2012X5R0J106M

C0805C104K5RAC

C1206C105K3RAC

C1206C105K3RAC

C1206C105K3RAC

C0805C104K5RAC

C0805C104K5RAC

C0603C102K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0603C103K5RAC

C0805C104K5RAC

C0805C104K5RAC

T494D106K035AS

C0603C103K5RAC

T494D106K035AS

C0805C104K5RAC

C1206C105K3RAC

C0603C103K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0603C103K5RAC

C0603C103K5RAC

C0805C104K5RAC

C0603C103K5RAC

C1206C105K3RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C1206C105K3RAC

C1206C105K3RAC

T494D106K035AS

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0603C102K5RAC


NAPC154C


C242

C243

C244

C245

C246

C247

C248

C249

C250

C251

C252

C253

C254

C234

C235

C236

C237

C238

C239

C240

C241

C263

C264

C265

C266

C267

C268

C269

C270

C271

C272

C255

C256

C257

C258

C259

C260

C261

C262









































NAUTEL #

CCFS57

CCFS04

CCFS07

CCFS04

CCFS04

CCFS07

CCFS57

CCFS04

CCFS04

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS10

CCFS07

CCFS07

CCFS04

CCFS04

CCFS07

CCFS04

CCFS10

CCFS04

CCFS04

CCFS04

CCFS04

CCFS04

CCFS04

CCFS04

CCFS04

CCFS04

CCFS04

CCFS04

CCFS04

CCFS04

CCFS04

CCFS04

CCFS04

CCFS04


OEM CODE

54583

31433

31433

31433

31433

31433

54583

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

VENDOR #

C2012X5R0J106M

C0603C103K5RAC

C0805C104K5RAC

C0603C103K5RAC

C0603C103K5RAC

C0805C104K5RAC

C2012X5R0J106M

C0603C103K5RAC

C0603C103K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C1206C105K3RAC

C0805C104K5RAC

C0805C104K5RAC

C0603C103K5RAC

C0603C103K5RAC

C0805C104K5RAC

C0603C103K5RAC

C1206C105K3RAC

C0603C103K5RAC

C0603C103K5RAC

C0603C103K5RAC

C0603C103K5RAC

C0603C103K5RAC

C0603C103K5RAC

C0603C103K5RAC

C0603C103K5RAC

C0603C103K5RAC

C0603C103K5RAC

C0603C103K5RAC

C0603C103K5RAC

C0603C103K5RAC

C0603C103K5RAC

C0603C103K5RAC

C0603C103K5RAC

C0603C103K5RAC


NAPC154C


C281

C282

C283

C284

C285

C286

C287

C288

C289

C290

C291

C292

C293

C273

C274

C275

C276

C277

C278

C279

C280

C302

C303

C304

C305

C306

C307

C308

C309

C310

C311

C294

C295

C296

C297

C298

C299

C300

C301



























Not Used

Not Used

Not Used


Not Used










NAUTEL #

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS10

CCFS07

CCFS10

CCFS07

CCFS07

-

-

-

CCFS07

-

CCFS07

CCFS10

CCFS07

CCFS07

CCFS07

CCFS07

CCFS04

CCFS57

CCFS07


OEM CODE

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

37338

37338

37338

31433

37338

31433

31433

31433

31433

31433

31433

31433

54583

31433

VENDOR #

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C1206C105K3RAC

C0805C104K5RAC

C1206C105K3RAC

C0805C104K5RAC

C0805C104K5RAC

NOT USED

NOT USED

NOT USED

C0805C104K5RAC

NOT USED

C0805C104K5RAC

C1206C105K3RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0603C103K5RAC

C2012X5R0J106M

C0805C104K5RAC


NAPC154C


CR02

CR03

CR04

CR05

CR06

CR07

CR08

CR09

CR10

CR11

CR12

CR13

CR14

C312

C313

C314

C315

C316

C317

C318

CR01

CR23

CR24

CR25

CR26

CR27

CR28

CR29

CR30

CR31

CR32

CR15

CR16

CR17

CR18

CR19

CR20

CR21

CR22









Diode,SMT,Switching,250V,0.2A,SOD-323









Diode,SMT,Schottky,30V,0.2A,SOD-323





Diode,SMT,Zener,39V,5%,3W,SMB


















NAUTEL #

CCFS01

CCFS03

CTFS03

CCFS07

CCFS57

CCFS07

CCFS07

QDRS01

QDRS01

QDRS01

QDRS01

QDRS01

QDRS01

QDRS01

QDRS01

QDRS01

QDSS01

QDSS01

QDSS01

QDSS01

QDRS01

QDZS04

QDRS01

QDRS01

QDRS01

QDRS01

QDRS01

QDSS01

QDSS01

QDRS01

QDRS01

QDRS01

QDRS01

QDRS01

QDRS01

QDRS01

QDRS01

QDZS04

QDZS04



C0603C102K5RAC

C0603C472K5RAC

T494D106K035AS

31433

31433

31433

C0805C104K5RAC

C2012X5R0J106M

31433

54583

C0805C104K5RAC

C0805C104K5RAC

31433

31433

BAS21HT1(STATIC) 04713









BAT54HT1(STATIC) 04713





1SMB5939BT3 04713
















1SMB5939BT3 04713

1SMB5939BT3 04713


DS02

DS03

DS04

DS05

DS06

J02

J03

J04

J05

E01

E02

E03

J01

NAPC154C


CR41

CR42

CR43

CR44

CR45

CR46

CR47

CR48

CR49

CR50

CR51

CR52

CR53

CR54

DS01

CR33

CR34

CR35

CR36

CR37

CR38

CR39

CR40



















Not Used

Not Used

Not Used

Not Used

Not Used

Diode, SMT, LED, Green,(560nm), 0603

NAUTEL #

QDZS04

QDRS01

QDRS01

QDRS01

QDRS01

QDRS01

QDRS01

QDRS01

QDRS01

QDRS01

QDRS01

QDRS01

QDRS01

QDRS01

QDRS01

QDRS01

-

-

-

-

QDRS01

-

QDLS01






Conn, Post Shunt, 2 Pos, .10 Centreline



Conn, Plug, D-Sub, 25 pin, PWB Mt



Conn, Plug, D-Sub, 9 pin, PWBMt

Connector,Modular,Dual,RJ-45Jack Rt Agl, PWB

QDLS01

QDLS01

QDLS01

QDLS01

QDLS01

JQ15

JQ15

JQ15

JS12

JQ34

JQ34

JQ33

JT77



1SMB5939BT3 04713

















NOT USED 37338

NOT USED

NOT USED

NOT USED

37338

37338

37338

NOT USED

597-5312-

402F(STATIC)(RoHS)

597-5312-

402F(STATIC)(RoHS)

597-5312-

402F(STATIC)(RoHS)

597-5312-

402F(STATIC)(RoHS)

597-5312-

402F(STATIC)(RoHS)

597-5312-

402F(STATIC)(RoHS)

390088-2

390088-2

390088-2

K22-B25P-NJ

K22-E9S-NJ

K22-E9S-NJ

K22-E9P-NJ

569381-1

37338

83330

83330

83330

83330

83330

83330

09482

09482

09482

63590

KYCON

KYCON

31781

09482


L10

L11

L12

L13

L14

NAPC154C


J18

J19

J20

J21

J14

J15

J16

J17

J22

J23

J24

J25

J26

L04

L05

L06

L07

L08

J27

L01

L02

L03

J06

J07

J08

J09

J10

J11

J12

J13


Terminal Block,8-pos,PWB Mount,90 Deg

Conn, BNC, Recept, 50ohm,Insul, Rt Angle



Conn,3-Pin,Receptacle,RightAngle,Gold




Connector,Modular,2x4,RJ45,Jack







Conn, Header, Ribbon Cbl, 10-Pin

Connector, Dual, D-Sub, F/F,25 pin, Rt. Angle, PWB





Connector, Dual, D-Sub, F/F,9 pin, Rt. Angle, PWB









NAUTEL #

JT90

JT90

JS13

JS12

JS13

JS12

JM44

JQ54

JT98

JS13

JS12

JF47

JF47

JT99

LA16

LA16

LA16

LA16

LA16

LA16

LA16

LS22

JR53

JT61

JT61

JT61

JN51

JN51

JN51

JQ34

L09 Choke,SMT,Common Mode,2200 ohm,200mA,1206 LS22






LS22

LS22

LS22

LS22

LA16



1803332(ROHS)

227161-6

227161-6

227161-6

NC3FD-H-B

NC3FD-H-B

NC3FD-H-B

K22-E9S-NJ

PHOENIX

09482

09482

09482

0FMA6

0FMA6

0FMA6

KYCON

569262-1 AMP/TYCO

569262-1 AMP/TYCO

K22-B25S-NJ

K22-B25P-NJ

22421

63590

K22-B25S-NJ

K22-B25P-NJ

556591-1

103308-1

22421

63590

09482

00779

2-1734285-3(RoHS) 09482

K22-B25S-NJ 22421

K22-B25P-NJ

4-102973-0

4-102973-0

63590

09482

09482

1734285-3(RoHS)

82-152-J

82-152-J

82-152-J

82-152-J

82-152-J

82-152-J

82-152-J

DLW31SN222SQ2L(R

OHS)

DLW31SN222SQ2L(R

OHS)

DLW31SN222SQ2L(R

OHS)

DLW31SN222SQ2L(R

OHS)

DLW31SN222SQ2L(R

OHS)

DLW31SN222SQ2L(R

OHS)

82-152-J

09482

33062

33062

33062

33062

33062

33062

33062

3EH09

3EH09

3EH09

3EH09

3EH09

3EH09

33062


NAPC154C


L15

L16

L17

L18

LS01

Q01






Alarm, Audio Piezoelectric,Sonalert

Transistor,SMT,NPN,Switch/Amp,SOT-23

NAUTEL #

LCFS01

LCFS01

LCFS01

LA16

LP30

QBNS01

R009

R010

R011

R012

R013

R014

R015

R016

R017

R001

R002

R003

R004

R005

R006

R007

R008

R026

R027

R028

R029

R030

R031

R032

R033

R018

R019

R020

R021

R022

R023

R024

R025

Page 35 of 94




Not Used

Resistor, SMT, MF, 121K Ohms,1% 1/4W











Not Used

Not Used


Not Used

Not Used




Not Used

Not Used

Not Used

Not Used


Not Used


Not Used


Not Used

NAPC154C

RFFS38

RFFS26

RFFS36

RFFS38

RFFS37

RFFS36

-

-

RFFS38

RFFS26

RFFS26

-

RFFS26

RAE02

RAE02

RAE02

RAE02

-

-

-

RFFS01

-

RFFS01

-

RFFS50

-

RFFS46

-

RFFS26

-

-

RFFS50

RFFS01


ILHB0805RK601V

ILHB0805RK601V

ILHB0805RK601V

56845

56845

56845

82-152-J

MSR516N

33062

90201

MMBT4401LT1(STATI

C)

04713

RK73H1JLTD1000F 59124

RK73H1JLTD1000F 59124

RK73H1JLTD1000F 59124

NOT USED 37338

RK73H2BL1213F

RK73H2BL1213F

59124

59124

RK73H2BL1213F

RK73H2BL1213F

59124

59124

RK73H1JLTD1001F 59124

RK73H1JLTD1000F 59124

RK73H1JLTD6810F 59124

RK73H1JLTD1001F 59124

RK73H1JLTD8250F 59124

RK73H1JLTD6810F 59124

RK73H1JLTD1001F 59124

NOT USED 37338

NOT USED 37338

RK73H1JLTD4751F 59124

NOT USED 37338

NOT USED 37338

RK73H1JLTD1000F 59124

RK73H1JLTD1002F 59124

RK73Z1JLTD 59124

NOT USED

NOT USED

37338

37338

NOT USED

NOT USED

RK73Z1JLTD

NOT USED

37338

37338

59124

37338

RK73Z1JLTD

NOT USED

59124

37338

RK73H1JLTD1002F 59124

NOT USED 37338


NAPC154C


R042

R043

R044

R045

R046

R047

R048

R049

R050

R051

R052

R053

R054

R034

R035

R036

R037

R038

R039

R040

R041

R063

R064

R065

R066

R067

R068

R069

R070

R071

R072

R055

R056

R057

R058

R059

R060

R061

R062













Not Used



Resistor,SMT,MF,1.00Mohms,1%,1/10W,0603

























NAUTEL #

RFFS38

RFFS38

-

RFFS01

RFFS50

RFFS50

RFFS74

RFFS38

RFFS38

RFFS74

RFFS38

RFFS38

RFFS74

RFFS14

RFFS38

RFFS38

RFFS38

RFFS38

RFFS38

RFFS38

RFFS38

RFFS74

RFFS38

RFFS38

RAE02

RAE02

RFFS01

RFFS01

RFFS01

RFFS01

RFFS50

RFFS38

RFFS38

RFFS01

RAE02

RAE02

RFFS74

RFFS74

RFFS74




RK73H1JLTD1001F 59124

RK73H1JLTD1001F 59124

RK73H1JLTD1001F 59124

RK73H1JLTD1001F 59124

RK73H1JLTD1001F 59124

RK73H1JLTD1001F 59124

RK73H1JLTD1001F 59124

RK73H1JLTD1001F 59124

RK73H1JLTD1001F 59124

RK73Z1JLTD

NOT USED

59124

37338

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1004F 59124

RK73H1JLTD1001F 59124

RK73H1JLTD1001F 59124

RK73H1JLTD1004F 59124

RK73H1JLTD1001F 59124

RK73H1JLTD1001F 59124

RK73H1JLTD1004F 59124

RK73H1JLTD1001F 59124

RK73H1JLTD1001F 59124

RK73Z1JLTD

RK73H2BL1213F

59124

59124

RK73H2BL1213F 59124

RK73H1JLTD1004F 59124

RK73H1JLTD1004F 59124

RK73H1JLTD1004F 59124

RK73H1JLTD1004F 59124

RK73H1JLTD1001F 59124

RK73H1JLTD1001F 59124

RK73H2BL1213F 59124

RK73H2BL1213F

RK73Z1JLTD

RK73Z1JLTD

RK73Z1JLTD

RK73Z1JLTD

59124

59124

59124

59124

59124

RK73H1JLTD1002F 59124


NAPC154C


R081

R082

R083

R084

R085

R086

R087

R088

R089

R090

R091

R092

R093

R073

R074

R075

R076

R077

R078

R079

R080

R102

R103

R104

R105

R106

R107

R108

R109

R110

R111

R094

R095

R096

R097

R098

R099

R100

R101






Not Used




















Not Used




Not Used



Resistor,SMT,49.9 Ohms, 1%




Not Used

Not Used


Not Used

NAUTEL #

RFFS50

RFFS38

RFFS36

RFFS26

RFFS01

RFFS46

RFFS46

RFFS36

RFFS46

RFFS38

RFFS50

RFFS50

RFFS46

RFFS50

RFFS74

RFFS38

-

RFFS74

RFFS26

RFFS26

RFFS26

RFFS38

RFFS46

RT20

RT20

-

RFFS26

RFFS38

-

-

RFFS11

RFFS34

RFFS31

-

RFFS38

RFFS26

RFFS22

-

RFFS26



RK73H1JLTD1002F 59124

RK73H1JLTD1004F 59124

RK73H1JLTD1001F 59124

RK73H1JLTD1004F 59124

NOT USED 37338

RK73H1JLTD1000F 59124

RK73H1JLTD1000F 59124

RK73H1JLTD1000F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1001F 59124

RK73H1JLTD6810F 59124

RK73H1JLTD1000F 59124

RK73Z1JLTD 59124

RK73H1JLTD4751F 59124

RK73H1JLTD4751F 59124

RK73H1JLTD6810F 59124

RK73H1JLTD4751F 59124

RK73H1JLTD1001F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD4751F 59124

RK73H1JLTD4750F 59124

RK73H1JLTD2740F 59124

RK73H1JLTD1001F 59124

NOT USED 37338

RK73H1JLTD1000F 59124


RK73H1JLTD1000F 59124

NOT USED 37338

RK73H1JLTD1001F 59124

RK73H1JLTD4751F 59124

RK73H2ET49R9F

RK73H2ET49R9F

59124

59124

RK73H1JLTD1000F 59124

RK73H1JLTD1001F 59124

NOT USED

NOT USED

37338

37338


NOT USED 37338


NAPC154C


R120

R121

R122

R123

R124

R125

R126

R127

R128

R129

R130

R131

R132

R112

R113

R114

R115

R116

R117

R118

R119

R141

R142

R143

R144

R145

R146

R147

R148

R149

R150

R133

R134

R135

R136

R137

R138

R139

R140


Not Used

Not Used








Not Used






















Not Used








NAUTEL #

-

RFFS50

RFFS11

RFFS38

RFFS11

RT20

RT20

RT20

RT20

RFFS26

RFFS26

RFFS26

RFFS11

-

-

RFFS37

RFFS11

RFFS11

RFFS11

RAD50

RAD49

RFFS26

RFFS38

-

RFFS11

RFFS11

RFFS11

RFFS26

RAD13

RAD13

RFFS38

RFFS11

RFFS11

RT20

RT20

RT20

RT20

RFFS50

RFFS50



NOT USED 37338

NOT USED 37338

RK73H1JLTD8250F 59124






RK73H1JLTD1002F 59124

NOT USED 37338


RK73H1JLTD1001F 59124


RK73H2ET49R9F 59124

RK73H2ET49R9F

RK73H2ET49R9F

59124

59124

RK73H2ET49R9F 59124

RK73H1JLTD1000F 59124

RK73H1JLTD1000F 59124

RK73H1JLTD1000F 59124




RK73H2ET49R9F

RK73H2ET49R9F

59124

59124

RK73H2ET49R9F

RK73H2ET49R9F

59124

59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1000F 59124

RK73H1JLTD1001F 59124

NOT USED 37338




RK73H1JLTD1000F 59124

RK73H2BL1000F 59124

RK73H2BL1000F 59124

RK73H1JLTD1001F 59124


NAPC154C


R159

R160

R161

R162

R163

R164

R165

R166

R167

R168

R169

R170

R171

R151

R152

R153

R154

R155

R156

R157

R158

R180

R181

R182

R183

R184

R185

R186

R187

R188

R189

R172

R173

R174

R175

R176

R177

R178

R179






Not Used



































NAUTEL #

RFFS50

RFFS50

RFFS50

RFFS50

RFFS50

RFFS50

RFFS50

RFFS50

RFFS50

RFFS27

RFFS39

RAD33

RFFS50

RT20

RT20

RFFS25

-

RFFS46

RFFS14

RFFS50

RFFS50

RFFS50

RFFS50

RFFS50

RFFS38

RFFS38

RFFS55

RFFS50

RFFS50

RFFS26

RFFS27

RFFS46

RFFS50

RFFS38

RFFS50

RFFS50

RFFS01

RFFS01

RFFS01



RK73H2ET49R9F 59124

RK73H2ET49R9F 59124


RK73H1JLTD4751F 59124

NOT USED 37338


RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1210F 59124

RK73H1JLTD1211F 59124

RK73H2BL4751F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD4751F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1001F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73Z1JLTD 59124

RK73Z1JLTD

RK73Z1JLTD

59124

59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1001F 59124

RK73H1JLTD1001F 59124

RK73H1JLTD2742F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1000F 59124

RK73H1JLTD1210F 59124


NAPC154C


R198

R199

R200

R201

R202

R203

R204

R205

R206

R207

R208

R209

R210

R190

R191

R192

R193

R194

R195

R196

R197

R219

R220

R221

R222

R223

R224

R225

R226

R227

R228

R211

R212

R213

R214

R215

R216

R217

R218





Resistor,SMT,150 Ohms,,1%,2W






Not Used





























Not Used

NAUTEL #

-

RFFS50

RFFS50

RFFS18

RAD26

RAD26

RFFS50

RFFS50

RFFS50

RFFS42

RFFS50

RFFS42

RFFS50

RFFS39

RAD13

RAD13

RAD55

RFFS14

RFFS18

RFFS18

RFFS50

RFFS50

RFFS28

RFFS38

RFFS26

-

RFFS50

RAD25

RFFS31

RFFS28

RFFS50

RFFS50

RFFS50

RFFS38

RFFS31

RFFS31

RFFS50

RFFS38

RFFS50



RK73H1JLTD1211F 59124

RK73H2BL1000F

RK73H2BL1000F

59124

59124

CR2512-2W-1500F 3EQW4




RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

NOT USED 37338

RK73H1JLTD1002F 59124


RK73H2BL1211F

RK73H2BL1211F

59124

59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD2211F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD2211F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1001F 59124

RK73H1JLTD2740F 59124

RK73H1JLTD2740F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1001F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1500F 59124

RK73H1JLTD1001F 59124

RK73H1JLTD1000F 59124

RK73H1JLTD1002F 59124

RK73H2BL1001F 59124

RK73H1JLTD2740F 59124

RK73H1JLTD1500F 59124

RK73H1JLTD1002F 59124

NOT USED 37338


NAPC154C


R237

R238

R239

R240

R241

R242

R243

R244

R245

R246

R247

R248

R249

R229

R230

R231

R232

R233

R234

R235

R236

R258

R259

R260

R261

R262

R263

R264

R265

R266

R267

R250

R251

R252

R253

R254

R255

R256

R257














Not Used



























NAUTEL #

RFFS50

RFFS38

RFFS50

RFFS50

-

RFFS50

RFFS50

RFFS50

RFFS50

RFFS28

RFFS38

RFFS36

RAD17

RAD25

RFFS38

RFFS28

RFFS50

RFFS44

RFFS50

RFFS28

RFFS38

RFFS50

RFFS50

RFFS50

RFFS50

RFFS14

RFFS14

RFFS14

RFFS14

RFFS50

RFFS50

RFFS36

RFFS50

RFFS28

RFFS50

RAD17

RFFS50

RFFS14

RFFS14



RK73H2BL1001F 59124

RK73H1JLTD1001F 59124

RK73H1JLTD1500F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD3321F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1500F 59124

RK73H1JLTD1001F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1001F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

NOT USED 37338

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1500F 59124

RK73H1JLTD1001F 59124

RK73H1JLTD6810F 59124

RK73H2BL2210F 59124

RK73H1JLTD6810F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1500F 59124

RK73H1JLTD1002F 59124

RK73H2BL2210F 59124

RK73H1JLTD1002F 59124



RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124





RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124


NAPC154C


R276

R277

R278

R279

R280

R281

R282

R283

R284

R285

R286

R287

R288

R268

R269

R270

R271

R272

R273

R274

R275

R297

R298

R299

R300

R301

R302

R303

R304

R305

R306

R289

R290

R291

R292

R293

R294

R295

R296









































NAUTEL #

RFFS50

RFFS50

RFFS50

RFFS46

RFFS46

RFFS46

RFFS46

RFFS46

RFFS46

RFFS46

RFFS46

RFFS46

RFFS46

RFFS14

RFFS14

RFFS50

RFFS50

RFFS50

RFFS50

RFFS50

RFFS50

RFFS50

RFFS50

RFFS50

RFFS50

RFFS50

RFFS50

RFFS50

RFFS50

RFFS50

RFFS50

RFFS46

RFFS46

RFFS46

RFFS46

RFFS46

RFFS46

RFFS50

RFFS50





RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD4751F 59124

RK73H1JLTD4751F 59124

RK73H1JLTD4751F 59124

RK73H1JLTD4751F 59124

RK73H1JLTD4751F 59124

RK73H1JLTD4751F 59124

RK73H1JLTD4751F 59124

RK73H1JLTD4751F 59124

RK73H1JLTD4751F 59124

RK73H1JLTD4751F 59124

RK73H1JLTD4751F 59124

RK73H1JLTD4751F 59124

RK73H1JLTD4751F 59124

RK73H1JLTD4751F 59124

RK73H1JLTD4751F 59124

RK73H1JLTD4751F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124


NAPC154C


R315

R316

R317

R318

R319

R320

R321

R322

R323

R324

R325

R326

R327

R307

R308

R309

R310

R311

R312

R313

R314

R336

R337

R338

R339

R340

R341

R342

R343

R344

R345

R328

R329

R330

R331

R332

R333

R334

R335









































NAUTEL #

RFFS50

RFFS50

RFFS14

RFFS14

RFFS14

RFFS14

RAD33

RAD33

RAD33

RAD33

RAD33

RAD33

RAD33

RFFS50

RFFS50

RFFS50

RFFS50

RFFS50

RFFS50

RFFS50

RFFS50

RAD33

RFFS15

RFFS15

RFFS15

RFFS15

RFFS15

RFFS15

RFFS15

RFFS15

RFFS15

RAD33

RAD33

RAD33

RAD33

RAD33

RAD33

RAD33

RAD33



RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124





RK73H2BL4751F

RK73H2BL4751F

59124

59124

RK73H2BL4751F

RK73H2BL4751F

RK73H2BL4751F

RK73H2BL4751F

RK73H2BL4751F

59124

59124

59124

59124

59124

RK73H2BL4751F

RK73H2BL4751F

RK73H2BL4751F

RK73H2BL4751F

RK73H2BL4751F

RK73H2BL4751F

RK73H2BL4751F

RK73H2BL4751F

59124

59124

59124

59124

59124

59124

59124

59124

RK73H2BL4751F 59124











NAPC154C


R354

R355

R356

R357

R358

R359

R360

R361

R362

R363

R364

R365

R366

R346

R347

R348

R349

R350

R351

R352

R353

R375

R376

R377

R378

R379

R380

R381

R382

R383

R384

R367

R368

R369

R370

R371

R372

R373

R374













Not Used

Not Used

Not Used

Not Used

Not Used

Not Used

Not Used

Not Used


Not Used

Not Used

Not Used


Not Used















NAUTEL #

-

-

-

-

RFFS14

RFFS14

-

RFFS14

-

-

-

-

RFFS01

RFFS15

RFFS15

RFFS15

RFFS15

RFFS15

RFFS15

RFFS15

RFFS14

RFFS26

RFFS26

RFFS26

RFFS26

RFFS26

RFFS26

RFFS50

RFFS44

RFFS60

RFFS48

-

-

-

RFFS01

RAD50

RFFS62

RFFS62

RFFS62














NOT USED 37338

NOT USED

NOT USED

NOT USED

NOT USED

37338

37338

37338

37338

NOT USED

NOT USED

NOT USED

RK73Z1JLTD

NOT USED

37338

37338

37338

59124

37338

NOT USED

NOT USED

RK73Z1JLTD

NOT USED

37338

37338

59124

37338


RK73H1JLTD1003F 59124

RK73H1JLTD1003F 59124

RK73H1JLTD1003F 59124

RK73H1JLTD1000F 59124

RK73H1JLTD1000F 59124

RK73H1JLTD1000F 59124

RK73H1JLTD1000F 59124

RK73H1JLTD1000F 59124

RK73H1JLTD1000F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD3321F 59124

RK73H1JLTD6812F 59124

RK73H1JLTD6811F 59124


TP08

TP12

TP13

TP14

TP15

TP16

NAPC154C


S01

S02

S03

S04

S05

R393

R394

R395

R396

R397

R398

RT01

RT02

T01

T02

T03

T04

T05

T06

T07

TP01

R385

R386

R387

R388

R389

R390

R391

R392


Not Used



Not Used


Not Used


Not Used

Not Used





Not Used

Thermistor, PTC, .15-.25 Ohms, 1.1A Hold


Switch,SMt,Mom.,1PSTNO




Switch, Slide, DPDT, ON, ON

Transformer,SMT,50 ohms,0.03to 125MHz


Transformer, Gate Drive, HighFreq

Not Used

Transmformer RF, 4:1, 0.03 to75 MHz, Gull Wing

Not Used

Transmformer RF, 4:1, 0.03 to75 MHz, Gull Wing

Terminal, SMT, Test Point, PWB

NAUTEL #

-

RFFS01

RFFS15

RFFS20

-

RFFS20

RT17

RT17

SA60

SA60

SA60

SA60

SD07

TZ88

TZ88

-

TZ74

-

TE22

TE22

HAJ66

-

RFFS01

RFFS01

-

RFFS01

-

-

RFFS01







HAJ66

HAJ66

HAJ66

HAJ66

HAJ66

HAJ66


NOT USED

RK73Z1JLTD

RK73Z1JLTD

NOT USED

RK73Z1JLTD

NOT USED

RK73Z1JLTD

NOT USED

37338

59124

59124

37338

59124

37338

59124

37338

NOT USED

RK73Z1JLTD

37338

59124




NOT USED 37338

RXE110

RXE110

06090

06090

MHS-222

ADT1-6T+(ROHS)

ADT1-6T+(ROHS)

95146

MINI-CIRC

MINI-CIRC

P0584

NOT USED

01961

37338

T16-6T-KK81+(RoHS) 15542

NOT USED 37338

T16-6T-KK81+(RoHS) 15542

TP-107-02-1-T(RoHS)

COMPONENTS CORP

TP-107-02-1-T(RoHS)

COMPONENTS CORP

TP-107-02-1-T(RoHS)

COMPONENTS CORP

TP-107-02-1-T(RoHS)

COMPONENTS CORP

TP-107-02-1-T(RoHS)

COMPONENTS CORP

TP-107-02-1-T(RoHS)

COMPONENTS CORP

TP-107-02-1-T(RoHS)

COMPONENTS CORP



NAPC154C


TP17



NAUTEL #

HAJ66

TP32

TP36

TP38

TP39

TP43

TP44

U01

U02

U03

U04

U05

U06







IC,SMT,RS-232 Transceiver,3.3V,SO-16

IC,SMT,Quad RS-422 DIFF LineDriver




IC,SMT,Optocoupler,High CMR &Speed Gull Wing

UD66

UD66

UD66

UD66

UD68

HAJ66

HAJ66

HAJ66

HAJ66

HAJ66

HAJ66

UDTS05

U07 IC,SMT,Optocoupler,High CMR &Speed Gull Wing

U08

U09

U10

U11

U12

IC,DC-DC Converter,3kV ISO,5V-5V,1W





U13

U14

U15




U16

U17



U18

U19

Page 46 of 94

Not Used

Not Used

NAPC154C

UD68

UT70

UD66

UD66

-

-

UD66

UD66

UT73

UD66

UD66

UD66

UD66


TP-107-02-1-T(RoHS)

COMPONENTS CORP

TP-107-02-1-T(RoHS)

COMPONENTS CORP

TP-107-02-1-T(RoHS)

COMPONENTS CORP

TP-107-02-1-T(RoHS)

COMPONENTS CORP

TP-107-02-1-T(RoHS)

COMPONENTS CORP

TP-107-02-1-T(RoHS)

COMPONENTS CORP

TP-107-02-1-T(RoHS)

COMPONENTS CORP

ADM3202ARN(STATIC

)

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

45496

NATIONAL

NATIONAL

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

6N137-

300E(STATIC)(ROHS)

AVAGO

TECHNOLOGIES

NATIONAL

NATIONAL

AVAGO

6N137-

300E(STATIC)(ROHS)

AVAGO

TECHNOLOGIES

AVAGO

NMV0505SA(STATIC) C&D

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

TL3016ID(STATIC)

NATIONAL

NATIONAL

NATIONAL

NATIONAL

01295

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

NOT USED

NATIONAL

NATIONAL

NATIONAL

NATIONAL

37338

NOT USED 37338


U35

U36

U37

U38

U39

U40

U41

U42

U43

U44

U28

U29

U30

U31

U32

U33

U34

NAPC154C


U20


IC,SMT,Quad 2-input AND gate,SO-14

NAUTEL #

UD70

U21

U22

U23

U24

U25

U26

U27

Not Used

IC,SMT,Quad 2 to 1 DATA Sel/Mux 3 States Outputs,5V

-

UD67

Not Used

IC,SMT,Quad 2 TO 1 DATA Sel/Mux 3 States

Output,3.3V


Output,3.3V

-

UW90

UW90

UW90 IC,SMT,Quad 2 TO 1 DATA Sel/Mux 3 States

Output,3.3V


Output,3.3V

Not Used

Not Used


IC,SMT,Comparator,Quad,SOIC-14




UW90

-

-

UDTS05

ULCS01

ULCS01

ULCS01

UD68

IC,DC-DC Converter,3kV ISO,5V-5V,1W



Output,3.3V

IC,SMT,Digital Pot,Quad,20K,TSSOP-24

IC,SMT,Linear Regulator,3A Adj,Q-5 DD


IC,SMT,OP-AMP,Dual,CurrentFeedback,SO-8




Output,3.3V

UT73

UD68

UW90

UX87

UX67

UD66

UD71

UT70

UT91

UW90


MC74ACT08D(STATIC

)

NOT USED

ON SEMI

37338

SN74HC257PW(STATI

C)(ROHS)

NOT USED

TEXAS

37338

NXP SEMI 74LVC257APW(STATI

C)(ROHS) NXP

SEMICONDUCTOR

74LVC257APW(STATI

C)(ROHS) NXP

SEMICONDUCTOR

74LVC257APW(STATI

C)(ROHS) NXP

SEMICONDUCTOR

74LVC257APW(STATI

C)(ROHS) NXP

SEMICONDUCTOR

NOT USED

NOT USED

NXP SEMI

NXP SEMI

NXP SEMI

37338

37338

ADM3202ARN(STATIC

)

MC3302D(STATIC)

45496

04713

MC3302D(STATIC)

MC3302D(STATIC)

04713

04713

6N137-

300E(STATIC)(ROHS)

AVAGO

TECHNOLOGIES

AVAGO

NMV0505SA(STATIC) C&D

6N137-

300E(STATIC)(ROHS)

AVAGO

TECHNOLOGIES

74LVC257APW(STATI

C)(ROHS) NXP

SEMICONDUCTOR

AVAGO

NXP SEMI

AD5263BRU20(STATI

C)

45496

LT1764AEQ(STATIC) 64155

DS26C31T/DS26C31M

(STATIC)

NATIONAL

OPA2691ID(STATIC) TEXAS

TL3016ID(STATIC) 01295

DS26C32ATM(STATIC

)

74LVC257APW(STATI

C)(ROHS) NXP

SEMICONDUCTOR

NATIONAL

NXP SEMI



U52

U53

U54

U55

U56

U57

U46

U47

U48

U49

U50

U51

NAPC154C


U45



Output,3.3V

NAUTEL #

UW90

IC,SMT,OP-AMP,Dual,CurrentFeedback,SO-8


IC,SMT,CMOS,Quad 2-Input NANDGate,SO-14

IC, SMT, Voltage Regulator,-5V, DPAK

IC,SMT,Trans Array, 7 Darl.,SOIC-16


Output,3.3V


IC,SMT,Dual Optocoupler,SOIC-8

IC,SMT,Ultrafast Single Supply Comparator,TSSOP

IC,SMT,Low Voltage Temp SensorSO-8


IC,SMT,Micro,256K Flash,5V,TQFP-100

UD71

UT91

UDLS10

UP70

UDAS01

UW90

UT91

UDOS01

UT83

UC62

ULAS02

UX100

U58

U59

U60

U61

IC,SMT,Op Amp,Audio,Dual,SO-8

IC, SMT, CMOS, Octal Latch,SOIC-20

IC,SMT,Real-Time Clock,SPI,SOIC-16

IC. CMOS, EEPROM, 32kx8, 2.7V-5V, 8SOIC

UP93

UDLS02

UDTS01

UW98

U62

U63

U64

U65

U66

U67

U68

U69

U70

U71

U72

Page 48 of 94

IC,SMT,Non-Volatile RAM Ctrlr,SOIC-8

IC, SMT, SRAM, 32Kx8, SOIC-28(Wide)

IC,SMT,Amp,35MHz,CurrentFeedback 1.1A,TO263-7


Output,3.3V

IC,SMT,Quad LVDS Rxcvr,3.3V,SOIC-16

IC,Variable Gain Amp,SMT,90MHz,SOIC-8

IC,SMT,DAC,8-Bit,4-ch,SPI,SOIC-14


IC,SMT,2.5V Reference,0.1%,SOT-23-6

IC,SMT,Opamp,Quad,Single Supply,SOIC-14


UDSS01

UDMS01

UT90

UW90

UX76

UT79

UMDS01

UDTS03

UX83

ULAS01

UMDS01

NAPC154C


74LVC257APW(STATI

C)(ROHS) NXP

SEMICONDUCTOR

NXP SEMI

OPA2691ID(STATIC) TEXAS

DS26C32ATM(STATIC

)

MM74HC00M(STATIC)

NATIONAL

07263

MC79M05BDT(STATIC

)

ON SEMI

MC1413BD(STATIC) 04713

74LVC257APW(STATI

C)(ROHS) NXP

SEMICONDUCTOR

NXP SEMI

DS26C32ATM(STATIC

)

NATIONAL

MOCD223-M(STATIC) 7D893

AD8561ARUZ(STATIC

)

TMP36FS(STATIC)

45496

ANALOG D


ATmega2560-

16AU(STATIC)(ROHS)

ATMEL

OP275GS(STATIC)

1FN41

45496

SN74AHC573DW(STA

TIC)

01295

M41T94MQ6(STATIC) U3040

AT25256AN-10SU-

2.7(Static)(RoHS)

ATMEL

DS1312S-2(STATIC) 0B0A9

CY62256LL-

70SNI(STATIC)

65786

LT1210CR(STATIC) 64155

74LVC257APW(STATI

C)(ROHS) NXP

SEMICONDUCTOR

DS90LV048ATM(STAT

IC)

AD603AR(STATIC)

NXP SEMI

27014

45496



LT1790BIS6-

2.5(STATIC)

64155

MC33074AD(STATIC) 04713



NAPC154C


U73


IC,SMT,Quad LVDS Rxcvr,3.3V,SOIC-16

NAUTEL #

UX76

U74

U75

U76

U77

U78

U86

U87

U88

U89

U90

U91

U92

U93

U94

U95

U79

U80

U81

U82

U83

U84

U85

U96

XBT1

XE01

XE02

XE03

Y01

Y02

IC,SMT,CMOS,8-Bit Shft Reg,Par I/P, SOIC-16

IC,SMT,CMOS,Quad Tri-State Buffer, SOIC-14


IC,SMT,CMOS,8-Bit Shft Reg,Par O/P, SOIC-16














Not Used

Not Used

Not Used

Not Used



Holder, 20mm Coin Cell, PWB Mt

Conn, Header, SIP,12 Pin Breakaway,.10 Ctr




Crystal,SMT,Fund,Par Res,32.768kHz

UDLS04

UDLS06

UDLS04

UDLS05

UDLS05

ULAS01

UDOS01

UDOS01

UDOS01

UDAS01

UDAS01

UDOS01

UDOS01

UDOS01

UDOS01

UDOS01

-

-

-

-

UDAS01

UD82

UD82

BBHT01

JQ16

JQ16

JQ16

XFPS01

XFPS02


DS90LV048ATM(STAT

IC)

27014

MC74HC165AD(STATI

C)

MC74HC125AD(STATI

C)

MC74HC165AD(STATI

C)

04713

04713

04713

MC74HC595AD(STATI

C)

04713

MC74HC595AD(STATI

C)

04713













NOT USED 37338

NOT USED

NOT USED

NOT USED

37338

37338

37338


07933


1065

07933

91833

1-103185-2

1-103185-2

1-103185-2

09482

09482

09482

CMR309T11.0592MAB

JTR

3DX59

MC20632.7680KA-A0 1JRT7


NAPE78


C009

C010

C011

C012

C013

C014

C015

C016

C017

C018

C019

C020

C021

C001

C002

C003

C004

C005

C006

C007

C008

C030

C031

C032

C033

C034

C035

C022

C023

C024

C025

C026

C027

C028

C029






Not Used





Not Used

Not Used












Not Used

Not Used

Not Used











NAUTEL #

CCFS24

CCFS32

CCFS32

-

CCFS24

CCFS04

CCFS01

CCFS52

-

CCFS52

-

CCFS04

CCFS10

CCFS52

CCFS48

CCFS04

CCFS10

CCFS32

CCFS57

CCFS04

CCFS04

-

-

-

CCFS52

CCFS52

CCFS52

CCFS10

CCFS10

CCFS04

CCFS04

CCFS52

CCFS52

CCFS52

CCFS53

C036

C037

C038




CCFS53

CCFS52

CCFS52

Page 50 of 94 NAPE78


C0603C220G5GAC

C0603C101G5GAC

C0603C101G5GAC

C0603C220G5GAC

NOT USED

C0603C103K5RAC

C0603C102K5RAC

C0603C104K3RAC

C0603C104K3RAC

NOT USED

NOT USED

C0603C103K5RAC

C1206C105K3RAC

C0603C104K3RAC

C1206C472G5GAC

C0603C103K5RAC

C1206C105K3RAC

C0603C101G5GAC

C2012X5R0J106M

C0603C103K5RAC

C0603C103K5RAC

C0603C104K3RAC

NOT USED

NOT USED

NOT USED

C0603C104K3RAC

C0603C104K3RAC

C1206C105K3RAC

C1206C105K3RAC

C0603C103K5RAC

C0603C103K5RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C3225X5R0J476M(Ro

HS)

C3225X5R0J476M(Ro

HS)

C0603C104K3RAC

C0603C104K3RAC

56289

31433

31433

31433

31433

31433

31433

37338

31433

31433

31433

31433

37338

37338

31433

31433

31433

31433

31433

31433

31433

54583

31433

31433

31433

37338

37338

37338

31433

31433

31433

31433

31433

31433

31433

31433

31433

56289


NAPE78


C039



NAUTEL #

CCFS53

C040

C041

C042

C043

C044

C045

C046

C047

C048

C049

C050

C051

C052

C053

C054

C055

C056

C057

C058

C059

C060

C061

C070

C071

C072

C073

C074

C075

C076

C077

C062

C063

C064

C065

C066

C067

C068

C069

Page 51 of 94








Not Used































NAPE78

CCFS52

CCFS04

CCFS52

CCFS04

CCFS04

CCFS52

CCFS03

-

CCFS06

CCFS34

CCFS03

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS32

CCFS32

CCFS42

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS42

CCFS42

CCFS42

CCFS52

CCFS23

CCFS10

CCFS52

CCFS52

CCFS42

CCFS10

CCFS32

CCFS32

CCFS23


C3225X5R0J476M(Ro

HS)

C0603C104K3RAC

C0603C103K5RAC

C0603C104K3RAC

C0603C103K5RAC

C0603C103K5RAC

C0603C104K3RAC

C0603C472K5RAC

NOT USED

C0603C473K5RAC

C0603C221G5GAC

C0603C472K5RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C101G5GAC

C0603C101G5GAC

C0805C102G5GAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0805C102G5GAC

C0805C102G5GAC

C0805C102G5GAC

C0603C104K3RAC

C0603C180G5GAC

C1206C105K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0805C102G5GAC

C1206C105K3RAC

C0603C101G5GAC

C0603C101G5GAC

C0603C180G5GAC

56289

31433

31433

31433

31433

31433

31433

31433

37338

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433


NAPE78


C086

C087

C088

C089

C090

C091

C092

C093

C094

C095

C096

C097

C098

C078

C079

C080

C081

C082

C083

C084

C085

C107

C108

C109

C110

C111

C112

C113

C114

C115

C116

C099

C100

C101

C102

C103

C104

C105

C106









































NAUTEL #

CCFS52

CCFS52

CCFS57

CCFS52

CCFS52

CCFS57

CCFS57

CCFS57

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS57

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52


OEM CODE

31433

31433

54583

31433

31433

54583

54583

54583

31433

31433

31433

31433

31433

54583

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

VENDOR #

C0603C104K3RAC

C0603C104K3RAC

C2012X5R0J106M

C0603C104K3RAC

C0603C104K3RAC

C2012X5R0J106M

C2012X5R0J106M

C2012X5R0J106M

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C2012X5R0J106M

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC


NAPE78


C125

C126

C127

C128

C129

C130

C131

C132

C133

C134

C135

C136

C137

C117

C118

C119

C120

C121

C122

C123

C124

C146

C147

C148

C149

C150

C151

C152

C153

C154

C155

C138

C139

C140

C141

C142

C143

C144

C145









































NAUTEL #

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS57

CCFS57

CCFS52

CCFS52

CCFS52

CCFS57

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS57

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS57

CCFS52

CCFS52

CCFS52

CCFS52


OEM CODE

31433

31433

31433

31433

31433

31433

54583

54583

31433

31433

31433

54583

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

54583

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

54583

31433

31433

31433

31433

VENDOR #

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C2012X5R0J106M

C2012X5R0J106M

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C2012X5R0J106M

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C2012X5R0J106M

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C2012X5R0J106M

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC


NAPE78


C164

C165

C166

C167

C168

C169

C170

C171

C172

C173

C174

C175

C176

C156

C157

C158

C159

C160

C161

C162

C163

C185

C186

C187

C188

C189

C190

C191

C192

C193

C194

C177

C178

C179

C180

C181

C182

C183

C184









































NAUTEL #

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS57

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS57

CCFS52

CCFS52

CCFS52

CCFS57

CCFS57


OEM CODE

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

54583

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

54583

31433

31433

31433

54583

54583

VENDOR #

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C2012X5R0J106M

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C2012X5R0J106M

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C2012X5R0J106M

C2012X5R0J106M


DS02

DS03

DS04

E01

J01

J02

J03

J04

J05

J06

NAPE78


C203

C204

C205

C206

C207

C208

C209

C210

C211

C212

C213

C214

C215

C216

C217

C218

C219

C220

DS01

C195

C196

C197

C198

C199

C200

C201

C202





























NAUTEL #

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS57

CCFS52

CCFS52

CCFS52

CCFS52

CCFS57

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS52

CCFS01

QDLS01







Conn, Socket, D-Sub, 9-Pin,Vertical PWB




QDLS01

QDLS01

QDLS01

JQ15

JS12

JS13

JS50

JQ16

JF47

JF47



C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C2012X5R0J106M

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C2012X5R0J106M

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

31433

31433

31433

31433

31433

31433

31433

31433

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

C0603C104K3RAC

31433

31433

31433

31433

C0603C102K5RAC

597-5312-

402F(STATIC)(RoHS)

597-5312-

402F(STATIC)(RoHS)

597-5312-

402F(STATIC)(RoHS)

597-5312-

402F(STATIC)(RoHS)

390088-2

31433

83330

83330

83330

83330

K22-B25P-NJ

K22-B25S-NJ

164A16669X

1-103185-2

4-102973-0

4-102973-0

09482

63590

22421

C3057

09482

09482

09482

31433

31433

31433

54583

31433

31433

31433

31433

54583

31433

31433

31433

31433


L03

L04

L05

L06

R14

R15

R16

R17

R18

R19

R06

R07

R08

R09

R10

R11

R12

R13

L15

L16

R01

R02

R03

R04

R05

L11

L12

L13

L14

L07

L08

L09

L10

NAPE78


J07

L01



Inductor,SMT,390uH,375mA,2520

NAUTEL #

JF47

LS21

L02 Inductor,SMT,560nH,325mA,2520 LS20



Inductor,SMT,560nH,325mA,2520


Not Used


Not Used



Inductor,SMT,Pwr,Shielded,P116 7 Series,3.5A,3.6uH





Resistor, SMT, 200ohm, 1%,1/10W, 0603


Not Used


Resistor, SMT, 200ohm, 1%,1/10W, 0603


Not Used


Not Used











LS21

LS21

LS20

LS21

-

RFFS50

-

RFFS31

RFFS64

RFFS42

RFFS59

RFFS28

RFFS28

RFFS28

RFFS28

RFFS02

RFFS18

RFFS26

-

LCFS01

-

LCFS01

LCFS01

LS17

LCFS01

LCFS01

LCFS01

LCFS01

RFFS87

RFFS38

-

RFFS34

RFFS87



4-102973-0

NLV25T-R39J-

PF(ROHS)

NLV25T-R56J-

PF(ROHS)

NLV25T-R39J-

PF(ROHS)

NLV25T-R39J-

PF(ROHS)

NLV25T-R56J-

PF(ROHS)

NLV25T-R39J-

PF(ROHS)

NOT USED

ILHB0805RK601V

09482

TDK

TDK

TDK

TDK

TDK

TDK

NOT USED

ILHB0805RK601V

ILHB0805RK601V

P1167.362

ILHB0805RK601V

ILHB0805RK601V

ILHB0805RK601V

ILHB0805RK601V

37338

56845

37338

56845

56845

01961

56845

56845

56845

56845

RK73H1JLTD2000F 59124

RK73H1JLTD1001F 59124

NOT USED 37338

RK73H1JLTD4750F 59124

RK73H1JLTD2000F 59124

RK73H1JLTD1002F 59124

NOT USED 37338

RK73H1JLTD2740F 59124

NOT USED 37338

RK73H1JLTD1503F 59124

RK73H1JLTD2211F 59124

RK73H1JLTD5622F 59124

RK73H1JLTD1500F 59124

RK73H1JLTD1500F 59124

RK73H1JLTD1500F 59124

RK73H1JLTD1500F 59124



RK73H1JLTD1000F 59124


NAPE78


R28

R29

R30

R31

R32

R33

R34

R35

R36

R37

R38

R39

R40

R20

R21

R22

R23

R24

R25

R26

R27

R49

R50

R51

R52

R53

R54

R55

R56

R57

R58

R41

R42

R43

R44

R45

R46

R47

R48



Resistor,SMT,MF,49.9R,1%,1/10W0603






Not Used

Not Used

Not Used















Not Used


Not Used

Not Used












NAUTEL #

-

-

RFFS27

RFFS26

RFFS33

RFFS59

RFFS02

RFFS02

RAE34

RFFS18

RAE34

RAE34

RAE34

RFFS02

RAE34

RFFS18

RAE34

RFFS18

-

RFFS14

RFFS38

RFFS31

RFFS83

RFFS30

RFFS50

RFFS26

RAE34

RAE34

RAE34

RFFS45

RFFS50

RFFS18

RFFS14

-

RAE34

-

RFFS38

-

RFFS34




RK73H1JT49R9F 59124


RK73H1JT49R9F 59124



RK73H1JLTD1001F 59124

NOT USED 37338

NOT USED

NOT USED

37338

37338

RK73H1JLTD1210F 59124

RK73H1JLTD1000F 59124

RK73H1JLTD3920F 59124

RK73H1JLTD5622F 59124



RK73H1JT49R9F 59124


RK73H1JT49R9F

RK73H1JT49R9F

RK73H1JT49R9F

59124

59124

59124



RK73H1JT49R9F

NOT USED

59124

37338

RK73H1JLTD1001F 59124

NOT USED 37338

NOT USED 37338

RK73H1JLTD4750F 59124

RK73H1JLTD2740F 59124

RK73H1JT2872F 59124

RK73H1JLTD2210F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1000F 59124

RK73H1JT49R9F 59124

RK73H1JT49R9F

RK73H1JT49R9F

59124

59124

RK73H1JLTD3921F 59124

RK73H1JLTD1002F 59124


NAPE78


R67

R68

R69

R70

R71

R72

R73

R74

R75

R76

R77

R78

R79

R59

R60

R61

R62

R63

R64

R65

R66

R88

R89

R90

R91

R92

R93

R94

R95

R96

R97

R80

R81

R82

R83

R84

R85

R86

R87









































NAUTEL #

RFFS50

RFFS31

RFFS35

RFFS50

RFFS50

RFFS39

RFFS40

RFFS38

RFFS50

RFFS38

RFFS50

RFFS50

RFFS50

RFFS50

RFFS50

RFFS50

RFFS50

RFFS50

RFFS50

RFFS50

RFFS50

RFFS45

RFFS51

RFFS50

RFFS50

RFFS50

RFFS50

RFFS50

RFFS50

RFFS50

RFFS18

RFFS50

RFFS18

RFFS50

RFFS50

RFFS50

RFFS50

RFFS18

RFFS45



RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD2740F 59124

RK73H1JLTD5620F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1211F 59124

RK73H1JLTD1501F 59124

RK73H1JLTD1001F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1001F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124


RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124


RK73H1JLTD3921F 59124

RK73H1JLTD3921F 59124

RK73H1JLTD1212F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124



TP08

TP09

TP11

TP12

TP13

TP04

TP05

TP06

TP07

TP14

TP15

U01

U02

NAPE78


R98

S01

T01

T02

T03

TP01




Transformer, SMT,4:1,0.03 to 125MHz




NAUTEL #

RFFS50

SA60

TZ93

TZ88

TZ88

HAJ66

TP03 Terminal, SMT, Test Point, PWB HAJ66












IC,SMT,DAC,400MSPS,14 bitTQFP-48

Oscillator,SMT,TCVCXO,10MHz,3.3V,2ppm

HAJ66

HAJ66

HAJ66

HAJ66

HAJ66

HAJ66

HAJ66

HAJ66

HAJ66

HAJ66

HAJ66

UW86

UT98

U03

U04

U05

U06

U07

U08

U09

U10

Page 59 of 94

IC,SMT,DAC,16 Bit Serial,MSOP-8

IC, SMT, Inverter, UHS, Dual,UnBFR, 6p SC70 1.2mm wide


IC,SMT,CMOS,Phase Locked Loop,SO-16


Output,3.3V

UW64

UD80

UX67

UDLS08

UW90

IC,SMT,ADC,RF,14 bit,TQFP-64 UW94

IC,SMT,3.3V Voltage Reference,SOT23-3

IC,SMT,Linear Regulator,150mAAdj.,MSOP-8

UX97

UX66

NAPE78


RK73H1JLTD1002F 59124

ADT4-6T

ADT1-6T+(ROHS)

ADT1-6T+(ROHS)

MINI-CIRC

MINI-CIRC

TP-107-02-1-T(RoHS)

COMPONENTS CORP

TP-107-02-1-T(RoHS)

COMPONENTS CORP

TP-107-02-1-T(RoHS)

COMPONENTS CORP

TP-107-02-1-T(RoHS)

COMPONENTS CORP

TP-107-02-1-T(RoHS)

COMPONENTS CORP

TP-107-02-1-T(RoHS)

COMPONENTS CORP

TP-107-02-1-T(RoHS)

COMPONENTS CORP

TP-107-02-1-T(RoHS)

COMPONENTS CORP

TP-107-02-1-T(RoHS)

COMPONENTS CORP

TP-107-02-1-T(RoHS)

COMPONENTS CORP

TP-107-02-1-T(RoHS)

COMPONENTS CORP

TP-107-02-1-T(RoHS)

COMPONENTS CORP

TP-107-02-1-T(RoHS)

COMPONENTS CORP

DAC5674IPHPR(STAT

IC)(ROHS) TEXAS

TC75-10M000-

BV020A(STATIC)(ROH

S)

TEXAS

4TIMING

DAC8531E(STATIC) 13919

NC7WZU04P6X(RoHS

)

SCT30


LMX2306TM(STATIC) 27014

74LVC257APW(STATI

C)(ROHS) NXP

SEMICONDUCTOR

ADS5542IPAP(STATIC

)(ROHS)

REF3033AIDBZT(STA

TIC)

LT1762EMS8(STATIC)

NXP SEMI

TEXAS

13919

64155


U19

U20

U21

U22

U23

U24

U25

U26

U27

U28

U29

U30

U31

U32

U33

U34

U35

U36

U37

XE01

Y01

NAPE78


U11


IC,SMT,ECL Clock Divider /2,SO-8

NAUTEL #

UX82

U12

U13

U14

U15

U16

U17

U18

IC,SMT,ADC,RF,14 bit,TQFP-64

IC, SMT, Spartan3-1.2K FBGA,FG320

IC,SMT,3A Sync Buck Converter,SO-20 w/pwr pad

IC,SMT,ADC,Serial, 12 bit


IC,SMT,SPI Flash,16Mbit,SOIC8W


Output,3.3V


IC,SMT,SRC,Async,2-ch,TQFP-48


IC,SMT,Power Supervisor,DualI/P,33/1.5V,MSOP

IC,SMT,SRC,Async,2-ch,TQFP-48

Res,SMT Network,0402x8,39R

IC,SMT,Blackfin DSP,500 MHzmBGA160


IC,SMT,128Mb,SDRAM,16 bit,3.3V,TSOP-54


IC,SMT,Differential LineReceivr, 100dB CMR


IC,SMT,Op Amp,Audio,Dual,SO-8




IC,SMT,Stereo ADC,24bit,96kHz,TSSOP-28

IC,SMT,SPI UART,3.3V

IC,SMT,Voltage Regulator,5V,1A, D2PAK


Oscillator,SMT,VCXO,158.76MHz,LVPECL

UW94

UW97

UX65

UW89

UX67

UW92

UW90

UDTS04

UW80

UX67

UX64

UW80

UW63

UW88

UW63

UX68

UW63

UD65

UW63

UP93

UW63

UW63

UDTS05

UP95

UW91

UT93

JQ16

UT99


MC100EP32D(STATIC

)

1MQ07

ADS5542IPAP(STATIC

)(ROHS)

XC3S1200E-

5FG320C(Static)

TPS54310PWP(STATI

C)

TEXAS

01295

ADC121S051CIMF(ST

ATIC)(ROHS)

NATIONAL


QB25F016S33B8(STA

TIC)

74LVC257APW(STATI

C)(ROHS) NXP

SEMICONDUCTOR

INTEL

NXP SEMI

LTC1480IS8(STATIC) 64155

SRC4382IPFBR(STATI

C)(ROHS)

TEXAS


TPS3306-

15DGK(STATIC)

SRC4382IPFBR(STATI

C)(ROHS)

EXB2HV390J

01295

TEXAS

54473

ADSP-BF533SBBC-

5V(STATIC)

EXB2HV390J

MT48LC8M16A2TG-

7E(STATIC)

EXB2HV390J

ANALOG

54473

MICRON

54473

SSM2141S(STATIC) LINEAR

EXB2HV390J 54473

OP275GS(STATIC)

EXB2HV390J

45496

54473

EXB2HV390J 54473

ADM3202ARN(STATIC

)

45496

AD1871YRS(STATIC) 45496

NXP SC16IS740IPW(STATI

C)(ROHS)

L7805ABD2T-

TR(STATIC)(ROHS)

1-103185-2

ST MICRO

09482

VCFPRE-158M760-

BBA3X(STATIC)(ROH

S) 4TIMING

4TIMING



NAPE78


Y02


Oscillator,SMT,25MHz,3.3V

NAUTEL #

UT100

Y03 Crystal,SMT,Fund,Par Res,3.6864MHz,Comm XFPS03


S1613B-

25.0000(STATIC)(ROH

S)

SARONIX

ATSM49-3.6864MHz 23875


C007

C008

C009

C010

C011

C012

C013

C014

C015

C016

C017

C018

C019

C020

C021

C022

C023

C024

C025

C026

C027

C028

C029

C030

C031

C032

C033

C034

C035

NAPI100A/01 Rack Interface PWB Assy


BT01

C001

C002

C003

C004

Not Used





-

CCFS07

CCFS04

CCFS01

CCFS60

C005

C006



CCFS07

CCFS60


Capacitor, Elect, 4.7uF, 100V,+/-20%


Capacitor, Elect, 1000uF 50V









Not Used

Not Used

Not Used















CTFS05

CD48

CCFS07

CT41

CCFS07

CCFS60

CCFS23

CCFS07

CCFS07

CCFS05

CCFS07

-

-

-

CCFS23

CTFS03

CCFS07

CCFS05

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS60

Page 62 of 94 NAPI100A/01


NOT USED

C0805C104K5RAC

C0603C103K5RAC

37338

31433

31433

C0603C102K5RAC

12101C105KAT2A(RO

HS)

C0805C104K5RAC

31433

AVX CORP

31433


HS)

T494D476K016AS

KME100VB4R7M5X11

LL

C0805C104K5RAC

SME50VB102M16X25

LL

C0805C104K5RAC

12101C105KAT2A(RO

HS)

C0603C180G5GAC

C0805C104K5RAC

31433

31433

1W344

31433

AVX CORP

31433

31433

C0805C104K5RAC

C0603C223K5RAC

C0805C104K5RAC

C0603C180G5GAC

NOT USED

NOT USED

NOT USED

T494D106K035AS

C0805C104K5RAC

C0603C223K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

31433

31433

31433

31433

31433

12101C105KAT2A(RO

HS)

AVX CORP

31433

31433

31433

31433

37338

37338

37338

31433

31433

31433

31433

31433

31433

31433

31433


C052

C053

C054

C055

C056

C057

C058

C059

C060

C061

C062

C063

C064

C065

C066

C067

C068

C069

C070

C071

C072



C036

C037

C038

C039

C040

C041

C042

C043

C044

C045

C046

C047

C048

C049

C050

C051





Not Used









Not Used

Not Used


CTFS03

CTFS03

CCFS07

-

CCFS07

CCFS07

CCFS04

CCFS07

CCFS07

CCFS04

CCFS07

CTFS03

-

CCFS07

-

CCFS60






















CTFS03

CCFS04

CCFS07

CCFS07

CCFS07

CCFS04

CCFS07

CCFS07

CCFS07

CCFS07

CCFS60

CCFS07

CCFS07

CTFS03

CCFS07

CCFS04

CCFS04

CCFS07

CCFS60

CCFS60

CCFS07



T494D106K035AS

T494D106K035AS

C0805C104K5RAC

C0805C104K5RAC

NOT USED

C0805C104K5RAC

C0603C103K5RAC

C0805C104K5RAC

31433

31433

31433

31433

37338

31433

31433

31433

C0805C104K5RAC

C0603C103K5RAC

C0805C104K5RAC

T494D106K035AS

C0805C104K5RAC

NOT USED

NOT USED

12101C105KAT2A(RO

HS)

T494D106K035AS

C0603C103K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0603C103K5RAC

C0805C104K5RAC

31433

31433

31433

31433

31433

37338

37338

AVX CORP

31433

31433

31433

31433

31433

31433

31433

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

12101C105KAT2A(RO

HS)

C0805C104K5RAC

C0805C104K5RAC

31433

31433

31433

AVX CORP

T494D106K035AS

C0805C104K5RAC

C0603C103K5RAC

C0603C103K5RAC

C0805C104K5RAC

12101C105KAT2A(RO

HS)

12101C105KAT2A(RO

HS)

C0805C104K5RAC

31433

31433

31433

31433

31433

31433

31433

AVX CORP

AVX CORP

31433


C076

C077

C078

C079

C080

C081

C082

C083

C084

C085

C086

C087

C088

C089

C090

C091

C092

C093

C094

C095

C096

C097

C098

C099

C100

C101

C102

C103

C104

C105

C106

C107

C108



C073

C074

C075




CCFS07

CCFS07

CCFS60


































CCFS07

CCFS04

CCFS07

CCFS60

CTFS03

CCFS04

CCFS06

CCFS07

CCFS04

CCFS07

CCFS07

CCFS60

CCFS07

CCFS01

CCFS60

CCFS07

CCFS07

CCFS01

CCFS60

CTFS03

CCFS07

CCFS01

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS60

CCFS04

CCFS01

CCFS07



C0805C104K5RAC

C0805C104K5RAC

12101C105KAT2A(RO

HS)

C0805C104K5RAC

C0603C103K5RAC

C0805C104K5RAC

31433

31433

AVX CORP

31433

31433

31433

12101C105KAT2A(RO

HS)

T494D106K035AS

C0603C103K5RAC

AVX CORP

31433

31433

C0603C473K5RAC

C0805C104K5RAC

C0603C103K5RAC

C0805C104K5RAC

C0805C104K5RAC

31433

31433

31433

31433

31433

12101C105KAT2A(RO

HS)

C0805C104K5RAC

AVX CORP

31433

C0603C102K5RAC

12101C105KAT2A(RO

HS)

C0805C104K5RAC

C0805C104K5RAC

C0603C102K5RAC

12101C105KAT2A(RO

HS)

T494D106K035AS

C0805C104K5RAC

C0603C102K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

31433

AVX CORP

31433

31433

31433

AVX CORP

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

12101C105KAT2A(RO

HS)

C0603C103K5RAC

AVX CORP

31433

C0603C102K5RAC

C0805C104K5RAC

31433

31433


C114

C115

C116

C117

C118

C119

C120

C121

C122



C109

C110

C111

C112

C113






CCFS07

CCFS07

CCFS07

CCFS07

CCFS60










CCFS07

CCFS07

CCFS07

CCFS07

CTFS03

CCFS07

CCFS07

CCFS60

CCFS60

C123

C124

C125

C126

C127

C128

C129

C130

C131

C132





Capacitor,Elect,SnapMt,22000uF+/-20% 80V






C133

C134

C135

C136

C137

C138

C139

C140

C141

C142

C143

C144

C145

Page 65 of 94






Not Used

Not Used

Not Used

Not Used

Not Used




NAPI100A/01

CCFS07

CTFS03

CCFS07

CCFS04

CJ24

CCFS60

CCFS07

CCFS07

CCFS04

CT41

CCFS01

CCFS01

CCFS07

CCFS07

-

-

-

CCFS07

-

-

CCFS07

CCFS07

CTFS05


C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

31433

31433

31433

C0805C104K5RAC

12101C105KAT2A(RO

HS)

C0805C104K5RAC

31433

AVX CORP

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

T494D106K035AS

C0805C104K5RAC

C0805C104K5RAC

31433

31433

31433

31433

31433

31433

31433


HS)

12101C105KAT2A(RO

HS)

C0805C104K5RAC

T494D106K035AS

C0805C104K5RAC

C0603C103K5RAC

AVX CORP

31433

31433

31433

31433

380LX223M080A102 CORNELL

12101C105KAT2A(RO

HS)

C0805C104K5RAC

AVX CORP

31433

C0805C104K5RAC 31433

C0603C103K5RAC

SME50VB102M16X25

LL

C0603C102K5RAC

C0603C102K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

NOT USED

NOT USED

NOT USED

31433

1W344

31433

31433

31433

31433

31433

37338

37338

37338

NOT USED

NOT USED

C0805C104K5RAC

C0805C104K5RAC

T494D476K016AS

37338

37338

31433

31433

31433




C154

C155

C156

C157

C158

C159

C160

C161

C162

C163

C164

C165

C166

C167

C168

C169

C170

C171

C172

C173

C174

C175

C176

C146

C147

C148

C149

C150

C151

C152

C153


Not Used






























CTFS03

-

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS05

CCFS05

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS09

CCFS09

CCFS09

CCFS60

C177

C178

C179

C180

CR01

CR02

CR03

CR04

Page 66 of 94







Diode, Schottky Rectifier, 60V, 16A


NAPI100A/01

CCFS07

CTFS05

CCFS07

CTFS05

QDRS01

QDRS01

QM60

QM60


T494D106K035AS

NOT USED

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0603C223K5RAC

C0603C223K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C474K3RAC

C0805C474K3RAC

31433

31433

31433

31433

31433

31433

31433

31433

C0805C474K3RAC

12101C105KAT2A(RO

HS)

C0805C104K5RAC

T494D476K016AS

C0805C104K5RAC

T494D476K016AS

31433

AVX CORP

31433

31433

31433

31433



MBR1660 (RoHS)

MBR1660 (RoHS)

31433

37338

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433




CR13

CR14

CR15

CR16

CR17

CR18

CR19

CR20

CR21

CR22

CR23

CR24

E01

CR05

CR06

CR07

CR08

CR09

CR10

CR11

CR12

J08

J09

J10

J11

J12

J13

J14

J15

J16

K01

J04

J05

J06

J07

E02

J01

J02

J03





Not Used

Not Used

Not Used

Not Used

Not Used





Not Used



Not Used

Diode, Zener, 6.2V, 1.5W, 2%

Diode, Zener, 6.2V, 1.5W, 2%

Not Used

Connector, Quick-Dis, M,1/4 Tab, PWB

Connector, Quick-Dis, M,1/4 Tab, PWB






Connector,Header,2 Pin,90 PWB,66A,600v 10.16mm

Connector,Header,2 Pin,90 PWB,66A,600v 10.16mm










Not Used

QDSS01

QM60

QM60

-

-

-

-

QDSS01

-

QDZS04

QM60

QM60

-

QM60

QDSS01

QDSS01

-

QN22

-

QN22

HR26

JS13

JS13

JS12

JS13

-

JS12

JQ34

JQ34

JS12

JF47

HR26

JS13

JS13

JS13

JS13

JS13

JT93

JT93



1287

K22-B25S-NJ

K22-B25S-NJ

K22-B25S-NJ

K22-B25S-NJ

K22-B25S-NJ

1998933

1998933

K22-B25S-NJ

K22-B25S-NJ

K22-B25P-NJ

K22-B25S-NJ

K22-B25P-NJ

K22-E9S-NJ

K22-E9S-NJ

K22-B25P-NJ

4-102973-0

NOT USED


MBR1660 (RoHS)

MBR1660 (RoHS)


NOT USED 37338

NOT USED

NOT USED

NOT USED

37338

37338

37338

NOT USED

1SMB5939BT3

MBR1660 (RoHS)

MBR1660 (RoHS)

37338

04713

MBR1660 (RoHS)

NOT USED 37338



NOT USED

1N5920C(STATIC)

1N5920C(STATIC)

NOT USED

1287

37338

04713

04713

37338

91833

91833

22421

22421

22421

22421

22421

PHOENIX

PHOENIX

22421

22421

63590

22421

63590

KYCON

KYCON

63590

09482

37338




L01

L02



LCFS01

LS22

L03

L04

R013

R014

R015

R016

R017

R018

R019

R020

R021

R022

R023

R024

R025

R026

R027

R028

R029

R030

L05

Q01

Q02

Q03

R001

R002

R003

R004

R005

R006

R007

R008

R009

R010

R011

R012




Transistor,SMT,MOSFET,N-channel,SOT-223

Thyristor, SCR, 65A, 400V

Thyristor, SCR, 65A, 400V

Not Used

Not Used

Not Used

Not Used

Resistor, SMT, MF, 15K Ohms,1%, 1/4W



Not Used





Not Used



Not Used

Resistor, SMT, MF, 47.5K Ohms, 1% 1/4W

Not Used


Not Used





Not Used




Not Used


LA16

LS22

-

RFFS26

-

RFFS38

-

RAD45

-

RFFS38

RFFS52

RFFS70

RFFS50

-

RFFS52

RFFS50

RFFS01

-

RFFS50

RFFS50

RAD39

RFFS40

-

RFFS41

RFFS39

RFFS39

RFFS26

RFFS26

LA16

QMNS01

QR28

-

-

-

-

QR28



ILHB0805RK601V

DLW31SN222SQ2L(R

OHS)

82-152-J

56845

3EH09

DLW31SN222SQ2L(R

OHS)

82-152-J

33062

3EH09

33062

MMFT960T1(STATIC) 04713

S4065K 27194

S4065K

NOT USED

NOT USED

NOT USED

NOT USED

27194

37338

37338

37338

37338

RK73H2BL1502F 59124

RK73H1JLTD1501F 59124

RK73H1JLTD1821F 59124

NOT USED 37338

RK73H1JLTD1211F 59124

RK73H1JLTD1211F 59124

RK73H1JLTD1000F 59124

RK73H1JLTD1000F 59124

NOT USED 37338

RK73H1JLTD1000F 59124

RK73H1JLTD1001F 59124

NOT USED 37338

RK73H2BL4752F

NOT USED

59124

37338

RK73H1JLTD1001F 59124

NOT USED 37338

RK73H1JLTD1502F 59124

RK73H1JLTD4753F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1502F 59124

NOT USED 37338

RK73H1JLTD1002F 59124

RK73Z1JLTD 59124

RK73H1JLTD1002F 59124

NOT USED 37338

RK73H1JLTD1002F 59124




R039

R040

R041

R042

R043

R044

R045

R046

R047

R048

R049

R050

R051

R031

R032

R033

R034

R035

R036

R037

R038

R060

R061

R062

R063

R064

R065

R066

R067

R068

R069

R052

R053

R054

R055

R056

R057

R058

R059










Not Used















Not Used















-

RFFS50

RFFS36

RFFS49

RFFS39

RAD17

RAD17

RFFS70

RFFS36

RFFS40

RFFS01

RFFS01

RFFS26

RFFS70

RFFS38

RFFS70

RFFS52

RFFS50

RFFS31

RFFS31

RFFS31

RFFS52

RFFS62

RFFS50

RFFS48

RFFS70

RAD25

RFFS48

RFFS01

RFFS58

RFFS58

RFFS46

RFFS38

-

RFFS01

RFFS52

RFFS38

RFFS70

RFFS38



RK73H1JLTD4753F 59124

RK73H1JLTD1001F 59124

RK73H1JLTD4753F 59124

RK73H1JLTD1502F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD2740F 59124

RK73H1JLTD2740F 59124

RK73H1JLTD2740F 59124

RK73H1JLTD1002F 59124

NOT USED 37338

RK73H1JLTD6810F 59124

RK73H1JLTD8251F 59124

RK73H1JLTD1211F 59124

RK73H2BL2210F 59124

RK73H2BL2210F 59124

RK73H1JLTD4753F 59124

RK73H1JLTD6810F 59124

RK73H1JLTD1501F 59124

RK73Z1JLTD

RK73Z1JLTD

59124

59124

RK73H1JLTD1000F 59124

RK73H1JLTD4751F 59124

RK73H1JLTD1001F 59124

RK73Z1JLTD

NOT USED

59124

37338

RK73H1JLTD1502F 59124

RK73H1JLTD1001F 59124

RK73H1JLTD4753F 59124

RK73H1JLTD1001F 59124

RK73H1JLTD1502F 59124

RK73H1JLTD1003F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD6811F 59124

RK73H1JLTD4753F 59124

RK73H2BL1001F 59124

RK73H1JLTD6811F 59124

RK73Z1JLTD 59124

RK73H1JLTD4752F 59124

RK73H1JLTD4752F 59124




R078

R079

R080

R081

R082

R083

R084

R085

R086

R087

R088

R089

R090

R070

R071

R072

R073

R074

R075

R076

R077

R099

R100

R101

R102

R103

R104

R105

R106

R107

R108

R091

R092

R093

R094

R095

R096

R097

R098


































Not Used






RFFS50

RFFS49

RFFS14

RFFS51

RFFS50

RFFS50

RAD25

RFFS39

RFFS50

RFFS49

RFFS14

RFFS50

RFFS50

RFFS58

RFFS58

RFFS58

RFFS58

RFFS58

RFFS58

RFFS58

RFFS39

RFFS50

RFFS50

RFFS50

RFFS14

-

RFFS44

RFFS70

RFFS70

RFFS52

RFFS54

RFFS50

RFFS50

RAD25

RFFS50

RFFS58

RFFS58

RFFS50

RFFS50



RK73H1JLTD4752F 59124

RK73H1JLTD4752F 59124

RK73H1JLTD4752F 59124

RK73H1JLTD4752F 59124

RK73H1JLTD4752F 59124

RK73H1JLTD4752F 59124

RK73H1JLTD4752F 59124

RK73H1JLTD1211F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD8251F 59124


RK73H1JLTD1212F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H2BL1001F 59124

RK73H1JLTD1211F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD8251F 59124


RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H2BL1001F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD4752F 59124

RK73H1JLTD4752F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124


NOT USED 37338

RK73H1JLTD3321F 59124

RK73H1JLTD4753F 59124

RK73H1JLTD4753F 59124

RK73H1JLTD1502F 59124

RK73H1JLTD2212F 59124




R117

R118

R119

R120

R121

R122

R123

R124

R125

R126

R127

R128

R129

R109

R110

R111

R112

R113

R114

R115

R116

R138

R139

R140

R141

R142

R143

R144

R145

R146

R147

R130

R131

R132

R133

R134

R135

R136

R137








































RFFS70

RFFS50

RFFS39

RFFS49

RFFS47

RFFS45

RFFS70

RFFS50

RFFS26

RFFS70

RFFS58

RFFS58

RFFS58

RFFS70

RFFS50

RFFS50

RFFS50

RFFS70

RFFS50

RFFS70

RFFS70

RFFS58

RFFS58

RFFS58

RFFS58

RFFS70

RFFS70

RFFS62

RFFS58

RFFS01

RFFS01

RFFS58

RFFS58

RFFS30

RFFS52

RFFS70

RFFS30

RFFS42

RFFS58



RK73H1JLTD4753F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD4753F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD4753F 59124

RK73H1JLTD4753F 59124

RK73H1JLTD4753F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1211F 59124

RK73H1JLTD8251F 59124

RK73H1JLTD5621F 59124

RK73H1JLTD3921F 59124

RK73H1JLTD4753F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1000F 59124

RK73H1JLTD4753F 59124

RK73H1JLTD4752F 59124

RK73H1JLTD4752F 59124

RK73H1JLTD4752F 59124

RK73H1JLTD4752F 59124

RK73H1JLTD4752F 59124

RK73H1JLTD2210F 59124

RK73H1JLTD1502F 59124

RK73H1JLTD4753F 59124

RK73H1JLTD2210F 59124

RK73H1JLTD2211F 59124

RK73H1JLTD4752F 59124

RK73H1JLTD4752F 59124

RK73H1JLTD4752F 59124

RK73H1JLTD4752F 59124

RK73H1JLTD4752F 59124

RK73H1JLTD4753F 59124

RK73H1JLTD4753F 59124

RK73H1JLTD1003F 59124

RK73H1JLTD4752F 59124

RK73Z1JLTD 59124

RK73Z1JLTD 59124




R156

R157

R158

R159

R160

R161

R162

R163

R164

R165

R166

R167

R168

R148

R149

R150

R151

R152

R153

R154

R155

R177

R178

R179

R180

R181

R182

R183

R184

R185

R186

R169

R170

R171

R172

R173

R174

R175

R176

















Not Used

Not Used



















Resistor,2512 SMT,100 ohms,1%,1W,



RFFS50

RFFS50

RFFS50

RFFS50

RFFS50

RFFS50

RFFS50

RFFS40

-

-

RFFS26

RFFS26

RFFS50

RFFS50

RFFS01

RFFS54

RFFS38

RFFS50

RFFS40

RFFS62

RFFS40

RFFS54

RFFS54

RFFS46

RFFS26

RFFS26

RFFS46

RFFS46

RAD52

RAD52

RAD52

RFFS14

RFFS14

RFFS14

RFFS46

RFFS38

RFFS54

RFFS54

RFFS38



RK73H1JLTD1002F 59124

RK73Z1JLTD 59124

RK73H1JLTD2212F 59124

RK73H1JLTD1001F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1501F 59124

RK73H1JLTD1003F 59124

RK73H1JLTD1501F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1002F 59124

RK73H1JLTD1501F 59124

NOT USED

NOT USED

37338

37338

RK73H1JLTD1000F 59124

RK73H1JLTD1000F 59124

RK73H1JLTD1002F 59124




RK73H1JLTD4751F 59124

RK73H1JLTD1001F 59124

RK73H1JLTD2212F 59124

RK73H1JLTD2212F 59124

RK73H1JLTD1001F 59124

RK73H1JLTD2212F 59124

RK73H1JLTD2212F 59124

RK73H1JLTD4751F 59124

RK73H1JLTD1000F 59124

RK73H1JLTD1000F 59124

RK73H1JLTD4751F 59124

RK73H1JLTD4751F 59124

ERJ-1TYF101U PANAS

ERJ-1TYF101U PANAS

ERJ-1TYF101U PANAS




R195

R196

R197

R198

R199

RT01

RT02

RT03

RT04

RT05

RT06

RT07

RT08

R187

R188

R189

R190

R191

R192

R193

R194

RT17

RT18

RT19

RT20

T01

U01

RT09

RT10

RT11

RT12

RT13

RT14

RT15

RT16



Not Used

Not Used

Not Used


Not Used

Not Used
















Thermistor, PTC, .005-.02 Ohms6A Hold

Thermistor, PTC, .005-.02 Ohms6A Hold









Signal Transformer, 1.1VA230V/36V


RFFS30

RFFS38

RFFS30

RFFS38

RFFS39

RT19

RT19

RT19

RT19

RT19

RT19

RT19

RT19

RAD52

-

RFFS01

-

-

-

-

RFFS39

RT19

RT19

RT55

RT55

RT19

RT19

RT19

RT19

RT19

RT19

RT19

RT17

TD46

UDTS03

U02

U03

IC,DC-DC Converter,OUT .75V-5.5V@10A,IN 9-18V

Diode,Schottky,Dual 20A,A-K-A,TO-247 15V VRRM

UT102

QK51


ERJ-1TYF101U

RK73Z1JLTD

NOT USED

PANAS

59124

37338

NOT USED

NOT USED

37338

37338

RK73H1JLTD1211F 59124

NOT USED 37338

NOT USED 37338

RK73H1JLTD2210F 59124

RK73H1JLTD1001F 59124

RK73H1JLTD2210F 59124

RK73H1JLTD1001F 59124

RK73H1JLTD1211F 59124

RXE250 4G927

RXE250

RXE250

4G927

4G927

RXE250

RXE250

RXE250

RXE250

RXE250

4G927

4G927

4G927

4G927

4G927

RXE250

RXE250

RUEF600(RoHS)

RUEF600(RoHS)

RXE250

RXE250

RXE250

RXE250

4G927

4G927

4G927

4G927

4G927

4G927

RXE250

RXE250

RXE250

RXE110

4G927

4G927

4G927

06090

DST-2-36 08779


TYCO ATL010A0X43-

SR(STATIC)

STPS40L15CW(STATI

C)

STMICRO



U15

U16

U17

U18

U19

U20

U21

U11

U12

U13

U14

U05

U06

U07

U08

U09

U10

U22

U23

U24

U25

U26

U27

U28

U29

U30

XBT01

Y01



U04 IC,DC-DC Converter,OUT .75V-5.5V@10A,IN 9-18V UT102

IC,SMT,CMOS,Hex Schm,Trig,Inv,SOIC-14

IC, SMT, Micro, ADC, PWM,Flash, TQFP-64

IC,SMT,Microprocessor Supervisor, SC70

IC, SMT, CMOS, Octal Latch,SOIC-20

Not Used



IC,SMT,CMOS,Hex Schm,Trig,Inv,SOIC-14




Not Used


UDLS03

UDMS02

UDSS02

UDLS02

-

UDTS03

IC,DC-DC Converter,OUT +/[email protected],15W, IN 9-36V UT101


IC, SMT, SRAM, 32Kx8, SOIC-28(Wide)

ULAS01

UDMS01


IC,SMT,ADC,10-Bit,11-ch,SPI,SOIC-20




IC,SMT,2.5V Reference,0.1%,SOT-23-6


IC,SMT,ADC,10-Bit,11-ch,SPI,SOIC-20

UMAS01

ULAS01

ULAS02

UMDS01

UX83

ULAS02

UMAS01



IC,SMT,CMOS,Quad Tri-State Buffer, SOIC-14

ULCS01

UDLS06


UDLS04

UDLS03

UDLS05

UDAS01

-

UDOS01

XFPS01


ATL010A0X43-

SR(STATIC)

SN74AHCT14D(STATI

C)

ATMEGA128-

16AI(STATIC)

ADM803-

MAKS(STATIC)

SN74AHC573DW(STA

TIC)

NOT USED

TYCO

01295

1FN41

24355

01295

37338


AEE00CC18-L

(STATIC)

ASTEC


CY62256LL-

70SNI(STATIC)

AEE00CC18-L

(STATIC)

TLC1543IDW(STATIC)

65786

ASTEC

01295




LT1790BIS6-

2.5(STATIC)

64155


TLC1543IDW(STATIC)

AEE00CC18-L

(STATIC)

MC3302D(STATIC)

01295

ASTEC

04713

MC74HC125AD(STATI

C)

AEE00CC18-L

(STATIC)

MC74HC165AD(STATI

C)

04713

ASTEC

04713

SN74AHCT14D(STATI

C)

01295

MC74HC595AD(STATI

C)

04713



NOT USED 37338

CMR309T11.0592MAB

JTR

3DX59


DS09

DS10

DS11

DS12

DS13

DS14

DS15

DS02

DS03

DS04

DS05

DS06

DS07

DS08

NAPI106


C01

CR01

CR02

CR03

CR04

CR05

CR06

CR07

CR08

CR09

CR10

CR11

CR12

CR13

CR14

CR15

CR16

DS01




















NAUTEL #

CCFS10

QDRS01

QDRS01

QDRS01

QDRS01

QDRS01

QDRS01

QDRS01

QDRS01

QDRS01

QDRS01

QDRS01

QDRS01

QDRS01

QDRS01

QDRS01

QDRS01

QDLS04















QDLS04

QDLS04

QDLS04

QDLS04

QDLS04

QDLS04

QDLS04

QDLS04

QDLS04

QDLS04

QDLS04

QDLS04

QDLS04

QDLS04

Page 75 of 94 NAPI106


C1206C105K3RAC 31433

















597-7701-

507(STATIC)

597-7701-

507(STATIC)

597-7701-

507(STATIC)

597-7701-

507(STATIC)

597-7701-

507(STATIC)

597-7701-

507(STATIC)

597-7701-

507(STATIC)

597-7701-

507(STATIC)

597-7701-

507(STATIC)

597-7701-

507(STATIC)

597-7701-

507(STATIC)

597-7701-

507(STATIC)

597-7701-

507(STATIC)

597-7701-

507(STATIC)

597-7701-

507(STATIC)

83330

83330

83330

83330

83330

83330

83330

83330

83330

83330

83330

83330

83330

83330

83330


NAPI106


DS16



NAUTEL #

QDLS04

E06

E07

E08

E09

E10

E11

E12

E13

E01

E02

E03

E04

E05

J02

J03

J04

J05

J06

E14

E15

E16

J01

R06

R07

R08

R09

R10

R11

R12

R13

J07

J08

J09

R01

R02

R03

R04

R05

Page 76 of 94







































NAPI106

JQ15

JQ15

JQ15

JQ15

JQ15

JQ15

JQ15

JQ15

JQ15

JQ15

JQ15

JQ15

JQ15

JQ15

JQ15

JQ15

JS12

JS13

JR53

JR53

JR53

JR53

RAD27

RAD27

RAD27

RAD27

RAD27

RAD27

RAD27

RAD27

JR53

JR53

JR53

RAD27

RAD27

RAD27

RAD27

RAD27

OEM CODE

83330

09482

09482

09482

09482

09482

09482

09482

09482

09482

09482

09482

09482

09482

09482

09482

09482

63590

22421

PHOENIX

PHOENIX

PHOENIX

PHOENIX

PHOENIX

PHOENIX

PHOENIX

59124

59124

59124

59124

59124

59124

59124

59124

59124

59124

59124

59124

59124

VENDOR #

597-7701-

507(STATIC)

390088-2

390088-2

390088-2

390088-2

390088-2

390088-2

390088-2

390088-2

390088-2

390088-2

390088-2

390088-2

390088-2

390088-2

390088-2

390088-2

K22-B25P-NJ

K22-B25S-NJ

1803332(ROHS)

1803332(ROHS)

1803332(ROHS)

1803332(ROHS)

1803332(ROHS)

1803332(ROHS)

1803332(ROHS)

RK73H2BL1501F

RK73H2BL1501F

RK73H2BL1501F

RK73H2BL1501F

RK73H2BL1501F

RK73H2BL1501F

RK73H2BL1501F

RK73H2BL1501F

RK73H2BL1501F

RK73H2BL1501F

RK73H2BL1501F

RK73H2BL1501F

RK73H2BL1501F


NAPI106


S06

S07

S08

S09

S10

S11

S12

S13

S14

S15

S16

XE01

XE02

R14

R15

R16

S01

S02

S03

S04

S05

XE11

XE12

XE13

XE14

XE15

XE16

XE03

XE04

XE05

XE06

XE07

XE08

XE09

XE10





































NAUTEL #

SA60

SA60

SA60

SA60

SA60

SA60

SA60

SA60

SA60

SA60

SA60

JQ16

JQ16

RAD27

RAD27

RAD27

SA60

SA60

SA60

SA60

SA60

JQ16

JQ16

JQ16

JQ16

JQ16

JQ16

JQ16

JQ16

JQ16

JQ16

JQ16

JQ16

JQ16

JQ16

VENDOR #

RK73H2BL1501F

RK73H2BL1501F

RK73H2BL1501F

OEM CODE

59124

59124

59124

1-103185-2

1-103185-2

1-103185-2

1-103185-2

1-103185-2

1-103185-2

1-103185-2

1-103185-2

1-103185-2

1-103185-2

1-103185-2

1-103185-2

1-103185-2

1-103185-2

1-103185-2

1-103185-2

09482

09482

09482

09482

09482

09482

09482

09482

09482

09482

09482

09482

09482

09482

09482

09482


NAPI95/02


C01


Capacitor, Electrolytic, 470uF450V

NAUTEL #

CBP15

C02

C03

C04

C05

CR01

CR02

CR03

CR04

CR05

CR06

CR07

CR08

DS01

DS02

DS03

Not Used

Capacitor, Electrolytic, 470uF450V

Not Used


Diode, General Purpose, 400V,1A


Not Used

Not Used



Not Used

Not Used

Diode,LED,Ultrabright,Grn,5mm

Not Used

Diode,LED,Ultrabright,Grn,5mm

F02

F03

F04

J01

E08

E09

E10

F01

J02

J03

J04

J05

J06

DS04

E01

E02

E03

E04

E05

E06

E07

Page 78 of 94

Not Used

Terminal,PC Screw 10-32,30 Amp




Not Used

Not Used

Not Used

Not Used



Fuse, 20A, 500Vdc, Non Time Delay, KLM

Not Used

Fuse, 20A, 500Vdc, Non Time Delay, KLM

Not Used

Conn,Edge Card,88 Contacts,Dual Row,30u Gold, M3




Not Used

Conn, Plug, D-Sub, 25 pin, Vert PWB

NAPI95/02

-

CBP15

-

CT41

-

-

QE28

QE28

QE28

QE28

-

-

QM49

-

QM49

-

HAC55

HAC55

FA34

-

FA34

-

JN59

-

HAC55

HAC55

HAC55

-

-

-

HAC55

JN59

JN59

JN59

-

JS43


381LR471M450A052

CORNELL

NOT USED

381LR471M450A052

CORNELL

NOT USED

SME50VB102M16X25

LL

1N4004

1N4004

NOT USED

NOT USED

1N4004

1N4004

NOT USED

NOT USED

LC503QBG1-30H-

A(STATIC)

NOT USED

LC503QBG1-30H-

A(STATIC)

NOT USED

7787

7787

7787

7787

NOT USED

NOT USED

NOT USED

NOT USED

7787

7787

KLM-20

NOT USED

KLM-20

NOT USED

346-088-620-207

346-088-620-207

346-088-620-207

346-088-620-207

NOT USED

627 025 220 017

14655

37338

14655

37338

1W344

04713

04713

37338

37338

04713

04713

37338

37338

MARKTEC

37338

MARKTEC

37338

KEYSTONE

KEYSTONE

KEYSTONE

KEYSTONE

37338

37338

37338

37338

KEYSTONE

KEYSTONE

71400

37338

71400

37338

31781

31781

31781

31781

37338

31781


NAPI95/02


J07

J08

J09

J10

J11

J12

R01

R02

R03

R04

XF01

XF02

XF03

XF04


MTA, Keyed Square Post HeaderAssy, 4 pin

Not Used

MTA, Keyed Square Post HeaderAssy, 4 pin

Not Used

Connector,Modular,RJ-45,Vert.,PWB

Not Used

Resistor, Film, 100K Ohms, 5%, 2W

Not Used

Resistor, Film, 100K Ohms, 5%, 2W

Not Used

Fuse Clip, 13/32 Dia Fuse, PWB Mt

Not Used

Fuse Clip, 13/32 Dia Fuse, PWB Mt

Not Used

NAUTEL #

JU25

-

JU25

-

JPMT01

-

-

RBP25

-

RBP25

-

FC27

-

FC27

VENDOR #

647123-4

NOT USED

647123-4

NOT USED

557969-1

NOT USED

GS-3, 100K OHMS

NOT USED

GS-3, 100K OHMS

NOT USED

1A3400-09

NOT USED

1A3400-09

NOT USED

OEM CODE

00779

37338

00779

37338

09482

37338

75042

37338

75042

37338

71400

37338

71400

37338

Page 79 of 94 NAPI95/02

NAPI98


C009

C010

C011

C012

C013

C014

C015

C016

C017

C018

C019

C020

C021

C001

C002

C003

C004

C005

C006

C007

C008

C030

C031

C032

C033

C034

C035

C036

C037

C038

C039

C022

C023

C024

C025

C026

C027

C028

C029

RF Drive Distribution PWB Assy








































NAUTEL #

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS10

CCFS10

CCFS10

CCFS10

CCFS10

CCFS10

CCFS10

CCFS10

CCFS10

CCFS10

CCFS10

CCFS10

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS10

CCFS10

CCFS10


OEM CODE

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

VENDOR #

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C1206C105K3RAC

C1206C105K3RAC

C1206C105K3RAC

C1206C105K3RAC

C1206C105K3RAC

C1206C105K3RAC

C1206C105K3RAC

C1206C105K3RAC

C1206C105K3RAC

C1206C105K3RAC

C1206C105K3RAC

C1206C105K3RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C1206C105K3RAC

C1206C105K3RAC

C1206C105K3RAC


NAPI98


C048

C049

C050

C051

C052

C053

C054

C055

C056

C057

C058

C059

C060

C040

C041

C042

C043

C044

C045

C046

C047

C069

C070

C071

C072

C073

C074

C075

C076

C077

C078

C061

C062

C063

C064

C065

C066

C067

C068









































NAUTEL #

CCFS10

CCFS10

CCFS10

CCFS10

CCFS10

CCFS10

CCFS10

CCFS10

CCFS10

CCFS10

CCFS10

CCFS10

CCFS10

CCFS10

CCFS10

CCFS10

CCFS10

CCFS10

CCFS10

CCFS10

CCFS10

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07


OEM CODE

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

VENDOR #

C1206C105K3RAC

C1206C105K3RAC

C1206C105K3RAC

C1206C105K3RAC

C1206C105K3RAC

C1206C105K3RAC

C1206C105K3RAC

C1206C105K3RAC

C1206C105K3RAC

C1206C105K3RAC

C1206C105K3RAC

C1206C105K3RAC

C1206C105K3RAC

C1206C105K3RAC

C1206C105K3RAC

C1206C105K3RAC

C1206C105K3RAC

C1206C105K3RAC

C1206C105K3RAC

C1206C105K3RAC

C1206C105K3RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC


L02

L03

R01

R02

R03

R04

R05

NAPI98


C087

C088

C089

C090

C091

C092

C093

C094

C095

C096

C097

C098

C099

J01

J02

J03

J04

C100

C101

C102

C103

J05

L01

C079

C080

C081

C082

C083

C084

C085

C086

































NAUTEL #

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS10

CCFS10

CCFS10

CCFS10

CCFS10

CCFS10

CCFS10

CCFS10

CCFS10

CCFS10

CCFS10

CCFS10

CCFS07

CCFS07

CCFS10

CCFS07

CCFS57

CCFS07

CCFS10

JT90

JT90

JT90

JM44

JQ33

LS22








LS22

LA16

RAD12

RFFS01

RAD12

RFFS01

RFFS01



C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C1206C105K3RAC

C1206C105K3RAC

C1206C105K3RAC

C1206C105K3RAC

C1206C105K3RAC

C1206C105K3RAC

C1206C105K3RAC

C1206C105K3RAC

C1206C105K3RAC

C1206C105K3RAC

C1206C105K3RAC

C1206C105K3RAC

C0805C104K5RAC

C0805C104K5RAC

C1206C105K3RAC

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

C0805C104K5RAC

C2012X5R0J106M

C0805C104K5RAC

C1206C105K3RAC

K22-E9P-NJ

DLW31SN222SQ2L(R

OHS)

DLW31SN222SQ2L(R

OHS)

82-152-J

31433

54583

31433

31433

569262-1 AMP/TYCO

569262-1 AMP/TYCO

569262-1 AMP/TYCO

556591-1 09482

31781

3EH09

3EH09

RK73H2BL82R5F

RK73Z1JLTD

RK73H2BL82R5F

RK73Z1JLTD

RK73Z1JLTD

33062

59124

59124

59124

59124

59124


U07

U08

U09

U10

U11

U12

U13

TP02

U01

U02

U03

U04

U05

U06

U14

U15

U16

U17

U18

U19

NAPI98


R06

R07

R08

R09

R10

R11

R12

TP01










NAUTEL #

RAD12

RFFS01

RAD12

RFFS34

RFFS34

RFFS34

RFFS34

HAJ66





















UD66

UD66

UD66

UD66

UD66

UD66

UD66

HAJ66

UD66

UD66

UD66

UD66

UD66

UD66

UD66

UD66

UD66

UD66

UD66

UD66


RK73H2BL82R5F

RK73Z1JLTD

RK73H2BL82R5F

59124

59124

59124

RK73H1JLTD4750F 59124

RK73H1JLTD4750F 59124

RK73H1JLTD4750F 59124

RK73H1JLTD4750F 59124

TP-107-02-1-T(RoHS)

COMPONENTS CORP

TP-107-02-1-T(RoHS)

COMPONENTS CORP

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

NATIONAL

NATIONAL

NATIONAL DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

NATIONAL

NATIONAL

NATIONAL

NATIONAL

NATIONAL

NATIONAL

NATIONAL

NATIONAL

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

NATIONAL

NATIONAL

NATIONAL

NATIONAL

NATIONAL

NATIONAL

NATIONAL

NATIONAL



NAPI98


U20



NAUTEL #

UD66

U21

U22

U23

U24

U25

U26

U27

U28

U29

U30

U31





IC,SMT,Clock Driver,1-TO-10,Fast CMOS,SOIC,.3"







UD66

UD66

UD66

UD66

UD72

UD72

UD72

UD72

UD72

UD72

UT91


DS26C31T/DS26C31M

(STATIC)

NATIONAL

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

NATIONAL

NATIONAL

NATIONAL

DS26C31T/DS26C31M

(STATIC)

NATIONAL

IDT74FCT807CTS0(ST

ATIC)(ROHS)

IDT

IDT74FCT807CTS0(ST

ATIC)(ROHS)

IDT

IDT74FCT807CTS0(ST

ATIC)(ROHS)

IDT

IDT74FCT807CTS0(ST

ATIC)(ROHS)

IDT

IDT74FCT807CTS0(ST

ATIC)(ROHS)

IDT

IDT74FCT807CTS0(ST

ATIC)(ROHS)

IDT

DS26C32ATM(STATIC

)

NATIONAL


NAPI99


C009

C010

C011

C012

C013

C014

C015

C016

C017

C018

C019

C020

C021

C001

C002

C003

C004

C005

C006

C007

C008

C030

C031

C032

C033

C034

C035

C036

C037

C038

C039

C022

C023

C024

C025

C026

C027

C028

C029

PDM Drive Distribution PWBAssy








































NAUTEL #

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS07

CCFS10

CCFS07

CCFS10

CCFS07

CCFS10

CCFS07

CCFS07

CCFS07

CCFS07

CCFS10

CCFS07

CCFS10

CCFS07

CCFS10

CCFS07

CCFS10

CCFS07

CCFS10

CCFS07

CCFS10

CCFS07

CCFS10

CCFS07

CCFS10

CCFS07

CCFS10

VENDOR #

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C1206C105K3RAC

C0805C104K5RAC

C1206C105K3RAC

C0805C104K5RAC

C1206C105K3RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C0805C104K5RAC

C1206C105K3RAC

C0805C104K5RAC

C1206C105K3RAC

C0805C104K5RAC

C1206C105K3RAC

C0805C104K5RAC

C1206C105K3RAC

C0805C104K5RAC

C1206C105K3RAC

C0805C104K5RAC

C1206C105K3RAC

C0805C104K5RAC

C1206C105K3RAC

C0805C104K5RAC

C1206C105K3RAC

C0805C104K5RAC

C1206C105K3RAC

OEM CODE

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433



NAPI99


C048

C049

C050

C051

C052

C053

C054

C055

C056

C057

C058

C059

C060

C040

C041

C042

C043

C044

C045

C046

C047

C069

C070

C071

C072

C073

C074

C075

C076

C077

C078

C061

C062

C063

C064

C065

C066

C067

C068









































NAUTEL #

CCFS07

CCFS10

CCFS07

CCFS10

CCFS07

CCFS10

CCFS07

CCFS10

CCFS07

CCFS10

CCFS07

CCFS10

CCFS07

CCFS10

CCFS07

CCFS10

CCFS07

CCFS10

CCFS07

CCFS10

CCFS07

CCFS10

CCFS07

CCFS10

CCFS07

CCFS10

CCFS07

CCFS10

CCFS07

CCFS10

CCFS07

CCFS10

CCFS07

CCFS10

CCFS07

CCFS10

CCFS07

CCFS10

CCFS07

VENDOR #

C0805C104K5RAC

C1206C105K3RAC

C0805C104K5RAC

C1206C105K3RAC

C0805C104K5RAC

C1206C105K3RAC

C0805C104K5RAC

C1206C105K3RAC

C0805C104K5RAC

C1206C105K3RAC

C0805C104K5RAC

C1206C105K3RAC

C0805C104K5RAC

C1206C105K3RAC

C0805C104K5RAC

C1206C105K3RAC

C0805C104K5RAC

C1206C105K3RAC

C0805C104K5RAC

C1206C105K3RAC

C0805C104K5RAC

C1206C105K3RAC

C0805C104K5RAC

C1206C105K3RAC

C0805C104K5RAC

C1206C105K3RAC

C0805C104K5RAC

C1206C105K3RAC

C0805C104K5RAC

C1206C105K3RAC

C0805C104K5RAC

C1206C105K3RAC

C0805C104K5RAC

C1206C105K3RAC

C0805C104K5RAC

C1206C105K3RAC

C0805C104K5RAC

C1206C105K3RAC

C0805C104K5RAC

OEM CODE

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433



NAPI99


C087

C088

C089

C090

C091

C092

C093

C094

C095

C096

C097

C098

C099

C079

C080

C081

C082

C083

C084

C085

C086

J07

J08

J09

L01

J03

J04

J05

J06

C100

C101

C102

C103

C104

C105

J01

J02







































NAUTEL #

CCFS10

CCFS07

CCFS10

CCFS07

CCFS10

CCFS07

CCFS10

CCFS07

CCFS10

CCFS07

CCFS10

CCFS07

CCFS10

CCFS07

CCFS10

CCFS07

CCFS10

CCFS07

CCFS10

CCFS07

CCFS10

JT90

JT90

JT90

JM44

JM44

JM44

JQ33

LS22

CCFS07

CCFS10

CCFS07

CCFS07

CCFS10

CCFS57

JT90

JT90

L02 Choke,SMT,Common Mode,2200 ohm,200mA,1206 LS22


C1206C105K3RAC

C0805C104K5RAC

C1206C105K3RAC

C0805C104K5RAC

C1206C105K3RAC

C0805C104K5RAC

C1206C105K3RAC

C0805C104K5RAC

C1206C105K3RAC

C0805C104K5RAC

C1206C105K3RAC

C0805C104K5RAC

C1206C105K3RAC

C0805C104K5RAC

C1206C105K3RAC

C0805C104K5RAC

C1206C105K3RAC

C0805C104K5RAC

C1206C105K3RAC

C0805C104K5RAC

C1206C105K3RAC

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

31433

C0805C104K5RAC

C1206C105K3RAC

C0805C104K5RAC

C0805C104K5RAC

31433

31433

31433

31433

C1206C105K3RAC

C2012X5R0J106M

31433

54583

569262-1 AMP/TYCO

569262-1 AMP/TYCO

569262-1 AMP/TYCO

569262-1 AMP/TYCO

569262-1 AMP/TYCO

556591-1 09482

556591-1

556591-1

K22-E9P-NJ

DLW31SN222SQ2L(R

OHS)

DLW31SN222SQ2L(R

OHS)

09482

09482

31781

3EH09

3EH09



NAPI99


L03



NAUTEL #

LS22

L04

L05

L06

L07

L08

L09

L10

L11

L12

R07

R08

R09

R10

R11

R12

R13

R14

L13

R01

R02

R03

R04

R05

R06

R15

R16

R17

R18

R19

R20

R21

R22

R23


































LS22

LS22

LS22

LS22

LS22

LS22

LS22

LS22

LS22

LA16

RFFS01

RFFS01

RFFS01

RFFS01

RFFS01

RFFS01

RFFS01

RFFS01

RFFS01

RFFS01

RFFS01

RFFS01

RFFS01

RFFS01

RFFS01

RFFS01

RFFS01

RFFS01

RFFS01

RFFS01

RFFS01

RFFS01

RFFS01


DLW31SN222SQ2L(R

OHS)

DLW31SN222SQ2L(R

OHS)

DLW31SN222SQ2L(R

OHS)

DLW31SN222SQ2L(R

OHS)

DLW31SN222SQ2L(R

OHS)

DLW31SN222SQ2L(R

OHS)

DLW31SN222SQ2L(R

OHS)

DLW31SN222SQ2L(R

OHS)

DLW31SN222SQ2L(R

OHS)

DLW31SN222SQ2L(R

OHS)

82-152-J

RK73Z1JLTD

RK73Z1JLTD

RK73Z1JLTD

RK73Z1JLTD

RK73Z1JLTD

RK73Z1JLTD

RK73Z1JLTD

RK73Z1JLTD

RK73Z1JLTD

RK73Z1JLTD

RK73Z1JLTD

RK73Z1JLTD

RK73Z1JLTD

RK73Z1JLTD

RK73Z1JLTD

RK73Z1JLTD

RK73Z1JLTD

RK73Z1JLTD

RK73Z1JLTD

RK73Z1JLTD

RK73Z1JLTD

RK73Z1JLTD

RK73Z1JLTD

3EH09

3EH09

3EH09

3EH09

3EH09

3EH09

3EH09

3EH09

3EH09

3EH09

33062

59124

59124

59124

59124

59124

59124

59124

59124

59124

59124

59124

59124

59124

59124

59124

59124

59124

59124

59124

59124

59124

59124

59124



NAPI99


R32

R33

R34

R35

R36

R37

R38

R39

R40

R41

R42

R43

R44

R24

R25

R26

R27

R28

R29

R30

R31

R53

R54

R55

R56

R57

R58

R59

R60

R61

R62

R45

R46

R47

R48

R49

R50

R51

R52









































NAUTEL #

RFFS34

RFFS34

RFFS34

RFFS34

RFFS34

RAD12

RAD12

RAD12

RAD12

RAD12

RAD12

RAD12

RAD12

RFFS01

RFFS34

RFFS34

RFFS34

RFFS34

RFFS34

RFFS34

RFFS34

RAD12

RAD12

RAD12

RAD12

RAD12

RAD12

RAD12

RAD12

RFFS34

RFFS34

RAD12

RAD12

RAD12

RAD12

RAD12

RAD12

RAD12

RAD12


RK73Z1JLTD 59124

RK73H1JLTD4750F 59124

RK73H1JLTD4750F 59124

RK73H1JLTD4750F 59124

RK73H1JLTD4750F 59124

RK73H1JLTD4750F 59124

RK73H1JLTD4750F 59124

RK73H1JLTD4750F 59124

RK73H1JLTD4750F 59124

RK73H1JLTD4750F 59124

RK73H1JLTD4750F 59124

RK73H1JLTD4750F 59124

RK73H1JLTD4750F 59124

RK73H2BL82R5F 59124

RK73H2BL82R5F

RK73H2BL82R5F

59124

59124

RK73H2BL82R5F

RK73H2BL82R5F

RK73H2BL82R5F

RK73H2BL82R5F

RK73H2BL82R5F

59124

59124

59124

59124

59124

RK73H2BL82R5F

RK73H2BL82R5F

RK73H2BL82R5F

RK73H2BL82R5F

RK73H2BL82R5F

RK73H2BL82R5F

RK73H2BL82R5F

RK73H2BL82R5F

59124

59124

59124

59124

59124

59124

59124

59124

RK73H2BL82R5F

RK73H2BL82R5F

RK73H2BL82R5F

RK73H2BL82R5F

59124

59124

59124

59124

RK73H2BL82R5F

RK73H2BL82R5F

59124

59124

RK73H2BL82R5F

RK73H2BL82R5F

59124

59124

RK73H1JLTD4750F 59124

RK73H1JLTD4750F 59124



NAPI99


R63

R64

R65

R66

R67

R68

R69

R70

R71

R72

R73

R74

R75

R76

R77

R78

TP01



















NAUTEL #

RFFS34

RFFS34

RFFS34

RFFS34

RFFS34

RFFS34

RFFS34

RFFS34

RFFS34

RFFS34

RFFS34

RFFS34

RFFS34

RFFS34

RFFS34

RFFS34

HAJ66

TP02

TP03

U01

U02

U03

U04

U05

U06

U07

U08

U09

U10

U11

U12






IC,SMT,Quad 2 to 1 DATA Sel/Mux 3 States Outputs,5V UD67

IC,SMT,Quad 2 to 1 DATA Sel/Mux 3 States Outputs,5V UD67








HAJ66

HAJ66

UT91

UT91

UT91

UD66

UD66

UD66

UD66

UD66

UD66

UD66


RK73H1JLTD4750F 59124

RK73H1JLTD4750F 59124

RK73H1JLTD4750F 59124

RK73H1JLTD4750F 59124

RK73H1JLTD4750F 59124

RK73H1JLTD4750F 59124

RK73H1JLTD4750F 59124

RK73H1JLTD4750F 59124

RK73H1JLTD4750F 59124

RK73H1JLTD4750F 59124

RK73H1JLTD4750F 59124

RK73H1JLTD4750F 59124

RK73H1JLTD4750F 59124

RK73H1JLTD4750F 59124

RK73H1JLTD4750F 59124

RK73H1JLTD4750F 59124

TP-107-02-1-T(RoHS)

COMPONENTS CORP

TP-107-02-1-T(RoHS)

COMPONENTS CORP

TP-107-02-1-T(RoHS)

COMPONENTS CORP

DS26C32ATM(STATIC

)

DS26C32ATM(STATIC

)

DS26C32ATM(STATIC

)

SN74HC257PW(STATI

C)(ROHS)

SN74HC257PW(STATI

C)(ROHS)

DS26C31T/DS26C31M

(STATIC)

NATIONAL

NATIONAL

NATIONAL

TEXAS

TEXAS

NATIONAL

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

NATIONAL

NATIONAL

NATIONAL

NATIONAL

NATIONAL

NATIONAL



NAPI99


U13



NAUTEL #

UD66

U14

U15

U16

U17

U18

U19

U20

U21

U22

U23

U24

U25

U26

U27

U28

U29

U30

U31

U32

U33

U34

U35

U36

U37

U38


























UD66

UD66

UD66

UD66

UD66

UD66

UD66

UD66

UD66

UD66

UD66

UD66

UD66

UD66

UD66

UD66

UD66

UD66

UD66

UD66

UD66

UD66

UD66

UD66

UD66


DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

NATIONAL

NATIONAL

NATIONAL

NATIONAL

NATIONAL

NATIONAL

NATIONAL

NATIONAL

NATIONAL

NATIONAL

NATIONAL

NATIONAL

NATIONAL

NATIONAL

NATIONAL

NATIONAL

NATIONAL

NATIONAL

NATIONAL

NATIONAL

NATIONAL

NATIONAL

NATIONAL

NATIONAL

NATIONAL

NATIONAL



NAPI99


U39



NAUTEL #

UD66

U40

U41

U42

U43

U44

U45







UD66

UD66

UD66

UD66

UD66

UD66


DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

DS26C31T/DS26C31M

(STATIC)

NATIONAL

NATIONAL

NATIONAL

NATIONAL

NATIONAL

NATIONAL

NATIONAL

NAPV03


C01

C02

C03

C04

C05

C06

CR01

CR02

CR03

CR04

CR05

J01

J02

J03

L01

L02

R01

R02

R03

R04

R05

T01

U01

VSWR Protection PWB







Diode, Schottky

Diode, Schottky

Diode, Schottky

Diode, Schottky

Diode, Schottky






Resistor, Variable, Film, 10Kohms, 1/2W

Resistor, MF, 1K Ohms, 1PC 1/4W




Transformer, Gate Drive, HighFreq


NAUTEL #

CCG10

CCG10

CCG07

CCG10

CCG07

CCG10

QK09

QK09

QK09

QK09

QK09

JS12

JS21

JF47

LA16

LA16

RW39

RAB25

RAB25

RAB29

RAB25

TZ74

UT70

VENDOR #

CKR06BX105KRV

CKR06BX105KRV

CKR06BX104KRV

CKR06BX105KRV

CKR06BX104KRV

CKR06BX105KRV

1N5711 (STATIC)

1N5711 (STATIC)

1N5711 (STATIC)

1N5711 (STATIC)

1N5711 (STATIC)

K22-B25P-NJ

R141665161

4-102973-0

82-152-J

82-152-J

3299W-1-103

MF1/4DL1001F

MF1/4DL1001F

MF1/4DL2211F

MF1/4DL1001F

P0584

TL3016ID(STATIC)

OEM CODE

56289

56289

56289

56289

56289

56289

50434

50434

50434

50434

50434

63590

0GP12

09482

33062

33062

80294

59124

59124

59124

59124

01961

01295

Page 92 of 94 NAPV03

NARA59


A09

A10

A11

A12

A13

A14

A15

A16

A17

A18

A19

A20

A21

A01

A02

A03

A04

A05

A06

A07

A08

A30

A31

A32

A33

A34

A35

A36

A37

A38

A39

A22

A23

A24

A25

A26

A27

A28

A29

Final Assy, NX25






Rack Interface PWB Assy



B+ Distribution Assy

Not Used

Control/Exciter Panel Assy. NXseries

Not Used

Not Used

Not Used











Not Used

Not Used

Not Used

Not Used

Not Used

Not Used

Not Used

Not Used

Not Used

Not Used

Fan Tray Assy

Fan Tray Assy

Fan Tray Assy

Fan Tray Assy

Fan Tray Assy

Page 93 of 94 NARA59

VENDOR #

207-6060

207-6060

207-6060

207-6060

207-6060

207-4020-02

207-4050

207-4060

207-7040-01

NOT USED

207-3000-01

NOT USED

NOT USED

NOT USED

207-1000-04

207-1000-04

207-1000-04

207-1000-04

207-1000-04

207-1000-04

207-1000-04

207-1000-04

207-1000-04

207-1000-04

NOT USED

NOT USED

NOT USED

NOT USED

NOT USED

NOT USED

NOT USED

NOT USED

NOT USED

NOT USED

207-8133

207-8133

207-8133

207-8133

207-8133

NAUTEL #

NAH60

NAH60

NAH60

NAH60

NAH60

NAPI100A/01

NAPI98

NAPI99

-

NAX243A

-

NAE96A

-

-

NAP36B

NAP36B

NAP36B

NAP36B

NAP36B

NAP36B

NAP36B

-

-

-

-

NAP36B

NAP36B

-

NAP36B

-

-

-

-

-

207-8133

207-8133

207-8133

207-8133

207-8133

OEM CODE

37338

37338

37338

37338

37338

37338

37338

37338

37338

37338

37338

37338

37338

37338

37338

37338

37338

37338

37338

37338

37338

37338

37338

37338

37338

37338

37338

37338

37338

37338

37338

37338

37338

37338

37338

37338

37338

37338

37338


U01

U02

U03

U04

U05

U06

U07

NARA59

REFDES

A40

A41

A42

A43

A44

A45

L01

L02

L03

L04

L07

L08

L09

T01

DESCRIPTION

Final Assy, NX25

Control/Display Door AssyNX Series

Voltage Probe Kit - NX50

Current Probe - NX50/NX100

Directional Coupler (FWD/REFLPWR) for NX25

Static Drain Choke Winding Detail Assy

Fuse and MOV Assy

Inductor, Choke, 8 mH 60A

Inductor, Choke, 8 mH 60A

Not Used

Not Used

L1 Coil Detail Assy

L2 Coil Detail Assy

L3 Coil Detail Assy

See Sales Order

NAUTEL #

207-2010-05

207-6211

207-6212-06

NAFP106/02

183-6059

207-8288-01

TF44A

TF44A

-

-

207-6182

207-6132

207-6138

%

25/50KW Rectifier Assy

Current Sensor, Hall, 400 amp

Power Supply, 15V, 600W, Univ. PFC, Prl Fctn Rem

ON/OFF

Power Supply, 15V, 600W, Univ. PFC, Prl Fctn Rem

ON/OFF

Power Supply,48V,480W,Univ.Input,PFC, Rem ON/OFF

Power Supply,48V,480W,Univ.Input,PFC, Rem ON/OFF

Power Supply, 12V@200W, 85-264VAC, PFC

207-7055-04

UC59

UG74

UG74

UG54

UG54

UG57

NAX243A


F01

F02

F03

F04

F05

J01

R01

R02

R03

R04

B+ Distribution Assy

Fuse, 70A, 600V, Class J, OpenIndicator





Conn, Coax, BNC, Recept, 50ohm

Resistor, Film, 470K Ohms, 2PC 1/2W

Resistor, Film, 470K Ohms, 2PC 1/2W

Resistor, Film, 68K Ohms, 2PC1/2W

Resistor, Film, 68K Ohms, 2PC1/2W

NAUTEL #

FD24

FD24

FD24

FD24

FD24

JDP26

RD27

RD27

RD17

RD17

VENDOR #

AJT70

AJT70

AJT70

AJT70

AJT70

UG1094/U

RL20S474G

RL20S474G

RL20S683G

RL20S683G

VENDOR #

207-2010-05

207-6211

207-6212-06

207-6214-02

183-6059

207-8288-01

EC207074s Rev A

EC207074s Rev A

NOT USED

NOT USED

207-6182

207-6132

207-6138

% SEE SALES

ORDER

207-7055-04

HCTF400V4B15

PSP-600-15

PSP-600-15

SP-480-48

SP-480-48

SP-200-12

OEM CODE

37338

37338

37338

37338

37338

37338

37338

37338

37338

37338

37338

37338

37338

1AA44

SL575

SL575

SL575

SL575

S8116

OEM CODE

3WCG0

3WCG0

3WCG0

3WCG0

3WCG0

02660

35005

35005

35005

35005

Page 94 of 94 NAX243A

NX25 Troubleshooting Manual Wiring/connector lists

Section 4: Wiring/connector lists

This section contains the wiring information for the hard-wired assemblies of the transmitter, and applicable connector mating information.

Wiring lists provided

Wiring lists are provided in tabular format. Table 4.1 on page 4-2 lists the tables containing wiring information. These tables provide non-printed wiring pattern, point-to-point (source and destination) interconnection information.

Wiring lists not provided

Separate wiring lists are not provided for some assemblies, including:

• Assemblies that have a separate maintenance manual. Refer to the appropriate maintenance manual for detailed wiring information for these assemblies, if provided.

• Assemblies that have their wiring information shown in tables on their assembly detail drawing(s). Refer to the Mechanical Drawings section of this manual for detailed wiring information for these assemblies.

Connector mating information

Where applicable, a connector mating table is provided after the corresponding wiring list.


identifies all provided connector information.

Wire colours

Every effort is made to manufacture assemblies using the wire colour shown in the

Colour

column of the wiring list tables. Sometimes, a white wire will be substituted for the listed colour. In such cases, wires must be identified by their assigned numbers.

Printed wiring board patterns

Printed wiring pattern information for printed wiring boards (PWBs) is beyond the scope of this manual, and therefore not provided.

Issue 0.3 2009-12-08 Page 4-1


Table 4.1: Wiring Lists Provided

Table # Description

Table 4.3

NX25 Transmitter (

page 4-2 )

Table 4.5

Fan Tray Assembly (Nautel Part # 207-8133, page 4-11 )

Table 4.2: Connector Mating Information Provided

Table # Description

Table 4.4

NX25 Transmitter (

page 4-9 )

Table 4.3: NX25 Transmitter

Source

A9E1

A9E2

A1A1E1

A2A1E1

A3A1E1

A4A1E1

A5A1E1

C6-(+)

A1A1E2

A2A1E2

A9E3

A9E4

A9E5

U1-B(-)

U1-B(-)

U1-B(-)

U1-B(-)

U1-B(-)

A3A1E2

A4A1E2

A5A1E2

Destination

A1A1E1

A2A1E1

C1-(+)

C2-(+)

C3-(+)

C4-(+)

C5-(+)

C5-(+)

C1-(-)

C2-(-)

A3A1E1

A4A1E1

A5A1E1

A1A1E2

A2A1E2

A3A1E2

A4A1E2

A5A1E2

C3-(-)

C4-(-)

C5-(-)

Page 4-2

15

?

16

17

11

12

13

14

18

19

20

7

8

9

10

5

6

3

4

Wire #

1

2

Colour Size

Black

Black

6

6

White

White

White

White

White

White

Black

Black

Black

Black

Black

Black

Black

Black

Black

Black

Black

Black

Black

10

10

10

10

10

10

10

10

10

10

10

6

6

6

6

6

6

6

6

Remarks

Issue 0.3 2009-12-08



Source

C6-(-)

L1-1

U9-(+)

U10-(+)

R7-2

R7-1

T1-X1

T1-X2

T1-X3

T1-X1

T1-X0

A45U1-2

A45U2-2

A45U3-2

T1-H1

T1-H2

T1-H3

Fr Door GND

Rr Door GND

Ex Door GND

L1-1

L1-2

L3-1

L3-1

L3-2

L1-2

L3-2

U1-B(-)

RF OUT GND

T1-GND

U8-(AC1)

U8-(AC2)

U9-(AC1)

U9-(AC2)

C6-(+)

U8-(+)

Destination

C5-(-)

U1- B(+)

K1-1

K1-1

K1-2

GND Near R7

U1-AC1

U1-AC2

U1-AC3

A45XF1-1

A45XF1-3

A45XF1-1

T1-X2

T1-X3

Line 1-2

Line 2-2

Line 3-2

GND 1

GND 2

GND 3

L2-1

L2-2

U1- B(+)

L4-1

L4-2

A9E6

A9E7

GND near U1

STA-GND

GND near L4

C1-(+)

C2-(+)

C3-(+)

C4-(+)

U10-(AC1)

K1-1


Colour Size

Black

Black

10

2

White

White

White

White

Black

Black

Black

Braid

Braid

Braid

White

White

Yellow

Yellow

Black

Black

Black

White

Black

Black

White

White

White

White

White

White

Black

Black

Black

Black

Black

Black

Black

Black

2

2

2

14

12

14

14

14

14

14

2

2

2

12

14

14

14

14

14

14

14

14

2

6

14

14

2

2

2

2

2

2

2

2

?

?

?

?

?

?

?

?

?

?

?

?

?

?

?

?

32

33

28

29

30

31

25

?

26

27

?

23

24

?

?

?

22

?

Wire #

?

21

Remarks

Teflon

Teflon

Sleeved

Sleeved

Sleeved

Issue 0.3 2009-12-08 Page 4-3



Source Destination

P1-1 P6-1

P1-2 GND near A17

P1-3

P1-4

P1-5

P1-6

P7-24

P6-2

GND near A17

P7-11

P2-1 P6-4

P2-2 GND near A17

P2-3

P2-4

P7-23

P6-5

P2-5

P2-6

GND near A17

P7-10

P3-1 P6-7

P3-2 GND near A17

P3-3

P3-4

P3-5

P3-6

P6-25

P6-8

GND near A17

P6-12

P5-3

P5-4

P5-5

P5-6

P8-1

P8-2

P8-3

P8-4

P4-1 P7-1

P4-2 GND near A17

P4-3

P4-4

P6-24

P7-2

P4-5

P4-6

GND near A17

P6-11

P5-1 P7-4

P5-2 GND near A17

P8-5

P8-6

P8-7

P6-23

P7-5

GND near A17

P6-10

P14-1

P14-2

P14-3

P14-4

P14-5

P14-6

P14-7


Colour Size

White

Black

22

22

White

White

Black

White

Black

White

White

Black

White

Black

White

White

Black

White

White

Black

White

White

Black

Black

White

White

Black

White

White

Black

White

White

White

Black

White

White

Black

White

White

20

20

20

20

22

22

22

22

22

22

20

22

22

22

22

22

22

22

22

22

22

22

22

22

22

22

22

22

22

22

22

22

22

22

22

Wire #

101

102

131

132

133

134

127

128

129

130

123

124

125

126

119

120

121

122

135

136

137

115

116

117

118

111

112

113

114

107

108

109

110

103

104

105

106

Remarks

Page 4-4 Issue 0.3 2009-12-08



Source

P8-8

P8-9

P9-17

P9-4

P9-18

P9-19

P9-20

P9-21

P9-23

P9-24

P9-8

P9-10

P9-11

P9-12

P9-25

P9-14

P9-15

P9-16

P10-1

P10-5

P10-6

P8-18

P8-19

P8-21

P9-1

P9-2

P9-3

P9-5

P9-6

P8-10

P8-23

P8-12

P8-24

P8-25

P8-14

P8-15

P8-16

Destination

P14-8

P14-9

P16-4

P16-1

U1TB3-10

P28 (CENTER)

P28 (BODY)

U1TB2-1

U1TB2-2

U1TB3-3

U1TB3-16

U1TB3-17

U1TB1-8

U1TB1-4

U1TB3-5

P16-3

P16-2

U1TB3-8

P15-1

P15-5

P15-6

P14-10

P14-23

P14-12

P14-24

P14-25

P14-14

P14-15

P14-16

P14-18

P14-19

P14-21

U1TB1-1

U1TB1-5

U1TB3-8

U1TB2-3

U1TB2-3


Colour Size

White

Black

20

20

White

Shield

White

White

White

White

White

Black

Black

White

White

White

Shield

Black

Black

White

White

White

Black

White

White

White

White

White

Black

Black

Black

White

Shield

White

Black

Shield

Black

White

White

22

24

24

22

-

22

22

22

20

22

20

-

22

22

22

24

24

22

22

22

22

24

22

22

22

22

22

-

22

20

20

-

22

22

22

Wire #

138

139

164

165

166

167

161

161

162

163

157

158

159

160

154

155

156

157

168

169

170

150

151

152

153

146

147

148

149

141

143

144

145

140

140

141A

141B

Remarks

1-Conductor

Shielded

2-Conductor

Shielded

1-Conductor

Shielded

1-Conductor

Shielded

Issue 0.3 2009-12-08 Page 4-5



Source

P11-1

P11-2

-

E3

E4

P17-4

P17-9

P17-2

P17-5

-

-

P17-7

P17-6

P12-1

P12-2

P13-1

P13-2

P17-1

P17-6

P17-3

P17-8

P11-14

P11-15

P11-16

P11-17

U3-P

U3-(V+)

P11-23

P11-24

P11-3

P11-6

P11-7

P11-8

P11-9

P11-10

P11-11

P11-12

Destination

U5-(V-)

U5-(V-)

U3-(V+)

U3-(V-)

U4-(V+)

U4-(V-)

P27-4

P27-1

P23-Centre

P23-Core

P24-Centre

P24-Core

P27-2

P27-6

-

-

P27-5

P27-8

-

A45XF1-2

A45XF1-4

U5-(V+)

P26-3

U4-POK

U3-POK

P25-4

P26-4

K1-AUX-C

U1TB3-6

U6-(V-)

U6-(V-)

U5-(V+)

U6-(V+)

U4-P

U4-(V+)

U3-RGC

U4-RGC


Wire #

171

172

198

198

199

200

195

195

196

197

193

193

194

194

189

190

191

192

201

202

203

185

186

187

188

181

182

183

184

177

178

179

180

173

174

175

176

White

Black

White

Black

White

Shield

Centre

Shield

Centre

Shield

White

White

White

Shield

Not Used

Not Used

Not Used

White

White

Black

Black

White

White

White

White

Black

Black

White

White

White

White

White

White

White

White

Colour Size

Black

Black

20

20

Remarks

10

10

22

22

20

20

20

20

22

22

22

22

20

22

22

22

-

-

-

14

14

10

10

10

10

Torque 1.3 Nm

Torque 1.3 Nm

Torque 1.3 Nm

Torque 1.3 Nm

Coaxial Cable

-

-

RG188

-

RG188A Coaxial Cable

RG188 Coaxial Cable

22

22

-

RG188 Coaxial Cable

Page 4-6 Issue 0.3 2009-12-08



Source

U3-L

U3-N

U7-(V+)

U7-(V-)

U7-(V-)

P11-4

P11-5

U7-L

U7-N

U1TB3-4

P31-Centre

P31-Core

P33-1

P33-2

U3-(V-)

W65P1-(+)

W65P1-(-)

W61P1

W62P1

W63P1

W64P1

U3-G

U3-L

U3-N

U3-G

U6-L

U6-N

U6-G

U6-L

U6-N

U6-G

U7-L

U7-N

U7-G

GND Near A17

U7-(V+)

U7-(V-)

Destination

A45XF1-2

A45XF1-4

E1-A

E2-A

GND Near U3

U6-(V+)

P25-3

K1-TB1-1

K1-TB1-2

K1-AUX-NO

P32-Centre

P32-Core

P34-7

P34-8

U4-(V-)

E1-B

E2-B

W61P2

W62P2

W63P2

W64P2

GND near U3

U4-L

U4-N

U4-G

A45XF1-2

A45XF1-4

U4-G

U5-L

U5-N

U5-G

U5-L

U5-N

U5-G

GND Near U3

P30-4

P30-1


Wire #

204

205

?

?

?

?

?

-

234

230

230

233

233

226

227

228

229

222

223

224

225

218

219

220

221

214

215

216

217

210

211

212

213

206

207

208

209

Colour Size

White

White

14

14

Centre

Shield

White

Shield

Black

Blk/Ws

Black

White

Black

Black

White

White

White

White

White

Black

White

14

14

White 14

Black 14

White

White

14

14

Black 14

White 14

White 14

Black 14

White

White

14

14

Black 14

Black 14

White

Black

18

18

10

18

18

-

RG188

-

22

22

14

14

22

18

18

18

20

Remarks

Coaxial Cable

1-Conductor

Shielded

Issue 0.3 2009-12-08 Page 4-7



Source

W66P1-Pin

W67P1-Pin

W69P1-PIN

W70P1-PIN

U3-(V+)

U3-(V-)

U4-(V-)

Destination

W66P2-Socket

W67P2-Socket

W69P2-Socket

W70P2-Socket

U4-(V+)

U4-(V-)

GND near U3


?

?

?

?

?

Wire #

?

?

Colour Size

Black

Black

Black

8

8

8

Remarks

Page 4-8 Issue 0.3 2009-12-08


Table 4.4: NX25 Transmitter - Connector Mating Information

Connector

P1

P2

Mate

A35J1

A36J1

P27

P28

E3

E4

W2P1

W2P2

W4P1

W4P2

W6P1

P19

P20

P21

P22

P23

P24

P25

P26

P11

P12

P13

P14

P15

P16

P17

P18

P3

P4

P5

P6

A37J1

A38J1

A39J1

A6J8

P7

P8

A6J9

A6J11

P9 A6J12

P10 A6J14

A6J15

A6J6

A6J7

A11A1J1

A8J9

U2J1

A11A1J4

U3CN1

U3CN3

U3CN2

U4CN1

U4CN3

A42J1

A41J1

U5CN1

U6CN1

A43J3

A9J1

A6E1

A6E2

A15A1J1

A8J1D

A16A1J1

A8J2D

A17A1J1


Issue 0.3 2009-12-08 Page 4-9


Table 4.4: NX25 Transmitter - Connector Mating Information

W65P1

W66P1

W66P2

W67P1

W67P2

W68P1

W69P1

W69P2

W70P1

W70P2

W61P1

W61P2

W62P1

W62P2

W63P1

W63P2

W64P1

W64P2

W14P1

W14P2

W16P1

W16P2

W18P1

W18P2

W20P1

W20P2

W6P2

W8P1

W8P2

W10P1

W10P2

W12P1

W12P2

A11A1J15A

A8J6

A11A1J15B

A8J7

A11A1J15C

A8J8

A11A1J14A

A7J4

A40U6P/S

A11J2

A40A1U1COM2

A11J3

A40U1COM1

A40U1P/S

A9J1

A1J5

A9J5

A5J5

A8J3D

A18A1J1

A8J4D

A19A1J1

A8J5D

A20A1J1

A8J1H

A21A1J1

A8J2H

A22A1J1

A8J3H

A23A1J1

A8J4H

A24A1J1

A8J5H


Page 4-10 Issue 0.3 2009-12-08


Table 4.5: Wiring List - Fan Tray Assembly (Nautel Part # 207-8133)

Source

J1-01

J1-02

J1-03

J1-04

J1-05

J1-06

Destination

B1 (V+)

B1 (V-)

B1 (Tach)

B2 (V+)

B2 (V-)

B2 (Tach) -

-

-

-

Wire # Colour Size

-

Red

Black

22

22

Yellow

Red

Black

Yellow

22

22

22

22

Remarks

Part of B1

Part of B1

Part of B1

Part of B2

Part of B2

Part of B2

Issue 0.3 2009-12-08 Page 4-11


Page 4-12 Issue 0.3 2009-12-08

NX25 Troubleshooting Manual Reading Electrical Schematics

Section 5: Reading Electrical Schematics

This section contains electrical schematics and logic diagrams for the transmitter. Block diagrams, simplified electrical schematics, and logic diagrams may be included. Refer to Table 5.1 on page 5-5 for an itemized listing.

Component values

Unless otherwise specified on the logic or schematic diagram, the following defaults apply:

• Resistor values are shown in ohms (K = 1,000 and M = 1,000,000)

• Resistor power ratings are not shown when less than 0.5 W

• Capacitor values are shown in microfarads (uF)

• Unidentified diodes are part number 1N4938 (Nautel Part # QAP29)

Graphic symbols

The graphic symbols used on electrical schematics are in accordance with American National Standard

ANSI Y32.2-1975 - Graphic Symbols for Electrical and Electronic Diagrams .

Logic symbols

The logic symbols used on electrical schematics and logic diagrams are in accordance with American

National Standard ANSI Y32.14-1975 - Graphic Symbols for Logic Diagrams .

Reference designations

Referenced designations were assigned in accordance with American National Standard ANSI

Y32.16-1975 - Reference Designations for Electrical and Electronic Parts and Equipment .

Each electrical symbol is identified with its basic reference designation. To obtain the full reference designation for a specific part, prefix this basic identifier with the reference designation assigned to all higher assemblies. For example, the complete designation for a resistor ( R1 ) on a printed wiring board

( A1 ), that is part of a larger board ( A2 ), would be A2A1R1 .

Issue 0.3 2009-12-08 Page 5-1


Unique symbols

Nautel uses unique symbols on electrical schematics to describe logic (two-state) signals. These signals differ from single-state signals or analog signals that may have multiple values.

Type of inputs and outputs

On electrical schematics, names used to describe logic (two-state) input and output signals are prefixed with a # symbol.

Logic level convention

The # prefix identifies an input or output signal that has two distinct states: high and low .

The suffix on an input or output signal name identifies the active (true) state of the signal. The high suffix (+) indicates the more positive of the two levels used to represent the logic states. The low suffix

(-) indicates the less positive of the two levels.

Two types of logic, positive and negative, may be represented on a particular schematic. In positive logic, high represents the active (true) state, and low represents the inactive (false) state. In negative logic, low represents the active (true) state, and high represents the inactive (false) state.

Identifying schematic diagrams

Each electrical schematic in this section is identified by a number that is both the figure number and the page number. The numbers are assigned sequentially are prefixed by the letters SD . The electrical schematics and logic diagrams included in this section are listed in Table 5.1 on page 5-5 .

Structure of schematics

The electrical schematics are structured in a hierarchical format that is based on function and signal flow. Wherever practical, the signal flow is from left to right. Normally, inputs originate on the lefthand side and outputs extend to the right-hand side. Exceptions are shown by an arrow indicating the direction of signal flow.

Note: The physical location of a part or assembly was not necessarily a factor during creation of the schematic. The full reference designation assigned to a part or assembly, in conjunction with the family tree (see Section 3, “Parts Lists” on page 3-1 ) and the assembly detail drawings (see Section

6, “Mechanical Drawings” on page 6-1 ), will identify its location.

Page 5-2 Issue 0.3 2009-12-08


Figures SD-1 through SD-4 identify each major stage and its detailed interconnection. Each stage contains cross-references that identify which blocks are the signal sources for inputs, or the destinations for outputs.

When a sub-function is treated as a block in figures SD-1 through SD-4 , its detailed circuit information is included in its own schematic drawing(s), which is also included in this section.

Locating schematic diagram(s) for a functional block

The text inside a functional block provides the key to locating its schematic diagram(s).

1. When a functional block is assigned a reference designation (e.g., A2A1 ), refer to the family trees in Section 3, “Parts Lists” on page 3-1 . Follow the family tree branches to the block that contains the desired reference designation, and associated Nautel nomenclature (e.g.,

NAPA19A Modulator/Power Amplifier PWB ). Note the reference designations and Nautel nomenclatures of all higher assemblies in the path.

Example: A15 NAP36B RF Power Module > A15A1 NAPA19A Modulator/Power Amplifier

PWB .

2. Refer to Table 5.1 on page 5-5 and use the reference designation and Nautel nomenclature to identify the appropriate schematic diagram(s).

Example: NAPA19A Modulator/Power Amplifier PWB is shown on schematic SD-23 .

3. If necessary, refer to the referenced figure (e.g., SD-23 ) in the schematics at the end of this section and locate the next, lower-level assembly. Then, repeat this procedure until the desired schematic diagram is found.

Locating a part or assembly on a schematic

The full reference designation assigned to a part or assembly is the key to physically locating that part or assembly.

Note: Full reference designations contain the assembly hierarchical coding. When the end item is divided into units (cabinets), the first coding is a unit number (1, 2, 3, etc.). When the end item is divided into assemblies, the first coding is an assembly number (A1, A2, A3, etc.). If a unit or an assembly is divided into sub-assemblies, assembly coding that identifies assembly relationship (1A1,

A2A1, A2A1A1, etc.) is added.

1. Refer to the family trees in Section 3, “Parts Lists” on page 3-1 .

Issue 0.3 2009-12-08 Page 5-3


2. Follow the family tree branches to the block that contains the desired reference designation, while noting the Nautel nomenclatures and names of all higher assemblies in the path.


PWB .

Note: The drawings in the Mechanical Drawings section depict the assembly detail of the transmitter and its modules and assemblies.

3. Refer to Table 6.1

in Section 6, “Mechanical Drawings” on page 6-1 . Use the Nautel nomenclature and name of each family tree block in the path, starting at the highest assembly

– this is normally Figure MD-1 – to determine the figure number(s) for that assembly.

Example: NAPA19A Modulator/Power Amplifier PWB is shown on MD-16 .

4. Refer to the referenced figure (e.g., MD-16 ) in Section 6.1, “List of Mechanical Drawings” on page 6-2 to locate the desired part or assembly.

Page 5-4 Issue 0.3 2009-12-08


Table 5.1: List of Electrical Schematics

Figure # Title

SD-1

SD-2

NX25 Transmitter - Ac-Dc Power Stage

NX25 Transmitter - Exciter Stage

SD-11

SD-12

SD-13

SD-14

SD-15

SD-16

SD-17

SD-18

SD-3

SD-4

SD-5

SD-6

SD-7

SD-8

SD-9

SD-10

SD-19

SD-20

SD-21

SD-22

SD-23

SD-24

SD-25

NX25 Transmitter - Control/Monitor Stage

NX25 Transmitter - RF Power Stage (Sheet 1 of 2)

NX25 Transmitter - RF Power Stage (Sheet 2 of 2)

NX25 Transmitter - 5 kW RF Power Block

NAPC154C Control/Interface PWB (Sheet 1 of 7)







NAPI106 Remote Interface PWB

NAPX36 GPS Sync PWB (Optional)

NAPI100A/01 Rack Interface PWB (Sheet 1 of 3)



NAPI98 RF Drive Distribution PWB (Sheet 1 of 2)

NAPI98 RF Drive Distribution PWB (Sheet 2 of 2)

NAPI99 PDM Distribution PWB (Sheet 1 of 2)

NAPI99 PDM Distribution PWB (Sheet 2 of 2)

NAP36B RF Power Module and NAPA19A Modulator/Power Amplifier PWB (Sheet 1 of 2)

NAP36B RF Power Module and NAPA19A Modulator/Power Amplifier PWB (Sheet 2 of 2)

NAPV03 VSWR Protection PWB

Issue 0.3 2009-12-08 Page 5-5


Page 5-6 Issue 0.3 2009-12-08

+

Ø 1

AC-1

LINE

1

FROM

3-PHASE

AC POWER

SOURCE

Ø 2

AC-2 2

Ø 3

AC-3 3

GND

AC-COM

4

5

6

1

2

3

3

4

5

6

1

2

1

2

3

4

5

6

T1

LOAD

1

2

3

310VAC (L-L)

AT NO LOAD

0

E1

L

N

G

V+

V-

U3

15V POWER

SUPPLY

1500W

A

POK

RGC

P

L

N

G

U4

15V POWER

SUPPLY

1500W

B

POK

RGC

P

V+

V-

3 1

U1 U2 U3

4

F2 F1

15A 15A

2

420TPMOV

A45

FUSE AND MOV ASSY

E3

E4

L

N

G

U5

48V POWER

SUPPLY

480W

A

CN1

V+

V-

3

4

P25

L

N

G

U6

48V POWER

SUPPLY

480W

B

CN1

V+

V-

3

4

P26

+15V (A)

+15V RETURN (A)

# 15V PS OK (A) +

GND

+15V (B)

+15V RETURN (B)

# 15V PS OK (B) +

GND

+48V (A)

+48V RETURN

INHIBIT 48V (A) +

INHIBIT 48V (A) -

+48V (B)

+48V RETURN

INHIBIT 48V (B) +

INHIBIT 48V (B) -

50/60 Hz

VAC (L-L)

340

360

380

400

420

440

TAP

6

5

4

3

2

1

A

B

P12

1

2

P11

8

23

P13

1

2

P11

7

24

4

17

14

15

6

10

1

2

5

9

3

16

E1

E2

(PART 1 OF 6)

A6

RACK

INTERFACE

PWB

J12

J6

J15

J7

J15

J15

J12

J11

C

1

19

2

18

10

23

8

P9

+15V

-15V

GND

+48V (RECT FAN 1)

TACH (RECT FAN 1)

+48V (RECT FAN 2)

TACH (RECT FAN 2)

20

P9

17

4

21

12

25

2

3

15

16

8

21

18

19

5

6

10

23

12

24

25

1

4

7

9

14

P8

15

14

6

5

11

16

3

24

12

11

P11

GND RECT FAN 2

GND RECT FAN 1

GND

B+ LEVEL CONTROL

+30V

+30V RETURN

+12V

TB1

1

4

5

8

TB2

2

1

3

TB3

10

3

8

6

4

RECTIFIER

ASSY

+

B2

-

U1

# PHASE LOST -

RECTIFIER TEMP

DC CURRENT

B+ SAMPLE

# B+ CHARGE +

# INHIBIT SCR -

+

B1

-

-

U1RT1 t°

TB3

16

17

5

+

P16

1

2

4

J1

U2

HALL EFFECT

CURRENT

SENSOR J1 3

P16

L

N

G

U7

12V POWER

SUPPLY

200W

V+

V-

S2070113 V2

L1

8mH

L2

8mH

E6

A9

B+ DISTRIBUTION

E1

F1

70A

E2

F2

70A

E3

F3

70A

E4

E7

F4

70A

E5

F5

70A

R1

470K

0.5W

R3

68K

0.5W

R2

470K

0.5W

R4

68K

0.5W

J1 P28

AC AC

U8

GBPC3508

AC AC

U9

GBPC3508

C1

10,000

450V

R1

27K

13W

C2

10,000

450V

R2

27K

13W

C3

10,000

450V

R3

27K

13W

1 2

C

2

NC

NO

K1

1

R7

50

350W

Issue 0.3 2009-12-08

B+ (1)

B+ (1)

B+ (2)

B+ (2)

B+ (3)

TO

RF POWER

STAGE

B+ RETURN (1)

B+ RETURN (2)

B+ RETURN (3)

B+ RETURN (4)

B+ RETURN (5)

+5V

+5V

+5V

+5V

+15V

+15V

+15V

+15V

-15V

-15V

B+ SAMPLE

INTERNAL BUS (+)

INTERNAL BUS (-)

GND

GND

GND

GND

GND

+12V

TO

EXCITER

STAGE

TO

CONTROL/

MONITOR

STAGE

Figure SD-1: NX25 Transmitter - Ac-Dc Power Stage

SD-1

Issue 0.3 2009-12-08

FROM LAN/

EXPORTER

FROM

AC-DC POWER

STAGE

FROM

RF POWER

STAGE

TX (+)

TX (-)

1

2

RX (+) 3

SHIELD

SHIELD

4

5

RX (-) 6

SHIELD 7

SHIELD 8

P23

6

8

5

+5V

+5V

+5V

+5V

+15V

+15V

+15V

+15V

-15V

-15V

B+ SAMPLE

INTERNAL BUS (+)

INTERNAL BUS (-)

GND

GND

GND

GND

GND

FORWARD POWER SAMPLE

REFLECTED POWER SAMPLE

RF VOLTAGE SAMPLE

RF CURRENT SAMPLE


S2070115 V1

J1

J2

A11A7

EXGINE

PWB

(OPTIONAL)

J5

J8

GND

+3.3V

+5V

1

2

3

4

5

6

7

8

1

2

3

4

5

6

7

8

9

10

P31

SERIAL FRAME (+)

SERIAL FRAME (-)

(N/U)

SERIAL CLOCK (+)

SERIAL CLOCK (-)

(N/U)

SERIAL DATA (+)

SERIAL DATA (-)

INTERNAL BUS (+)

(N/U)

INTERNAL BUS (-)

(N/U)

10 MHz

GND

(N/U)

GND

(N/U)

(N/U)

J2

A11A10

VSWR

PROTECTION

PWB

J1

1

2

3

4

5

6

9

10

7

8

1

2

3

4

5

6

7

8

J20

P14

5

6

18

19

15

16

2

3

A1

A18

A16

J21

J22

J16

B+ SAMPLE

VOLTAGE SAMPLE (EXCITER A)

GND

CURRENT SAMPLE (EXCITER A)

GND

J17

INTERNAL BUS (+)

INTERNAL BUS (-)

# ADDRESS (EXCITER A) +

1 PPS

1 kHz

SERIAL CLOCK

SERIAL DATA

SERIAL FRAME

ANALOG AES/EBU

IQ AES/EBU

BALANCED AUDIO (+)

BALANCED AUDIO (-)

(PART 1 OF 4)

A11A1

CONTROL/

INTERFACE

PWB

GND

# PDM INHIBIT -

EXT 10 MHz

+5V

+5V

+15V

-15V

GND

P17

B1

B2

B3

B4

B5

B10

B16

B19

B22

1

6

7

8

21

10

23

12

24

25

7

9

14

1

4

4

9

3

8

J1

J4

J22

GND

GND

GND

GND

GND

# RF DRIVE LATCH +

+5V

-5V

# PDM INHIBIT -

J18

B+ SAMPLE

VOLTAGE SAMPLE (EXCITER B)

GND

CURRENT SAMPLE (EXCITER B)

GND

INTERNAL BUS (+)

J19

INTERNAL BUS (-)

# ADDRESS (EXCITER B) -

1 PPS

1 kHz

SERIAL CLOCK

SERIAL DATA

SERIAL FRAME

ANALOG AES/EBU

IQ AES/EBU

BALANCED AUDIO (+)

BALANCED AUDIO (-)

GND

# PDM INHIBIT -

EXT 10 MHz

+5V

+5V

+15V

-15V

GND

3

4

5

6

7

2

15

22

9

16

17

12

24

13

25

18

19

8

20

10

8

11

23

10

22

8

11

23

10

22

6

7

4

5

2

15

3

19

8

20

10

22

9

16

17

12

24

13

25

18

J1

A11A2

DIGITAL

AM EXCITER

PWB

A

J1

J2

J1

J2

A11A3

DIGITAL

AM EXCITER

PWB

B

J1

J2

J2

3

18

4

15

7

9

12

20

2

1

21

24

14

13

25

19

5

16

6

17

1

14

21

23

11

J16

RF DRIVE (EXCITER A) (+)

RF DRIVE (EXCITER A) (-)

PDM 1 (EXCITER A)

PDM 2 (EXCITER A)

PDM 3 (EXCITER A)

PDM 4 (EXCITER A)

PDM 5 (EXCITER A)

PDM 6 (EXCITER A)

PDM 7 (EXCITER A)

PDM 8 (EXCITER A)

PDM 9 (EXCITER A)

GND

GND

GND

GND

GND

GND

DUMP 1 (EXCITER A)

DUMP 2 (EXCITER A)

DUMP 3 (EXCITER A)

J17

SPDIF AUDIO (EXCITER A)

STREAMING BUS (EXCITER A)

GND

GND

GND

(PART 2 OF 4)

A11A1

CONTROL/

INTERFACE

PWB

6

17

3

18

4

15

7

9

12

20

21

24

14

2

1

13

25

19

5

16

1

14

21

23

11

J18

RF DRIVE (EXCITER B) (+)

RF DRIVE (EXCITER B) (-)

PDM 1 (EXCITER B)

PDM 2 (EXCITER B)

PDM 3 (EXCITER B)

PDM 4 (EXCITER B)

PDM 5 (EXCITER B)

PDM 6 (EXCITER B)

PDM 7 (EXCITER B)

PDM 8 (EXCITER B)

PDM 9 (EXCITER B)

GND

GND

GND

GND

GND

GND

DUMP 1 (EXCITER B)

DUMP 2 (EXCITER B)

DUMP 3 (EXCITER B)

J19

SPDIF AUDIO (EXCITER B)

STREAMING BUS (EXCITER B)

GND

GND

GND

J4

5

2

P17

J14

A4

A5

A6

A7

A8

A1

W64P1

A2

A3

J15

PDM 1 (+)

PDM 1 (-)

PDM 2 (+)

PDM 3 (+)

PDM 3 (-)

PDM 2 (-)

DUMP (+)

DUMP (+)

PDM 1 (+)

PDM 1 (-)

PDM 2 (+)

PDM 3 (+)

PDM 3 (-)

PDM 2 (-)

DUMP (+)

DUMP (+)

PDM 1 (+)

PDM 1 (-)

PDM 2 (+)

PDM 3 (+)

PDM 3 (-)

PDM 2 (-)

DUMP (+)

DUMP (+)

B3

B4

B5

B6

B1

W62P1

B2

B7

B8

A3

A4

A5

A6

A1

W61P1

A2

A7

A8

C1

W63P1

C2

C3

C4

C5

C6

C7

C8

+15V

-15V

RF DRIVE 1 (+)

RF DRIVE 1 (-)

(N/U)

(N/U)

(N/U)

(N/U)

RF DRIVE 2 (+)

RF DRIVE 2 (-)

GROUP A TO

RF POWER

STAGE

GROUP B

GROUP C

Figure SD-2: NX25 Transmitter - Exciter Stage

SD-2

FROM

AC-DC POWER

STAGE

+12V

# DIGITAL INPUT 01 8



GND 5

4 # DIGITAL INPUT 04 -

# DIGITAL INPUT 05 -


3

2

GND 1




GND 5


7

6


N/C

GND

3

2

1




GND

6



N/C

GND

2

1

5

4

8

7

EXTERNAL +15V SUPPLY


8

7

GND 6

GND 5

J7

J8

J9

(PART 1 OF 2)

A11A4

REMOTE

INTERFACE

PWB

J2

6

7

8

9

4

5

1

2

3

10

11

12

13

14

15

16

17

18

19

J24





GND





GND





GND





S2070114 V1

J6

22

23

24

25

GND

GND



(PART 3 OF 4)

A11A1

CONTROL/

INTERFACE

PWB

BALANCED

ANALOG

AUDIO

(+)

(-)

SHLD

2

3

1

ANALOG

AES/EBU

(+)

(-)

SHLD

2

3

1

I/Q

AES/EBU

(+)

(-)

SHLD

2

3

1

EXTERNAL

INTERLOCK

PDM INHIBIT

(+)

(-)

3

4

1

2

EXT 10 MHz J8

EXT 1 PPS J9

J12

J11

J10

J6

J27

A1

A2

A3

A4

A5

A6

A7

A8

A9

J27

B1

B2

B3

B4

B5

B6

B7

B8

B9

J6

J3

J2

8

1

4

5

6

7

8

9

4

5

6

1

2

3

W67P1

7

8

9

2

3

1

W66P1

STREAM(-)

(N/U)

GND

(N/U)

(N/U)

STREAM(+)

(N/U)

GND

(N/U)

DCD

TXD

RXD

DTR

GND

DSR

RTS

CTS

(N/U)

W66P2

4

5

6

7

8

9

1

2

3

INTERNAL BUS (+)

GND

GND

(N/U)

# ADDRESS (GPS A) +

INTERNAL BUS (-)

+5V

(N/U)

(N/U)

INTERNAL BUS (+)

GND

GND

(N/U)

# ADDRESS (GPS B) -

INTERNAL BUS (-)

+5V

(N/U)

(N/U)

7

8

9

10

4

5

6

1

2

3

P30

+

-

P33

1

W67P2

2

1

2

3

4

5

6

7

8

9

7

8

9

10

4

5

6

1

2

3

PS

RST1

AUI

COMPUTER

COM1

U1

MOTHERBOARD

U2

CPU

VGA

U3

MEMORY IC

U5

MEMORY, CF

COM2 COM3

B1

FAN

ETHERNET

7

8

9

10

4

5

6

1

2

3

1

2

3

4

5

6

7

8

9

USB USB

KEYBOARD *

(USB)

MOUSE *

(USB)

GPS ANTENNA J1

3

4

5

1

2

6

7

8

9

GPS ANTENNA J1

1

2

3

4

5

6

7

8

9

A11A5

GPS

PWB

A

J2 J3

A11A6

GPS

PWB

B

J2 J3

CPU

*

3

4

5

6

7

8

1

2

1

2

3

4

5

6

7

8

7

8

9

10

4

5

6

1

2

3

MONITOR

KEYBOARD *

4

5

6

7

8

9

1

2

3

W65P1

+

-

1

2

3

4

5

6

7

8

9

4

5

6

7

8

9

1

2

3

PS

U4

ADVANCED

USER

INTERFACE

PURPLE

GRAPHICAL

DISPLAY/

TOUCH

SCREEN

GREEN

A40

CONTROL/

DISPLAY

DOOR

* SHOWN FOR REFERENCE ONLY

1 PPS (GPS A) (+)

1 PPS (GPS A) (-)

10 MHz (GPS A) (+)

1 kHz (GPS A) (+)

1 kHz (GPS A) (-)

10 MHz (GPS A) (-)

(N/U)

(N/U)

1 PPS (GPS B) (+)

1 PPS (GPS B) (-)

10 MHz (GPS B) (+)

1 kHz (GPS B) (+)

1 kHz (GPS B) (-)

10 MHz (GPS B) (-)

(N/U)

(N/U)

Issue 0.3 2009-12-08

A1

A2

A3

A4

A5

A6

A7

A8

J5

J23

# DIGITAL OUTPUT 01 -




GND





GND





GND





GND

ANALOG OUTPUT 1

ANALOG OUTPUT 2

GND

ANALOG OUTPUT 3

ANALOG OUTPUT 4

+15V

J24

+15V

20

21

4

5

6

7

8

9

1

2

3

13

14

15

16

10

11

12

17

18

19

20

21

22

23

24

25

(PART 4 OF 4)

A11A1

CONTROL/

INTERFACE

PWB

J6

5

6

7

8

J2

J3

(PART 2 OF 2)

A11A4

REMOTE

INTERFACE

PWB

J1

+15V (EXTERNAL)

GND

(N/C)

(N/C)

J4

J5

J6

5

4

3

2

7

6

P34



GND




6

5

4

3

2

1

8

7

4

3

2

1

8

4

3

2

1

7

6

5




GND



N/C

GND




GND



N/C

GND

ANALOG OUTPUT 1

ANALOG OUTPUT 2

ANALOG OUTPUT 3

ANALOG OUTPUT 4

J7 RF MONITOR SAMPLE

B1

B2

B3

B4

B5

B6

B7

B8

J5

J13

DCD

TXD

RXD

DTR

GND

DSR

RTS

CTS

N/C

1

2

3

4

7

8

5

6

9

DEBUG

(RS-232)

Figure SD-3: NX25 Transmitter - Control/Monitor Stage

SD-3

FROM

EXCITER

STAGE

GROUP A

GROUP B

GROUP C

PDM 1 (+)

PDM 1 (-)

PDM 2 (+)

PDM 3 (+)

PDM 3 (-)

PDM 2 (-)

DUMP (+)

DUMP (-)

PDM

PDM

W61P2

W62P2

8

W63P2

6

7

8

4

5

1

2

3

8

P15

6

5

1

J6

(PART 1 OF 5)

A8

PDM

DISTRIBUTION

PWB

J7

J8

J9

GND

PDM IN CTRL

+5V

J1

J2

NOTE: SEE FIGURE SD-6 FOR 5kW RF POWER BLOCK DETAIL

D

W2P2 W2P1 A15A1J1

PDM CABLE

H

W4P2 W4P1 A16A1J1

PDM CABLE

RF DR 1 (+)

RF DR 1 (-)

(N/U)

(N/U)

(N/U)

(N/U)

RF DR 2 (+)

RF DR 2 (-)

W64P2

6

7

8

4

5

1

2

3

P10

1

5

6

S2070116 V3

J5

J13

J4

(PART 1 OF 5)

A7

RF DRIVE

DISTRIBUTION

PWB

J14

+5V

PDM IN CTRL

GND

(PART 2 OF 6)

A6

RACK

INTERFACE

PWB

J9

P7

11 24

FROM

AC-DC POWER

STAGE

J8

2 1

P6

J1

J3

J3

9

10

20

21

22

11

5

3

4

8

6

W69P1

25

7

19

1

2

14

15

16

17

18

12

13

23

24

D4

D5

D6

D7

D8

W22P1 W22P2

D1

D2

D3

1

2

3

4

5

6

7

8

F5

F6

F7

F8

W21P1 W21P2

F1

F2

F3

F4

1

2

3

4

5

6

7

8

A1A1J12

RF DR 1 (+)

RF DR 1 (-)

RF DR 1 (+)

RF DR 2 (+)

RF DR 2 (-)

RF DR 1 (-)

RF DR 2 (+)

RF DR 2 (-)

A1A1J11

RF DR 1 (+)

RF DR 1 (-)

RF DR 1 (+)

RF DR 2 (+)

RF DR 2 (-)

RF DR 1 (-)

RF DR 2 (+)

RF DR 2 (-)

5KW POWER

BLOCK

W69P2

9

10

20

21

22

11

6

5

3

4

8

25

7

19

1

2

14

15

16

17

18

12

13

23

24

A1A1J6

MODULE BUS (+)

MODULE BUS (-)

FAN TACH (F)

FAN TACH (R)

+15V

+15V

+15V

+15V

+15V

+15V

+15V RETURN

+15V RETURN

+15V RETURN

+15V RETURN

+15V RETURN

+15V RETURN

+48V

+48V

+48V RETURN

+48V RETURN

GND

GND

GND

(N/U)

(N/U)

6

5

2

4

1

3

J1

A35

FAN

+

B1

-

+

B2

-

P1

B+ (1)

B+ RETURN (1)

POWER MODULE

INTERFACE PWB

A1A1

TRANSFORMER

ASSY

A1A2 A1A3

RF POWER

MODULES

A15 A16

A1A1E1

A1A1E2

A1A2T1

A1A3T1

(PART 2 OF 5)

A8

PDM

DISTRIBUTION

PWB

J3

J4

D

W6P2 W6P1 A17A1J1

PDM CABLE

H

W8P2 W8P1 A18A1J1

PDM CABLE

J9

(PART 2 OF 5)

A7

J2

RF DRIVE

DISTRIBUTION

PWB

J3

(PART 3 OF 6)

A6

RACK

INTERFACE

PWB

J8

H4

H5

H6

H7

H8

W24P1 W24P2

H1 1

H2

H3

4

5

6

2

3

7

8

B1

B2

B3

B4

B5

B6

B7

B8

W23P1 W23P2

1

2

3

4

5

6

7

8

J2

A2A1J12

RF DR 1 (+)

RF DR 1 (-)

RF DR 1 (+)

RF DR 2 (+)

RF DR 2 (-)

RF DR 1 (-)

RF DR 2 (+)

RF DR 2 (-)

A2A1J11

RF DR 1 (+)

RF DR 1 (-)

RF DR 1 (+)

RF DR 2 (+)

RF DR 2 (-)

RF DR 1 (-)

RF DR 2 (+)

RF DR 2 (-)

5KW POWER

BLOCK

3

4

8

6

5

9

10

20

21

22

11

25

7

19

1

2

14

15

16

17

18

12

13

23

24

A2A1J6

MODULE BUS (+)

MODULE BUS (-)

FAN TACH (F)

FAN TACH (R)

+15V

+15V

+15V

+15V

+15V

+15V

+15V RETURN

+15V RETURN

+15V RETURN

+15V RETURN

+15V RETURN

+15V RETURN

+48V

+48V

+48V RETURN

+48V RETURN

GND

GND

GND

(N/U)

(N/U)

P7

10 23

FROM

AC-DC POWER

STAGE

5 4

P6

6

5

2

4

1

3

J1

A36

FAN

+

B1

-

+

B2

-

P2

B+ (2)

B+ RETURN (2)

POWER MODULE

INTERFACE PWB

A2A1

TRANSFORMER

ASSY

A2A2 A2A3

RF POWER

MODULES

A17 A18

A2A1E1

A2A1E2

A2A2T1

A2A3T1

(PART 3 OF 5)

A8

PDM

DISTRIBUTION

PWB

J5 D

W10P2 W10P1 A19A1J1

PDM CABLE

A3A2T1

J1 H

W12P2 W12P1 A20A1J1

PDM CABLE

A3A3T1

J8

(PART 3 OF 5)

A7

J2

RF DRIVE

DISTRIBUTION

PWB

J2

(PART 4 OF 6)

A6

RACK

INTERFACE

PWB

D4

D5

D6

D7

D8

W26P1

D1

D2

D3

F5

F6

F7

F8

W25P1

F1

F2

F3

F4

W26P2

1

2

3

4

5

6

7

8

W25P2

1

2

3

4

5

6

7

8

J3

3

4

8

6

5

9

10

20

21

22

11

25

7

19

1

2

14

15

16

17

18

12

13

23

24

A3A1J12

RF DR 1 (+)

RF DR 1 (-)

RF DR 1 (+)

RF DR 2 (+)

RF DR 2 (-)

RF DR 1 (-)

RF DR 2 (+)

RF DR 2 (-)

A3A1J11

RF DR 1 (+)

RF DR 1 (-)

RF DR 1 (+)

RF DR 2 (+)

RF DR 2 (-)

RF DR 1 (-)

RF DR 2 (+)

RF DR 2 (-)

5KW POWER

BLOCK

A3A1J6

MODULE BUS (+)

MODULE BUS (-)

FAN TACH (F)

FAN TACH (R)

+15V

+15V

+15V

+15V

+15V

+15V

+15V RETURN

+15V RETURN

+15V RETURN

+15V RETURN

+15V RETURN

+15V RETURN

+48V

+48V

+48V RETURN

+48V RETURN

GND

GND

GND

(N/U)

(N/U)

P6

FROM

AC-DC POWER

STAGE

8 7

6

5

2

4

1

3

J1

A37

FAN

+

B1

-

+

B2

-

P3

B+ (3)

B+ RETURN (3)

POWER MODULE

INTERFACE PWB

A3A1

TRANSFORMER

ASSY

A3A2 A3A3

RF POWER

MODULES

A19 A20

A3A1E1

A3A1E2

(PART 4 OF 5)

A8

PDM

DISTRIBUTION

PWB

J2 D

W14P2 W14P1 A21A1J1

PDM CABLE

A4A2T1

J3 H

W16P2 W16P1 A22A1J1

PDM CABLE

A4A3T1

J8

(PART 4 OF 5)

A7

RF DRIVE

DISTRIBUTION

PWB

J2

J9

J1

(PART 5 OF 6)

A6

RACK

INTERFACE

PWB

H4

H5

H6

H7

H8

W28P1

H1

H2

H3

W27P1

B1

B2

B3

B4

B5

B6

B7

B8

W28P2

1

2

3

4

5

6

7

8

W27P2

1

2

3

4

5

6

7

8

J4

A4A1J12

RF DR 1 (+)

RF DR 1 (-)

RF DR 1 (+)

RF DR 2 (+)

RF DR 2 (-)

RF DR 1 (-)

RF DR 2 (+)

RF DR 2 (-)

A4A1J11

RF DR 1 (+)

RF DR 1 (-)

RF DR 1 (+)

RF DR 2 (+)

RF DR 2 (-)

RF DR 1 (-)

RF DR 2 (+)

RF DR 2 (-)

5KW POWER

BLOCK

3

4

8

6

5

9

10

20

21

22

11

25

7

19

1

2

14

15

16

17

18

12

13

23

24

A4A1J6

MODULE BUS (+)

MODULE BUS (-)

FAN TACH (F)

FAN TACH (R)

+15V

+15V

+15V

+15V

+15V

+15V

+15V RETURN

+15V RETURN

+15V RETURN

+15V RETURN

+15V RETURN

+15V RETURN

+48V

+48V

+48V RETURN

+48V RETURN

GND

GND

GND

(N/U)

(N/U)

P6

FROM

AC-DC POWER

STAGE

P7

6

5

2

4

1

3

J1

A38

FAN

+

B1

-

+

B2

-

P4

B+ (4)

B+ RETURN (4)

POWER MODULE

INTERFACE PWB

A4A1

TRANSFORMER

ASSY

A4A2 A4A3

RF POWER

MODULES

A21 A22

A4A1E1

A4A1E2

(PART 5 OF 5)

A8

PDM

DISTRIBUTION

PWB

J4 D

W18P2 W18P1 A23A1J1

PDM CABLE

A5A2T1

J5 H

W20P2 W20P1 A24A1J1

PDM CABLE

A5A3T1

(PART 5 OF 5)

A7

RF DRIVE

DISTRIBUTION

PWB

J1

(PART 6 OF 6)

A6

RACK

INTERFACE

PWB

J8

J1

J9

J1

9

10

20

21

22

11

5

3

4

8

6

W70P1

25

7

19

1

2

14

15

16

17

18

12

13

23

24

D4

D5

D6

D7

D8

W30P1

D1

D2

D3

F5

F6

F7

F8

W29P1

F1

F2

F3

F4

W30P2

1

2

3

4

5

6

7

8

W29P2

1

2

3

4

5

6

7

8

W70P2

3

4

8

6

5

9

10

20

21

22

11

25

7

19

1

2

14

15

16

17

18

12

13

23

24

A5A1J12

RF DR 1 (+)

RF DR 1 (-)

RF DR 1 (+)

RF DR 2 (+)

RF DR 2 (-)

RF DR 1 (-)

RF DR 2 (+)

RF DR 2 (-)

A5A1J11

RF DR 1 (+)

RF DR 1 (-)

RF DR 1 (+)

RF DR 2 (+)

RF DR 2 (-)

RF DR 1 (-)

RF DR 2 (+)

RF DR 2 (-)

5KW POWER

BLOCK

A5A1J6

MODULE BUS (+)

MODULE BUS (-)

FAN TACH (F)

FAN TACH (R)

+15V

+15V

+15V

+15V

+15V

+15V

+15V RETURN

+15V RETURN

+15V RETURN

+15V RETURN

+15V RETURN

+15V RETURN

+48V

+48V

+48V RETURN

+48V RETURN

GND

GND

GND

(N/U)

(N/U)

P6

FROM

AC-DC POWER

STAGE

P7

6

5

2

4

1

3

J1

A39

FAN

+

B1

-

+

B2

-

P5

B+ (5)

B+ RETURN (5)

POWER MODULE

INTERFACE PWB

A5A1

TRANSFORMER

ASSY

A5A2 A5A3

RF POWER

MODULES

A23 A24

A5A1E1

A5A1E2

Issue 0.3 2009-12-08

Figure SD-4: RF Power Stage (Sheet 1 of 2)

SD-4

RF TRANSFORMER

PART OF A5

(SAME AS ABOVE)

L7

C13

*

C14

*

CAPACITOR BANK 1

C15

*

C16

*

C17

*

C18

*

C19

*

C20

*

C21

*

C22

*

C23

*

C24

*

* DENOTES FREQUENCY DEPENDENT COMPONENTS

(REFER TO CUSTOMER CONFIGURATION SHEET

FOR CAPACITOR VALUES)

L8

CAPACITOR BANK 2

L9

C25

*

C26

*

C27

*

C28

*

C29

*

C30

*

L10

RF TRANSFORMER

PART OF A4

(SAME AS ABOVE)

RF TRANSFORMER

PART OF A3

(SAME AS ABOVE)

RF TRANSFORMERS ARE PART OF BACKPLANE ASSEMBLIES A1

THROUGH A5 AND ARE SHOWN HERE FOR REFERENCE ONLY.

RF TRANSFORMER

PART OF A2

(SAME AS ABOVE)

RF TRANSFORMER

PART OF A1

(SAME AS ABOVE)

CAPACITOR BANK 3

C31

*

C32

*

C33

*

T1

A43

DIRECTIONAL

COUPLER

C1

50pF

E1

SPARKGAP

A44

STATIC

DRAIN

STN GND

J1

RF OUT

TO ANTENNA

TO SHEET ?

P27

2

J3

6

2

L1

L2

R1

47

2W

R2

47

2W

1 3

C23

10

35V

C26

10

35V

R3

47

2W

16

S1:1

1

1

R4

47

2W

15

S1:2

2

2

R17

220

0.5W

R5

100

2W

14

S1:3

3

3

R6

220

2W

13

S1:4

4

4

R7

330

0.5W

12

S1:5

5

5

R8

680

0.5W

11

S1:6

6

6

R9

1000

0.5W

10

S1:7

7

7

R10

2200

0.5W

9

S1:8

8

8

R16

470

0.5W

2

1

U2:A

R18

1500

7

C20

0.1

R20

47

2W

C1

9100pF

C2

9100pF

C3

9100pF

C4

9100pF

C5

9100pF

J2

J3

FORWARD POWER

SAMPLE

4

1

P27

FORWARD POWER SAMPLE

R12

220

0.5W

R11

470

0.5W

2

1

U1:A

R14

562

R13

1500

7

C16

0.1

R15

47

2W

5

8

7


J1 P32


C22

1.0

C21

0.1

C25

1.0

C24

0.1

C18

0.1

4

V+

C17

0.1

5 COMP

U2:B

LT1210CT7

V-

SHUTDOWN

6

3

C19

0.1

A43A1

DIRECTIONAL

COUPLER

PWB

4

C13

0.1

5

V+

COMP

C14

0.1

U1:B

LT1210CT7

V-

SHUTDOWN

6

3

C15

0.1

TO

EXCITER

STAGE

U1

SURGE

ARRESTOR

5000V

C3

50pF

A41

VOLTAGE

PROBE

J1 C1

0.039

C2

0.1

P24

RF VOLTAGE SAMPLE

FROM

EXCITER

STAGE

-15V

+15V

T1

A42

RF CURRENT PROBE

R1

15

2W

R2

15

2W

R3

15

2W

J1 P23

S2070117 V3

RF CURRENT SAMPLE

Issue 0.3 2009-12-08

Figure SD-5: RF Power Stage, RF Output Filter (Sheet 2 of 2)

SD-5

+48V

+48V RETURN

7

19

14

15

16

1

2

J6

RF DRIVE 1 (+) 1

J11

RF DRIVE 1 (-) 2

RF DRIVE 2 (+) 4

RF DRIVE 2 (-) 5

MODULE BUS (+) 6

J6

MODULE BUS (-) 5

FAN TACH (FRONT) 3

FAN TACH (REAR)

+15V

+15V RETURN

4

10

20

21

22

8

9

11

12

13

23

24

25

E1

B+

+48V

C5

1000

50V

B+

A?A1

POWER

MODULE

INTERFACE

PWB

(PART 1 OF 4)

F1

20A

B+ RETURN

E2

B+ RETURN

S2070118 V2

MODULE BUS (+)

MODULE BUS (-)

FAN TACH (FRONT)

FAN TACH (REAR)

+15V

+15V RETURN

C1

470

450V

R1

100K

2W

G DS1

B+

PDM 1 (+)

PDM 1 (-)

PDM 2 (+) 3

PDM 3 (+) 4

1

2

PDM 3 (-) 5

PDM 2 (-) 6

DUMP (+) 7

DUMP (-) 8

J1

19

20

21

22

23

24

25

26

9

10

11

12

17

18

15

16

3

4

1

2

72

73

75

77

79

81

69

70

71

78

80

82

84

85

86

87

88

A1P1

A1J1

A?

RF

POWER

MODULE

(1 OF 2)

A1P1

36

37

38

39

40

41

42

43

44

31

32

33

34

35

51

52

53

54

55

56

57

58

59

60

61

62

63

64

J1

7

8

5

6

A?A1

POWER

MODULE

INTERFACE

PWB

(PART 3 OF 4)

E4

E3 a

1 e b

U1

2

K1

A?A2

TRANSFORMER

ASSY

+48V

CR2

1N4004

CR1

1N4004

J7

2

P1

+

3

+

(OPEN)

(CLOSE)

1

-

T1

RF DRIVE 1 (+) 3

J11

RF DRIVE 1 (-) 6

RF DRIVE 2 (+) 7

RF DRIVE 2 (-) 8

B+

B+ RETURN

A?A1

POWER

MODULE

INTERFACE

PWB

(PART 3 OF 4)

MODULE BUS (+)

MODULE BUS (-)

FAN TACH (FRONT)

FAN TACH (REAR)

+15V

F3

20A

+15V RETURN

C3

470

450V

R3

100K

2W

G DS3

B+

PDM 1 (+)

PDM 1 (-)

PDM 2 (+)

PDM 3 (+)

PDM 3 (-)

PDM 2 (-)

DUMP (+)

DUMP (-)

3

4

1

2

5

6

7

8

J3

19

20

21

22

23

24

25

26

9

10

11

12

17

18

15

16

3

4

1

2

72

73

75

77

79

81

69

70

71

78

80

82

84

85

86

87

88

A1P1

A1J1

A?

RF

POWER

MODULE

(2 OF 2)

A1P1

36

37

38

39

40

41

42

43

44

31

32

33

34

35

51

52

53

54

55

56

57

58

59

60

61

62

63

64

J3

7

8

5

6

A?A1

POWER

MODULE

INTERFACE

PWB

(PART 4 OF 4)

E10

E9 a

1 e b

U1

2

K1

A?A3

TRANSFORMER

ASSY

+48V

CR6

1N4004

CR5

1N4004

J9

2

P1

+

3

+

(OPEN)

(CLOSE)

1

-

T1

Issue 0.3 2009-12-08

Figure SD-6: 5 kW RF Power Block

SD-6

CPU

+5V

10

31

VCC

VCC

LOCAL

+5V

REMOTE

+5V

RF ON

+5V

RF OFF

+5V

PDM

INHIBIT

+5V

SPARE

+5V

FROM SHEET 2

FROM SHEET 3

LOCAL/

REMOTE

RF OFF

SPARE

SPARE

RF_DRIVE_1_SAMPLE

MODULATION_SAMPLE

S1

S2

S3

S4

+5V

PROG RESET 6 J25

R221

1000

R230

1000

R236

1000

+5V

C175

0.01

R223

10.0K

8

5

EN t°

4

R232

10.0K

+5V

R372

100K

C307

0.1

R239

10.0K

1

U55

TMP36FS

3

2

C184

0.1

R374

100K

C306

0.1

+5V +5V +5V

R253

10.0K

CR27 CR28 CR29 CR30

U56:A

R186

10.0K

+5V

C308

0.1

C202

0.1

1

R187

10.0K

C183

0.01

C179

0.1

C162

1.0

+5V

C158

0.1

R227

10.0K

C208

0.1

R188

100

C180

0.01

C168

0.1

C213

0.1

100

C159

0.01

61

VCC

80 VCC

AVCC

97

PF0/ADC0

96

PF1/ADC1

95

PF2/ADC2

98

AREF

11 GND

32

GND

62

GND

81

GND

99

GND

66 PJ3/PCINT12

67 PJ4/PCINT13

68

PJ5/PCINT14

69 PJ6/PCINT15

44 PD1/INT1/SDA

C225

0.1

94

PF3/ADC3

33

XTAL2

PH2/XCK2

PH3/OC4A

PH4/OC4B

PH5/OC4C

PH6/OC2B

PH7/T4

PA7/AD7

PA6/AD6

PA5/AD5

PA4/AD4

PA3/AD3

PA2/AD2

PA1/AD1

PA0/AD0

73

74

75

76

18

27

71

72

77

78

14

15

16

17

U57

ATmega2560-16AU

PG2/ALE

70

PG0/WR

PG1/RD

51

52

PC6/A14

PC5/A13

PC4/A12

PC3/A11

PC2/A10

PC1/A9

PC0/A8

59

58

57

56

55

54

53

PL6

41

RESET

PC7/A15

30

60

C172

18pF

Y1

11.0592MHz

34

C171

18pF

XTAL1

+5V +5V +5V +5V +5V +5V +5V +5V

PL7

PB1/PCINT1/SCK

PB2/PCINT2/MOSI

PB3/PCINT3/MISO

42

20

21

22

TO SHEET 5

TO SHEET 4

LS1

MSR516N

PROG VCC

PROG VCC 7 J25

PROG TCK

PROG TDO

PROG TMS 5 J25

PROG TDI 9 J25

PROG GND

PROG GND

FROM SHEET 1

FROM SHEET 3

FROM SHEET 7

TP29

4 J25

8 J25

1 J25

3 J25

2 J25

10 J25

R197

10.0K

TP30

R198

10.0K

TP31

+15V

TP33

R150

1000

Q1

MMBT4401LT1

C146

0.01

+5V

#LOW_BAT-

#PDM_LATCH-

#INTERLOCK_OPEN-

#EXT_PDM_INHIBIT-

TP45

B22 J22

R174

1000

C148

0.01

TP23

+5V

R210

10.0K

TP34

+5V

R175

10.0K

R162

R211

10.0K

TP25

10.0K

TP22

TP53

+5V

R167

10.0K

TP27

R166

10.0K

TP24

R165

10.0K

TP26

#CS_SERIAL_FLASH-

#SELECT_DRM_B-

R164

10.0K

63

6

PE4/INT4/OC3B

7 PE5/INT5/OC3C

8 PE6/INT6/T3

9

PE7/INT7/ICP3/CLKO

PJ0/RXD3/PCINT9

64

PJ1/TXD3/PCINT10

82

PK7/ADC15/PCINT23

83 PK6/ADC14/PCINT22

84

PK5/ADC13/PCINT21

+5V +5V +5V

PE1/TXD0

PE0/PCINT8/RXD0

PH1/TXD2

PH0/RXD2

R161

10.0K

TP21

+5V

R140

10.0K

R160

10.0K

TP20

+5V

R157

10.0K

R159

10.0K

TP19

+5V

R158

10.0K

+5V

R173

10.0K

85

PK4/ADC12/PCINT20

86

92

PK3/ADC11/PCINT19

87

88 PK1/ADC9/PCINT17

89

PK0/ADC8/PCINT16

93

91

PK2/ADC10/PCINT18

PF4/ADC4/TCK

PF6/ADC6/TDO

PF5/ADC5/TMS

90

PF7/ADC7/TDI

R180

10.0K

65 PJ2/XCK3/PCINT11

26 PB7/PCINT7/OC1C/OC0A

36 PL1/ICP5

23

PB4/PCINT4/OC2A

24

PB5/PCINT5/OC1A

25

PB6/PCINT6/OC1B

PD3/INT3/TXD1

PD2/INT2/RXD1

PD4/ICP1

PL0/ICP4

PB0/PCINT0/SS

PD5/XCK1

PE2/AIN0/XCK0

PE3/AIN1/OC3A

PD6/T1

PG4/TOSC1

PJ7

PL2/T5

PL3/OC5A

PD7/T0

PL4/OC5B

PL5/OC5C

CR17 CR20 CR19 CR18

43 PD0/INT0/SCL

PG3/TOSC2

28

PG5/OC0B

1

3

2

13

12

46

45

47

35

19

48

29

79

37

38

50

39

40

4

5

49

G DS1 G DS2 G DS3 G DS4 G DS5 G DS6

R220

150

+5V

#CS_ADDR-

#WR-

#RD-

R204

10.0K

A14

A13

A12

A11

A10

A9

A8

R176

10.0K

R226

150

#CS_SRAM-

#CS_RTC-

+5V

R92

10.0K

R205

10.0K

+5V +5V +5V

R231

150

R177

0.0

R179

0.0

R163

10.0K

+5V

TP28

TP18

R178

0.0

R235

150

BT1

3V

+5V

S2070121 SHEET 1 OF 7 V1

TP54

C186

0.1

R222

100

R246

150

TP55

C185

0.01

+5V +5V

R91

10.0K

R200

10.0K

R32

10.0K

R252

150

R139

10.0K

U50:D

13

D7

D6

D5

D4

D3

D2

D1

D0

TP56

7 VBAT

+5V

3 RST

4 WDI

16 VCC

13 THS

5

RSTIN1

U60

FT/OUT

M41T94MQ6

SQW

RSTIN2

XO

15

E

10 SCL

12

SDI

9

SDO

XI

VSS

14

11

6

2

1

8

4

+5V +5V

D7

D6

D5

D4

D3

D2

D1

D0

+5V +5V

R255

10.0K

R234

10.0K

R395

12.1

R120

10.0K

6

5

+5V

9 D7

8

D6

7 D5

6

D4

5 D3

4

D2

3 D1

2

D0

RTC

Y2

32.768kHz

1

0

U59:E

U59:D

1

VCC

U59:I

SN74AHC573DW

OUTPUT

ENABLE

GND

20

10

R212

10.0K

R217

1000

R273

10.0K

U37:2

7

U59:H

U59:G

U59:F

U59:C

U59:B

U59:A

R274

10.0K

Q7

12

Q6

13

Q5

14

Q4

15

Q3

16

Q2

17

Q1

18

Q0

19

TP35

TP37

SCK

R47

10.0K

C178

0.1

+5V

MOSI

MISO

A7

A6

A5

A4

A3

A2

A1

A0

C182

0.01

+5V

J26

C149

0.01

J26

SCK

MOSI

MISO

J26

J26

J26

J26

#SELECT_STREAMING_B-

#CS_POT_A-

#SELECT_SIDE_B-

#SELECT_SYNC_B-

#PDM_LATCH_RESET-

#CS_DAC1-

#CS_DAC2-

#SELECT_SYNC_INT-

#CS_RMT_IN-

#CS_RMT_OUT-

TP47

2

6

J17

J19

1

5

3

4

J6

J6

TO SHEETS 2, 4 & 6

FROM SHEET 5

7

8

16

16

C196

0.01

PROG_VCC

PROG_GND

TO SHEETS 2, 4, 5 & 6

SCK

PROG_MOSI

MISO

PROG_RESET

TO SHEET 2

TO SHEET 2

TO SHEETS 2 & 3

TO SHEET 3

TO SHEET 3

TO SHEET 4

TO SHEET 4

TO SHEET 4

TO SHEET 5

TO SHEET 6

+5V

R58

121K

R59

121K

R5

121K

R6

121K

R219

10.0K

2 J21

4 J21

# PDM INHIBIT - (EXCITER A)

# PDM INHIBIT - (EXCITER B)

R66

121K

R67

121K

R7

121K

R8

121K

1

2

A5

A4

A3

A2

A1

A0

A10

A9

A8

A7

A6

A14

A13

A12

A11

A14

A12

A10

A8

A6

A4

A2

A0

A13

A11

A9

A7

A5

A3

A1

10

A14

9 A13

8 A12

7 A11

6

A10

5

A9

4 A8

3 A7

2 A6

1

A5

26

A4

25 A3

24

A2

23

A1

21

A0

U63

CY62256LL

I/O7

I/O6

I/O5

I/O4

I/O3

I/O2

I/O1

I/O0

19

18

17

16

15

13

12

11

RAM

D7

D5

D3

D1

D6

D4

D2

D0

D7

D6

D5

D4

D3

D2

D1

D0

TP57 TP58

J17

J19

J22

J22

27

WE

22 OE

GND

14

CEO

6 20 CE

J27

RAM MONITOR

+5V

+5V

C195

0.01

R88

681

+5V

U62

DS1312S-2

VCCO

TOL

1

3 C191

0.01

28

C190

0.1

VCC +5V

C99

0.1

BW

7

R218

10.0K

C189

0.1

8

VCCI

5

2

CEI

VBAT

1

4 N/C

2

N/C

U36

6N137-300

VCC

VE

8

7

6

3

8

7

6

VCC

VE

U34

6N137-300

N/C

N/C

1

4

2

5

GND

4

5

3

1

R82

1000

R83

C93

0.01

+5V-A

+5V-A

+5V-A

C78

0.1

C73

1.0

1 C1+

C79

0.1

16

3

C86

0.1

4

C2+

U30

T1OUT

ADM3202ARN

5 C2-

11 T1IN

2

V+

R1IN

R2OUT

T2OUT

C77

0.1

C1-

VCC

T2IN

R2IN

1 1

V-

681

12

R1OUT

GND

14

13

9

7

10

8

6

15

1

+5V

+5V

R15

1000

C100

1.0

R14

681

+5V

C30

0.1

1

1

4

2

N/C

N/C

3

8

7

6

5

VIN

C95

0.1

2 GND

VCC

VE

U35

MAU202

U7

6N137-300

VCC

VE

U6

6N137-300

N/C

N/C

8

7

6

5

1

4

+V

0V

2

7

5

1

R9

1000

C91

1.0

C10

0.01

+5V-B

C92

0.1

C80

10

35V

+5V-B

C1

1.0

+5V-A

1 C1+

C9

0.1

3

C1-

4

C2+

C8

0.1

5

C2-

11 T1IN

2

V+

C4

0.1

16 VCC

C3

0.1

2

3

R11

681

+5V-B

2 2

12

U1

T1OUT

ADM3202ARN

R1IN

R1OUT

T2IN

R2IN

V-

GND

T2OUT

R2OUT

14

13

10

8

6

15

7

9

2

C90

0.1

1

R84

100

2

#LOW_BAT-

R10

100

1

2

R79

100

R78

100

R3

100

R2

100

R80

100

R1

100

2

1

J27

J3

J3

J3

J3

J3

J3

J3

J3

J13

J13

J13

J13

J13

J13

J13

J13

J17

J17

J19

J19

+5V

C32

1.0

1

VIN

C31

0.1

2 GND

U8

MAU202

+V

0V

7

5

C2

1.0

C5

10

35V

+5V-B

J21

J21

2

+5V

J1

J1

+5V

C157

0.1

4

VDD

U56:E

TLV2374ID

GND

11

+5V

C217

0.1

4 DI

1 RO

2 RE

3

DE

C218

0.01

8 VCC

U69

DS36C278TM

DO/RI

6

DO/RI

7

GND

5

R249

221

R250

681

R254

221

R248

681

J22

J22

J22

J22

J27

J27

3

3

4 DTR

6 DSR

2 TXD

3 RXD

7 RTS

8 CTS

4 DTR

6 DSR

2 TXD

3

7

8 CTS

1

3

# ADDRESS +

(EXCITER A)

# ADDRESS -

(EXCITER B)

A7

B7

# ADDRESS +

(DRM A)

# ADDRESS -

(DRM B)

A5

B5

# ADDRESS +

(GPS A)

# ADDRESS -

(GPS B)

TO SHEET 1

1 DCD

5

1 DCD

5

2

15

2

15

12

24

RXD

RTS

A21

A9

(+)

(-)

B21

B9

(+)

(-)

A1

A6

J27

J27

B1

B6

(+)

(-)

(+)

(-)

(+)

(-)

(+)

(-)

(+)

(-)

(+)

(-)

EXTERNAL

SERIAL BUS

(RS-232)

DEBUG

(RS-232)

INTERNAL

BUS

(EXCITER A)

INTERNAL

BUS

(EXCITER B)

INTERNAL

BUS

(EXGINE/DRM)

INTERNAL

BUS

(RACK MASTER)

INTERNAL

BUS

(DRM A)

INTERNAL

BUS

(DRM B)

INTERNAL

BUS

(GPS A)

INTERNAL

BUS

(GPS B)

Issue 0.3 2009-12-08

Figure SD-7: NAPC154C Control/Interface PWB (Sheet 1 of 7)

SD-7

+5V

+5V

L6

L4

+3.3V

+3.3V

R389

0.0

R394

0.0

C310

10

C316

10

C311

0.1

5

VCC

U95:B

NC7SZ57P6X

GND

GND

2

3

C317

0.1

5 VCC U96:B

NC7SZ57P6X

GND

GND

2

3

??

??

1 J19

B10 J22

1 J17

TP52

1

6

U96:A

4

R391

0.0

+5V-C

1

6

U95:A

4

R387

0.0

TP46

+5V-C

5 LE

1

C111

1.0

VCC+

U42:B

TL3016ID

VCC-

4

GND

6

5 LE

1

C20

1.0

VCC+

U13:B

TL3016ID

VCC-

4

GND

6

C66

1.0

-5V

C109

1.0

C62

1.0

-15V

+5V-C

C34

1.0

+5V-D

+5V-D

C65

1.0

C141

1.0

4

IN

1.0

C63

1.0

C295

C36

0.1

C304

1.0

R28

0.0

C297

0.1

C40

0.1

U49

MC79M05BDT

GND

1

OUT

3

14

C49

0.1

VCC

U20:E

MC74ACT08D

GND

7

C303

0.1

C301

0.1

-5V

C140

1.0

C296

0.1

C64

1.0

-5V

J22

C318

0.1

B19 -5V

FROM SHEET 1

STREAMING

BUS (AUI)

9 J2

2 J2

7 J2

4 J2

5 J2

3 J2

8 J2

MOSI

SCK

#CS_POT_A-

+5V

C98

0.1

-5V

11

SDI/SDA

U38

AD5263BRU20

12 CLK/SCL

13 CS/AD0

7

VDD

15 SHDN

14

RES/AD1

10

VLOGIC

18

VSS

16 SDO/O1

5

A3

6

W3

19 W4

20 A4

17

NC/O2

4

B3

21

B4

9 DIS

8 GND

+5V

R86

4750

A1 2

W1 3

C39

1.0

B1 1

-5V

+5V

R87

4750

R93

4750

A2 23

W2 22

C110

1.0

B2 24

-5V

R89

4750

+5V-D

L1

C33

47

+5V

C16

0.1

C17

0.1

C18

0.1

C19

0.1

4

ENABLE

U9:E

ENABLE

DS26LS31TM

C12

1.0

16 VCC

GND

12

8

4

ENABLE

U10:E

ENABLE

DS26LS31TM

C13

1.0

16 VCC

GND

12

8

C14

1.0

4 ENABLE

16

VCC

ENABLE

U11:E

DS26LS31TM

GND

12

8

4 ENABLE

U12:E

ENABLE

DS26LS31TM

C15

1.0

16 VCC

GND

12

8

C97

0.1

4

16

C104

1.0

ENABLE

U40:E

ENABLE

DS26LS31TM

VCC GND

12

8

S2070121 SHEET 2 OF 7 V1

RF DRIVE

(EXCITER A)

RF DRIVE

(EXCITER B)

(+)

(-)

(+)

(-)

13 J16

25 J16

12 J16

13 J18

25 J18

12 J18

DUMP 1 (EXCITER A) 14 J16

DUMP 1 (EXCITER B) 14 J18

DUMP 2 (EXCITER A)

DUMP 2 (EXCITER B)

2 J16

2 J18

DUMP 3 (EXCITER A)

DUMP 3 (EXCITER B)

1 J16

1 J18

3

T7

4

C6

1.0

5

1

6 C7

1.0

3

T5 4

1

C116

1.0

6

5

C120

1.0

R12

1000

R13

825

R102

1000

R114

825

FROM SHEET 1

#SELECT_SIDE_B-

STREAMING BUS (EXCITER A) 14 J17

STREAMING BUS (EXCITER B) 14 J19

FROM SHEET 1

#SELECT_STREAMING_B-

R103 4750

R18

4750

2

U13:A

C294

0.1

7

8

3

C305

0.1

2

3

U42:A

7

8

R68

0.0

R69

0.0

R70

0.0

R71

0.0

DUMP-1A

DUMP-1B

DUMP-2A

DUMP-2B

DUMP-3A

DUMP-3B

C123

1.0

-5V

C21

1.0

-5V

3

2

6

5

10

11

13

14

1 SELECT

1

0

U22

74LVC257APW

GND

OE

8

15

4

1

0

1

0

1

0

7

9

12

VCC

16

C60

0.1

R44

0.0

13

14

3

2

6

5

10

11

1 SELECT

1

0

1

0

U27

74LVC257APW

9

1

0

1

0

7

8

GND

OE

15

12

4

VCC

16

C82

0.1

+3.3V

+5V-D

Issue 0.3 2009-12-08

R365

0.0

1

U20:A

3

2

12

U20:D

11

13

RF DR-1

R23

0.0

R369

0.0

5

4

U20:B

6

9

U20:C

8

10

RF DR-2

R30

0.0

R22

10.0K

C38

0.1

R21

100

R57

0.0

3

2

10

11

13

14

1 SELECT

U37

74LVC257APW

VCC

ONE GATE IS LOCATED

ON SHEET 1

16

1

0

12

1

0

9

C105

0.1

+3.3V

1

0

4

GND

OE

8

15

R85

0.0

RF_DRIVE_1_SAMPLE

TO SHEET 1

DUMP

STREAM

1

U9:A

2 J14

J14

U9:B

3

6 J14

J14

7

U10:A

5

2 J14

J14

1

U10:B

3

6 J14

J14

7

U11:A

5

2 J14

J14

1

U11:B

3

6 J14

J14

7

U12:A

5

2 J14

J14

1

7

U12:B

3

6 J14

J14

5

U9:D

14 J14

J14

15

U9:C

13

10 J14

J14

9

U10:D

11

14 J14

J14

15

U10:C

13

10 J14

J14

9

U11:D

11

14 J14

J14

15

U11:C

13

10 J14

J14

9

U12:D

11

14 J14

J14

15

U12:C

13

10

9

11

J14

J14

A1

A2

B1

B2

C1

C2

D1

D2

E1

E2

F1

F2

G1

G2

H1

H2

A7

A8

B7

B8

C7

C8

D7

D8

E7

E8

F7

F8

(+)

(-)

(+)

(-)

(+)

(-)

(+)

(-)

(+)

(-)

(+)

(-)

(+)

(-)

(+)

(-)

(+)

(-)

(+)

(-)

(+)

(-)

(+)

(-)

(+)

(-)

(+)

(-)

G7

G8

(+)

(-)

H7

H8

(+)

(-)

RF DRIVE 1 (A)

RF DRIVE 1 (A)

RF DRIVE 1 (A)

RF DRIVE 1 (A)

RF DRIVE 1 (A)

RF DRIVE 1 (A)

RF DRIVE 1 (A)

RF DRIVE 1 (A)

RF DRIVE 2 (A)

RF DRIVE 2 (A)

RF DRIVE 2 (A)

RF DRIVE 2 (A)

RF DRIVE 2 (A)

RF DRIVE 2 (A)

RF DRIVE 2 (A)

RF DRIVE 2 (A)

U2:D

14 J15

J15

15

U14:D

13

14 J15

J15

15

U3:D

13

14

15

U40:A

13

2

1

3

J15

J15

15

U15:D

13

14

15

U17:D

13

14

J15

J15

15

U4:D

13

14

15

U16:D

13

14

15

U5:D

13

14

J15

J15

J15

J15

J15

J15

J15

J15

J2

J2

A7

A8

(+)

(-)

B7

B8

(+)

(-)

C7

C8

(+)

(-)

D7

D8

(+)

(-)

E7

E8

(+)

(-)

F7

F8

(+)

(-)

G7

G8

(+)

(-)

H7

H8

(+)

(-)

6 TXD (+)

1 TXD (-)

DUMP 1

DUMP 2

DUMP 3

DUMP 1

DUMP 2

DUMP 3

DUMP 1

DUMP 2

STREAMING

BUS (AUI)


SD-8

+5V

C88

0.1

3

VCC

U33:E

MC3302D

GND

12

+5V

C89

0.1

3 VCC U32:E

MC3302D

GND

12

+5V

C87

0.1

3

VCC

U31:E

MC3302D

GND

12

+5V

L3 C41

47

C22

0.1

C42

0.1

C26

1.0

4

ENABLE

16 VCC

U2:E

ENABLE

DS26LS31TM

GND

12

8

C51

1.0

4

ENABLE ENABLE

U14:E

DS26LS31TM

16 VCC

GND

12

8

C23

0.1

C43

0.1

C27

1.0

16

4

ENABLE

U3:E

ENABLE

DS26LS31TM

VCC GND

12

8

C52

1.0

4

ENABLE

16 VCC

U15:E

ENABLE

DS26LS31TM

GND

12

8

C24

0.1

C28

1.0

4

ENABLE ENABLE

U4:E

DS26LS31TM

16 VCC

GND

12

8

C44

0.1

C53

1.0

4 ENABLE

16

VCC

U16:E

ENABLE

DS26LS31TM

GND

12

8

C25

0.1

C29

1.0

16

4

ENABLE ENABLE

U5:E

DS26LS31TM

VCC GND

12

8

C45

0.1

C54

1.0

4 ENABLE

16

VCC

U17:E

ENABLE

DS26LS31TM

GND

12

8

S2070121 SHEET 3 OF 7 V1

Issue 0.3 2009-12-08

FROM SHEET 1

#PDM_LATCH_RESET-

PDM 1 (EXCITER A)

PDM 1 (EXCITER B)

PDM 2 (EXCITER A)

PDM 2 (EXCITER B)

PDM 3 (EXCITER A)

PDM 3 (EXCITER B)

PDM 4 (EXCITER A)

PDM 4 (EXCITER B)

PDM 5 (EXCITER A)

PDM 5 (EXCITER B)

PDM 6 (EXCITER A)

PDM 6 (EXCITER B)

PDM 7 (EXCITER A)

PDM 7 (EXCITER B)

PDM 8 (EXCITER A)

PDM 8 (EXCITER B)

PDM 9 (EXCITER A)

PDM 9 (EXCITER B)

19 J16

19 J18

5 J16

5 J18

16 J16

16 J18

6 J16

6 J18

17 J16

17 J18

3 J16

3 J18

18 J16

18 J18

4 J16

4 J18

15 J16

15 J18

FROM SHEET 1

PDM 1-A

PDM 1-B

PDM 2-A

PDM 2-B

PDM 3-A

PDM 3-B

PDM 4-A

PDM 4-B

PDM 5-A

PDM 5-B

PDM 6-A

PDM 6-B

PDM 7-A

PDM 7-B

PDM 8-A

PDM 8-B

PDM 9-A

PDM 9-B

#SELECT_SIDE_B-

+5V

14

C143

0.1

VCC

U48:E

MM74HC00M

GND

7

10

11

6

5

3

2

13

14

1 SELECT

U24

74LVC257APW

U24:2

1

0

U24:1

1

0

U24:4

1

0

VCC

16

7

4

12

U24:3

1

0

9

GND

8

OE

15

C74

0.1

+3.3V

3

2

6

5

13

14

10

11

1 SELECT

U25:1

U25

74LVC257APW

1

VCC

16

4

0

U25:2

1

7

0

U25:4

1

12

0

U25:3

1

9

0

GND

8

OE

15

C75

0.1

+3.3V

3

2

6

5

13

14

10

11

1 SELECT

U26:1

U26

74LVC257APW

1

VCC

16

4

0

U26:2

1

7

0

U26:4

1

12

0

U26:3

1

9

0

GND

8

OE

15

C76

0.1

+3.3V

+3.3V

R53

1000

CR4

+3.3V

R73

10.0K

R61

1.00M

C70

0.1

+3.3V

R54

1.00M

C71

0.1

R55

1000

CR5

R65

1000

CR9

R72

10.0K

+3.3V

R76

1.00M

C85

0.1

9

8

U32:C

5

4

U32:A

9

8

U33:C

14

+5V

R81

10.0K

2

14

1

2

U48:A

3

4

5

U48:B

6

TP51

TP5

TP6

TP11

R35

1000

R39

1000

R40

1000

+3.3V

R51

1.00M

C69

0.1

+3.3V

R62

1.00M

C72

0.1

+3.3V

R52

1000

CR3

R56

1000

CR6

R64

1000

CR8

R63

1.00M

C84

0.1

9

8

U31:C

7

6

U32:B

5

4

U33:A

14

1

2

TP4

TP7

TP10

R36

1000

R38

1000

R41

1000

+3.3V

R60

1.00M

C68

0.1

+3.3V

R48

1.00M

C67

0.1

R50

1000

CR2

R49

1000

CR1

R75

1000

CR7

+3.3V

R74

1.00M

C83

0.1

7

6

U31:B

5

4

U31:A

7

6

U33:B

1

2

1

TP3

TP2

TP9

R43

1000

R42

1000

R37

1000

R46

10.0K

C61

0.1

R34

10.0

U2:A

2

1

U15:A

3

2

1

U5:A

3

2

1

3

U14:A

2

1

U4:A

3

2

1

U17:A

3

2

1

U3:A

3

2

1

U16:A

3

2

1

3

#PDM_LATCH-

MODULATION_SAMPLE

TO SHEET 1

J15

J15

A1

A2

(+)

(-)

J15

J15

D1

D2

(+)

(-)

J15

J15

G1

G2

(+)

(-)

J15

J15

B1

B2

J15

J15

E1

E2

J15

J15

H1

H2

(+)

(-)

(+)

(-)

(+)

(-)

J15

J15

C1

C2

J15

J15

F1

F2

(+)

(-)

(+)

(-)

PDM 1

PDM 1

PDM 1

PDM 2

PDM 2

PDM 2

PDM 3

PDM 3

9

9

U2:B

U2:C

6

7

U15:B

5

6

7

U5:B

5

6

7

5

U14:B

6

7

U4:B

5

6

7

U17:B

5

6

7

U3:B

5

6

7

U16:B

5

6

7

5

10

U15:C

11

10

U5:C

11

10

9

11

U14:C

10

9

U4:C

11

10

9

U17:C

11

10

9

U3:C

11

10

9

U16:C

11

10

9

11

J15

J15

A4

A5

(+)

(-)

J15

J15

D4

D5

(+)

(-)

J15

J15

G4

G5

(+)

(-)

J15

J15

B4

B5

J15

J15

E4

E5

J15

J15

H4

H5

(+)

(-)

(+)

(-)

(+)

(-)

J15

J15

C4

C5

J15

J15

F4

F5

(+)

(-)

(+)

(-)

PDM 7

PDM 7

PDM 7

PDM 8

PDM 8

PDM 8

PDM 9

PDM 9

J15

J15

A3

A6

(+)

(-)

J15

J15

D3

D6

(+)

(-)

J15

J15

G3

G6

(+)

(-)

J15

J15

B3

B6

J15

J15

E3

E6

J15

J15

H3

H6

(+)

(-)

(+)

(-)

(+)

(-)

J15

J15

C3

C6

J15

J15

F3

F6

(+)

(-)

(+)

(-)

PDM 4

PDM 4

PDM 4

PDM 5

PDM 5

PDM 5

PDM 6

PDM 6


SD-9

BALANCED

ANALOG

AUDIO

ANALOG

AES/EBU

I/Q

AES/EBU

SERIAL FRAME

(IBOC)

(+)

SHIELD

(-)

(+)

(-)

2 J12

1 J12

3 J12

2 J11

SHIELD 1 J11

(-)

(+)

SHIELD 1 J10

(+)

(-)

3 J11

2 J10

3 J10

1 J20

2 J20

SERIAL FRAME

(DRM A)

(+) A24 J22

(-) A12 J22

4 J20

SERIAL CLOCK

(IBOC)

(+)

(-) 5 J20

SERIAL CLOCK

(DRM A)

(+) A25 J22

(-) A13 J22

7 J20

SERIAL DATA

(IBOC)

(+)

(-) 8 J20

SERIAL DATA

(DRM A)

(+) A23 J22

(-) A11 J22

R189

121

+15V

CR26

R215

274

R397

33.2

R208

10.0K

R396

33.2

R214

274

R206

10.0K

R209

2210

C188

220pF

R207

2210

C187

220pF

-15V

CR24

+15V

CR25

-15V

CR23

3

T2

6

R190

1210

1

4

5

2

1

2

3

U58:A

1

6

5

U58:B

7

U52:A

3

6

5

10

11

R168

121

3

T1

6

1

4

5

R169

1210

6

7

U52:B

5

13

14

3

2

R379

100

2

RIN1+

1

RIN1-

EN

GND

9

12

3

RIN2+

U73

DS90LV048

ROUT3

11

1 SELECT

1

0

U51

74LVC257APW

1

0

1

0

9

7

12

1

0

4

VCC

16

C144

0.1

+3.3V

GND

OE

8

15

R378

100 U65

74LVC257APW

R380

100

+3.3V

4

RIN2-

6

RIN3+

5

RIN3-

7

RIN4+

C232

0.1

8

RIN4-

13

C233 16

0.001

VCC

EN

ROUT1

15

ROUT2

14

ROUT4

10

10

11

13

14

3

2

1

0

1

0

1

0

J17

J19

J17

J19

J17

J19

J17

J19

J17

J19

J17

J19

J17

J19

10

10

9

9

22

22

21

21

8

8

18

18

20

20

(+)

(-)

ANALOG

AES/EBU

(LVCMOS)

BALANCED

ANALOG

AUDIO

I/Q AES/EBU

(LVCMOS)

VCC

16

12

C198

0.1

+3.3V

R196

22.1

J17

J19

19

19

FS

9

4

R195

22.1

R201

22.1

J17

J19

J17

J19

7

7

6

6

CLOCK

DATA

LVCMOS

I/Q

6

5

1

0

7

SERIAL FRAME

(DRM B)

(+)

(-)

B24 J22

B12 J22

(+) B25 J22

SERIAL CLOCK

(DRM B)

(-) B13 J22

(+) B23 J22

SERIAL DATA

(DRM B)

(-) B11 J22

FROM SHEET 1

R375

100

R376

100

R377

100

2

RIN1+

1

RIN1-

6

RIN3+

5

RIN3-

3 RIN2+

4

RIN2-

7 RIN4+

8

RIN4-

ROUT1

15

ROUT2

14

ROUT4

10

U66

DS90LV048

ROUT3

11

+3.3V

#SELECT_DRM_B-

C205

0.1

C204

0.001

13

VCC

16

EN

EN

GND

9

12

S2070121 SHEET 4 OF 7 V1

1 SELECT

GND

8

OE

15

FROM SHEET 1

+5V

L16

MOSI

SCK

#CS_DAC1-

+5V

C224

0.1

4

VIN

U70

LT1790BIS6-2.5

GND1

1

GND2

2

VOUT

6

L17

TP39

C236

0.1

R251

10.0K

C222

1.0

C223

0.1

14

C235

0.01

VDD

DACA

DIGITAL TO ANALOG

CONVERTER

12 3

R271

10.0K

C237

0.01

2

U79:A

R276

10.0K

R275

10.0K

1

1

GND

13 LDAC

U72

TLV5620ID

DACB

11

R299

10.0K

12

C254

0.01

13

U79:D

R296

10.0K

R295

10.0K

14

6

DATA

7 CLK

8

LOAD

DACC

10

R300

10.0K

C256

0.01

10

9

U79:C

R297

10.0K

R298

10.0K

8

2

3

4

5

REFA

REFB

REFC

REFD

DACD

9

R272

10.0K

C238

0.01

5

6

U79:B

R277

10.0K

R278

10.0K

7

R317

10.0

R318

10.0

R319

10.0

R320

10.0

C289

0.1

R353

10.0

J23

21 ANALOG OUT (RMT I/FACE) 1

C291

0.1

R354

10.0

J23


J23

23

C290

0.1

R355

10.0

J23


C292

0.1

R356

10.0

J23


FROM SHEET 1

MOSI

SCK

#CS_DAC2-

+5V

L15 C216

0.1

14

C215

0.01

2

3 REFB

4

5

REFA

REFC

REFD

VDD

13

1

GND

LDAC

DACA

12

U68

TLV5620ID

DACB

11

6

7

DATA

CLK

8 LOAD

R242

10.0K

C219

0.01

3

2

U71:A

R240

10.0K

1

R256

10.0

DACC

10

DACD

9

R266

10.0K

12

C241

0.01

13

U71:D

R259

10.0K

R258

10.0K

14

R257

10.0

R267

10.0K

C242

0.01

10

9

U71:C

R260

10.0K

R261

10.0K

8

R262

10.0

R243

10.0K

C221

0.01

5

6

U71:B

R244

10.0K

R245

10.0K

7

R263

10.0

C229

0.1

R264

10.0

RF_MON_GAIN

C239

0.1

R265

10.0

C231

0.1

R268

10.0

C243

0.1

R269

10.0

TP41

TP42

TP40

TO SHEET 6

SPARE 1

SPARE 2

SPARE 3

+15V

+15V

C173

10

35V

C176

0.1

8

V+

U58:C

OP275GS

V-

4

C177

0.1

C174

10

35V

-15V

C248

1.0

C245

0.1

4

VCC

U79:E

MC33074AD

VEE

11

C253

0.1

C255

1.0

-15V

+15V

C226

1.0

C220

0.1

4

VCC

U71:E

MC33074AD

VEE

11

C230

0.1

C227

1.0

-15V

+5V

+5V

C166

1.0

C165

0.1

1

5

V+

LATCH

U54:B

AD8561ARUZ

V-

4

GND

6

C161

1.0

C163

0.1

4

16

ENABLE

U52:E

ENABLE

DS26C32ATM

VCC GND

12

8

Issue 0.3 2009-12-08


SD-10

Issue 0.3 2009-12-08

+15V-A

# DIGITAL INPUT 01 1 J24

R336

4750 R316

10.0K

REMOTE INPUTS

CR49

C272

0.01

1

2


+15V-A

2 J24

R335

4750 R315

10.0K

CR48

C271

0.01

3

4


+15V-A

3 J24

R334

4750 R314

10.0K

CR47

C270

0.01

1

2


+15V-A

4 J24

R333

4750 R313

10.0K

CR46

C269

0.01

3

4


+15V-A

6 J24

R332

4750 R312

10.0K

CR45

C268

0.01

1

2


+15V-A

7 J24

R331

4750 R311

10.0K

CR44

C267

0.01

3

4


+15V-A

8 J24

R330

4750 R310

10.0K

CR43

C266

0.01

1

2

R291

4750

14

6

U82:B

MOCD223-M

5

+5V

D

R290

4750

8

U81:A

MOCD223-M

7

+5V

3

E

R289

4750

6

U81:B

MOCD223-M

5

+5V

4 F

R288

4750

8

U88:A

MOCD223-M

7

+5V

5

G

+5V

R294

4750

8

U89:A

MOCD223-M

7

+5V

11 A

R293

4750

6

U89:B

MOCD223-M

5

+5V

12

B

R292

4750

8

U82:A

MOCD223-M

7

+5V

13

C

R287

4750

6

U88:B

MOCD223-M

5

6

H

U76

MC74HC165AD

VCC

16

QH

7

GND

8

SA

10

CLK_INH

15

C250

0.1

+5V


+15V-A

9 J24

R329

4750 R309

10.0K

CR42

C265

0.01

3

4

EXTERNAL +15V SUPPLY 24 J24

25 J24

E3:1

+15V

EXT

E3:2

E3:3

INT

+15V-A

SCK

#CS_RMT_IN-

2 CLK

1

SHIFT/LOAD

QH

9

+15V-A


R328

4750

REMOTE INPUTS

R308

10.0K

CR41

C264

0.01

1

2

+15V-A

# DIGITAL INPUT 10 - 12 J24

R327

4750 R307

10.0K

CR40

C263

0.01

3

4


+15V-A

13 J24

R326

4750 R306

10.0K

CR39

C262

0.01

1

2

+15V-A


R325

4750 R305

10.0K

CR38

C261

0.01

3

4


+15V-A

16 J24

R324

4750 R304

10.0K

CR37

C260

0.01

1

2

+15V-A


R323

4750 R303

10.0K

CR36

C259

0.01

3

4


+15V-A

18 J24

R322

4750 R302

10.0K

CR35

C258

0.01

1

2

+15V-A


R321

4750 R301

10.0K

CR34

C257

0.01

3

4

R283

4750

6

U86:B

MOCD223-M

5

+5V

14

D

R282

4750

8

U85:A

MOCD223-M

7

+5V

3

E

R281

4750

6

U85:B

MOCD223-M

5

+5V

4 F

R280

4750

8

U80:A

MOCD223-M

7

+5V

5

G

+5V

R286

4750

8

U87:A

MOCD223-M

7

+5V

11 A

R285

4750

6

U87:B

MOCD223-M

5

+5V

12

B

R284

4750

8

U86:A

MOCD223-M

7

+5V

13

C

R279

4750

6

U80:B

MOCD223-M

5

6

H

U74

MC74HC165AD

CLK_INH

15

+15V

+15V

VCC

16

C249

0.1

+5V

QH

7

GND

8

RT2

RXE110

RT1

RXE110

10

SA

C293

1.0

L18

J24

J24

20

21

+15V (REMOTE)

J24

J24

J24

J24

J24

5

10

15

22

23

C156

1.0

L14

J6

5 +15V (EXTERNAL)

J6

6

2

CLK

1 SHIFT/LOAD

MISO

TO SHEET 1

FROM SHEET 1

QH

9

+5V

2

1

5

U75:A

3

4

U75:B

6

R270

10.0K

MOSI

#CS_SERIAL_FLASH-

S2070121 SHEET 5 OF 7 V1

+5V

C194

0.1

U61

6 SCK

AT25256AN-10SU2.7

5

SI

1

8 VCC

3

7

CS

WP

HOLD

SO

GND

2

4

+5V

14

C244

0.1

VCC

U75:E

MC74HC125AD

GND

7


SD-11

FROM SHEET 4

FWD PWR SAMPLE 1 J4

6 J4

REFLD PWR SAMPLE 7 J4

RF_MON_GAIN

R233

3320

R382

3320

TP38

R238

1000

C214

1.0

1

GPOS

R237

10.0K

R381

10.0K

+5V

-5V

FWD

REFLD

C209

0.1

C206

0.1

1

3

S5:A

RF MON

2

8

VPOS

C211

0.01

C207

0.01

U67

6 VNEG

AD603AR

2 GNEG

4

COMM

3 VINP

VOUT

7

FDBK

5

+15V

R229

1000

2

1

U64:A

R225

274

R224

1000

7

C193

0.1

10

T1 4

1

3

7

8

C201

1.0

PWB PART:

HR106

4

HW2

V+

C203

0.1

5

COMP

C200

1.0

U64:B

LT1210CR

V-

SHUTDOWN

6

3

R193

150

2W

J7

RF MONITOR

C192

0.1

C199

1.0

-15V

VOLTAGE SAMPLE 4 J4

9 J4

CURRENT SAMPLE 3 J4

8 J4

B+ SAMPLE 10 J1

23 J1

+5V

+5V

+5V

+5V

5 J1

6 J1

18 J1

19 J1

+15V 2 J1

3 J1

15 J1

16 J1

11 J1

-15V 8 J1

21 J1

1 J1

4 J1

7 J1

9 J1

13 J1

14 J1

17 J1

20 J1

22 J1

25 J1

R118

20

2W

R371

20

2W

C313

4700pF

R119

10

2W

R129

100 R130

100

B+

R98

100 R99

47.5

C312

0.001

R383

68.1K

R384

6810

C309

0.1

3

2

U41:A

R96

1000

1

3

2

U46:A

1

R123

1000

5

6

U41:B

7

R107

1000

5

6

U56:B

7

R386

0.0

5

6

U46:B

7

R142

1000

C37

0.1

L2

+5V

TP8

C56

10

C57

10

C58

0.1

C59

10

C94

10

C167

10

C234

10

C240

10

C150

10

+5V

C127

0.1

L7

+15V

TP17

C112

10

35V

C210

10

35V

C212

10

35V

C138

10

35V

C118

1.0

C113

0.1

+15V

C106

0.1

L5

-15V

TP13

C228

10

35V

C181

10

35V

C102

1.0

C103

0.1

-15V

TP1 TP12 TP15 TP16

GND GND GND GND

TP32 TP36 TP44 TP43

GND GND GND GND

+5V

S2070121 SHEET 6 OF 7 V1

C96

0.1

2 IN

SHDN

1

U39

LT1764AEQ

GND

3

OUT

ADJ

5

4

PWB PART:

HR106

HW1

R94

475

+3.3V

TP14

C101

10

C197

10

C81

10

+3.3V

R95

274

R100

100

R131

100

R106

100

R141

100

J16

J16

J16

11

23

24

VOLTAGE SAMPLE (EXCITER A)

J18

J18

J18

11

23

24

VOLTAGE SAMPLE (EXCITER B)

J16

J16

J16

10

22

9

CURRENT SAMPLE (EXCITER A)

J18

J18

J18

10

22

9

CURRENT SAMPLE (EXCITER B)

J16

J16

8

21

B+ SAMPLE (EXCITER A)

J18

J18

8

21

B+ SAMPLE (EXCITER B)

11

23

7

20

11

23

7

20

A2

B2

A3

B3

J17

J17

J16

J16

J19

J19

J18

J18

J27

J27

J27

J27

J22

J22

J22

J22

J22

J22

J22

J22

J22

J22

A1

A2

A3

A4

A5

B1

B2

B3

B4

B5

FROM SHEET 1

MOSI

SCK

#CS_RMT_OUT-

+5V

C251

0.01

C246

0.1

16

10

VCC

RESET

8

GND

13 OE U77

MC74HC595AD

QC

QD

QE

14 A

QF

QA

15

QB

1

2

3

4

5

11

SHIFT_CLK QG

6

12 LATCH_CLK QH

7

SQH

9

4

6

1

4

U83:D

13

3

U83:F

11

5

U84:A

16

7

U84:D

13

3

U83:C

14

U83:E

12

U83:G

10

U84:C

14

C280

0.1

C279

0.1

C278

0.1

C277

0.1

C276

0.1

C275

0.1

C274

0.1

R337

J23

12.1

R338

J23

R339 12.1

J23

12.1

R340

J23

R341 12.1

J23

12.1

R342

J23

R343

12.1

C273

0.1

12.1

12.1

J23

R344

J23

J23

J23

5

10

3

4

6

1

2

7

8

9

# DIGITAL OUT 01 -

# DIGITAL OUT 02 -

# DIGITAL OUT 03 -

# DIGITAL OUT 04 -

# DIGITAL OUT 05 -

# DIGITAL OUT 06 -

# DIGITAL OUT 07 -

# DIGITAL OUT 08 -

+5V

+5V

+5V

C114

10

35V

C119

0.1

8

C252

0.01

C247

0.1

14

A

16 VCC

10

RESET

8 GND

13

OE

U78

MC74HC595AD

QD

QE

QF

11

SHIFT_CLK QG

QA

15

QB

1

QC

2

3

4

5

6

QH

7

12 LATCH_CLK

9

SQH

6

1

3

5

U84:F

11

5

U90:A

16

7

U90:C

14

2

U90:E

12

4

U84:E

12

U84:G

10

U90:B

15

U90:D

13

C288

0.1

C287

0.1

C286

0.1

C285

0.1

C284

0.1

C283

0.1

C282

0.1

R345

R351 12.1

J23

12.1

R346

R347

12.1

12.1

R349 12.1

J23

R348

J23

J23

12.1

R350

J23

J23

J23

12.1

R352

J23

C281

0.1

12.1

J23

J23

15

20

11

12

13

14

16

17

18

19

# DIGITAL OUT 09 -

# DIGITAL OUT 10 -

# DIGITAL OUT 11 -

# DIGITAL OUT 12 -

# DIGITAL OUT 13 -

# DIGITAL OUT 14 -

# DIGITAL OUT 15 -

# DIGITAL OUT 16 -

V+

C115

0.1

U41:C

OPA2691ID

V-

4

C131

10

35V

C135

0.1

8

V+

CR32

1SMB5939B

39V

C132

0.1

U46:C

OPA2691ID

V-

4

9

COM

U83:H

MC1413BD

GND

8

CR33

1SMB5939B

39V

CR31

1SMB5939B

39V

9

COM

U84:H

MC1413BD

GND

8

9

COM

U90:H

MC1413BD

GND

8

C107

0.1

C108

10

35V

-5V

C128

0.1

C126

10

35V

-5V

+5V

+15V

-15V

J27

J27

J22

J22

J22

J22

J17

J17

J19

J19

A7

B7

A16

A17

B16

B17

12

24

12

24

+5V (EXCITER A)

+5V (EXCITER A)

+5V (EXCITER B)

+5V (EXCITER B)

+5V (GPS A)

+5V (GPS B)

+5V (DRM A)

+5V (DRM A)

+5V (DRM B)

+5V (DRM B)

J17

J19

J4

13

13

5

+15V (EXCITER A)

+15V (EXCITER B)

RF SAMPLE PROBE

J22

J22

A14

A15

J22

J22

B14

B15

+15V (DRM A)

+15V (DRM A)

+15V (DRM B)

+15V (DRM B)

J17

J19

J4

25

25

2

-15V (EXCITER A)

-15V (EXCITER B)

-15V

+3.3V

J22

J22

A18

B18

+3.3V (DRM A)

+3.3V (DRM B)

Issue 0.3 2009-12-08


SD-12

Issue 0.3 2009-12-08

+5V

C125

1.0

C124

0.1

4

ENABLE ENABLE

U43:E

DS26C32ATM

16 VCC

GND

12

8

+5V

C137

1.0

C136

0.1

4 ENABLE

16

VCC

U47:E

ENABLE

DS26C32ATM

GND

12

8

CR15

1SMB5939B

39V

9 COM U50:H

MC1413BD

GND

8

1 PPS (DRM A) A8 J22

EXT 1 PPS J9

1 PPS (DRM B) B8 J22

R148

100

10MHz

E1:1

E1:3

DRM

+5V

CR11

BAT54HT1

R149

100

EXT E1:2

+5V

CR10

BAT54HT1

CR13

BAT54HT1

CR12

BAT54HT1

1 PPS (GPS A)

1KHz (GPS A)

10MHz (GPS A)

(+) A1 J5

(-) A2 J5

(+) A4 J5

(-) A5 J5

(+) A3 J5

(-) A6 J5

R117

5.62

R110

5.62

R124

5.62

R122

5.62

R115

5.62

R116

5.62

L8

L10

L9

6

R104

49.9

R105

49.9

7

C117

0.001

10

R127

49.9

R128

49.9

9

C130

0.001

14

R126

49.9

R125

49.9

15

C129

0.001

U43:B

5

U43:C

11

U43:D

13

1 PPS (GPS B)

(+) B1 J5

(-) B2 J5

R145

5.62

R134

5.62

1KHz (GPS B)

(+) B4 J5

(-) B5 J5

R133

5.62

R132

5.62

10MHz (GPS B)

(+) B3 J5

(-) B6 J5

R146

5.62

R144

5.62

FROM SHEET 1

EXT 10 MHz J8

L12

L11

L13

2

R136

49.9

R135

49.9

1

C133

0.001

10

R151

49.9

R152

49.9

9

C142

0.001

6

R137

49.9

R138

49.9

7

C134

0.001

U47:A

3

U47:C

11

U47:B

5

#SELECT_SYNC_B-

R191

100

R192

100

C164

0.01

+5V

CR21

BAT54HT1

+5V

R182

10.0K

+5V

R184

1000

CR22

BAT54HT1

R181

10.0K

R183

1000

2

3

R185

27.4K

7

U54:A

8

R194

10.0

FROM SHEET 1

#SELECT_SYNC_INT-

EXT INTLK

PDM INHIBIT

1 J6

2 J6

R202

1210

R203

1210

R153

82.5

+15V

C314

10

35V

(+) 3 J6

(-) 4 J6

PDM INH

EXT

E2:2

+15V

E2:1

INT

E2:3

R170

4750

S2070121 SHEET 7 OF 7 V1

C139

0.1

CR14

R171

10.0K

CR16

R147

100

1

C152

0.01

1

2

+5V

U50:A

16

R154

4750

5

+5V

R172

4750

8

U53:A

MOCD223-M

7

U50:E

12

C145

0.1

R156

10.0

6

5

1

0

U44

74LVC257APW

7

13

14

6

5

1

0

U45

74LVC257APW

7

TP49

1

0

12

J22

J22

A20

B20

J17

J19

4

4

1 PPS (EXCITER A)

1 PPS (EXCITER B)

13

14

1

0

12

3

2

10

11

1 SELECT

1

0

9

1

0

4

GND

OE

8

15

VCC

16

C121

0.1

+3.3V

3

2

10

11

1 SELECT

1

0

9

TP50

1

0

4

GND

OE

8

15

TP48

VCC

16

C122

0.1

+3.3V

J17

J19

5

5

1KHz (EXCITER A)

1KHz (EXCITER B)

J21

8

J17

J19

J21

J21

6

17

17

5

10MHz (EXCITER A)

10MHz (EXCITER B)

10MHz (EXGINE)

#INTERLOCK_OPEN-

#EXT_PDM_INHIBIT-

TO SHEET 1


SD-13

















5 J7

1 J7

5 J8

1 J8

5 J9

1 J9

J2


S1

01

J2


S2

02

J2


S3

03

J2


S4

04

J2


S5

05

J2


S6

06

J2


S7

07

J2


S8

08

J2


S9

09

J2


S10

10

J2


S11

11

J2


S12

12

J2


S13

13

J2


S14

14

J2


S15

15

S16

16

J2


J2

5

J2

10

J2

15

S2070046 SHEET 1 OF 1 VA

Issue 0.3 2009-12-08

# DIGITAL OUT 01 1 J1


+15V +15V

G DS1:B

E1:1

STATUS

R DS1:A

E1:3

ALARM

E1:2

R1

1500

CR1

+15V +15V

G DS3:B

E3:1

STATUS

R DS3:A

E3:3

ALARM

E3:2

R3

1500

CR3

# DIGITAL OUT 03 -

# DIGITAL OUT 04 -

3 J1

4 J1

+15V +15V

G DS5:B

E5:1

STATUS

R DS5:A

E5:3

ALARM

E5:2

R5

1500

CR5

# DIGITAL OUT 05 -

# DIGITAL OUT 06 -

6 J1

7 J1

+15V +15V

G DS7:B

E7:1

STATUS

R DS7:A

E7:3

ALARM

E7:2

R7

1500

CR7



5 J1

10 J1

15 J1

20 J1

+15V (REMOTE) 20 J2

21 J2

C1

1.0

+15V

+15V +15V

G DS2:B

E2:1

STATUS

R DS2:A

E2:3

ALARM

E2:2

R2

1500

CR2

+15V +15V

G DS4:B

E4:1

STATUS

R DS4:A

E4:3

ALARM

J3

8

J3

7

# DIGITAL OUT 01 -

# DIGITAL OUT 02 -

E4:2

R4

1500

CR4

+15V +15V

G DS6:B

E6:1

STATUS

R DS6:A

E6:3

ALARM

J3

J3

6

4

# DIGITAL OUT 03 -

# DIGITAL OUT 04 -

E6:2

R6

1500

CR6

+15V +15V

G DS8:B

E8:1

STATUS

R DS8:A

E8:3

ALARM

J3

J3

3

2

# DIGITAL OUT 05 -

# DIGITAL OUT 06 -

E8:2

R8

1500

CR8

J4

J4

8

7

# DIGITAL OUT 07 -

# DIGITAL OUT 08 -

J3

J3

J4

J4

J5

J5

5

1

5

1

5

1

+15V +15V

G DS9:B

E9:1

STATUS

R DS9:A

E9:3

ALARM

E9:2

R9

1500

CR9



+15V +15V

G DS11:B

E11:1

STATUS

R DS11:A

E11:3

ALARM

E11:2

R11

1500

CR11



+15V +15V

G DS13:B

E13:1

STATUS

R DS13:A

E13:3

ALARM

E13:2

R13

1500

CR13



+15V +15V

G DS15:B

E15:1

STATUS

R DS15:A

E15:3

ALARM

E15:2

R15

1500

CR15



EXTERNAL +15V SUPPLY 8 J6

7 J6

6 J6

5 J6

ANALOG OUTPUT 1

ANALOG OUTPUT 2

ANALOG OUTPUT 3

21 J1

22 J1

24 J1

ANALOG OUTPUT 4 25 J1

23 J1

Figure SD-14: NAPI106 Remote Interface PWB

SD-14

+15V +15V

G DS10:B

E10:1

STATUS

R DS10:A

E10:3

ALARM

E10:2

R10

1500

CR10

J4

6

J4

4

# DIGITAL OUT 09 -

# DIGITAL OUT 10 -

+15V +15V

G DS12:B

E12:1

STATUS

R DS12:A

E12:3

ALARM

E12:2

R12

1500

CR12

J4

J5

3

8

# DIGITAL OUT 11 -

# DIGITAL OUT 12 -

+15V +15V

G DS14:B

E14:1

STATUS

R DS14:A

E14:3

ALARM

E14:2

R14

1500

CR14

J5

J5

7

6

# DIGITAL OUT 13 -

# DIGITAL OUT 14 -

+15V +15V

G DS16:B

E16:1

STATUS

R DS16:A

E16:3

ALARM

E16:2

R16

1500

CR16

J5

J5

4

3

# DIGITAL OUT 15 -

# DIGITAL OUT 16 -

J2

24

J2

25


J2

22

J2

23

J6

J6

J6

J6

4

3

2

1

ANALOG OUTPUT 1

ANALOG OUTPUT 2

ANALOG OUTPUT 3

ANALOG OUTPUT 4

+5V 7 J2

2 J2

3 J2

C38

0.1

L1 C41

0.1

+5V

TP6

G

R24

274

DS6

+5V

C37

10

16V

1

IN

+5V

U9

LM3940IS-3.3

GND

2

OUT

3

+3.3V

TP5

C39

47

16V

G

+3.3V

R23

274

DS5

+3.3V

TP2

GND

TP4 TP11

GND GND

+3.3V

+3.3V

2

C25

0.1

VDD

U4

MCP120T-270I/TT

VSS

3

RST

1

+3.3V

R13

10.0K

C33

10

16V

C27

0.1

C30

0.1

C31

0.1

4 RESET

6

17

38

VCC

VCC

VCC

+5V

C44

0.1

1

IN

U10

REF3033AIDBZT

GND

3

OUT

2

+3.3V

2

VREF

1

C49

0.1

VDD

U14

DAC8531E

VOUT

4

VFB

3

TP7

R18

1000

PC4/TCK/A12

22

R10

274

5 SYNC

7

DIN

6

SCLK

GND

8

GPS ANTENNA J1

+5V

ADDRESS 5 J2

1 J2

6 J2

50 OHMS

+3.3V

R16

4750

C24

10

16V

R14

221

R15

221

R6

1.00

+3.3V

3

2

RF&DC

U3

TCBT-2R5G

ISOL

Q1

SI4403BDY

3

2

IS

1 IN

5

EN

GND

U5

MIC5159YM6

GATE

ADJ

4

6

8

C32

0.1

VCC

6

A

U7

LTC1480IS8

DI

4

RO

1

RE

2

DE

3

7 B

RF

4

DC

1

ANTENNA

3.3V

5V

E1

OPEN

CLOSED

GND

5

50 OHMS

R5

100

R8

5620

1

IN

TP3

R7

10.0K

ANTENNA

VOLTAGE

SELECT

C26

10

16V

R9

8250

E1:2

E1:1

U2

GAT-12

GND GND

2 4

OUT

3

C2

0.1

+3.3V

C18

18pF

C10

18pF

C14

18pF

C1

0.001

50 OHMS

17

RF_IN

TXA

5

C12

18pF

R3

??

GPS_TX

42

PB2/RXD1

TXB

6

C20

1.0

1

C19

0.001

PWRIN

C5

18pF

C11

18pF

C16

18pF

C4

0.001

C6

1.0

C9

18pF

R2

100

C3

18pF

3

8

9

BOOT

NANT_SC

RF_ON

U1

AA003025-G

23

24

C13

18pF

22

NRESET

GPS_FIX

GPIO13

27

C17

18pF

C22

18pF

25

26

GPIO4

WAKEUP

ANT_OC

19

ACTIVE_PWR

20

VCC_RF

28 ANT_CTRL

RXA

4

RXB

7

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

12

13

14

15

2

10

11

16

18

30

C15

18pF

R4

??

C7

18pF

R1

100

GPS 1PPS

TP1

C29

18pF

21

C8

0.001

V_BATT

1PPS

29

C23

18pF

GPS_RX

PB7/SCK

3

PB5/MOSI

1

PB6/MISO

2

43

PB3/TXD1

U6

ATmega162-16AU

15

XTAL1

Y1

3.6864MHz

14

C28

18pF

XTAL2 PA1/AD1

36

PC5/A13/TMS

23

24

PC6/A14/TDO

9

PD3/INT1/CP3

10 PD4/TOSC1

11

PD5/OC1A

12

PD6/WR

13 PD7/RD

18

PCO/A8/PCINT8

20

PC2/A10/PCINT10

21

PC3/A11/PCINT11

PC7/A15/TDI

PE2/OC1B

PE1/ALE

PE0/ICP1/INT2

PA7/AD7

PA6/AD6

40

PB0/OC0

41

44

PB1/OC2

PB4/SS

PA5/AD5

PA4/AD4

25

26

27

29

30

31

32

33

19

PC1/A9/PCINT9

PA3/AD3

34

PA2/AD2

35

7

PD1/TXD0

5

PDO/RXDO

GND

GND

GND

16

28

39

8

PD2/INT0/XCK1

S2070048 SHEET 1 OF 1 VA

E2:1 E2:2

PROGRAM/CAL

37 PA0/AD0

R11

274

R12

274

+3.3V

R17

10.0K

G

R25

274

DS1

LOCK

A

R26

274

DS2

ACQUIRE

R

R27

274

DS3

UNLOCK

G

R22

274

DS4

CPU

GPS STATUS

C45

0.1

+3.3V

+3.3V

SCLK

MISO

#CPLD_SS-

#1PPS_ENABLE+

#1KHZ_ENABLE+

SPARE_1

SPARE_2

CPLD_IRQ

CPLD_ACK

CPLD_ALIGN

1PPS

J5

C21

0.1

J5

2

6

J5

J5

J5

J5

5

3

4

1

ISP

14

C43

0.1

1

VC

VCC

U11

OC14C-10M000

OUT

GND

8

7

R20

22.1

10MHz

TP9

+3.3V

+3.3V

17

I/O/GCK3

F2M4

59

F2M5

61

F3M14

35

F2M8

63

C42

0.1

C36

0.1

15

I/O/GCK1

F4M14

50

F4M4

47

60 F2M2

58

F2M3

F3M11

33

C34

0.1

C35

0.1

48

F4M11

46

F4M3

18

F1M10

23

F1M12

43

F4M2

44

F4M5

45

F4M8

49

F4M6

56 F4M15

57

F4M17

62

1

F2M6

F2M10

3 VCCINT

37

VCCINT

F2M12

4

F1M15

19

F1M17

20

26

55

51

VCCIO

VCCIO

U8

XC9572XL-10VQ64C

F4M10

52

F4M12

13

F1M4

12

F1M3

11

F1M8

10

F1M6

9

F1M5

8

F1M2

7

F2M17

6

F2M15

GND

GND

GND

GND

TCK

30

TMS

29

TDI

28

TDO

53

14

21

41

54

F3M2

22

F3M3

31

F3M5

24

F3M8

25

F3M9

27

F3M10

39

F3M6

34

F3M12

40

F3M4

32

F3M15

F3M17

36

F3M16

42

38

16

I/O/GCK2

I/O/GSR

64

I/O/GTS1

5

I/O/GTS2

2

1 PPS

TP10

U17:A

2

1

3

U17:D

14

15

13

U17:B

6

7

5

U17:C

10

9

11

1 kHz

TP8

U16:A

2

1

3

U16:B

6

7

5

U16:C

10

9

11

U16:D

14

15

13

+3.3V

U12:B

6

7

5

U12:A

2

1

3

U12:C

10

9

11

U12:D

14

15

13

J3

J3

A3

A6

(+)

(-)

10 MHz (1)

J3

J3

B3

B6

(+)

(-)

10 MHz (2)

J4

J4

A3

A6

(+)

(-)

10 MHz (3)

J4

J4

B3

B6

(+)

(-)

10 MHz (4)

J3

J3

A1

A2

(+)

(-)

1 PPS (1)

J3

J3

B1

B2

(+)

(-)

1 PPS (2)

J4

J4

A1

A2

(+)

(-)

1 PPS (3)

J4

J4

B1

B2

(+)

(-)

1 PPS (4)

J3

J3

A4

A5

(+)

(-)

1 kHz (1)

J3

J3

B4

B5

(+)

(-)

1 kHz (2)

J4

J4

A4

A5

(+)

(-)

1 kHz (3)

J4

J4

B4

B5

(+)

(-)

1 kHz (4)

C40

0.1

J6

J6

J6

J6

J6

J6

1

2

3

4

5

6

JTAG

+5V

C50

1.0

C47

0.1

4

16

ENABLE

U12:E

DS26C31TM

ENABLE

VCC GND

12

8

+5V

C54

1.0

C55

0.1

16

4

ENABLE

U17:E

DS26C31TM

ENABLE

VCC GND

12

8

+5V

C51

1.0

C53

0.1

4

16

ENABLE

U16:E

DS26C31TM

ENABLE

VCC GND

12

8

Issue 0.3 2009-12-08

Figure SD-15: NAPX36 GPS Sync PWB (Optional)

SD-15

FROM SHEET 2

FROM

SHEET 3

FROM SHEET 2

INTERNAL BUS

(IN)

(+) 12 J11

(-) 24 J11

INTERNAL BUS

(OUT)

(+) 12 J10

(-) 24 J10

MODULE BUS

(COLUMN 1)

(+) 6 J5

(-) 5 J5

MODULE BUS

(COLUMN 2)

(+) 6 J4

(-) 5 J4

MODULE BUS

(COLUMN 3)

(+) 6 J3

(-) 5 J3

MODULE BUS

(COLUMN 4)

(+) 6 J2

(-) 5 J2

MODULE BUS

(COLUMN 5)

(+) 6 J1

(-) 5 J1

14 J5

14 J4

14 J3

14 J2

14 J1

FAN TACH 1 (RECT) 19 J12

6 J12

FAN TACH 2 (RECT) 18 J12

5 J12

DC_CURRENT

AC_SAMPLE

B+_LEVEL

+5V

+15V

#EOC-

L4

+5V

+5V

C28

0.1

3

VCC

U7

ADM803MAKS

GND

1

RESET

2

TP61

+5V

R47

681

R45

221

R41

681

SERIAL INTERFACE 1

R44

221

7

6

DO/RI

DO/RI

U10

DS36C278TM

RO

1

DI

4

TP54

R181

100

R180

CR19

BAT54HT1

100

+5V

R182

4750

TP57

C41

0.1

C42

0.01

8

VCC

RE

GND

2

DE

3

5

R196

1000

R195

221

R198

1000

R197

221

C160

0.022

R15

1000

R135

221

C16

0.022

13

U5:F

12

+5V

R183

4750

CR20

BAT54HT1

+5V

R35

10.0K

20

RESET

6

INT4

2

RXD0

3

TXD0

4

PE.2

L2

+5V

+5V +5V

R184

100

1W

R185

100

1W

R186

100

1W

R187

100

1W

C1

0.1

SERIAL INTERFACE 2

TP50

C2

0.01

8

6

DO/RI

7

DO/RI

U1

DS36C278TM

DI

4

RO

1

RE

2

DE

3

VCC

+5V

TP51

28

TXD1

27

RXD1

29

PD.4

GND

5

C38

0.1

C13

18pF

TP65

C14

0.1

TP8

TP2

TP1

TP4

TP3

TP11

TP13

TP14

TP10

TP12

TP9

C39

0.1

17

18

30

1

5

32

54

55

56

57

58

59

19

31

60

61

62

PEN

PE.3

PB.7

PG.3

PD.5

PD.7

PF.7

PF.6

PF.5

PF.4

PF.3

PF.2

PG.4

PD.6

PF.1

PF.0

AREF

52

VCC

21 VCC

64

AVCC

24 XTAL1

Y1

11.0592MHz

23

XTAL2

C18

18pF

#HIGH_DC_CURRENT-

#LOW_AC-

#HIGH_B+_LEVEL+

TP66

R14

100

26

INT1

R12

100

25

INT0

TP5

R11

100

TP53

7

PE.5

8

INT6

C159

0.022

R19

1000

R132

221

C24

0.022

11

U5:E

10

TP52

9

INT7

U6

ATmega128-16AI

MISO

13

MOSI

12

SCK

11

CPU

PB.0

10

+5V

+5V

R39

10.0K

+5V

R37

274

R36

274

R38

274

L1

TP59

J16

J16

2

6

PROG VCC

GND

J16

J16

J16

J16

5

4

1

3

RESET

MOSI

MISO

PROG CLK

ISP

TP63 TP71 TP72

#CS_DAC-

C100

0.1

4

VIN

U19

LT1790BIS6-2.5

GND1

1

GND2

2

VOUT

6

VREF

TP28

C90

1.0

R99

10.0K

C83

0.1

+5V

R124

10.0K

+5V

R100

10.0K

+5V

R168

10.0K

TP62 TP60 TP64 TP70

PB.5

PB.4

15

PC.7

42

14

PB.6

16

R157

10.0K

GND

GND

GND

53

63

22

AD.7

AD.6

AD.5

AD.4

AD.3

AD.2

AD.1

AD.0

ALE

43

48

49

50

51

44

45

46

47

WR

33

RD

34

D7

D6

D5

D4

D3

D2

D1

D0

#CS_ADDR-

+5V

D4

D3

D2

D7

D6

D5

D1

D0

9

D7

8

D6

7 D5

6

D4

5

D3

4

D2

3

D1

2 D0

U8:H

U8:G

U8:F

U8:E

U8:D

U8:C

U8:B

U8:A

Q7

12

Q6

13

Q5

14

Q4

15

Q3

16

Q2

17

Q1

18

Q0

19

TP56

TP55

TP58

R26

10.0K

11 LATCH

ENABLE

VCC

U8:I

SN74AHC573DW

1 OUTPUT

ENABLE

GND

20

10

#WR-

#RD-

C43

0.1

R28

10.0K

TP6

R27

0.0

A14

A13

41

40

39

A12

A11

38

37

A10

A9 36

A8

35

A4

A3

A2

A7

A6

A5

A1

A0

C45

0.01

+5V

A14

A13

A12

A11

A10

A9

A8

+5V

C79

1.0

C76

0.1

C86

0.1

C77

6

DATA

7

CLK

U18

TLV5620ID

DACB

11

14 VDD

0.01

DACA

12

R83

10.0K

C68

0.01

10

9

U12:C

R66

6810

R81

12.1K

8

R62

10.0K

C53

0.01

3

2

U12:A

R54

0.0

1

R53

1000

R48

1500

TP15

C48

0.1

5

4

U23:A

R61

100K

2

TP27

8

LOAD

13

1

LDAC

GND

2

3

4

5

REFA

REFB

REFC

REFD

DAC

DACC

10

DACD

9

R82

10.0K

R98

10.0K

C67

0.01

C81

0.01

12

13

U16:D

R89

10.0K

R90

10.0K

14

10

9

U16:C

R92

10.0K

R94

10.0K

8

R84

1000

R93

1000

TP29

C72

0.1

C85

0.1

R88

10.0

R102

10.0

A8

A7

A6

A5

A4

A3

A2

A1

A0

A14

A13

A12

A11

A10

A9

A14

A13

A12

A11

A10

A9

A8

A7

A6

A5

A4

A3

A2

A1

A0

+5V

R49

0.0

C57

0.01

R50

0.0

20 CE

C58

0.1

28

VCC

RAM

10

A14

9 A13

8

A12

7

A11

6

A10

5

A9

4

A8

3

25

A7

2 A6

1

A5

26

A4

A3

24

A2

23

A1

21 A0

U13

CY62256LL

GND

14

I/O7

I/O6

I/O5

I/O4

I/O3

I/O2

I/O1

I/O0

15

13

12

11

19

18

17

16

27

WE

22 OE

D7

D5

D3

D1

D6

D4

D2

D0

D4

D3

D2

D1

D0

D7

D6

D5

+15V

+15V

+15V

+5V

C75

1.0

C62

1.0

C12

1.0

MISO

MOSI

SCK

TO

SHEET 2

TP25

R65

1000

R51

100

+5V

R52

4750

C66

0.1

Q1

R80

10.0

J12

11 B+ LEVEL CONTROL

J12

24

MMFT960T1

#HIGH_B+_LEVEL+

R155

1500

R153

1500

7

6

U23:B

1

+5V

R148

10.0K

8

9

R144

100K

U23:C

+5V

14

R152

10.0K

R154

100K

#HIGH_DC_CURRENT-

#LOW_AC-

VREF

#CS_ADC1-

#CS_ADC2-

#CS_DIGITAL_IN-

#CS_DIGITAL_OUT-

C73

0.1

4

VCC

U16:E

MC33074AD

VEE

11

C60

0.1

4

VCC

U12:E

MC33074AD

VEE

11

C121

1.0

C120

0.1

3 VCC U23:E

MC3302D

GND

12

C17

0.1

14

VCC

U5:G

SN74AHCT14D

GND

7

TO SHEET 2

S2070119 SHEET 1 OF 3 V1

Issue 0.3 2009-12-08

Figure SD-16: NAPI100A/01 Rack Interface PWB (Sheet 1 of 3)

SD-16

B+ SAMPLE 12 J12

25 J12

R188

0.0

RECTIFIER TEMP

DC CURRENT

SPARE

17 J12

4 J12

21 J12

8 J12

22 J12

9 J12

AC SAMPLE

E1

1

T1

5

CR2

2

3

6

7

E2

4 8

+48V_SAMPLE

+48V-A_SAMPLE

+48V-B_SAMPLE

#CS_ADC1-

SCK

MOSI

R17

47.5K

R104

3320

C8

33

63V

R5

15K

C82

100pF

C107

0.001

C89

0.001

C146

10

35V

R121

5620

R101

10.0K

R6

1500

R7

1820

CR1

R122

3920

R110

10.0K

C4

1.0

+15V

R106

475K

R133

15.0K

R136

2210

R126

475K

C97

0.001

R123

475K

C93

0.001

R113

475K

C3

0.001

R108 R109

22.1K

475K

C99

0.1

2

3

U20:A

C111

0.1

5

6

U20:B

C104

0.1

10

9

U20:C

13

U20:D

C96

0.1

12

13

U17:D

C92

0.1

12

+5V

1

7

8

14

14

TP38

TP41

TP42

TP43

TP39

TP40

R138

47.5K

R137

47.5K

R145

47.5K

R139

47.5K

R140

47.5K

R149

0.0

TP35

R141

47.5K

+5V

R147

0.0

TP36

R127

47.5K

+5V

R146

0.0

TP33

R128

47.5K

TP34

R129

47.5K

TP32

R130

47.5K

R131

47.5K

FROM SHEET 1

VREF

#CS_ADC2-

FROM SHEET 3

+5V_SAMPLE

+5V-A_SAMPLE

+5V-B_SAMPLE

+30V_SAMPLE

+30V-A_SAMPLE

+30V-B_SAMPLE

-15V_SAMPLE

-15V-A_SAMPLE

-15V-B_SAMPLE

+15V

+5V

S2070119 SHEET 2 OF 3 V1

TP30

R42

8250 R43

1210

C44 R46

0.1

475K

C46

0.1

+5V

R67

0.0

TP31

R95

47.5K

TP24

R96

47.5K

TP19

R76

47.5K

TP23

R75

47.5K

TP18

R74

47.5K

TP22

R73

47.5K

TP17

R72

47.5K

TP21

R71

47.5K

TP16

R70

47.5K

TP20

R69

47.5K

R68

47.5K

C168

0.1

C169

0.1

12

A10

11 A9

ADC

VCC

20

DC_CURRENT

AC_SAMPLE

B+_LEVEL

C102

0.1

C106

0.01

+5V

J11

J11

10 B+ SAMPLE

23

TO SHEET 1

C158

0.1

C157

0.1

C156

0.1

C155

0.1

C154

0.1

C153

0.1

C152

0.1

C151

0.1

C150

0.1

C149

0.1

C148

0.1

C171

0.1

9 A8

REF+

14

REF-

GND

13

10

C115

0.1

C113

1.0

VREF

8

A7

C170

0.1

U21

TLC1543IDW

7 A6

C167

0.1

6

A5

C166

0.1

C165

0.1

C164

0.1

C163

0.1

C162

0.1

C161

0.1

5 A4

4

A3

3 A2

2

A1

1

A0

15

CS

18

I/O_CLK

17 ADDRESS

EOC

19

CR8

BAT54HT1

DATA_OUT

16

+5V

R114

10.0K

#EOC-

MISO

+5V

TO SHEET 1

18 I/O_CLK

17

ADDRESS

15

CS

DATA_OUT

16

EOC

19

CR5

BAT54HT1

12

A10

11 A9

9

A8

8 A7

U15

TLC1543IDW

7

A6

6 A5

5

A4

4

A3

3

A2

2

A1

1 A0

VCC

20

REF+

14

REF-

13

GND

10

C78

0.1

C88

0.1

C84

0.01

+5V

C87

1.0

VREF

+5V

+5V

+5V

C105

1.0

C98

0.1

4

VDD

U20:E

TLV2374ID

GND

11

C71

1.0

C74

0.1

4

VDD

U17:E

TLV2374ID

GND

11

C128

1.0

14 VCC

C129

0.1

U27:G

SN74AHCT14D

GND

7

9

CR14

1SMB5939B

39V

COM

C122

1.0

U29:H

MC1413BD

GND

8

14 VCC

C123

0.1

U24:E

MC74HC125AD

GND

7

R63

6810

FROM SHEET 1

12

13

U12:D

14

# 15V PS OK A + 8 J15

23 J15

# 15V PS OK B + 7 J15

24 J15

PHASE LOST A 20 J12

7 J12

R166

100

#CS_DIGITAL_IN-

SCK

C174

0.47

R167

100

R125

100

+5V

R163

1500

C173

0.47

5

U27:C

6

TP69

11

A

C175

0.47

3

1

TP44

TP45

TP46

TP47

U27:B

4

TP68

12

B

TP67

VCC

16

U27:A

2

+5V

R162

10.0K

R158

10.0K

13 C

14

D

3

E

U26

MC74HC165AD

QH

7

GND

8

SA

10

CLK_INH

15

4

F

R159

10.0K

5

G

R160

10.0K

6

H

R161

10.0K

QH

9

1

SHIFT/LOAD

2

CLK

+5V

C125

0.1

C126

0.01

+5V

2

5

1

U24:A

3

4

U24:B

6

R156

10.0K

MISO

TO SHEET 1

MOSI

#CS_DIGITAL_OUT-

+5V

C131

0.01

11

SHIFT_CLK

14 A

QA

15

12

LATCH_CLK

9

SQH

U28

MC74HC595AD

QB

1

16

C130 10

0.1

VCC

RESET

13

8 GND

OE

QC

2

QD

3

QE

4

1

2

4

U29:A

16

U29:B

15

U29:D

13

5

C133

0.001

C134

0.001

TP76

U29:E

12

R169

10.0

R170

10.0

TP74

R171

10.0

TP73

3

+5V

+5V

TP48

1

2

RT20

RXE110

J15

J15

J15

R179

4750

J15

8

U30:A

MOCD223-M

7

J15

5

J15

6

9

10

12

11

INHIBIT 48V A+

INHIBIT 48V B+

INHIBIT 48V A-

INHIBIT 48V B-

SCR +12V

# INHIBIT SCR -

U29:C

14

+5V

R172

4750

TP75

C135

0.1

J14

5

J14

6

PDM INPUT CONTROL

Issue 0.3 2009-12-08


SD-17

15 J5

16 J5

15 J4

16 J4

15 J3

16 J3

15 J2

16 J2

15 J1

16 J1

3 J14

4 J14

3 J13

4 J13

1 J6

1 J7

2 J6

2 J7

C10

1000

50V

+15V

TO SHEETS 1 & 2

+15V

C132

1000

50V

J15

21

J15

22

J5

J5

J5

J5

J5

J5

J4

J4

J4

J4

J4

J4

J3

J3

J3

J3

J3

J3

J2

J2

J2

J2

J2

J2

J1

J1

J1

J1

J1

J1

23

24

25

11

12

13

11

12

13

23

24

25

11

12

13

23

24

25

11

12

13

23

24

25

11

12

13

23

24

25

J1

J1

J1

J1

J1

J1

J2

J2

J2

J2

J2

J2

J8

J8

J8

J12

10

J11

J11

J11

J11

J11

J5

J5

J5

J5

J5

J5

J3

J3

J3

J3

J3

J3

J4

J4

J4

J4

J4

J4

8

9

10

20

21

22

20

21

22

8

9

10

8

9

10

20

21

22

2

3

11

15

16

14

15

16

8

9

10

20

21

22

8

9

10

20

21

22

+15V (RECTIFIER)

+15V (CONTROL)

+15V (COLUMN 1)

+15V (COLUMN 2)

+15V (COLUMN 3)

+15V (COLUMN 4)

+15V (COLUMN 5)

+15V (SENSE)

+15V RETURN (SENSE)

+15V RETURN (COLUMN 1)





S2070119 SHEET 3 OF 3 V1

+48V (A)

3 J15

16 J15

+48V (B) 4 J15

17 J15

1 J15

2 J15

14 J15

15 J15

1 J11

4 J11

7 J11

9 J11

13 J11

14 J11

17 J11

20 J11

22 J11

25 J11

1 J10

4 J10

7 J10

9 J10

13 J10

14 J10

17 J10

20 J10

22 J10

23 J10

25 J10

R175

22.1K

R174

22.1K

R176

1000

R173

1000

C137

0.1

R143

475K

C136R134

0.1

475K

R150

22.1K

R151

1000

C119

0.1

R142

475K

+48V-A_SAMPLE

C116

0.1

+48V-B_SAMPLE

C114

0.1

C117

0.1

+48V_SAMPLE

CR16

MBR1660

CR17

MBR1660

PWB PART:

HAQ36_T

HW2

RT10

RXEF250

RT8

RXEF250

RT6

RXEF250

RT4

RXEF250

RT2

RXEF250

RT18

RXEF250

RT9

RXEF250

RT7

RXEF250

RT5

RXEF250

RT3

RXEF250

RT1

RXEF250

TO SHEET 2

J8

1 +48V (COLUMN 1 FAN 1)

J8


J8


J8


J8


J8


J9


J9


J9


J9


J12

2 +48V (RECTIFIER FAN 1)

J12

1 +48V (RECTIFIER FAN 2)

RT17

RXEF250

RT19

RXEF250

CR15

MBR1660

C127

22000

80V

R178

22.1K

R177

22.1K

J5

J5

7

19

J4

J4

7

19

J3

J3

7

19

J2

J2

J12

J12

7

19

J1

J1

J5

J5

J4

J4

1

2

J3

J3

1

2

1

2

J2

J2

7

19

1

2

J1

J1

1

2

14

15

+48V (COLUMN 1)

+48V (COLUMN 2)

+48V (COLUMN 3)

+48V (COLUMN 4)

+48V (COLUMN 5)






+48V RETURN (RECTIFIER FAN 1)

+48V RETURN (RECTIFIER FAN 2)

+15V

RT11

RUEF600

RT12

RUEF600

RT14

RXEF250

RT13

RXEF250

L3

L5

C145

47

16V

C180

47

16V

C144

0.1

C179

0.1

C22

10

35V

C37

10

35V

U2

ATL010A0X43-SR

2 VIN

1

ON/OFF

3

SEQ

VOUT

SENSE

4

GND TRIM

6

5

7

C52

10

35V

1 +IN

2

-IN

U11

AEE00CC18-L

+OUT

COM

3

4

-OUT

5

C80

10

35V

1

+IN

2

-IN

U14

AEE00CC18-L

+OUT

COM

3

4

-OUT

5

RT15

RXEF250

C118

10

35V

1

+IN

2 -IN

U22

AEE00CC18-L

+OUT

COM

3

4

-OUT

5

RT16

RXEF250

C124

10

35V

1

+IN

2 -IN

U25

AEE00CC18-L

+OUT

COM

3

4

-OUT

5

GND

C15

0.1

GND

C11

0.1

C9

0.1

GND GND

C7

47

16V

R9

1210

C95

10

35V

C94

1.0

C103

0.1

C6

1.0

C5

0.1

CR22

1N5920C

6.2V

R192

1210

C143

0.1

Q2

S4065K

PWB PART:

HR67_S

A1

U3

STPS40L15CW

A2

K

HW1

R107

15.0K

R111

10.0K

C101

0.1

R105

475K

C91

0.1

R21

15.0K

R30

10.0K

C25

0.1

R31

475K

+5V

+5V_SAMPLE

TO SHEETS 1 & 2

J9

J9

J9

J11

J11

J11

J11

J14

J14

1

2

J13

J13

5

6

18

19

1

2

14

15

16

+5V (PDM)

+5V (RF DRIVE)

2

1

3

4

TP7

C27

0.1

U4

ATL010A0X43-SR

VIN

ON/OFF

SEQ

GND

C26

0.1

C23

0.1

VOUT

SENSE

5

7

TRIM

6

C65

10

35V

TP26 TP37 TP49

C70

1.0

C178

47

16V

C176

1.0

C177

0.1

R10

1210

CR23

1N5920C

6.2V

R199

1210

C172

0.1

Q3

S4065K

C36

10

35V

C47

10

35V

C64

0.1

C35

1.0

C51

1.0

C34

0.1

C56

0.1

C29

0.1

+5V-A_SAMPLE

+5V-B_SAMPLE

TO SHEET 2

R24

15.0K

R23

10.0K

C31

0.1

R22

475K

C30

0.1

CR6

MBR1660

CR7

MBR1660

CR3

MBR1660

CR4

MBR1660

R87

8250

R85

1210

R79

8250

R77

1210

R34

15.0K

R60

15.0K

C69

0.1

C63

0.1

R56

15.0K

R57

1000

C54

0.1

R64

475K

R32

1000

R59

1000

R86

10.0K

R78

10.0K

6

5

2

3

C33

0.1

C61

0.1

R33

475K

R58

475K

R91

10.0K

U17:B

7

R97

10.0K

U17:A

1

R120

8250 R119

1210

C112

0.1

R118

10.0K

10

9

R112

10.0K

U17:C

8

R115

475K

-15V-A_SAMPLE

C108

0.1

J12

J12

16

3

+30V_SAMPLE

C59

0.1

+30V-A_SAMPLE

TO SHEET 2

C32

0.1

+30V-B_SAMPLE

C55

0.1

R117

475K

-15V_SAMPLE

C110

0.1

J9

J9

J9

18

19

20

J12

23

J11

J11

8

21

-15V (CONTROL)

R116

475K

-15V-B_SAMPLE

C109

0.1

TO SHEET 2

TACH (COLUMN 1 FAN 1)


23 J8

10 J8



24 J8

11 J8



25 J8

12 J8



23 J9

10 J9



24 J9

11 J9

J3

J3

3

4

J2

J2

3

4

J1

J1

3

4

J5

J5

3

4

J4

J4

3

4

Issue 0.3 2009-12-08


SD-18

+5V

RF DRIVE 1

+ 1 J4

2 J4

R5

0.0

R7

0.0

1

4

L2

2

3

R11

475

R12

475

R6

82.5

14

15

2

1

R8

82.5

C102

0.1

U31:D

13

U31:A

3

TP1 TP2

+5V 1 J5

2 J5

3 J5

4 J5

L3

C98

0.1

C99

1.0

C101

10

+5V

GND GND

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

C100

0.1

16

C103

1.0

4

ENABLE

U31:E

ENABLE

DS26C32ATM

VCC GND

12

8

C28

0.1

C4

0.1

C27

0.1

C3

0.1

C26

0.1

C2

0.1

C25

0.1

C1

0.1

C32

0.1

C8

0.1

16

4

ENABLE

U16:E

DS26C31TM

ENABLE

VCC GND

12

8

C40

1.0

16

4

ENABLE

U4:E

DS26C31TM

ENABLE

VCC GND

12

8

C16

1.0

16

4

ENABLE

U15:E

DS26C31TM

ENABLE

VCC GND

12

8

C39

1.0

16

4

ENABLE

U3:E

DS26C31TM

ENABLE

VCC GND

12

8

C15

1.0

C38

1.0

16

4

ENABLE

U14:E

DS26C31TM

ENABLE

VCC GND

12

8

16

4

ENABLE

U2:E

DS26C31TM

ENABLE

VCC GND

12

8

C14

1.0

16

4

ENABLE

U13:E

DS26C31TM

ENABLE

VCC GND

12

8

C37

1.0

16

4

ENABLE

U1:E

DS26C31TM

ENABLE

VCC GND

12

8

C13

1.0

16

4

ENABLE

U20:E

DS26C31TM

ENABLE

VCC GND

12

8

C44

1.0

16

4

ENABLE

U8:E

DS26C31TM

ENABLE

VCC GND

12

8

C20

1.0

S2070001 SHEET 1 OF 2 VB

+5V

+5V

+5V

+5V

C64

0.1

C76

0.1

C75

0.1

C63

0.1

1

IN O1

3

C52

1.0

4

VCC

C88

1.0

8

VCC

U26

IDT74FCT807CTSO

O2

5

15

C87

1.0

VCC

O3

7

20

C51

1.0

VCC

O4

9

10

13

2

GND

6

GND

GND

17

GND

GND

O5

11

O6

12

O7

14

O8

16

O9

18

O10

19

J3

J3

A1

A2

+

-

J3

J3

A3

A6

+

-

J3

J3

B1

B2

+

-

J3

J3

B3

B6

+

-

J3

J3

C1

C2

+

-

J3

J3

C3

C6

+

-

J3

J3

D1

D2

+

-

J3

J3

D3

D6

+

-

J3

J3

E1

E2

+

-

J3

J3

E3

E6

+

-

J3

J3

J3

J3

F3

F6

J3

J3

F1

F2

G1

G2

+

-

+

-

+

-

J3

J3

G3

G6

+

-

J3

J3

H1

H2

+

-

J3

J3

H3

H6

+

-

RF DRIVE 1

7

U3:A

5

2

1

U3:B

3

6

7

U14:A

5

2

1

U14:B

3

6

U16:A

2

1

U16:B

3

6

7

U4:A

5

2

1

U4:B

3

6

7

U15:A

5

2

1

U15:B

3

6

7

U2:A

5

2

1

U2:B

3

6

7

U13:A

5

2

1

U13:B

3

6

7

U1:A

5

2

1

U1:B

3

6

7

5

+5V

+5V

+5V

+5V

C68

0.1

C80

0.1

C79

0.1

C67

0.1

1

IN O1

3

C56

1.0

4

VCC

C92

1.0

8

VCC

U28

IDT74FCT807CTSO

O2

5

15

C91

1.0

VCC

O3

7

20

C55

1.0

VCC

O4

9

10

13

17

2

6

GND

GND

GND

GND

GND

O5

11

O6

12

O7

14

O8

16

O9

18

O10

19

J2

J2

A1

A2

+

-

J2

J2

A3

A6

+

-

J2

J2

B1

B2

+

-

J2

J2

B3

B6

+

-

J2

J2

C1

C2

+

-

J2

J2

C3

C6

+

-

J2

J2

D1

D2

+

-

J2

J2

D3

D6

+

-

J2

J2

E1

E2

+

-

J2

J2

E3

E6

J2

J2

J2

J2

F3

F6

J2

J2

F1

F2

G1

G2

+

-

+

-

+

-

J2

J2

G3

G6

+

-

+

-

J2

J2

H1

H2

+

-

J2

J2

H3

H6

+

-

RF DRIVE 1

U20:A

2

1

U20:B

3

6

7

U8:A

5

2

1

U8:B

3

6

7

U19:A

5

2

1

U19:B

3

6

7

U7:A

5

2

1

U7:B

3

6

7

U18:A

5

2

1

U18:B

3

6

7

U6:A

5

2

1

U6:B

3

6

7

U17:A

5

2

1

U17:B

3

6

7

U5:A

5

2

1

U5:B

3

6

7

5

1

IN

+5V

+5V

+5V

+5V

C72

0.1

C84

0.1

C83

0.1

C71

0.1

O1

3

C60

1.0

4

VCC

C96

1.0

8

VCC

U30

IDT74FCT807CTSO

O2

5

C95

1.0

15

VCC

O3

7

C59

1.0

20

VCC

O4

9

2

GND

6

10

GND

13

GND

GND

17

GND

O5

11

O6

12

O7

14

O8

16

O9

18

O10

19

J1

J1

A1

A2

+

-

J1

J1

A3

A6

+

-

J1

J1

B1

B2

+

-

J1

J1

B3

B6

+

-

J1

J1

C1

C2

+

-

J1

J1

C3

C6

+

-

J1

J1

D1

D2

+

-

J1

J1

D3

D6

+

-

J1

J1

E1

E2

+

-

J1

J1

J1

J1

E3

E6

+

-

J1

J1

J1

J1

F3

F6

J1

J1

F1

F2

G1

G2

+

-

+

-

+

-

G3

G6

+

-

J1

J1

H1

H2

+

-

J1

J1

H3

H6

+

-

RF DRIVE 1

7

U23:A

5

2

1

3

U23:B

6

7

U11:A

5

2

1

U11:B

3

6

7

U22:A

5

2

1

3

U22:B

6

7

U10:A

5

2

1

U10:B

3

6

U24:A

2

1

3

U24:B

6

7

U12:A

5

2

1

U12:B

3

6

7

U21:A

5

2

1

3

U21:B

6

7

U9:A

5

2

1

U9:B

3

6

7

5

Issue 0.3 2009-12-08

Figure SD-19: NAPI98 RF Drive Distribution PWB (Sheet 1of 2)

SD-19

Issue 0.3 2009-12-08

+5V

RF DRIVE 2

+ 7 J4

8 J4

R4

0.0

R2

0.0

4

1

L1

3

2

R10

475

R9

475

R3

82.5

10

9

6

7

R1

82.5

C97

0.1

U31:C

11

U31:B

5

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

C31

0.1

C7

0.1

C30

0.1

C6

0.1

C29

0.1

C5

0.1

C36

0.1

C12

0.1

C35

0.1

C11

0.1

C34

0.1

C10

0.1

C33

0.1

C9

0.1

4

16

ENABLE

U19:E

DS26C31TM

ENABLE

VCC GND

12

8

C43

1.0

4

16

ENABLE

U7:E

DS26C31TM

ENABLE

VCC GND

12

8

C19

1.0

C42

1.0

4

16

ENABLE

U18:E

DS26C31TM

ENABLE

VCC GND

12

8

4

16

ENABLE

U6:E

DS26C31TM

ENABLE

VCC GND

12

8

C18

1.0

4

16

ENABLE

U17:E

DS26C31TM

ENABLE

VCC GND

12

8

C41

1.0

4

16

ENABLE

U5:E

DS26C31TM

ENABLE

VCC GND

12

8

C17

1.0

4

16

ENABLE

U24:E

DS26C31TM

ENABLE

VCC GND

12

8

C48

1.0

4

16

ENABLE

U12:E

DS26C31TM

ENABLE

VCC GND

12

8

C24

1.0

4

16

ENABLE

U23:E

DS26C31TM

ENABLE

VCC GND

12

8

C47

1.0

4

16

ENABLE

U11:E

DS26C31TM

ENABLE

VCC GND

12

8

C23

1.0

4

16

ENABLE

U22:E

DS26C31TM

ENABLE

VCC GND

12

8

C46

1.0

4

16

ENABLE

U10:E

DS26C31TM

ENABLE

VCC GND

12

8

C22

1.0

4

16

ENABLE

U21:E

DS26C31TM

ENABLE

VCC GND

12

8

C45

1.0

4

16

ENABLE

U9:E

DS26C31TM

ENABLE

VCC GND

12

8

C21

1.0


+5V

+5V

+5V

+5V

C62

0.1

C74

0.1

C73

0.1

C61

0.1

1

IN O1

3

C50

1.0

4

VCC

C86

1.0

8

VCC

U25

IDT74FCT807CTSO

O2

5

C85

1.0

15

VCC

O3

7

C49

1.0

20

VCC

O4

9

2

6

10

13

17

GND

GND

GND

GND

GND

O5

11

O6

12

O7

14

O8

O9

O10

16

18

19

U16:C

10

9

U16:D

11

14

15

U4:C

13

10

9

U4:D

11

14

15

U15:C

13

10

9

U15:D

11

14

15

U3:C

13

10

9

U3:D

11

14

15

U14:C

13

10

9

U14:D

11

14

15

U2:C

13

10

9

U2:D

11

14

15

U13:C

13

10

9

U13:D

11

14

15

U1:C

13

10

9

U1:D

11

14

15

13

J3

J3

A4

A5

+

-

J3

J3

A7

A8

+

-

J3

J3

B4

B5

+

-

J3

J3

B7

B8

+

-

J3

J3

C4

C5

+

-

J3

J3

C7

C8

+

-

J3

J3

D4

D5

+

-

J3

J3

D7

D8

+

-

J3

J3

E4

E5

+

-

J3

J3

E7

E8

+

-

J3

J3

J3

J3

F7

F8

J3

J3

F4

F5

G4

G5

+

-

+

-

+

-

J3

J3

G7

G8

+

-

J3

J3

H4

H5

+

-

J3

J3

H7

H8

+

-

+5V

+5V

+5V

+5V

RF DRIVE 2

C66

0.1

C78

0.1

C77

0.1

C65

0.1

1

IN O1

3

4

VCC

C54

1.0

C90

1.0

8

VCC

U27

IDT74FCT807CTSO

O2

5

C89

1.0

15

VCC

O3

7

C53

1.0

20

VCC

2

10

GND

6

GND

GND

13

17

GND

GND

O4

9

O5

11

O6

12

O7

14

O8

16

O9

18

O10

19

U20:C

10

9

U20:D

11

14

15

U8:C

13

10

15

U18:C

13

10

9

U18:D

11

14

15

U6:C

13

10

9

U6:D

11

14

15

U17:C

13

10

9

11

U17:D

14

15

U5:C

13

10

9

U5:D

11

14

15

13

9

U8:D

11

14

15

U19:C

13

10

9

U19:D

11

14

15

U7:C

13

10

9

U7:D

11

14

J2

J2

A4

A5

+

-

J2

J2

A7

A8

+

-

J2

J2

B4

B5

+

-

J2

J2

B7

B8

+

-

J2

J2

C4

C5

+

-

J2

J2

C7

C8

+

-

J2

J2

D4

D5

+

-

J2

J2

D7

D8

+

-

J2

J2

E4

E5

+

-

J2

J2

E7

E8

+

-

J2

J2

F4

F5

+

-

J2

J2

F7

F8

+

-

J2

J2

G4

G5

+

-

J2

J2

G7

G8

+

-

J2

J2

H4

H5

+

-

J2

J2

H7

H8

+

-

RF DRIVE 2

+5V

+5V

+5V

+5V

1

IN

C70

0.1

C82

0.1

C81

0.1

C69

0.1

O1

3

C58

1.0

4

VCC

C94

1.0

8

VCC

U29

IDT74FCT807CTSO

O2

5

C93

1.0

15

VCC

O3

7

C57

1.0

20

VCC

O4

9

2

GND

6

GND

10

13

GND

GND

17

GND

O5

11

O6

12

O7

14

O8

16

O9

18

O10

19

J1

J1

A4

A5

+

-

J1

J1

A7

A8

+

-

J1

J1

B4

B5

+

-

J1

J1

B7

B8

+

-

J1

J1

C4

C5

+

-

J1

J1

C7

C8

+

-

J1

J1

D4

D5

+

-

J1

J1

D7

D8

+

-

J1

J1

E4

E5

+

-

J1

J1

E7

E8

+

-

J1

J1

F4

F5

+

-

J1

J1

F7

F8

+

-

J1

J1

G4

G5

+

-

J1

J1

G7

G8

+

-

J1

J1

H4

H5

+

-

J1

J1

H7

H8

+

-

RF DRIVE 2

U24:C

10

9

U24:D

11

14

15

U12:C

13

10

9

U12:D

11

14

15

U23:C

13

10

9

U23:D

11

14

15

U11:C

13

10

9

U11:D

11

14

15

U22:C

13

10

9

U22:D

11

14

15

U10:C

13

10

9

U10:D

11

14

15

U21:C

13

10

9

U21:D

11

14

15

U9:C

13

10

9

U9:D

11

14

15

13

Figure SD-20: NAPI98 RF Drive Distribution PWB (Sheet 2 of 2)

SD-20

Issue 0.3 2009-12-08


PDM_A1

PDM_A2

PDM_A3

DUMP_A

U7:A

2

1

U7:B

3

6

15

7

U7:C

5

10

9

U7:D

11

14

13

J1

J1

A1

A2

(+)

(-)

J1

J1

A3

A6

(+)

(-)

J1

J1

A4

A5

(+)

(-)

J1

J1

A7

A8

(+)

(-)

PDM 1

PDM 2

PDM 3

DUMP

MODULE

1

PDM_B1

PDM_B2

PDM_B3

DUMP_B

U6:A

2

1

U6:B

3

6

7

U6:C

5

10

15

9

U6:D

11

14

13

J1

J1

B1

B2

J1

J1

B3

B6

J1

J1

B4

B5

J1

J1

B7

B8

(+)

(-)

(+)

(-)

(+)

(-)

(+)

(-)

PDM 1

PDM 2

PDM 3

DUMP

MODULE

2

PDM_C1

PDM_C2

PDM_C3

DUMP_C

PDM_A1

PDM_A2

PDM_A3

DUMP_A

PDM_B1

PDM_B2

PDM_B3

DUMP_B

U9:A

2

1

U9:B

3

6

15

7

U9:C

5

10

9

U9:D

11

14

13

J1

J1

C1

C2

(+)

(-)

J1

J1

C3

C6

(+)

(-)

J1

J1

C4

C5

(+)

(-)

J1

J1

C7

C8

(+)

(-)

PDM 1

PDM 2

PDM 3

DUMP

U8:A

2

1

U8:B

3

6

7

U8:C

5

10

15

9

U8:D

11

14

13

J1

J1

D1

D2

(+)

(-)

J1

J1

D3

D6

(+)

(-)

J1

J1

D4

D5

(+)

(-)

J1

J1

D7

D8

(+)

(-)

PDM 1

PDM 2

PDM 3

DUMP

U11:A

2

1

U11:B

3

6

7

U11:C

5

10

15

9

U11:D

11

14

13

J1

J1

E1

E2

J1

J1

E3

E6

J1

J1

E4

E5

J1

J1

E7

E8

(+)

(-)

(+)

(-)

(+)

(-)

(+)

(-)

PDM 1

PDM 2

PDM 3

DUMP

MODULE

3

MODULE

4

MODULE

5

PDM_C1

PDM_C2

PDM_C3

DUMP_C

U10:A

2

1

U10:B

3

6

15

7

U10:C

5

10

9

U10:D

11

14

13

J1

J1

F1

F2

J1

J1

F3

F6

J1

J1

F4

F5

J1

J1

F7

F8

(+)

(-)

(+)

(-)

(+)

(-)

(+)

(-)

PDM 1

PDM 2

PDM 3

DUMP

MODULE

6

PDM_A1

PDM_A2

PDM_A3

DUMP_A

PDM_B1

PDM_B2

PDM_B3

DUMP_B

U13:A

2

1

U13:B

3

6

15

7

U13:C

5

10

9

U13:D

11

14

13

J1

J1

G1

G2

(+)

(-)

J1

J1

J1

J1

G3

G6

(+)

(-)

J1

J1

G4

G5

(+)

(-)

G7

G8

(+)

(-)

PDM 1

PDM 2

PDM 3

DUMP

U12:A

2

1

U12:B

3

6

15

7

U12:C

5

10

9

U12:D

11

14

13

J1

J1

H1

H2

(+)

(-)

J1

J1

H3

H6

(+)

(-)

J1

J1

H4

H5

(+)

(-)

J1

J1

H7

H8

(+)

(-)

PDM 1

PDM 2

PDM 3

DUMP

MODULE

7

MODULE

8

PDM_C1

PDM_C2

PDM_C3

DUMP_C

PDM_A1

PDM_A2

PDM_A3

DUMP_A

PDM_B1

PDM_B2

PDM_B3

DUMP_B

PDM_C1

PDM_C2

PDM_C3

DUMP_C

PDM_A1

PDM_A2

PDM_A3

DUMP_A

PDM_B1

PDM_B2

PDM_B3

DUMP_B

PDM_C1

PDM_C2

PDM_C3

DUMP_C

PDM_A1

PDM_A2

PDM_A3

DUMP_A

U15:A

2

1

U15:B

3

6

15

7

U15:C

5

10

9

U15:D

11

14

13

J2

J2

A1

A2

(+)

(-)

J2

J2

A3

A6

(+)

(-)

J2

J2

A4

A5

(+)

(-)

J2

J2

A7

A8

(+)

(-)

PDM 1

PDM 2

PDM 3

DUMP

MODULE

9

U14:A

2

1

U14:B

3

6

7

U14:C

5

10

15

9

U14:D

11

14

13

J2

J2

B1

B2

(+)

(-)

J2

J2

B3

B6

(+)

(-)

J2

J2

B4

B5

(+)

(-)

J2

J2

B7

B8

(+)

(-)

PDM 1

PDM 2

PDM 3

DUMP

MODULE

10

U17:A

2

1

U17:B

3

6

15

7

U17:C

5

10

9

U17:D

11

14

13

J2

J2

C1

C2

(+)

(-)

J2

J2

C3

C6

(+)

(-)

J2

J2

C4

C5

(+)

(-)

J2

J2

C7

C8

(+)

(-)

PDM 1

PDM 2

PDM 3

DUMP

U16:A

2

1

U16:B

3

6

7

U16:C

5

10

15

9

U16:D

11

14

13

J2

J2

D1

D2

(+)

(-)

J2

J2

D3

D6

(+)

(-)

J2

J2

D4

D5

(+)

(-)

J2

J2

D7

D8

(+)

(-)

PDM 1

PDM 2

PDM 3

DUMP

U19:A

2

1

U19:B

3

6

7

U19:C

5

10

15

9

U19:D

11

14

13

J2

J2

E1

E2

(+)

(-)

J2

J2

E3

E6

(+)

(-)

J2

J2

E4

E5

(+)

(-)

J2

J2

E7

E8

(+)

(-)

PDM 1

PDM 2

PDM 3

DUMP

MODULE

11

MODULE

12

MODULE

13

U18:A

2

1

U18:B

3

6

15

7

U18:C

5

10

9

U18:D

11

14

13

J2

J2

F1

F2

(+)

(-)

J2

J2

F3

F6

(+)

(-)

J2

J2

F4

F5

(+)

(-)

J2

J2

F7

F8

(+)

(-)

PDM 1

PDM 2

PDM 3

DUMP

MODULE

14

U21:A

2

1

U21:B

3

6

15

7

U21:C

5

10

9

U21:D

11

14

13

J2

J2

G1

G2

(+)

(-)

J2

J2

G3

G6

(+)

(-)

J2

J2

G4

G5

(+)

(-)

J2

J2

G7

G8

(+)

(-)

PDM 1

PDM 2

PDM 3

DUMP

U20:A

2

1

U20:B

3

6

15

7

U20:C

5

10

9

U20:D

11

14

13

J2

J2

H1

H2

(+)

(-)

J2

J2

H3

H6

(+)

(-)

J2

J2

H4

H5

(+)

(-)

J2

J2

H7

H8

(+)

(-)

PDM 1

PDM 2

PDM 3

DUMP

MODULE

15

MODULE

16

PDM_B1

PDM_B2

PDM_B3

DUMP_B

U23:A

2

1

U23:B

3

6

15

7

U23:C

5

10

9

U23:D

11

14

13

J3

J3

A1

A2

(+)

(-)

J3

J3

A3

A6

(+)

(-)

J3

J3

A4

A5

(+)

(-)

J3

J3

A7

A8

(+)

(-)

PDM 1

PDM 2

PDM 3

DUMP

MODULE

17

PDM_C1

PDM_C2

PDM_C3

DUMP_C

U22:A

2

1

U22:B

3

6

15

7

U22:C

5

10

9

U22:D

11

14

13

J3

J3

B1

B2

(+)

(-)

J3

J3

B3

B6

(+)

(-)

J3

J3

B4

B5

(+)

(-)

J3

J3

B7

B8

(+)

(-)

PDM 1

PDM 2

PDM 3

DUMP

MODULE

18

PDM_A1

PDM_A2

PDM_A3

DUMP_A

PDM_B1

PDM_B2

PDM_B3

DUMP_B

PDM_C1

PDM_C2

PDM_C3

DUMP_C

U25:A

2

1

U25:B

3

6

15

7

U25:C

5

10

9

U25:D

11

14

13

J3

J3

C1

C2

(+)

(-)

J3

J3

C3

C6

(+)

(-)

J3

J3

C4

C5

(+)

(-)

J3

J3

C7

C8

(+)

(-)

PDM 1

PDM 2

PDM 3

DUMP

U24:A

2

1

U24:B

3

6

7

U24:C

5

10

15

9

U24:D

11

14

13

J3

J3

D1

D2

(+)

(-)

J3

J3

D3

D6

(+)

(-)

J3

J3

D4

D5

(+)

(-)

J3

J3

D7

D8

(+)

(-)

PDM 1

PDM 2

PDM 3

DUMP

U27:A

2

1

U27:B

3

6

7

U27:C

5

10

15

9

U27:D

11

14

13

J3

J3

E1

E2

(+)

(-)

J3

J3

E3

E6

(+)

(-)

J3

J3

E4

E5

(+)

(-)

J3

J3

E7

E8

(+)

(-)

PDM 1

PDM 2

PDM 3

DUMP

MODULE

19

MODULE

20

MODULE

21

PDM_A1

PDM_A2

PDM_A3

DUMP_A

U26:A

2

1

U26:B

3

6

15

7

U26:C

5

10

9

U26:D

11

14

13

J3

J3

F1

F2

(+)

(-)

J3

J3

F3

F6

(+)

(-)

J3

J3

F4

F5

(+)

(-)

J3

J3

F7

F8

(+)

(-)

PDM 1

PDM 2

PDM 3

DUMP

MODULE

22

PDM_B1

PDM_B2

PDM_B3

DUMP_B

PDM_C1

PDM_C2

PDM_C3

DUMP_C

U29:A

2

1

U29:B

3

6

15

7

U29:C

5

10

9

U29:D

11

14

13

J3

J3

G1

G2

(+)

(-)

J3

J3

G3

G6

(+)

(-)

J3

J3

G4

G5

(+)

(-)

J3

J3

G7

G8

(+)

(-)

PDM 1

PDM 2

PDM 3

DUMP

U28:A

2

1

U28:B

3

6

15

7

U28:C

5

10

9

U28:D

11

14

13

J3

J3

H1

H2

(+)

(-)

J3

J3

H3

H6

(+)

(-)

J3

J3

H4

H5

(+)

(-)

J3

J3

H7

H8

(+)

(-)

PDM 1

PDM 2

PDM 3

DUMP

MODULE

23

MODULE

24

PDM_A1

PDM_A2

PDM_A3

DUMP_A

PDM_B1

PDM_B2

PDM_B3

DUMP_B

PDM_C1

PDM_C2

PDM_C3

DUMP_C

PDM_A1

PDM_A2

PDM_A3

DUMP_A

PDM_B1

PDM_B2

PDM_B3

DUMP_B

PDM_C1

PDM_C2

PDM_C3

DUMP_C

PDM_A1

PDM_A2

PDM_A3

DUMP_A

PDM_B1

PDM_B2

PDM_B3

DUMP_B

U31:A

2

1

U31:B

3

6

15

7

U31:C

5

10

9

U31:D

11

14

13

J4

J4

A1

A2

(+)

(-)

J4

J4

A3

A6

(+)

(-)

J4

J4

A4

A5

(+)

(-)

J4

J4

A7

A8

(+)

(-)

PDM 1

PDM 2

PDM 3

DUMP

MODULE

25

U30:A

2

1

U30:B

3

6

15

7

U30:C

5

10

9

U30:D

11

14

13

J4

J4

B1

B2

(+)

(-)

J4

J4

B3

B6

(+)

(-)

J4

J4

B4

B5

(+)

(-)

J4

J4

B7

B8

(+)

(-)

PDM 1

PDM 2

PDM 3

DUMP

MODULE

26

U33:A

2

1

U33:B

3

6

15

7

U33:C

5

10

9

U33:D

11

14

13

J4

J4

C1

C2

(+)

(-)

J4

J4

C3

C6

(+)

(-)

J4

J4

C4

C5

(+)

(-)

J4

J4

C7

C8

(+)

(-)

PDM 1

PDM 2

PDM 3

DUMP

U32:A

2

1

U32:B

3

6

7

U32:C

5

10

15

9

U32:D

11

14

13

J4

J4

D1

D2

(+)

(-)

J4

J4

D3

D6

(+)

(-)

J4

J4

D4

D5

(+)

(-)

J4

J4

D7

D8

(+)

(-)

PDM 1

PDM 2

PDM 3

DUMP

U35:A

2

1

U35:B

3

6

7

U35:C

5

10

15

9

U35:D

11

14

13

J4

J4

E1

E2

(+)

(-)

J4

J4

E3

E6

(+)

(-)

J4

J4

E4

E5

(+)

(-)

J4

J4

E7

E8

(+)

(-)

PDM 1

PDM 2

PDM 3

DUMP

MODULE

27

MODULE

28

MODULE

29

U34:A

2

1

U34:B

3

6

15

7

U34:C

5

10

9

U34:D

11

14

13

J4

J4

F1

F2

(+)

(-)

J4

J4

F3

F6

(+)

(-)

J4

J4

F4

F5

(+)

(-)

J4

J4

F7

F8

(+)

(-)

PDM 1

PDM 2

PDM 3

DUMP

MODULE

30

U37:A

2

1

U37:B

3

6

15

7

U37:C

5

10

9

U37:D

11

14

13

J4

J4

G1

G2

(+)

(-)

J4

J4

G3

G6

(+)

(-)

J4

J4

G4

G5

(+)

(-)

J4

J4

G7

G8

(+)

(-)

PDM 1

PDM 2

PDM 3

DUMP

U36:A

2

1

U36:B

3

6

15

7

U36:C

5

10

9

U36:D

11

14

13

J4

J4

H1

H2

(+)

(-)

J4

J4

H3

H6

(+)

(-)

J4

J4

H4

H5

(+)

(-)

J4

J4

H7

H8

(+)

(-)

PDM 1

PDM 2

PDM 3

DUMP

MODULE

31

MODULE

32

PDM_C1

PDM_C2

PDM_C3

DUMP_C

U39:A

2

1

U39:B

3

6

7

U39:C

5

10

15

9

U39:D

11

14

13

J5

J5

A1

A2

(+)

(-)

J5

J5

A3

A6

(+)

(-)

J5

J5

A4

A5

(+)

(-)

J5

J5

A7

A8

(+)

(-)

PDM 1

PDM 2

PDM 3

DUMP

PDM_A1

PDM_A2

PDM_A3

DUMP_A

U38:A

2

1

3

U38:B

6

15

7

U38:C

5

10

9

U38:D

11

14

13

J5

J5

B1

B2

(+)

(-)

J5

J5

B3

B6

(+)

(-)

J5

J5

B4

B5

(+)

(-)

J5

J5

B7

B8

(+)

(-)

PDM 1

PDM 2

PDM 3

DUMP

PDM_B1

PDM_B2

PDM_B3

DUMP_B

PDM_C1

PDM_C2

PDM_C3

DUMP_C

PDM_A1

PDM_A2

PDM_A3

DUMP_A

U41:A

2

1

U41:B

3

6

15

7

U41:C

5

10

9

U41:D

11

14

13

J5

J5

C1

C2

(+)

(-)

J5

J5

C3

C6

(+)

(-)

J5

J5

C4

C5

(+)

(-)

J5

J5

C7

C8

(+)

(-)

PDM 1

PDM 2

PDM 3

DUMP

U40:A

2

1

U40:B

3

6

7

U40:C

5

10

15

9

11

U40:D

14

13

J5

J5

D1

D2

(+)

(-)

J5

J5

D3

D6

(+)

(-)

J5

J5

D4

D5

(+)

(-)

J5

J5

D7

D8

(+)

(-)

PDM 1

PDM 2

PDM 3

DUMP

U43:A

2

1

U43:B

3

6

7

U43:C

5

10

15

9

11

U43:D

14

13

J5

J5

E1

E2

(+)

(-)

J5

J5

E3

E6

(+)

(-)

J5

J5

E4

E5

(+)

(-)

J5

J5

E7

E8

(+)

(-)

PDM 1

PDM 2

PDM 3

DUMP

PDM_B1

PDM_B2

PDM_B3

DUMP_B

U42:A

2

1

3

U42:B

6

15

7

5

U42:C

10

9

U42:D

11

14

13

J5

J5

F1

F2

(+)

(-)

J5

J5

F3

F6

(+)

(-)

J5

J5

F4

F5

(+)

(-)

J5

J5

F7

F8

(+)

(-)

PDM 1

PDM 2

PDM 3

DUMP

PDM_C1

PDM_C2

PDM_C3

DUMP_C

PDM_A1

PDM_A2

PDM_A3

DUMP_A

U45:A

2

1

3

U45:B

6

15

7

5

U45:C

10

9

U45:D

11

14

13

J5

J5

G1

G2

(+)

(-)

J5

J5

G3

G6

(+)

(-)

J5

J5

G4

G5

(+)

(-)

J5

J5

G7

G8

(+)

(-)

PDM 1

PDM 2

PDM 3

DUMP

U44:A

2

1

U44:B

3

6

15

7

U44:C

5

10

9

U44:D

11

14

13

J5

J5

H1

H2

(+)

(-)

J5

J5

H3

H6

(+)

(-)

J5

J5

H4

H5

(+)

(-)

J5

J5

H7

H8

(+)

(-)

PDM 1

PDM 2

PDM 3

DUMP

MODULE

33

MODULE

34

MODULE

35

MODULE

36

MODULE

37

MODULE

38

MODULE

39

MODULE

40

Figure SD-21: NAPI99 PDM Distribution PWB (Sheet 1 of 2)

SD-21

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

C13

0.1

C15

0.1

C17

0.1

C24

0.1

C26

0.1

C28

0.1

C30

0.1

C32

0.1

C34

0.1

C36

0.1

C38

0.1

C40

0.1

C42

0.1

C44

0.1

C46

0.1

C48

0.1

C50

0.1

4 ENABLE

U1:E

ENABLE

DS26C32ATM

C14

1.0

16 VCC

GND

4 ENABLE

U2:E

ENABLE

DS26C32ATM

C16

1.0

16 VCC

GND

4

16

ENABLE

U3:E

ENABLE

DS26C32ATM

VCC GND

C18

1.0

12

8

12

8

12

8

4 ENABLE

U6:E

DS26C31TM

ENABLE

16 VCC

GND

12

8

C23

1.0

16

4

ENABLE

U7:E

DS26C31TM

ENABLE

VCC GND

12

8

C25

1.0

16

4

ENABLE

U8:E

DS26C31TM

ENABLE

VCC GND

12

8

C27

1.0

4 ENABLE

U9:E

DS26C31TM

ENABLE

16 VCC

GND

12

8

C29

1.0

16

4 ENABLE

U10:E

DS26C31TM

ENABLE

VCC GND

12

8

C31

1.0

16

4

ENABLE

U11:E

DS26C31TM

ENABLE

VCC GND

12

8

C33

1.0

4 ENABLE

U12:E

DS26C31TM

ENABLE

16 VCC

GND

12

8

C35

1.0

4 ENABLE

U13:E

DS26C31TM

ENABLE

16 VCC

GND

12

8

C37

1.0

16

4

ENABLE

U14:E

DS26C31TM

ENABLE

VCC GND

12

8

C39

1.0

16

4

ENABLE

U15:E

DS26C31TM

ENABLE

VCC GND

12

8

C41

1.0

4 ENABLE

U16:E

DS26C31TM

ENABLE

16 VCC

GND

12

8

C43

1.0

16

4

ENABLE

U17:E

DS26C31TM

ENABLE

VCC GND

12

8

C45

1.0

16

4

ENABLE

U18:E

DS26C31TM

ENABLE

VCC GND

12

8

C47

1.0

C49

1.0

4 ENABLE

U19:E

DS26C31TM

ENABLE

16 VCC

GND

12

8


+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

C52

0.1

C54

0.1

C56

0.1

C58

0.1

C60

0.1

C62

0.1

C64

0.1

C66

0.1

C68

0.1

C70

0.1

C72

0.1

C74

0.1

C76

0.1

C78

0.1

C80

0.1

C82

0.1

C84

0.1

4 ENABLE

U20:E

DS26C31TM

ENABLE

16 VCC

GND

12

8

C51

1.0

4 ENABLE

U21:E

DS26C31TM

ENABLE

16 VCC

GND

12

8

C53

1.0

C55

1.0

C57

1.0

C59

1.0

C61

1.0

16

4

ENABLE

U26:E

DS26C31TM

ENABLE

VCC GND

12

8

C63

1.0

4 ENABLE

U27:E

DS26C31TM

ENABLE

16 VCC

GND

12

8

C65

1.0

C67

1.0

C69

1.0

C71

1.0

4 ENABLE

U30:E

DS26C31TM

ENABLE

16 VCC

GND

12

8

4

ENABLE

U31:E

DS26C31TM

ENABLE

16 VCC

GND

12

8

C73

1.0

16

4

ENABLE

U29:E

DS26C31TM

ENABLE

VCC GND

12

8

16

4

ENABLE

U32:E

DS26C31TM

ENABLE

VCC GND

12

8

C75

1.0

16

4

ENABLE

U28:E

DS26C31TM

ENABLE

VCC GND

12

8

4

ENABLE

U33:E

DS26C31TM

ENABLE

16 VCC

GND

12

8

C77

1.0

16

4

ENABLE

U25:E

DS26C31TM

ENABLE

VCC GND

12

8

4

ENABLE

U34:E

DS26C31TM

ENABLE

16 VCC

GND

12

8

C79

1.0

4 ENABLE

U24:E

DS26C31TM

ENABLE

16 VCC

GND

12

8

16

4

ENABLE

U35:E

DS26C31TM

ENABLE

VCC GND

12

8

C81

1.0

4 ENABLE

U23:E

DS26C31TM

ENABLE

16 VCC

GND

12

8

16

4

ENABLE

U36:E

DS26C31TM

ENABLE

VCC GND

12

8

C83

1.0

16

4

ENABLE

U22:E

DS26C31TM

ENABLE

VCC GND

12

8

GROUP A

PDM 1

PDM 2

PDM 3

(+) 1 J6

(-) 2 J6

R1

0.0

4

1

R2

0.0

(+) 3 J6

(-) 6 J6

R3

0.0

4

1

R4

0.0

(+) 4 J6

(-) 5 J6

R5

0.0

4

1

R6

0.0

DUMP

(+) 7 J6

(-) 8 J6

R7

0.0

4

1

R8

0.0

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

+5V

C86

0.1

C88

0.1

C90

0.1

C92

0.1

C94

0.1

C96

0.1

C98

0.1

C100

0.1

C102

0.1

16

4

ENABLE

U37:E

DS26C31TM

ENABLE

VCC GND

C85

1.0

16

4

ENABLE

U38:E

DS26C31TM

ENABLE

VCC GND

C87

1.0

4 ENABLE

U39:E

DS26C31TM

ENABLE

16 VCC

GND

C89

1.0

4

ENABLE

U40:E

DS26C31TM

ENABLE

16 VCC

GND

C91

1.0

16

4

ENABLE

U41:E

DS26C31TM

ENABLE

VCC GND

C93

1.0

4

ENABLE

U42:E

DS26C31TM

ENABLE

16 VCC

GND

C95

1.0

4

ENABLE

U43:E

DS26C31TM

ENABLE

16 VCC

GND

C97

1.0

16

4

ENABLE

U44:E

DS26C31TM

ENABLE

VCC GND

C99

1.0

C101

1.0

16

4

ENABLE

U45:E

DS26C31TM

ENABLE

VCC GND

12

8

12

8

12

8

12

8

12

8

12

8

12

8

12

8

12

8

3

L1

2

+5V

R71

475

R25

475

3

L2

2

+5V

R61

475

3

L3

2

+5V

R62

475

R26

475

R27

475

3

L4

2

+5V +5V

R67

475

R72

475

R28

475

R76

475

10

9

R37

82.5

R38

82.5

C1

0.1

14

U1:C

11

15

R39

82.5

R40

82.5

C2

0.1

2

1

R41

82.5

R42

82.5

C3

0.1

U1:D

13

U1:A

3

6

7

R43

82.5

R44

82.5

C4

0.1

U1:B

5

TP1 TP2 TP3

PDM_A1

PDM_A2

PDM_A3

DUMP_A

GND GND GND

GROUP B

GROUP C

PDM 1

(+) 1 J7

R9

0.0

(-) 2 J7

R10

0.0

4

1

PDM 2

(+) 3 J7

(-) 6 J7

R11

0.0

4

1

R12

0.0

PDM 3

(+) 4 J7

(-) 5 J7

R13

0.0

4

1

R14

0.0

DUMP

(+) 7 J7

(-) 8 J7

R15

0.0

4

1

R16

0.0

+5V 1 J9

2 J9

3 J9

4 J9

L13

3

L5

2

+5V

R73

475

3

L6

2

+5V

R63

475

R29

475

R45

82.5

10

9

R46

82.5

C5

0.1

14

3

L7

2

+5V

R64

475

R30

475

15

R47

82.5

R48

82.5

C6

0.1

2

1

R31

475

R49

82.5

R50

82.5

C7

0.1

+5V +5V

R68

475

R74

475

3

L8

2

R32

475

R77

475

C103

0.1

C104

1.0

C105

10

+5V

R51

82.5

R52

82.5

C8

0.1

6

7

U2:C

11

U2:D

13

U2:A

3

U2:B

5

PDM 1

(+) 1 J8

R17

0.0

(-) 2 J8

R18

0.0

L9

+5V

R69

475

PDM 2

PDM 3

DUMP

(+) 3 J8

R19

0.0

(-) 6 J8

R20

0.0

(+) 4 J8

R21

0.0

(-) 5 J8

(+) 7 J8

(-) 8 J8

R22

0.0

R23

0.0

4

1

R24

0.0

+5V

R65

475

L10

R33

475

+5V

L11

R66

475

R34

475

R35

475

+5V +5V

3

L12

2

R70

475

R36

475

R75

475

R78

475

10

9

R53

82.5

R54

82.5

C9

0.1

14

15

U3:C

11

U3:D

13

R55

82.5

R56

82.5

C10

0.1

2

1

R57

82.5

R58

82.5

C11

0.1

U3:A

3

6

7

R59

82.5

R60

82.5

C12

0.1

U3:B

5

3 PHASE/

9 PHASE

5 J9

6 J9

DUMP_A

C20

0.1

C22

0.1

1

SELECT

DUMP_A

1

SELECT

PDM_A1

PDM_A2

PDM_A3

10

11

1

9

0

PDM_B1

U4

SN74HC257PW

13

14

1

12

0

PDM_B2

VCC

16

C19

0.1

+5V

6

1

5

0

7

PDM_B3

GND

OE

8

15

3

1

2

0

4

3

1

2

0

4

DUMP_B

PDM_A1

PDM_A2

PDM_A3

10

11

1

9

0

PDM_C1

U5

SN74HC257PW

13

14

1

12

0

PDM_C2

VCC

16

C21

0.1

+5V

6

1

5

0

7

PDM_C3

GND

OE

8

15

DUMP_C

Issue 0.3 2009-12-08

Figure SD-22: NAPI99 PDM Distribution PWB (Sheet 2 of 2)

SD-22

Issue 0.3 2009-12-08

DUMP

(+) 7 J1

(-) 8 J1

B+

GND

76 P1

78 P1

80 P1

82 P1

84 P1

85 P1

86 P1

87 P1

88 P1

69 P1

70 P1

71 P1

72 P1

73 P1

75 P1

77 P1

79 P1

81 P1

Mod 1

(+) 1 J1

(-) 2 J1

A

Mod 2

(+) 3 J1

(-) 6 J1

L4

R19

475

+5V

R12

475

6

R23

82.5

7

R17

82.5

C12

0.1

U1:B

5

C146

10

35V

R7

10.0K

L1

L3

R10

475

+5V

R1

475

14

U1:D

13

R11

475

+5V

R2

82.5

15

R5

82.5

C6

0.1

R18

475

C145

10

35V

10

R22

82.5

9

R16

82.5

C11

0.1

U1:C

11

C144

10

35V

R36

10.0K

R32

10.0K

R25

33.2K

R20

33.2K

R21

33.2K

B

CR1

1N4448HWS

C51

0.15

CR19

CSD10060A

4

U15:A

2

R42

20

2W

CR7

1N4448HWS

R45

1000

Q11

STW26NM50

4

U12:A

2

C40

0.15

R40

20

2W

CR5

1N4448HWS

R43

1000

CR20

CSD10060A

Q12

STW26NM50

L12

155 μ H

S

L13

155 μ H

S

C55

0.15

L10

54 μ H

S

L11

54 μ H

S

+5V

R78

22.1

C79

1.0

C78

0.1

1

4

I+ U17

ACS756KCA-050B-PFF

VCC GND

VOUT

I-

3

5

2

L15

CR9

STTH8L06G

R124

4750

R125

4750

C133

0.47

C134

0.47

R105

10.0K

R108

10.0K

Mod 3

RF DRIVE

2

(+) 4 J1

(-) 5 J1

(+)

(-)

1

L2

4

23 P1

24 P1

25 P1

26 P1

RF DRIVE

1

19 P1

(+) 20 P1

(-) 21 P1

22 P1

L8

FROM

SHEET 2

L9

2

3

R13

475

+5V

R4

475

2

U1:A

3

R3

82.5

1

R6

82.5

C7

0.1

C147

10

35V

+5V

R98

475

R34

10.0K

R99

475

+5V

R92

475

2

R103

82.5

R100

82.5

1

C92

0.1

R96

475

6

R104

82.5

R97

82.5

7

C96

0.1

#RF_DRIVE_ENABLE+

#MOD_DRIVE_ENABLE+

U27:A

3

U27:B

5

R106

10.0K

R109

10.0K

4

U14:A

2

+15V

+15V-A

+5V

C50

1.0

C49

0.1

R39

10

2W

C44

0.1

C9

1.0

C14

0.1

+15V-A

C136

1.0

C135

0.1

R126

10

2W

C138

1.0

+5V-A

+15V-A

S2070098 SHEET 1 OF 2 V1 C18

0.1

+15V-A

C41

0.15

J K

R41

20

2W

CR6

1N4448HWS

R44

1000

+5V-A

Q13

CR21

CSD10060A

STW26NM50

C131

10

35V

C130

10

35V

C132

10

35V

C22

0.1

C33

1.0

C37

0.1

C19

1.0

C31

0.1

C25

1.0

5

EN

C28

1.0

1

VCC

5

EN

C39

1.0

1

VCC

5

EN

C35

1.0

1

VCC

U12:B

IXDD414YI

GND

3

GND

6

U15:B

IXDD414YI

GND

3

GND

6

U14:B

IXDD414YI

GND

3

GND

6

L14

155

20nS

7

1

IN

8

C137

0.1

4

VCC

GND

U30

DS1100Z-100

40nS

2

60nS

6

80nS

3

100nS

5

μ H

S

R130

0.0

1

6

U31:A

4

3

6

U32:A

4

4

U24:A

2

C102

1.0

R113

2.5

5W

4T

3

4

T3

1

2

4T

C115

1.0

Q9

APT5010JLL

CR12

1SMB5918B

5.1V

CR18

1N4448HWS

CR34

P6SMB12CA

12V

R116

1000

4

U26:A

2

C104

1.0

R114

2.5

5W

4T

3

4

T4 1

4T

2

C113

1.0

Q10

APT5010JLL

CR17

1SMB5918B

5.1V

CR16

1N4448HWS

CR37

P6SMB12CA

12V

R118

1000

+15V

+15V

+15V

C93

0.1

+15V

5

EN

1

C103

1.0

VCC

5

EN

C99

1.0

1

VCC

5

EN

1

C111

1.0

VCC

5 EN

1

C105

1.0

VCC

U24:B

IXDD414YI

GND

3

GND

6

U23:B

IXDD414YI

GND

3

GND

6

U29:B

IXDD414YI

GND

3

GND

6

U26:B

IXDD414YI

GND

3

GND

6

+5V

C2

1.0

C1

0.1

4

16

ENABLE ENABLE

U1:E

DS26C32ATM

VCC GND

12

8

+5V

R112

10

2W

C107

1.0

C106

0.1

4

16

ENABLE

U27:E

ENABLE

DS26C32ATM

VCC GND

12

8

C117

0.054

C118

1.0

C119

1.0

C120

1.0

C121

1.0

C122

1.0

C123

1.0

C124

1.0

C125

1.0

C126

1.0

C127

1.0

C

R57

1.00M

R67

1.00M

R58

1.00M

P1

P1

P1

P1

P1

P1

P1

P1

P1

P1

P1

P1

P1

P1

61

62

63

64

56

57

58

59

60

51

52

53

54

55

E

LOAD

F

D

31 P1

32 P1

33 P1

34 P1

35 P1

36 P1

37 P1

38 P1

39 P1

40 P1

41 P1

42 P1

43 P1

44 P1

C116

0.054

+5V

5

C101

0.1

VCC

U25:B

74V1G86STR

GND

3

+5V

C57

1.0

5 LE

C58

0.1

1

VCC+

U18:B

TL3016ID

VCC-

4

GND

6

R51

1.00M

R52

1.00M

R53

1.00M

R66

28.7K

R59

1.00M

R68

1.00M

R63

1.00M

R69

28.7K

+5V-A

C140

0.1

5

3

VCC

VCC

U31:B

NC7SZ57P6X

GND

2

+5V-A

C139

0.1

5

VCC

U32:B

NC7SZ57P6X

GND

GND

1

2

DUMP_SAMPLE

MODULATION

B+_SAMPLE

PA_VOLTS_SAMPLE

DC_CURRENT

2

1

U25:A

4

R48

3320

C59

0.001

R50

3320

C60

0.001

+5V

R49

3320

2

R47

121

3

R46

121

U18:A

C62

0.1

7

8

#RF_DRIVE_FAIL+

RF_DRIVE_LEVEL

Q7

APT5010JLL

CR30

P6SMB12CA

12V R115

1000

1

C114

1.0

CR11

1SMB5918B

5.1V

CR13

1N4448HWS

4T

2

T1 3

4

4T

R110

2.5

5W

C95

1.0

U23:A

2 4

Q8

APT5010JLL

CR33

P6SMB12CA

12V R117

1000

1

C112

1.0

CR15

1SMB5918B

5.1V

CR14

1N4448HWS

4T

2

T2 3

4

4T

R111

2.5

5W

C108

1.0

U29:A

2 4

TO

SHEET 2

Figure SD-23: NAP36B RF Power Module and NAPA19A Modulator/Power Amplifier PWB (Sheet 1 of 2)

SD-23

Issue 0.3 2009-12-08

FROM SHEET 1

13 P1

OVER CURRENT TEST 14 P1

DUMP_SAMPLE

DC_CURRENT

+5V

R24

1000

C26

0.1

R30

0.0

C88

0.1

R95

10.0K

C69

0.1

CR10

1N4448HWS

R91

2740

2W

R75

100K

C91

0.001

R93

8250

C74

1.0

C86

0.1

+5V

R84

8250

R85

10.0K

R86

3320

C68

0.1

+15V

R61

10.0K

R60

3320

C61

0.1

29

RESET

1

INT1

11

AIN1

10

AIN0

23

ADC0

27

ADC4

XTAL2

8

XTAL1

7

PB.1

13

FROM

SHEET 1

B+_SAMPLE

PA_VOLTS_SAMPLE

R74

100K

R54

100K

C81

1.0

C65

1.0

2

3

U21:A

1

5

U21:B

6

7

25

ADC2

U22

ATmega168-20AI

24

ADC1

PB2

14

#RF_DRIVE_FAIL+

MODULATION

32

INT0

26

ADC3

R64

10.0K

C67

1.0

FAN TACH (A) 15 P1

16 P1

FAN TACH (B) 17 P1

THERMISTOR

18 P1

G

H

+15V 3 P1

4 P1

1 P1

2 P1

F1

3A

RF_DRIVE_LEVEL

R101

2210

19 ADC6

+5V

R88

10.0K

C89

0.1

+5V

R73

10.0K

R72

10.0K

C80

0.1

9

T1

R94

121

CR28

1N4448HWS

L6

10 μ H

2

T0

CR27

1N4448HWS

R76

121

C75

0.1

+5V

R87

1500

+15V

C76

1.0

C77

1.0

C100

1.0

R107

20

2W

CR29

MURS120T3

C129

330

25V

C98

1.0

C97

0.1

1

IN

U28

L7805ABD2T

GND

4

OUT

3

C110

1.0

R79

10.0K

C109

0.1

C72

0.1

10

+5V

9

U21:C

C82

0.1

+5V

8

R77

1000

R82

8250

+5V

L5

12

13

U21:D

14

L7

C84

0.1

22

ADC7

4

6

VCC

VCC

18

C83

0.1

21

AVCC

GND

20

AREF

PB.0

12

PC.5

28

GND

GND

3

5

MOSI

15

SCK

17

MISO

16

+5V

Y1

11.0592MHz

C85

18pF

C87

18pF

+5V

R89

10.0K

+15V

R102

10.0K

Q6

IRLL110

C66

0.1

4

VDD

U21:E

TLV2374ID

GND

11

C94

0.1

#MOD_DRIVE_ENABLE+

+5V

R90

10.0K

+15V

R83

10.0K

Q5

IRLL110

+5V

R65

10.0K

R81

10.0K

+5V

R8

10.0K

+5V

+5V

R62

10.0K

Q3

IRLL110

Q4

IRLL110

R DS1:A

R14

221

MODULE

FAULT

Q1

IRLL110

C90

0.1

+5V

R9

10.0K

R56

20

2W

R71

20

2W

#RF_DRIVE_ENABLE+

+5V

C71

1.0

R55

20

2W

C73

1.0

R70

20

2W

G

R15

221

DS1:B

POWER

Q2

IRLL110

+5V

J2

5 # RESET -

TO

SHEET 2

P1

P1

5

6 # RF RELAY CLOSE -

P1

P1

7

8 # RF RELAY OPEN -

C13

0.1

J2

J2

J2

J2

2

J2

6

4

3

1

MOSI

SCK

MISO

+5V

GND

9 P1

TX/RX 10 P1

TX/RX 11 P1

12 P1

S2070098 SHEET 2 OF 2 V1

+5V

C70

1.0

6

DO/RI

RO

1

DI

4

7

DO/RI

U20

DS36C278TM

GND

8

VCC

RE

DE

5

2

3

30

31

RXD

TXD

Figure SD-24: NAP36B RF Power Module and NAPA19A Modulator/Power Amplifier PWB (Sheet 2 of 2)

SD-24

Issue 0.3 2009-12-08

-5V

1 J3

19 J1

L1 C5

0.1

C4

1.0

+5V

R2

1000

VSWR

THRESHOLD

R1

10K

+5V 16 J1

10

L2 C3

0.1

4

+5V

C2

1.0

CR4

1N5711

CR3

1N5711

R4

2210

+5V

CR1

1N5711

R3

1000

REFLD PWR J2

1 3 CR5

1N5711

CR2

1N5711

C1

1.0

3

IN-

U1

TL3016ID

4

VCC-

5

6

LE

GND

1

VCC+

2

IN+

R5

1000

C6

1.0

Q

8

Q

7

S2070076 V1

J3

J1

5

22

J1

J3

10

3

# PDM INHIBIT -

# RF DRIVE LATCH +

J1

J1

J1

J1

J1

1

2

3

4

5

GND

Figure SD-25: NAPV03 SWR Protection PWB

SD-25

NX25 Troubleshooting Manual Mechanical Drawings

Section 6: Mechanical Drawings

This section contains mechanical drawings for assemblies of the transmitter. Dimensional drawings may be included. Refer to


for an itemized list.

Assembly detail drawings for assemblies and modules that have separate manuals are not included.

Refer to the appropriate maintenance manual for the assembly detail of these assemblies.

Identifying mechanical drawings

Each mechanical drawing in this section is identified by a number that is both the figure number and the page number. The numbers are assigned sequentially and are prefixed by the letters MD .

Drawings in this section are listed in


.

Content of mechanical drawings

Mechanical drawings are illustrations that depict the location of electrical components and show assembly outline detail. Dimensional information is included, where appropriate.

When a module or assembly is the subject of its own assembly detail drawing, and it is also shown in a higher level assembly, the detail depicted in the higher level assembly may have minor differences from the module or assembly actually installed. In this case, always refer to the assembly detail drawing of the module or assembly for detailed information.

Locating a part or assembly on a mechanical drawing

1. When a part or assembly is assigned a reference designation (e.g., A2A1 or A2A1R1 ), refer to the family trees in Section 3, “Parts Lists” on page 3-1 . Follow the family tree branches to the block that contains the desired reference designation and Nautel nomenclature (e.g., NAPA19

Modulator/Power Amplifier PWB ). Note the reference designations and Nautel nomenclatures of all higher assemblies in the path.


PWB .

2. Refer to Table 6.1 on page 6-2 . Use the reference designation and Nautel nomenclature to

identify the appropriate mechanical drawing.

Example: The NAPA19A Modulator/Power Amplifier PWB is shown on MD-15 and

MD-16 .

Issue 0.3 2009-12-08 Page 6-1

NX25 Troubleshooting Manual Mechanical Drawings

3. If necessary, refer to the referenced figure (e.g., MD-15 and MD-16 ) in the mechanical drawings at the end of this section and locate the next, lower-level assembly. Then, repeat this procedure until the desired part or assembly is found.

Table 6.1: List of Mechanical Drawings

Figure #

MD-1

MD-2

MD-11

MD-12

MD-13

MD-14

MD-15

MD-16

MD-17

MD-18

MD-3

MD-4

MD-5

MD-6

MD-7

MD-8

MD-9

MD-10

MD-19

MD-20

MD-21

MD-22

Title

NX25 Transmitter (Front View)

NX25 Transmitter (Rear View)

NAH60 RF Combiner Back Plane

NAPI95/02 Power Module Interface PWB

NAE96A Control/Exciter Panel

NAPC154C Control/Interface PWB

NAPE78 Digital AM Exciter PWB

NAPI106 Remote Interface PWB

NAPX36 GPS Sync PWB (Optional)

NAPI100A/01 Rack Interface PWB

NAPI98 RF Drive Distribution PWB

NAPI99 PDM Drive Distribution PWB

NAX243A B+ Distribution Assembly

NAP36B RF Power Module

NAPA19A Modulator/Power Amplifier PWB (Front View)

NAPA19A Modulator/Power Amplifier PWB (Rear View)

Fan Tray Assembly (207-8133)

Voltage Probe (207-6211)

Current Probe (207-6212-06)

NAFP106/02 Directional Coupler

Fuse and MOV Assembly (207-8288-01)

NAPV03 VSWR Protection PWB

Page 6-2 Issue 0.3 2009-12-08

Issue 0.3 2009-12-08

Figure MD-1: NX25 Transmitter (Front View)

MD-1

Issue 0.3 2009-12-08

Figure MD-2: NX25 Transmitter (Rear View)

MD-2

Issue 0.3 2009-12-08

A1

Power Module

Interface PWB

A2 & A3

Transformer

Assemblies

Figure MD-3: NAH60 RF Combiner Back Plane

MD-3

Issue 0.3 2009-12-08

J4

POWER MODULE INTERFACE

NAPI95

SER .

B+

J6

1

B+

J2

M2070123 V1

J1

REAR

E2

J3

CR5

CR6

+

E4

E9

C1

DS1

B+

E3

E10

1

1

F

DS3

B+ E1

F3

CAUTION!

HIGH VOLTAGE PR ESENT

ON THIS ASSEMBLY

+

C5

FRONT

Figure MD-4: NAPI95/02 Power Module Interface PWB

MD-4

Issue 0.3 2009-12-08

Figure MD-5: NAE96A Control/Exciter Panel

MD-5

T7

U/SIDE

J16

8

7

6

5

4

3

2

1

M2070075 V2

A

C2

R1

R2

R3

R4

J1

R ACK DISTR IBUTION

R 5

R 6

R 7

R 8

U7

C3

C4

C5

C6

C7

UPPER

R OW

LOW ER

R OW

BOAR D

U2

U3

U4

U5

C20

C21

J16

U6

A

B

1

U9

U10

U11

U12

U8

C

D

R12

R18

C32

E

F

1

R 14

C30

R15

C31

C295

C34

G

H

U14

U15

U16

U17

STR EAMING BUS

(TO AUI)

1

R383

C36

C38

R 22

C297

C296

R23

1

RF

D

R

C294

B+

L1

TP1

GND

R21

R 28

C40

R 365

L2

R384

C309

R385

R 30

R369 R48

R49

R50

L3

TP4

TP6

TP2

CR1

CR2

CR3

CR4

CR5

TP7

TP12

GND

TP9

TP11

R34

R35

R36

R37

CR6

TP10

2

1

C61

R 46

4

5

R38

R39

R40

R41

R42

R43

8

PDM (A)

7

R51

R52

R53

R54

R55

R56

CR7

R64

CR8

CR9

C67

C68

R60

R65

C74

3

C75

6

C76

9

C69

C70

R61

C71

C72

R62

R63

EXCITER A

TP46

U95

R387

C310

J2

C303

C56

C57

C58

TP8

+5V

R44

1

C59

R33

DUMP

DUMP 1-A

C304

C60

R47

L4

C62

C63

C64

C65

C66

DUMP 1-B

R58

R59

DUMP 2-A

1

J17

J3

SER IAL BUS

(TO AUI)

U30

C79 C86

C80

R69

R70

C81

R66

R67

R68

R71

R 72

R 73

R 74

R 75

C83

C84

R 76

C85

C90

C91

R81

R84

C92

U36

U34

U35

TP13

-15V

STREAM

C94

CONTR OL/INTER FACE

NAPC154

SER .

R86

C95

C96

C97

TP47

R87

C98

U39

C101

L5

R F FILTER

C100

R94

TP14

+3.3V

C102

C103

C104

J4

R91

R92

C107

1

TP15

GND

R95

C106

R104

R105

L7

C112

C122

TP48

TP17

+15V

C127

1

C117

1

R116

R117 R115 R124

C124

C121

B

(LOW ER )

J5

A

(UPPER )

R 122 R 132

GPS

R134 R144

C125

R128

R 133 R 145

C129

C130

R32

TP49

C133

B

(LOW ER)

J27

A

(UPPER)

EXTER NAL SYNC

CR14

R153 R154

C136

C137 CR 15

C142

R151

R138

C134

1

EXT

CR10

CR11

CR12

CR13

R152

DR M

E1

10MHz

C138

R148

R149

TP18

R158

R159

R160

R161

R162

8

C146

TP19

TP20

TP21

TP22

TP23

7 6 5

J6

-

4 3

+

C315

R 395

PDM INH

1 RT1

EXT INT

R156

R157

R170

R171

R181

CR 16

C156

C164

R191

C152

L14

R192

CR21

CR22

C165

U53 R183

R184

C166

R194

R 172

R 173

R185

C167

2 1

C181

R197

R120

TP50 R139

R140

R118

C312

C113 C118

R119

R371

R98

R99

R 100

C114

C115

C313

R130

C119

R106

R107

C128

C131

R129

R131

C132

C135

R141

R142

R372

R373

R150

Q1

TP51

1

C150

J25

C162

CR18

CR19

CR20

R180

TP29

TP30

TP31

C307

TP45

C306

R163

R164

R165

R166

R167

C308

R174

C148

R175

R374

SCK

C158

TP28

TP27

TP25

1

J26 MOSI

MISO

R 176

R 177

R 178

R 179

TP53

CR17

C159

C168

U57

C179

C180

TP32

GND

ADDRESS

5

6

7

U59

0

1

2

3

4

5

DATA

TP33

6

7

R210

TP54

TP55

TP34

R211

Y2

U60

J7

EXT

INTLK R F MONITOR

R 202

SAMPLE

R 203

U61

R218

U62

8

9

S1

C200

U64

+

R219

U63

LOCAL/

R EMOTE

J8

10 MHz SYNC

ADDRESS

R 229

S2

R F OFF

C211

J9

6 5

C209

R238

C214

3

R381

R382

BT1

LOCAL

DS1

R 220

R EMOTE R F ON

DS2

R226

L15

1 PPS

SYNC

TP38

C215

C216

R242

C219

C220

C221

R243

R 234

C212

DS3

R231

R F OFF

DS4

R235

S3

PDM

INHIBIT

DS5

R246

TP39

R251

L17

C222

C223

J10

4

R F

MONITOR

SAMPLE

S5

FOR W AR D

1

R237

R233

R240

R244

R245

C224

L16

S4

U70

C226

C227

DS6

R252

5

4

3

2

1

C234

C235

C236

R255

R256

C229

R257

R258

R259

C230

R260

R261

R262

C231

R263

TP40

I/Q

AES/EBU

GRID1

A B C D E

R 276

C245

R 264

C239

R 265

R 266

C241

TP41

C242

R 267

R 268

C243

R 269

C246

C247

R 271

C237

C238

R 274

R 272 R275

TP42

R273 C2

J11

ANALOG

AES/EBU

C251 TP44

GND

C252

C248

R 279

R 280

R 281

R 282

R283

R284

R 285

CR31

R295

R296

C253

R297

R298

R89

R93

C110

C108

TP16

GND

U42

C116

T5

R386

C126

C120

PDM (B)

1

2

4

5

J18

7

8

3

6

U49

IN

LS1

C140

9

OUTGND

C141

1

C144

U51

TP52

R 391

T1

R168

R169

U96

EXCITER B

U52

T2

R394

C316

C317

R189

R190

1

C176

C161

C163

C173

U58

C174

C177

J19

TP36

GND

R221

C318

R227

R223

R230

C202 CR27

U65

R 375

TP57

C208

U66

R376

R236

R232

CR28

C213

C210

R377

R247

R239

CR 29

C225

C217

C218

R250

TP58

(UPPER)

A

J22

(LOW ER )

B

R253

CR30

C228

R270

C232

C233

C240

EXGINE

C244

1

R 286

R 287

R 288

R 289

R 290

R 291

R 292

R 293

R 294

TP43

GND

C311 R 389 J20 1

BALANCED

ANALOG AUDIO

C273

C274

C275

C276

CR32

C277

C278

C279

C280

C281

C282

C283

CR33

C284

C285

C286

C287

C288

R317

C289

R299

C254

R319

C255

C256

R300

R320

J12

R322

R323

R324

1

R EMOTE

SUPPLY

EXT INT

E3

R335

R334

R336

R321

R325

R326

R327

R328

R329

R330

R331

R332

R333

J21

R353

C291

R354

R355

C292

R356

R337

R338

R339

R340

R341

R342

R343

R344

R345

R346

R347

R348

R349

R350

R351

R352

C293

B C D E F G H I J K L M N O P

Issue 0.3 2009-12-08

Figure MD-6: NAPC154C Control/Interface PWB

MD-6

-F

J2-19

C79

C83

C84

C81

C97

C98

C99

C100

C87

C88

C89 C101

C90

C91

C80

C120

C118

C128

C132

C131

C124

C85

C107

C104

C105

C106

C103

C108

C111

C109 C116

C119

C125

C126

C110

C117

C121

C122

C112

J6-2

C123

C140

C153

C159

C154

C185

C186

C187

C190

C191

C192

C188

C202

C203

C204

C206

C22

C205

C207

C212

C213

C209

C218

C219

C211

C200

C208

C217

C216

C160

C137

C149

C162

C168

C175

C165

C189

-E -D -C -B -A

5

4

3

2

1

R1

J1 J2

C1

C2

C3

C4

T1

DS1

DS2

DS3

DS4

R5

U1

Y1

C14

C18

L8

C20

C21

R18

C6

U2

R10 C15

C12

C220

C7

R6

R19

U4

R26

C8

R2

U3

R13

R14

R15

R16

T2

R21 R23

U8

T3

R36 R40

C30

C31

TP5

GND

1

DIGITAL AM EXCITER

NAPE78

SER.

C38

L11

U12

U15

R45

R53

C41

C43

C44

+3.3V-A

TP6

R54

R55

R56

U11

R63 R64 1

R66

U20

TP8

+1.8V

U23

TP10

C57

C58

U35

L13

C64

R87

C67

C70

C71

C72

C74

C78

L16

TP14

-15V

+5V-A

C75

C76

TP13

Y2

R86

TP11

GND

TP12

+5V-D

L14

L15

C68

OUT

U37

GND

IN

U16

U21

R38

R39

R43

C32

U27

U9

C27

TP2 J6

U24 U28 U30

TP1

+3.3V-D

U10

J4

TP4

+2.5V

TP3

GND

C40

U13

1

R77

R76

R78

C42

C45

TP7

+1.2V

L12

R51

R50

R59

R58

R60

R71

R72

R73

RESET

U22

S1

BOOTLOADER

1

R74

R75

J5

1

MODE

PROGRAM

E1

NORMAL

U25

U26

TP9 GND

R82

R83

U32

U33

C63

RS-232

J3

1

C69

R91

R92

R93

R90

R94

C77

Y3

J7

R95

R96

R97

R98

1

M2070020 VB

A B C D E F

Issue 0.3 2009-12-08

Figure MD-7: NAPE78 Digital AM Exciter PWB

MD-7

Issue 0.3 2009-12-08

Figure MD-8: NAPI106 Remote Interface PWB

MD-8

Issue 0.3 2009-12-08

Figure MD-9: NAPX36 GPS Sync PWB (Optional)

MD-9

Issue 0.3 2009-12-08

7

6

9

8

5

4

11

10

AC

RT1

RT2

RT3

RT4

RT5

RT6

RT7

RT8

RT9

R T10

R184

R185

L2

J10 J11 J12 POW ER

SUPPLY

U1

NEXT RACK

4

8

R186

R187

1

1

1

CONTROL/INTERFACE TP25

TP27

TP29

1

R 195 R197 RT17

R47

R41

L4 Q1

C159 C160

RT18

R 152

C146

U10 7 R9

R 94

C104

TP65

TP66

R154

T1

CR1

R 5

C3

R 6

R 7

C4

C6

C7

C5

K

+

5

C8

A1

Q2

A

7

CR2

U3

K

CR22

6

K

G

A2

U2

5

C14

TP50

TP51

TP4

4

R135

C16

TP52

R11

R12

C143

R192

3

R 15

TP2

R21

U5

R19

R132

C24

TP53

U6

C25

R 22

R 23

R 24

U12

U16 U20

TP5

TP6

R30

TP54

R182

U7

TP57

R 35

CR19

1

TP8

R31

C29

R 32

R 33

R 34

CR20

R36

R37

R38

K

CR4

A

TP38

J16

C39

TP55

R39

C38

TP56

TP58

C43 C45

TP12

U8

2

3

4

5

6

7

3

DATA

4

0

1

C30

C31

TP7

GND

C32

C33

3

2

1

5

4

C35

C34

GRID1

A B C D E

A

CR3

K

R 57

C54

R58

R59

R60

C56

U13

2

1

0

14

13

11

9

10

7

8

6

5

ADDRESS

U15

TP59

TP28

U18

U19

TP62

U21

R42

R43

C44

C46

R46

R49

R 50

TP16

TP20

C57

TP18

TP19

TP24

C55

R56

C51

R76

R64

C59

R68

R69

R70

R71

R72

R73

R74

R75

C148

C149

C155

CR5

C78

TP60

C84

TP61

R 100

C87

TP32

TP34

TP63

R95

C156

C158

C157

C71

C91

R 107

R 96

TP31

R105

R97 R108

R 109

C101

R 111

R115

R116

C61

C63

R77

R78

R79

C64 C70

C74

C69

R85

R86

R87

R91

R112

C92

R117

R120

C94

R 118

R119

TP33 TP35 TP39

TP36

C108

C109

C110

C103

TP40

C116

C117

TP64

C112

U23

C121

TP41

C168

R 138

C169

C170

TP43

C171

U24

R156

1

2

C36 C47 C65

C95

TP37

GND

R T11

L3

RT14

RT13

+

C10 U11 U14

U22

RACK INTERFACE

NAPI100

SER.

U25

K

Q3

A G

1

7 6

U4

5 4 3

L5

2

C179

C180

M3 HEX NUT

#4 BELLEVILLE W ASHER

M3 W ASHER

SEMICONDUCTOR

HEATSINK

PW B

M3 PAN HEAD SCREW

R162

C125

R157

R 158 TP44

TP45

TP46

TP47

R161 R1

R163 R164

C174 R 166

C126 C173

TP67

R165

C175

TP70

R167

C128

C129

TP69

TP72

DETAIL A

U3 MOUNTING DETAIL

TORQUE ATACHING HARDW ARE TO

4.0 INCH POUNDS (0.45 NEW TON METERS)

C131

R168

C133

C134

R169

CR 14

R170

R171

R172

TP73

TP74

C135

TP48

TP76

C178

+

J13

1

RF DRIVE

+

C132

C127

A

CR 15

K

TP49

GND

C136

R173

R174

R175

R176

C137

R177

R178

R179

3

2

1

M2070083 V1

A

J4

1

B C D E F G H

J3

1

I J K L

J2

1

M N O P

Figure MD-10: NAPI100A/01 Rack Interface PWB

MD-10

Issue 0.3 2009-12-08

Figure MD-11: NAPI98 RF Drive Distribution PWB

MD-11

Issue 0.3 2009-12-08

Figure MD-12: NAPI99 PDM Drive Distribution PWB

MD-12

Issue 0.3 2009-12-08

Figure MD-13: NAX243A B+ Distribution Assembly

MD-13

Issue 0.3 2009-12-08

L2

A1

A10

Q1

A12

A21

A23

A4

‘B’

A15

‘D’

A8

A9

A19

A20

A11

A13

A5

‘A’

A16

‘C’

A22

A24

Figure MD-14: NAP36B RF Power Module

MD-14

6

C51

5

4

3

2

1

R8

S

D

G

R9

S

D

G

DS1

G

R

C6

L1 L3

C11

R21

R20

C19

C9

C14

C130

C22

C28

C131

C33

C1

U1

R13

L2

L4

C144

C145

C146

C147

C39

C37

R40

CR5

M2070099 V1

R24

C13

1

J2

C25

C26

C31

C35

R 30

C132

A B C

R41

CR6

C40

C41

K

R42

CR7

C44

R39

C49

C50

D

J

E

CAUTION!

HIGH VOLTAGE PRESENT

ON THIS ASSEMBLY

MODULATOR/POWER AMPLIFIER

NAPA19

SER.

CR9

R124

R125

R51

R52

R53

R66

L6

C95

R110

U17

U23 T1

4

R57

R54

C65

R55

R56

R58

R59

C72

C108

R70

R71

R105 R108

C100

R77

C82

R82

C81

R79

L9

R100

C96

R126 R130

C137

R99

R106

R109

C138

U31

C101

U25

C139

C93

C140

U32

C102

U29

R112

C106

C107

R113

G

D

Q3 nc S

R64

R46

R47

U19

R49

R50

C58

C61

C62

C57

R48

C59

C60

C67

C68

R60

R61

R62

U22

C70

C69

C75

CR27

R76

C94

R102

D

Q4

G nc S

U24

C104

R84

R85

R86

C86

Q5

G nc S

R 90

CR10

C88

R95

R91

C87

C84

L5

CR 28

H

D

Q6

G nc S

G

C129

CR 29

U26

R114

GND

IN

U28

OUT

C109

C110

R111

T4

4

T2

4

T3

4

3

3

3

2

1

1

1

2

CR13

CR11

G

C114

D

2

3

1

CR12

2

C115

S

CR14

S

G

D

S

CR16

S

R115

CR18 R116

CR34

CR37

S

CR30

S

D

G

S

S

D

G

Q7

Q8

Q9

Q10

C118

C119

C120

C121

C122

C123

C124

C125

C126

C127

F1

2

88

F G H I J K L M N

Issue 0.3 2009-12-08

Figure MD-15: NAPA19A Modulator/Power Amplifier PWB (Front View)

MD-15

6

1

5

4

3

2

3

S

S

Q7

G

D

2

1

F

D

D

G

Q8

S

S

1

2

3

3

S

S

Q9

G

2

1

D

C

4

4

4

3

D

Q10

S

G S

1

2

4

1

A

87

M2070100 V1

A B C D

Q11, Q12 OR Q13

HEATSINK

CR19, CR20 OR CR21

ALIGNMENT

POST

E

CABLE 2

F

CABLE 1

G

E

6

7

6

7

H

L10

L11

6

7

1 6

12 7

1 6

12 7

I

L12

L13

L14

J

1

12

1

12

12

1

B

K

Mount semiconductor groups Q11/CR19, Q12/CR20 and Q13/CR21 to their respective heatsinks as shown. Use alignment post to properly locate semiconductor on heatsink. Use heatsink clips provided. Solder heatsinks in place on pwb.

APPLY THERMAL COMPOUND

BETWEEN HEATSINK AND SEMICONDUCTOR

Issue 0.3 2009-12-08

L M N

Figure MD-16: NAPA19A Modulator/Power Amplifier PWB (Rear View)

MD-16

Issue 0.3 2009-12-08

Figure MD-17: Fan Tray Assembly (207-8133)

MD-17

Issue 0.3 2009-12-08

Figure MD-18: Voltage Probe (207-6211)

MD-18

Issue 0.3 2009-12-08

Figure MD-19: Current Probe (207-6212-06)

MD-19

Issue 0.3 2009-12-08

A1 DETAIL

Figure MD-20: NAFP106/02 Directional Coupler

MD-20

Issue 0.3 2009-12-08

Figure MD-21: Fuse and MOV Assembly (207-8288-01)

MD-21

Issue 0.3 2009-12-08

J1

5

4

3

2

1

1

C2

C3

R3

R4

R1

VSWR

THRESHOLD

R2

C1 C4

C5

CR1

R5

C6

CR2

CR3

CR4

CR5

7

8

4

3

T1

VSWR

PROTECTION

NAPV03

SER.

10

REFLD PWR

1

J2

M2070077 V1

A B

1

J3

C

Figure MD-22: NAPV03 SWR Protection PWB

MD-22

NX25 Troubleshooting Manual List of terms

Section 7: List of terms

This section defines some of the terms that are used in Nautel documentation.

ADC.

Analog to Digital Converter.

AES-EBU.

Audio Engineering Society/European Broadcasting Union (AES/EBU) is the name of a digital audio transfer standard. The AES/EBU digital interface is usually implemented using 3-pin

XLR connectors (the same type connector used in professional microphones). One cable carries both left and right-channel audio data to the receiving device.

B+.

The high voltage dc generated by the transmitter’s ac power supply for use within the transmitter.

The B+ voltage is used to supply the transmitter’s modulators and other transmitter circuitry.

Cutback.

A reduction in RF output power, caused by a total power limit fault or the occurrence of three shutbacks within a five second period.

DAC.

Digital to Analog Converter.

DAM.

Dynamic Amplitude Modulation.

DCC.

Dynamic Carrier Control.

DRM.

Digital Radio Mondiale. A set of digital audio broadcasting technologies designed to work existing AM radio channels.

DSP.

Digital Signal Processing.

FPGA.

Field Programmable Gate Array.

HD Radio.

High Definition (HD) Radio is another term for In Band On Channel (IBOC) technology. HD Radio is a trademark of iBiquity Digital Corporation.

IBOC.

Nautel In-Band-On-Channel technology provides high quality digital audio over existing AM radio channels.

IPM.

Incidental Phase Modulation

NE IBOC.

Nautel’s In-Band-On-Channel signal generator. See IBOC. Required for NX series IBOC installations.

PDM.

Pulse Duration Modulation.

Issue 0.3 2009-12-08 Page 7-1

NX25 Troubleshooting Manual List of terms

Preset.

A setting that controls power level, active exciter, and power scheduler status on a time-ofday and date basis. Exciters can be configured on a preset for a specific operating mode (for example,

Exciter A - conventional AM, and Exciter B - IBOC). The NX25 allows you to pre-program multiple presets.

Shutback.

A complete loss of RF output power, caused by any one of a variety of faults, including high VSWR, low B+ voltage, high RF current, RF drive failure, external interlock or spark gap.

Surge protection board.

An electrical panel that protects equipment from electrical surges in the ac power supply, antenna or site ground caused by lightning strikes.

VSWR.

Voltage standing wave ratio. This is an expression of the ratio of forward voltage to reverse voltage on the feedline and antenna system. An ideal VSWR of 1:1 provides maximum transmitterantenna efficiency.

Page 7-2 Issue 0.3 2009-12-08

NX25

Troubleshooting Manual

Document: NX025-TROUBLESHOOT

Issue: 0.3 2009-12-08

Nautel Limited

10089 Peggy’s Cove Road

Hackett’s Cove, NS Canada B3Z 3J4

Phone: +1.902.823.3900 or

Toll Free: +1.877.6NAUTEL (6628835) (Canada & USA only)

Fax: +1.902.823.3183

Nautel Inc.

201 Target Industrial Circle

Bangor, Maine USA 04401

Phone: +1.207.947.8200

Fax: +1.207.947.3693

Customer Service (24 hour support)

+1.877.628.8353 (Canada & USA only)

+1.902.823.5100 (International)

Email: [email protected]

Web: www.nautel.com

© Copyright 2009 NAUTEL. All rights reserved.