advertisement
▼
Scroll to page 2
of 313
NCR 7167 Two Station POS Printer
Release 1.0
Owner's Manual
B005-000-1406
Revision C
November, 2002
The product described in this book is a licensed product of NCR Corporation.
NCR is the registered trademark of NCR Corporation. Other trademarks and registered trademarks are the property of their
respective holders.
It is the policy of NCR Corporation (NCR) to improve products as new technology, components, software, and firmware
become available. NCR, therefore, reserves the right to change specifications without prior notice.
All features, functions, and operations described herein may not be marketed by NCR in all parts of the world. In some
instances, photographs are of equipment prototypes. Therefore, before using this document, consult with your NCR
representative or NCR office for information that is applicable and current.
To maintain the quality of our publications, we need your comments on the accuracy, clarity, organization, and value of this
book.
Address correspondence to:
Retail Systems Group−Atlanta
NCR Corporation
2651 Satellite Blvd.
Duluth, GA 30136
Copyright © 2002
By NCR Corporation
Dayton, Ohio U.S.A.
All Rights Reserved
ii
Important Information to the User
In order to ensure compliance with the Product Safety, FCC and CE marking requirements, you must use the power supply,
power cord, and interface cable which were shipped with this product or which meet the following parameters:
Power Supply
UL Listed (QQGQ), Class 2 power supply with SELV (Secondary Extra Low Voltage), non-energy hazard output, limited
energy source, input rated 100-240 Vac, 1.5/0.8 A, 50/60 Hz, output rated 24 Vdc, 2.3 A. or 3.15A
Use of this product with a power supply other than the NCR power supply will require you to test this power supply and
NCR printer for FCC and CE mark certification.
Interface Cable
A shielded (360 degree) interface cable must be used with this product. The shield must be connected to the frame or earth
ground connection or earth ground reference at EACH end of the cable.
Use of a cable other than described here will require that you test this cable with the NCR printer and your system for FCC
and CE mark certification.
Power Cord
A UL listed, detachable power cord must be used for this product. For applications where the power supply module may be
mounted on the floor, a power cord with Type SJT marking must be used. For applications outside the US, power cords which
meet the particular country’s certification and application requirements should be used.
Use of a power cord other than described here may result in a violation of safety certifications which are in force in the
country of use.
iii
Federal Communications Commission (FCC)
Radio Frequency Interference Statement
Warning: Changes or modifications to this unit not expressly approved by the party responsible for compliance could void the
user’s authority to operate the equipment.
Note: This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to Part 15 of
the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is
operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not
installed and used in accordance with the instruction manual, may cause harmful interference to radio communications.
Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required
to correct the interference at his own expense.
Communication Cables
Shielded communication cables must be used with this unit to ensure compliance with the Class A FCC limits.
Information to User
This equipment must be installed and used in strict accordance with the manufacturer's instructions. However, there is no
guarantee that interference to radio communications will not occur in a particular commercial installation. If this equipment
does cause interference, which can be determined by turning the equipment off and on, the user is encouraged to contact NCR
immediately.
The NCR company is not responsible for any radio or television interference caused by unauthorized modification of this
equipment or the substitution or attachment of connecting cables and equipment other than those specified by NCR. The
correction of interferences caused by such unauthorized modification, substitution or attachment will be the responsibility of
the user.
Industry Canada (IC)
Radio Frequency Interference Statement
This Class A digital apparatus meets all requirements of the Canadian Interference-Causing Equipment Regulations.
Cet appareil numérique de la classe A respecte toutes les exigences du Règlement sur le matériel brouilleur du Canada.
iv
Quick Reference
This Quick Reference will direct you to key areas of the Service Manual. For a complete
listing of topics, consult the Table of Contents or the Index.
Setting Up the Printer .................................................... page 9
Basic requirements for unpacking and installation, connecting the printer, turning it on,
and running the print test.
Diagnostics .................................................................... page 53
Procedures for setting up the printer for items such as communications, diagnostics, and
other printer options.
Printer Commands........................................................ page 73
Printer firmware commands
v
How to Use this Book
Use this book as a general and technical reference manual and as a guide when replacing
parts on the printer. The service guide is intended as a guide for service representatives,
field engineers, and those who will be installing and learning about the 7167 printer. It can
also be used as a reference for service courses.
See the Quick Reference page, the Contents, or the Index for detailed listings of what is
contained in this book.
Who Should Use this Book?
You must be a trained service representative to service the 7167 Thermal Receipt and
Impact printer.
How to Obtain More Information
For more information see the following documents:
7167 Two - Station POS Printer: Service Manual (B005-000-1407)
7167 Two - Station POS Printer: Parts Identification Manual (B005-000-1408)
For this and additional copies of the Owner’s Manual, contact your sales representative.
Revision Record
Issue
Date
Remarks
A
Mar 2002
First printing
B
May 2002
Update to reflect first
production configuration.
vi
7167 Owner’s Manual
Contents
Contents
Quick Reference ..........................................................................................................v
How to Use this Book.........................................................................................vi
Who Should Use this Book? ..............................................................................vi
How to Obtain More Information ....................................................................vi
Revision Record .........................................................................................................vi
Contents .................................................................................................................... vii
Chapter 1: About the 7167 Printer
1
Features and Options ................................................................................................. 1
Receipt Station...................................................................................................... 2
Slip Station............................................................................................................ 2
Receipt and Slip Print Stations........................................................................... 3
General Features .................................................................................................. 3
Options.................................................................................................................. 3
Thermal Print Head.................................................................................................... 4
Impact Print Head ...................................................................................................... 4
Ordering Paper and Supplies.................................................................................... 5
Ordering Thermal Receipt Paper....................................................................... 5
Ordering Ribbon Cassettes................................................................................. 6
Ordering Other Supplies .................................................................................... 7
Ordering Documentation ................................................................................... 7
Cleaning the Printer.................................................................................................... 8
Cleaning the Cabinet ........................................................................................... 8
Cleaning the Thermal Print Head ..................................................................... 8
Chapter 2: Setting Up and Using the Printer
9
What Is in the Box? ..................................................................................................... 9
Removing the Packing Material....................................................................... 10
Re Packing the Printer....................................................................................... 11
Choosing a Location ................................................................................................. 11
c) Wall mounted Power Supply (Option)....................................................... 12
Setting Switches ........................................................................................................ 13
Printer Reset ....................................................................................................... 13
About the Universal Serial Bus ............................................................................... 17
Advantages of USB connections ...................................................................... 17
Advantages of the NCR USB Solution............................................................ 17
Checking for USB Support on the Host Computer .............................................. 18
Host Configuration............................................................................................ 18
Configuring the Printer............................................................................................ 19
Installing the USB Printer Drivers .......................................................................... 23
Checking the Installation ......................................................................................... 33
Configuring Serial Port Number Assignments..................................................... 36
Running the Edgeport Utility .......................................................................... 36
November 2002
vii
7167 Owner’s Manual
Contents
Serial Port Configuration Methods ................................................................. 37
Uninstalling the Drivers ................................................................................... 37
Using the Printer ....................................................................................................... 39
Loading and Changing the Receipt Paper............................................................. 40
Removing the Paper Roll .................................................................................. 41
Loading the Paper Roll ..................................................................................... 42
Advancing Paper ............................................................................................... 43
Installing and Changing the Ribbon Cassette....................................................... 44
Removing the Ribbon Cassette ........................................................................ 44
Installing the Ribbon Cassette.......................................................................... 45
Printing on Forms or Checks................................................................................... 46
Validating and Verifying Checks............................................................................ 48
Chapter 3: Solving Problems
47
Green LED Does Not Come On/Printer Will Not Print...................................... 47
Green LED Blinking (Slow) ..................................................................................... 48
Green LED Blinking (Fast)....................................................................................... 48
Slip or Forms Printing is Light................................................................................ 49
Receipt Printing is Light or Spotty ......................................................................... 50
LED (Slip Table) Does Not Come On..................................................................... 50
Forms Skew or Catch................................................................................................ 50
MICR Check Reader Not Reading Properly ......................................................... 51
Other Serious Problems ........................................................................................... 52
Contacting a Service Representative ...................................................................... 52
Chapter 4: Diagnostics
53
Level 0 Diagnostics ................................................................................................... 53
Level 1 Diagnostics ................................................................................................... 54
Printer Configuration........................................................................................ 54
Configuring the Printer..................................................................................... 56
Communication Interface Modes .................................................................... 58
Diagnostic Modes .............................................................................................. 60
Emulation/Software Options .......................................................................... 64
Hardware Options............................................................................................. 67
Default Code Page ............................................................................................. 70
Level 2 Diagnostics ................................................................................................... 73
Level 3 Diagnostics ................................................................................................... 74
Chapter 5: Communication
72
Communication Overview ...................................................................................... 72
Interface............................................................................................................... 72
Sending Commands .......................................................................................... 72
RS-232C Interface...................................................................................................... 73
Print Speed and Timing .................................................................................... 73
XON/XOFF Protocol......................................................................................... 74
DTR/DSR Protocol ............................................................................................ 74
RS-232C Technical Specifications .................................................................... 74
viii
November 2002
7167 Owner’s Manual
Contents
RS-232C 9-Pin to 9-Pin Cable Diagram........................................................... 75
USB Cable Connector ........................................................................................ 76
Power Cable Connector .................................................................................... 76
Cash Drawer Connector and Pin Assignments ............................................. 77
Setting Extra RS-232C Options ........................................................................ 78
Chapter 6: Commands
73
Introduction............................................................................................................... 73
List of Commands and Location............................................................................. 73
By Command Code ........................................................................................... 74
Printer Function Commands............................................................................ 79
Vertical Positioning and Print.......................................................................... 80
Horizontal Positioning Commands ................................................................ 80
Print Characteristic Commands....................................................................... 81
Graphics Commands......................................................................................... 82
Status Commands.............................................................................................. 82
Real Time Commands....................................................................................... 83
Auto Status Back Commands........................................................................... 83
Bar Code Commands ........................................................................................ 83
Macro Commands ............................................................................................. 84
MICR Check Reader Commands..................................................................... 84
MICR Parsing ..................................................................................................... 84
User Data Storage Commands......................................................................... 85
Asian Character Commands ............................................................................ 85
Flash Download Commands............................................................................ 86
Printer Function Commands............................................................................ 90
Vertical Positioning and Print Commands .................................................. 105
Horizontal Positioning Commands .............................................................. 114
Print Characteristic Commands..................................................................... 122
Graphics Commands....................................................................................... 142
Status Commands............................................................................................ 151
Real Time Commands..................................................................................... 163
Auto Status Back Commands......................................................................... 171
Page Mode Commands................................................................................... 181
Macro Commands ........................................................................................... 189
MICR Commands ............................................................................................ 191
MICR Parsing ................................................................................................... 192
Check Flip Command ..................................................................................... 200
User Data Storage Commands....................................................................... 200
Asian Character Commands .......................................................................... 209
Flash Download Commands.......................................................................... 213
Appendix A: Specifications
211
Printing Specifications............................................................................................ 211
Power Requirements .............................................................................................. 213
Environmental Conditions .................................................................................... 213
Reliability ................................................................................................................. 215
November 2002
ix
7167 Owner’s Manual
Contents
Dimensions and Weight......................................................................................... 215
Density of Receipt Print Lines............................................................................... 215
Duty Cycle Restrictions (Printing Solid Blocks) ................................................. 215
Appendix B: Print Characteristics
217
Character Size.......................................................................................................... 217
Receipt Station.................................................................................................. 217
Slip Station........................................................................................................ 218
Print Zones............................................................................................................... 221
Receipt Station.................................................................................................. 221
Slip Station........................................................................................................ 222
Slip Form Parameters ...................................................................................... 223
Check Size......................................................................................................... 224
MICR Media Requirements............................................................................ 224
Appendix C: Character Sets ................................................................................. 225
Index ............................................................................................................................. 1
x
November 2002
7167 Owner’s Manual
Chapter 1: About the 7167 Printer
Chapter 1: About the 7167 Printer
Receipt
Receipt Cover
LED
Paper Feed
Button
Front Cover
Slip Table
LED
Slip or
Check
Extended
Slip Table
The 7167 printer is a fast, quiet, relatively small and very reliable multiple- function
printer. It prints receipts, validates and prints checks, and prints on a variety of single- or
multiple-part forms. There is no journal as it is kept electronically by the host computer.
The industry-standard RS-232C communication interface allows the 7167 to be connected
to any host computer that uses RS-232C or USB communication interface.
With thermal printing technology on the more frequently used receipt station, there is no
ribbon cassette to change and paper loading is extremely simple. Printing on single- or
multiple-part forms, validating checks, and printing checks is also easy in the
accommodating slip station. An additional option is the Magnetic Ink Character
Recognition (MICR) check reader with parsing which reads account numbers on checks
for easy verification. An extended slip table is available for handling large forms and is
standard with the MICR option.
Features and Options
The 7167 printer comes with several features and options.
November 2002
1
7167 Owner’s Manual
Chapter 1: About the 7167 Printer
Receipt Station
Thermal printing
Standard pitch (host selectable): 15.2 characters per inch, 44 columns
Compressed pitch (host selectable): 19.0 characters per inch, 56 columns
Resident bar codes
•
•
•
•
•
•
•
•
•
•
Code 39
Code 93
Code 128
UPC-A
UPC-E
JAN8 (EAN)
JAN13 (EAN)
Interleaved 2 of 5
Codabar
PDF417
Drop-in paper loading requiring no spindle or threading paper
Paper low indicator
Paper exhaust indicator
Slip Station
Bi-directional, impact printing
Standard pitch (host selectable): 13.9 characters per inch, 45 columns
Compressed pitch (host selectable): 17.1 characters per inch, 55 columns
Printing of forms up to five plies
•
•
•
Front insertion of forms with forms stop
Side insertion of forms with override of forms stop
Automatic and manual insertion of forms
Form alignment sensors and Slip In LED indicator
Horizontal flat-bed slip table with optional extension (standard with MICR check reader)
Snap-on ribbon cassette
Resident bar codes
•
•
•
•
•
•
•
•
•
2
Code 39
Code 93
Code 128
UPC-A
UPC-E
JAN8 (EAN)
JAN13 (EAN)
Interleaved 2 of 5
Codabar
November 2002
7167 Owner’s Manual
Chapter 1: About the 7167 Printer
Receipt and Slip Print Stations
Variety of print modes: double high (receipt station only), double strike (slip station only), double
wide, upside down, and rotated
14 resident character language Code Pages:
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
PC Code Page 437 (US English)
PC Code Page 850 (Multilingual)
PC Code Page 852 (Slavic)
PC Code Page 858 (with Euo symbol)
PC Code Page 860 (Portuguese)
PC Code Page 862 (Hebrew)
PC Code Page 863 (French Canadian)
PC Code Page 864 (Arabic)
PC Code Page 865 (Nordic)
PC Code Page 866 (Cyrillic)
PC Code Page 874 (Thai)
PC Code Page 1252 (Windows Latin #1)
PC Code Page Katakana
Space Page
Code Page 932
Code Page 936
Code Page 949
Code Page 950
16K RAM for downloaded character sets or bit-mapped graphics (such as logos)
General Features
Knife
Cover open sensors
Industry standard RS-232C and USB communication interface
One cash drawer connector (supports 2 cash drawers)
History EEROM for custom settings
Audible tone (controlled by application)
Note: The 7167 does not have a paper journal. The journal is kept electronically by the
host computer.
Options
Magnetic Ink Character Recognition (MICR) check reader built into the slip station for verifying
checks (includes custom MICR field parsing)
Extended slip table for handling large forms (standard with MICR check reader)
Remote power supply
Communication cables
November 2002
3
7167 Owner’s Manual
Chapter 1: About the 7167 Printer
Thermal Print Head
The 7167 Receipt Station uses a thermal print head for printing receipts, and is extremely
fast and quiet. Since it uses heat to print directly on paper, there is no cassette or ribbon to
change, eliminating soiled fingers and paper dust.
There is no regularly scheduled maintenance for the print head and it does not need to be
regularly cleaned. However, if it does appear dirty, wipe it with cotton swabs and rubbing
alcohol. If spotty or light printing problems persist after the thermal print head has been
cleaned, see “Chapter 3: Solving Problems” for more information.
Note: The thermal print head does not normally require cleaning if the recommended
paper is used. If non-recommended paper has been used for an extended period of time,
cleaning the print head with cotton swabs and rubbing alcohol will not be of much benefit.
See “Ordering Receipt Paper” on the next page for the recommended paper.
The print head is designed for a very long life, but it may be replaced if needed. Only a
trained service representative may replace the print head. See “Chapter 3: Solving
Problems” to determine if the print head needs to be replaced.
Impact Print Head
The bi-directional, impact print head is designed for a very long life, but it may be
replaced if needed. Only a trained service technician may replace the impact print head.
See “Chapter 3: Solving Problems” to determine if the print head needs to be replaced.
4
November 2002
7167 Owner’s Manual
Chapter 1: About the 7167 Printer
Ordering Paper and Supplies
Thermal receipt paper, ribbon cassettes, and forms can be ordered. Documentation is also
available.
Ordering Thermal Receipt Paper
The 7167 requires NCR qualified thermal paper to be used on the thermal receipt print
station to insure proper operation of the printer. In addition the paper rolls must be have
the following dimension.
Diameter
Length
Width
80 mm max. (3.15 in.)
83 meters (273 ft.)
80 mm ± .5 mm (3.15 ± .008 in.)
The paper must not be attached at the core. Otherwise the receipt station will be damaged
when the paper is exhausted.
Paper grades available from NCR
Paper Stock
Paper Grade Description
856911
Economy (for text printing)
856966
Standard Sensitivity (for text and simple graphics)
878559
High Sensitivity (for text, bar codes & detailed graphics)
856380
For improved archiveability and added resistance to
incompatible substances
856461
Red/Black
856458
Blue/Black
The paper must not be attached at the core. Otherwise the receipt station will be damaged
when the paper is exhausted.
To order thermal receipt paper, contact your sales representative or order from NCR at the
following address or toll free number:
NCR
Media Products Division
9995 Washington Church Road
Miamisburg, OH 45342
Voice: 1(800)543-8130 (toll free), or local listing of The NCR Media Products sales
office
It is critical that only certified thermal paper be used with this printer, otherwise damage
may result causing poor print quality or cause damage to the printer.
November 2002
5
7167 Owner’s Manual
Chapter 1: About the 7167 Printer
Ordering Forms
The 7167 prints on single- or multiple-part forms in the slip station (up to five-part forms).
Forms and slips must meet the following requirements:
Front insertion (minimum):
51 mm (2.0 inches) wide
70 mm (2.75 inches) long
Side insertion (minimum):
203 mm (8.0 inches) wide
51 mm (2.0 inches) long
Single-ply forms should be on paper that is greater than 15 pounds
Multiple-part forms (up to five parts) should be no thicker than .406 mm
(.016 inches)
If multi-part formare used the cardstock must be the last ply of the form.
To order forms, contact your sales representative or order from NCR at the following
address or toll free number:
NCR
Media Products Division
9995 Washington Church Road
Miamisburg, OH 45342
Voice: 1(800)543-8130 (toll free), or local listing of The NCR Media Products sales
office
Ordering Ribbon Cassettes
To order ribbon cassettes, contact your sales representative or order from NCR at the
following address or toll free number:
NCR
Media Products Division
9995 Washington Church Road
Miamisburg, OH 45342
Voice: 1(800)543-8130 (toll free), or local listing of Media Products sales office
Stock Numbers: (purple ribbon cassette—8 million characters) 127022
(black ribbon cassette—5 million characters) 127035
6
November 2002
7167 Owner’s Manual
Chapter 1: About the 7167 Printer
Ordering Other Supplies
Contact your NCR sales representative to order the supplies listed in the table.
Item
Type
Number
Power supply with attached cable to
printer and U.S. power supply cord
75 Watt Power Supply
7167-K331-V001
Power supply ( w/o power cord)
75 Watt Power Supply
7167-K302-V001
Power supply cord (to outlet)
United States
International (no plug)
United Kingdom
S.E.V.
Australia
International (with plug)
1406-C325-0030
1416-C319-0030
1416-C321-0030
1416-C320-0030
1416-C322-0030
1416-C323-0030
0.7 meters
3.0 meters (9.8 feet)
1416-C359-0007
1416-C266-0040
DC Power from NCR POS Terminal
1.0 Meters
1416-C712-0010
DC Power from NCR POS Terminal
4.0 Meters
1416-C712-0040
USB Type A to Type B Connector
2.0 Meters
1416-C528-0010
USB Type A to Type B Connector
4.0 Meters
1416-C528-0040
USB Plus Power to Type B Connector
3.0 Meters
1416-C713-0010
USB Plus Power to Type B Connector
4.0 Meters
1416-C713-0040
RS-232C Communication Cables
9-pin to 9-pin
9-pin to 9-pin
DC Plus Power Cable
USB Communication Cables
USB Plus Power Cables
Extended Slip Table (Standard)
Cash Drawer
7167-K280-V001
2189
2189-K002-V001
(Switchable for
Drawer 1 or
Drawer 2)
Cash Drawer Cable
Y Cable
1416-C372-0006
Ordering Documentation
Contact your sales representative to obtain the following documentation:
7167 Thermal Receipt and Impact Slip Printer: Parts Identification Manual (B005-0000-1408)
7167 Thermal Receipt and Impact Slip Printer: Service Manual (B0005-0000-1407)
(includes Troubleshooting Guide and the Preventative Maintenance Guide)
November 2002
7
7167 Owner’s Manual
Chapter 1: About the 7167 Printer
Cleaning the Printer
Cleaning the Cabinet
The external cabinet materials and finish are durable and resistant to these items:
Cleaning solutions
Lubricants
Fuels
Cooking oils
Ultraviolet light
There is no scheduled maintenance required for the 7167.
Clean the cabinet as needed to remove dust and finger marks. Use any household cleaner
designed for plastics, but test it first on a small unseen area. If the receipt bucket is dirty,
wipe it with a clean, damp cloth.
Cleaning the Thermal Print Head
Caution: Do not spray or try to clean the thermal print head or the inside of the printer
with any kind of cleaner as this may damage the thermal print head and electronics.
If the thermal print head appears dirty, wipe it with cotton swabs and rubbing alcohol.
If spotty or light printing problems persist after the thermal print head has been cleaned,
see “Chapter 3: Solving Problems” for more information.
Note: The thermal print head does not normally require cleaning if the recommended
paper grades are used. If non-recommended paper has been used for an extended period
of time, cleaning the print head with cotton swabs and rubbing alcohol will not be of much
benefit. See “Ordering Paper and Supplies” earlier in this manual for recommended paper.
8
November 2002
7167 Owner’s Manual
Chapter 2: Setting Up and Using the Printer
Chapter 2: Setting Up and Using the Printer
What Is in the Box?
The following items are packed in the shipping box:
•
Printer enclosed in a plastic bag and foam pack
•
Ribbon cassette
•
Thermal receipt paper roll
Cardboard restraint for carriage (behind front cover)
These items may be ordered as options from NCR and will be shipped separately:
•
Communication cable (from host computer to printer)
•
DC Power Cable
•
Remote Power Supply
•
USB plus Power Cables
•
Cash drawer cables (may be ordered from other equipment suppliers: see
“Ordering Other Supplies” in chapter 1)
November 2002
9
7167 Owner’s Manual
Chapter 2: Setting Up and Using the Printer
Removing the Packing Material
Receipt
Cover
Head Gap
Holder
Carriage
Holder
1. Remove the printer from the foam pack and plastic bag.
2. Open the front cover and remove the carriage holder.
3. Remove the head gap holder from the slip table.
10
November 2002
7167 Owner’s Manual
Chapter 2: Setting Up and Using the Printer
4. Remove the ribbon cassette / receipt paper roll and cables from the foam packing
material.
5. Save all packing materials for future storing, moving, or shipping the printer.
Caution: Remove the carriage holder and the head gap holder before using the
printer.
Do not pickup the printer using the slip table as a handle.
Re Packing the Printer
Review the illustrations on the previous pages to pack the printer.
1. Place receipt paper between the receipt cover and the print head for protection.
2. Remove the ribbon cassette, move the carriage to the corner, and place the
cardboard restraint in the slip carriage area.
3. Place the cardboard support on the slip table.
4. Place the printer in the plastic bag and foam pack, place the packed printer in the
box, and secure the box with packing tape.
5. If you are sending the printer to NCR for repair, call your NCR-authorized service
representative for instructions on where to send the printer.
Be prepared to answer questions concerning shipping and billing.
Choosing a Location
The 7167 printer takes up relatively little counter space and may be set on or near the
host computer. Make sure there is enough room to open the receipt cover to change
the paper and to open the front cover to change the ribbon cassette. The illustration
shows the actual dimensions of the printer, but leave several inches around the
printer for connecting and accessing the cables.
Note: The optional Magnetic Ink Character Recognition (MICR) check reader feature
is designed to operate under a normal operating environment with a host computer.
However, additional devices, such as CRT monitors, or large metal surfaces that are
near the printer can affect the printer's magnetic field, causing intermittent reading
errors when the MICR check reader is in operation. Relocating these devices may be
required to prevent this interference.
November 2002
11
7167 Owner’s Manual
Chapter 2: Setting Up and Using the Printer
174 mm
6.85 in.)
316.20 mm
(12.50 in.)
190 mm
(7.50 in.)
c) Wall mounted Power Supply (Option)
The 75 watt power supply may be mounted on a vertical wall by using the holes
on the cover. Mount the screws on the wall using the following recommended
mount dimensions. Use a #8 wood screw which is to be securely fastened to a
wall stud or using “Molly” fasteners (not provided).
75mm
(2.95 in)
10mm (.39 in)
175mm (6.89 in)
12
November 2002
7167 Owner’s Manual
Chapter 2: Setting Up and Using the Printer
Setting Switches
The DIP switches, located at the back of the printer, are used for three purposes:
•
To set variables for several printer functions (see the sections for the various
printer functions in “Level 1 Diagnostics” in “Chapter 4: Diagnostics” for Setting
Up The Printer)
•
To perform diagnostic tests (see the sections for the various diagnostic tests in
“Level 1 Diagnostics” in “Chapter 4: Diagnostics” for Setting Up The Printer)
Caution: The DIP switches are set to OFF.
Back of Printer
DIP Switch
Bottom
Cover
2
1
ON
Switch 1 is shown in
the OFF position
Note: Switch 1 is shown in the Off position for reference.
Use a paper clip or other pointed object to set the switches.
1. Set the switches to the desired settings shown in the table.
2. Reset the printer.
Printer Reset
The printer is reset by disconnecting/reconnecting the DC power or by opening the
slip door and closing the slip door while holding the receipt paper feed button down.
DIP Switch Settings
November 2002
13
7167 Owner’s Manual
Chapter 2: Setting Up and Using the Printer
Switch 1 Settings
Switch 2 Settings
Printer State
OFF (0)
OFF (0)
On-line Mode (default)
ON (1)
OFF (0)
Diagnostic Mode
OFF (0)
ON (1) *
Flash Download Mode
ON (1)
ON (1)
Vendor Adjustment Mode
•
It is optional to set this switch to ON when reflashing the IPL firmware.
Connecting the Cables
There are three different types of cables that connect to the printer:
•
Power supply cable supplying power from the host POS terminal or from a
external power supply
•
Communication cable (RS-232 or USB) connecting the printer to the host computer
•
Cash drawer cable connecting the printer to one or two cash drawers
Caution: Disconnect the power before connecting the cables. Always connect the
communication cable and cash drawer cables before connecting power to the power
source. Always disconnect power to the power source before disconnecting the
communication and cash drawer cables.
Follow these steps to connect the cables. See the illustration on the next page.
1. Unplug the power cable from its power source.
2. Connect the power and communication cables to their respective connectors
under the printer as shown in the illustration.
For RS232 cable, be sure to screw the communication cable to the communication
connector.
3. Route the cables through the cable strain relief on the bottom of the printer, then
through the two slots in the cable access cover as shown in the illustration.
4. Connect the communication cable to the appropriate host computer connector.
5. Connect the cash drawer cable to the printer and cash drawer.
The connectors is a standard phone jack located at the rear of the printer.
14
November 2002
7167 Owner’s Manual
Chapter 2: Setting Up and Using the Printer
6. For Host powered installation plug the DC cable into the POS terminal or plug the
power cord into the power supply for remote power supply installation, then plug
the power supply into an outlet.
At this point, the printer receives power. If the On Line LED (green) is on, the printer
is on-line. Otherwise, the printer is not receiving power. Check to insure that the host
terminal is on or that the power supply is on.
RS-232 Cable Connection
Communication
Connector
Communication
Cable
Power
Connector
Power
Cable
DIP Switch Cash Drawer
Cable
Cash Drawer
Connector
USB Cable Connection
USB
Connector
USB Cable
Power
Connector
Power Cable
DIP Switch
Cash Drawer
Cable
Cash Drawer
Connector
November 2002
15
7167 Owner’s Manual
Chapter 2: Setting Up and Using the Printer
Bottom of the Printer
16
November 2002
7167 Owner’s Manual
Chapter 2: Setting Up and Using the Printer
About the Universal Serial Bus
The Universal Serial Bus (USB) is a peripheral bus for personal computers that was
first released in January 1996. Since that time, virtually all Intel Architecture personal
computers have the hardware to support USB, and a large number of computers exist
that have both the hardware and software support required to interface with USB
peripherals.
Advantages of USB connections
USB has a number of advantages over legacy connection schemes (e.g., serial RS-232).
These advantages include:
•
High Speed: up to 12 MB/second for high-speed devices.
•
Plug and Play: Devices are automatically recognized and configured at
installation.
•
Hot plug: Bus supports installation and removal of devices with the power
applied.
•
Up to 127 devices: One host can support up to 127 devices with the use of hubs.
•
“Free ports”: Most PC architecture machines contain two USB ports in the base
hardware.
These advantages have become attractive to the POS industry for a couple of reasons.
Additional POS devices. Some POS systems are required to host more peripherals
than can be supported by two RS-232 ports typical in a platform. With the addition of
one (or two) USB connectors, the platform can now support the additional devices
that had previously required a serial port expander card.
Higher bandwidths. New devices coming into use have bandwidth requirements
that are higher than the bandwidth that can be supported on legacy interfaces. These
devices include image scanners and printers. As the speed and capability of POS
printers increases, the performance of the printer in an application can become limited
by the speed of the communications interface. USB provides ample bandwidth to
support current and future POS printer requirements.
Advantages of the NCR USB Solution
NCR has eliminated any cost associated with porting applications to USB by
implementing a USB solution that simulates standard serial communications in
Windows 98 (SR2), Windows 98 USB Hot Patch, ID: Q236934, NT 4.0 (Service Pack 3
or higher) and Windows 2000. Application developers need only redirect their
software to the virtual serial ports created by the NCR USB solution to use the printer.
November 2002
17
7167 Owner’s Manual
Chapter 2: Setting Up and Using the Printer
Checking for USB Support on the Host Computer
If the USB interface communications is required, the host computer must be equipped
and setup properly. If it is not, you need to install a USB interface card. With the
required hardware in place, Windows 98 (SR 2), Windows 98 USB Hot Patch, ID:
Q236934, NT 4.0 (Service Pack 3 or higher) and Windows 2000 natively support plugand-play USB with a built-in driver; Windows NT does not, and the NCR windows
NT USB driver needs to be installed.
IMPORTANT: You need to have internet access to download the USB drivers
from the NCR Web site://www.NCR.com
Host Configuration
Verify that the proper hardware has been installed in the host terminal.
Windows 98:
1. Open the Control Panel.
2. Click on System (Windows 98).
3. Click the Device Manager tab.
4. In the Device Manager window, scroll down the list of installed hardware devices
until you find an entry for “Universal serial bus controller.”
If this entry exists, your host computer is set up for USB operation. If this entry does
not appear:
•
Consult your computer documentation to see if USB must be enabled in the BIOS
setup.
Windows NT:
To see if your POS terminal is USB-compliant, look at the back.
•
If it has a USB connector port, your hardware is all set.
Note: Even though the host may have a USB port, Windows NT does not natively
support plug-and-play USB because it does not have a built-in driver. You will need
to load the NCR Windows NT USB driver (see “Installing the USB Printer Drivers”).
Windows 2000:
1. Open the Control Panel.
2. Click on System.
3. Click on Hardware.
4. Click the Device Manager tab.
5. In the Device Manager window, scroll down the list of installed hardware devices
until you find an entry for “Universal serial bus controller.”
18
November 2002
7167 Owner’s Manual
Chapter 2: Setting Up and Using the Printer
If this entry exists, your host computer is set up for USB operation. If this entry does
not appear:
•
Consult your computer documentation to see if USB must be enabled in the BIOS setup.
Configuring the Printer
USB is a plug-and-play environment. As such, neither the printer nor the host
requires user configuration to work. However, since the NCR solution simulates a
serial communication interface, you must configure “handshaking” on the printer for
proper operation. The printer can be configured to use hardware flow control (using
DTR/DSR) or software flow control (using XON/XOFF). All other serial
communication parameters (i.e., baud rate, parity, stop bits, and data bits) are
ignored.
To define software or hardware handshaking:
1. Open the Receipt Cover and check whether there is paper in the printer. If there
isn’t, insert the paper roll, as described in the Owner’s Manual.
2. Turn the printer so the back is facing you.
3. Set DIP switch 1 to the On position (up).
Receipt
Receipt
cover
November 2002
19
7167 Owner’s Manual
Chapter 2: Setting Up and Using the Printer
Back of Printer
DIP Switch
Bottom
Cover
2
1
ON
Switch 2 is shown in
the OFF position
4. Reset the printer.
The printer beeps, prints the current configuration, then waits for you to make a
selection from the Main Menu on the printout.
20
November 2002
7167 Owner’s Manual
Chapter 2: Setting Up and Using the Printer
*** Diagnostics Form ***
Model number
Serial number
Boot Firmware
Revision
CRC
Flash Firmware
Revision
CRC
Hardware
Flash Memory Size
Flash Logos Size
Flash Fonts Size
Flash User Storage
*** Printer Config Menu ***
:
:
7167
A991703053
:
:
V0.17
C525
:
:
V03.12
0EFF
:
:
:
:
Communication Interface
Interface Type
:
Parameters
Baud Rate
:
Data Bits
:
Stop Bits
:
Parity
:
Flow Control
:
Reception Errors
:
Receive Buffer
:
2Mbytes
256Kbytes
64Kbytes
64Kbytes
RS232/USB
9600
8
1
None
DTR/DSR
Print ‘?’
4K Bytes
Diagnostic Mode
:
Off, Normal Mode
Emulation/Software
Printer Emulation
Printer ID Mode
Default LPI
:
:
:
7158 Native Mode
7167 Native ID
7.52
To enter Diagnostics Mode:
1)
Flip DIP switch #1 on
2)
Reset the printer by pressing
and holding the Receipt Feed switch
down while disconnecting and
reconnecting the power.
The config menu allows you to set
general printer parameters. Sub-menus
are entered and selections are made
using the Paper Feed Button:
-
Short Click : Feed Button is
quickly depressed
then released.
-
Long Click : Feed Button is held
Down more than 1sec
then released.
CAUTION !!
The settings are predetermined in
factory and should generally not be
changed to avoid changing other
functions.
**************
************* Main Menu *************
*****************************************
Select a sub –menu:
- EXIT
- Print Current Configuration
- Set Communication Interface
- Set Diagnostics Modes
- Set Emulation/Software
- Set Hardware Options
- Set Default Code Page 7 Clicks
Set EEPROM To Default
1 Click
2 Clicks
3 Clicks
4 Clicks
5 Clicks
6 Clicks
8 Clicks
Enter code, then hold Button DOWM
at least 1 second to validate
Important: Ensure that the
configuration settings match
your host computer, if not,
enter the Configuration Menu
to make changes.
Follow the instructions on the scrolling menu, pressing the Paper Feed button to make
selections. Indicate Yes with a long click, and No with a short click.
•
Press and hold the Paper Feed button for at least one second for a long click.
•
Press the Paper Feed button quickly for a short click.
5. Select Set Communication Interface from the Main Menu.
The printer scrolls to the first menu selections.
November 2002
21
7167 Owner’s Manual
Chapter 2: Setting Up and Using the Printer
6. Select RS232/USB.
7. Skip through the parameters with short clicks until Set Flow Control Method is
displayed.
8. Follow the instructions to select either XON/OFF or DTR/DSR, then skip the
remaining communications parameters.
9. When you have finished, set DIP switch 1 to Off (down).
10. Reset the printer.
The printer resets with the new selection. You can verify the new setting by pressing
the Paper Feed button to print out a diagnostics form or by holding the Paper Feed
button while closing the Receipt Cover.
22
November 2002
7167 Owner’s Manual
Chapter 2: Setting Up and Using the Printer
Installing the USB Printer Drivers
Windows NT users need to run Service Pak 3 or higher for a successful installation
and should exit all Windows programs before starting.
1. Verify that the printer is plugged in and the power is on.
2. The installation varies depending on the operating system.
Windows 98
Follow the on-screen instructions. The printer beeps when the USB device is
recognized. Go to the location where you downloaded the drivers and double click
the file.
November 2002
23
7167 Owner’s Manual
Chapter 2: Setting Up and Using the Printer
24
November 2002
7167 Owner’s Manual
Chapter 2: Setting Up and Using the Printer
Note: Location of the IONetworks files on the CD-ROM may very depending on the version
of the CD that is being used.
November 2002
25
7167 Owner’s Manual
Chapter 2: Setting Up and Using the Printer
Also verify that you have the Windows 98 USB Hot Patch, ID: Q236934, created: 08Jul-1999 and modified: 10Aug-1999 installed. To verify if this hot patch is installed
check file c:\Windows\System32\Drivers\usbhub.sys. This file should be dated
08/13/99, size 36,672, version 4.10.22223.
26
November 2002
7167 Owner’s Manual
Chapter 2: Setting Up and Using the Printer
Windows NT
The printer beeps when it is plugged in to show the USB device is recognized. Click
on the file you downloaded and follow the on-screen instructions.
November 2002
27
7167 Owner’s Manual
Chapter 2: Setting Up and Using the Printer
Windows 2000
Follow the on-screen instructions. The printer beeps when the USB device is
recognized. Go to the location where you downloaded the drivers and double click
the file.
28
November 2002
7167 Owner’s Manual
Chapter 2: Setting Up and Using the Printer
November 2002
29
7167 Owner’s Manual
Chapter 2: Setting Up and Using the Printer
Note: Location of the IONetworks files on the CD-ROM may very depending on the version
of the CD that is being used.
30
November 2002
7167 Owner’s Manual
Chapter 2: Setting Up and Using the Printer
November 2002
31
7167 Owner’s Manual
Chapter 2: Setting Up and Using the Printer
Note: Location of the IONetworks files on the CD-ROM may very depending on the version
of the CD that is being used.
32
November 2002
7167 Owner’s Manual
Chapter 2: Setting Up and Using the Printer
Checking the Installation
You need to verify that the device drivers were installed correctly:
Windows 98:
1. Open the Device Manager window, as you did in “Checking for USB Support.”
2. Scroll down to “Universal serial bus controllers.”
The following devices should be displayed:
•
NCR 7167 Printer
•
NCR 7167 Serial Ports [Port#] (where the # is the location of the printer)
November 2002
33
7167 Owner’s Manual
Chapter 2: Setting Up and Using the Printer
3. Scroll back up to “Ports.”
You should see a COM number and port description for the NCR printer.
If the devices are missing or are not listed correctly, the installation wasn’t successful.
You will need to reinstall the drivers.
Windows NT:
Go the Windows Start button and select Programs > InsideOut Networks Utilities >
Edgeport Configuration Utility. A window opens that contains the name of the
printer, and the port assignment.
If this information is not listed, then the installation was not successful. You will need
to reinstall the drivers.
34
November 2002
7167 Owner’s Manual
Chapter 2: Setting Up and Using the Printer
Windows 2000:
1. Open the Device Manager window, as you did in “Checking for USB Support.”
2. Scroll down to “Universal serial bus controllers.”
November 2002
35
7167 Owner’s Manual
Chapter 2: Setting Up and Using the Printer
3. Scroll back up to “Ports.”
If the devices are missing or are not listed correctly, the installation wasn’t successful.
You will need to reinstall the drivers.
If this information is not listed, then the installation was not successful. You will need
to reinstall the drivers.
Configuring Serial Port Number Assignments
This section described how the NCR USB solution assigns serial port numbers (e.g.,
COMx) to the printer. The information that determines the assigned port number is
stored in the host computer and not in the printer. This assignment is made in one of
three ways. The first method is the default method that automatically assigns a serial
port number to the printer. The other two methods require the user to specify a port
number. These methods are described more fully in “Serial Port Configuration
Methods” on the following page.
Running the Edgeport Utility
You’ll need to run the Edgeport utility to check which serial port has been assigned to
the printer. This utility queries and configures the operating system and driver for the
information regarding the virtual serial port.
Windows 98
1. Open the Device Manager and make sure “View Devices By Type” is selected.
2. Scroll down to Universal serial bus controller, and expand the list by pressing the
“+” symbol. You’ll see two entries for your NCR printer.
36
November 2002
7167 Owner’s Manual
Chapter 2: Setting Up and Using the Printer
3. Select the printer name and click Properties.
4. Select the Details tab, then press the Details button to start the Edgeport utility.
Windows NT 4.0
From the Windows Start menu, select Programs > Inside Out Networks Utilities >
Edgeport Configuration Utility.
Windows 2000
1. Open the Device Manager and make sure “View Devices By Type” is selected.
2. Scroll down to Universal serial bus controller, and expand the list by pressing the
“+” symbol. You’ll see two entries for your NCR printer.
3. Select the printer name and click Properties.
4. Select the Details tab, then press the Details button to start the Edgeport utility.
Serial Port Configuration Methods
Automatic (Default). When the printer is plugged into the USB port of the host and
the drivers are loaded, the printer will default to the next available serial port number.
In many cases this is exactly what is desired. You can check the assigned serial port by
clicking the General tab in the Edgeport utility. You’ll see an entry for the NCR
printer. Expand the list to see which serial port has been assigned to the printer.
Assigning a serial port to the printer. If the default assignment does not meet the
requirements of the installation, you can assign a different serial port to the printer.
From the General tab of the Edgeport utility, select the printer and press Configure.
Follow the directions on the resulting form to assign a new port to the printer.
Associating a serial port with a specific USB port. (Windows 98 and NT) In certain
installations it is desirable to associate a serial port number with a specific USB port.
This is particularly important if multiple identical printers are installed on one host.
Select the Advanced tab in the Edgeport utility, and follow the instructions for
configuring the serial port number based on the physical USB port.
Uninstalling the Drivers
Windows 98:
1. Open the Device Manager and make sure “View Devices By Type” is selected.
2. Scroll down to Universal serial bus controller, and expand the list by pressing the
“+” symbol. You’ll see two entries for your NCR printer.
3. Select the printer name and click Properties.
4. Select the Details tab, then press the Details button to start the Edgeport utility.
5. Click the Advanced tab.
6. Click the Uninstall button and follow the on-screen instructions.
November 2002
37
7167 Owner’s Manual
Chapter 2: Setting Up and Using the Printer
Windows NT:
Windows NT users will need to run the Edgeport Configuration Utility to uninstall
the drivers.
1. Press Windows Start Menu button.
2. Choose Programs, then Inside Out Networks Utilities.
3. Choose Edgeport Configuration Utility.
4. Click the Advanced tab.
5. Click the Uninstall button and follow the on-screen instructions.
Windows 2000:
1. Open the Device Manager and make sure “View Devices By Type” is selected.
2. Scroll down to Universal serial bus controller, and expand the list by pressing the
“+” symbol. You’ll see two entries for your NCR printer.
3. Select the printer name and click Properties.
4. Select the Details tab, then press the Details button to start the Edgeport utility.
5. Click the Advanced tab.
6. Click the Uninstall button and follow the on-screen instructions.
38
November 2002
7167 Owner’s Manual
Chapter 2: Setting Up and Using the Printer
Using the Printer
LED
Paper Feed
Button
Note: See “Setting Switches” earlier in this book for instructions on setting the DIP
switches.
1. Connect the power supply cable to the printer and turn on the power source.
The printer goes through a self-test routine to ensure everything is working
properly then “beeps.” After the printer has completed its “startup” cycle, it is
ready to receive data.
If the LED blinks, or the host computer indicates that there is a problem, see
“Chapter 3: Solving Problems” for more information.
2. To perform a Configuration check (optional), reset the printer while holding the
Paper Feed Button, or open the receipt door and while pressing the paper feed
button close the receipt door, let go of the Paper Feed Button once the printing
begins.
Note: The printer receives power when the power supply is on even if the printer is
off-line. To completely remove power, unplug the power supply from the outlet, or
turn the POS terminal off.
November 2002
39
7167 Owner’s Manual
Chapter 2: Setting Up and Using the Printer
Loading and Changing the Receipt Paper
Although the illustrations show a used roll being removed, the instructions apply to
loading paper for the first time.
Change the paper when either of the following two conditions occurs:
•
LED blinks (slow): the paper is low
There are approximately 1 ½ to 7 ½ meters (5-25 feet) of paper remaining on the
roll. Change the paper as soon as possible to avoid running out part way through
a transaction.
Depending on the application program, the host computer may alert you when
the paper is low.
•
LED blinks (fast): the paper is out
Change the paper immediately or data may be lost.
Caution: Do not operate the printer or host computer if the printer runs out of paper.
The printer will not operate without paper, but it may continue to accept data from
the host computer. Because the printer cannot print any transactions, the data may be
lost.
40
November 2002
7167 Owner’s Manual
Chapter 2: Setting Up and Using the Printer
Removing the Paper Roll
1. Open the receipt cover.
2. Remove the used roll.
Receipt
cover
November 2002
41
7167 Owner’s Manual
Chapter 2: Setting Up and Using the Printer
Loading the Paper Roll
Note: Tear off the end of the new roll so that the edge is loose.
1. Place the new roll in the bin with a little extra paper extending over the front.
Be sure the paper unrolls from the bottom of the roll. Otherwise the paper will not
be printed on because the thermal coating will be on the wrong side.
2. Close the receipt cover.
3. Remove the excess paper by tearing it against the tear-off blade.
1
2
42
November 2002
7167 Owner’s Manual
Chapter 2: Setting Up and Using the Printer
3
Advancing Paper
1. Press the Paper Feed button on the operator panel to advance the paper.
The cover must be closed. To ensure print quality and the proper alignment of the
paper, advance about 30 cm (12 inches) of paper.
2. Tear off the excess paper against the tear-off blade.
November 2002
43
7167 Owner’s Manual
Chapter 2: Setting Up and Using the Printer
Installing and Changing the Ribbon Cassette
Change the ribbon cassette when the print is too light or the ribbon is frayed.
Removing the Ribbon Cassette
1. Open the front cover.
2. Use the handle on the cassette and pull the cassette from the printer.
Front
Cover
Ribbon
Cassette
Handle
Slot
Slot
44
November 2002
7167 Owner’s Manual
Chapter 2: Setting Up and Using the Printer
Installing the Ribbon Cassette
1. Tighten the ribbon by turning the knob in the direction of the arrow.
2. Position the ribbon cassette slot at the catch on the printer slip frame and push it
into place.
Be sure the ribbon is in front of or underneath the print head.
Tighten the ribbon using the shaft at the upper left corner of the cassette. Rotate
the shaft clockwise until the ribbon is positioned between the print head and the
metal ribbon guide.
3. Close the front cover.
Catch
Slot
Cantilever Frame
1
Slot
Front
Cover
November 2002
45
7167 Owner’s Manual
Chapter 2: Setting Up and Using the Printer
Printing on Forms or Checks
There are several types of transactions that require you to insert a form or check into
the printer:
•
Credit card transaction (some credit card transactions may be printed on the
receipt station and not require any forms)
•
Multiple-part forms such as credit transactions or merchandise returns
•
Electronic funds transfers
•
Check printing (printing the date, payee, and amount on the check face)
•
Check endorsement
Although the illustration on the facing page shows a check being inserted into the
printer, the instructions apply to any type of form. The 7167 can print on forms up to
five-parts thick. See “Ordering Forms” in chapter 1 for more information about the
type of forms that can be used.
1. Insert the form or check (check shown in the illustration) from the front and place
it on the slip table top first and with the print side up.
If the form is extra long, you may need to insert it from the side.
2. Slide the form or check to the right until it lines up against the slip guide.
If the form is extra long, you need to slide it over the form stop to disengage it. In
this situation use the mark that is located on the slip door to align the form for
printing in the proper location on the form.
3. Slide the form or check toward the back of the printer until it contacts the form
stop (it won't be able to go any further);
Or, align the form or check with the mark on the slip door.
The green LED on the slip table turns on when the form or check is properly
inserted (the form has to cover two sensors on the slip table).
4. Follow the instructions from the host computer.
The printer begins printing.
5. Remove the form or check after it has been fed back out.
6. Follow the instructions from the host computer to finish the transaction.
46
November 2002
7167 Owner’s Manual
Chapter 2: Setting Up and Using the Printer
Guide
LED
Extended
Slip Table
November 2002
47
7167 Owner’s Manual
Chapter 2: Setting Up and Using the Printer
Validating and Verifying Checks
Note: If the MICR check reader feature is present, checks are verified then validated.
1. Insert the check from the front and place it on the slip table face down as shown in
the illustration on the facing page.
2. Slide the check to the right until it lines up against the guide (wall).
3. Slide the check toward the back of the printer until it contacts the form stop (it
won't be able to go any further);
Or, align the check with any preset mark you may have made on the slip table.
The green LED on the slip table turns on when the form or check is properly
inserted (it has to cover two sensors on the slip table).
4. Follow the instructions from the host computer.
If the MICR check reader feature is present, the check is fed in and out while the
check numbers are read. If the check is verified as good, it is then validated. If the
check is not verified as good, it is not validated.
Note: Do not hold or keep the check from moving during the MICR check reader
transaction or the check numbers will not be read accurately.
5. Remove the check after it has been fed all the way back out.
6. Follow the instructions from the host computer to finish the transaction.
48
November 2002
7167 Owner’s Manual
Chapter 2: Setting Up and Using the Printer
Guide
Extended
Slip Table
LED
November 2002
49
7167 Owner’s Manual
Chapter 3: Solving Problems
Chapter 3: Solving Problems
The 7167 printer is a simple, generally trouble-free printer, but from time to time minor
problems may occur. For example, the power supply may be interrupted or the thermal
print head may overheat.
A green LED on the operator panel signals that something may be wrong.
For some problems, the printer communicates the information to the host computer and
relies on the application to indicate what the problem is.
The information on the following pages describes some problems that you may encounter:
problems that you can easily fix, and others that you will need to contact a service
representative for.
You may be able to correct many of the conditions or problems without calling for service.
However, if a problem persists, contact a service representative. See “Contacting a Service
Representative” at the end of this chapter.
Green LED Does Not Come On/Printer Will Not Print
Problem
What to Do
Where to Go
Cables may not be connected
properly
Check all cable connections. Check that the
host computer and power supply are both on
(the power supply is turned on by plugging it
into an outlet).
See “Connecting the
Cables” in chapter 2.
Power supply may be defective
If the power supply is plugged in, but does
not come on, you will need to order a new
power supply.
See “Ordering Other
Supplies” in chapter 1.
47
November 2002
7167 Owner’s Manual
Chapter 3: Solving Problems
Green LED Blinking (Slow)
Problem
What to Do
Where to Go
Receipt paper is low*
There are about 4 ½ meters, ± 3 meters, (15
feet, ± 10 feet) of paper left. Change the paper
soon to avoid running out of paper part way
through a transaction.
See “Loading and
Changing the Receipt
Paper” in chapter 2.
Green LED Blinking (Fast)
Problem
What to Do
Where to Go
Receipt paper is out
Change the paper now. Do not run a
transaction without paper as the data may be
lost.
See “Loading and
Changing the Receipt
Paper” in chapter 2.
Receipt cover or front cover is
open
Close the cover. The printer will not operate
with either of the covers open.
Knife failure
Open the receipt cover and check the knife.
Clear any jammed paper you can see. Tear off
any excess paper against the tear-off blade.
Contact a service representative if this does
not resolve the problem.
Paper jam in slip station
See “Contacting a Service
Representative” later in
this chapter.
Open the front cover and check the slip table
and under the carriage. Remove any paper
you see.
If you cannot see a paper jam or other
obstruction, contact a service representative.
Paper jam in carriage
Open Front Cover and clear paper from path.
Paper jam during flip
If visible through Front Window, open access
door and clear paper jam, if not, open Front
Cover and clear jam.
November 2002
See “Contacting a Service
Representative” later in
this chapter.
48
7167 Owner’s Manual
AC supply voltage is out of
range
Thermal print head temperature
is out of range
Chapter 3: Solving Problems
If paper is not low and no conditions indicate
that the thermal print head is too hot, then it is
likely that the power supply voltage is out of
range.
Contact a service representative if this does
not resolve the problem.
See “Contacting a Service
Representative” later in
this chapter.
The print head may overheat when printing in
a room where the temperature is above the
recommended operating temperature or when
printing high-density graphics continuously,
regardless of the room temperature. In either
case, the printer will shut off.
See “Environmental
Conditions” in Appendix
A for the recommended
temperature range for
operating the printer.
If the temperature of the print head is too hot,
adjust the room temperature or move the
printer to a cooler location.
If the print head is overheating because of
printing high density graphics continuously,
reduce the demand on the printer.
Power supply voltage is out of
range
If the printer continues to overheat, contact a
service representative.
See “Contacting a Service
Representative” later in
this chapter.
If paper is not low and no conditions indicate
that the print head is too hot, the power
supply voltage is out of range. Contact a
service representative.
See “Contacting a Service
Representative” later in
this chapter.
Slip or Forms Printing is Light
Problem
What to Do
Where to Go
Ribbon cassette is worn
Replace the ribbon cassette.
See “Putting In and
Changing the Ribbon
Cassette” in chapter 2.
Contact a service representative if this does
not resolve the problem.
See “Contacting a Service
Representative” later in
this chapter.
49
November 2002
7167 Owner’s Manual
Chapter 3: Solving Problems
Receipt Printing is Light or Spotty
Problem
What to Do
Where to Go
Thermal print head may be dirty
Open the receipt cover and clean the thermal
print head with cotton swabs and isopropyl
alcohol.
See “Cleaning the Printer”
in chapter 2.
Caution: Do not use the alcohol to clean other
parts of the printer. Damage will occur.
See “Contacting a Service
Representative” later in
this chapter.
Contact a service representative if this does
not resolve the problem.
Note: The thermal print head does not normally require cleaning if the
recommended paper grades are used. If non-recommended paper has been
used for an extended period of time, cleaning the print head with the
alcohol and cotton swabs will not be of much benefit. See “Ordering
Thermal Paper” in chapter 1 for recommended paper.
LED (Slip Table) Does Not Come On
Problem
What to Do
Where to Go
Form or check not inserted
properly
Line up the form or check against the guide
(wall) and slide it toward the back of the
printer until it contacts the form stop and can't
go any further. Extra long forms may need to
be inserted from the side to disengage the
form stop.
See “Printing on Forms or
Checks” or “Validating
and Verifying Checks” in
chapter 2
Contact a service representative if this does
not resolve the problem.
See “Contacting a Service
Representative” later in
this chapter.
Problem
What to Do
Where to Go
Form or check skewing or
catching in slip station due to an
obstruction or paper jam
Open the front cover and check for any paper
jams or obvious obstruction in the slip station.
Clear the obstruction or jammed paper.
Forms Skew or Catch
Contact a service representative if this does
not resolve the problem.
November 2002
See “Contacting a Service
Representative” later in
this chapter.
50
7167 Owner’s Manual
Chapter 3: Solving Problems
MICR Check Reader Not Reading Properly
Problem
What to Do
Where to Go
MICR (Magnetic Ink Character
Recognition) check reader does
not read or misreads checks
Open the slip cover and clean the MICR read
head with cotton swabs and isopropyl
alcohol.
See “Adjusting the MICR
Check Reader” in
chapter 4.
51
November 2002
7167 Owner’s Manual
Chapter 3: Solving Problems
Other Serious Problems
The following problems all need to be corrected by a qualified service representative. See
the next section, “Contacting a Service Representative.”
MICR check reader not operating properly
Forms not feeding into the slip/forms area properly
Missing dots in slip or forms printing
Printer will not cycle or stop when required
Illegible characters
Paper will not feed
Knife will not cycle or cut
Platen will not open or close
Printer will not communicate with Host
Contacting a Service Representative
For serious problems, such as the printer not printing, not communicating with the host
computer, or not turning on, contact your NCR-authorized service organization to arrange
for a service call. In addition to the service manual listed below, other service-related
materials may be available. Contact your NCR-authorized service representative to obtain
the service manual.
7167 Thermal Receipt and Impact Slip Printer: Service Manual (B005-000-1407)
(includes the Troubleshooting Guide and the Preventative Maintenance Guide)
November 2002
52
7167 Owner’s Manual
Chapter 4: Diagnostics
Chapter 4: Diagnostics
The following diagnostic tests are available for the 7167:
Level 0 Diagnostics (Startup)
Performed during the startup cycle.
Level 1 Diagnostics (Printer Configuration)
Allows configuration of the printer using a Configuration Menu that is printed on a receipt.
Level 2 Diagnostics (Runtime)
The printer checks the status of these conditions during normal operation.
Level 3 Diagnostics (Remote)
The printer keeps track of counters during normal operation.
Vendor Adjustment
Performed in off-line mode. Allows to change settings for mechanical and perform printer test.
Modifications of these settings are to be made by service personnel only.
Level 0 Diagnostics
The printer automatically performs level 0 diagnostics when it is put on-line. Level 0
diagnostics comprise the following actions:
Motors are turned off.
Microprocessor timing is checked, CRC check of the firmware ROM is performed, external RAM is
read.
•
•
•
•
•
•
The green LED on the slip table flashes once if this action succeeds.
Level 0 diagnostics stop if this action fails. Failure is indicated by the printer going
dead: knife and print head do not home, the platen does not open, LEDs are not
lit, the printer is unable to communicate with the host computer.
Knife is homed. A fault condition is caused if this action fails.
Slip platen is opened.
Slip print head is homed. A fault condition is caused if this action fails.
The status of all sensors is checked, and the status bytes are updated.
If the printer has not been turned on before, the default values for the printer functions
will be loaded into the non volatile memory during level 0. These values can be changed
in level 1 diagnostics. See “Level 1 Diagnostics” for the functions and their settings.
When the last step is complete, the Paper Feed button is enabled and the printer is ready
for normal operation. Information about the tests is available to the communication
interface through the commands.
November 2002
53
7167 Owner’s Manual
Chapter 4: Diagnostics
Level 1 Diagnostics
Level 1 diagnostics (setup mode) allow you to change the settings for various printer
functions and run certain tests.
Keep the following information in mind when changing the settings:
The settings can only be changed when the printer is in level 1 diagnostics (setup mode): Switch 1
must be set to On and Switch 2 must be set to Off.
The default options are set at the factory and are stored in the history non volatile memory
Once the settings have been changed and stored in the non volatile memory, the diagnostic setup
is exited which saves the settings.
Caution: If you are changing the printer settings, be sure they are the correct settings for
that particular function or test to avoid accidentally changing the settings for another
function or test. If the settings are accidentally changed you must reenter the setup mode
and reenter the correct settings. If you need assistance, contact a service representative.
See “Contacting a Service Representative” in chapter 3.
Printer Configuration
Printers are generally shipped with all appropriate configuration settings pre-set at the
factory. The only time the user should need to change the printer configuration is if a new
option is installed or the firmware is changed. It is also possible the user may need to run
certain tests using the Configuration Menu.
The user configures the printer using a convenient Configuration Menu that is printed on
receipt paper. The Configuration Menu prints instructions and setting options
interactively as the user goes through the configuration process. The following functions
and parameters can be changed with the scrolling Configuration Menu:
Configuring the Printer
Communication Interface
Interface Type
Baud Rate
Number of Data Bits
Number of Stop Bits
Parity
Flow Control
Data Reception Errors
Receive Buffer
Setting Diagnostic Modes
Off, Normal Mode
Datascope Mode
Slip Test Mode
Receipt Test Mode
MICR Test Mode
Check Flip Test Mode
Print Head Gap Adjust Test Mode
November 2002
54
7167 Owner’s Manual
Chapter 4: Diagnostics
Setting Emulation/Software Options
Emulation
Printer ID
Default Lines Per Inch
Carriage Return Usage
Asian Mode
Slip Print Width
Receipt Synchronization
Setting Hardware Options
Print Density
Maximum Power Option
Paper Low Sensor
Paper Width
Knife Options
MICR Option
Check Flip Option
Color Paper Option
MICR Dual Pass
Setting Default Code Page
Setting EEPROM to default settings
November 2002
55
7167 Owner’s Manual
Chapter 4: Diagnostics
Configuring the Printer
Use the Configuration Menu to select functions or change various settings as indicated in
the preceding sections. The Configuration Menu prints instructions and setting options
interactively as the user goes through the configuration process.
Caution: Be extremely careful in changing any of the printer settings to avoid changing
settings that might affect the performance of the printer.
Bottom
Cover
1. Set DIP Switch 2 to Off, Switch 1 to On.
2. Reset the printer.
For resetting the printer instruction see Chapter 2 page 13
This configuration menu allows you to set mechanical adjustment parameters and select
printer test.
Sub-menus are entered and selections are made using the Paper Feed Button.
-
Short Click: Feed Button is quickly depressed and released
-
Long click: Feed Button is held down more than 1 second
Press the paper feed for the configuration you want.
Defaults are marked with asterisk (*).
******** Main Menu ********
*******************************
Select a sub-menu:
- EXIT
- Print Current Configuration
- Set Communication Interface
- Set Diagnostics Modes
- Set Emulation/Software Options
- Set Hardware Options
- Set Default Code page
- Set EEPROM To Default Settings
-> 1 Click
-> 2 Clicks
-> 3 Clicks
-> 4 Clicks
-> 5 Clicks
-> 6 Clicks
-> 7 Clicks
-> 8 Clicks
Enter code, then hold Button DOWN
at least 1 second to validate
November 2002
56
7167 Owner’s Manual
Chapter 4: Diagnostics
*** Diagnostics Form ***
Model number
Serial number
Boot Firmware
Revision
CRC
Flash Firmware
Revision
CRC
Hardware
Flash Memory Size
Flash Logos Size
Flash Fonts Size
Flash User Storage
*** Printer Config Menu ***
:
:
7167
A991703053
:
:
V00.17
C525
:
:
V03.12
0EFF
:
:
:
:
Communication Interface
Interface Type
:
Parameters
Baud Rate
:
Data Bits
:
Stop Bits
:
Parity
:
Flow Control
:
Reception Errors
:
Receive Buffer
:
2Mbytes
256Kbytes
64Kbytes
64Kbytes
RS232/USB
9600
8
1
None
DTR/DSR
Print ‘?’
4K Bytes
Diagnostic Mode
:
OFF, Normal Mode
Emulation/Software
Printer Emulation
Printer ID Mode
Default LPI
:
:
:
7158 Native Mode
7158 Native ID
7.52
To enter Diagnostics Mode:
1)
Flip DIP switch #1 on
2)
Reset the printer by pressing
and holding the Receipt Feed switch
down while disconnecting and
reconnecting the power.
The config menu allows you to set
general printer parameters. Sub-menus
are entered and selections are made
using the Paper Feed Button:
-
Short Click : Feed Button is
quickly depressed
then released.
-
Long Click : Feed Button is held
Down more than 1sec
then released.
CAUTION !!
The settings are predetermined in
factory and should generally not be
changed to avoid changing other
functions.
**************
************* Main Menu *************
*****************************************
Select a sub –menu:
- EXIT
- Print Current Configuration
- Set Communication Interface
- Set Diagnostics Modes
- Set Emulation/Software
- Set Hardware Options
- Set Default Code Page 7 Clicks
Set EEPROM To Default
1 Click
2 Clicks
3 Clicks
4 Clicks
5 Clicks
6 Clicks
8 Clicks
Enter code, then hold Button DOWM
at least 1 second to validate
Important: Ensure that the
configuration settings match
your host computer, if not,
enter the Configuration Menu
to make changes.
Configuration Menu and Print Test samples (show approximately 60% of size).
November 2002
57
7167 Owner’s Manual
Chapter 4: Diagnostics
4.
Press the Paper Feed Button to make the selections.
The instructions indicate whether to select something with a short click, a long click,
or a series of short clicks. Indicate Yes with a long click, No with a short click.
Press and hold the Paper Feed Button for at least one second for a long click. Press the
Paper Feed Button quickly for a short click.
5.
When finished, set DIP Switch 1 to Off and reset printer.
Communication Interface Modes
The Configuration Menu gives the user the option of setting the printer to use an RS-232C
serial port. (See “Configuring the Printer” for instructions on how to enter the
Configuration Menu.)
RS-232C Interface Settings
If the user sets the printer to use an RS-232C serial interface, the Configuration Menu can
be used to set the following RS-232C specific settings:
Set the baud rate to 115200, 57600, 38400, 19200, 9600, 4800, 2400, or 1200 baud
Set the number of data bits to seven or eight
Set the number of stop bits to one or two
Enable or disable parity
Set flow control to software (XON/XOFF) or Hardware (DTR/DSR)
Set the printer to ignore data errors or print a “?” upon encountering an error
The settings used will depend on the software the operator is using and the capabilities of
the host computer.
Press the paper feed button for the communications settings you want.
Defaults are marked with asterisks (*).
** SET INTERFACE TYPE ?
YES
-> Long Click
NO
-> Short Click
RS232/USB*
-> 1 Click
RS232
-> 2 Clicks
USB
-> 3 Clicks
Enter code, then hold Button Down
At least 1 second to validate
** SET BAUD RATE ?
YES
-> Long Click
NO
-> Short Click
115200 Baud
57600 Baud
38400 Baud
19200 Baud
-> 1 Click
-> 2 Clicks
-> 3 Clicks
-> 4 Clicks
November 2002
58
7167 Owner’s Manual
Chapter 4: Diagnostics
More
-> 5 Clicks
Enter code, then hold Button DOWN
At least 1 second to validate
9600 Baud* -> 1 Clicks
4800 Baud -> 2 Clicks
2400 Baud -> 3 Clicks
1200 Baud -> 4 clicks
Enter code, then hold Button DOWN
At least 1 second to validate
** SET NUMBER OF DATA BITS ?
YES
-> Long Click
NO
-> Short Click
8 Data Bits*
7 Data Bits
-> Long Click
-> Short Click
** SET NUMBER OF STOP BITS ?
YES
-> Long Click
NO
-> Short Click
1 Stop Bits*
2 Stop Bits
-> Long Click
-> Short Click
** SET PARITY ?
YES -> Long Click
NO
-> Short Click
No Parity*
-> 1 Click
Even Parity
-> 2 Clicks
Odd Parity
-> 3 Clicks
Enter code, then hold Button DOWN
At least 1 second to validate
** SET FLOW CONTROL METHOD ?
YES -> Long Click
NO
-> Short Click
Software (XON/XOFF) -> Long Click
Hardware (DTR/DSR)* -> Short Click
** SET DATA RECEPTION ERRORS OPTION ?
YES -> Long Click
NO
-> Short Click
Ignore Errors -> Long Click
Print ‘?’*
-> Short Click
Note: Press the Paper Feed Button for at least one second to validate the selection.
Receive Buffer Size Option
This function allows the user to set the buffer size to a single line or a 4 K buffer.
Press the Paper Feed Button for the option you want.
November 2002
59
7167 Owner’s Manual
Chapter 4: Diagnostics
** SET RECEIVE BUFFER SIZE ?
YES
-> Long Click
NO
-> Short Click
4K Buffer*
One Line
-> Long Click
-> Short Click
Note: Press the Paper Feed Button for at least one second to validate the selection.
Save Parameters
This function allows to save the selected communication settings or return to the
communication settings to select additional options.
Press the Paper Feed Button for the option you want.
Save new parameters ?
YES
-> Long Click
NO, MODIFY
-> Short Click
Diagnostic Modes
This function allows the user to put the printer into the following diagnostic modes:
OFF, Normal Mode: this is the normal operating mode of the printer.
Datascope Mode: the receipt printer prints incoming commands and data in hexadecimal format.
Slip test Mode: the slip printer prints two code pages.
Receipt Test Mode: the receipt printer prints two code pages.
MICR Test Mode: the receipt printer prints all characters recognized by the MICR.
Check Flip Test Mode: the check flip mechanism will flip an inserted check.
Print Head Gap Adjustment Mode: the slip printer prints several lines of rolling ascii even receipt
cover is open.
The diagnostic modes are enabled or disabled by using the Configuration Menu. See
“Configuration the Printer,” for instructions on how to enter the Configuration Menu.
Press the Paper Feed Button for the diagnostic mode you want.
** SET DIAGNOSTICS MODE ?
YES
-> Long Click
NO
-> Short Click
OFF, Normal Mode*
-> 1 Click
Data Scope Mode
-> 2 Clicks
Slip Test Mode
-> 3 Clicks
Receipt Test Mode
-> 4 Clicks
More Options
-> 7 Clicks
Enter code, then hold Button DOWN
At least 1 second to validate
November 2002
60
7167 Owner’s Manual
Chapter 4: Diagnostics
MICR Test mode
-> 1 Click
Check Flip Test mode -> 2 Clicks
Print Head Test Mode -> 3 Clicks
Enter code, then hold Button DOWN
At least 1 second to validate
Datascope Mode
Datascope Mode allows the user to test the printer’s communications. When in Datascope
Mode the printer receives all communications, but instead of executing the commands it
prints them out on receipt paper as hexadecimal numbers in the order received. For
example, the ASCII character “A” is printed as the hexadecimal number 41 an so on.
To run the Datascope Mode:
1. Enter the Configuration Menu. See “Configuring the Printer” for instruction on how to
enter the Configuration Menu.
2. After you have enabled the Datascope Mode through the Configuration Menu, exit the
Configuration Menu.
3. Run a transaction from the host computer.
All commands and data sent from the host computer will be printed as hexadecimal
numbers as shown in the illustration.
30 31 32 33 34 35 36 37 38 39 40 41
41 42 43 44 45 46 47 48 49 50 51 52
:
:
0 1 2 3 4 5 6 7 8 9 @ A
A B C D E F G H I J K L
To exit the Datascope Mode:
1. Enter the Configuration Menu again
2. Disable the Datascope Mode
3. Exit the Configuration Menu
The printer is in Normal Mode and can communicate with the host computer.
Slip Test Mode
To run the Slip Test Mode:
1. Enable the Slip Test Mode through the Configuration Menu, (See “Configuring the
Printer,” for instructions on how to enter Configuration Menu). Then exit the
Configuration Menu.
2. Insert a slip into the slip station.
3. Push the Paper Feed Button
4. All code pages will be printed.
5. Go to step 2 again to repeat this test.
To exit the Slip Test Mode:
1. Enter the Configuration Menu again.
2. Disable the Slip Test Mode.
November 2002
61
7167 Owner’s Manual
Chapter 4: Diagnostics
3. Exit the Configuration Menu.
The printer is in the Normal Mode and can communicate with the host computer.
Receipt Test Mode
To run the Receipt Test Mode:
1. Enable the Receipt Test Mode through the Configuration Menu. See “Configuring the
Printer,” for instructions on how to enter the Configuration Menu.
2. Push Paper Feed Button and the receipt station will print all code pages.
3. The test ends with a cut.
4. Go to step 2 again to repeat this test.
To exit the Receipt Test Mode:
1. Enter the Configuration Menu again.
2. Disable the Receipt Test Mode
3. Exit the Configuration Menu
The printer is in Normal Mode and can communicate with the host computer.
MICR Test Mode
MICR Test Mode allows the user to test whether the MICR is operating correctly. When
the printer is in this mode the MICR reads characters on a cheque as usual,but instead of
transmitting the values to the software it prints on receipt paper.
To run the MICR Test Mode:
1. Enter the Configuration Menu. See “Configuring the Printer,” for instructions on how
to enter the Configuration Menu.
2. After enabling the MICR Test Mode through the Configuration Menu, exit the
Configuration Menu.
3. Insert a check into the slip station. (See “Verifying and Validating Checks” section.)
4. The printer waits until a check is inserted and detected before the platen closes and
the characters are read by the MICR check reader. The decoded data is printed on
receipt paper, the platen is opened, and the test is re-started.
5. The printed numbers should match the numbers on the check. If the MICR check
reader misreads a character, the test prints question mark “?”. If the MICR check
reader is unable to read any characters, the test prints “NO MICR DATA TO
DECODE.”
*** GOOD READ ***
MICR Data:
5001234UT33456789T 123 67 5
To exit the MICR Test Mode:
1. Enter the Configuration Menu again.
2. Disable the MICR Test Mode.
3. Exit the Configuration Menu.
The printer is in the Normal Mode and can communicate with the host computer.
November 2002
62
7167 Owner’s Manual
Chapter 4: Diagnostics
Check Flip Test Mode
To run the Check Flip Test Mode:
1. Enable the Check Flip Test Mode through the Configuration Menu (See “Configuring
the Printer,” for instruction on how to enter the Configuration Menu), then exit the
Configuration Menu.
2. Insert a check as if validating the check, lengthwise and face down into the slip
station. (See “Verifying and Validating Checks” section to insert check.)
A check must be used – if any other slip or form is inserted the printer will not
conduct.
LED
Extended Slip
Table
Guide
3.
Push Paper Feed Button.
4.
The check then goes through the flip routine only – no printing takes place.
To exit the Check Flip Test Model:
1. Enter the Configuration Menu again.
2. Disable the Check Flip Test Mode.
3. Exit the Configuration Menu
The printer is in Normal Mode and can communicate with the host computer.
Print Head Gap Adjustment Mode
Print Head Gap Adjustment Test Mode prints several lines of ‘H’ character. This is the slip
print testing during the print head gap adjustment. During adjustment, some covers will
be removed from the printer, even in this condition, slip printing need to be run when
paper is inserted. Print Head Gap Adjustment Test Mode is enabled and disabled using
the Configuration Menu.
To run the Print Head Gap Adjustment Test Mode:
1. Enable the Print Head Gap Test Mode through the Configuration Menu, (“See
Configuring the Printer,” for instructions on how to enter the Configuration Menu.
2. Insert a slip into the slip station.
November 2002
63
7167 Owner’s Manual
Chapter 4: Diagnostics
3. Push Paper Feed Button.
4. Several lines of Rolling ASCII character will be printed.
Note: Printing will take place even when receipt cover is open.
5. Go to step 2 again to repeat this test.
To exit the Print Head Gap Adjustment Test Mode:
1. Enter the Configuration Menu again.
2. Disable the Print Head Gap Adjustment Test Mode.
3. Exit the Configuration Menu.
The printer is in Normal Mode and can communicate with the host computer.
Save Parameters
This function allows to save the selected diagnostics modes or return to the diagnostics
mode to select additional options.
Press the Paper Feed Button for the option you want.
Save new parameters ?
YES
-> Long Click
NO, MODIFY
-> Short Click
Emulation/Software Options
Printer Emulations
Printer emulations determine the commands that are available to the printer. They are set
by using the Configuration Menu. (See “Configuring the Printer,” for instructions on how
to enter the Configuration Menu.). The available options are:
7158 Native Mode
7156 Mode
7150 Mode
7167 Mode
Press the Paper Feed Button for the emulation you want.
** SET EMULATION ?
YES
-> Long Click
NO
-> Short Click
7158 Mode*
7156 Mode
7150 Mode
7167 Native Mode
-> 1 Click
-> 2 Clicks
-> 3 Clicks
-> 4 Clicks
Enter code, then hold Button DOWN
At least 1 second to validate
Note: Press the Paper Feed Button for at least one second to validate the selection.
November 2002
64
7167 Owner’s Manual
Chapter 4: Diagnostics
Printer ID Selections
Printer ID Selections determines the print ID that is returned from the printer. This is set
by using the Configuration Menu. (See “Configuring the Printer,” for instructions on how
to enter the Configuration Menu.). The available options are:
7158 Native ID
Emulated Print ID
7167 Native ID
Press the Paper Feed Button for the emulation you want.
** SET PRINTER ID MODE ?
YES
-> Long Click
NO
-> Short Click
7158 Mode ID*
-> 1 Click
Emulated Printer ID
-> 2 Clicks
7167 Native ID
-> 3 Clicks
Enter code, then hold Button DOWN
At least 1 second to validate
Note: Press the Paper Feed Button for at least one second to validate the selection
Default Lines Per Inch
This function allows the user to set the default lines per inch printed by the thermal
printer to 6, 7.52 or 8.13. (See “Configuring the Printer” for instructions on how to enter
the Configuration Menu to change this setting.)
Press the Paper Feed Button for the lines per inch you want.
** SET DEFAULT LINES PER INCH ?
YES
-> Long Click
NO
-> Short Click
8.13 Lines per Inch
-> 1 Click
7.52 Lines per Inch*
-> 2 Clicks
6 Lines per Inch
-> 3 Clicks
Enter code, then hold Button DOWN
At least 1 second to validate
Note: Press the Paper Feed Button for at least one second to validate the selection.
Carriage Return Usage
This function allows the printer to ignore or use the Carriage Return (hexadecimal 0D)
command depending on the application. Some applicatons expect the command to be
ignored while others use the command as a print command. (See “Configuring the
Printer” for instructions on how to enter the Configuration Menu to change this setting.)
Press the Paper Feed Button for the carriage return usage you want.
November 2002
65
7167 Owner’s Manual
Chapter 4: Diagnostics
** SET CARRIAGE RETURN USAGE ?
YES
-> Long Click
NO
-> Short Click
Ignore CR
Use CR as Print Cmd*
-> Long Click
-> Short Click
Note: Press the Paper Feed Button for at least one second to validate the selection.
Asian Mode
This function makes it possible for the user to select an Asian character for the printer. (See
“Configuring the Printer” for instructions on how to enter the Configuration Menu to
change this setting.)
Note: For Asian code pages, only one (either 932, 936, 949 or 950)will exist in the
firmware.
Press the Paper Feed Button for the Asian mode you want.
** SET ASIAN MODE ?
YES
-> Long Click
NO
-> Short Click
Asian Mode On
Asian Mode Off*
-> Long Click
-> Short Click
Note: Press the Paper Feed Button for at least one second to validate the selection.
Slip Printing Width
This function allows for the 7197 printer to be set in a mode that allows for the printer to
drop the left 21 columns of data. For example if the printer was connected to an
application that was sending data for a 7158 printer which supports 66 columns of print
the 7167 printer could replace the 7158 without application changes.
Press the Paper Feed Button for the slip printing width option you want.
** SET SLIP PRINTING WIDTH ?
YES
-> Long Click
NO
-> Short Click
7167 MODE*
-> Long Click
7158/7156 MODE -> Short Click
Note: Press the Paper Feed Button for at least one second to validate the selection.
Receipt Synchronization Mode
The standard mode for synchronization allows for verification of each line printed to the
host. When the receipt synchronization is disabled the printer will allow for maximum
print speed and ignore the verificaiton of each line printed.
November 2002
66
7167 Owner’s Manual
Chapter 4: Diagnostics
Press the Paper Feed Button for the receipt synchronization mode option you want.
** SET RECEIPT SYNCHRONIZATON MODE ?
YES
-> Long Click
NO
-> Short Click
Enable Receipt Sync.*
-> Long Click
Disable Receipt Sync.
->Short Click
Note: Press the Paper Feed Button for at least one second to validate the selection.
Save Parameters
This function allows to save the selected emulations/software settings or return to the
emulations/software settings to select additional options.
Press the Paper Feed Button for the option you want.
Save new parameters ?
YES
-> Long Click
NO, MODIFY
-> Short Click
Hardware Options
Print Density
This function makes it possible to adjust the energy level of the print head to darken the
printout. An adjustment should only be made when necessary. The factory setting is 100%.
Warning: Choose an energy level no higher than necessary to achieve a dark printout.
Failure to observe this rule may result in a printer service call or voiding of the printer
warranty. Consult your NCR technical support specialist if you have any questions.
Press the Paper Feed Button for the print density you want.
** SET PRINT DENSITY ?
YES
-> Long Click
NO
-> Short Click
100 %*
-> 1 Click
110 %
-> 2 Clicks
120 %
-> 3 Clicks
Enter code, then hold Button DOWN
At least 1 second to validate
Note: Press the Paper Feed Button for at least one second to validate the selection.
Maximum Power Option
This function allows the user to set the maximum power for the printer to 75W or 55W.
Press the Paper Feed Button for the option you want.
November 2002
67
7167 Owner’s Manual
Chapter 4: Diagnostics
** SET MAX POWER OPTION ?
YES
-> Long Click
NO
-> Short Click
55W Power Supply*
75W Power Supply
-> Long Click
-> Short Click
Note: Press the Paper Feed Button for at least one second to validate the selection.
Paper Low Sensor
Paper Low Sensor makes it possible to enable or disable the paper low sensor for
particular printer configurations.
Press the Paper Feed Button for the option you want.
** SET PAPER LOW SENSOR OPTION ?
YES
-> Long Click
NO
-> Short Click
Enable Paper Low Sensor*
Disable Paper Low Sensor
-> Long Click
-> Short Clicks
Note: Press the Paper Feed Button for at least one second to validate the selection.
Paper Width
This function allows the user to set the default paper width for the receipt thermal printer
to 58mm or 80mm wide.
Press the Paper Feed Button for the paper width option you want.
** SET PAPER WIDTH ?
YES
-> Long Click
NO
-> Short Click
Paper Width = 80 mm*
-> 1 Click
Paper Width = 58 mm
-> 2 Clicks
Enter code, then hold Button DOWN
At least 1 second to validate
Note: Press the Paper Feed Button for at least one second to validate the selection.
Knife Option
This option makes it possible to set the Knife Option if it is installed in the printer. This
setting should only be changed is the option is added or removed.
November 2002
68
7167 Owner’s Manual
Chapter 4: Diagnostics
Press the Paper Feed Button for the option you want.
** SET KNIFE OPTION ?
YES
-> Long Click
NO
-> Short Click
Enable Knife*
Disable Knife
-> Long
-> Short
Note: Press the Paper Feed Button for at least one second to validate the selection.
MICR Option
This function makes it possible to set the MICR Option if it is installed in the printer. This
setting should only be changed if the option is added or removed.
Press the Paper Feed Button for the option you want.
** SET MICR OPTION ?
YES
-> Long Click
NO
-> Short Click
Enable MICR*
Disable MICR
-> Long
-> Short
Note: Press the Paper Feed Button for at least one second to validate the selection.
Check Flip Option
This function makes it possible to set the Check Flip Option if it is installed in the printer.
This setting should only be changed if the option is added or removed.
Press the Paper Feed Button for the option you want.
** SET CHECK FLIP OPTION ?
YES
-> Long Click
NO
-> Short Click
Enable Check Flip*
Disable Check Flip
-> Long
-> Short
Note: Press the Paper Feed Button for at least one second to validate the selection.
Color Paper Option
This function allows the user to set the color paper for the receipt thermal printer to one
color paper or two color paper.
Press the Paper Feed Button for the option you want.
** SET COLOR PAPER OPTION ?
November 2002
69
7167 Owner’s Manual
Chapter 4: Diagnostics
YES
NO
-> Long Click
-> Short Click
Monochrome*
Color Paper
-> Long Click
-> Short Click
Note: Press the Paper Feed Button for at least one second to validate the selection.
MICR Dual Pass Option
This function allows the user to set the dual pass MICR option.
Press the Paper Feed Button for the MICR dual pass option you want.
** SET MICR DUAL PASS OPTION ?
YES
-> Long Click
NO
-> Short Click
Enable Dual Pass
Disable Dual Pass*
-> Long Click
-> Short Click
Save Parameters
This function allows to save the selected hardware settings or return to the hardware
options to select additional options.
Press the Paper Feed Button for the option you want.
Save new parameters ?
YES
-> Long Click
NO, MODIFY
-> Short Click
Default Code Page
This function makes it possible to select the default code page.
These are the code pages available for printing:
Code page 437 (US English)
Code page 850 (Multilingual)
Code page 852 (Slavic)
Code page 858 (with Euo symbol)
Code page 860 (Portuguese)
Code page 862 (Hebrew)
Code page 863 (French Canadian)
Code page 864 (Arabic)
Code page 865 (Nordic)
Code page 866 (Cyrillic)
Code page 874 (Thai)
Code page 1252 (Windows Latin #1)
November 2002
70
7167 Owner’s Manual
Chapter 4: Diagnostics
Code page Katakana
Code page 932 (MS Japan)
Space page
Note: For Asian code pages, code page 936, 949, or 950 replaces code page 932. Only one
Asian code page (either 932, 936, 949, 950) will exist in firmware.
Press the Paper Feed Button for the Default Code Page you want.
** SET CODE PAGE ?
YES
-> Long Click
NO
-> Short Click
FOR 7158 Mode:
Code Page 437* -> 1 Click
Code Page 850 -> 2 Clicks
Code Page 852 -> 3 Clicks
Code Page 858 -> 4 Clicks
More Options
-> 5 Clicks
Enter code, then hold Button DOWN
At least 1 second to validate
Code Page 860 -> 1 Click
Code Page 862 -> 2 Clicks
Code Page 863 -> 3 Clicks
Code Page 864 -> 4 Clicks
More Options
-> 5 Clicks
Enter code, then hold Button DOWN
At least 1 second to validate
Code Page 865 -> 1 Click
Code Page 866 -> 2 Clicks
Code Page 874 -> 3 Clicks
Code Page 1252 -> 4 Clicks
More Options
-> 5 Clicks
Enter code, then hold Button DOWN
At least 1 second to validate
Code Page Katakana
-> 1 Click
Code Page 932
-> 2 Clicks
Enter code, then hold Button DOWN
At least 1 second to validate
FOR 7156 Mode:
Code Page 437* -> 1 Click
Code Page 850 -> 2 Clicks
Enter code, then hold Button DOWN
At least 1 second to validate
Note: Press the Paper Feed Button for at least one second to validate the selection.
For Asian code pages, code page 936, 949 or 950 replaces code page 932 in the above
shown menu. Only one Asian code page (Either 932, 936, 949 or 950) will exist in
firmware.
November 2002
71
7167 Owner’s Manual
Chapter 4: Diagnostics
Save Parameters
This function allows to save the selected default code page selecton or return to the default
code page selecton to select additional options.
Press the Paper Feed Button for the option you want.
Save new parameters ?
YES
-> Long Click
NO, MODIFY
-> Short Click
EEPROM to Default Settings
This selection resets the configuration to the Default Settings.
Caution: Be extremely careful changing any of the printer settings to avoid inadvertently
changing other settings that might affect the performance of the printer.
** RESET EEPROM TO DEFAULT VALUES ?
YES
-> Long Click
NO
-> Short Click
Note: Press the Paper Feed Button for at least one second to validate the selection.
Save Parameters
This function allows to save the selected default code page selecton or return to the default
code page selecton to select additional options.
Press the Paper Feed Button for the option you want.
Save new parameters ?
YES
-> Long Click
NO, MODIFY
-> Short Click
November 2002
72
7167 Owner’s Manual
Chapter 4: Diagnostics
Level 2 Diagnostics
Level 2 diagnostics run during normal printer operation. When the following conditions
occur, the printer automatically turns off the appropriate motor, disables printing to
prevent damage, and turns on the green LED (flashes the green LED if the receipt print
head is too hot or the voltages are out of range):
Paper out
Cover open
Knife unable to go back to home position
Print head too hot
Power supply voltage out of range
Slip or flip motor jam
See “Chapter 3: Solving Problems” for more information about other conditions that may
occur and how to correct them.
Status
LED Behaviour
Power Off
Off
Firmware Download
Very Fast Blink
Level 0 Diagnostics
No Blink
Receipt Paper Low
Slow Blink
Temperature Error
No Blink
Voltage Error
No Blink
Cover Open
Fast Blink
Receipt Paper Out
Fast Blink
Knife Jam
Fast Blink, then Slow Blink
Slip Cover Open
Fast Blink
Flip Cover Open
Fast Blink
Receipt Cover Open
Fast Blink
Slip Motor Jam
Fast Blink
Flip Motor Jam
Fast Blink
Slip Ribbon Carriage Error
Fast Blink
All other states
On
November 2002
73
7167 Owner’s Manual
Chapter 4: Diagnostics
Level 3 Diagnostics
Level 3 diagnostics keeps track of the following tallies and prints them on the receipt
during the receipt test. See “Sample Print Test” later in this chapter.
Serial number
Model number
CRC number
Number of receipt lines printed
Number of knife cuts
Number of slip lines
Number of slip characters
Number of MICR reads
Number of hours printer is on
Number of flash cycles
Maximum temperature reached
Number of cutter jams
Number of times the door is open
November 2002
74
7167 Owner’s Manual
Chapter 5: Communication
Chapter 5: Communication
Communication Overview
In order for a receipt to be printed, a program must be in place that translates the data
from the host computer into a language that the printer can understand. This program
must tell the printer exactly how to print each character. This chapter describes how to
create such a program or modify an existing one.
Interface
In order for the printer to communicate with the host, a communication link must be set
up. The 7167 supports the industry standard RS-232C communication interface. This
interface has a protocol associated with it that the host computer must understand and
adhere. The priner also supports USB communications.
Only when the interface parameters are matched and the proper protocol is used will the
host and the printer be able to communicate. See the section, “RS-232C Interface” on the
next page for a description of the protocol associated with the RS-232C interface.
Sending Commands
Once the communication link is established, commands can be sent to the printer. This
section describes how to send commands to the printer using DOS and BASIC. This
section does not take into account the necessary protocol, but is meant as a general
introduction to how the printer functions.
Using DOS to Send Commands
One way of getting commands to the printer is to send them directly from DOS. For
example, the command
COPY CON: COM1:
This sets the computer up such that the Hex code corresponding to any key that was
pressed would be sent to the RS-232C communication port COM1 when the COPY mode
is exited. If the printer is connected to COM1, then the data will go to the printer.
Exit the COPY mode by typing
CTRL Z
and then pressing the ENTER key. This directs the data from any print command to the
proper port, commands can be sent from any software program.
November 2002
72
7167 Owner’s Manual
Chapter 5: Communication
Using BASIC to Send Commands
In BASIC, printer commands are sent as a string of characters preceded by the LPRINT
command. For example,
LPRINT CHR$(&H0A)
sends the hexadecimal number 0A to the printer, which causes the printer to print the
contents of its print buffer. Previously sent commands tell the printer exactly how this
data should appear on the paper. For example,
LPRINT CHR$(&H12); "ABC"; CHR$(&H0A)
sends the Hex numbers 12 41 42 43 0A to the printer. This causes the printer to set itself to
double wide mode (12), load the print buffer with “ABC” (41 42 43), and finally, print
(0A). Again, the communication link that the BASIC program outputs to must be matched
to that of the printer.
RS-232C Interface
The RS-232C interface uses either XON/XOFF or DTR/DSR protocol. For XON/XOFF, a
particular character is sent back and forth between the host and the printer to regulate the
communication. For DTR/DSR, changes in the DTR/DSR signal coordinate the data flow.
The RS-232C version of the 7167 offers the standard options which are selectable in the
Diagnostic mode. See “Diagnostics: Communications Interface Settings” later in this book.
Print Speed and Timing
The fast speed of the printer requires the application to send data to the printer at least as
fast as it is printed. This application must also allow receipt lines to be buffered ahead at
the printer, so the printer can print each line immediately after the preceding line, without
stopping to wait for more data. Ideally, the application will send all the data for an entire
receipt without pausing between characters or lines transmitted.
If the application sends data at 9600 baud and pauses between lines for as little as 50
milliseconds, the printer will never be able to print at full speed. But, if the application
sends data at 19.2 K baud and does not pause between lines, the printer will be able to
print at its full speed of 1020 lines/minute.
The table shows that with a pause of 50 milliseconds after each line, the transmit time
equals or exceeds the print time, slowing down the printer, regardless of the baud rate.
Char./Line
Lines/Receipt
Transmit Time: (9600 Baud)
Transmit Time: (19.2 K Baud)
Print Time
20
20
44
44
20
40
20
40
1.4 Seconds
2.8 Seconds
1.88 Seconds
3.76 Seconds
1.2 Seconds
2.4 Seconds
1.44 Seconds
2.88 Seconds
1.2 Seconds
2.4 Seconds
1.2 Seconds
2.4 Seconds
The next table shows that with no delay between lines, the transmit time is much less than
the print time, allowing the printer to print at full speed.
Char./Line
Lines/Receipt
Transmit Time: (9600 Baud)
Transmit Time: (19.2 K Baud)
Print Time
20
20
44
44
20
40
20
40
0.4 Seconds
0.8 Seconds
0.88 Seconds
1.76 Seconds
0.2 Seconds
0.4 Seconds
0.44 Seconds
0.88 Seconds
1.2 Seconds
2.4 Seconds
1.2 Seconds
2.4 Seconds
November 2002
73
7167 Owner’s Manual
Chapter 5: Communication
XON/XOFF Protocol
The XON/XOFF characters coordinate the information transfer between the printer and
the host computer. The printer sends an XON character when it is ready to receive data
and it sends an XOFF character when it cannot accept any more data. The software on the
host computer must monitor the communication link as shown in the following flowchart
in order to send data at the appropriate times.
If XON/XOFF has been selected, the printer also toggles the DTR signal, as described in
the next section, but it does not look at the DSR signal to transmit data.
XON character = Hex 11.
XOFF character = Hex 13.
DTR/DSR Protocol
The DTR signal is used to control data transmission to the printer. It is driven low when
the printer is ready to recieve data and driven high when it cannot accept any more data.
Data is transmitted from the printer after it confirms that the DSR signal is low.
RS-232C Technical Specifications
This section describes the pin settings for the connectors and the RS-232C interface
parameters. The RS-232C parameters are selectable in the Diagnostic mode. See
“Diagnostics: Communications Interface Settings” in chapter 4 for the position of the DIP
switches. The RS-232C parameters must match those of the host.
November 2002
74
7167 Owner’s Manual
Chapter 5: Communication
Connectors
RS-232C Communication Connector Pin Assignments
The illustration shows the RS-232C communication connector and pin assignments. The
connector is a 9-pin male D-shell connector and is located in the hollow cavity under the
printer at the rear.
RS-232C 9-Pin to 9-Pin Cable Diagram
Note: This information is provided for testing and troubleshooting only.
7167
Printer
Host
November 2002
75
7167 Owner’s Manual
Chapter 5: Communication
USB Cable Connector
The following illustration is for the USB Type B communication connector and pin assignment.
2
3
1
4
Printer View End
Pin No
1
2
3
4
Signal
+5 V – USB
Data Data +
Ground
Power Cable Connector
The illustration shows the power cable connector and pin assignments. The power cable
connector is a 3-pin DIN plug and is located in the hollow cavity under the printer at the
rear.
November 2002
76
7167 Owner’s Manual
Chapter 5: Communication
Cash Drawer Connector and Pin Assignments
The following illustration shows the pin out designation for the cash drawer connectors.
The following table provides the pinout assignments for cash drawers one and two. The
cash drawer connectors are located at the rear of the printer.
Pin 1
Pin 6
Pin Number
Cash Drawer 1 Connector
1
Frame Ground
2
Drawer 1 Solenoid
3
Drawer 1 Status Switch
4
+24 Volts (to Solenoid +)
5
Drawer 2 Solenoid
6
Ground (Status Switch Return)
November 2002
77
7167 Owner’s Manual
Chapter 5: Communication
Switch Settings
The DIP switches are located on the PC board at the back of the printer as shown in the
illustration in “Level 1 Diagnostics” in chapter 4. The switches are used to put the printer
into various modes for printer configuration set up.
Use a paper clip or other pointed object to set the switches.
1.
Set the switches to the desired settings shown in the table.
2.
Reset the printer.
Caution: Setting switch 1 to On puts the printer in level 1 diagnostics (setup mode) where
other functions and tests can be changed.
DIP Switch Settings for RS-232C Parameters
Switch 1
Setting
Switch 2 Setting
Printer State
OFF (0)
OFF (0)
On-line Mode (default)
ON(1)
OFF (0)
Diagnostic Mode
OFF (0)
ON (1)
Flash Download Mode
ON (1)
ON (1)
Vendor Adjustment Mode
Setting Extra RS-232C Options
The following extra options are available for the RS-232C Interface:
Data errors
•
•
Print “?” for data errors (default)
Ignore data errors
November 2002
78
7167 Owner’s Manual
Chapter 6: Commands
Chapter 6: Commands
Introduction
The different features and functions provided by the printer are controlled by
sending commands from the host computer to the printer. This section describes the
commands that are supported by the printer. The printer commands are made up of
one or more bytes of data starting with a command control code followed by its
supporting parameters.
Commands control all operations and functions of the printer. This includes
selecting the size and placement of characters and graphics on the receipt or the slip
and feeding and cutting the paper. Unless otherwise noted, any of the commands
may be used in any combination to communicate with the printer from a program in
a host computer.
In order to allow the graceful handling of commands that may be available in other
printers but are not available in this printer, some commands will be listed and
described but identified as "not implemented." If the printer receives one of these
"not implemented" commands, the command and its supporting operands will be
discarded. Any other data bytes, including unrecognized commands, are sent to the
print buffer as data, and the printer will attempt to print the data when it is
instructed to print the buffer.
List of Commands and Location
This section presents groups of lists of the hexadecimal command codes,
parameters, and the command names. A page reference is provided for the page
on which the command is more fully described. If this document is being viewed
online, the page reference will be linked to the actual page and may clicked to go
to that page.
The first section lists all of the commands. The following lists are separated into
functional category groupings.
All commands listed in bold are new or have additional functionality when
compared to the NCR 7156.
November 2002
73
7167 Owner’s Manual
Chapter 6: Commands
By Command Code
All items in BOLD are new or have additional functionality when compared to the 7156.
74
Hexadecimal Command
Code and Operands
Command Name
09
Horizontal Tab
114
0A
Print and Feed Paper One Line
105
0C
Print and Return to Standard Mode
181
0C
Print and Eject Slip
105
0D
Print and Carriage Return
106
10
Clear Printer
90
10 04 n
Real Time Status Transmission (DLE Sequence)
165
10 05 n
Real Time Request to Printer (GS Sequence)
168
11
Close Form
91
12
Select Double-Wide Characters
122
13
Select Single-Wide Characters
122
14 n
Feed n Print Lines
106
15 n
Feed n Dot Rows
107
16 n
Add n Extra Dot Rows
107
17
Print
108
18
Open Form
91
18
Cancel Print Data in Page Mode
182
19
Perform Full Knife Cut
92
1A
Perform Partial Knife Cut
92
1B (+ *.bmp)
Download BMP Logo
142
1B 07
Generate Tone
93
1B 0C
Print Data in Page Mode
182
1B 12
Select 90 Degree Counter-Clockwise Rotated
Print
123
1B 14 n
Set Column
114
1B 16 n
Select Pitch (Column Width)
123
1B 20 n
Set Character Right-Side Spacing
124
1B 21 n
Select Print Modes
126
1B 24 n1 n2
Set Absolute Starting Position
115
1B 25 n
Select or Cancel User-Defined Character Set
127
Page
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Hexadecimal Command
Code and Operands
Command Name
1B 26 3 c1 c2…dn
Define User-Defined Characters
128
1B 27 m a0 a1 a2
d1 … dm
Write to User Data Storage
200
1B 2A m n1 n2
Select Bit Image Mode
143
1B 2D n
Select or Cancel Underline Mode
130
1B 32
Set Line Spacing to 1/6 Inch
109
1B 33 n
Set Line Spacing
109
1B 34 m a0 a1 a2
Read from User Data Storage
201
1B 3A 30 30 30
Copy Character Set from ROM to RAM
130
1B 3C
Return Home
93
1B 3D n
Select Peripheral Device (For Multi-Drop)
93
1B 3F n
Cancel User-defined Characters
131
1B 40
Initialize Printer
94
1B 43 n
Set Slip Paper Eject Length
94
1B 44 [n] k 00
Set Horizontal Tabs
116
1B 45 n
Select or Cancel Emphasized Mode
131
1B 47
Select Double Strike (7156 Emulation)
132
1B 48
Cancel Double Strike
133
1B 49 n
Set or Cancel Italic Print
133
1B 4A n
Print and Feed Paper
110
1B 4B n
Print and Reverse Feed Paper
110
1B 4C
Select Page Mode
183
1B 4C n1 n2 d1…dn
Select Double Density Graphics
(7156 Emulation)
146
1B 52 n
Select International Character Set
134
1B 53
Select Standard Mode
184
1B 54 n
Select Print Direction in Page Mode
185
1B 55 n
Select or Cancel Unidirectional Printing Mode
135
1B 56 n
Select or Cancel 90 Degrees Clockwise Rotated
135
1B 57 n1, n2,…n8
Set Printing Area in Page Mode
186
1B 59 n1 n2 d1…dn
Select Double Density Graphics
146
1B 5B 7D
Switch to Flash Download Mode
213
1B 5C n1 n2
Set Relative Print Position
117
1B 61 n
Select Justification
118
1B 63 30 n
Select Receipt or Slip for Printing; Slip for
MICR Read
94
1B 63 31 n
Select Receipt or Slip for Setting Line Spacing
96
Page
d1 … dn
November 2002
75
7167 Owner’s Manual
76
Chapter 6: Commands
Hexadecimal Command
Code and Operands
Command Name
1B 63 34 n
Select Sensors to Stop Printing
97
1B 63 35 n
Enable or Disable Panel Buttons
98
1B 64 n
1B 63 37 n
Print and Feed n Lines
Enable or Disable Slip Paper End Feeding Stop
111
99
1B 65 n
Print and Reverse Feed n Lines
111
1B 66 m n
Set Slip Paper Waiting Time
100
1B 69
Perform Full Knife Cut
92
1B 6A k
Read from Non-Volatile Memory
202
1B 6D
Perform Partial Cut
92
1B 70 n p1 p2
Generate Pulse to Open Cash Drawer
101
1B 72 n
Select Print Color
136
1B 73 n1 n2 k
Write to Non-Volatile Memory (NVRAM)
202
1B 74 n
Select International Character Set
134
1B 75 0
Transmit Peripheral Device Status
152
1B 76
Transmit Printer Status
152
1B 77 01
Read MICR Data and Transmit
191
1B 77 46
Check Flip
200
1B 77 50
Define Parsing Format, Save in NVRAM
192
1B 77 52
Reread MICR Data
191
1B 77 70
Define Parsing Format, Do Not Save
Permanently
192
1B 7A n
Select or Cancel Parallel Printing Mode on R&J
102
1B 7B n
Select or Cancel Upside Down Printing Mode
136
1C
Select Slip Station
102
1C 21 n
Select print modes for Kanji characters
209
1C 2D n
Turn underline mode ON/OFF for Kanji
210
1C 32 c1 c2 d1…dn
Define user-defined Kanji characters
210
1C 53 n1 n2
Set Kanji character spacing
211
1F 56 n
Send Printer Software Version
161
1c 57 n
Set quadruple mode ON/OFF for Kanji
212
1D 00
Request Printer ID
213
1D 01
Return Segment Number Status of Flash
Memory
214
1D 02 n
Select Flash Memory Sector to Download
214
1D 03 n
Real Time Request to Printer (DLE Sequence)
168
1D 04 n
Real Time Status Transmission (GS Sequence)
165
Page
1D 05
Real Time Printer Status Transmission
170
1D 06
Get Firmware CRC
215
1D 07
Return Microprocessor CRC
215
1D 0E
Erase the Flash Memory
215
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Hexadecimal Command
Code and Operands
Command Name
1D 0F
Return Main Program Flash CRC
216
1D 10 n
Erase Selected Flash Sector
216
1D 11 al ah cl ch d1…dn
Download to Active Flash Sector
217
1D 14 n
Reverse Feed n Lines
112
1D 15 n
Reverse Feed n Dots
112
1D 21 n
Select Character Size
137
1D 22 n
Select Memory Type (SRAM/Flash) Where to
Save Logos or User-Defined Fonts
203
1D 22 55 n1 n2
Flash Allocation
204
1D 23 n
Select the Current Logo (Downloaded Bit
Image)
146
1D 24 nL nH
Set Absolute Vertical Print Position in Page
Mode
187
1D 2A n1 n2 d1…dn]
Define Downloaded Bit Image
147
1D 2F m
Print Downloaded Bit Image
149
1D 3A
Start or End Macro Definition
189
1D 40 n
Erase User Flash Sector
205
1D 42 n
Select or Cancel White/Black Reverse Print
Mode
138
1D 48 n
Select Printing Position for HRI Characters
175
1D 49 n
Transmit Printer ID
153
1D 49 40 n
Transmit Printer ID, Remote Diagnostics
Extension
155
1D 4C nL nH
Set Left Margin
119
1D 50 x y
Set Horizontal and Vertical Minimum Motion
Units
113
1D 56 m
Select Cut Mode and Cut Paper
102
1D 56 m n
Select Cut Mode and Cut Paper
102
1D 57 nL nH
Set Printing Area Width
120
1D 5C nL nH
Set Relative Vertical Print Position in Page
Mode
188
1D 5E r t m
Execute Macro
190
1D 61 n
Select or Cancel Automatic Status Back
171
1D 66 n
Select Pitch for HRI Characters
176
1D 68 n
Select Bar Code Height
176
1D 6B m d1…
Print Bar Code
177
1D 6B m n d1…dn
Print Bar Code
177
1D 72 n
Transmit Status
156
1D 77 n
Select Bar Code Width
180
1D FF
Reboot Printer
218
1E
Select Receipt Station
104
Page
November 2002
77
7167 Owner’s Manual
Chapter 6: Commands
Hexadecimal Command
Code and Operands
78
Page
Command Name
1F 04 n
Convert 6 Dots/mm Bitmap to 8 Dots/mm
Bitmap
150
1F 05 n
Select Superscript or Subscript Modes
139
IF 11 [m n],[m n]…[m
n] 0FFH
Printer Setting Change
206
1F 56
Send Printer Software Version
161
1F 74
Print Test Form
104
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Printer Function Commands
Hexadecimal Command
Code and Operands
Command Name
Page
10
Clear Printer
90
11
Close Form
91
18
Open Form
91
19
Perform Full Knife Cut
92
1A
Perform Partial Knife Cut
92
1B 07
Generate Tone
93
1B 3C
Return Home
93
1B 3D
Select Peripheral Device (for Multi-Drop)
93
1B 40
Initialize Printer
94
1B 43 n
Set Slip Paper Eject Length
94
1B 63 30 n
Select Receipt or Slip for Printing; Slip for MICR
Read
94
1B 63 31 n
Select Receipt or Slip for Setting Line Spacing
96
1B 63 34 n
Select Sensors to Stop Printing
97
1B 63 35 n
Enable or Disable Panel Buttons
98
1B 63 37 n
Enable or Disable Slip Paper End Feeding Stop
99
1B 66 m n
Set Slip Paper Waiting Time
100
1B 69
Perform Full Knife Cut
92
1B 6D
Perform Partial Knife Cut
92
1B 70 n p1 p2
Generate Pulse to Open Cash Drawer
101
1B 7A n
Select or Cancel Parallel Printing Mode on R&J
102
1C
Select Slip Station
102
1D 56 m
Select Cut Mode and Cut Paper
102
1D 56 m n
Select Cut Mode and Cut Paper
102
1E
Select Receipt Station
104
1F 74
Print Test Form
104
November 2002
79
7167 Owner’s Manual
Chapter 6: Commands
Vertical Positioning and Print
Hexadecimal Command
Code and Operands
Command Name
Page
0A
Print and Feed Paper One Line
105
0C
Print and Return to Standard Mode/Print and
Eject Slip
105
0D
Print and Carriage Return
106
14 n
Feed n Print Lines
106
15 n
Feed n Dot Rows
107
16 n
Add n Extra Dot Rows
107
17
Print
108
1B 32
Set Line Spacing to 1/6 Inch
109
1B 33 n
Set Line Spacing
109
1B 4A n
Print and Feed Paper
110
1B 4B n
Print and Reverse Feed Paper
111
1B 64 n
Print and Feed n Lines
112
1B 65 n
Print and Reverse Feed n Lines
111
1D 14 n
Reverse Feed n Lines
112
1D 15 n
Reverse Feed n Dots
112
1D 50 x y
Set Horizontal and Vertical Minimum Motion
Units
113
Hexadecimal Command
Code and Operands
Command
Page
09
Horizontal Tab
114
1B 14 n
Set Column
114
1B 24 n1 n2
Set Absolute Starting Position
115
1B 44 [n] k 00
Set Horizontal Tabs
116
1B 5C n1 n2
Set Relative Print Position
117
1B 61 n
Select Justification
118
1D 4C nL nH
Set Left Margin
119
1D 57 nL nH
Set Printing Area Width
120
Horizontal Positioning Commands
80
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Print Characteristic Commands
Hexadecimal Command
Code and Operands
Command
Page
12
Select Double-Wide Characters
122
13
Select Single-Wide Characters
122
1B 12
Select 90 Degree Counter-Clockwise Rotated Print
123
1B 16 n
Select Pitch (Column Width)
123
1B 20 n
Set Character Right-Side Spacing
124
1B 21 n
Select Print Modes
126
1B 25 n
Select or Cancel User-Defined Character Set
127
1B 26 s c1 c2 d1…dn
Define User-Defined Characters
128
1B 2D n
Select or Cancel Underline Mode
130
1B 3A 30 30 30
Copy Character Set from ROM to RAM
130
1B 3F n
Cancel User-Defined Characters
131
1B 45 n
Select or Cancel Emphasized Mode
131
1B 47
Select Double Strike (7156 Emulation Mode)
132
1B 47 n
Select Double Strike (7158/7167 Native Modes)
132
1B 48
Cancel Double Strike
133
1B 49 n
Select or Cancel Italic Print
133
1B 52 n
Select International Character Set
134
1B 55 n
Select or Cancel Unidirectional Printing Mode
135
1B 56 n
Select or Cancel 90 Degrees Clockwise Rotated
Print
135
1B 72 n
Select Print Color
136
1B 74 n
Select International Character Set
134
1B 7B n
Select or Cancel Upside Down Printing Mode
136
1D 21 n
Select Character Size
137
1D 42 n
Select or Cancel White/Black Reverse Print
Mode
138
1F 05 n
Select Superscript or Subscript Modes
139
November 2002
81
7167 Owner’s Manual
Chapter 6: Commands
Graphics Commands
Hexadecimal Command
Code and Operands
Command
Page
1B (+*.bmp)
Download BMP Logo
142
1B 2A m n1 n2 d1…dn
Select Bit Image Mode
143
1B 4C n1 n2 d1…dn
Select Double-Density Graphics (in 7156
Emulation Mode)
146
1B 59 n1 n2 d1…dn
Select Double-Density Graphics
146
1D 23 n
Select Current Logo (Downloaded Bit Image)
146
1D 2A n1 n2 d1…dn]
Define Downloaded Bit Image
147
1D 2F m
Print Downloaded Bit Image
149
1F 04 n
Convert 6 Dots/mm Bitmap to 8 Dots/mm
Bitmap
150
Hexadecimal Command
Code and Operands
Command
Page
1B 75 0
Transmit Peripheral Device Status
152
1B 76
Transmit Printer Status
152
1D 49 n
Transmit Printer ID
153
1D 49 40 n
Transmit Printer ID, Remote Diagnostics
Extension
155
1D 72 n
Transmit Status
156
1F 56 n
Send Printer Software Version
161
Status Commands
82
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Real Time Commands
Hexadecimal Command
Code and Operands
Command
Page
10 04 n
Real Time Status Transmission (DLE Sequence)
165
10 05 n
Real Time Request to Printer (GS Sequence)
168
1D 03 n
Real Time Request to Printer (DLE Sequence)
168
1D 04 n
Real Time Status Transmission (GS Sequence)
165
1D 05
Real Time Printer Status Transmission
170
Hexadecimal Command
Code and Operands
Command
Page
1D 61 n
Select or Cancel Auto Status Back
170
Hexadecimal Command
Code and Operands
Command
Page
1D 48 n
Select Printing Position for HRI Characters
175
1D 66 n
Select Pitch for HRI Characters
176
1D 68 n
Select Bar Code Height
176
1D 6B m d1…dk 00
Print Bar Code
177
Select Bar Code Width
180
Auto Status Back Commands
Bar Code Commands
or
1D 6B m n d1…dn
1D 77 n
November 2002
83
7167 Owner’s Manual
Chapter 6: Commands
Page Mode Commands
Hexadecimal Command
Code and Operands
Command
Page
0C
Print and Return to Standard Mode/Print and
Eject Slip
181
18
Cancel Print Data in Page Mode
182
1B 0C
Print Data in Page Mode
182
1B 4C
Select Page Mode
183
1B 53
Select Standard Mode
184
1B 54 n
Select Print Direction in Page Mode
185
1B 57 n1, n2…n8]
Set printing Area in Page Mode
186
1D 24 nL nH
Set Absolute Vertical Print Position in Page Mode
187
1D 5C nL nH
Set Relative Vertical Print Position in Page Mode
188
Hexadecimal Command
Code and Operands
Command
Page
1D 3A
Start or End Macro Definition
189
1D 5E r t m
Execute Macro
190
Hexadecimal Command
Code and Operands
Command
Page
1B 77 01
Read MICR Data and Transmit
191
1B 77 52
Reread MICR Data
191
Hexadecimal Command
Code and Operands
Command
Page
1B 77 50
Define Parsing Format, Save in NVRAM
192
1B 77 70
Define Parsing Format, Do Not Save Permanently
192
Macro Commands
MICR Check Reader Commands
MICR Reading
MICR Parsing
84
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Check Flip Command
Hexadecimal Command
Code and Operands
Command
Page
1B 77 46
Check Flip Command
200
Hexadecimal Command
Code and Operands
Command
Page
1B 27 m addr d1…dm
Write to User Data Storage
200
1B 34 m addr
Read from User Data Storage
201
1B 6A k
Read from Non-Volatile Memory
202
1B 73 n1 n2 k
Write to Non-Volatile Memory (NVRAM)
202
1D 22 n
Select Memory Type (SRAM/Flash) Where to
Save Logos or User-Defined Fonts
203
1D 22 55 n1 n2
Flash Allocation
204
1D 40 n
Erase User Flash Sector
205
IF 11 [m n],[m n]…[m
n] 0FFH
Printer Setting Change
206
User Data Storage Commands
Asian Character Commands
Hexadecimal Command
Code and Operands
Command
Page
1C 21 n
Select print modes for Kanji characters
209
1C 2D n
Turn underline mode ON/OFF for Kanji
210
1C 32 c1 c2
d1…dn
Define user-defined Kanji characters
210
1C 53 n1 n2
Set Kanji character spacing
211
1c 57 n
Set quadruple mode ON/OFF for Kanji
212
November 2002
85
7167 Owner’s Manual
Chapter 6: Commands
Flash Download Commands
86
Hexadecimal Command
Code and Operands
Command
Page
1B 5B 7D
Switch Flash Download Mode
213
1D 00
Request Printer ID
213
1D 01
Return Segment Number Status of Flash Memory
214
1D 02 n
Select Flash Memory Sector to Download
214
1D 06
Get Firmware
215
1D 07
Return Microprocessor CRC
215
1D 0E
Erase the Flash Memory
215
1D 0F
Return Main Program Flash CRC
215
1D 10 n
Erase Selected Flash Sector
216
1D 11 aL aH cL cH
d1…dn
Download to Active Flash Sector
217
1D FF
Reboot the Printer
218
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Comparison Chart
The following table details the list of commands whose behavior differs from the NCR
7156 because of the physical differences of a 6 dots/mm head (7156) versus an 8 dots/mm
head (7167). Where the 7156 made movements in n/152 inch increments, the 7167 makes
n/203 inch movements.
Command
Description
Difference between a 7156 and a
7167 configured in 7156 Emulation
Mode.
15 n
Feed n Dot Rows
This command will move
the paper on the receipt in
n/203 inch steps instead of
n/152 inch steps.
16 n
Add n Extra Dot Rows
The dot rows will be
measured in n/203 inches
versus n/152 inches.
1B 20 n
Set Right-Side Character
Spacing
This command sets the right
side spacing to “n”
horizontal motion units. By
default, these units are in
terms of 1/203 inches versus
1/152 inches.
1B 24 n1 n2
Set Absolute Starting Position
For graphics commands, the
position is scaled to best
match the previous product.
In text mode, the equivalent
character position is
calculated.
1B 26 s c1 c2 n1 d1...nn
dn]
Define User-Defined
Character Set
Since the dots on the new
print head are smaller, userdefined characters that were
used on the previous 7156
printer will appear smaller
on the 7156 printer.
1B 2A m n1 n2 d1...dn
Select Bit Image Mode
In 7156 Emulation Mode,
graphics are scaled to best
match the size of the graphic
in the 7156 printer.
1B 33 n
Set Line Spacing
This command uses n in
terms of n/360 inches. Since
the previous product had a
fundamental step of 1/180
inch and the new product
has a fundamental step of
1/203 inch, the actual line
spacing will not exactly
match the requested
spacing.
1B 4A n
Print and Feed Paper
(Same as above)
November 2002
87
7167 Owner’s Manual
Chapter 6: Commands
Command
Description
Difference between a 7156 and a
7167 configured in 7156 Emulation
Mode.
88
1B 59 n1 n2 d1...dn
Select Double-Density
Graphics
In 7156 Emulation Mode, the
printer scales the graphics to
provide the best match.
1B 5C n1 n2
Set Relative Print Position
The parameter to this
command is in units of dots.
However, the command
moves and aligns to
character positions. In 7156
Emulation Mode, this
command calculates how
many character positions to
move based on the 7156’s
character width in dots (10)
versus the 7167’s width (13).
1B 61 n
Select Justification
This command does true dot
resolution alignment for
centering versus characteraligned centering.
1D 2A n1 n2 d1...dn]
Define Downloaded Bit
Image
In 7156 Emulation Mode,
this command scales the
incoming data to provide a
best match to the size of the
image as it printed on the
7156 printer.
1D 2F m
Print Downloaded Bit Image
(Same as above)
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Command Descriptions
This section provides the detailed description of the commands. These commands
are separated into groups according to their function or use. The previous sections
can be used as an index for the following sections.
The following lists and describes the headings used to present the elements of the
commands in the descriptions in this section. Each command code is presented in
three formats: ASCII, hexadecimal, and decimal. Choose the format that best suits
the programming implementation. The printer interprets the 8-bit bytes it gets
through its communication interface; it does not care what format the program
lists them in.
Name: Name of Command
ASCII: The ASCII representation of the command control code
followed by its operands.
Hexadecimal: The hexadecimal representation of the command control code
followed by its operands.
Decimal: The decimal representation of the command control code
followed by its operands.
Operand n: A description of the command operand. Other command
operands may be m, p1, p2, x, or y.
Range of n: The upper and lower limits or list of possible values of the
command operand. The values are listed as decimal values
unless specified otherwise.
Default of n: The command operand default value after printer reset or
startup.
Description: A brief description of the use of the command.
Formulas: Any formulas used for this command.
Example: Coding example of how to send the command in Visual Basic.
This code assumes we are doing output to an opened and
ready device called "MSCOMM1." The examples use the
hexadecimal command code formats; the ASCII or decimal
formats could also be used in VB. In commands that use an
operand, a specific value is used, and the result of using the
selected value for the operand is described.
Exceptions: Describes any exceptions to this command, e.g., incompatible
commands.
November 2002
89
7167 Owner’s Manual
Chapter 6: Commands
Related Describes related information for this command, e.g., bit
Information: information.
Printer Function Commands
The printer function commands control the following basic printer functions and are
described in order of their hexadecimal codes:
1. Station Select
2. Platen Control
3. Resetting the printer
4. Cutting the paper
5. Opening the cash drawers
Clear Printer
ASCII:
DLE
Hexadecimal:
10
Decimal:
16
Clears the print line buffer without printing and sets the printer to the following
condition:
1. Receipt station is selected
2. Double-Wide command (0x12) is cancelled
3. Line Spacing, Pitch, and User-Defined Character Sets are maintained at current
selections (RAM is not affected)
4. Single-Wide, Single-High, Non-Rotated, and Left-Aligned characters are set
5. Printer is restarted and error status is cleared if a fault condition existed
6. Printing position is set to column one
7. Slip platen is opened
8. Slip print head is homed
9. Knife is homed
Example:
MSComm1.Output = Chr$(&H10)
Exceptions:
A DLE command followed by a hexadecimal 04 or 05 is interpreted as a “real time command”.
(See Real Time commands)
90
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Close Form
ASCII:
DC1
Hexadecimal:
11
Decimal:
17
Closes the feed roller and platen and retracts the forms arm stop to the forms stop
position. If the printer is reset or the Clear command (0x10) is received, the feed roller and
platen are opened.
This command executes if the platen is already closed. This command is processed
regardless of which station is selected.
Example:
MSComm1.Output = Chr$(&H11)
Open Form
ASCII:
CAN
Hexadecimal:
18
Decimal:
24
When the printer is in 7156 Emulation Mode or in non-Page Mode, this command opens
the feed roller and platen so that a form may be inserted (default position).
This command has the same code as the Cancel Print Data in Page Mode command, which
is only executed in Page Mode.
This command executes if the platen is already open. This command executes (opens the
feed roller and platen) regardless of which station is selected.
Example:
MSComm1.Output = Chr$(&H18)
November 2002
91
7167 Owner’s Manual
Chapter 6: Commands
Perform Partial Knife Cut
ASCII:
EM
or
ESC i
Hexadecimal:
19
or
1B 69
Decimal:
25
or
27 105
Cuts the receipt, leaving .20 inch (5 mm) of paper. This command is implemented the
same as Partial Knife Cut (1A, 1B 6D). There are two codes for this command. Both codes
perform the same function.
A Line Feed is executed first if the print buffer is not empty.
This command is executed (cuts the receipt) regardless of which station is selected.
Example:
MSComm1.Output = Chr$(&H19) or
MSComm1.Output = Chr$(&H1B) & Chr$(&H69)
Perform Partial Knife Cut
ASCII:
SUB
or
ESC m
Hexadecimal:
1A
or
1B 6D
Decimal:
26
or
27 109
Cuts the receipt, leaving .20 inch (5 mm) of paper. This command is implemented the
same as Full Knife Cut (19, 1B 69) which results in a partial knife cut. There are two codes
for this command and both perform the same function.
This command is processed regardless of which station is selected.
Example:
MSComm1.Output = Chr$(&H1A) or
MSComm1.Output = Chr$(&H1B) & Chr$(&H6D)
Exceptions:
A line Feed is executed first if the printer buffer is not empty.
This command is executed )cuts the receipt) regardless of which station is selected.
92
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Generate Tone
ASCII:
Hexadecimal:
Decimal:
ESC BEL
1B 07
27 7
Generates an audible tone. This allows the application to provide an audible tone to the
operator.
Example:
MSComm1.Output = Chr$(&H1B) & Chr$(&H07)
Return Home
ASCII:
ESC <
Hexadecimal:
1B 3C
Decimal:
27 60
Moves the impact print head (unless it is already in the home position) to the home
position.
This command is processed regardless of station, either receipt unit or slip unit.
Related Information:
The printer is able to detect carriage motor jams, eliminating the need to home the print
head after each slip transaction.
Example:
MSComm1.Output = Chr$(&H1B) & Chr$(&H3C)
November 2002
93
7167 Owner’s Manual
Chapter 6: Commands
Initialize Printer
ASCII:
ESC @
Hexadecimal:
1B 40
Decimal:
27 64
Default:
Receipt
Slip
Character Pitch:
15.6 CPI
13.9 CPI
Column Width:
44 characters (80mm)
32 characters (58mm)
45 characters
Extra Dot Rows:
2
3
Code Page 437
Code Page 437
Column One
Column One
Character Set:
Printing Position:
Clears the print line buffer and resets the printer to the default settings for the startup
configuration (refer to Default settings above.)
Single-Wide, Single-High, Non-Rotated, and Left-Aligned characters are set and Userdefined characters or logo graphics are cleared (Flash Memory is not affected). Tabs are
reset to default settings. Receipt selection state is selected.
Example:
MSComm1.Output = Chr$(&H1B) & Chr$(&H40)
Set Slip Paper Eject Length
ASCII:
ESC C n
Hexadecimal:
1B 43 n
Decimal:
27 67 n
Value of n :
0 to 255
Example:
MSComm1.Output = Chr$(&H1B) & Chr$(&H43) & Chr$(n)
Exception:
This command is ignored.
94
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Select Receipt or Slip for Printing; Slip for MICR Read
ASCII:
ESC c 0 n
Hexadecimal:
1B 63 30 n
Decimal:
27 99 48 n
Value of n :
0 Journal selected
1, 2, 3 Receipt selected
4 Slip selected
Default of n :
1
Selects the station for printing. When the slip station is selected, the printer waits (based
on the slip waiting time setting [ie: 1B 66 m n]) for the paper to be inserted. When the slip
station has already been selected and the selection is changed, the form feed roller is
opened.
If the station has already been selected and it is re-selected, no action takes place.
Example:
This statement selects the receipt for printing:
MSComm1.Output = Chr$(&H1B) & Chr$(&H63) & Chr$(&H30) & Chr$(&H01)
Exceptions:
Receiving the command discards unprinted data in the buffer, forcing a “beginning of
line” state.
When n is out of range this command and it’s supporting operands are discarded.
November 2002
95
7167 Owner’s Manual
Chapter 6: Commands
Select Receipt or Slip for Setting Line Spacing
ASCII:
ESC c 1 n
Hexadecimal:
1B 63 31 n
Decimal:
27 99 49 n
Value of n:
0 Journal selected
1, 2, 3 Select receipt
4 Select Slip
Default of n :
1
Selects which station receives the effects of the following commands:
1. Select Default Line Spacing (1B 32)
2. Set Line Spacing (1B 33)
3. Add n extra dot rows (16 n)
Example:
This statement selects the slip station for line spacing commands:
MSComm1.Output = Chr$(&H1B) & Chr$(&H63) & Chr$(&H31) & Chr$(&H04)
Exceptions:
This n is out of range this command it’s supporting operands are discaraded.
96
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Select Sensors to Stop Printing
ASCII:
ESC c 4 n
Hexadecimal:
1B 63 34 n
Decimal:
27 99 52 n
Value of n :
If this bit of n is 1
Function Performed
Bit 0, or bit 1
Stop Receipt on Receipt Low
Bit 4
Stop Slip if Trailing Edge Uncovered
Bit 5
Stop Slip if Leading Edge Uncovered
Default:
0
Determines which sensor causes the printer to stop printing on the respective station. The
command does not affect the paper out sensor on the receipt station, which will
automatically stop the printer when the paper is depleted.
Example:
This statement causes the receipt to stop on paper low and the slip to stop if the leading edge I
s uncovered (bits 0 and 5 equal to 1 yields hexadecimal 21 - binary 00100001):
MSComm1.Output = Chr$(&H1B) & Chr$(&H63) & Chr$(&H34) & Chr$(&H21)
All other bits are ignored.
November 2002
97
7167 Owner’s Manual
Chapter 6: Commands
Enable or Disable Panel Buttons
ASCII:
ESC c 5 n
Hexadecimal:
1B 63 35 n
Decimal:
27 99 53 n
Value of n :
0 = Enable
1 = Disable
Default:
0 (Enable)
Enables or disables the Paper Feed Button. If the last bit is 0, the Paper Feed Button is
enabled. If the last bit is 1, the Paper Feed Button is disabled so pressing the paper feed
button will result in no response.
Example:
MSComm1.Output = Chr$(&H1B) & Chr$(&H63) & Chr$(&H35) & Chr$(n)
Related Information:
Functions that require using the Paper Feed Button (except for the Execute Macro [1D 5E]
command) cannot be used when it is disabled with this command.
98
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Enable or Disable Slip Paper End Feeding Stop
ASCII:
ESC c 7 n
Hexadecimal:
1B 63 37 n
Decimal:
27 99 55 n
Value of n :
0 = Enable
1 = Disable
Default:
0 (Enable)
Enables or disables the the slip paper end feeding stop function. When this feature is
enabled the printer will print a line but will not perform a line feed when the slip paper
end is detected.
Example:
MSComm1.Output = Chr$(&H1B) & Chr$(&H63) & Chr$(&H37) & Chr$(n)
Related Information:
When either the trailing edge sensor or the leading edge sensor does not sense the paper
the printer recongnizes this as a paper end condition.
November 2002
99
7167 Owner’s Manual
Chapter 6: Commands
Set Slip Paper Waiting Time
ASCII:
ESC f m n
Hexadecimal:
1B 66 m n
Decimal:
27 102 m n
Value of m :
Minutes
Value of n :
Tenths of seconds
Sets the time (in m minutes) that the printer waits for a slip to be inserted into the slip
station. It also sets the time (n x 0.1 seconds) that the printer waits to close the platen and
start printing once the slip has been inserted. The printer reads that a slip is inserted when
the leading edge and trailing edge sensors are covered. The LED on the slip table is lit
(green) when both sensors are covered.
If a slip is not inserted in the time specified, the receipt station is selected for the next
function. If m = 0, the printer waits forever for a slip to be inserted. The times set by this
command are used only by the command, Select Receipt or Slip for Printing, Slip for MICR
Read (1B 63 30 n), with n set to 04.
Example:
MSComm1.Output = Chr$(&H1B) & Chr$(&H66) & Chr$(m) & Chr$(n)
100
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Generate Pulse to Open Cash Drawer
ASCII:
ESC p n p1 p2
Hexadecimal:
1B 70 n p1 p2
Decimal:
27 112 n p1 p2
Value of n :
0, 48 = Drawer 1
1, 49 = Drawer 2
Value of p1:
0 - 255
Value of p2:
0 - 255
Sends a pulse to open the cash drawer.
Formulas:
The value for either p1 or p2 is the hexadecimal number multiplied by 2 msec to equal the
total time.
1. On time = p1 x 2 msec
2. Off time = p2 x 2 msec
Example:
MSComm1.Output = Chr$(&H1B) & Chr$(&H70) & Chr$(n) & Chr$(n)
Related Information:
The off-time is the delay before the printer performs the next operation.
The recommend time for NCR cash drawers is 110 msec on time.
Refer to cash drawer specifications for required on and off times.
November 2002
101
7167 Owner’s Manual
Chapter 6: Commands
Select or Cancel Parallel Printing Mode on Receipt and Journal
ASCII:
ESC z n
Hexadecimal:
1B 7A n
Decimal:
27 122 n
Because there is no journal station on the printer this command is not implemented and is
ignored if received. The command and its supporting operands will be discaraded.
Select Slip Station
ASCII:
FS
Hexadecimal:
1C
Decimal:
28
Selects the Slip Station for all functions. The receipt station is the default setting after the
printer is initialized or the Clear Printer (0x10) command is received. The Hex command:
1B 63 30 n , where n = 4 will also select the slip station.
Example:
MSComm1.Output = Chr$(&H1C)
Exceptions:
This command is ignored if Asian mode is On by diagnostic setting.
Select Cut Mode and Cut Paper
102
ASCII:
GS V m
or
GS V m n
Hexadecimal:
1D 56 m
or
1D 56 m n
Decimal:
29 86 m
or
29 86 m n
Value of m:
Selects the mode as shown in the table
Value of n :
Determines cutting position only if m is 65 or 66.
November 2002
7167 Owner’s Manual
Chapter 6: Commands
m
Feed and Cut Mode
0, 48
Full cut (no extra feed). Partial cut on the 7158/7167.
1, 49
Partial cut (no extra feed).
65
Feeds paper to cutting position + (n times vertical motion unit),
and cuts the paper completely.
66
Feeds paper to cutting position + (n times vertical motion unit),
and performs a partial cut.
Range of m:
0, 48; 1, 49
65, 66 (when used with n)
Range of n:
0 - 255
Default of n:
0
Default of m:
0
Selects a mode for cutting paper and cuts the paper. There are two formats for this
command, one requiring one parameter m, the other requiring two parameters, m and n.
The format is indicated by the parameter m.
Formulas: n times the vertical motion unit is used to determine the cutting position to the
distance that the paper is fed.
Example:
MSComm1.Output = Chr$(&H1D) & Chr$(&H56) & Chr$(m) & Chr$(n)
Exceptions:
If m is out of the specified range, the command is ignored.
November 2002
103
7167 Owner’s Manual
Chapter 6: Commands
Select Receipt Station
ASCII:
RS
Hexadecimal:
1E
Decimal:
30
Selects the Receipt Station for all functions. The receipt station is the default setting after
the printer is initialized or the Clear Printer (0x10) command is received. The Hex
command: 1B 63 30 n , where n = 1, 2, 3 will also select the receipt station.
Example:
MSComm1.Output = Chr$(&H1E)
Print Test Form
ASCII:
Hexadecimal:
Decimal:
US t
1F 74
31 116
Prints the current printer configuration settings on the receipt.
Disabled in page mode.
Example:
MSComm1.Output = Chr$(&H1F) & Chr$(&H74)
104
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Vertical Positioning and Print Commands
The vertical positioning and print commands control the vertical print positions of
characters on the receipt and slip.
Print and Feed Paper One Line
ASCII:
LF
Hexadecimal:
0A
Decimal:
10
Prints one line from the buffer and feeds paper one line.
Example:
MSComm1.Output = Chr$(&H0A)
Related Information:
Carriage Return + Line Feed, prints and feeds only one line.
Print and Eject Slip
ASCII:
FF
Hexadecimal:
0C
Decimal:
12
Prints data from the buffer to the slip station and if the paper sensor is covered, reverses
the slip out the front of the printer far enough to be accessible to the operator. The impact
station opens the platen in all cases.
This command has the same code as the Print and Return to Standard Mode command,
which is executed only when the printer is in Page Mode. When the printer is not in Page
Mode this command executes the print and eject slip function.
Example:
MSComm1.Output = Chr$(&H0C)
Exceptions:
This command is ignored if the receipt station is the current station.
November 2002
105
7167 Owner’s Manual
Chapter 6: Commands
Print and Carriage Return
ASCII:
CR
Hexadecimal:
0D
Decimal:
13
Prints one line from the buffer and feeds paper one line. The printer can be set through the
configuration menu to ignore or use this command. Some applications expect the
command to be ignored while others use it as print command.
Example:
MSComm1.Output = Chr$(&H0D)
Related Information:
See Ignoring/Using the Carriage Return in Diagnostics for more information.
Carriage Return + Line Feed, prints and feeds only one line.
Feed n Print Lines
ASCII:
DC4 n
Hexadecimal:
14 n
Decimal:
20 n
Value of n:
Range of n :
The number of lines to feed at current line height
setting.
0 – 127 7156 Emulation Mode
0 – 255 7158 Native Mode or 7167 Native Mode
Feeds paper n lines at the current line height without printing.
Ignored on receipt if the current line is not empty.
Example:
MSComm1.Output = Chr$(&H14) & Chr$(n)
106
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Feed n Dot Rows
ASCII:
NAK n
Hexadecimal:
15 n
Decimal:
21 n
Value of n:
Range of n :
Receipt
Slip
n/203 inch
n/72 inch
0 – 127 7156 Emulation Mode
0 – 255 7158 Native Mode or 7167 Native Mode
Feeds paper n dot rows without printing. Receipt moves n rows if the print buffer is
empty.
Example:
MSComm1.Output = Chr$(&H15) & Chr$(n)
Add n Extra Dot Rows
ASCII:
SYN n
Hexadecimal:
16 n
Decimal:
22 n
Value of n:
Range of n:
Default:
Receipt
Slip
n/203 inch
n/72 inch
0 - 12
Receipt
Slip
3
3
Adds n extra dot rows to the character height to increase space between print lines or
decrease number of lines per inch.
Formulas:
The following table shows the relationship between the number of lines per inch and each
extra dot row(s) added for both the receipt and slip stations:
November 2002
107
7167 Owner’s Manual
Chapter 6: Commands
Receipt Station
Slip Station
Extra Rows
Lines Per
Inch
Dot Rows
Extra Rows
Lines Per
Inch
Dot Rows
0
8.47
24
0
10.29
7
1
8.13
25
1
9.00
8
2
7.81
26
2
8.00
9
3
7.52
27
3
7.20
10
4
7.25
28
4
6.55
11
5
7.00
29
5
6.00
12
6
6.77
30
6
5.54
13
7
6.55
31
7
5.14
14
8
6.35
32
8
4.80
15
9
6.16
33
9
4.50
16
10
5.98
34
10
4.24
17
11
5.81
35
11
4.00
18
12
5.64
36
12
3.79
19
Example:
MSComm1.Output = Chr$(&H16) & Chr$(n)
Print
ASCII:
ETB
Hexadecimal:
17
Decimal:
23
Prints one line from the buffer and feeds paper one line. Executes LF on receipt. Executes
LF on slip if previous character was not a CR.
Example:
MSComm1.Output = Chr$(&H17)
108
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Set Line Spacing to 1/6 Inch
ASCII:
ESC 2
Hexadecimal:
1B 32
Decimal:
27 50
Default:
0.13 Inch (3.33 mm)
Sets the default line spacing to 1/6 of an inch (4.25 mm).
Example:
MSComm1.Output = Chr$(&H1B) & Chr$(&H32)
Set Line Spacing
ASCII:
ESC 3 n
Hexadecimal:
1B 33 n
Decimal:
27 51 n
Value of n:
n/406 inches on receipt
n/144 inches in slip
Range of n:
0 – 255
Default:
Receipt
.13 inch (3.37 mm or 7.52 lines per inch, 3 extra
dot rows.).
Slip
14 inch (7.2 lines per inch, 3 extra dot rows.)
Sets the line spacing for the receipt and for the slip. For the receipt the spacing is set to
n/406 inches. For the slip, the line spacing is set to n/144 inches. The line spacing equals
the character height when n is too small.
If the Set Horizontal and Vertical Minimum Motion Units command (1D 50) is used to
change the horizontal and vertical minimum motion unit, the parameters of this command
(Set Line Spacing) will be interpreted accordingly.
Related Information:
For more information, see the description of the Set Horizontal and Vertical Minimum
Motion Units command in this document.
November 2002
109
7167 Owner’s Manual
Chapter 6: Commands
Print and Feed Paper
ASCII:
ESC J n
Hexadecimal:
1B 4A n
Decimal:
Value of n:
27 74 n
n/203 inches receipt
n/144 inches slip
Range of n:
0 - 255
Prints one line from the buffer and feeds the paper.
On the receipt station, the line height equals the character height when n is too small. This
does not apply to the slip station. Use n = 0 to print a line without feeding the paper. This
allows the printer to print on the last line of the slip (at .59 inches from the trailing edge)
and still retain the slip in the feed rollers for reverse feeding the paper back out of the slip
station.
Example:
MSComm1.Output = Chr$(&H1B) & Chr$(&H4A) & Chr$(n)
Related Information:
For more information, see the description of the Set Horizontal and Vertical Minimum
Motion Units command in this document.
Print and Reverse Feed Paper
ASCII:
ESC K n
Hexadecimal:
1B 4B n
Decimal:
27 75 n
Value of n:
Slip = n/144 of an inch
Range of n:
0 - 255
Prints one line from the buffer and reverse feeds the paper n/144 of an inch on the slip
station.
Example:
MSComm1.Output = Chr$(&H1B) & Chr$(&H4B) & Chr$(n)
Exceptions:
The receipt station cannot be reverse fed.
110
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Print and Feed n Lines
ASCII:
Hexadecimal:
Decimal:
ESC d n
1B 64 n
27 100 n
Value of n:
Number of lines to be printed and fed.
Range of n:
1 – 255
(0 is interpreted as 1 on the receipt station)
Prints one line from the buffer and feeds paper n lines at the current line height.
Example:
MSComm1.Output = Chr$(&H1B) & Chr$(&H64) & Chr$(n)
Print and Reverse Feed n Lines
ASCII:
ESC e n
Hexadecimal:
1B 65 n
Decimal:
27 101 n
Value of n:
The number of lines on the slip station to be reverse fed.
Range of n:
0 – 255
Prints one line from the buffer and reverse feeds the paper n lines on the slip station. The
receipt station cannot be reverse fed.
Example:
MSComm1.Output = Chr$(&H1B) & Chr$(&H65) & Chr$(n)
November 2002
111
7167 Owner’s Manual
Chapter 6: Commands
Reverse Feed n Lines
ASCII:
GS DC4 n
Hexadecimal:
1D 14 n
Decimal:
29 20 n
Range of n :
0 – 127 7156 Emulation Mode
0 – 255 7158 Native Mode or 7167 Native Mode
Reverses the paper feed in the slip station by n lines at the current spacing. The next
character feed command returns the paper feed back to the normal feed direction. This
command is ignored if slip is not the selected station. Current spacing is not a factor.
Example:
MSComm1.Output = Chr$(&H1D) & Chr$(&H14) & Chr$(n)
Reverse Feed n Dots
ASCII:
GS NAK n
Hexadecimal:
1D 15 n
Decimal:
29 21 n
Value of n:
Range of n :
n dots at 1/72 inch
0 – 127 7156 Emulation Mode
0 – 255 7158 Native Mode or 7167 Native Mode
Reverses the paper feed in the slip station by n dots at 1/72 inch (NCR 7150™ command).
This command is ignored if receipt station is selected.
Example:
MSComm1.Output = Chr$(&H1D) & Chr$(&H15) & Chr$(n)
112
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Set Horizontal and Vertical Minimum Motion Units
ASCII:
GS P x y
Hexadecimal:
1D 50 x y
Decimal:
29 80 x y
Value of x:
Horizontal
Value of y:
Vertical
Range of x:
0 - 255
Range of y:
0 - 255
Default: of x:
203
Default: of y:
203
Sets the horizontal and vertical motion units to 1/x inch and 1/y inch respectively.
When x or y is set to 0, the default setting for that motion unit is used.
The default horizontal motion is x = 203.
Example:
MSComm1.Output = Chr$(&H1D) & Chr$(&H50) & Chr$(x) & Chr$(y)
Exceptions:
This command is ignored if slip station is selected.
November 2002
113
7167 Owner’s Manual
Chapter 6: Commands
Horizontal Positioning Commands
The horizontal positioning commands control the horizontal print positions of characters
on the receipt and slip.
Horizontal Tab
ASCII:
Hexadecimal:
Decimal:
HT
09
9
Moves the print position to the next tab position set by the Set Horizontal Tab Positions
(1B 44 n1 n2 ... 00) command. The print position is reset to column one after each line.
Tab treats the left margin as column one, therefore changes to the left margin will move
the tab positions.
When there are no tabs defined to the right of the current position, or if the next tab is past
the right margin, line feed is executed (both slip and receipt.) HT has no effect in page
mode. Printer initialization sets 32 tabs at column 9, 17, 25, … (Every 8 characters)
Example:
MSComm1.Output = Chr$(&H09)
Set Column
ASCII:
ESC DC4 n
Hexadecimal:
1B 14 n
Decimal:
27 20 n
Value of n:
Receipt
Slip
1 - 44 (Standard,80 mm)
1 - 45 (Standard)
1 - 56 (Compressed,80 mm)
1 - 55 (Compressed)
1 - 32 (Standard,58mm)
1 - 42 (Compressed, 58mm)
Default of n:
114
1
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Prints the first character of the next print line in column n. It must be sent for each line not
printed at column one. The value of n is set to one after each line.
Example:
MSComm1.Output = Chr$(&H1B) & Chr$(&H14) & Chr$(n)
Exceptions:
The command cannot be used with Single- or Double-Density graphics.
Set Absolute Starting Position
ASCII: ESC $ n1 n2
Hexadecimal: 1B 24 n1 n2
Decimal: 27 36 n1 n2
Value of n: Number of dots to be moved from the beginning of the
line.
Value of n1: Remainder after dividing n by 256.
Value of n2: Integer after dividing n by 256.
The values for n1 and n2 are two bytes in low byte, high byte word orientation.
Sets the print starting position to the specified number of dots (up to the right margin)
from the beginning of the line. The print starting position is reset to the first column after
each line.
Formulas:
Determine the value of n by multiplying the column for the absolute starting position by
10 (slip, or receipt standard pitch) or 8 (receipt compressed pitch). The example shows
how to calculate column 29 (10 dots per column) as the absolute starting position.
28 x 10 = 280 dots (beginning of column 29)
280/256 = 1, remainder of 24
n1 = 24
n2 = 1
Example:
MSComm1.Output = Chr$(&H1B) & Chr$(&H24) & Chr$(n1) & Chr$(n2)
Related Information:
This command is also used in the graphics mode on the receipt. See Graphics Commands
in this chapter for more information.
If the Set Horizontal and Vertical Minimum Motion Units command (1D 50) is used to
change the horizontal and vertical minimum motion unit, the parameters of this command
(Set Absolute Print Position) will be interpreted accordingly. For more information, see the
description of the Set Horizontal and Vertical Minimum Motion Units command (1D 50)
in this document.
November 2002
115
7167 Owner’s Manual
Chapter 6: Commands
Set Horizontal Tabs
ASCII:
Hexadecimal:
Decimal:
Value of n:
ESC D [n] k NUL
1B 44 [n] k 00
27 68 [n] k 0
Column for tab minus one.
n is always less than or equal to the current selected column
width.
Value of k:
Default:
0 - 32
Every 8 characters from column. 1 (9, 17, 25, etc.) for normal
print.
Sets up to 32 horizontal tab positions n columns from column one, but does not move the
print position. See the Horizontal Tab (09) command.
The tab positions remain unchanged if the character widths are changed after the tabs are
set. This command ends with hexadecimal 00; hexadecimal 1B 44 00 clears all tabs. Tabs
assumed to be in strictly ascending order. A tab out of order terminates the command
string as if it were 00, and remaining tab values are taken as normal data.
Formulas:
Set the tab positions in ascending order and put Hex 00 at the end.
Hex 1B 44 00 (number of tabs not specified) clears all tab positions.
Example:
MSComm1.Output = Chr$(&H1B) & Chr$(&H44) & Chr$(&H00)
Exceptions:
The tabs cannot be set higher than the column width of the current pitch.
116
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Set Relative Print Position
ASCII:
ESC \ n1 n2
Hexadecimal:
1B 5C n1 n2
Decimal:
27 92 n1 n2
Value of n:
To Move the Relative Starting Position Right of the Current Position by n dots:
n1 =
Remainder after dividing n by 256.
n2 =
Integer after dividing n by 256.
The values for n1 and n2 are two bytes in low byte, high byte word orientation.
To Move the Relative Starting Position Left of the Current Position by n dots:
n1 =
Remainder after dividing (65,536-n) by 256
n2 =
Integer after dividing (65,536-n) by 256
The values for n1 and n2 are two bytes in low byte, high byte word orientation.
Moves the print starting position the specified number of dots either right (up to the right
margin) or left (up to the left margin) of the current position. The print starting position is
reset to the first column after each line.
Formulas:
To move to the left:
Determine the value of n by multiplying the number of columns to move left of the current
position by 13 (receipt standard pitch) or 10 (slip or receipt compressed pitch). The
example shows how to set the relative position two columns in standard pitch (10 dots per
column) to the left of the current position.
2 x 10 = 20 dots (two columns to be moved left of the current position)
65,536-20 = 65516
65,516/256 = 255, remainder of 236
n1 = 236 n2 = 255
To move to the right:
Determine the value of n by multiplying the number of columns to move right of the
current position by 10 (slip or receipt standard pitch) or 8 (receipt compressed pitch). The
example shows how to set the relative position two columns in standard pitch (10 dots per
column) to the right of the current position.
2 x 10 = 20 dots (two columns to be moved right of the current position)
20/256 = 0, remainder of 20
n1 = 20
n2 = 0
Example:
MSComm1.Output = Chr$(&H1B) & Chr$(&H5C) & Chr$(n1) & Chr$(n2)
Related Information:
November 2002
117
7167 Owner’s Manual
Chapter 6: Commands
If the Set Horizontal and Vertical Minimum Motion Units command (1D 50) is used to
change the horizontal and vertical minimum motion unit, the parameters of this command
(Set Relative Print Position) will be interpreted accordingly. For more information, see the
description of the Set Horizontal and Vertical Minimum Motion Units command (1D 50)
in this document.
Compatibility Information (7167 receipt vs. 7156 receipt)
There is a difference in the normal behavior of this command in 7158 Native Mode/7167
Native Mode as compared to the original 7156. The difference exists when the command is
used to move to the left. The 7156 processes the whole print string prior to putting it in the
buffer for the print head. This method of processing allows the 7156 to backup in the print
string and replace characters and their associated attributes when a “Set Relative Print
Position” command instructs the printer to move the print position to the left.
In order to improve the speed of printing, the 7167 moves the data into a buffer for the
print head when it receives it. When the “Set Relative Print Position” command contains a
move to the left, this causes the new data to overstrike the previous data. This behavior
can be used to an application’s advantage to provide the ability to create compound
characters on the receipt station.
Select Justification
ASCII:
ESC a n
Hexadecimal:
1B 61 n
Decimal:
27 97 n
Value of n:
0, 48 = Left Aligned
1, 49 = Center Aligned
2, 50 = Right Aligned
Range of n:
Default:
0 – 2, 48-50
0 (Left aligned)
Specifies the alignment of the characters, graphics, logos, and bar codes on the receipt
station.
Example:
MSComm1.Output = Chr$(&H1B) & Chr$(&H61) & Chr$(n)
Exceptions:
The command is valid only when input at the beginning of a line.
118
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Set Left Margin
ASCII:
Hexadecimal:
Decimal:
GS L nL nH
1D 4C nL nH
29 76 nL nH
Range of nL:
0 - 255
Range of nH:
0 - 255
Default:
80 mm width
576 dots (the maximum printable area)
58 mm width
424 dots (the maximum printable area)
Sets the left margin of the printing area. The left margin is set to (((nH X 256) + nL) times
horizontal motion unit) inches. The horizontal motion units are set by the Set Horizontal
and Vertical Minimum Motion Units command (1D 50), described in this manual.
The width of the printing area is set by the Set Printing Area Width command (1D 57),
which follows this command. See the Set Printing Area Width command (1D 57) in this
document for a description of that command.
If the setting exceeds the printable area, the maximum value of the printable area is used.
The maximum printable area is 576 dots. See the illustration.
Formulas:
To set the left margin to one inch at the default horizontal motion unit of 1/203 inches,
send the four-byte string:
GS
L
203
0
Or, to set the left margin to two inches at the default horizontal motion unit of 1/203 units
per inch, send the four-byte string:
GS
L
150
1
Where 2 inches = 406/203, and 406 = (1 X 256) + 150.
←- Printable area: 576 dots for 80 mm width, 424 dots for 58 mm width
→
←Left margin→
←Printing area width→
Example:
MSComm1.Output = Chr$(&H1D) & Chr$(&H4C) & Chr$(nL) & Chr$(nH)
Exceptions:
The command is effective only at the beginning of a line.
November 2002
119
7167 Owner’s Manual
Chapter 6: Commands
This command is ignored if the line buffer is not empty, and only effects the Receipt
interface.
Set Printing Area Width
ASCII:
GS W nL nH
Hexadecimal:
1D 57 nL nH
Decimal:
29 87 nL nH
Range of nL:
0 – 255
Range of nH:
0 - 255
Default:
80 mm width
576 dots (the maximum printable area)
58 mm width
424 dots (the maximum printable area)
Sets the width of the printing area. If the setting exceeds the printable area, the maximum
value of the printable area is used.
The width of the printing area is set to (((nH X 256) + nL) times horizontal motion unit)
inches. The horizontal motion units are set by the Set Horizontal and Vertical Minimum
Motion Units command (1D 50).
The width of the printing area follows the Set Left Margin command (1D 4C).
See the Set Left Margin command (1D 4C…) earlier in this document for a description.
Formulas:
To set the width of the printing area to one inch at the default horizontal motion unit of
1/203 inches, send the four-byte string:
GS
W
203
0
Or, to set the width of the printing area to two inches at the default horizontal motion unit
of 1/203 units per inch, send the four-byte string:
GS
W
150
1
Where 2 inches = 406/203, and 406 = (1 X 256) + 150.
←
Printable area 576 dots→
←Left margin→
←Printing area width→
Example:
MSComm1.Output = Chr$(&H1D) & Chr$(&H57) & Chr$(nL) & Chr$(nH)
Exceptions:
This command is effective only at the beginning of a line.
120
November 2002
7167 Owner’s Manual
Chapter 6: Commands
This command is ignored if the line buffer is not empty, and only effects the Receipt
interface.
If the setting exceeds the printable area, the maximum value of the printable area is used.
The maximum printable area is 576 dots for 80 mm paper width and 424 dots for 58 mm
paper width. See the illustration in the Set Left Margin command (1D 4C).
November 2002
121
7167 Owner’s Manual
Chapter 6: Commands
Print Characteristic Commands
These commands control what the printed information looks like: selection of character
sets, definition of custom-defined characters, and setting of margins. The commands are
described in order of their hexadecimal codes
Select Double-Wide Characters
ASCII:
DC2
Hexadecimal:
12
Decimal:
18
Prints double-wide characters. The printer is reset to single-wide mode after a line has
been printed or the Clear Printer (0x10) command is received. Double-wide characters
may be used in the same line with single-wide characters.
Example:
MSComm1.Output = Chr$(&H12)
Select Single-Wide Characters
ASCII:
DC3
Hexadecimal:
13
Decimal:
19
Prints single-wide characters. Single-wide characters may be used in the same line with
double-wide characters.
Example:
MSComm1.Output = Chr$(&H13)
122
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Select 90 Degree Counter-Clockwise Rotated Print
ASCII:
ESC DC2
Hexadecimal:
1B 12
Decimal:
27 18
Rotates characters 90 degrees counter-clockwise. The command remains in effect until the
printer is reset or until a Clear Printer (0x10), Select or Cancel Upside-Down Print (1B 7B),
or Select or Cancel Rotated Print (1B 56) command is received.
Example:
MSComm1.Output = Chr$(&H1B) & Chr$(&H12)
Exceptions:
This command is valid only at the beginning of a line.
Rotated print and non-rotated print characters cannot be used together in the same line.
Related Information:
See Summary of Rotated Printing in this chapter.
Select Pitch (Column Width)
ASCII:
ESC SYN n
Hexadecimal:
1B 16 n
Decimal:
27 22 n
Value of n:
0 = Standard Pitch
1 = Compressed Pitch
Default:
0 (Standard pitch)
Selects the character pitch for a print line.
Formulas:
The following table provides the print characteristics for both pitches on the receipt and
slip stations.
November 2002
123
7167 Owner’s Manual
Chapter 6: Commands
Pitch
Standard
Receipt
Columns
44 for 80 mm
paper
Receipt
CPI
Slip
Columns
Slip
CPI
15.6
45
13.9
20.3
55
17.1
32 for 58 mm
paper
Compressed
56 for 80 mm
paper
42 for 58 mm
paper
Example:
MSComm1.Output = Chr$(&H1B) & Chr$(&H16) & Chr$(n)
Related Information:
See “Technical Specifications” for descriptions of character pitches (print modes).
124
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Set Character Right-Side Spacing
ASCII:
ESC SP n
Hexadecimal:
1B 20 n
Decimal:
27 32 n
Range of n:
Default:
0 - 32
0
Sets the right side character spacing to [n x horizontal or vertical motion units]. Values for
this command are set independently in Standard and Page Mode.
The units of horizontal and vertical motion are specified by the Set Horizontal and Vertical
Minimum Motion Units (1D 50…) command. Changes in the horizontal or vertical units
do not affect the current right side character spacing. When the horizontal or vertical
motion unit is changed by the Set Horizontal and Vertical Minimum Motion Units (1D
50…) command the value must be in even units and not less than the minimum amount of
horizontal movement.
In Standard Mode the horizontal motion unit is used.
In Page Mode the horizontal or vertical motion unit differs and depends on the starting
position of the printable area. When the starting printing position is the upper left or lower
right of the printable area (set by Select Print Direction in Page Mode, 1B 54 n) the
horizontal motion unit (x) is used. When the starting printing position is the upper right or
lower left of the printable area (set by Select Print Direction in Page Mode, 1B 54 n) the
vertical motion unit (y) is used.
Example:
MSComm1.Output = Chr$(&H1B) & Chr$(&H20) & Chr$(n)
Exception:
This command is ignored in 7156 Emulation Mode and is only valid on the receipt station.
November 2002
125
7167 Owner’s Manual
Chapter 6: Commands
Select Print Modes
ASCII:
ESC ! n
Hexadecimal:
1B 21 n
Decimal:
27 33 n
Value of n:
Bit
Pitch selection (standard, compressed, double high, or
double wide.)
Function
0
1
Bit 0
Pitch
Standard Pitch1
Compressed Pitch
15.6 CPI (Receipt)
44 Col/Line (80 mm)
32 Col/Line (58 mm)
13.9 CPI (Slip)
45 Col/Line
20.3 CPI (Receipt)
56 Col/Line (80 mm)
42 Col/Line (58 mm)
17.1 CPI (Slip)
55 Col/Line
Bit 3
Emphasized
Mode
Canceled
Set
Bit 4
Doublehigh2
Canceled
Set
Bit 5
Double-wide Canceled
Set
Bit 7
Underlined
Mode
Set
Canceled
Bits 1, 2, 6 are not used.
1Standard
and compressed pitch cannot be used together in the same line.
characters cannot be used with normal characters in the same
line, nor can they be used on the slip station.
2Double-high
Default:
0 (for bits 0, 3, 4, 5, 7)
Selects the print mode: standard, compressed, double high, or double wide.
Example:
MSComm1.Output = Chr$(&H1B) & Chr$(&H21) & Chr$(n)
Related Information:
126
November 2002
7167 Owner’s Manual
Chapter 6: Commands
The bits in this command perform the same function as the standalone functions:
1B 16 n
Select Pitch
1B 45 n
Emphasized
12
Double-wide
13
Single-wide
1B 2D n
Underline
Select or Cancel User-Defined Character Set
ASCII:
ESC % n
Hexadecimal:
1B 25 n
Decimal:
27 37 n
Value of n:
0= Code Page 437
1= User-defined (RAM character set)
2= Code Page 850
Range:
Default:
0-2
0 (Code Page 437)
Selects the character set. When an undefined RAM character is selected, the
Code Page 437 character is used. See the Printing Specification Guide for the character sets.
Example:
MSComm1.Output = Chr$(&H1B) & Chr$(&H25) & Chr$(n)
November 2002
127
7167 Owner’s Manual
Chapter 6: Commands
Define User-Defined Characters
Receipt
Slip
ESC & 3 c1 c2 n1 d1 ... nn dn
ESC & 0 c1 c2 d1 ... dn
Hexadecimal:
1B 26 3 c1 c2 n1 d1 ... nn dn
1B 26 0 c1 c2 d1 ... dn
Decimal:
27 38 3 c1 c2 n1 d1 ... nn dn
27 38 0 c1 c2 d1 ... dn
ASCII:
Defines and enters downloaded characters into RAM or Flash. The command may be used
to overwrite single characters. User-defined characters are available until power is turned
off or the Initialize Printer command (1B 40) is received.
Any invalid byte (s, c1, c2, n1) aborts the command.
User-defined character sets for both slip and receipt may be used at the same time. The
command clears bit image logo data from RAM. The illustration below provides a sample
of a character cell.
Defining User-Defined Characters for the Slip and Receipt Station
Defines and enters downloaded characters into RAM.
Receipt Characters (1B 26 3)
Slip Characters (1B 26 0)
MSB
Top of Character
Top of Character
d1 d4
d1 d4
d
10
dn
MSB
LSB
d2 d5
Most Significant
Bit Is Not Printed
dn
d3
dn
LSB
128
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Values and Ranges:
Receipt
c = the ASCII codes of the first (c1) and last (c2) characters respectively
c1 = Hex 20-FF (Hex 20 is always printed as a space)
c2 = Hex 20-FF (Hex 20 is always printed as a space)
To define only one character, use the same code for both c1 and c2.
n = the number of dot columns for the nth character as specified by n1 ... nn
n = 1-10 (standard pitch), 12 and less accepted but ignored
n = 1-8 (compressed pitch), 12 and less accepted but ignored
d = the column data for the nth character as specified by d1 ... dn
The number of bytes for a particular character cell is 3 x n1.
The bytes are printed down and across each cell.
Slip
c = the ASCII codes of the first (c1) and last (c2) characters respectively
c1 = Hex 20-FF (Hex 20 is always printed as a space)
c2 = Hex 20-FF (Hex 20 is always printed as a space)
To define only one character, use the same code for both c1 and c2.
d = the column data for the nth character as specified by d1 ... dn
Each character is defined by 12 bytes (only bytes 2-11 are printed.)
Each byte is one 7-dot high column (full- or half-dot column.)
Overlapped dots are not printed
The data must contain [(c2 - c1 + 1) x 12] bytes
Related Information:
See 1D 22 n (Select Memory Type Where to Save User-Defined Fonts.)
November 2002
129
7167 Owner’s Manual
Chapter 6: Commands
Select or Cancel Underline Mode
ASCII:
ESC - n
Hexadecimal:
1B 2D n
Decimal:
Value of n:
27 45 n
0, 48 = Cancel underline mode
1, 49 = Select underline mode
Default of n:
0 (Cancels underline mode)
Turns underline mode on or off. Underlines cannot be printed for spaces set by the
Horizontal Tab, Set Absolute Start Position, or Set Relative Print Position commands.
This command and the Select Print Mode(s) command (1B 21) turn underline on and off in
the same way.
Example:
MSComm1.Output = Chr$(&H1B) & Chr$(&H2D) & Chr$(n)
Exceptions:
This command is ignored if n is out of the specified range.
This command is only available in 7158 Native Mode and 7167 Native Mode.
Copy Character Set from ROM to RAM
ASCII:
ESC : 0 0 0
Hexadecimal:
1B 3A 30 30 30
Decimal:
27 58 48 48 48
Default:
Code Page 437
Copies characters in the active ROM set to RAM. Use this command to re-initialize the
User-Defined Character Set. Code Page 437 is copied by default at initialization.
The command is ignored if current font is the user font.
Example:
MSComm1.Output = Chr$(&H1B) & Chr$(&H3A) & Chr$(&H30) & Chr$(&H30)
& Chr$(&H30)
Related Information:
130
November 2002
7167 Owner’s Manual
Chapter 6: Commands
To modify characters in one of the character set variations, such as Rotated Print, select
one of the Rotated Print commands, copy to RAM, then use the Define User-Defined
Character Set command (1B 26).
Cancel User-Defined Characters
ASCII:
ESC ? n
Hexadecimal:
1B 3F n
Decimal:
27 63 n
Value of n:
Specified character code
Range of n:
32 - 255
Cancels the pattern defined for the character code specified by n. After the user-defined
character is canceled, the corresponding pattern from Code Page 437 is printed.
Example:
MSComm1.Output = Chr$(&H1B) & Chr$(&H3F) & Chr$(n)
Exceptions:
This command is ignored if n is out of range or if the user-defined character is not defined.
Select or Cancel Emphasized Mode
ASCII:
Hexadecimal:
Decimal:
Value of n:
ESC E n
1B 45 n
27 69
0 (bit 0), not selected
1 (bit 0), selected
Range of n:
Default:
0 - 255
0 (bit 0)
Starts or stops emphasized printing on slip and receipt. In Emphasized Mode on the slip,
each line is printed twice to improve penetration of multi-part forms and increase print
contrast. The second pass is printed the same direction as the first to ensure accuracy of
the overprint. Printing speed decreases due to the second printing pass.
November 2002
131
7167 Owner’s Manual
Chapter 6: Commands
Example:
MSComm1.Output = Chr$(&H1B) & Chr$(&H45) & Chr$(n)
Exceptions:
Only the lowest bit of n is effective.
Emphasized printing cannot be used with bit-images or downloaded bit-images.
Related Information:
This command and the Select Print Mode(s) command (1B 21) function identically.
Select Double Strike
7156 Emulation
7158 Native and
7167 Native Mode
ESC G
ESC G n
Hexadecimal:
1B 47
1B 47 n
Decimal:
27 71
27 71 n
ASCII:
Value of n:
0 = Off
1 = On
Turns double strike mode on for the slip station. Overprints a second pass of the print line
on the slip station to improve penetration of multi-part forms and increase print contrast.
The second pass is printed the same direction as the first to ensure accuracy of the
overprint. The printer is reset to the standard print mode after a line has been printed or
after a Clear Printer (0x10) command is received.
Example:
MSComm1.Output = Chr$(&H1B) & Chr$(&H47) & Chr$(n)
Exceptions:
These settings do not apply in Page Mode. However they can be set or cleared in Page
Mode.
Double-strike printing cannot be used with bit-images or downloaded bit-images.
This command functions the same as the 7156 when the printer is in 7156 Emulation
Mode. In Native Mode, the command takes a parameter to enable and disable it.
Related Information:
Printer output is the same as in Emphasized Mode.
132
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Cancel Double Strike
ASCII:
ESC H
Hexadecimal:
1B 48
Decimal:
27 72
Turns off double strike mode on the slip station in 7156 Emulation Mode.
This command is ignored in the 7158 Native Mode and 7167 Native Mode.
This command works on both slip and receipt stations.
Example:
MSComm1.Output = Chr$(&H1B) & Chr$(&H48)
Select or Cancel Italic Print
ASCII:
ESC I n
Hexadecimal:
1B 49 n
Decimal:
27 73 n
Value of n:
0 = Off
1 = On
(When 0 and 1 are the Least Significant Bit, LSB)
Default:
0 (Off)
Turns Italic print mode on or off. This command is only available in 7158 Native Mode
and 7167 Native Mode.. Italic print mode is available for built-in, user-defined characters.
This command only works on the receipt station.
Example:
MSComm1.Output = Chr$(&H1B) & Chr$(&H49) & Chr$(n)
Exceptions:
Only the lowest bit of n is valid. This command is only valid for the receipt station in 7158
Native Mode and 7167 Native Mode..
November 2002
133
7167 Owner’s Manual
Chapter 6: Commands
Select International Character Set
ASCII:
ESC R n
or
ESC t n
Hexadecimal:
1B 52 n
or
1B 74 n
Decimal:
27 82 n
or
27 116 n
7158 Native Mode and
7156 Emulation
7167 Native Mode.
Value of n:
0 = Code Page 437 US English
0 = Code Page 437
1 = Code Page 850 Multilingual
1 = Code Page 850
2 = Code Page 852 Slavic
3 = Code Page 860 Portuguese
4 = Code Page 863 French Canadian
5 = Code Page 865 Nordic
6 = Code Page 858 Multilingual with Euro Symbol
7 = Code Page 866 Cyrillic
8 = Code Page 1252 Windows Latin I
9 = Code Page 862 Hebrew
20 = Code Page Katakana
21 = Code Page 874 Thailand
22 = Code Page 864 Arabic
128 = Code Page 932 Kanji
129 = Code Page 936 Simple Chinese
130 = Code Page Korean
131 = Code Page Traditional Chinese
134
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Selects the character set to be used. See Print Specifications for the character sets.
There are two codes for this command. Both codes perform the same function.
Example:
MSComm1.Output = Chr$(&H1B) & Chr$(&H52) & Chr$(n)
Related Information:
This command may also be known as Select Character Code Table.
Select Character Code Table
See the previous command, Select International Character Set.
Select or Cancel Unidirectional Printing Mode
ASCII:
ESC U n
Hexadecimal:
1B 55 n
Decimal:
27 85 n
Value of n:
0 = select bi-directional
1 = select unidirectional
Default:
0 (bi-directional)
Toggles between unidirectional and bi-directional printing on the slip station.
Unidirectional printing increases column alignment and provides higher quality printing.
Printing is normally bi-directional because of the faster speed.
Example:
MSComm1.Output = Chr$(&H1B) & Chr$(&H55) & Chr$(n)
Select or Cancel 90 Degrees Clockwise Rotated Print
ASCII:
ESC V n
Hexadecimal:
1B 56 n
Decimal:
27 86 n
Value of n:
0 = Cancel
1 = Set
Default:
0 (Cancel)
November 2002
135
7167 Owner’s Manual
Chapter 6: Commands
Rotates characters 90 degrees clockwise. The command remains in effect until the printer is
reset or the Clear Printer (0x10) command is received. See Summary of Rotated Printing in
this chapter.
Example:
MSComm1.Output = Chr$(&H1B) & Chr$(&H56) & Chr$(n)
Select Print Color
ASCII:
ESC r n
Hexadecimal:
1B 72 n
Decimal:
Value of n:
27 114 n
0 = Black
1 = 2nd Color
Default:
0 (Black)
Selects color printing. Color printing is valid for character, graphics, logo, and barcodes.
Example:
MSComm1.Output = Chr$(&H1B) & Chr$(&H72) & Chr$(n)
Exceptions:
The command is valid only for receipt station.
Select or Cancel Upside Down Printing Mode
ASCII:
ESC { n
Hexadecimal:
1B 7B n
Decimal:
27 123 n
Value of n:
0 = Cancel
1 = Set
Default:
0 (Cancel)
Prints upside-down characters. The character order is inverted in the buffer so text is
readable. The command remains in effect until the Rotated Print (1B 12) command is
received. Only bit 0 is used. Bits 1-7 are not used. See Summary of Rotated Printing in this
document for more information.
136
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Example:
MSComm1.Output = Chr$(&H1B) & Chr$(&H7B) & Chr$(n)
Exceptions:
The command is valid only at the beginning of a line.
The Rotated Print command (1B 12) cancels this command.
Select Character Size
ASCII:
GS ! n
Hexadecimal:
1D 21 n
Decimal:
29 33 n
Value of n:
1 - 8 = vertical number of times normal font
1 – 8 = horizontal number of times normal font
Range of n:
Default of n:
00 – 07, 10 – 17, … 70 – 77
0
Selects the character height using bits 0 to 2 and selects the character width using bits 4 to
7, as follows:
Character Width Selection
Hex
Decimal
Width
00
0
1 (normal)
10
16
2 (two times width)
20
32
3 (three times width)
30
48
4 (four times width)
40
64
5 (five times width)
50
80
6 (six times width)
60
96
7 (seven times width)
70
112
8 (eight times width)
November 2002
137
7167 Owner’s Manual
Chapter 6: Commands
Character Height Selection
Hex
Decimal
Height
00
0
1 (normal)
01
1
2 (two times height)
02
2
3 (three times height
03
3
4 (four times height)
04
4
5 (five times height)
05
5
6 (six times height)
06
6
7 (seven times height)
07
7
8 (eight times height)
This command is effective for all characters (except for HRI characters).
In Standard Mode, the vertical direction is the paper feed direction, and the horizontal
direction is perpendicular to the paper feed direction. However, when character
orientation changes in 90 degree clockwise-rotation mode, the relationship between
vertical and horizontal directions is reversed.
In Page Mode, vertical and horizontal directions are based on the character orientation.
When characters are enlarged with different sizes on one line, all the characters on the line
are aligned at the baseline.
The Select Print Mode (1B 21 n) command can also select or cancel double-width and
double-height modes. However, the setting of the last received command is effective.
Example:
MSComm1.Output = Chr$(&H1D) & Chr$(&H21) & Chr$(n)
Exceptions:
If n is out of the defined range, this command is ignored. This command is only valid for
the receipt station.
This is only available in 7158 Native Mode and 7167 Native Mode..
Select or Cancel White/Black Reverse Print Mode
ASCII:
GS B n
Hexadecimal:
1D 42 n
Decimal:
29 66 n
Value of n:
0 = Off
Range of n:
1 = On(Only the lowest bit is used.)
Default of n:
0 – 255
0 (Off)
138
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Turns on White/Black reverse printing mode. This command is only available in 7158
Native Mode and 7167 Native Mode.. In White/Black reverse printing mode, print dots
and non-print dots are reversed, which means that white characters are formed by
printing a black background. When the White/Black reverse printing mode is selected it is
also applied to character spacing which is set by Right-Side Character Spacing (1B 20).
This command can be used with built-in characters and user-defined characters, but does
not affect the space between lines.
White/Black Reverse Print Mode does not affect bit image, downloaded bit image, bar
code, HRI characters, and spacing skipped by Horizontal Tab (09), Set Absolute Starting
Position (1B 24…), and Set Relative Print Position (1B 5C).
White/Black reverse mode has a higher priority than Underline Mode. When Underline
Mode is on and White/Black Reverse Print Mode is selected, Underline Mode is disabled,
but not canceled.
Example:
MSComm1.Output = Chr$(&H1D) & Chr$(&H42) & Chr$(n)
Exceptions:
This command is only valid on the receipt station.
This is only available in 7158 Native Mode and 7167 Native Mode..
Select or Cancel Smoothing Mode
ASCII:
GS b n
Hexadecimal:
1D 62 n
Decimal:
29 98 n
This command is ignored.
Example:
MSComm1.Output = Chr$(&H1D) & Chr$(&H62) & Chr$(n)
Select Superscript or Subscript Modes
ASCII:
US ENQ n
Hexadecimal:
1F 05 n
Decimal:
31 05 n
Value of n:
0 = Normal character size
1 = Select subscript size
2 = Select superscript size
Default:
0 (normal size)
November 2002
139
7167 Owner’s Manual
Chapter 6: Commands
Turns superscript or subscript modes on or off. This attribute may be combined with other
characters size settings commands ( 12, 13, 1B 21 n, 1D 21 n, …)
This command is only available on the receipt station in 7158 Native Mode and 7167
Native Mode..
Example:
MSComm1.Output = Chr$(&H1F) & Chr$(&H05) & Chr$(n)
Exceptions:
This command is ignored if n is out of the specified range.
This is only available in 7158 Native Mode and 7167 Native Mode..
140
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Summary of Rotated Printing
The table shows the combinations of Set/Cancel Upside-Down Print, Set/Cancel Rotated
Print (clockwise), and Rotated Print (counterclockwise). Rotated CCW is mutually
exclusive with the other two commands. Unintended consequences may result when
rotated CCW is mixed with other commands.
The samples of the print show only the normal size characters. Double-wide and doublehigh characters are printed in the same orientation (double-high characters cannot be
printed on the slip station). They may also be mixed on the same line.
Canceled
Cleared
Canceled
Set
X
Set
Canceled
X
Set
Set
X
X
X
Set
Note:
A BC
C
B
A
Canceled
Resulting Output
A
B
C
Rotated CCW
(1B 12)
A BC
Rotated CW
(1B 56 n)
C
B
A
Upside Down
(1B 7B n)
The following print modes cannot be mixed on the same line:
1. Standard and compressed pitch
2. Vertical (normal) and rotated
3. Right-side up and upside down
4. Single high (normal) and double high
November 2002
141
7167 Owner’s Manual
Chapter 6: Commands
Graphics Commands
These commands are used to enter and print graphics data and are described in order of
their hexadecimal codes.
Download BMP Logo
ASCII:
ESC (+*.BMP file data)
Hexadecimal:
1B (+*.BMP file data)
Decimal:
27 (+*.BMP file data)
Value:
Maximum width =
576
Maximum height =
512
Enters a BMP file data into RAM or Flash.
This command is used by sending the file data of a monochrome BMP file preceded by a
0 x 1B. The bit map is stored in the printer in the same manner as a down loaded bit
image.
The downloaded BMP file can be printed by using the Print Downloaded Bit Image (1D 2F
m) command.
Example:
1. MSComm1.Output = Chr$(&H1B)
2.
Open bitmapfile For Binary As filehandle
3.
filecontent = Input(LOF(filehandle), filehandle)
4.
MSComm1.Output = filecontent & vbLf
5.
This last step is to use the print downloaded image command to print
Exceptions:
BMP file images that are not monochrome are ignored. This command is only valid for the
receipt station.
This is only available in 7158 Native Mode and 7167 Native Mode..
Related Information:
See 1D 22 n (Select Memory Type to save logos.)
For the 7158 native mode and 7167 Native Mode. of operation, if multiple logos are to be
defined and used, this command should be preceded by the Select Current Logo
command to define the number by which this downloaded logo is to be referenced.
142
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Select Bit Image Mode
ASCII:
ESC * m n1 n2 d1 ... dn
Hexadecimal:
1B 2A m n1 n2 d1 ... dn
Decimal:
27 42 m n1 n2 d1 ... dn
Sets the print resolution and enters one line of graphics data into the print buffer. Excess
data is accepted but ignored. Any print command is required to print the data, after which
the printer returns to normal processing mode.
See the illustration graphic representation of the bit image.
In 7156 Emulation Mode, slip graphics are only 7- bit (MSB not printed.) In 7158 Native
Mode and 7167 Native Mode., slip graphics are 8-bit.
Values:
Receipt Station
Mode
Value
of m
0
8 Dot Single
Density
No. of Dots
(Vertical)
8 (68 DPI)
No. of Dots (Horizontal)
0-288 (101DPI,
80mm)
Number of
Dots/Line
8x288 (80mm)
8x212 (58mm)
0-212 (101DPI,
58mm)
1
8 Dot Double
Density
8 (68 DPI)
0-576 (101DPI,
80mm)
8x576 (80mm)
8x424 (58mm)
0-424 (101DPI,
58mm)
32
33
24 Dot Single
Density
24 Dot
Double
Density
24 (203 DPI) 0-288 (101DPI,
80mm)
24x288
(80mm)
0-212 (101DPI,
58mm)
24x212
(58mm)
24 (203 DPI) 0-576 (101DPI,
80mm)
24x576
(80mm)
0-424 (101DPI,
58mm)
24x424
(58mm)
November 2002
143
7167 Owner’s Manual
Chapter 6: Commands
Slip Station
Value Mode
of m
No. of Dots**
(Vertical)
No. of Dots (Horizontal)
Number of
Dots/Line
0
7 Dot Single
Density
7 (72 DPI)
224 (69.5 DPI)
7 x 224
1*
7 Dot Double
Density
7 (72 DPI)
448 (139 DPI)
7 x 448
32, 33
Not Available
on Slip
In single density, one byte (7 dots) is printed in each full dot column; in
double density, one byte is printed in each half/full dot column.
*Adjacent horizontal dots (overlapping dots) are not printed on the slip.
**In 7158 Native Mode and 7167 Native Mode.. There are 8 vertical dots.
Value of n (8-Dot
Single-Density Mode)
Value of n (24-Dot
Single-Density Mode)
Value of d
n1 + (256 x n2)
3 x [n1 + (256 x n2)]
Number of Bytes of Data*
*Printed left to right (8-dot mode); Printed down then across (24-dot mode).
Formulas:
8 Dot Single Density
24 Dot Single Density
n1 + (256 x n2)
3 x [n1 + (256 x n2)]
8-Dot Single-Density Mode—Receipt and Slip
Top of Bit Image
d1 d2 d3 d4
dn
Receipt
Slip
MSB
MSB
dn
dn
LSB
LSB
Most Significant
Bit Is Not Printed
In A756 Emulation
144
November 2002
7167 Owner’s Manual
Chapter 6: Commands
24-Dot Single-Density Mode—Receipt Only
Top of Bit Image
d1 d4 d7
MSB
d2 d5
dn
d3 d6
dn
LSB
November 2002
145
7167 Owner’s Manual
Chapter 6: Commands
Select Double-Density Graphics
ASCII:
Hexadecimal:
Decimal:
ESC Y n1 n2 d1 … dn
1B 59 n1 n2 d1 ... dn
27 89 n1 n2 d1 ... dn
or
or
or
ESC L n1 n2 d1 ... dn
1B 4C n1 n2 d1 … dn
27 76 n1 n2 d1 ... dn
Value of n:
Value of n (8-Dot Single
Density Mode)
Value of n (24-Dot Single
Density Mode)
n1 + (256 x n2)
3 x [n1 + (256 x n2)]
Value of d
Number of Bytes of Data
(Printed Down, Then
Across)
Enters one line of 7 (slip in 7156 mode) or 8-dot double-density graphics into the print
buffer. Any print command is required to print the line, after which the printer returns to
normal processing mode. The number of bytes sent is represented by the formulas in the
table.
Each bit corresponds to one horizontal dot. Compare to Set Bit Image Mode (1B 2A, m=1)
earlier in this document.
Exception:
1B 4C n1 n2 d1 … dn is only valid in 7156 Emulation Mode.
Select the Current Logo (Downloaded Bit Image)
ASCII:
GS # n
Hexadecimal:
1D 23 n
Decimal:
29 35 n
Range of n:
0 – 255
Selects a logo to be defined or printed. The active logo n remains in use until this
command is sent again with a different logo n.
When this command precedes a logo definition, that definition is stored in Flash Memory
as logo n. If there is already a different definition in Flash Memory for logo n, the first is
inactivated and the new definition is used. The inactive definition is not erased from Flash
and continues to take up space in Flash Memory.
When this command precedes a logo print command and n is different from the
previously active logo selected, the printer retrieves the logo definition for n from Flash
Memory and prints it. If there is no definition for logo n, then no logo is printed.
In the case of a previously existing application that expects only one possible logo, the
printer will not receive the Select Current Logo (1D 23 n) command. In this case, the
printer assigns 0 as the active logo identifier. It automatically stores any new logo
definition in Flash Memory as logo 0, inactivating any previous logo 0 definition. If the
Flash Memory space available for logos fills up with inactive logo 0 definitions, the
146
November 2002
7167 Owner’s Manual
Chapter 6: Commands
firmware erases the old definitions at the next power cycle. This is the only case in which
the printer erases Flash Memory without an application command.
In the case of a new application using multiple logos, the Select Current Logo (1D 23 n)
command is used. After that, the printer no longer automatically erases the logo definition
Flash Memory page when it fills with multiple definitions. A new application using
multiple logos, writing a user-defined character set into Flash Memory, or both, is
responsible for erasing the logo and user-defined character set Flash Memory page when
the logo area is full or before a new character set is defined.
Example:
MSComm1.Output = Chr$(&H1D) & Chr$(&H23) & Chr$(n)
Exceptions:
This command is only valid for the receipt station. However, it will be processed correctly
regardless of whether the receipt station is currently selected.
Define Downloaded Bit Image
ASCII:
GS * n1 n2 d1 ... dn]
Hexadecimal:
1D 2A n1 n2 d1 ... dn]
Decimal:
29 42 n1 n2 d1 ... dn
Value of n1:
See the following table.
Value of n2:
See the following table.
Value of d:
See the following table.
Value of n1
Value of n2
Value of d
1-72 (8 x n1 = Number of
Horizontal Dot Columns)
1-64 (Number of Vertical
Bytes)*
Bytes of Data
(Printed Down
Then Across)
*The number of bytes sent is represented by the following formula:
n = 8 x n1 x n2 (n1 x n2 must be less than or equal to 4608).
Enters a downloaded bit image (such as a logo) into RAM or Flash with the number of
dots specified by n1 and n2 in 7156 Emulation, unless loaded into Flash. The downloaded
bit image is available until power is turned off, another bit image is defined, or either
Initialize Printer (1B 40), or Define User-Defined Character Set (1B 26), command is
received.
By default, 7156 Emulation loads downloaded bit image to SRAM, while 7158 Native
Mode and 7167 Native Mode loads them to Flash.
See the illustration on the following page for a graphic representation of the downloaded
bit image.
November 2002
147
7167 Owner’s Manual
Chapter 6: Commands
C olum n
O ne
R ow
O ne
Top of G raphic
C olum n
72 x 8 M ax.
d
d1 65
d2
MSB
dn
R ow 64 d
M ax. 64
dn
LSB
Exceptions:
See the illustration for the Print Downloaded Bit Image command (1D 2F) for a
representation of the bit image.
Related Information:
See 1D 22 n (Select Memory Type to store logos) and 1D 23 n (Select the Current Logo.)
For the 7158 native mode and 7167 Native Mode of operation, if multiple logos are to be
defined and used, this command should be preceded by the Sleect Current Logo
command to define the number by which this dowloaded logo is to be referenced.
148
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Print Downloaded Bit Image
ASCII:
Hexadecimal:
Decimal:
GS / m
1D 2F m
29 47 m
Value and Range of m:
Value of m
Print Mode
Vertical DPI1
Horizontal DPI*
0
1
2
3
Normal
Double Wide
Double High
Quadruple
203
203
101
101
203
101
203
101
1Dot
density measured in dots per inch
Prints a downloaded bit image in RAM or Flash on the receipt station at a density
specified by m. It is ignored if any data is in the print buffer, if the downloaded bit image
is undefined, or if the data defined exceeds one line.
See the illustration for a representation of the bit image.
Column
Top of Graphic
One
Column
72 x 8 Max.
Row
One d1 d
65
d2
MSB
dn
Row 64 d
Max. 64
dn
LSB
Example:
MSComm1.Output = Chr$(&H1D) & Chr$(&H2F) & Chr$(m)
Related Information:
See 1D 22 n (Select Memory Type to store logos) and 1D 23 n (Select the Current Logo.)
November 2002
149
7167 Owner’s Manual
Chapter 6: Commands
Convert 6 Dots/mm Bitmap to 8 Dots/mm Bitmap
ASCII:
US EOT n
Hexadecimal:
1F 04 n
Decimal:
31 04 n
Value:
0 = Off
1 = On
Default:
0 (Off)
Selects or cancels 6 dot/mm in 7158 Emulation Mode and 7167 Native Mode.
When the 6 dot/mm emulation is selected, logos and graphics are expanded horizontally
and vertically to emulate their size on a 6 dot/mm printer. The horizontal positioning
commands also emulate positioning on a 6 dot/mm printer.
Example:
MSComm1.Output = Chr$(&H1F) & Chr$(&H04) & Chr$(n)
Exception:
This command is available in 7158 Native Mode and 7167 Native Mode only.
150
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Status Commands
Status Command Introduction
The 7167 has three methods of providing status to the application. These methods are
through Batch Status Commands, Real Time Status Commands, and Auto Status Back. An
application may use one or more of these methods to understand the current status of the
printer. A brief description of each of these methods follows.
Batch Status Commands – These commands are sent to the printer and stored in the
printer’s buffer. Once the printer has processed all the previous commands these
commands are processed and the proper status is returned to the application. In the event
a condition causes the printer to go BUSY, it stops processing commands from the printer
buffer. If a Batch Status Command remained in the buffer during this busy condition, it
would not be processed. In fact, no Batch Commands are processed while the printer is in
this state.
Real-Time Commands – These commands are sent to the printer and are NOT stored in
the printer’s buffer. Instead, they are acted on immediately (regardless of the printer’s
BUSY status) and their response (if any) is returned to the application. This gives the
application the ability to query the printer when it is in a busy state in order to correct
whatever fault has occurred.
Auto Status Back – This mechanism allows the application developer to program the
printer to automatically respond with a four byte status when certain conditions in the
printer change.
Please see the subsequent sections for a more detailed description of these status
commands. At the end of this Status Commands section is a page entitled “Recognizing
Data from the Printer”. This describes how to interpret what command or setting (in the
case of Auto Status Back) triggered a response from the printer.
Batch Mode
For RS-232C printers, these commands enable the printer to communicate with the host
computer following the selected handshaking protocol, either DTR/DSR or XON/XOFF.
They are stored in the printer's data buffer as they are received, and are handled by the
firmware in the order in which they are received.
When a fault occurs, the printer will go busy at the RS-232C interface and not respond to
any of the Batch Mode Printer Status commands. If the fault causing the busy condition
can be cleared, such as by loading paper, or letting the thermal print head cool down, the
printer will resume processing the data in its receive buffer.
November 2002
151
7167 Owner’s Manual
Chapter 6: Commands
Transmit Peripheral Device Status
ASCII:
Hexadecimal:
Decimal:
Return Value:
ESC u 0
1B 75 0
27 117 0
Bit 0
Bit 1
1 = Drawer 1 closed
1 = Drawer 2 closed
0 = Drawer 1 open
0 = Drawer 2 open
(Bits 2-7 are not used)
Transmits current status of the cash drawers. One byte is sent to the host computer. In
DTR/DSR protocol the printer waits for DSR = SPACE. If a drawer is not connected, the
status will indicate it is closed.
Example:
MSComm1.Output = Chr$(&H1B) & Chr$(&H75) & Chr$(&H0)
152
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Transmit Printer Status
ASCII:
ESC v
Hexadecimal:
1B 76
Decimal:
27 118
Sends status data to the host computer. The printer sends one byte to the host computer
when it is not busy or in a fault condition. In DTR/DSR protocol, the printer waits for DSR
= SPACE.
Status Byte (RS-232C)
Bit Function
0
1
2
3
4
5
6
7
Receipt Paper
Receipt Cover or Front Cover
Receipt Paper
Knife or Slip
Always Zero
Slip Leading Edge Sensor
Slip Trailing Edge Sensor
Thermal Head Temp or Voltage
0 Signifies
Ok
Closed
Ok
Ok
1 Signifies
Low
Open
Out
Jam
Not Covered
Not Covered
Ok
Covered
Covered
Out of Range
Example:
MSComm1.Output = Chr$(&H1B) & Chr$(&H76)
Related Information:
See Real Time Commands, in this document for details about fault condition reporting.
November 2002
153
7167 Owner’s Manual
Chapter 6: Commands
Transmit Printer ID
GS I n
ASCII
Hexadecimal
1D 49 n
Decimal
29 73 n
1, 49 = Printer model ID
Value of n
2, 50 = Type ID
3, 51 = ROM version ID
4, 52 = Logo definition
Transmits the printer ID specified by n as follows:
N
Printer ID
Specification
ID (hexadecimal)
1, 49
Printer model ID
NCR 7167
0xA1 (7167 Native Mode)
1, 49
Printer model ID
NCR 7158
0x28 (7158 Native Mode)
1, 49
Printer model ID
NCR 7156
0x26 (7156 Emulation)
1, 49
Printer model ID
NCR 7150
0x02 (7150 Mode)
2, 50
Type ID
Installed options
Refer to the table below
3, 51
ROM version ID
ROM version
0x00
4, 52
Logo Definition
Logo Definition
Refer to table below
Type ID (n=2)
Bit
Off/On
Hex
Decimal
Function
0
Off
00
0
No two-byte character code installed.
On
01
1
Two-byte character code installed.
Off
00
0
No knife installed.
On
02
2
Knife installed.
2
-
-
-
Undefined
3
Off
00
0
No MICR installed.
On
08
8
MICR installed.
4
Off
00
0
Not used. Fixed to Off.
5
-
-
-
Undefined
6
-
-
-
Undefined
7
Off
00
0
Not used. Fixed to Off.
1
154
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Type ID (n=4)
Bit
Off/On
Hex
Decimal
Function
0
Off
00
0
No logo definition loaded by application.
On
01
1
Logo loaded by application.
1
-
-
-
Undefined
2
-
-
-
Undefined
3
-
-
-
Undefined
4
Off
00
0
Not used. Fixed to Off.
5
-
-
-
Undefined
6
-
-
-
Undefined
7
Off
00
0
Not used. Fixed to Off.
Example:
MSComm1.Output = Chr$(&H1D) & Chr$(&H49) & Chr$(n)
Transmit Printer ID, Remote Diagnostics Extension
ASCII:
GS I @ n
Hexadecimal:
1D 49 40 n
Decimal:
29 73 64 n
Values of n:
Refer to table above
Range of n:
32 – 255
(not all defined but reserved)
Performs the remote diagnostic function specified by n.
Eighteen remote diagnostic items are defined: eight printer ID items and ten printer tally
items. A group of four remote diagnostic functions is assigned to each diagnostic item.
Most of the diagnostic items are maintained in non-volatile memory (NVRAM), but some
are maintained in read-only memory (ROM).
The table that follows describes the variables.
The first item group in the table includes an example of data to send and to receive. Data
sent from the host to write to NVRAM must contain all digits required by the remote
diagnostic item. All data must be ASCII. The printer returns all ASCII data. It is preceded
by the parameter n to identify the diagnostic item and is followed by a Carriage Return
(0D) to signify the end of the data.
November 2002
155
7167 Owner’s Manual
Chapter 6: Commands
The command performs the remote diagnostic function specified by n as described in the
following table.
Value of n
ASC
Hex
Dec
Space 20
32
Remote Diagnostic Item
Function
Serial #,
Write to NVRAM
Example, send 14 bytes to printer: GS I @
0x20 1234567890
10 digit ASCII
!
21
33
Serial # ,
10 digit ASCII
156
Write to NVRAM, and print on receipt to
verify
Example, send 14 bytes to printer: GS I @
! 1234567890
This will print on receipt: Serial # written:
1234567890
“
22
34
Serial #
Not available, cannot clear Serial # item
#
23
35
Serial #
Return Serial #, preceded by n to identify
Printer returns 12 bytes in above example:
#1234567890<CR>
$
24
36
Class/model #,
15 digit ASCII
Write to NVRAM
%
25
37
Class/model #
Write to NVRAM, and print on receipt to
verify
‘
27
39
Class/model #
Return Class/model #, returns 17 bytes
+
2B
43
Boot firmware part
#, 12 digit ASCII
Return Boot firmware part #, returns 14
bytes
/
2F
47
Boot firmware
CRC, 4 digit ASCII
Return Boot firmware CRC, returns 6
bytes
3
33
51
Flash firmware part
#, 12 digit ASCII
Return Flash firmware part #, returns 14
bytes
7
37
55
Flash firmware
CRC, 4 digit ASCII
Return Flash firmware CRC, returns 6
bytes
Ç
80
128
Receipt lines tally,
8 digit ASCII
numeric,
max 99,999,999
Write to NVRAM
Example, send 12 bytes to printer: GS I @
Ç00010000
To set receipt lines tally to 10,000
ü
81
129
Receipt lines tally
Write to NVRAM, and print on receipt to
verify
Example, send 12 bytes to printer: GS I @
ü00010000
This will print on receipt: Receipt tally
written: 10,000
é
82
130
Receipt lines tally
Clear receipt lines tally to 0
â
83
131
Receipt lines tally
Return receipt lines tally, preceded by n
to identify
Printer returns 10 bytes in above example:
â00010000<CR>
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Value of n
ASC
Hex
Dec
Remote Diagnostic Item
Function
ä
84
132
Knife cut tally,
8 digit ASCII
numeric,
max 99,999,999
Write to NVRAM
à
85
133
Knife cut tally
Write to NVRAM, and print on receipt to
verify
å
86
134
Knife cut tally
Clear knife cut tally to 0
ç
87
135
Knife cut tally
Return knife cut tally, returns 10 bytes
ê
88
136
Slip character tally,
8 digit ASCII
numeric,
max 99,999,999
Write to NVRAM
ë
89
137
Slip character tally
Write to NVRAM, and print on receipt to
verify
è
8A
138
Slip character tally
Clear slip character tally to 0
ï
8B
139
Slip character tally
Return slip character tally, returns 10
bytes
î
8C
140
MICR read tally,
8 digit ASCII
numeric, max
99,999,999
Write to NVRAM
ì
8D
141
MICR read tally
Write to NVRAM, and print on receipt to
verify
Ä
8E
142
MICR read tally
Clear MICR read tally to 0
Å
8F
143
MICR read tally
Return MICR read tally, returns 10 bytes
É
90
144
Hours on tally,
8 digit ASCII
numeric,
max 99,999,999
Write to NVRAM
æ
91
145
Hours on tally
Write to NVRAM, and print on receipt to
verify
Æ
92
146
Hours on tally
Clear Hours on tally to 0
ô
93
147
Hours on tally
Return Hours on tally, returns 10 bytes
ù
97
151
Boot firmware
version
Return Boot firmware version, returns 6
bytes
ú
A3
163
Flash firmware
version
Return Flash firmware version, returns 6
bytes
ñ
A4
164
Flash cycles tally,
8 digit ASCII
numeric,
max 99,999,999
Write to NVRAM
Ñ
A5
165
Flash cycles tally
Write to NVRAM, and print on receipt to
verify
a
A6
166
Flash cycles tally
Clear Flash cycles cut tally to 0
November 2002
157
7167 Owner’s Manual
Chapter 6: Commands
Value of n
ASC
Hex
Dec
Remote Diagnostic Item
Function
ο
A7
167
Flash cycles tally
Return Flash cycles cut tally, returns 10
bytes
¿
A8
168
Knife jams tally,
8 digit ASCII
numeric,
max 99,999,999
Write to NVRAM
┌
A9
169
Knife jams tally
Write to NVRAM, and print on receipt to
verify
┐
AA
170
Knife jams tally
Clear Knife jams tally to 0
½
AB
171
Knife jams tally
Return Knife jams tally, returns 10 bytes
¼
AC
172
Cover openings
tally, 8 digit ASCII
numeric,
max 99,999,999
Write to NVRAM
¡
AD
173
Cover openings
tally
Write to NVRAM, and print on receipt to
verify
«
AE
174
Cover openings
tally
Clear Cover openings tally to 0
»
AF
175
Cover openings
tally
Return Cover openings tally, returns 10
bytes
█
B2
178
Max Temperature
tally
Clear Max temp tally
|
B3
179
Max Temperature
tally
Return Max Temperature tally, returns 10
bytes
┤
B4
180
Slip lines tally,
8 digit ASCII
numeric,
max 99,999,999
Write to NVRAM
╡
B5
181
Slip lines tally
Write to NVRAM, and print on receipt to
verify
╢
B6
182
Slip lines tally
Clear Slip lines tally to 0
╖
B7
183
Slip lines tally
Return Slip Lines tally, returns 10 bytes
Example:
MSComm1.Output = Chr$(&H1D) & Chr$(&H49) & Chr$(&H40) & Chr$(n) & CHR$(&H0D)
158
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Transmit Status
ASCII: GS r n
Hexadecimal 1D 72 n
:
Decimal: 29 114 n
Value of n: 1, 49 = printer status
2, 50 = cash drawer status
3, 51 = slip paper status
4, 52 = Flash Memory status
Transmits the status specified by n. This is a batch mode command which transmits the
response after all prior data in the receive buffer has been processed. There may be a time
lag between the printer receiving this command and transmitting the response, depending
on the receive buffer status.
When DTR/DSR RS232C communications handshaking control is selected, the printer
transmits the one byte response only when the host signal DSR indicates it is ready to
receive data.
When XON/XOFF RS232C communications handshaking control is selected, the printer
transmits the one byte response regardless of the host signal DSR.
When Auto Status Back (ASB) is enabled using the Enable/Disable Automatic Status Back
command (1D 61), the status transmitted by this command (Transmit Status) and the ASB
status must be differentiated according to the information found in Recognizing Data from
the Printer. This is found in the Real Time Commands section of this document.
November 2002
159
7167 Owner’s Manual
Chapter 6: Commands
The status bytes to be transmitted are described in the following four tables.
Printer Status (n = 1 or n = 49)
Bit
Off/On Hex Decimal
Status for Transmit Status
0
Off
On
00
01
0
1
Receipt paper adequate.
Receipt paper low.
1
Off
On
00
02
0
2
Receipt paper adequate.
Receipt paper low.
2
Off
On
00
04
0
4
Receipt paper present.
Receipt paper exhausted.
3
Off
On
00
08
0
8
Receipt paper present.
Receipt paper exhausted.
4
Off
00
0
Not used. Fixed to off.
5
Off
00
0
On
20
32
Slip leading edge sensor: paper present
Slip leading edge sensor: no paper.
Off
00
0
Slip trailing edge sensor: paper present
On
40
64
Slip trailing edge sensor: no paper.
Off
00
0
Not used. Fixed to off.
6
7
Cash Drawer Status (n = 2 or n = 50)
Bit Off/On Hex Decimal Status for Transmit Status
0
Off
On
00
01
0
1
One or both cash drawers open.
Both cash drawers closed.
1
Off
On
00
02
0
2
One or both cash drawers open.
Both cash drawers closed.
2
-
-
-
Undefined
3
-
-
-
Undefined
4
Off
00
0
Not used. Fixed to off.
5
-
-
-
Undefined
6
-
-
-
Undefined
7
Off
00
0
Not used. Fixed to off.
Slip Paper Status (n = 3 or n = 51)
Value of Byte Returned Slip Status
0
There is no more printing space on the current slip,
or the slip paper is not selected.
1 to 8
Remaining print area on the current slip, in number
of lines, at the currently set line spacing, when the
trailing edge sensor has become uncovered.
Until the trailing edge sensor becomes uncovered the
value reported will be 6, because there are at least 6
lines remaining.
There can be 7 or 8 lines remaining when the slip line
spacing has been set to less than 7.2 lines per inch.
160
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Flash Memory Status (n = 4 or n = 52)
Bit Off/On Hex Decimal Status for Transmit Status
0
Off
00
0
Undefined. Fixed to off.
1
Off
00
0
Undefined. Fixed to off.
2
Off
On
00
04
0
4
User data storage write successful.
User data storage write failed. Specified area
not erased.
3
Off
On
00
08
0
8
Flash logo area adequate. Definition stored.
Flash logo area not adequate for recent
definition.
4
Off
00
0
Not used. Fixed to off.
5
Off
On
00
20
0
32
No thermal user-defined characters written to
Flash
Thermal user-defined characters written to
Flash.
6
Off
On
00
04
0
64
No impact user-defined characters written to
Flash.
Impact user-defined characters written to
Flash.
7
Off
00
0
Not used. Fixed to off.
Range of n:
1–4
49 - 52
Example:
MSComm1.Output = Chr$(&H1D) & Chr$(&H72) & Chr$(n)
Exceptions:
When n is out of the specified range, the command is ignored.
Send Printer Software Version
ASCII:
US V
Hexadecimal:
1F 56
Decimal:
31 86
The printer returns 8 bytes containing the boot and Flash software version. The first 4
bytes returned are an ASCII string for the boot version. The second 4 bytes are an ASCII
string for the boot version. Example: for 1.234.56(8bytes), the boot version is 1.23 and the
Flash version is 4.56.
Example:
MSComm1.Output = Chr$(&H1F) & Chr$(&H56)
November 2002
161
7167 Owner’s Manual
Chapter 6: Commands
Recognizing Data from the Printer
An application sending various Real Time and non-Real Time commands to which the
printer responds can determine which command a response belongs to by the table below.
Responses to Transmit Peripheral Device Status (1B 75) and Transmit Paper Sensor Status
(1B 76) are non-Real Time responses and will arrive in the order in which they were
solicited.
Batch Mode Response
162
Response Recognized By:
ASCII
HEX
ESC u 0
1B 75 0
0
0
0
0
0
0
x
x
Binary
ESC v
1B 76
0
0
0
0
0
x
x
x
Binary
GS I n
1D 49 n
0
x
x
0
x
x
x
x
Binary
GS r n
1D 72 n
0
x
x
0
x
x
x
x
Binary
Real-Time Response
ASCII
HEX
Response Recognized By:
GS EOT n
1D 04 n
0
x
x
1
x
x
1
0
Binary
DLE EOT
n
10 04 n
0
x
x
1
x
x
1
0
Binary
GS ENQ
1D 05
1
x
x
x
x
x
x
x
Binary
XON
0
0
0
1
0
0
0
1
Binary
XOFF
0
0
0
1
0
0
1
1
Binary
Auto Status Back (ASB)
Response Recognized By:
ASB Byte 1
0
x
x
1
x
x
0
0
Binary
ASB Bytes 2-4
0
x
x
0
x
x
x
x
Binary
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Real Time Commands
These commands provide an application interface to the printer even when the printer is
not handling other commands (RS-232C communication interface only):
1. Real Time Status Transmission (GS Sequence and DLE Sequence)
2. Real Time Request to Printer (GS Sequence and DLE Sequence)
3. Real Time Printer Status Transmission
The Batch Mode Printer Status commands are placed in the printer’s data buffer as they
are received and handled by the firmware in the order in which they are received. If the
paper exhausts while printing data that was in the buffer ahead of the status command,
the printer goes busy at the RS-232C interface and suspends processing the data in the
buffer until paper is reloaded. This is true for all error conditions: knife home error, slip
paper jam, thermal print head overheat, etc.
In addition, there is no way to restart the printer after a paper jam, or to cancel a slip
waiting condition when using the Wait for Slip command.
The Real Time commands are implemented in two ways to correct these problems. Both
implementations offer the same functionality; which one you choose depends on the
current usage of your application.
Preferred Implementation
For a new application the GS (1D) sequences are recommended to avoid possible
misinterpretation of a DLE (0x10) sequence as a Clear Printer (0x10 0, ASCII DLE NUL)
command.
An application using these GS (1D) sequences, does not need to distinguish for the printer
between the new real time commands and the Clear Printer command. This
implementation is ideal for an existing 7156 application that already uses the Clear Printer
command or for a new application being developed.
Alternate Implementation
The alternate implementation uses the DLE (0x10) sequences as implemented on other
printers. An application using these DLE (0x10) sequences and the original 7156 Clear
Printer command (0x10) must distinguish for the printer between the new real time
commands and the Clear Printer command by adding a NUL (0x00) to the Clear Printer
command.
An application using these DLE (0x10) sequences must also send the second byte of the
sequence within 100 milliseconds of the first, to prevent the first byte being mistaken for a
Clear Printer command.
Rules for Using Real Time Commands
Three situations must be understood when using real time commands.
First, the printer executes the Real Time command upon receiving it and will transmit
status regardless of the condition of the DSR signal.
Second, the printer transmits status whenever it recognizes a Real Time Status
Transmission command sequence, even if that sequence happens to occur naturally within
the data of another command, such as graphics data.
November 2002
163
7167 Owner’s Manual
Chapter 6: Commands
In this case the sequence will also be handled correctly as the graphics data it is intended
to be when the graphics command is executed from the buffer.
Third, care must be taken not to insert a Real Time command into the data sequence of
another command that consists of two or more bytes.
In this case the printer will use the real time command sequence bytes instead of the other
command’s parameter bytes when finally executing that other command from the buffer;
the other command will NOT be executed correctly.
These three situations generally preclude use of standard DOS drivers for the serial
communication ports when using real time commands.
Moving Data Through the Buffer
Another consideration is that an application should take care not to let the buffer fill up
with real time commands when the printer is busy at the RS-232C interface. A busy
condition at the RS-232C interface can be determined by bit 3 of the response to 1D 05 or
1D 04 1 or 10 04 1. The reason for a particular busy condition can be determined by other
responses to 1D 04 n or 10 04 n.
Although the printer responds to Real Time commands when it is busy, it will place them
into the buffer behind any other data there, and flush them out in the order in which they
were received. When the printer is busy due simply to buffer full (that is, it can’t print data
as fast as it can receive it), then data continues to be processed out of the buffer at
approximately print speed and the Real Time commands will eventually get flushed out.
When the printer is busy due to an error condition, then data stops being processed out of
the buffer until the condition clears one way or another. In either case, but more quickly in
the case of an error condition, the buffer can fill with real time commands.
When the DLE sequences are being used, the last byte stored when the buffer fills up
could be the DLE code, with no room for the subsequent EOT or ENQ. When this lone
DLE byte is finally processed out of the buffer it will be interpreted as a Clear Printer
command.
Similarly, when the GS sequences are being used, the last byte stored when the buffer fills
up could be the GS code, with no room for the subsequent EOT or ETX or ENQ. When this
lone GS byte is finally processed out of the buffer it will use the next byte, whatever it is,
as the second byte in its GS sequence.
To guard against this situation, an application should determine the cause of a busy
condition and take appropriate action or pace further real time commands to avoid filling
the buffer. There are a minimum of 256 bytes available in the printer’s buffer when it goes
busy.
164
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Real Time Status Transmission
ASCII:
Hexadecimal:
Decimal:
Value of n:
GS Sequence
DLE Sequence
GS EOT n
DLE EOT n
1D 04 n
10 04 n
29 4 n
16 4 n
GS/DLE Sequence
1 = Transmit printer status
2 = Transmit RS-232C busy status
3 = Transmit error status
4 = Transmit receipt paper status
5 = Slip paper status
Transmits the selected one byte printer status specified by n in Real Time according to the
following parameters. This command includes two sequences: GS and DLE and using
either or will produce the same result.
Example:
MSComm1.Output = Chr$(&H1D) & Chr$(&H04) & Chr$(n)
Exceptions:
The command is ignored if n is out of range.
An application using the DLE sequence must send EOT within 100 milliseconds of DLE or
the printer will misinterpret the DLE and execute a Clear Printer command. Avoid this
possibility by using the 1D 04 n sequence, which is handled exactly the same as 10 04 n.
November 2002
165
7167 Owner’s Manual
Chapter 6: Commands
Related Information:
1 = Transmit Printer Status
Bit
Status
Hex
Decimal
Function
0
Off
00
0
Fixed to Off
1
On
02
2
Fixed to On
2
Off
On
00
04
0
4
One or both cash drawers open
Both cash drawers closed
3
Off
On
00
08
0
8
Not busy at the RS-232C interface
Printer is Busy at the RS-232C interface
4
On
10
16
Fixed to On
5
Undefined
6
Undefined
7
Off
00
0
Fixed to Off
2 = Transmit RS-232C Busy Status
Bit
Status
Hex
Decimal
Function
0
Off
00
0
Fixed to Off
1
On
02
2
Fixed to On
2
Off
00
0
Both receipt and cassette doors closed
On
04
4
Receipt or cassette door open
Off
00
0
Paper Feed Button is not pressed
On
08
8
Paper Feed Button is pressed
4
On
10
16
Fixed to On
5
Off
00
0
On
20
32
Printing not stopped due to paper
condition
3
Printing stopped due to paper condition
6
7
166
Off
00
0
No error condition
On
40
64
Error condition exists in the printer
Off
00
0
Fixed to Off
November 2002
7167 Owner’s Manual
Chapter 6: Commands
3 = Transmit Error Status
Bit
Status
Hex
Decimal
Function
0
Off
00
0
Fixed to Off
1
On
02
2
Fixed to On
2
Off
00
0
No slip motor or flip jam
On
04
4
Slip motor or flip jam occurred
Off
00
0
No knife error
On
08
8
Knife error occurred
4
On
10
16
Fixed to On
5
Off
00
0
No unrecoverable error
On
20
32
Unrecoverable error occurred
Off
00
0
Thermal print head temp./power
supply voltage are in range
On
40
64
Thermal print head temp./power
supply voltage are out of range
Off
00
0
Fixed to Off
3
6
7
4 = Transmit Receipt Paper Status
Bit
Status
Hex
Decimal
Function
0
Off
00
0
Fixed to Off
1
On
02
2
Fixed to On
2
Off
00
0
Receipt paper adequate
On
04
4
Receipt paper low
Off
00
0
Receipt paper adequate
On
08
8
Receipt paper low
4
On
10
16
Fixed to On
5
Off
00
0
Receipt paper present
On
20
32
Receipt paper exhausted
Off
00
0
Receipt paper present
On
40
64
Receipt paper exhausted
Off
00
0
Fixed to Off
3
6
7
November 2002
167
7167 Owner’s Manual
Chapter 6: Commands
5 = Transmit Slip Paper Status
Bit
Status
Hex
Decimal
Function
0
Off
00
0
Fixed to Off
1
On
02
2
Fixed to On
2
Off
00
0
Slip paper selected
On
04
4
Receipt paper selected
Off
00
0
Not waiting for slip
On
08
8
Waiting for slip
4
On
10
16
Fixed to On
5
Off
00
0
Slip leading edge sensor: paper preset
On
20
32
Slip leading edge sensor: no paper
Off
00
0
Slip trailing edge sensor: paper preset
On
40
64
Slip trailing edge sensor: no paper
Off
00
0
Fixed to Off
3
6
7
Real Time Request to Printer
GS Sequence
ASCII:
Hexadecimal:
Decimal:
Value of n:
DLE Sequence
GS ETX n
or
DLE ENQ n
1D 03 n
or
10 05 n
29 3 n
or
16 5 n
1 = Recover and restart
2 = Recover and clear buffers
3 = Cancel slip waiting
The printer responds to a request from the host specified by n. This command includes
two sequences: GS and DLE. The operations performed depend on the value of n,
according to the following parameters.
n = 1:
Restarts printing from the beginning of the line where an error occurred, after recovering
from the error. Print settings that are normally preserved from line to line, such as
character height and width, are still preserved with this command. This sequence is
ignored except when the printer is busy due to an error condition.
If the receipt is selected, this command will attempt recovery from a knife error. Other
errors associated with the receipt, such as paper out or print head overheating, can be
recovered from only by clearing the specific condition, such as loading paper or letting the
print head cool down.
168
November 2002
7167 Owner’s Manual
Chapter 6: Commands
If the slip is selected, this command will attempt recovery from a slip motor or flip jam by
re-homing the print head and waiting for a slip to be inserted before restarting the print.
Other errors associated with the slip, such as cassette door open, can be recovered from
only by clearing the specific condition, such as closing the cassette door.
n = 2:
Recovers from an error after clearing the receive and print buffers. Print settings that are
normally preserved from line to line, such as character height and width, are still
preserved with this command. This sequence is ignored except when the printer is busy
due to an error condition.
If the slip was selected when the error occurred, the receipt becomes selected when the
buffers are cleared. When printing on the slip is to continue, the slip must be selected
again.
The same error recovery possibilities exist as for n = 1.
n = 3:
Cancels the slip waiting status. This sequence is ignored except when the printer is
waiting for a slip to be inserted.
When slip waiting is canceled, the receive and print buffers are cleared and the receipt is
selected. When printing on the slip is to continue, the slip must be selected again.
Exampleusing the GS sequence:
MSComm1.Output = Chr$(&H1D) & Chr$(&H03) & Chr$(n)
Exceptions:
The command is ignored if n is out of range
An application using the DLE sequence must send ENQ within 100 milliseconds of DLE or
the printer will misinterpret the DLE and execute a Clear Printer command. Avoid this
possibility by using the 1D 03 n sequence that is handled exactly the same as 10 05 n.
November 2002
169
7167 Owner’s Manual
Chapter 6: Commands
Real Time Printer Status Transmission
GS ENQ
ASCII:
1D 05
Hexadecimal:
29 5
Decimal:
Transmits one byte status of the printer in real time.
Value of Byte:
Bit
Status
Hex
Decimal
Function
0
Off
00
0
Receipt paper adequate
On
01
1
Receipt paper low
Off
00
0
Receipt paper adequate
On
02
2
Receipt paper low
Off
00
0
Both receipt and cassette doors closed
On
04
4
Receipt or cassette door open
Off
00
0
Not busy at the RS-232C interface
On
08
8
Printer is busy at the RS-232C interface
Off
00
0
One or both cash drawers open
On
1
16
Both cash drawers closed
Off
00
0
Paper present at both slip sensors
On
20
32
Paper not present at one or both slip
sensors
Off
00
0
No error condition
On
40
64
Error condition exists in the printer
On
00
0
Fixed to On
1
2
3
4
5
6
7
Example:
MSComm1.Output = Chr$(&H1D) & Chr$(&H05)
170
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Auto Status Back Commands
Select or Cancel Automatic Status Back
ASCII:
GS a n
Hexadecimal:
1D 61 n
Decimal:
29 97 n
Status of ASB
Value of n:
Enables or disables automatic status back (ASB) and specifies the status items. This
command is a batch mode command; that is, it is processed after all prior data in the
receive buffer has been processed. There may be a time lag between the printer receiving
this command and changing the ASB response, depending on the receive buffer status.
If any of the status items listed are selected, ASB is enabled and the printer automatically
transmits 4 status bytes whenever the selected status changes. If no status is selected, ASB
is disabled. All four status bytes are transmitted without checking DSR.
If the error status is enabled, a change in the following conditions will trigger the ASB:
1. Cash Drawer
2. Receipt Cover
3. Knife Error
4. Out-of-Range Print head Temperature
5. Out-of-Range Voltage
6. Paper Exhaust Status
7. Slip Paper
The bits of n are defined in the table.
Bit
Off/On
Hex
Decimal
Status for ASB
0
Off
On
00
01
0
1
Cash drawer status disabled.
Cash drawer status enabled.
1
Off
On
00
02
0
2
RS-232C Busy status disabled.
RS-232C Busy status enabled.
2
Off
On
00
04
0
4
Error status disabled.
Error status enabled.
3
Off
On
00
08
0
8
Receipt paper roll status disabled.
Receipt paper roll status enabled.
4
-
-
-
Undefined
5
Off
On
00
20
0
32
Slip detector, slip paper status disabled.
Slip detector, slip paper status enabled.
6
-
-
-
Undefined
7
-
-
-
Undefined
November 2002
171
7167 Owner’s Manual
Chapter 6: Commands
Default:
0 (ASB disabled)
Example:
MSComm1.Output = Chr$(&H1D) & Chr$(&H61) & Chr$(n)
Exceptions
If n = 0, ASB is disabled.
Related Information
When Auto Status Back (ASB) is enabled using this command, the status transmitted by
other commands and the ASB status are differentiated according to the information found
in Recognizing Data from the printer, (in the Real Time Commands section in this
chapter). The status bytes to be transmitted are described in the following four tables.
Byte 1 =
Byte 2 =
Byte 3 =
Byte 4 =
172
printer information
error information
paper sensor information
paper sensor information
First Byte (Printer Information)
Bit
Off/On
Hex
Decimal
Status for ASB
0
Off
00
0
Not used. Fixed to off.
1
Off
00
0
Not used. Fixed to off.
2
Off
On
00
04
0
4
One or both cash drawers open.
Both cash drawers closed.
3
Off
On
00
08
0
8
Not Busy at the RS232C interface.
Printer is Busy at the RS232C interface.
4
On
10
16
Not used. Fixed to on.
5
Off
On
00
20
0
32
Receipt cover closed.
Receipt cover open.
6
Off
On
00
40
0
64
Paper Feed Button is not pressed.
Paper Feed Button is pressed.
7
Off
00
0
Not used. Fixed to off.
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Second Byte (Error information)
Bit
Off/On
Hex
Decimal
Status for ASB
0
-
-
-
Undefined
1
-
-
-
Undefined
2
Off
00
0
No Mechanical Error
On
04
4
Mechanical Error Occurred
3
Off
On
00
08
0
8
No knife error.
Knife error occurred.
4
Off
00
0
Not used. Fixed to off.
5
Off
On
00
20
0
32
No unrecoverable error.
Unrecoverable error occurred.
6
Off
On
00
40
0
64
No recoverable error occurred
Recoverable error occurred:
Receipt cover open
Cassette cover open
Receipt paper exhausted
Thermal print head temp out of
range.
Power supply voltage out of range.
7
Off
00
0
Not used. Fixed to off.
Third Byte (Paper Sensor Information)
Bit
Off/On
Hex
Decimal
Status for ASB
0
Off
On
00
01
0
1
Receipt paper adequate
Receipt paper low
1
Off
On
00
02
0
2
Receipt paper adequate
Receipt paper low
2
Off
On
00
04
0
4
Receipt paper present.
Receipt paper exhausted.
3
Off
On
00
08
0
8
Receipt paper present
Receipt paper exhausted
4
Off
00
0
Not used. Fixed to off.
5
Off
On
00
20
0
32
Slip leading edge sensor: paper present
Slip leading edge sensor: no paper
6
Off
On
00
40
0
64
Slip trailing edge sensor: paper preset
Slip trailing edge sensor: no paper.
7
Off
00
0
Not used. Fixed to off.
November 2002
173
7167 Owner’s Manual
Chapter 6: Commands
Fourth Byte (Paper Sensor Information)
Bit
Off/On
Hex
Decimal
Status for ASB
0
Off
00
0
Slip paper selected
On
01
1
Receipt paper selected
Off
00
0
Possible to print in slip
On
02
2
Not possible to print on slip because
no form has been inserted
2
-
-
-
Undefined
3
-
-
-
Undefined
4
Off
00
0
Not used. Fixed to off.
5
-
-
-
Undefined
6
7
Off
00
0
Undefined
Not used. Fixed to off.
1
174
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Bar Code Commands
These following describes the commands for the printing of bar codes and described in
the order of their hexadecimal codes.
Note: 7156 firmware can be set for module widths in bar codes ranging from 2
dots to 4 dots per module (DPM) for the narrow modules. The default is 3 DPM.
7167 firmware ranges from 1 dot per module to 5 dots per module (DPM) printed
on the receipt. The default is 2 DPM.
Select Printing Position for HRI Characters
ASCII:
GS H n
Hexadecimal:
1D 48 n
Decimal:
29 72 n
Value of n:
Printing position
0 = Not printed
1 = Above the bar code
2 = Below the bar code
3 = Both above and below the bar code
Default:
0 (Not printed)
Prints HRI (Human Readable Interface) characters above or below the bar code.
Example:
MSComm1.Output = Chr$(&H1D) & Chr$(&H48) & Chr$(n)
November 2002
175
7167 Owner’s Manual
Chapter 6: Commands
Select Pitch for HRI Characters
ASCII:
GS f n
Hexadecimal:
1D 66 n
Decimal:
29 102 n
Value of n:
Pitch
0 = Standard Pitch at 15.2 CPI on receipt
1 = Compressed Pitch at 19 CPI on receipt
Default:
0 (Standard Pitch at 15.2 CPI)
Selects standard or compressed font for printing Bar Code characters.
When slip is selected as the interface, HRI is always compressed.
Example:
MSComm1.Output = Chr$(&H1D) & Chr$(&H66) & Chr$(n)
Select Bar Code Height
ASCII:
GS h n
Hexadecimal:
1D 68 n
Decimal:
29 104 n
Value of n:
Number of dots
Range of n:
1 - 255
Default:
162
Sets the bar code height to n dots or n/8 mm (n/203 inch) for receipt or
n/8.5 mm (n/216 inch) for slip.
Example:
MSComm1.Output = Chr$(&H1D) & Chr$(&H68) & Chr$(n)
176
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Print Bar Code
First Variation
ASCII:
Hexadecimal:
Decimal:
Second Variation
GS k m d1…dk NUL
or
GS k m n d1…dn
1D 6B m d1…dk 00
or
1D 6B m n d1…dn
29 107 m d1…dk 0
or
29 107 m n d1…dn
0 = End of command.
Values:
First Variation:
String terminated with NUL Character
m = 0 – 6, 10
d = 32 - 126 (see the table)
n = 1 - 255 (see the table)
Selects the bar code type and prints a bar code for the ASCII characters entered. If the
width of the bar code exceeds one line, the barcode is not printed.
There are two variations to this command. The first variation uses a NUL character to
terminate the string; the second uses a length byte at the beginning of the string to
compensate for the Code 128 bar code, which can accept a NUL character as part of the
data. With the second variation the length of byte is specified at the beginning of the
string.
Fixed-length codes can be aligned left, center, or right using the Align Positions command
(1B 61). Variable-length codes are always center aligned in 7156 Emulation. This function
is applicable to the receipt station only. Barcodes on the slip station are always right
justified.
The check digit is calculated for UPC and JAN (EAN) codes if it is not sent from the host
computer. Six-character zero-suppressed UPC-E tags are generated from full 11 or 12
characters sent from the host computer according to standard UPC-E rules. Start/Stop
characters are added for Code 39 if they are not included.
November 2002
177
7167 Owner’s Manual
Chapter 6: Commands
m
Bar Code
D
n, Length
0
UPC-A
48- 57 (ASCII numerals)
Fixed Length: 11, 12
1
UPC-E
48- 57
Fixed Length: 11, 12
2
JAN13 (EAN13)
48- 57
Fixed Length: 12, 13
3
JAN8 (EAN8)
48- 57
Fixed Length: 7, 8
4
Code 39
48- 57,
65- 90 (ASCII alphabet),
32, 36, 37, 43, 45, 46, 47
(ASCII special characters)
d1 = dk = 42 (start/stop
code is supplied by
printer if necessary)
Variable Length
5
Interleaved 2 of 5
(ITF)
48- 57
Variable Length
(Even Number)
6
CODABAR
65- 68, start code
48- 57, 36, 43, 45, 46, 47, 58
Variable Length
(NW-7)
PDF 417
1-255
Variable Length
7158 Native Mode
and 7167 Native
Mode
10
(7158 Native Mode
and 7167 Native
Mode)
Second Variation: Length of Byte Specified at Beginning of String
m=
65 - 73, 75 (see the table)
d=
0 - 127 (see the table)
n=
1 - 255 (see the table)
The value of m selects the bar code system as described in the table. When data is present
in the print buffer, the printer processes the data following m as normal data.
The variable d indicates the character code to be encoded into the specified bar code
system. See the table. If character code d cannot be encoded, the printer prints the bar code
data processed so far, and the following data is treated as normal data.
178
November 2002
7167 Owner’s Manual
Chapter 6: Commands
m
Bar Code
D
n, Length
65
UPC-A
48- 57 (ASCII numerals)
Fixed Length: 11, 12
66
UPC-E
48- 57
Fixed Length: 11, 12
67
JAN13 (EAN13)
48- 57
Fixed Length: 12, 13
68
JAN8 (EAN8)
48- 57
Fixed Length: 7, 8
69
CODE 39
48- 57, 65- 90 (ASCII
alphabet),
32, 36, 37, 43, 45, 46, 47
(ASCII special characters)
d1 = dn = 42 (start/stop
code is supplied by
printer if necessary)
Variable
70
Interleaved 2 of 5
(ITF)
48- 57
Variable
(Even Number)
71
CODABAR
Variable
(NW-7)
65- 68, start code 48- 57,
36, 43, 45, 46, 47, 58
72
Code 93
0 - 127
Variable
(7158 Native Mode
and 7167 Native
Mode only)
73
Code 128
0-105
d1 = 103-105 (must be a
Start code)
d2 = 0-102 (data bytes)
(Stop code is provided by
the printer)
Variable
75
PDF417
0 – 255
Variable Length
(7158 Native Mode
only and 7167
Native Mode)
Example:
MSComm1.Output = Chr$(&H1D) & Chr$(&H6B) & Chr$(m) & "123456789012" & Chr$(0)
The above command will print the number above or below the bar code, depending on
which parameter for m that specify.
Exceptions:
Illegal data cancels this command.
The command is valid only at the beginning of a line.
PDF 417 format cannot be printed on the slip.
Barcodes on the Slip are always right justified.
PDF417 and Code 93 are only available in 7158 Native Mode and 7167 Native Mode.
November 2002
179
7167 Owner’s Manual
Chapter 6: Commands
Select Bar Code Width
ASCII:
GS w n
Hexadecimal:
1D 77 n
Decimal:
29 119 n
Value of n:
Default:
1, 2, 3, 4, 5
3 for receipt; 2 for slip
Sets the bar code width to n dots.
Formulas:
n + 1/8 mm (n + 1/203 inch) for receipt, n + 1/5.7 mm (n + 1/144 inch) for slip.
Slip module sizing: n must be even (it is rounded up if odd) and the size of modules is n +
1/5.7 mm (n + 1/144 inch).
Example:
MSComm1.Output = Chr$(&H1D) & Chr$(&H77) & Chr$(n)
180
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Page Mode Commands
Page Mode is one of two modes, which the 7167 printer uses to operate. Standard Mode is
typical of how most printers operate by printing data as it is received and feeding paper as
the various paper feed commands are received. Page Mode is different in that it processes
or prepares the data as a “page” in memory before it prints it. Think of this as a virtual
page. The page can be any area within certain parameters that you define. Once the printer
receives the (0x0C) command, it prints the page and returns the printer to Standard Mode.
The Select Page Mode command (1B 4C) puts the printer into Page Mode. Any commands
that are received are interpreted as Page Mode commands. Several commands react
differently when in Standard Mode and Page Mode. The descriptions of these individual
commands in this chapter indicate the differences in how they operate in the two modes.
Limitations
Page mode is only implemented on the receipt station in 7158 Native Mode and 7167
Native Mode only.
Print and Return to Standard Mode
ASCII:
FF
Hexadecimal:
0C
Decimal:
12
The processed data is printed and the printer returns to Standard Mode. The developed
data is deleted after being printed. This command has the same code as the Print and Eject
Slip command, which is executed when the printer is not in Page Mode.
Example:
MSComm1.Output = Chr$(&H0C)
Exceptions:
This command is enabled only in Page Mode.
November 2002
181
7167 Owner’s Manual
Chapter 6: Commands
Cancel Print Data in Page Mode
ASCII:
CAN
Hexadecimal:
18
Decimal:
24
Deletes all the data to be printed in the “page” area. Any data from the previously selected
“page” area that is also part of the current data to be printed is deleted.
This command has the same code as the Open Form command, which is performed when
the printer is not in Page Mode.
Example:
MSComm1.Output = Chr$(&H18)
Exceptions:
This command is only used in Page Mode.
Print Data in Page Mode
ASCII:
Hexadecimal:
Decimal:
ESC FF
1B 0C
27 12
Collectively prints all buffered data in the printing area.
After printing, the printer does not clear the buffered data and sets values for Select Print
Direction in Page Mode (1B 54 n) and Set Print Area in Page Mode (1B 57…), and sets the
position for buffering character data.
Example:
MSComm1.Output = Chr$(&H1B) & Chr$(&H0C)
Exceptions:
This command enabled only in Page Mode.
182
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Select Page Mode
ASCII:
ESC L
Hexadecimal:
1B 4C
Decimal:
27 76
Switches from Standard Mode to Page Mode. After printing has been completed either by
the Print and Return to Standard Mode (FF) command or Select Standard Mode (1B 53) the
printer returns to Standard Mode. The developed data is deleted after being printed.
This command sets the position where data is buffered to the position specified by Select
Print Direction in Page Mode (1B 54) within the printing area defined by Set Print Area in
Page Mode (1B 57).
This command switches the settings for the following commands (which values can be set
independently in Standard Mode and Page Mode) to those for Page Mode.
1. Set Right-Side Character Spacing (1B 20)
2. Select 1/6-Inch Line Spacing (1B 32)
3. Set Line Spacing (1B 33)
4. It is possible only to set values for the following commands in Page Mode. These
commands are not executed.
5. Select or Cancel 90 Degree Clockwise Rotation (1B 56)
6. Select Justification (1B 61)
7. Select or Cancel Upside Down Printing (1B 7B).
8. Set Left Margin (1D 4C)
9. Set Print Area Width (1D 57)
Example:
MSComm1.Output = Chr$(&H1B) & Chr$(&H4C)
Exceptions:
The command is enabled only when input at the beginning of a line.
The command is available only when the receipt is selected by Select Paper
(1B 63 30).
The command has no effect if Page Mode has previously been selected.
The Select Paper (1B 63 30) command can not be used in Page Mode.
In 7156 Emulation Mode, (1B 4C…) is used for double density graphics.
November 2002
183
7167 Owner’s Manual
Chapter 6: Commands
Select Standard Mode
ASCII:
ESC S
Hexadecimal:
1B 53
Decimal:
27 83
Switches from Page Mode to Standard Mode. In switching from Page Mode to Standard
Mode, data buffered in Page Mode is cleared, the printing area set by Set Print Area in
Page Mode (1B 57) is initialized and the print position is set to the beginning of the line.
This command switches the settings for the following commands (the values for these
commands can be set independently in Standard Mode and Page Mode) to those for
Standard Mode:
1. Set Right-Side Character Spacing (1B 20)
2. Select 1/6 Inch Line Spacing (1B 32)
3. Set Line Spacing (1B 33)
Standard Mode is automatically selected when power is turned on, the printer is reset, or
the Initialize Printer command (1B 40) is used.
Example:
MSComm1.Output = Chr$(&H1B) & Chr$(&H53)
Exceptions:
This command is effective only in Page Mode.
184
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Select Print Direction in Page Mode
ASCII:
ESC T n
Hexadecimal:
1B 54 n
Decimal:
27 84 n
Value of n:
Start position
0
Upper left corner proceeding across page to the right (A)
1
Lower left corner proceeding up the page (B)
2
Lower right corner proceeding across page to the left (upside
down) (C)
3
Upper right corner proceeding down page (D)
A, B, C and D note the direction of of print. See illustration.
Selects the printing direction and start position in Page Mode. See the illustration.
The command can be sent multiple times so that several different print areas, aligned in
different print directions, can be developed in the printer’s page buffer before being
printed by the Eject Slip command (0C).
B
D
A
Default:
0 (Upper left corner proceeding across page to the right)
Example:
MSComm1.Output = Chr$(&H1B) & Chr$(&H54) & Chr$(n)
Exceptions:
This command is valid only in Page Mode.
This command is ignored if the value of n is out of the specified range.
November 2002
185
7167 Owner’s Manual
Chapter 6: Commands
Set Printing Area in Page Mode
ASCII:
Hexadecimal:
Decimal:
Range:
Default:
ESC W n1, n2 ...n8.]
1B 57 n1, n2 ...n8]
27 87 n1,n2 ...n8]
0 - 255
n1-4 = 0
n5 = 64
n6 = 2
n7 = 64
n8 = 2
Sets the position and size of the printing area in Page Mode.
The command can be sent multiple times so that several different print areas, aligned in
different print directions, can be developed in the printer’s page buffer before being
printed by the Eject Slip command (0C).
Defaults equal an origin of 0,0 and a size of 576x576. This command is allowed in any
mode.
Formulas:
The starting position of the print area is the upper left of the area to be printed (x0, y0).
The length of the area to be printed in the y direction is set to dy inches. The length of the
area to be printed in the x direction is set to dx inches. Use the equations to determine the
Value of x0, y0, dx, and dy.
See the illustration for a graphic representation of the printing area. For more information
about the fundamental calculation pitch, see the Set Fundamental Calculation Pitch
command (1D 50).
1. x0 = [(n1 + n2 x 256) x (horizontal direction of the fundamental calculation pitch)]
2. y0 = [(n3 + n4 x 256) x (vertical direction of the fundamental calculation pitch)]
3. dx = [(n5 + n6 x 256) x (horizontal direction of the fundamental calculation pitch)]
4. dy = [(n7 + n8 x 256) x (vertical direction of the fundamental calculation pitch)]
5. Keep the following notes in mind for this command.
6. The fundamental calculation pitch depends on the vertical or horizontal direction.
7. The maximum printable area in the x direction is 576/203 inches.
8. The maximum printable area in the y direction is 2000/203 inches.
186
November 2002
7167 Owner’s Manual
Chapter 6: Commands
First the printer must be set to page mode, then the following command should be sent.
Example:
MSComm1.Output = Chr$(&H1B) & Chr$(&H57) & Chr$(&H40) & Chr$(&H0) & Chr$(&H40) &
Chr$(&H0) & Chr$(&H40) & Chr$(&H1) & Chr$(&H40) & Chr$(&H1)
Exception:
This command is effective only in Page Mode.
Set Absolute Vertical Print Position in Page Mode
ASCII:
GS $ nL nH
Hexadecimal:
1D 24 nL nH
Decimal:
29 36 nL nH
Formulas:
[(nL + nH X 256) x (vertical or horizontal motion unit)] inches.
Sets the absolute vertical print starting position for buffer character data in
Page Mode.
The vertical or horizontal motion unit for the paper roll is used and the horizontal starting
buffer position does not move.
The reference starting position is set by Select Print Direction in Page Mode
(1B 54). This sets the absolute position in the vertical direction when the starting position
is set to the upper left or lower right; and sets the absolute position in the horizontal
direction when the starting position is set to the upper right or lower left. The horizontal
and vertical motion unit are specified by the Set Horizontal and Vertical Minimum Motion
Units (1D 50) command.
The Set Horizontal and Vertical Minimum Motion Units (1D 50) command can be used to
change the horizontal and vertical motion unit. However, the value cannot be less than the
minimum horizontal movement amount, and it must be in even units of the minimum
horizontal movement amount.
Example:
MSComm1.Output = Chr$(&H1D) & Chr$(&H24) & Chr$(nL) & Chr$(nH)
Exceptions:
This command is effective only in Page Mode. If the [(nL + nH x 256) x (vertical or
horizontal motion unit)] exceeds the specified printing area, this command is ignored.
November 2002
187
7167 Owner’s Manual
Chapter 6: Commands
Set Relative Vertical Print Position in Page Mode
ASCII:
Hexadecimal:
Decimal:
GS \ nL nH
1D 5C nL nH
29 92 nL nH
Sets the relative vertical print starting position from the current position. This command
can also change the horizontal and vertical motion unit. The unit of horizontal and vertical
motion is specified by this command.
This command functions as follows, depending on the print starting position set by Select
Print Direction in Page Mode (1B 54):
When the starting position is set to the upper left or lower left of the printing area, the vertical motion
unit (y) is used.
When the starting position is set to the upper right or lower left of the printing area, the horizontal
motion unit (x) is used.
Value:
The value for the horizontal and vertical movement cannot be less than the minimum
horizontal movement amount, and must be in even units of the minimum horizontal
movement amount.
Formulas:
The distance from the current position is set to [(nL + nH x 256) x vertical or horizontal
motion unit] inches. The amount of movement is calculated only for the receipt.
When pitch n is specified to the movement downward:
nL + nH x 256 = n
When pitch n is specified to the movement upward (the negative direction), use the
complement of 65536.
When pitch n is specified to the movement upward:
nL + nH x 256 – 65536 – N
Exceptions:
This command is used only in Page Mode, otherwise it is ignored.
Any setting that exceeds the specified printing area is ignored.
Example:
MSComm1.Output = Chr$(&H1D) & Chr$(&H5C) & Chr$(nL) & Chr$(nH)
188
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Macro Commands
These commands are used to select and perform a user-defined sequence of printer
operations.
Start or End Macro Definition
ASCII:
Hexadecimal:
Decimal:
GS :
1D 3A
29 58
Starts or ends macro definition. Macro definition begins when this command is received
during normal operation and ends when this command is received during macro
definition. The macro definition is cleared, during definition of the macro, when the
Execute Macro (1D 5E) command is received.
Normal printing occurs while the macro is defined. When the power is turned on the
macro is not defined.
The defined contents of the macro are not cleared by the Initialize Printer
(1B 40), thus,
the Initialize Printer (1B 40) command may be used as part of the macro definition.
If the printer receives a second Select or Cancel Macro Definition (1D 3A) command
immediately after previously receiving a Select or Cancel Macro Definition (1D 3A) the
printer remains in the macro undefined state.
Formulas:
The contents of the macro can be defined up to 2048 bytes.
Example:
MSComm1.Output = Chr$(&H1D) & Chr$(&H3A)
Exceptions:
If the macro definition exceeds 2048 bytes, excess data is not stored.
This command is available in 7158 Native Mode and 7167 Native Mode only.
November 2002
189
7167 Owner’s Manual
Chapter 6: Commands
Execute Macro
ASCII:
Hexadecimal:
Decimal:
GS ^ r t m
1D 5E r t m
29 94 r t m
Value of r:
The number of times to execute the macro.
Value of t:
The waiting time for executing the macro.
Value of m:
Macro executing mode
0 (Bit0):
The Macro executes r times continuously
with waiting time specified by t.
1 (Bit0):
The printer waits for feed button to be
pressed after waiting for the period
specified by t. If the button is pressed,
the printer executes the macro once. The
printer repeats the operation r times.
Executes a macro. After waiting for a specified period the LED indicators blink and the
printer waits for the Paper Feed Button to be pressed. After the button is pressed, the
printer executes the macro once. The printer repeats this operation the number of specified
times.
When the macro is executed by pressing the Paper Feed Button (m = 1), paper cannot be
fed by using the Paper Feed Button.
Formulas:
The waiting time is t x 100 msec for every macro execution.
m specifies macro executing mode when the LSB (Least significant bit) m = 0
The macro executes r times continuously at the interval specified by t when the LSB (Least
significant bit) of m = 1.
Example:
MSComm1.Output = Chr$(&H1D) & Chr$(&H5E) & Chr$(r) & Chr$(t) & Chr$(m)
Exceptions:
If this command is received while a macro is being defined, the macro definition is aborted
and the definition is cleared.
If the macro is not defined or if r is 0, nothing is executed.
This command is available in 7158 Native Mode and 7167 Native Mode only.
190
November 2002
7167 Owner’s Manual
Chapter 6: Commands
MICR Commands
MICR Reading
These commands control the Magnetic Ink Character Recognition (MICR) check reader,
including how it parses the character strings on checks.
The section, MICR Parsing, describes how to create a parsing format and how to create
and maintain an Exceptions table.
Read MICR Data and Transmit
ASCII:
ESC w 1
Hexadecimal:
1B 77 01
Decimal:
27 119 1
Default:
All data returned
Reads and transmits the MICR data and adds a Carriage Return (0x0D). If no parsing
format is selected with either of the Define Parsing Format commands (see below), all data
will be returned, which is the default.
Example:
MSComm1.Output = Chr$(&H1B) & Chr$(&H77) & Chr$(&H01)
Reread MICR Data
ASCII:
ESC w R
Hexadecimal:
1B 77 52
Decimal:
27 119 82
Resends the previously decoded MICR data to the host.
Example:
MSComm1.Output = Chr$(&H1B) & Chr$(&H77) & Chr$(&H52)
November 2002
191
7167 Owner’s Manual
Chapter 6: Commands
MICR Parsing
This section describes MICR parsing in detail and includes several examples of useful
parsing variations. It also describes how to create a parsing format and how to create and
maintain an exception table.
Define Parsing Format, Save in NVRAM
ASCII:
ESC w P d1 d2 … dn CR
Hexadecimal:
1B 77 50 d1 d2 … dn 0D
Decimal:
27 119 80 d1 d2 … dn 13
Defines and saves parsing format. See Parsing Parameter String Options in this document.
Send with this command the parse data that is to be the default parse string at printer
power-up. If no parameters are selected, parsing is not performed.
d1 through dn are the parse string. The string must be CR terminated. If the string has
invalid characters in it or is too long, the printer will store a null string, and raw MICR
data will be returned.
See sample parsing examples
Define Parsing Format, Do Not Save Permanently
ASCII:
ESC w p d1 d2 … dn CR
Hexadecimal:
1B 77 70 d1 d2 … dn CR
Decimal:
27 119 112 d1 d2 … dn CR
Defines, but does not save parsing format. See Parsing Parameter String Options in this
document. Send this command as often as desired to change the previous parse format
string. The data sent with 1B 77 50 will be restored at power-up.
d1 through dn are the parse string. The string must be CR terminated. If the string has
invalid characters in it or is too long, the printer will store a null string, and raw MICR
data will be returned.
See examples of parsing
Exceptions:
If no parameters are selected, parsing is not performed.
192
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Parsing Parameter String Options
Variable Length Fields
Variable Length Field Name
Selector
Comments
Transit Number
T
Full 9 digit routing/transit number
Bank Number
B
Digits 4-8 of transit number
Check Digit
D
Digit 9 of transit number
Account Number
A
Check Serial Number
C
Separate from account number
Amount
$
This field may not be present or
readable
Variable Length Field Optional
Modifiers
Selector
Comments
Zero fill to length
0
ASCII zero preceding maximum
length
Maximum length
nn
1- or 2-digit ASCII number
Remove space/dash
X
Replace space/dash with 0
x
Examples of Variable Length Field Format Specifications
Account #, all characters in the field, keep spaces and dashes
A
Account #, all characters in the field, replace spaces and dashes
xA
Account #, maximum 12 characters, keep spaces and dashes
12A
Account #, always 12 characters zero filled, remove spaces and
dashes
012XA
Other Parameters
Error Number
E
One Digit Returned
0
Read OK
1
Read error: bad character, empty field
invalid length, check digit invalid
Status
S
Two Digits Returned
00
No error
01
No MICR data
09
Mexican check
08
Canadian check
05
Error in transit number
07
Error in account number
04
Error in check serial number
10
Business or commercial check
11
Amount field present
November 2002
193
7167 Owner’s Manual
Chapter 6: Commands
Field Separator
'x
Field separator preceded by a single quote, so a field
separator of the letter A would be sent as 'A (0x27 0x41).
If a Carriage Return is specified as a separator (0x27
0x0D), a final Carriage Return must still terminate the
parsing parameter string.
Country Code
Country Code
Check Type
Un
Km
L
One Digit Returned
N
returned if US check
Nothing
returned if not US check
One Digit Returned
M
returned if Canadian check
Nothing
returned if not Canadian check
One Digit Returned
1
Personal check
2
Business or commercial check
Ten parameters are more than enough to specify all variable length fields with a field
separator each and other status information that may be helpful to an application. More
than 10 parameters are not recommended because they use up space in non-volatile
memory (NVRAM) available for the exception table.
The parsing parameter string is stored packed in NVRAM starting at word 10, with the
total byte length stored in the high order byte of word 10. While most parameters take two
bytes of NVRAM, the following parameters take only one byte: B, D, E, S, L. None of the
parsing examples in the following section take more than 14 bytes (seven words) of
NVRAM.
The exception table starts at word 20. If the parsing parameter string extends into word 20,
then the first exception table entry is unavailable.
194
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Sample Parsing Formats
The following strings show various sample formats that you can use assuming they meet
your parsing format needs. Included with the sample format is a description of the data
that is returned to the application.
ESC w p 18 A <CR>
Maximum 18 characters in the account number
Final Carriage Return
ESC w p 18 X A <CR>
Maximum 18 characters in the account number with spaces and dashes removed
Final Carriage Return
ESC w p 18 x A <CR>
Maximum 18 characters in the account number with spaces and dashes replaced with 0
Final Carriage Return
ESC w p 018 A <CR>
Always 18 characters in the account number (high order zero-filled if necessary)
Final Carriage Return
ESC w p 018 X A <CR>
Always 18 characters in the account number with spaces and dashes removed
Final Carriage Return
ESC w p 018 x A <CR>
Always 18 characters in the account number with spaces and dashes replaced with 0
Final Carriage Return
ESC w p T 18 X A 04C <CR>
All characters in the transit number
All characters in the account number (up to 18) with spaces and dashes removed
Always four characters in the check number (zero-filled if check number is only three characters
long)
Final Carriage Return
ESC w p K9 X T 18 X A 04C <CR>
Canadian check: dash in transit number removed; “9” inserted at beginning, resulting in a fully
numeric nine character transit number
All nine characters in the transit number (because there are no dashes)
All characters in the account number (up to 18) with spaces and dashes removed
Always four characters in the check number (zero-filled if check number is only three characters
long)
Final Carriage Return
November 2002
195
7167 Owner’s Manual
Chapter 6: Commands
ESC w p T '/ A '/ C '/ S <CR>
All characters in the transit number
Field separator: /
All characters in the account number
Field separator: /
All characters in the check number
Field separator: /
Two-digit status
Final Carriage Return
Notes
All parameters are ASCII characters, i.e. greater than or equal to 0x20, with the exception
of a non-ASCII character enclosed in single quotes as a field separator. This applies both
to parameter specifications sent from application to printer, and to MICR data returned
from printer to application.
Parameters are positional; their order in the parameter string is the order in which the
parsed MICR data will be returned. Unrecognized parameters will be ignored, and
processing of the parsing parameters will stop. Any data remaining after the unrecognized
parameter will be treated as normal input data.
If parameters are not defined (for example, 1B 77 50 <CR> or 1B 77 70 <CR>) parsing is
not selected. One status byte followed by all decoded MICR characters will be returned.
This is the default parsing format if no other is selected:
Status
Status Byte Value
Good read, data follows
0x00
Bad read, data follows
0x01
No check present, no data
0x02
Paper jam, no data
0x03
No MICR characters, no
data
0x04
MICR Characters
ASCII
Hexadecimal
Numerics
0...9
0x30...0x39
Unrecognized Character
?
0x3F
0x20
Space
196
Amount symbol
&
0x26
Dash symbol
'
0x27
“on us” symbol
(
0x28
Transit symbol
)
0x29
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Once a parsing format is specified, the following values are returned:
MICR Characters
ASCII
Hexadecimal
Numerics
0...9
0x30...0x39
0x20
Space
-
Dash
0x2D
Field separator*
Country code*
*As specified in the parsing parameter string
Check Serial Number
Parsing the Check Serial Number
Most banks print the check serial number in three easily recognizable spots. The printer
firmware will look for the number in these spots, using the following ordered algorithm.
The examples use letters to represent symbols on the check:
t
Transit symbol
o
“on us” symbol
$
Amount symbol
-
Dash
c
Check serial number
x
Any other number
A number bracketed by “on us” symbols in the auxiliary “on us” field is the check serial
number.
occcccco txxxxxxxxxt xxxxxxxxo
Otherwise, a three or more digit number to the right of the rightmost “on us” symbol, and
to the left of the leftmost amount symbol if an amount field is present, is the check serial
number.
txxxxxxxxxt xxxxxxxxo cccc
txxxxxxxxxt xxxxxxxxo cccc $xxxxxx$
If both of these searches fail to produce the check serial number, extract the whole account
number field from between the rightmost transit symbol and the rightmost “on us”
symbol. A three, four, or five-digit number to the right of the rightmost transit symbol,
separated by a space or a dash from the rest of the account number is the check serial
number.
txxxxxxxxxt cccc xxxxxxxxo
txxxxxxxxxt cccc-xxxxxxxxo
txxxxxxxxxt cccc xxxxxxxxo xx
If all of these searches fail to produce the distinct check serial number, and the check serial
number field has been specified in the parsing parameter string options, no check serial
number will be returned. If it is imbedded within the account number field, it will be
returned as part of that variable length field.
November 2002
197
7167 Owner’s Manual
Chapter 6: Commands
Exceptions
Some banks print the check serial number in a location that cannot be electronically
distinguished without specific exception information, although it can be visually
distinguished because it is repeated in the upper right corner of the check. For these cases,
the printer can hold up to nine exceptions for specific banks in its non-volatile memory
(NVRAM), which is accessed by the read and write NVRAM commands. The specific bank
is picked out by its transit number, and the firmware will look in the exception table for a
transit number match before looking in the normal check serial number locations.
In this example, without an exception table entry, the firmware would always pick the
rightmost four-digit number as the check serial number following rule two above. The
bank with the three digit check serial number and the four digit extension after the “on
us” symbol would need to be exceptionally recognized:
txxxxxxxxxt ccc-xxxxxxxxxxoxxxx
txxxxxxxxxt xxx-xxxxxxxxxxocccc
In this example, without an exception table entry, the firmware would not be able to pick
out the check serial number because it is not separated from the rest of the account
number:
txxxxxxxxxt ccccxxxxxxxxxxo
In this example, without an exception table entry, the firmware would not be able to pick
out the check serial number correctly, because it is imbedded within the rest of the account
number:
txxxxxxxxxt xxx-ccc-xxxxxxxxxxo
Loading the Exception Table
The exception table begins at word 20 in NVRAM. Each entry takes five words. There is
room for eight exceptions with a sumcheck written in the last word. An application can
load local exceptions into the printer using the write NVRAM command:
0x1B 0x73 n1 n2 k
which writes the two byte word n1:n2 to word k in NVRAM.
Exception Table Entry Format
Each exception table entry consists of five words. The first two words contain the first
eight characters of the transit number by packing the low order nibble of the numeric
transit number characters. For Canadian checks, eliminate the dash and store the eight
numerics.
The next three words are used as six individual bytes to tell the firmware how to interpret
the MICR characters that fall to the right of the rightmost transit symbol. Each of the six
bytes is positional and consists of two parts: character type and number.
The three high order bits of each byte mark the character type. The characters can be
marked in three ways: check serial # character, account # character, or “skip this character
or symbol.”
The five low order bits of each byte contain the number of characters of that type to
extract. Most exceptions will not need to use all six bytes; in that case clear the unused
bytes to zero.
198
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Bits within Byte
7
6
5
4
3
2
1
0
check serial # character string
0
0
1
n
n
n
n
n
account # character string
0
1
0
n
n
n
n
n
character string to ignore
1
0
0
n
n
n
n
n
Example 1
t123456780t12349876543210o
9876543210 is the account #
1234 is the check serial #
To load the second table entry, which starts at word 25, the transit number 123456780
would be stored in the first two words of its table entry using this string of commands:
0x1B 0x73 0x12 0x34 25
0x1B 0x73 0x56 0x78 26
After the right transit symbol are immediately the four characters of the check serial #,
followed immediately by the ten characters of the account number. These would be
bitwise encoded as:
0 0 1 0 0 1 0 0 (check #, four characters)
and
0 1 0 0 1 0 1 0 (account #, 10 characters)
then stored in the other three words of the table entry using:
0x1B 0x73 0x24 0x4A 27
0x1B 0x73 0x00 0x00 28
0x1B 0x73 0x00 0x00 29
Example 2
t22137-632t001 6042202o927540
6042202 is the account #
2754 is the check serial #
To load the third table entry, which starts at word 30, the transit number 2137-632 would
be stored in the first two words of its table entry using this string of commands:
0x1B 0x73 0x22 0x13 30
0x1B 0x73 0x76 0x32 31
After the right transit symbol are four characters to skip, a seven digit account number,
two characters to skip, and finally a four digit check serial #. The final character to skip
need not be encoded. These would be bitwise encoded as:
100
010
100
001
00100
00111
00010
00100
(skip four characters)
(account #, seven characters)
(skip two characters)
(check #, four characters)
then stored in the other three words of the table entry using:
0x1B 0x73 0x84 0x47 32
0x1B 0x73 0x82 0x24 33
0x1B 0x73 0x00 0x00 34.
Maintaining the Exception Table
Present contents of the exception table can be examined using the read NVRAM
command:
0x1B 0x6A k
November 2002
199
7167 Owner’s Manual
Chapter 6: Commands
which reads and returns word k in NVRAM. When the exception table is full, a new entry
can replace an older, less frequently used entry, by merely rewriting the words for that
table entry.
Check Flip Command
Check Flip Command
ASCII:
ESC w F
Hexadecimal:
1B 77 46
Decimal:
27 119 70
Causes a check on the slip table to be fed into the printer, flipped and left with the trailing
edge of the check in the slip feed rollers. Prior to the flip, the check is measured to see that
it is of an appropriate size (see Appendix B) to be flipped. If not, the check is fed back to
the user.
Example:
MSComm1.Output = Chr$(&H1B) & Chr$(&H77) & Chr$(&H46)
Exception:
This command is available only in 7158 Native Mode and 7167 Native Mode.
User Data Storage Commands
Write to User Data Storage
ASCII:
ESC ‘ m a0 a1 a2 d1 ... dm
Hexadecimal:
1B 27 m a0 a1 a2 d1 ... dm
Decimal:
27 39 m a0 a1 a2 d1 ... dm
Value of m:
0 – 255
Writes m bytes of data to the User Data Storage Flash Page at the address specified. The
printer waits for m bytes of data following the 3-byte address, addr.
If any of the memory locations addressed by this command are not currently erased, the
command is not executed.
Example:
MSComm1.Output = Chr$(&H1B) & Chr$(&H27) & Chr$(&H5) & Chr$(&H0) & Chr$(&H0) &
Chr$(&H0) & "Hello"
The above command writes the word ‘Hello’ to the User Data Storage Flash Page.
200
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Read from User Data Storage
ASCII:
ESC 4 m a0 a1 a2
Hexadecimal:
1B 34 m a0 a1 a2
Decimal:
27 52 m a0 a1 a2
Value of m:
0 – 255
Reads m bytes of data from the User Data Storage Flash Page at the address specified.
Example:
MSComm1.Output = Chr$(&H1B) & Chr$(&H34) & Chr$(&H5) & Chr$(&H0) & Chr$(&H0) &
Chr$(&H0)
November 2002
201
7167 Owner’s Manual
Chapter 6: Commands
Read from Non-Volatile Memory
ASCII:
ESC j k
Hexadecimal
:
1B 6A k
Decimal:
27 106 k
Range of k:
20 – 63 (decimal)
Reads a two-byte word from location k in the history EEROM. The printer returns the
word at the next available opportunity.
Example:
MSComm1.Output = Chr$(&H1B) & Chr$(&H6A) & Chr$(k)
Write to Non-Volatile Memory (NVRAM)
ASCII:
ESC s n1 n2 k
Hexadecimal:
1B 73 n1 n2 k
Decimal:
27 115 n1 n2 k
Value of n1 :
1st Byte
Value of n2 :
2nd Byte
Range of k :
20 - 63 (decimal)
Writes the two-byte word, n1 n2, to location k in history EEROM.
Example:
MSComm1.Output = Chr$(&H1B) & Chr$(&H73) & Chr$(n1) & Chr$(&Hn2k)
202
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Select Memory Type (SRAM/Flash) Where to Save Logos or User-Defined
Fonts
ASCII:
GS " n
Hexadecimal:
1D 22 n
Decimal:
29 34 n
Value of n:
48 - 51
Specifies whether to load the logos or user-defined characters to Flash Memory or to RAM
(volatile memory). The selection remains in effect until it is changed via this command or
until the power cycles.
n = 48 (ASCII n = 0)
Loads active logo to RAM only. This is used to print a special logo but not have it take up
Flash Memory. A logo defined following this command is not preserved over a power
cycle.
n = 49 (ASCII n = 1)
Loads active logo to Flash Memory. This is the default condition for logo Flash storage. A
logo defined following this command is stored in Flash Memory.
n = 50 (ASCII n = 2)
Loads user-defined characters to RAM only. This is the default condition for user-defined
character storage. Any user-defined characters defined following this command are not
preserved over a power cycle.
n = 51 (ASCII n = 3)Loads user-defined characters to Flash Memory. An application must
use this command to store user-defined characters in Flash Memory. Any user-defined
characters defined following this command are stored in Flash Memory. A user-defined
character cannot be redefined in Flash Memory. The Flash Memory page must be erased
by an application before redefining user-defined characters. For more information, see the
Erase User Flash Sector (1D 40 n) command.
Example:
MSComm1.Output = Chr$(&H1D) & Chr$(&H22) & Chr$(n)
November 2002
203
7167 Owner’s Manual
Chapter 6: Commands
Flash Allocation
ASCII:
GS " U n1 n
Hexadecimal:
1D 22 55 n1 n2
Decimal:
29 34 85 n1 n2
Default Value
of n1:
1 (see below)
Default Value
of n2:
1 (see below)
n1 is the number of 64k sectors used for logos and user-defined characters.
n2 is the number of 64k sectors used for user data storage.
This command sets the allocation of Flash sectors between user data storage and
logos/user-defined characters. This allocation is saved in the EEPROM of the printer and
is therefore saved across power cycles.
n1 + n2 <= 6 (3M)
The 7167 has been configured at the factory with 2M of Flash memory. If n1 + n2 is
greater than the maximum number of sectors available, the command is ignored.
Reissuing this command with different parameters will erase all sectors.
Example:
MSComm1.Output = Chr$(&H1D) & Chr$(&H22) & Chr$(&H55) & Chr$(&Hn1) & Chr$(Hn2)
Exception:
This is command is available only in 7158 Native Mode and 7167 Native Mode.
204
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Erase User Flash Sector
ASCII:
Hexadecimal:
Decimal:
Value of n:
GS @ n
1D 40 n
29 64 n
49 - 50
Erases a page of Flash Memory and sends a carriage return when the operation is
complete.
n = 49 (ASCII n = 1)
This command erases all sectors available for user-defined characters and multiple logos.
The page should be erased in two situations: when the logo definition area is full and an
application is attempting to define new logos, and when an application wants to replace
one user-defined character set with another. In both cases, all logos and character set
definitions are erased and must be redefined.
n = 50 (ASCII n = 2)
This command erases all sectors available for user data storage.
Important: While erasing Flash Memory, the printer disables all interrupts, including
communications. To provide feedback to the application, the printer responds to the
application when the erase is complete. After sending the Erase User Flash Sector (1D 40 n)
command, an application should wait for the response from the printer before sending
data. Otherwise, data will be lost. If an application is unable to receive data, it should wait
a minimum of five seconds after sending the Erase User Flash Sector (1D 40 n) command
before sending data.
Example:
MSComm1.Output = Chr$(&H1D) & Chr$(&H40) & Chr$(n)
November 2002
205
7167 Owner’s Manual
Chapter 6: Commands
Printer Setting Change
ASCII:
US DC1 [m n], [m n], … [m n] 0FFH
Hexadecimal:
1F 11 [m n], [m n], … [m n] 0FFH
Decimal:
31 17 [m n], [m n], … [m n] 0FFH
Value of m, n:
m
(Hex)
Function
n
(Hex)
Function
10
Interface type
00
USB/RS232C
01
RS232C
02
USB
00
115200 bps
01
57600 bps
02
38400 bps
03
19200 bps
04
9600 bps
05
4800 bps
06
2400 bps
07
1200 bps
11
12
13
14
Baud rate
Number of data bit
Number of stop bit
Parity
00
8 data bits
01
7 data bits
00
1 stop bits
01
2 stop bits
00
No parity
01
Even parity
Odd parity
15
16
17
206
Flow control
00
Software (XON/XOFF)
01
Hardware (DTR/DSR)
Data reception errors
option
00
Ignore errors
01
Print “?”
One Line Buffer
00
4 K Buffer
01
00
01
02
00
Single Line Buffer (64 bytes)
7158 Native ID
Emulated Printer ID
7167 Native ID
7158 Native mode
01
7156 mode
02
7150 mode
03
7167 Mode
19
Printer ID mode
20
Emulation
November 2002
7167 Owner’s Manual
Chapter 6: Commands
m
(Hex)
Function
21
Default lines per inch
22
23
24
25
30
31
32
33
34
35
36
37
Carriage return usage
Asian mode
Slip Print Width Option
Receipt synchronization
Print density
Paper Low sensor option
Paper width
Knife option
MICR option
Check Flip option
Max Power
Color Paper Option
n
(Hex)
Function
00
8.13 lines per inch
01
02
7.52 lines per inch
6 lines per inch
00
Ignore CR
01
Use CR as Print cmd.
00
Asian mode on
01
Asian mode off
00
82.2 mm (7167 Mode)
01
120.7 Conversion (7156/58 Mode)
00
Enabled
01
Disabled
00
100%
01
110%
02
120%
00
Paper low sensor enable
01
Paper low sensor disable
00
80 mm
01
58 mm
00
Enable knife
01
Disable knife
00
Enable MICR
01
Disable MICR
00
Enable check flip
01
Disable check flip
00
55 W
01
75 W
00
One color paper
01
Two color paper
November 2002
207
7167 Owner’s Manual
Chapter 6: Commands
m
(Hex)
Function
n
(Hex)
Function
38
MICR dual pass option
40
Default Code page
00
01
00
Dual pass disable
Dual pass enable
437
01
850
02
852
03
858
04
860
05
862
06
863
07
864
08
865
09
866
0A
874
0B
1252
0C
Katakana
0D
932 (or 936, 949, 950)
00
EEPROM default setting
50
EEPROM default setting
Set the printer configuration specified by m and n. The printer is reset after receiving this
command to activate the configuration setting. If m or n is out of range, this command is
ignored. The printer will wait for the data until the terminator code “0FFH” is received.
Example:
The following command would set the communication baud rate to 115,200 bps.
MSComm1.Output = Chr$(&H1F) & Chr$(&H11) & Chr$(&H11) & Chr$(&H0) & Chr$(&HFF)
208
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Asian Character Commands
Select print modes for Kanji characters
ASCII:
FS ! n
Hexadecimal:
1C 21 n
Decimal:
28 33 n
Value of n:
The character attribute for Asian character
Bit
Off/On
Hex
Decimal
Function
0
-
-
-
Select font
1
Off
00
0
Undefined
2
Off
00
0
Double width mode is not selected
On
01
1
Double width mode is selected
Off
00
0
Double height mode is not selected
On
01
1
Double height mode is selected
4
-
-
-
Undefined
5
-
-
-
Undefined
6
-
-
-
Undefined
7
Off
00
0
Underline mode is not selected
On
01
1
Underline mode is selected
3
Default of n:
0
Selects character attribute for Asian character.
The underline mode can be turned on or off by using FS – or ESC – also.
The thickness of underline is defined by FS – or ESC -, it does not relate to character size.
Example:
MSComm1.Output = Chr$(&H1C) & Chr$(&H21) & Chr$(n)
November 2002
209
7167 Owner’s Manual
Chapter 6: Commands
FS – Turn underline mode ON/OFF for Kanji
ASCII:
Hexadecimal:
Decimal:
Value of n:
FS - n
1C 2D n
28 45 n
0 = Cancel
1 = 1 dot height underline
2 = 2 dot height underline
Default n:
0 (Cancel)
Turn underline mode on or off for Asian character.
All characters could be underlined, including character right side spacing.
Underline can be selected by FS ! and ESC – also, the last received command is effective.
Example:
MSComm1.Output = Chr$(&H1C) & Chr$(&H2D) & Chr$(n)
Define user-defined Kanji characters
ASCII:
Hexadecimal:
1C 32 c1 c2 d1 … dn
Decimal:
28 50 c1 c2 d1 … dn
Value of c1:
Specified the beginning Asian character code
Value of c2:
Specified the end Asian character code
Value of d:
210
FS 2 c1 c2 d1 … dn
Image data
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Range of c1,c2:
Japanese
(CP932)
F0 ≤ c1 ≤ F9, 40 ≤ c2 ≤ 7E and 80 ≤
c2 ≤ FC
Simplified
Chinese
(CP936)
A1 ≤ c1 ≤ A7, 40 ≤ c2 ≤ 7E and 80 ≤
c2 ≤ A0, AA ≤ c1 ≤ AF, A1 ≤ c2 ≤
FE,
F8 ≤ c1 ≤ FE, A1 ≤ c2
≤ FE
Korean
(CP949)
c1 = C9 and c1 = FE, A1 ≤ c2 ≤ FE
Traditional
Chinese
(CP950)
81 ≤ c1 ≤ A0 and FA ≤ c1 ≤ FE, 40 ≤
c2 ≤ 7E and 80 ≤ c2 ≤ FE
C7 ≤ c1 ≤ C8, A1 ≤ c2 ≤ FE
Defines and enters downloaded characters into RAM. The user-defined character will be
cleared by ESC @ or power off of printer. Each character requires 72 bytes for character
definition.
The maximum number of user-defined character is 100.
Example:
MSComm1.Output = Chr$(&H1C) & Chr$(&H32) & Chr$(&HF0) & Chr$(&H40) & Chr$(d1) &
Chr$(dn)
Set Kanji character spacing
ASCII:
FS S n1 n2
Hexadecimal:
1C 53 n1 n2
Decimal:
28 83 n1 n2
Value of n1:
Ignored (0)
Value of n2:
Character right side spacing dots (1/203 inch)
Default of n2:
1 for 1 byte character, 2 for 2 bytes character
Sets the character right side spacing for characters in Asian character.
The underline is valid on the space set by this command. ESC SP command is not valid for
Asian character code pages. Therefore, this command is used to set the character right side
spacing for characters in Asian code page.
Example:
MSComm1.Output = Chr$(&H1C) & Chr$(&H53) & Chr$(0) & Chr$(100)
November 2002
211
7167 Owner’s Manual
Chapter 6: Commands
FS W (Set quadruple mode ON/OFF for Kanji)
ASCII:
FS W n
Hexadecimal:
1C 57 n
Decimal:
28 87 n
Value of n:
The quadruple mode for Asian characters.
0 (Bit 0) = Quadruple mode off
1 (Bit 0) = Quadruple mode on
Default of n:
0 (Quadruple mode off)
Selects or cancels the quadruple mode for Asian characters.
FS ! and GS ! also have control over character size. This, latest received command is
effective.
Example:
MSComm1.Output = Chr$(&H1C) & Chr$(&H57) & Chr$(n)
212
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Flash Download Commands
These commands are used to load firmware into the printer.
The commands are listed in numerical order according to their hexadecimal codes. Each
command is described and the hexadecimal, decimal, and ASCII codes are listed.
There are three ways to enter the Download Mode.
1. Powering the printer up with DIP Switch 2 up.
2. While the printer is running normally, use the command Switch to Flash Download
Mode, to leave normal operation and enter the Download Mode.
3. If the Flash if found corrupted during Level 0 diagnostics the Download Mode is
automatically entered after the printer has reset.
The printer never goes directly from the Download Mode to normal printer operation. To
return to normal printer operation either the operator must turn the power off and then on
to reboot or the application must send a command to cancel Download Mode and reboot.
Switch to Flash Download Mode
ASCII:
ESC [ }
Hexadecimal:
1B 5B 7D
Decimal:
27 91 125
Puts the printer in Flash Download Mode in preparation to receive commands controlling
the downloading of objects into Flash Memory. When this command is received, the
printer leaves normal operation and can no longer print transactions until the Reboot the
Printer command (1D FF) is received or the printer is rebooted.
This command does not affect the current communication parameters. Once the printer is
in Flash Download Mode, this command is no longer available.
Example:
MSComm1.Output = Chr$(&H1B) & Chr$(&H5B) & Chr$(&H7D)
Request Printer ID
ASCII:
Hexadecimal:
Decimal:
GS NUL
1D 00
29 0
Returns ACK (06 hex) + 12 bytes ASCII string describing the Flash Memory Boot Sector
Firmware part number. Ex : 189-1234567A
Example:
MSComm1.Output = Chr$(&H1D) & Chr$(&H00)
November 2002
213
7167 Owner’s Manual
Chapter 6: Commands
Return Segment Number Status of Flash Memory
ASCII:
Hexadecimal:
Decimal:
GS SOH
1D 01
29 1
Returns the size of the Flash used. There may be 8, 16, or 32 sectors (64K each) in Flash
Memory. This command assures that the firmware to be downloaded is the appropriate
size for Flash Memory. The value returned is the maximum sector number that can be
accepted by the Select Sector to Download (1D 02 n) command.
Example:
MSComm1.Output = Chr$(&H1D) & Chr$(&H01)
Exceptions:
Available only in Download Mode.
Select Flash Memory Sector to Download
ASCII:
Hexadecimal:
Decimal:
GS STX n
1D 02 n
29 2 n
Value of n:
The Flash sector to which the next download
operation applies
Range of n:
0 – 7 (512K)
0 – 15 (1 mB)
0 – 31 (2 mB)
Selects the Flash sector (nn) for which the next download operation applies. The values of
the possible sector are restricted, depending upon the Flash part type. The printer
transmits an ACK if the sector number is acceptable or an NAK if the sector number is not
acceptable. Sector numbers start at 0.
Example:
MSComm1.Output = Chr$(&H1D) & Chr$(&H02) & Chr$(n)
Exceptions:
Available only in Download Mode.
214
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Get Firmware CRC
ASCII:
Hexadecimal:
Decimal:
GS ACK
1D 06
29 6
Causes the printer to calculate the CRC for the currently selected sector and transmits the
result. This is performed normally after downloading a sector to verify that the
downloaded firmware is correct. The printer also calculates the CRC for each sector
during power up and halts the program if any sector is erroneous.
The printer transmits ACK if the calculated CRC is correct for the selected sector; NAK if
the CRC is incorrect or if no sector is selected.
Example:
MSComm1.Output = Chr$(&H1D) & Chr$(&H06)
Return Microprocessor CRC
ASCII:
Hexadecimal:
Decimal:
GS BEL
1D 07
29 7
Returns the CRC calculated over the boot sector code space.
Formulas: ACK <low byte> <high byte>
Example:
MSComm1.Output = Chr$(&H1D) & Chr$(&H07)
Erase the Flash Memory
ASCII:
GS SO
Hexadecimal:
1D 0E
Decimal:
29 14
Causes the entire Flash Memory (except the boot) to be erased.
The printer returns ACK if the command is successful; NAK if it is unsuccessful.
Example:
MSComm1.Output = Chr$(&H1D) & Chr$(&H0E)
Exceptions:
November 2002
215
7167 Owner’s Manual
Chapter 6: Commands
Available only in Download Mode.
Return Main Program Flash CRC
ASCII:
GS SI
Hexadecimal:
1D 0F
Decimal:
29 15
Returns the CRC calculated over the Flash firmware code space. The format of the
response is ACK <low byte> <high byte>.
Example:
MSComm1.Output = Chr$(&H1D) & Chr$(&H0F)
Erase Selected Flash Sector
ASCII:
GS DLE n
Hexadecimal:
1D 10 n
Decimal:
29 16 n
Value and Range of n:
0 – 7 = 512K bytes Flash
0 – 15 = 1M bytes Flash
0 – 31 = 2M bytes Flash
Erases the previously selected sector. The printer transmits ACK when the sector has been
erased. If the previous sector is not successfully erased, or if no sector was selected, the
printer transmits NAK.
Example:
MSComm1.Output = Chr$(&H1D) & Chr$(&H10) & Chr$(n)
Exceptions:
Available only in Download Mode.
216
November 2002
7167 Owner’s Manual
Chapter 6: Commands
Download to Active Flash Sector
ASCII:
GS DC1 al ah cl ch d1…dn
Hexadecimal:
1D 11 al ah cl ch d1…dn
Decimal:
29 17 al ah cl ch d1…dn
Value of al:
low byte of the address
Value of ah:
high byte of the address
Value of cl:
low byte of the count
Value of ch:
high byte of the count
Value of d:
data bytes, from 1 to n
Contains a start address (ah * 256 + al) and count (ch * 256 + cl) of binary bytes to load into
the selected sector, followed by that many bytes. The start address is relative to the start of
the sector. Addresses run from 0 to 64K.
The printer may return one of several responses. ACK means that the data was written
correctly and the host should transmit the next block. NAK means that, for some reason,
the data was not written correctly. This could mean that communications failed or that the
write to Flash failed. The alternatives seem to be to retry the block or halt loading and
assume a hardware failure.
Value of n (for number of data bytes)
Range of Address (al ah)
Range of Count (cl ch)
((ch * 256) + cl)
2000-FFFF (hexadecimal)
0001-0400 (hexadecimal)
Range:
Addresses run from 0 to 64K.
Related Information:
Available only in Download Mode.
November 2002
217
7167 Owner’s Manual
Chapter 6: Commands
Reboot the Printer
ASCII:
GS (SPACE)
Hexadecimal:
1D FF
Decimal:
29 255
Ends the load process and reboots the printer. Before executing this command, the printer
should have firmware loaded and external switches set to the runtime settings.
Application software for downloading should prompt the user to set the external switches
and confirm before sending this command. If the downloading was started from a
diagnostic, the reboot will cause the printer to reenter download state unless the external
switches are changed.
Example:
MSComm1.Output = Chr$(&H1D) & Chr$(&HFF)
218
November 2002
7167 Owner’s Manual
Appendix A: Specifications
Appendix A: Specifications
Printing Specifications
Thermal Receipt Station
Slip Station
Print head
Fixed
576 Print Elements
Direct Thermal
Fixed Head
Line of Dots
Bi-directional
Logic Seeking
Serial Dot Matrix
Ribbon Cassette
Forms Insertion
Character Cell
Standard: 13 x 24 Dots
Standard: 10 x 7 Dots
Compressed: 10 x 24 Dots
Compressed: 10 x 7 Dots
Character Size
.0525" Wide by .092" High
.057" Wide by .097" High
Character Spacing
15.25 Characters per Inch (horizontal)
Character Pitch
15.6 Characters/Inch (Standard)
13.9 Characters/Inch (Standard)
20.3 Characters/Inch (Compressed)
17.1 Characters/Inch (Compressed)
For 80 mm paper:
45 Columns (Standard)
44 Columns (Standard)
55 Columns (Compressed)
Columns (maximum)
56 Columns (Compressed)
For 58 mm paper:
32 Columns (Standard)
42 Columns (Compressed)
Print Mode
Standard, Compressed, Double High, Standard, Compressed, Double
Wide, Upside Down, Rotated
Double Wide, Upside Down,
Rotated, Underline, Scalable, Bold,
Superscript, Italic, Subscript
Resident Fonts
Code Page 437, 850, 852, 860, 863,
865, 858, 866, 1252, Katakana, 874,
862, 864, and Space page
Code Page 437, 850, 852, 860, 863,
865, 858, 866, 1252, Katakana, 874,
862, 864, and Space page
Speed
3019 Lines / Minute (44 columns),
Depend on Line Spacing
240/202/164/142 Lines per Minute;
Depending on # of Columns
(40 column width)
Print Order
Descending
Descending
Line Spacing
7.52 Lines per Inch ( default )
7.2 Lines / Inch ( default )
8.47, 8.13, 7.81, 7.25, 7.00, 5.98 Lines /
10.3, 9.0, 8.0, 6.5, 6.0, Lines / Inch
Inch and variable lines per inch.
and variable lines per inch.
November 2002
211
7167 Owner’s Manual
Appendix A: Specifications
Thermal Receipt Station
Slip Station
Slew Speed
6.7 Inches per Second
4.0 lines per Second
Print Zone
2.83 Inches Maximum
3.23 Inches Maximum
Noise
57 dBA Sound Pressure (ISO 7779)
62 dBA Sound Pressure (ISO 7779)
Graphics (Optional)
User-Defined Graphics, Logo
User-Defined Graphics
Other
No Reverse Paper Feed
Reverse Paper Feed
Two Form in Sensors
212
November 2002
7167 Owner’s Manual
Appendix A: Specifications
Thermal Receipt Station
Impact Slip Station
Paper Diameter
80 mm Max.
Not Applicable
Paper Length
83 Meters (273 feet)
Side Insertion: 2.0 Inches (Min.)
Front Insertion: 2.75 Inches (Min.)
Paper Width
80 mm ± 1mm
Side Insertion: 8.0 Inches (Min.)
(3.15 Inches ± .02 Inches)
Front Insertion: 2.0 Inches (Min.)
Paper Thickness
Not Applicable
.406 mm (.016 Inch)
Printable Area
2.83 Inches (Max.)
3.22 Inches (Max.)
Power Requirements
The 7167 printer receives power from a separate power supply. Here are the voltage
requirements for the power supply.
Maximum Current
Voltage
Station
Short Term
Long Term
24.0 V ± 10%
Slip
4.6 Amps
3.15 Amps
Receipt
6.5 Amps
3.15 Amps
Environmental Conditions
Operating Temperature
5°C to 45°C (40°F to 112°F), models with knife
5°C to 50°C (40°F to 120°F), models with no knife
Operating Humidity
5% to 90%
Condensation may occur when equipment is transferred from cold to
warm areas after shipment. The printer's design permits operation after
drying out and stabilizing at room temperature.
November 2002
213
7167 Owner’s Manual
214
Appendix A: Specifications
November 2002
7167 Owner’s Manual
Appendix A: Specifications
Reliability
The numbers in the table refer to the Mean Cycle Between Failure (MCBF) for the items
indicated.
Thermal Receipt Printer
45 Million Lines
Impact Slip Printer
15 Million Lines
Impact Print head
200 Million Characters
Electronics
347,000 On time Hours
Communications Card
2,000,000 On Time Hours
Control Panel
2,100,000 On Time Hours
Knife
1 Million Cuts
MICR Check Reader
200,000 Reads
Flip
200,000 Flips
Power Supply
200,000 On-time Hours
Flip Mechanism
200,000 Cycles
Dimensions and Weight
Height
174 mm (6.9 Inches)
Height with Cover Open
296 mm (11.7 Inches)
Width
190 mm (7.5 Inches)
Depth
262 mm (10.3 Inches)
Depth with Extended Slip Table
316 mm (12.5 Inches)
Weight
4.50 Kg (10.0 Pounds), Flip Model
4.25 Kg (9.4 Pounds), Non-Flip
Model
Density of Receipt Print Lines
When the receipt station prints high density print lines (graphics), it automatically slows
down to a rate slower than 902 lines per minute. High density print lines are defined as
lines with over 50% of the dots printing on the line (there are 576 total dot columns on the
print station).
Duty Cycle Restrictions (Printing Solid Blocks)
There are restrictions on the duty cycle because of the heat generated by the receipt
thermal print head when printing solid blocks (regardless of the length of the block in
relation to the print line). The restrictions are ambient temperature, the percentage of time
(measured against one minute) of continuous solid printing, and the amount of coverage.
Caution: When the duty cycle approches the limits shown in the table, the receipt print
head will heat up and shut down. This may damage the print head.
November 2002
215
7167 Owner’s Manual
Appendix A: Specifications
To avoid this problem, do one or a combination of the following:
1.
Reduce the amount of coverage.
2.
Reduce the time of continuous solid printing.
3.
Reduce the ambient temperature.
Ambient Temperature
216
Amount of Solid Coverage
25° C
35° C
50° C
20%
100% of 1 min.
continuous
printing
50% of 1 min.
continuous
printing
20% of 1 min.
continuous
printing
40%
50% of 1 min.
continuous
printing
25% of 1 min.
continuous
printing
10% of 1 min.
continuous
printing
100%
20% of 1 min.
continuous
printing
10% of 1 min.
continuous
printing
3% of 1 min.
continuous
printing
November 2002
7167 Owner’s Manual
Appendix B: Print Characteristics
Appendix B: Print Characteristics
Character Size
This section shows the dot pattern for characters printed on the receipt and slip stations.
Receipt Station
The following two illustrations show the dot patterns of sample characters for standard
pitch (15.6 CPI) and compressed pitch (20.3 CPI). Note that compressed pitch uses fewer
dots horizontally than standard pitch.
Standard Pitch
11 Dots
1.38 mm
.054 in.
13 Dots
1.63 mm
.064 in.
19 Dots
2.38 mm
.094 in.
24 Dots
3.00 mm
.118 in.
203 DPI, 15.6 CPI Pitch (Standard)
November 2002
217
7167 Owner’s Manual
Appendix B: Print Characteristics
Compressed Pitch
8 Dots
1.00 mm
.039 in.
10 Dots
1.25 mm
.049 in.
19 Dots
2.38 mm
.094 in.
24 Dots
3.00 mm
.118 in.
203 DPI, 19 CPI Pitch (Compressed)
Slip Station
The following illustrations show the dot patterns of sample characters for standard pitch
(13.9 CPI), double-wide characters, and rotated characters (counterclockwise).
Standard Pitch
The first illustration shows a single character with the dimensions listed in the table that
follows (including dimensions for compressed pitch). The second illustration shows the
layout of columns for standard pitch characters.
E
B
A
(Next Character)
D
C
Row spacing is fixed and column spacing depends upon the character pitch as indicated in
the table.
Standard Pitch
(13.9 CPI, 45 Columns)
Compressed Pitch
(17.1 CPI, 55 Columns)
.366 mm (.0144 inches)
.30 mm (.0117 inches)
B
1.45 mm (.057 inches)
1.24 mm (.049 inches)
C
2.46 mm (.097 inches)
D
.353 mm (.0139 inches)
E
1.83 mm (.072 inches)
Dimension
A
1.49 mm (.0585 inches)
November 2002
218
7167 Owner’s Manual
Appendix B: Print Characteristics
Note: Columns overlap within the format for each print row in half-dot increments
(depending upon pitch), but the printer cannot print overlapping dots on a single print
row. No ASCII character contains overlapping dots on a print row.
Double-Wide Characters
Double-wide characters are upright characters in an 8x7 dot format with twice the column
(horizontal) spacing between printed dots as for standard characters.
November 2002
219
7167 Owner’s Manual
Appendix B: Print Characteristics
Rotated Characters
Rotated characters are alternate characters in a 5x7 dot format printed 90 degrees
counterclockwise (as shown in the illustration) or clockwise. Only one horizontal pitch is
available: 6.95 CPI, 33 columns maximum.
Dimension
Horizontal Pitch
(6.95 CPI, 33 Columns)
A
.366 mm (.0144 inches)
B
2.56 mm (.100 inches)
C
1.75 mm (.069 inches)
D
.353 mm (.0139 inches)
E
3.66 mm (.144 inches)
November 2002
220
7167 Owner’s Manual
Appendix B: Print Characteristics
Print Zones
This section shows the printable area for the slip station and the receipt station.
Receipt Station
For 80 mm Paper
The receipt station centers characters (standard pitch and compressed pitch) and graphics
on an 80 mm wide (3.15 inches) receipt.
Standard pitch: 13 x 24 dots in character cell, 44 characters (columns) per line
Compressed pitch: 10 x 24 dots in character cell, 56 characters (columns) per line
Double byte character: 24 x 24 dots in character cell, 24 characters (columns) per line
Graphics: 576 addressable bits
The minimum print line height is 24 dots for characters and 24 dots for graphics. The
standard print line height is 27 dots (3.38 mm, .133 inches) for characters (with three extra
dot rows). See the following illustration (not to scale).
Paper Width = 80 mm (3.15 inc.)
Top Margin, 17.5 mm (.69 in.)
Minimum
Print Zone, 72.10 mm (2.84 in.)
576 Dots
Left and Right Margins, 3.95 mm (.16 in.)
For 58 mm Paper
The receipt station centers characters (standard pitch and compressed pitch) and graphics
on an 58 mm wide (2.28 inches) receipt.
Standard pitch: 13 x 24 dots in character cell, 32 characters (columns) per line
Compressed pitch: 10 x 24 dots in character cell, 42 characters (columns) per line
Double byte character: 24 x 24 dots in character cell, 17 characters (columns) per line
Graphics: 424 addressable bits
The minimum print line height is 24 dots for characters and 24 dots for graphics. The
standard print line height is 27 dots (3.38 mm, .133 inches) for characters (with three extra
dot rows). See the following illustration (not to scale).
November 2002
221
7167 Owner’s Manual
Appendix B: Print Characteristics
Paper Width = 58 mm (2.28 inc.)
Top Margin, 17.5 mm (.69 in.)
Minimum
Print Zone, 53.05 mm (2.09 in.)
424 Dots
Left and Right Margins, 2.47 mm (.10 in.)
Slip Station
The slip station prints characters (standard pitch and compressed pitch) and graphics in a
print zone of 82.2 mm (3.24 inches) wide on a slip or form.
Standard pitch: 45 characters (columns) per line
Compressed pitch: 55 characters (columns) per line
Double byte character: 27 characters (columns) per line
The print line height of 10 half dot x 7 dot characters is 2.46 mm (.097 in). With three-dot
spacing, the print line height is 3.53 mm (.139 inches). See the following illustration (not to
scale). To print as close to the bottom of the slip as possible without the slip leaving the
feed rollers, use the Print and Feed n Lines (1B 64 n), with n = 0.
Paper Width: Not Restricted
Top Margin, 16 mm (.63 in.) Minimum
(Without Reverse Feed)
No Top Margin with Reverse Feed
Print Zone, 82.2 mm (3.24 in.)
Left and Right Margins, 3.2 mm (.125 in.)
Bottom Margin: 15.0 mm (.59 in.)
November 2002
222
7167 Owner’s Manual
Appendix B: Print Characteristics
Slip Form Parameters
In order for the printer to handle forms properly the forms shall be flat and void of curls or wrinkles
especially at the leading edge of the form.
Paper Feed Direction
Glued Location
1
2
2
3
Form construction for glued edges.
1) Bottom edge of form should not be glued
2) Paper feeding and insertion are affected by gluing method and the quality of glue used
when form is glued on the right or top edge of form.
3) Skewing may occur when the form is glued on the left edge or when a wide form is used.
The sensors on the printer slip station use a reflective type photo sensor. Therefore the following
precautions must be taken to allow for proper operation.
•
•
Paper that has holes or is translucent in the sensor locations as shown below should not be
used.
When thin paper is used it should be placed between the top and bottom sheets of multiply paper. The thickest ply of paper should be the last ply
November 2002
223
7167 Owner’s Manual
Appendix B: Print Characteristics
Check Size
The size of the check that the slip station and check flip mechanism handles conforms to
ANSI/ABA standard X9.13 dated 1999.
Personal Check
6.00” (152.40 mm) wide x 2.750” (69.85 mm) High .
Business
8.75” (222.25 mm) wide x 3.667” (93.14 mm) High
MICR Media Requirements
MICR Printing
Printing of MICR Characters must conform to MICR standards as defined in ANSI/ABA
X9.13, X9.18 and 9.27 as well ISO 1004.
Forms
Checks must be flat and void of curls, folds or wrinkles expecially at the leading edges of
the checks.
Paper jams and MICR read errors will occur if check have paper clips and staples. Also
damage to the printer mechanism may occur to printer components such as the MICR
read head, paper feed rollers, impact print head, etc..
When inserting the check into the printer and the the printer feed rolls begin to feed the
check release the check immediately. Skewing of the check will occur which will cause
check jams and MICR read errors.
19 mm (0.747”)
8 .0 mm (0.315 “)
6 mm (0.236 “)
Paper Feed
Direction
Edge of Check
Holes and Low Reflection
Not Permitted in these
areas
November 2002
224
7167 Owner’s Manual
Appendix C
Appendix C: Character Sets
The following pages show the character sets.
•
PC Code Page 437 (USEnglish)
•
PC Code Page 850 (Multilingual)
•
PC Code Page 852 (Slavic)
•
PC Code Page 860 (Portuguese)
•
PC Code Page 862 (Hebrew)
•
PC Code Page 863 (French-Canadian)
•
PC Code Page 864 (Arabic)
•
PC Code Page 865 (Nordic)
•
PC Code Page 866 (Cyrillic)
•
PC Code Page 1252 (Windows Latin #1)
•
PC Code Page Katakana
•
PC Code Page 874 (Thai)
•
Space Page
•
Code Page 932
•
Code Page 936
•
Code Page 949
•
Code Page 950
November 2002
225
7167 Owner’s Manual
Appendix C
Code Page 950 Code Page 437, 850, 852 and 858
November 2002
226
7167 Owner’s Manual
Appendix C
Code Page 860, 862, 863 and 864
November 2002
227
7167 Owner’s Manual
Appendix C
Code Page 865, 866, 874 and 1252
November 2002
228
7167 Owner’s Manual
Appendix C
Code Page Katakana
November 2002
229
7167 Owner’s Manual
Appendix C
Code Page 932
November 2002
230
7167 Owner’s Manual
Appendix C
Code Page 932 (Cont)
November 2002
231
7167 Owner’s Manual
Appendix C
Code Page 932 (Cont)
November 2002
232
7167 Owner’s Manual
Appendix C
Code Page 932 (Cont)
November 2002
233
7167 Owner’s Manual
Appendix C
Code Page 932 (Cont)
November 2002
234
7167 Owner’s Manual
Appendix C
Code Page 932 (Cont)
November 2002
235
7167 Owner’s Manual
Appendix C
Code Page 932 (Cont)
November 2002
236
7167 Owner’s Manual
Appendix C
Code Page 932 (Cont)
November 2002
237
7167 Owner’s Manual
Appendix C
Code Page 932 (Cont)
November 2002
238
7167 Owner’s Manual
Appendix C
Code Page 936 Simple Chinese
November 2002
239
7167 Owner’s Manual
Appendix C
Code Page 936 Simple Chines1e (Cont.)
November 2002
240
7167 Owner’s Manual
Appendix C
Code Page 936 Simple Chinese (Cont.)
November 2002
241
7167 Owner’s Manual
Appendix C
Code Page 936 Simple Chinese (Cont.)
November 2002
242
7167 Owner’s Manual
Appendix C
Code Page 936 Simple Chinese (Cont.)
November 2002
243
7167 Owner’s Manual
Appendix C
Code Page 936 Simple Chinese (Cont.)
November 2002
244
7167 Owner’s Manual
Appendix C
Code Page 936 Simple Chinese (Cont.)
November 2002
245
7167 Owner’s Manual
Appendix C
Code Page 936 Simple Chinese (Cont.)
November 2002
246
7167 Owner’s Manual
Appendix C
Code Page 936 Simple Chinese (Cont.)
November 2002
247
7167 Owner’s Manual
Appendix C
Code Page 936 Simple Chinese (Cont.)
November 2002
248
7167 Owner’s Manual
Appendix C
November 2002
249
7167 Owner’s Manual
Appendix C
Code Page 936 Simple Chinese (Cont.)
November 2002
250
7167 Owner’s Manual
Appendix C
Code Page 949 Korean
November 2002
251
7167 Owner’s Manual
Appendix C
Code Page 949 Korean (Cont.)
November 2002
252
7167 Owner’s Manual
Appendix C
Code Page 949 Korean (Cont.)
November 2002
253
7167 Owner’s Manual
Appendix C
Code Page 949 Korean (Cont.)
November 2002
254
7167 Owner’s Manual
Appendix C
Code Page 949 Korean (Cont.)
November 2002
255
7167 Owner’s Manual
Appendix C
Code Page 949 Korean (Cont.)
November 2002
256
7167 Owner’s Manual
Appendix C
Code Page 949 Korean (Cont.)
November 2002
257
7167 Owner’s Manual
Appendix C
Code Page 949 Korean (Cont.)
November 2002
258
7167 Owner’s Manual
Appendix C
Code Page 949 Korean (Cont.)
November 2002
259
7167 Owner’s Manual
Appendix C
Code Page 949 Korean (Cont.)
November 2002
260
7167 Owner’s Manual
Appendix C
Code Page 949 Korean (Cont.)
November 2002
261
7167 Owner’s Manual
Appendix C
Code Page 949 Korean (Cont.)
November 2002
262
7167 Owner’s Manual
Appendix C
Code Page 949 Korean (Cont.)
November 2002
263
7167 Owner’s Manual
Appendix C
Code Page 949 Korean (Cont.)
November 2002
264
7167 Owner’s Manual
Appendix C
Code Page Traditional Chinese (Cont.)
November 2002
265
7167 Owner’s Manual
Appendix C
Code Page 949 Korean (Cont.)
November 2002
266
7167 Owner’s Manual
Appendix C
Code Page 950 Traditional Chinese
November 2002
267
7167 Owner’s Manual
Appendix C
Code Pare 949 Traditional Chinese (Cont.)
November 2002
268
7167 Owner’s Manual
Appendix C
Code Pare 980 Traditional Chinese (Cont.)
November 2002
269
7167 Owner’s Manual
Appendix C
Code Pare 950 Traditional Chinese (Cont.)
November 2002
270
7167 Owner’s Manual
Appendix C
Code Pare 949 Traditional Chinese (Cont.)
November 2002
271
7167 Owner’s Manual
Appendix C
Code Pare 980 Traditional Chinese (Cont.)
November 2002
272
7167 Owner’s Manual
Appendix C
Code Pare 980 Traditional Chinese (Cont.)
November 2002
273
7167 Owner’s Manual
Appendix C
Code Pare 950 Traditional Chinese (Cont.)
November 2002
274
7167 Owner’s Manual
Appendix C
Code Pare 950 Traditional Chinese (Cont.)
November 2002
275
7167 Owner’s Manual
Appendix C
Code Pare 950 Traditional Chinese (Cont.)
November 2002
276
7167 Owner’s Manual
Appendix C
Code Pare 950 Traditional Chinese (Cont.)
November 2002
277
7167 Owner’s Manual
Appendix C
Code Pare 950 Traditional Chinese (Cont.)
November 2002
278
7167 Owner’s Manual
Index
Index
—7—
7167 printer
clearance, 11
dimensions, 11, 214
environmental conditions, 213
features, 1
location, 11
ordering supplies, 5
power requirements, 213
power supply, ordering, 7
printer specifications, 211
reliability, 214
sending in for repair, 11
specifications, 211
turning on, 39
—A—
Accessories. See Supplies
Asian mode
setting, 66
—B—
Bar code commands, 175
Bar codes
commands, 175
BASIC
sending commands, 73
—C—
Cabinet
cleaning, 8
Cables
cash drawer, 9
communication, 9
connecting, 14
Carriage return usage
setting, 65
Cash drawer
ordering, 7
Cash drawer cables
connecting, 14
Changing paper, 40
Character set
code page 437, 225
code page 850, 226
code page 852, 228
code page 863, 230
code page 865, 227, 229, 230, 231, 232
Character sets, 224
Characters, receipt station
dot patterns, 216
Characters, slip station
dot patterns, 217
Check flip
commands, 200
setting, 69
Check flip commands, 200
Check flip test modes
setting, 63
Checks
printing, 46
validating, 48
verifying, 48
Cleaning the printer, 8
Clearance around printer, 11
Code page 437
character set, 224
Code Page 437, 225
Code page 850
character set, 224
Code Page 850, 226
Code Page 852, 228
Code Page 863, 230
Code Page 865, 227, 229, 230, 231, 232
Color paper
setting, 59, 60, 64, 67, 69, 70, 72
Commands
bar code, 175
check flip, 200
flash download, 213
graphics, 142
horizontal positioning, 114
listing, 73
macro, 189
MICR, 191, 209
page mode, 181
print, 105
print characteristics, 122
printer function, 90
printer status, 151
real time, 163
real time,rules for using, 163
realtime, moving data through the buffer, 164
sending, 72
November 2002
Index 1
7167 Owner’s Manual
Index
user data storage, 200
vertical positioning, 105
Commands, printer function
set horizontal and vertical minimum motion
units, 113
Commands, real time
alternate implementation, 163
first implementation, 163
real time request to printer, GS sequence, 169
recognizing data from the printer, 162
Commands, sending
using BASIC, 73
using DOS, 72
Communication, 72
Communication cables, 9
connecting, 14
ordering, 7
Communication interface. See RS-232C interface
Communication interface modes, 58
Configuring the printer, 56
Connecting cables
cash drawer, 14
communication, 14
power, 14
Connector
cash drawer, 77
RS-232C communication, 75
Consumables. See Paper
Contacting a service representative, 52
—D—
Data
moving through buffer, 164
Datascope modes
setting, 61
Default code page, 70
Default lines per inch
setting, 65
Density, of print, 214
Diagnostic modes, 60
Diagnostics, 53
knife failure, 48
level 0, 53
level 1, 54
level 2, 73
level 3, 74
paper jam, 48
paper out, 48
printhead over/under temperature, 49
startup, 53
Dimensions, of printer, 11, 214
DIP switches. See Switch settings
Documentation
ordering, 7
DOS
sending commands, 72
Dot patterns, of characters, 216, 217
Double-wide characters
dot patterns, 218
DTR/DSR protocol, 74
Duty cycle
limitations, 214
—E—
Emulation/software options, 64
Environmental conditions, 213
Errors. See Problems
—F—
Features, 1
Flash download
commands, 213
Flash download commands, 213
Forms
ordering, 6
printing, 46
—G—
Graphics
commands, 142
Graphics commands, 142
—H—
Hardware options, 67
Horizontal positioning commands, 114
—I—
Installation
choosing location, 11
connecting cables, 14
loading paper, 40
removing packing material, 10
setting switches, 13
turning on the printer, 39
Interface. See RS-232C interface
—K—
Knife
failure of, 48
setting, 68
November 2002
Index 2
7167 Owner’s Manual
Index
—L—
LED (green) blinking (fast)
what to do, 48
LED (green) blinking (slow)
what to do, 48
LED (green) does not come on
what to do, 47
LED (slip table) does not come on
what to do, 50
Level 0 diagnostics, 53
Level 1 diagnostics, 54
asian mode, 66
carriage return usage, 65
check flip option, 69
check flip test modes, 63
color paper option, 59, 60, 64, 67, 69, 70, 72
communication interface modes, 58
configuring the printer, 56
datascope modes, 61
default code page, 70
default lines per inch, 65
diagnostic modes, 60
emulation/software options, 64
hardware options, 67
knife option, 68
maximum power option, 67
MICR option, 69
MICR test modes, 62
paper low sensor, 68
paper width, 68
print density, 67
print head gap adjustment test modes, 63
printer configuration, 54
printer emulations, 64
receipt test modes, 62
RS 232 interface, 58
set extra RS-232C options, 78
slip test modes, 61
Level 2 diagnostics, 73
Level 3 diagnostics, 74
Location
choosing, 11
clearance, 11
—M—
Macro
commands, 189
Macro commands, 189
Maintenance
cleaning the printer, 8
Maximum power
setting, 67
MICR
commands, 191, 209
setting, 69
MICR check reader
operating environment, 11
MICR check reader commands, 191, 209
MICR parsing, 192
check serial number, parsing, 197
exception table entry format, 198
exception table, loading, 198
exception table, maintaining, 199
parameter string options, 193
sample parsing formats, 195
MICR test modes
setting, 62
Modes
check flip test, 63
datascope, 61
MICR test, 62
print head gap adjustment test, 63
receipt test, 62
slip test, 61
—O—
Operator panel, 73
Options
asian mode, 66
carriage return usage, 65
check flip, 69
color paper, 59, 60, 64, 67, 69, 70, 72
default lines per inch, 65
knife, 68
maximum power, 67
MICR, 69
paper low sensor, 68
paper width, 68
print density, 67
printer emulations, 64
Ordering
cash drawer, 7
communication cables, 7
documentation, 7
paper, 5
power supply, 7
supplies, 5
—P—
Packing material
removing, 10
repacking printer, 11
Page mode
November 2002
Index 3
7167 Owner’s Manual
commands, 181
Page mode commands, 181
Paper
advancing, 43
changing, 40
low, 40, 48
ordering, 5
out, 40
putting in the paper roll, 42
removing, 41
requirements, 5
suppliers, 5
Paper jam, 48
Paper low sensor
setting, 68
Paper out, 48
Paper width
setting, 68
Parsing. See MICR parsing
Power
turning on the printer, 39
Power cables
connecting, 14
Power requirements, 213
Power supply
ordering, 7
Print characterisitics commands, 122
Print characteristics
commands, 122
Print commands, 105
Print density
receipt, 214
setting, 67
Print head gap adjustment test modes
setting, 63
Print problems, 50
too light, 49
Print speed, 73
Print timing, 73
Print zones
receipt station, 220
slip station, 221
Printer
configuration, 54
Printer configuration
setting, 54
Printer emulations
setting, 64
Printer function commands, 90
Printer status
commands, 151
Printer status commands, 151
Printhead
Index
impact, 4
thermal, 4
Printhead, thermal
cleaning, 8
over/under temperature, 49
Printing, continuous
limitations of, 214
Problems, 47
contacting a service representative, 52
forms skew or catch, 50
knife failure, 48
paper jam, 48
paper out, 48
print is light or spotty, 50
printhead over/under temperature, 49
Protocol, RS-232C
DTR/DSR, 74
XON/XOFF, 74
—R—
Real time
commands, 163
Real time commands, 163
alternate implementation, 163
preferred implementation, 163
using, 163
Receipt station
character dot patterns, 216
print zones, 220
Receipt test modes
setting, 62
Reliability, 214
Removing packing material, 10
Repacking printer, 11
Reset, 13
Ribbon cassette
changing, 44
ordering, 6
Rotated characters
dot patterns, 219
Rotated printing
summary, 141
RS 232 interface
setting, 58
RS 232 interface settings, 58
RS-232C interface, 73
cash drawer connector, 77
communication connector, 75
DTR/DSR protocol, 74
parameters, 78
setting extra options, 78
technical specifications, 74
November 2002
Index 4
7167 Owner’s Manual
Index
XON/XOFF protocol, 74
—S—
Setting switches, 13
RS-232C parameters, 78
Setup mode. See Level 1 diagnostics
Slip station
character dot patterns, 217
print zones, 221
Slip test modes
setting, 61
Specifications, 211
RS-232C interface, 74
Speed, 73
Standard pitch
dot patterns, 217
Supplies
cash drawer, 7
communication cables, 7
forms, 6
paper, 5
power cord, 7
power supply, 7
ribbon cassette, 6
shipped separately, 9
Switch settings, 13
Switch Settings
RS-232C parameters, 78
—T—
Technical specifications
RS-232C interface, 74
Thermal paper
ordering, 5
requirements, 5
suppliers, 5
Thermal printhead. See Printhead
cleaning, 8
print density, 214
Timing, 73
Troubleshooting. See Problems
Turning on the printer, 39
—U—
User data storage
commands, 200
User data storage commands, 200
Using real time commands, 163
—V—
Vertical Positioning Commands, 105
—W—
Weight, of printer, 214
—X—
XON/XOFF protocol, 74
November 2002
Index 5
advertisement
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Related manuals
Download PDF
advertisement