Honeywell 56805683 Xenon 1900/1902 Area Imaging Scanner User’s Guide User Manual To The 667f3d43 91b9 4487 98cc 8ee2fee645d4

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N56XX Decoded Engine

N56XX Decoded Engine

For 5610/5613, 5680/5683, 5690/5693 Engines

User’s Guide

Disclaimer

Honeywell International Inc. (“HII”) reserves the right to make changes in specifications and other information contained in this

document without prior notice, and the reader should in all cases consult HII to determine whether any such changes have been

made. The information in this publication does not represent a commitment on the part of HII.

HII shall not be liable for technical or editorial errors or omissions contained herein; nor for incidental or consequential damages

resulting from the furnishing, performance, or use of this material.

This document contains proprietary information that is protected by copyright. All rights are reserved. No part of this document

may be photocopied, reproduced, or translated into another language without the prior written consent of HII.

Web Address: www.honeywellaidc.com

Microsoft® Windows®, Windows NT®, Windows 2000, Windows ME, Windows XP, and the Windows logo are trademarks or

registered trademarks of Microsoft Corporation.

The Bluetooth® word mark and logos are owned by Bluetooth SIG, Inc.

Other product names or marks mentioned in this document may be trademarks or registered trademarks of other companies

and are the property of their respective owners.

Product Agency Compliance

Note: It is the OEM manufacturer’s responsibility to comply with applicable regulation(s) in regard to standards for specific

equipment combinations.

USA and Canada

UL Statement (Recognized component)

UL listed: UL60950-1, 2nd Edition.

C-UL listed: CSA C22.2 No.60950-1-07, 2nd Edition for I.T.E. product safety.

Europe

Honeywell shall not be liable for use of our product with equipment (i.e., power supplies, personal computers, etc.) that is

not CE marked and does not comply with the Low Voltage Directive.

For CE-related inquiries, contact:

Hand Held Products Europe B.V.

Nijverheidsweg 9-13

5627 BT Eindhoven

The Netherlands

D-Mark Statement

Certified to EN 60950-1 Information Technology Equipment product safety.

International

LED Safety Statement

LEDs have been tested and classified as “EXEMPT RISK GROUP” to the standard: IEC 62471:2006.

CB Scheme

Certified to CB Scheme IEC 60950-1, Second Edition.

Laser Safety Statement

Note: Applies only to N56X3 models.

This device has been tested in accordance with and complies with IEC60825-1 ed2 (2007)

The Standard also states that the following be included in all user documentation, spec sheets, and brochures, which

describe this product:

"Caution - Use of controls or adjustments or performance of procedures other than those specified herein may

result in hazardous radiation exposure."

Note: This warning states that altering the inner parts of the laser engine in a way not specified in the user guide may cause

light levels to exceed Class 2 limits. It is not an issue when using under normal conditions.

Required Safety Labels

ESD Precautions

The engine is shipped in ESD safe packaging. Use care when handling the scan engine outside its packaging. Be sure ground-

ing wrist straps and properly grounded work areas are used.

Dust and Dirt

The engine must be sufficiently enclosed to prevent dust particles from gathering on the engine and lens. When stocking the

unit, keep it in its protective packaging. Dust and other external contaminants will eventually degrade unit performance.

Honeywell Scanning & Mobility Product Environmental Information

Refer to www.honeywellaidc.com/environmental for the RoHS / REACH / WEEE information.

Patents

For patent information, please refer to www.honeywellaidc.com/patents.

Chapter 1 - Getting Started

Introduction ..........................................................................................................................1-1

About This Manual...............................................................................................................1-1

Unpacking Your Device .......................................................................................................1-1

OEM Engine Models ............................................................................................................1-1

Connecting the Development Engine to the PC ..................................................................1-2

Connecting with USB .....................................................................................................1-2

Connecting with RS232 Serial Port................................................................................1-3

Menu Bar Code Security Settings........................................................................................1-4

Setting Custom Defaults ......................................................................................................1-4

Resetting the Custom Defaults ............................................................................................1-5

Chapter 2 - Programming the Interface

Introduction ..........................................................................................................................2-1

Programming the Interface - Plug and Play .........................................................................2-1

Keyboard Wedge ...........................................................................................................2-1

Laptop Direct Connect ...................................................................................................2-1

RS232 Serial Port ..........................................................................................................2-1

USB IBM SurePos..........................................................................................................2-2

USB PC or Macintosh Keyboard....................................................................................2-2

USB HID.........................................................................................................................2-2

USB Serial......................................................................................................................2-3

Verifone® Ruby Terminal Default Settings.....................................................................2-3

Gilbarco® Terminal Default Settings ..............................................................................2-4

Honeywell Bioptic Aux Port Configuration......................................................................2-4

Datalogic™ Magellan® Aux Port Configuration..............................................................2-4

NCR Bioptic Aux Port Configuration ..............................................................................2-4

Wincor Nixdorf Terminal Default Settings ......................................................................2-5

Wincor Nixdorf Beetle™ Terminal Default Settings .......................................................2-5

Keyboard Country Layout ....................................................................................................2-5

Keyboard Style...................................................................................................................2-13

Keyboard Conversion ........................................................................................................2-14

Control Character Output...................................................................................................2-14

Keyboard Modifiers ............................................................................................................2-15

RS232 Modifiers ................................................................................................................2-16

RS232 Baud Rate ........................................................................................................2-16

RS232 Word Length: Data Bits, Stop Bits, and Parity .................................................2-17

RS232 Receiver Time-Out...........................................................................................2-18

RS232 Handshaking ....................................................................................................2-18

RS232 Timeout ............................................................................................................2-19

XON/XOFF...................................................................................................................2-19

ACK/NAK .....................................................................................................................2-19

RS232 Stop Mode........................................................................................................2-20

Table of Contents

Scanner to Bioptic Communication ...................................................................................2-20

Scanner-Bioptic Packet Mode ..................................................................................... 2-20

Scanner-Bioptic ACK/NAK Mode.................................................................................2-20

Scanner-Bioptic ACK/NAK Timeout.............................................................................2-21

Chapter 3 - Input/Output Settings

Power Up Beeper ................................................................................................................3-1

Beep on BEL Character....................................................................................................... 3-1

Trigger Click ........................................................................................................................3-1

Good Read and Error Indicators..........................................................................................3-2

Beeper – Good Read.....................................................................................................3-2

Beeper Volume – Good Read........................................................................................3-2

Beeper Pitch – Good Read............................................................................................ 3-2

Beeper Pitch – Error ...................................................................................................... 3-3

Beeper Duration – Good Read ...................................................................................... 3-3

LED – Good Read .........................................................................................................3-3

Number of Beeps – Good Read ....................................................................................3-4

Number of Beeps – Error............................................................................................... 3-4

Good Read Delay .......................................................................................................... 3-4

User-Specified Good Read Delay..................................................................................3-4

Manual Trigger Modes......................................................................................................... 3-5

Serial Trigger Mode.............................................................................................................3-5

Read Time-Out ..............................................................................................................3-5

Presentation Mode .............................................................................................................. 3-5

LED Illumination - Presentation Mode ........................................................................... 3-6

Presentation LED Behavior after Decode...................................................................... 3-6

Presentation Sensitivity ................................................................................................. 3-6

Streaming Presentation™ Mode ......................................................................................... 3-7

Mobile Phone Read Mode...................................................................................................3-7

Image Snap and Ship..........................................................................................................3-7

Hands Free Time-Out.......................................................................................................... 3-8

Reread Delay.......................................................................................................................3-8

User-Specified Reread Delay ........................................................................................3-8

2D Reread Delay ........................................................................................................... 3-9

Illumination Lights................................................................................................................3-9

Aimer Delay ....................................................................................................................... 3-10

User-Specified Aimer Delay......................................................................................... 3-10

Aimer Mode ....................................................................................................................... 3-10

Centering ........................................................................................................................... 3-10

Preferred Symbology......................................................................................................... 3-12

High Priority Symbology .............................................................................................. 3-12

Low Priority Symbology ............................................................................................... 3-12

Preferred Symbology Time-out.................................................................................... 3-13

Preferred Symbology Default....................................................................................... 3-13

iii

Output Sequence Overview...............................................................................................3-13

Output Sequence Editor ..............................................................................................3-13

To Add an Output Sequence .......................................................................................3-13

Other Programming Selections.................................................................................... 3-13

Output Sequence Editor ..............................................................................................3-15

Partial Sequence .........................................................................................................3-15

Require Output Sequence ........................................................................................... 3-15

Multiple Symbols ............................................................................................................... 3-16

No Read ............................................................................................................................3-16

Video Reverse...................................................................................................................3-16

Working Orientation........................................................................................................... 3-17

Chapter 4 - Data Editing

Prefix/Suffix Overview ......................................................................................................... 4-1

To Add a Prefix or Suffix:............................................................................................... 4-1

To Clear One or All Prefixes or Suffixes........................................................................ 4-2

To Add a Carriage Return Suffix to All Symbologies..................................................... 4-2

Prefix Selections..................................................................................................................4-2

Suffix Selections .................................................................................................................. 4-3

Function Code Transmit ...................................................................................................... 4-3

Intercharacter, Interfunction, and Intermessage Delays......................................................4-3

Intercharacter Delay ...................................................................................................... 4-3

User Specified Intercharacter Delay.............................................................................. 4-4

Interfunction Delay......................................................................................................... 4-4

Intermessage Delay....................................................................................................... 4-5

Chapter 5 - Data Formatting

Data Format Editor Introduction ..........................................................................................5-1

Add a Data Format .............................................................................................................. 5-1

Other Programming Selections...................................................................................... 5-2

Terminal ID Table ................................................................................................................ 5-3

Data Format Editor Commands...........................................................................................5-3

Move Commands........................................................................................................... 5-6

Search Commands........................................................................................................ 5-7

Miscellaneous Commands.............................................................................................5-9

Data Formatter ..................................................................................................................5-12

Data Format Non-Match Error Tone............................................................................ 5-13

Primary/Alternate Data Formats ........................................................................................ 5-13

Single Scan Data Format Change...............................................................................5-13

Chapter 6 - Symbologies

All Symbologies ................................................................................................................... 6-1

Message Length Description ...............................................................................................6-1

Codabar............................................................................................................................... 6-2

Codabar Concatenation................................................................................................. 6-3

Code 39............................................................................................................................... 6-4

Code 32 Pharmaceutical (PARAF)................................................................................6-5

Full ASCII....................................................................................................................... 6-6

Code 39 Code Page ......................................................................................................6-6

Interleaved 2 of 5................................................................................................................. 6-7

NEC 2 of 5 ...........................................................................................................................6-8

Code 93............................................................................................................................... 6-9

Code 93 Code Page ....................................................................................................6-10

Straight 2 of 5 Industrial (three-bar start/stop)................................................................... 6-11

Straight 2 of 5 IATA (two-bar start/stop) ............................................................................ 6-12

Matrix 2 of 5....................................................................................................................... 6-13

Code 11............................................................................................................................. 6-14

Code 128 ...........................................................................................................................6-15

ISBT 128 Concatenation.............................................................................................. 6-15

Code 128 Code Page ..................................................................................................6-16

GS1-128 ............................................................................................................................6-17

Telepen.............................................................................................................................. 6-18

UPC-A ............................................................................................................................... 6-19

UPC-A/EAN-13

with Extended Coupon Code ..........................................................................................6-21

Coupon GS1 DataBar Output............................................................................................ 6-21

UPC-E0 ............................................................................................................................. 6-22

UPC-E1 ............................................................................................................................. 6-24

EAN/JAN-13 ......................................................................................................................6-24

Convert UPC-A to EAN-13 .......................................................................................... 6-24

ISBN Translate ............................................................................................................6-26

EAN/JAN-8 ........................................................................................................................ 6-27

MSI .................................................................................................................................... 6-29

GS1 DataBar Omnidirectional ........................................................................................... 6-31

GS1 DataBar Limited......................................................................................................... 6-31

GS1 DataBar Expanded....................................................................................................6-32

Trioptic Code ..................................................................................................................... 6-32

Codablock A ...................................................................................................................... 6-33

Codablock F ...................................................................................................................... 6-34

PDF417 ............................................................................................................................. 6-35

MacroPDF417 ................................................................................................................... 6-35

MicroPDF417.....................................................................................................................6-36

GS1 Composite Codes......................................................................................................6-36

UPC/EAN Version........................................................................................................ 6-37

GS1 Emulation .................................................................................................................. 6-37

TCIF Linked Code 39 (TLC39) ..........................................................................................6-38

QR Code............................................................................................................................6-38

QR Code Page ............................................................................................................ 6-39

Data Matrix ........................................................................................................................6-40

Data Matrix Code Page ...............................................................................................6-40

MaxiCode .......................................................................................................................... 6-41

Aztec Code ........................................................................................................................ 6-42

Aztec Code Page......................................................................................................... 6-42

Chinese Sensible (Han Xin) Code..................................................................................... 6-43

Postal Codes - 2D ............................................................................................................. 6-44

Single 2D Postal Codes:..............................................................................................6-44

Combination 2D Postal Codes:....................................................................................6-45

Postal Codes - Linear........................................................................................................ 6-48

China Post (Hong Kong 2 of 5).................................................................................... 6-48

Korea Post................................................................................................................... 6-49

Chapter 7 - Imaging Commands

Single-Use Basis ................................................................................................................. 7-1

Command Syntax................................................................................................................7-1

Image Snap - IMGSNP........................................................................................................ 7-1

IMGSNP Modifiers......................................................................................................... 7-1

Image Ship - IMGSHP .........................................................................................................7-3

IMGSHP Modifiers......................................................................................................... 7-3

Intelligent Signature Capture - IMGBOX ...........................................................................7-10

Signature Capture Optimize ........................................................................................7-10

IMGBOX Modifiers....................................................................................................... 7-11

RF Default Imaging Device................................................................................................ 7-14

Chapter 8 - Interface Keys

Keyboard Function Relationships........................................................................................ 8-1

Supported Interface Keys .................................................................................................... 8-3

Chapter 9 - Utilities

To Add a Test Code I.D. Prefix to All Symbologies.............................................................9-1

Show Decoder Revision ......................................................................................................9-1

Show Scan Driver Revision ................................................................................................. 9-1

Show Software Revision...................................................................................................... 9-1

Show Data Format............................................................................................................... 9-1

Test Menu............................................................................................................................ 9-2

TotalFreedom ...................................................................................................................... 9-2

Application Plug-Ins (Apps) ................................................................................................. 9-2

EZConfig-Scanning Introduction..........................................................................................9-3

Installing EZConfig-Scanning from the Web..................................................................9-3

Resetting the Factory Defaults ............................................................................................ 9-4

Chapter 10 - Serial Programming Commands

Conventions.......................................................................................................................10-1

Menu Command Syntax ....................................................................................................10-1

Query Commands .............................................................................................................10-1

Responses................................................................................................................... 10-2

Trigger Commands............................................................................................................10-3

Resetting the Custom Defaults.......................................................................................... 10-3

Menu Commands ..............................................................................................................10-4

Chapter 11 - Maintenance

Repairs .............................................................................................................................. 11-1

Inspecting Cords and Connectors .....................................................................................11-1

Troubleshooting................................................................................................................. 11-1

Chapter 12 - Customer Support

Technical Assistance......................................................................................................... 12-1

Product Service and Repair...............................................................................................12-1

Appendix A - Reference Charts

Symbology Charts ...............................................................................................................A-1

Linear Symbologies .......................................................................................................A-1

2D Symbologies.............................................................................................................A-3

Postal Symbologies .......................................................................................................A-3

ASCII Conversion Chart (Code Page 1252)........................................................................A-3

Lower ASCII Reference Table.............................................................................................A-4

ISO 2022/ISO 646 Character Replacements ......................................................................A-8

Unicode Key Maps ............................................................................................................A-10

1 - 1

Getting Started

Introduction

The N56XX engine is designed for integration into a wide range of OEM devices. The engine’s compact mechanical design can

drop into many existing applications, allowing OEMs and third-party manufacturers to integrate the benefits of image-based

scanning into a variety of devices, including hand held computers (PDTs, medical instrumentation, kiosks, diagnostic equip-

ment, and robotics.

Three different decoding configurations provide OEMs the flexibility required to address various application-specific needs. The

N5610/5613, with linear decoding, delivers laser-like reading on linear codes. The N5680/5683 unit decodes linear as well as

2D and postal codes. In addition to linear, 2D, and postal codes, the N5690/5693 unit includes the OCR feature. The units can

be purchased either with a bright green LED (56X0) or a high visibility laser (56X3) For software updates and additional infor-

mation, visit the Honeywell website at www.honeywellaidc.com.

About This Manual

This User’s Guide provides demonstration, installation, and programming instructions for the N56XX engine.

Honeywell’s bar code scan engines are factory programmed for the most common terminal and communications settings. If you

need to change these settings, programming is accomplished by scanning the bar codes in this guide.

An asterisk (*) next to an option indicates the default setting.

Unpacking Your Device

After you open the shipping carton containing the OEM engine(s), take the following steps:

• Check for damage during shipment. Report damage immediately to the carrier who delivered the carton.

• Make sure the items in the carton match your order.

• Save the shipping container for later storage or shipping.

OEM Engine Models

There are three models of the OEM engine, which may be used with the interfaces described in this manual. Refer to the chart

below to determine the models that can be used with your interface.

Note: The N56XX decoded out engine can be used by customers to evaluate the N5600 non-decoded out engine. Refer to the

N5600 Integration Manual for detailed part numbers and integration information.

Models Interface Decoding Capability

N568XX-XXX-XX2 TTL Level 232 Linear, 2D, postal

N568XX-XXX-XX3 Full-Speed USB Linear, 2D, postal

N568XX-XXX-XX5 High-Speed USB Linear, 2D, postal

N569XX-XXX-XX2 TTL Level 232 Linear, 2D, postal, OCR

N569XX-XXX-XX3 Full-Speed USB Linear, 2D, postal, OCR

N569XX-XXX-XX5 High-Speed USB Linear, 2D, postal, OCR

1 - 2

Connecting the Development Engine to the PC

The development OEM engine can connect to a PC for evaluation.

Connecting with USB

Note: If using the N56XXX-XXX-XX5 engine with USB Micro-B, do not supply power through the flex connector. Doing so

may damage the host or engine. The N56XXX-XXX-XX5 engine will only communicate USB through the Micro-B

connector. The N56XXX-XXX-XX3 engine will only communicate USB through the 10 pin modular connector.

1. Turn off power to the terminal/computer.

2. If using full-speed USB, connect the USB interface cable to the interface board and to the matching USB port on the

computer.

If using high-speed USB, connect the USB interface cable to side of the engine and to the USB port on the computer.

Note: For additional USB programming and technical information, refer to Honeywell’s “USB Application Note,” available at

www.honeywellaidc.com.

1 - 3

3. When connecting the engine using full-speed or high-speed USB, all communication parameters between the engine

and terminal must match for correct data transfer using USB protocol. Scan the appropriate USB interface bar code

below.

4. Verify the engine operation by scanning a bar code from the Sample Symbols in the back of this manual. The engine

beeps once when a bar code is successfully decoded.

Connecting with RS232 Serial Port

1. If using an RS-232 connection, connect the serial interface cable to the interface board and to the matching port on the

back of the computer.

2. Connect the power supply connector to the serial interface cable. Plug in the power supply.

3. Turn the terminal/computer power back on. The engine beeps.

4. If connecting the engine using an RS-232 interface, all communication parameters between the engine and terminal

must match for correct data transfer through the serial port using RS-232 protocol. Scan the RS-232 interface bar code

below. This programs the engine for an RS-232 interface at 115,200 baud, parity–none, 8 data bits, 1 stop bit, and adds

a suffix of a CR LF.

5. Verify the engine operation by scanning a bar code from the Sample Symbols in the back of this manual. The engine

beeps once when a bar code is successfully decoded.

To connect an engine to your host system, refer to the N56XX Integration Manual.

Full-Speed USB

High-Speed USB

RS-232 Interface

1 - 4

The engine has a view finder that projects a bright red aiming beam that corresponds to the engine’s horizontal field of view.

The aiming beam should be centered over the bar code, but it can be positioned in any direction for a good read.

The aiming beam is smaller when the engine is closer to the code and larger when it is farther from the code. Symbologies with

smaller bars or elements (mil size) should be read closer to the unit. Symbologies with larger bars or elements (mil size) should

be read farther from the unit. To read single or multiple symbols (on a page or on an object), hold the engine at an appropriate

distance from the target, pull the trigger, and center the aiming beam on the symbol. If the code being scanned is highly reflec-

tive (e.g., laminated), it may be necessary to tilt the code up 15° to 18° to prevent unwanted reflection.

Menu Bar Code Security Settings

Honeywell scan engines are programmed by scanning menu bar codes or by sending serial commands to the scan engine. If

you want to restrict the ability to scan menu codes, you can use the Menu Bar Code Security settings. Please contact the near-

est technical support office (see Limited Warranty on page 12-1) for further information.

Setting Custom Defaults

You have the ability to create a set of menu commands as your own, custom defaults. To do so, scan the Set Custom Defaults

bar code below before scanning the menu commands for your custom defaults. If a menu command requires scanning numeric

codes from the back cover, then a Save code, that entire sequence will be saved to your custom defaults. When you have

entered all the commands you want to save for your custom defaults, scan the Save Custom Defaults bar code.

Linear bar code 2D Matrix symbol

Set Custom Defaults

Save Custom Defaults

1 - 5

You may have a series of custom settings and want to correct a single setting. To do so, just scan the new setting to overwrite

the old one. For example, if you had previously saved the setting for Beeper Volume at Low to your custom defaults, and decide

you want the beeper volume set to High, just scan the Set Custom Defaults bar code, then scan the Beeper Volume High

menu code, and then Save Custom Defaults. The rest of the custom defaults will remain, but the beeper volume setting will be

updated.

Resetting the Custom Defaults

If you want the custom default settings restored to your scan engine, scan the Activate Custom Defaults bar code below. This

is the recommended default bar code for most users. It resets the scan engine to the custom default settings. If there are no

custom defaults, it will reset the scan engine to the factory default settings. Any settings that have not been specified through

the custom defaults will be defaulted to the factory default settings.

Activate Custom Defaults

1 - 6

2 - 1

Programming the Interface

Introduction

This chapter describes how to program your system for the desired interface.

Programming the Interface - Plug and Play

Plug and Play bar codes provide instant scanner set up for commonly used interfaces.

Note: After you scan one of the codes, power cycle the host terminal to have the interface in effect.

Keyboard Wedge

If you want your system programmed for an IBM PC AT and compatibles keyboard wedge interface with a USA keyboard,

scan the bar code below. Keyboard wedge is the default interface.

Note: The following bar code also programs a carriage return (CR) suffix.

Laptop Direct Connect

For most laptops, scanning the Laptop Direct Connect bar code allows operation of the scan engine in parallel with the

integral keyboard. The following Laptop Direct Connect bar code also programs a carriage return (CR) suffix and turns on

Emulate External Keyboard (page 2-14).

RS232 Serial Port

The RS232 Interface bar code is used when connecting to the serial port of a PC or terminal. The following RS232 Inter-

face bar code also programs a carriage return (CR) and a line feed (LF) suffix, baud rate, and data format as indicated

below. It also changes the trigger mode to manual.

Option Setting

Baud Rate 115,200 bps

Data Format 8 data bits, no parity bit, 1 stop bit

IBM PC AT and Compatibles with

CR suffix

Laptop Direct Connect

with CR suffix

RS232 Interface

2 - 2

USB IBM SurePos

Scan one of the following “Plug and Play” codes to program the scan engine for an IBM SurePos (USB handheld scanner)

or IBM SurePos (USB tabletop scanner) interface.

Note: After scanning one of these codes, you must power cycle the cash register.

Each bar code above also programs the following suffixes for each symbology:

USB PC or Macintosh Keyboard

Scan one of the following codes to program the scan engine for USB PC Keyboard or USB Macintosh Keyboard. Scanning

these codes also adds a CR suffix.

USB HID

Scan the following code to program the scan engine for USB HID bar code scanners.

Symbology Suffix Symbology Suffix

EAN 8 0C Code 39 00 0A 0B

EAN 13 16 Interleaved 2 of 5 00 0D 0B

UPC A 0D Code 128 00 18 0B

UPC E 0A Code 39 00 0A 0B

USB IBM SurePos

(USB Handheld Scanner)

Interface

USB IBM SurePos

(USB Tabletop Scanner)

Interface

USB Keyboard (PC)

USB Keyboard (Mac)

USB Japanese Keyboard (PC)

USB HID Bar Code Scanner

2 - 3

USB Serial

Scan the following code to program the scan engine to emulate a regular RS232-based COM Port. If you are using a Mic-

rosoft® Windows® PC, you will need to download a driver from the Honeywell website (www.honeywellaidc.com). The

driver will use the next available COM Port number. Apple® Macintosh computers recognize the scan engine as a USB

CDC class device and automatically use a class driver.

Note: No extra configuration (e.g., baud rate) is necessary.

CTS/RTS Emulation

ACK/NAK Mode

Verifone

Ruby Terminal Default Settings

Scan the following Plug and Play code to program the scan engine for a Verifone Ruby terminal. This bar code sets the

baud rate to 1200 bps and the data format to 8 data bits, no parity bit, 1 stop bit. It also adds a line feed (LF) suffix and pro-

grams the following prefixes for each symbology:

Symbology Prefix

UPC-A A

UPC-E A

EAN-8 FF

EAN-13 F

USB Serial

CTS/RTS Emulation On

* CTS/RTS Emulation Off

ACK/NAK Mode On

* ACK/NAK Mode Off

Verifone Ruby Settings

2 - 4

Gilbarco

Terminal Default Settings

Scan the following Plug and Play code to program the scan engine for a Gilbarco terminal. This bar code sets the baud rate

to 2400 bps and the data format to 7 data bits, even parity, 2 stop bits. It also adds a carriage return (CR) suffix and pro-

grams the following prefixes for each symbology:

Honeywell Bioptic Aux Port Configuration

Scan the following Plug and Play code to program the scan engine for a Honeywell bioptic scanner auxiliary port configura-

tion. This bar code sets the baud rate to 38400 bps and the data format to 8 data bits, no parity, 1 stop bit.

Datalogic™ Magellan

Aux Port Configuration

Scan the following Plug and Play code to program the scan engine for a Datalogic Magellan auxiliary port configuration.

This bar code sets the baud rate to 9600 bps and the data format to 8 data bits, no parity, 1 stop bit.

NCR Bioptic Aux Port Configuration

Scan the following Plug and Play code to program the scan engine for an NCR bioptic scanner auxiliary port configuration.

The following prefixes are programmed for each symbology:

Symbology Prefix

UPC-A A

UPC-E E0

EAN-8 FF

EAN-13 F

Symbology Prefix Symbology Prefix

UPC-A A Code 39 B1

UPC-E E0 Interleaved 2 of 5 B2

EAN-8 FF All other bar

codes

EAN-13 F

Gilbarco Settings

Honeywell Bioptic Settings

Datalogic Magellan Settings

NCR Bioptic Settings

2 - 5

Wincor Nixdorf Terminal Default Settings

Scan the following Plug and Play code to program the scan engine for a Wincor Nixdorf terminal. This bar code sets the

baud rate to 9600 bps and the data format to 8 data bits, no parity, 1 stop bit.

Wincor Nixdorf Beetle™ Terminal Default Settings

Scan the following Plug and Play code to program the scan engine for a Wincor Nixdorf Beetle terminal. The following pre-

fixes are programmed for each symbology:

Keyboard Country Layout

Scan the appropriate country code below to program the keyboard layout for your country or language. As a general rule, the

following characters are supported, but need special care for countries other than the United States:

@ | $ # { } [ ] = / ‘ \ < > ~

Symbology Prefix Symbology Prefix

Code 128 K EAN-13 A

Code 93 L GS1-128 P

Codabar N Interleaved 2 of 5 I

UPC-A A0 Straight 2 of 5 IATA H

UPC-E C All other bar codes M

EAN-8 B

Keyboard Countries

Wincor Nixdorf Terminal Settings

Wincor Nixdorf Beetle Settings

* United States

Albania

Azeri (Cyrillic)

Azeri (Latin)

2 - 6

Keyboard Countries (Continued)

Belarus

Belgium

Bosnia

Brazil

Brazil (MS)

Bulgaria (Cyrillic)

Bulgaria (Latin)

Canada (French legacy)

Canada (French)

Canada (Multilingual)

Croatia

2 - 7

Keyboard Countries (Continued)

Czech

Czech (Programmers)

Czech (QWERTY)

Czech (QWERTZ)

Denmark

Dutch (Netherlands)

Estonia

Faroese

Finland

France

Gaelic

2 - 8

Keyboard Countries (Continued)

Germany

Greek

Greek (220 Latin)

Greek (220)

Greek (319 Latin)

Greek (319)

Greek (Latin)

Greek (MS)

Greek (Polytonic)

Hebrew

Hungarian (101 key)

2 - 9

Keyboard Countries (Continued)

Hungary

Iceland

Irish

Italian (142)

Italy

Japan ASCII

Kazakh

Kyrgyz (Cyrillic)

Latin America

Latvia

Latvia (QWERTY)

2 - 10

Keyboard Countries (Continued)

Lithuania

Lithuania (IBM)

Macedonia

Malta

Mongolian (Cyrillic)

Norway

Poland

Polish (214)

Polish (Programmers)

Portugal

Romania

2 - 11

Keyboard Countries (Continued)

Russia

Russian (MS)

Russian (Typewriter)

SCS

Serbia (Cyrillic)

Serbia (Latin)

Slovakia

Slovakia (QWERTY)

Slovakia (QWERTZ)

Slovenia

Spain

2 - 12

Keyboard Countries (Continued)

Spanish variation

Sweden

Switzerland (French)

Switzerland (German)

Tatar

Turkey F

Turkey Q

Ukrainian

United Kingdom

United States (Dvorak)

United States (Dvorak left)

2 - 13

Keyboard Style

This programs keyboard styles, such as Caps Lock and Shift Lock. If you have used Keyboard Conversion settings, they will

override any of the following Keyboard Style settings. Default = Regular.

Regular is used when you normally have the Caps Lock key off.

Caps Lock is used when you normally have the Caps Lock key on.

Shift Lock is used when you normally have the Shift Lock key on (not common to U.S. keyboards).

Automatic Caps Lock is used if you change the Caps Lock key on and off. The software tracks and reflects if you have Caps

Lock on or off . This selection can only be used with systems that have an LED that notes the Caps Lock status (AT keyboards).

Autocaps via NumLock bar code should be scanned in countries (e.g., Germany, France) where the Caps Lock key cannot be

used to toggle Caps Lock. The NumLock option works similarly to the regular Autocaps, but uses the NumLock key to retrieve

the current state of the Caps Lock.

Keyboard Countries (Continued)

United Stated (Dvorak right)

United States (International)

Uzbek (Cyrillic)

* Regular

Caps Lock

Shift Lock

Automatic Caps Lock

Autocaps via NumLock

2 - 14

Emulate External Keyboard should be scanned if you do not have an external keyboard (IBM AT or equivalent).

Note: After scanning the Emulate External Keyboard bar code, you must power cycle your computer.

Keyboard Conversion

Alphabetic keyboard characters can be forced to be all upper case or all lowercase. So if you have the following bar code:

“abc569GK,” you can make the output “ABC569GK” by scanning Convert All Characters to Upper Case, or to “abc569gk” by

scanning Convert All Characters to Lower Case.

These settings override Keyboard Style selections.

Note: If your interface is a keyboard wedge, first scan the menu code for Automatic Caps Lock (page 2-13). Otherwise, your

output may not be as expected.

Default = Keyboard Conversion Off.

Control Character Output

This selection sends a text string instead of a control character. For example, when the control character for a carriage return is

expected, the output would display [CR] instead of the ASCII code of 0D. Refer to ASCII Conversion Chart (Code Page

1252) on page A-3. Only codes 00 through 1F are converted (the first column of the chart).

Note: Control + X (Control + ASCII) Mode overrides this mode.

Default = Off.

Emulate External Keyboard

* Keyboard Conversion Off

Convert All Characters

to Upper Case

Convert All Characters

to Lower Case

Control Character Output On

* Control Character Output Off

2 - 15

Keyboard Modifiers

This modifies special keyboard features, such as CTRL+ ASCII codes and Turbo Mode.

Control + X (Control + ASCII) Mode On: The scan engine sends key combinations for ASCII control characters for values 00-

1F. Windows is the preferred mode. All keyboard country codes are supported. DOS mode is a legacy mode, and it does not

support all keyboard country codes. New users should use the Windows mode. Refer to Keyboard Function

Relationships, page 8-1 for CTRL+ X Values.

Windows Mode Prefix/Suffix Off: The scan engine sends key combinations for ASCII control characters for values 00-1F, but

it does not translate any prefix or suffix information.

Default = Control + X Mode Off.

Turbo Mode: The scan engine sends characters to a terminal faster. If the terminal drops characters, do not use Turbo Mode.

Default = Off.

Numeric Keypad Mode: Sends numeric characters as if entered from a numeric keypad. Default = Off.

Windows Mode Control + X

Mode On

* Control + X Mode Off

DOS Mode Control + X Mode On

Windows Mode Prefix/Suffix Off

Turbo Mode On

* Turbo Mode Off

Numeric Keypad Mode On

* Numeric Keypad Mode Off

2 - 16

Automatic Direct Connect Mode: This selection can be used if you have an IBM AT style terminal and the system is dropping

characters. Default = Off.

RS232 Modifiers

RS232 Baud Rate

Baud Rate sends the data from the scan engine to the terminal at the specified rate. The host terminal must be set for the

same baud rate as the engine. Default = 9600.

Automatic Direct Connect Mode

* Automatic Direct Connect

Mode Off

300

600

1200

2400

4800

* 9600

19200

2 - 17

RS232 Word Length: Data Bits, Stop Bits, and Parity

Data Bits sets the word length at 7 or 8 bits of data per character. If an application requires only ASCII Hex characters 0

through 7F decimal (text, digits, and punctuation), select 7 data bits. For applications that require use of the full ASCII set,

select 8 data bits per character. Default = 8.

Stop Bits sets the stop bits at 1 or 2. Default = 1.

Parity provides a means of checking character bit patterns for validity.

Default = None.

38400

57,600

115,200

7 Data, 1 Stop, Parity Even

7 Data, 1 Stop, Parity None

7 Data, 1 Stop, Parity Odd

7 Data, 2 Stop, Parity Even

7 Data, 2 Stop Parity None

7 Data, 2 Stop, Parity Odd

2 - 18

RS232 Receiver Time-Out

The unit stays awake to receive data until the RS232 Receiver Time-Out expires. A manual or serial trigger resets the time-

out. When an RS232 receiver is sleeping, a character may be sent to wake up the receiver and reset the time-out. A trans-

action on the CTS line will also wake up the receiver. The receiver takes 300 milliseconds to completely come up. Change

the RS232 receiver time-out by scanning the bar code below, then scanning digits from the inside back cover of this man-

ual, then scanning Save. The range is 0 to 300 seconds. Default = 0 seconds (no time-out - always on).

RS232 Handshaking

RS232 Handshaking allows control of data transmission from the scan engine using software commands from the host

device. When RTS/CTS is turned Off, no data flow control is used.

Flow Control, No Timeout: The scan engine asserts RTS when it has data to send, and will wait indefinitely for CTS to be

asserted by the host.

Two-Direction Flow Control: The scan engine asserts RTS when it is OK for the host to transmit. The host asserts CTS

when it is OK for the device to transmit.

Flow Control with Timeout: The scan engine asserts RTS when it has data to send and waits for a delay (see RS232

Timeout on page 2-19) for CTS to be asserted by the host. If the delay time expires and CTS is not asserted, the device

transmit buffer is cleared and scanning may resume.

Default = RTS/CTS Off.

8 Data, 1 Stop, Parity Even

* 8 Data, 1 Stop, Parity None

8 Data, 1 Stop, Parity Odd

8 Data, 1 Stop, Parity Mark

RS232 Receiver Time-Out

Flow Control, No Timeout

Two-Direction Flow Control

2 - 19

RS232 Timeout

When using Flow Control with Timeout, you must program the length of the delay you want to wait for CTS from the host.

Set the length (in milliseconds) for a timeout by scanning the bar code below, then setting the timeout (from 1-5100 millisec-

onds) by scanning digits from the inside back cover, then scanning Save.

XON/XOFF

Standard ASCII control characters can be used to tell the scan engine to start sending data (XON/XOFF On) or to stop

sending data (XON/XOFF Off). When the host sends the XOFF character (DC3, hex 13) to the scan engine, data transmis-

sion stops. To resume transmission, the host sends the XON character (DC1, hex 11). Data transmission continues where

it left off when XOFF was sent. Default = XON/XOFF Off.

ACK/NAK

After transmitting data, the scan engine waits for an ACK character (hex 06) or a NAK character (hex 15) response from the

host. If ACK is received, the communications cycle is completed and the scan engine looks for more bar codes. If NAK is

received, the last set of bar code data is retransmitted and the scan engine waits for ACK/NAK again. Turn on the ACK/

NAK protocol by scanning the ACK/NAK On bar code below. To turn off the protocol, scan ACK/NAK Off. Default = ACK/

NAK Off.

Flow Control with Timeout

* RTS/CTS Off

RS232 Timeout

XON/XOFF On

* XON/XOFF Off

ACK/NAK On

* ACK/NAK Off

2 - 20

RS232 Stop Mode

Scan the following bar code to force the engine into a stop mode. Restart the engine by using a trigger pull, nWake, or RxD

toggle.

Scanner to Bioptic Communication

The following settings are used to set up communication between Honeywell scanners and bioptic scanners.

Note: The scan engine’s baud rate must be set to 38400 and the RS232 timeout must be set to 3000 in order to communicate

with a bioptic scanner. See "RS232 Modifiers" on page 2-16, and RS232 Timeout on page 2-19 for further information.

Scanner-Bioptic Packet Mode

Packet Mode On must be scanned to set the scan engine’s format so it is compatible with a bioptic scanner. Default =

Packet Mode Off.

Scanner-Bioptic ACK/NAK Mode

Bioptic ACK/Nak On must be scanned so the scan engine will wait for an ACK or NAK from a bioptic scanner after each

packet is sent. The Scanner-Bioptic ACK/NAK Timeout (below) controls how long the scan engine will wait for a response.

Default = Bioptic ACK/NAK Off.

RS232 Stop Mode On

* Packet Mode Off

Packet Mode On

* Bioptic ACK/NAK Off

Bioptic ACK/NAK On

2 - 21

Scanner-Bioptic ACK/NAK Timeout

This allows you to set the length (in milliseconds) for a timeout for a bioptic scanner’s ACK/NAK response. Scan the bar

code below, then set the timeout (from 1-30,000 milliseconds) by scanning digits from the inside back cover, then scanning

Save. Default = 5100.

ACK/NAK Timeout

2 - 22

3 - 1

Input/Output Settings

Power Up Beeper

The scan engine can be programmed to beep when it’s powered up. Scan the Off bar code(s) if you don’t want a power up

beep. Default = Power Up Beeper On - Scanner.

Beep on BEL Character

You may wish to force the scan engine to beep upon a command sent from the host. If you scan the Beep on BEL On bar code

below, the scan engine will beep every time a BEL character is received from the host. Default = Beep on BEL Off.

Trigger Click

To hear an audible click every time the scanner trigger is pressed, scan the Trigger Click On bar code below. Scan the Trigger

Click Off code if you don’t wish to hear the click. (This feature has no effect on serial or automatic triggering.) Default = Tr ig ge r

Click Off.

Power Up Beeper Off -

Scanner

* Power Up Beeper On -

Scanner

*Beep on BEL Off

Beep on BEL On

*Trigger Click Off

Trigger Click On

3 - 2

Good Read and Error Indicators

Beeper – Good Read

The beeper may be programmed On or Off in response to a good read. Turning this option off only turns off the beeper

response to a good read indication. All error and menu beeps are still audible. Default = Beeper - Good Read On.

Beeper Volume – Good Read

The beeper volume codes modify the volume of the beep the scan engine emits on a good read. Default = High.

Beeper Pitch – Good Read

The beeper pitch codes modify the pitch (frequency) of the beep the scan engine emits on a good read. Default = Medium.

Beeper - Good Read Off

* Beeper - Good Read On

Low

Medium

* High

Off

Low (1600 Hz)

* Medium (2700 Hz)

3 - 3

Beeper Pitch – Error

The beeper pitch codes modify the pitch (frequency) of the sound the scan engine emits when there is a bad read or error.

Default = Razz.

Beeper Duration – Good Read

The beeper duration codes modify the length of the beep the scan engine emits on a good read. Default = Normal.

LED – Good Read

The LED indicator can be programmed On or Off in response to a good read. Default = On.

High (4200 Hz)

* Razz (250 Hz)

Medium (3250 Hz)

High (4200 Hz)

* Normal Beep

Short BeepShort Beep

* LED - Good Read On

LED - Good Read Off

3 - 4

Number of Beeps – Good Read

The number of beeps of a good read can be programmed from 1 - 9. The same number of beeps will be applied to the

beeper and LED in response to a good read. For example, if you program this option to have five beeps, there will be five

beeps and five LED flashes in response to a good read. The beeps and LED flashes are in sync with one another. To

change the number of beeps, scan the bar code below and then scan a digit (1-9) bar code and the Save bar code on the

Programming Chart inside the back cover of this manual. Default = 1.

Number of Beeps – Error

The number of beeps and LED flashes emitted by the scan engine for a bad read or error can be programmed from 1 - 9.

For example, if you program this option to have five error beeps, there will be five error beeps and five LED flashes in

response to an error. To change the number of error beeps, scan the bar code below and then scan a digit (1-9) bar code

and the Save bar code on the Programming Chart inside the back cover of this manual. Default = 1.

Good Read Delay

This sets the minimum amount of time before the scan engine can read another bar code. Default = 0 ms (No Delay).

User-Specified Good Read Delay

If you want to set your own length for the good read delay, scan the bar code below, then set the delay (from 0 - 30,000 mil-

liseconds) by scanning digits from the inside back cover, then scanning Save.

Number of Good Read Beeps/LED Flashes

Number of Error Beeps/LED Flashes

* No Delay

Short Delay (500 ms)

Medium Delay (1,000 ms)

Long Delay (1,500 ms)

User-Specified Good Read Delay

3 - 5

Manual Trigger Modes

When in manual trigger mode, the scan engine scans until a bar code is read, or until the trigger is released. Two modes are

available, Normal and Enhanced. Normal mode offers good scan speed and the longest working ranges (depth of field).

Enhanced mode will give you the highest possible scan speed but slightly less range than Normal mode. Enhanced mode is

best used when you require a very fast scan speed and don’t require a long working range. Default = Manual Trigger-Normal.

Serial Trigger Mode

You can activate the scan engine either by pressing the trigger, or using a serial trigger command (see Trigger Commands on

page 10-3). When in serial mode, the scan engine scans until a bar code has been read or until the deactivate command is

sent. The scan engine can also be set to turn itself off after a specified time has elapsed (see Read Time-Out, which follows).

Read Time-Out

Use this selection to set a time-out (in milliseconds) of the scan engine’s trigger when using serial commands to trigger the

scan engine. Once the scan engine has timed out, you can activate the scan engine either by pressing the trigger or using

a serial trigger command. After scanning the Read Time-Out bar code, set the time-out duration (from 0-300,000 millisec-

onds) by scanning digits on the Programming Chart inside the back cover, then scanning Save. Default = 30,000 ms.

Presentation Mode

Presentation Mode uses ambient light and scan engine illumination to detect bar codes. When in Presentation Mode, the LEDs

remain dim until a bar code is presented to the scan engine, then the aimer turns on and the LEDs turn up to read the code. If

the light level in the room is not high enough, Presentation Mode may not work properly.

Scan the following bar code to program your scan engine for Presentation Mode.

* Manual Trigger - Normal

Manual Trigger - Enhanced

Read Time-Out

Presentation Mode

3 - 6

LED Illumination - Presentation Mode

If you wish to set the illumination LED brightness, scan one of the bar codes below. This sets the LED illumination for the

scan engine when it is in Presentation Mode. (If the scan engine is triggered manually, the LED illumination will switch to

the setting for a manual trigger. Default = High.

Note: The LEDs are like a flash on a camera. The lower the ambient light in the room, the brighter the LEDs need to be so

the scan engine can “see” the bar codes.

Note: LED Illumination - Presentation Mode does not apply to Streaming Presentation™ Mode or Mobile Phone Read

Mode.

Presentation LED Behavior after Decode

When a scan engine is in presentation mode, the LEDs dim 30 seconds after a bar code is decoded. If you wish to dim the

LEDs immediately after a bar code is decoded, scan the LEDs Off bar code, below. Default = LEDs On.

Presentation Sensitivity

Presentation Sensitivity is a numeric range that increases or decreases the scan engine's reaction time to bar code presen-

tation. To set the sensitivity, scan the Sensitivity bar code, then scan the degree of sensitivity (from 0-20) from the inside

back cover, and Save. 0 is the most sensitive setting, and 20 is the least sensitive. Default = 1.

Off

Low

* High

* LEDs On

LEDs Off

Sensitivity

3 - 7

Streaming Presentation™ Mode

When in Streaming Presentation mode, the scan engine’s aimer goes out after a short time, but the scan illumination remains

on all the time to continuously search for bar codes. Two modes are available, Normal and Enhanced. Normal mode offers

good scan speed and the longest working ranges (depth of field). Enhanced mode will give you the highest possible scan

speed but slightly less range than Normal mode. Enhanced mode is best used when you require a very fast scan speed and

don’t require a long working range.

When using Preferred Symbology (page 3-12), a lower priority symbol must be centered on the aiming pattern to be read in

Streaming Presentation Mode.

Mobile Phone Read Mode

When this mode is selected, your scan engine is optimized to read bar codes from mobile phone or other LED displays. How-

ever, the speed of scanning printed bar codes may be slightly lower when this mode is enabled. You can enable Mobile Phone

Reading for either a hand held device, or for a hands-free (presentation) application.

Note: To turn off Mobile Phone Read Mode, scan a Manual or Serial Trigger Mode bar code (see page 3-5).

Image Snap and Ship

Image Snap and Ship tells the engine to take a picture (rather than read a bar code) when the trigger is pressed. Once the pic-

ture is snapped, it is shipped to the host system as a jpeg file by default. To revert to bar code reading, you must change to a

different trigger mode (see Manual Trigger Modes beginning on page 3-5).

Note: You must send a serial command for Manual Trigger Modes (see page 3-5) in order to use menu codes after using Image

Snap and Ship

Streaming Presentation Mode

- Normal

Streaming Presentation Mode

- Enhanced

Hand Held Scanning - Mobile

Phone

Streaming Presentation -

Mobile Phone

Image Snap and Ship

3 - 8

Hands Free Time-Out

The Scan Stand and Presentation Modes are referred to as “hands free” modes. If the scanner’s trigger is pulled when using a

hands free mode, the scanner changes to manual trigger mode. You can set the time the scanner should remain in manual trig-

ger mode by setting the Hands Free Time-Out. Once the time-out value is reached, (if there have been no further trigger pulls)

the scanner reverts to the original hands free mode.

Scan the Hands Free Time-Out bar code, then scan the time-out duration (from 0-300,000 milliseconds) from the inside back

cover, and Save. Default = 5,000 ms.

Reread Delay

This sets the time period before the scan engine can read the same bar code a second time. Setting a reread delay protects

against accidental rereads of the same bar code. Longer delays are effective in minimizing accidental rereads. Use shorter

delays in applications where repetitive bar code scanning is required. Reread Delay only works when in a Presentation Mode

(see page 3-5). Default = Medium.

User-Specified Reread Delay

If you want to set your own length for the reread delay, scan the bar code below, then set the delay (from 0-30,000 millisec-

onds) by scanning digits from the inside back cover, then scanning Save.

Hands Free Time-Out

Short (500 ms)

* Medium (750 ms)

Long (1000 ms)

Extra Long (2000 ms)

User-Specified Reread Delay

3 - 9

2D Reread Delay

Sometimes 2D bar codes can take longer to read than other bar codes. If you wish to set a separate Reread Delay for 2D

bar codes, scan one of the programming codes that follows. 2D Reread Delay Off indicates that the time set for Reread

Delay is used for both 1D and 2D bar codes. Default = 2D Reread Delay Off.

Illumination Lights

If you want the illumination lights on while reading a bar code, scan the Lights On bar code, below. However, if you want to turn

just the lights off, scan the Lights Off bar code. Default = Lights On.

Note: This setting does not affect the aimer light. The aiming light can be set using Aimer Mode (page 3-10).

* 2D Reread Delay Off

Short (1000ms)

Medium (2000ms)

Long (3000ms)

Extra Long (4000ms)

* Lights On

Lights Off

3 - 10

Aimer Delay

The aimer delay allows a delay time for the operator to aim the scan engine before the picture is taken. Use these codes to set

the time between when the trigger is pulled and when the picture is taken. During the delay time, the aiming light will appear,

but the LEDs won’t turn on until the delay time is over. Default = Off.

User-Specified Aimer Delay

If you want to set your own length for the duration of the delay, scan the bar code below, then set the time-out by scanning

digits (0 - 4,000 ms) from the Programming Chart inside the back cover of this manual, then scan Save.

Aimer Mode

This feature allows you to turn the aimer on and off. When the Interlaced bar code is scanned, the aimer is interlaced with the

illumination LEDs. Default = Interlaced.

Centering

Use Centering to narrow the scan engine’s field of view to make sure that when the scanner is hand-held, it reads only those bar

codes intended by the user. For instance, if multiple codes are placed closely together, centering will insure that only the

desired codes are read. (Centering can be used in conjunction with Aimer Delay, page 3-10, for the most error-free operation

in applications where multiple codes are spaced closely together. Using the Aimer Delay and Centering features, the scanner

can emulate the operation of older systems, such as linear laser bar code scanners.).

If a bar code is not touched by a predefined window, it will not be decoded or output by the scan engine. If centering is turned

on by scanning Centering On, the scan engine only reads codes that pass through the centering window you specify using the

Top of Centering Window, Bottom of Centering Window, Left, and Right of Centering Window bar codes.

200 milliseconds

400 milliseconds

* Off (no delay)

Delay Duration

Off

* Interlaced

3 - 11

In the example below, the white box is the centering window. The centering window has been set to 20% left, 30% right, 8% top,

and 25% bottom. Since Bar Code 1 passes through the centering window, it will be read. Bar Code 2 does not pass through

the centering window, so it will not be read.

Note: A bar code needs only to be touched by the centering window in order to be read. It does not need to pass completely

through the centering window.

Scan Centering On, then scan one of the following bar codes to change the top, bottom, left, or right of the centering window.

Then scan the percent you want to shift the centering window using digits on the inside back cover of this manual. Scan Save.

Default Centering = 40% for Top and Left, 60% for Bottom and Right.

Bar Code 1

Bar Code 2

10 20 30 40 50 60 70 80 90 100%

100

Centering On

* Centering Off

Top of Centering Window

Bottom of Centering Window

3 - 12

Preferred Symbology

The scan engine can be programmed to specify one symbology as a higher priority over other symbologies in situations where

both bar code symbologies appear on the same label, but the lower priority symbology cannot be disabled.

For example, you may be using the scanner in a retail setting to read U.P.C. symbols, but have occasional need to read a code

on a drivers license. Since some licenses have a Code 39 symbol as well as the PDF417 symbol, you can use Preferred Sym-

bology to specify that the PDF417 symbol be read instead of the Code 39.

Preferred Symbology classifies each symbology as high priority, low priority, or as an unspecified type. When a low priority

symbology is presented, the scanner ignores it for a set period of time (see Preferred Symbology Time-out on page 3-13) while

it searches for the high priority symbology. If a high priority symbology is located during this period, then that data is read imme-

diately.

If the time-out period expires before a high priority symbology is read, the scanner will read any bar code in its view (low priority

or unspecified). If there is no bar code in the scanner’s view after the time-out period expires, then no data is reported.

Note: A low priority symbol must be centered on the aiming pattern to be read.

Scan a bar code below to enable or disable Preferred Symbology. Default = Preferred Symbology Off.

High Priority Symbology

To specify the high priority symbology, scan the High Priority Symbology bar code below. On the Symbology Charts on

page A-1, find the symbology you want to set as high priority. Locate the Hex value for that symbology and scan the 2 digit

hex value from the Programming Chart (inside back cover). Scan Save to save your selection. Default = None

Low Priority Symbology

To specify the low priority symbology, scan the Low Priority Symbology bar code below. On the Symbology Charts on page

A-1, find the symbology you want to set as low priority. Locate the Hex value for that symbology and scan the 2 digit hex

value from the Programming Chart (inside back cover).

If you want to set additional low priority symbologies, scan FF, then scan the 2 digit hex value from the Programming Chart

for the next symbology. You can program up to 5 low priority symbologies. Scan Save to save your selection. Default =

None.

Preferred Symbology On

* Preferred Symbology Off

High Priority Symbology

Low Priority Symbology

3 - 13

Preferred Symbology Time-out

Once you have enabled Preferred Symbology and entered the high and low priority symbologies, you must set the time-out

period. This is the period of time the scan engine will search for a high priority bar code after a low priority bar code has

been encountered. Scan the bar code below, then set the delay (from 1-3,000 milliseconds) by scanning digits from the

inside back cover, then scanning Save. Default = 500 ms.

Preferred Symbology Default

Scan the bar code below to set all Preferred Symbology entries to their default values.

Output Sequence Overview

Output Sequence Editor

This programming selection allows you to program the scan engine to output data (when scanning more than one symbol)

in whatever order your application requires, regardless of the order in which the bar codes are scanned. Reading the

Default Sequence symbol programs the scan engine to the Universal values, shown below. These are the defaults. Be

certain you want to delete or clear all formats before you read the Default Sequence symbol.

Note: To make Output Sequence Editor selections, you’ll need to know the code I.D., code length, and character match(es)

your application requires. Use the Alphanumeric symbols (inside back cover) to read these options. You must hold

the trigger while reading each bar code in the sequence.

To Add an Output Sequence

1. Scan the Enter Sequence symbol (see Require Output Sequence, page 3-15).

2. Code I.D.

On the Symbology Charts on page A-1, find the symbology to which you want to apply the output sequence format.

Locate the Hex value for that symbology and scan the 2 digit hex value from the Programming Chart (inside back

cover).

3. Length

Specify what length (up to 9999 characters) of data output will be acceptable for this symbology. Scan the four digit

data length from the Programming Chart. (Note: 50 characters is entered as 0050. 9999 is a universal number,

indicating all lengths.) When calculating the length, you must count any programmed prefixes, suffixes, or formatted

characters as part of the length (unless using 9999).

4. Character Match Sequences

On the ASCII Conversion Chart (Code Page 1252), page A-3, find the Hex value that represents the character(s) you

want to match. Use the Programming Chart to read the alphanumeric combination that represents the ASCII

characters. (99 is the Universal number, indicating all characters.)

5. End Output Sequence Editor

Scan F F to enter an Output Sequence for an additional symbology, or Save to save your entries.

Other Programming Selections

•Discard

This exits without saving any Output Sequence changes.

Preferred Symbology Time-out

Preferred Symbology Default

3 - 14

Output Sequence Example

In this example, you are scanning Code 93, Code 128, and Code 39 bar codes, but you want the scanner to output Code 39

1st, Code 128 2nd, and Code 93 3rd, as shown below.

Note: Code 93 must be enabled to use this example.

You would set up the sequence editor with the following command line:

SEQBLK62999941FF6A999942FF69999943FF

The breakdown of the command line is shown below:

SEQBLKsequence editor start command

62 code identifier for Code 39

9999 code length that must match for Code 39, 9999 = all lengths

41 start character match for Code 39, 41h = “A”

FF termination string for first code

6A code identifier for Code 128

9999 code length that must match for Code 128, 9999 = all lengths

42 start character match for Code 128, 42h = “B”

FF termination string for second code

69 code identifier for Code 93

9999 code length that must match for Code 93, 9999 = all lengths

43 start character match for Code 93, 43h = “C”

FF termination string for third code

To program the previous example using specific lengths, you would have to count any programmed prefixes, suffixes, or for-

matted characters as part of the length. If you use the example on page 3-14, but assume a <CR> suffix and specific code

lengths, you would use the following command line:

SEQBLK62001241FF6A001342FF69001243FF

The breakdown of the command line is shown below:

SEQBLKsequence editor start command

62 code identifier for Code 39

0012 A - Code 39 sample length (11) plus CR suffix (1) = 12

41 start character match for Code 39, 41h = “A”

FF termination string for first code

6A code identifier for Code 128

0013 B - Code 128 sample length (12) plus CR suffix (1) = 13

42 start character match for Code 128, 42h = “B”

A - Code 39

B - Code 128

C - Code 93

3 - 15

FF termination string for second code

69 code identifier for Code 93

0012 C - Code 93 sample length (11) plus CR suffix (1) = 12

43 start character match for Code 93, 43h = “C”

FF termination string for third code

Output Sequence Editor

Partial Sequence

If an output sequence operation is terminated before all your output sequence criteria are met, the bar code data acquired

to that point is a “partial sequence.”

Scan Discard Partial Sequence to discard partial sequences when the output sequence operation is terminated before

completion. Scan Transmit Partial Sequence to transmit partial sequences. (Any fields in the sequence where no data

match occurred will be skipped in the output.)

Require Output Sequence

When an output sequence is Required, all output data must conform to an edited sequence or the scan engine will not

transmit the output data to the host device. When it’s On/Not Required, the scan engine will attempt to get the output data

to conform to an edited sequence but, if it cannot, the scan engine transmits all output data to the host device as is.

When the output sequence is Off, the bar code data is output to the host as the scan engine decodes it. Default = Off.

Note: This selection is unavailable when the Multiple Symbols Selection is turned on.

Enter Sequence

Default Sequence

Transmit Partial Sequence

* Discard Partial Sequence

Required

On/Not Required

3 - 16

Multiple Symbols

When this programming selection is turned On, it allows you to read multiple symbols with a single pull of the scanner’s trigger.

If you press and hold the trigger, aiming the scanner at a series of symbols, it reads unique symbols once, beeping (if turned on)

for each read. The scanner attempts to find and decode new symbols as long as the trigger is pulled. When this programming

selection is turned Off, the scanner will only read the symbol closest to the aiming beam. Default = Off.

No Read

With No Read turned On, the scan engine notifies you if a code cannot be read. If using an EZConfig-Scanning Tool Scan Data

Window (see page 9-3), an “NR” appears when a code cannot be read. If No Read is turned Off, the “NR” will not appear.

Default = Off.

If you want a different notation than “NR,” for example, “Error,” or “Bad Code,” you can edit the output message (see Data

Formatting beginning on page 5-1). The hex code for the No Read symbol is 9C.

Video Reverse

Video Reverse is used to allow the scan engine to read bar codes that are inverted. The Video Reverse Off bar code below is

an example of this type of bar code. Scan Video Reverse Only to read only inverted bar codes. Scan Video Reverse and

Standard Bar Codes to read both types of codes.

Note: After scanning Video Reverse Only, menu bar codes cannot be read. You must scan Video Reverse Off or Video

Reverse and Standard Bar Codes in order to read menu bar codes.

Note: Images downloaded from the unit are not reversed. This is a setting for decoding only.

*Off

* Off

Video Reverse Only

3 - 17

Working Orientation

Some bar codes are direction-sensitive. For example, KIX codes and OCR can misread when scanned sideways or upside

down. Use the working orientation settings if your direction-sensitive codes will not usually be presented upright to the scan

engine. Default = Upright.

Video Reverse and Standard Bar

Codes

* Video Reverse Off

VIDREV0.

Upright:

Vertical, Top to Bottom:

(Rotate CW 90°)

Upside Down:

Vertical, Bottom to Top:

(Rotate CCW 90°)

* Upright

Vertical, Bottom to Top

Upside Down

Vertical, Top to Bottom

3 - 18

4 - 1

Data Editing

Prefix/Suffix Overview

When a bar code is scanned, additional information is sent to the host computer along with the bar code data. This group of bar

code data and additional, user-defined data is called a “message string.” The selections in this section are used to build the

user-defined data into the message string.

Prefix and Suffix characters are data characters that can be sent before and after scanned data. You can specify if they should

be sent with all symbologies, or only with specific symbologies. The following illustration shows the breakdown of a message

string:

Points to Keep In Mind

• It is not necessary to build a message string. The selections in this chapter are only used if you wish to alter the default

settings. Default prefix = None. Default suffix = None.

• A prefix or suffix may be added or cleared from one symbology or all symbologies.

• You can add any prefix or suffix from the ASCII Conversion Chart (Code Page 1252), beginning on page A-3, plus Code

I.D. and AIM I.D.

• You can string together several entries for several symbologies at one time.

• Enter prefixes and suffixes in the order in which you want them to appear on the output.

• When setting up for specific symbologies (as opposed to all symbologies), the specific symbology ID value counts as an

added prefix or suffix character.

• The maximum size of a prefix or suffix configuration is 200 characters, which includes header information.

To Add a Prefix or Suffix:

Step 1. Scan the Add Prefix or Add Suffix symbol (page 4-2).

Step 2. Determine the 2 digit Hex value from the Symbology Chart (included in the Symbology Charts, beginning on page

A-1) for the symbology to which you want to apply the prefix or suffix. For example, for Code 128, Code ID is “j” and

Hex ID is “6A”.

Step 3. Scan the 2 hex digits from the Programming Chart inside the back cover of this manual or scan 9, 9 for all

symbologies.

Step 4. Determine the hex value from the ASCII Conversion Chart (Code Page 1252), beginning on page A-3, for the prefix

or suffix you wish to enter.

Step 5. Scan the 2 digit hex value from the Programming Chart inside the back cover of this manual.

Step 6. Repeat Steps 4 and 5 for every prefix or suffix character.

Step 7. To add the Code I.D., scan 5, C, 8, 0.

To add AIM I.D., scan 5, C, 8, 1.

To add a backslash (\), scan 5, C, 5, C.

Note: To add a backslash (\) as in Step 7, you must scan 5C twice – once to create the leading backslash and then to create

the backslash itself.

Step 8. Scan Save to exit and save, or scan Discard to exit without saving.

Repeat Steps 1-6 to add a prefix or suffix for another symbology.

Example: Add a Suffix to a specific symbology

To send a CR (carriage return)Suffix for U.P.C. only:

Prefix Scanned DataSuffix

1-11

alpha numeric &

control characters

variable length1-11

alpha numeric &

control characters

4 - 2

Step 1. Scan Add Suffix.

Step 2. Determine the 2 digit hex value from the Symbology Chart (included in the Symbology Charts, beginning on page

A-1) for U.P.C..

Step 3. Scan 6, 3 from the Programming Chart inside the back cover of this manual.

Step 4. Determine the hex value from the ASCII Conversion Chart (Code Page 1252), beginning on page A-3, for the CR

(carriage return).

Step 5. Scan 0, D from the Programming Chart inside the back cover of this manual.

Step 6. Scan Save, or scan Discard to exit without saving.

To Clear One or All Prefixes or Suffixes

You can clear a single prefix or suffix, or clear all prefixes/suffixes for a symbology. If you have been entering prefixes and

suffixes for single symbologies, you can use Clear One Prefix (Suffix) to delete a specific character from a symbology.

When you Clear All Prefixes (Suffixes), all the prefixes or suffixes for a symbology are deleted.

Step 1. Scan the Clear One Prefix or Clear One Suffix symbol.

Step 2. Determine the 2 digit Hex value from the Symbology Chart (included in the Symbology Charts, beginning on page

A-1) for the symbology from which you want to clear the prefix or suffix.

Step 3. Scan the 2 digit hex value from the Programming Chart inside the back cover of this manual or scan 9, 9 for all

symbologies.

Your change is automatically saved.

To Add a Carriage Return Suffix to All Symbologies

Scan the following bar code if you wish to add a carriage return suffix to all symbologies at once. This action first clears all

current suffixes, then programs a carriage return suffix for all symbologies.

Prefix Selections

Add CR Suffix

All Symbologies

Add Prefix

Clear One Prefix

Clear All Prefixes

4 - 3

Suffix Selections

Function Code Transmit

When this selection is enabled and function codes are contained within the scanned data, the scan engine transmits the func-

tion code to the terminal. Charts of these function codes are provided in Supported Interface Keys starting on page 8-3. When

the scanner is in keyboard wedge mode, the scan code is converted to a key code before it is transmitted. Default = Enable.

Intercharacter, Interfunction, and Intermessage Delays

Some terminals drop information (characters) if data comes through too quickly. Intercharacter, interfunction, and intermessage

delays slow the transmission of data, increasing data integrity.

Intercharacter Delay

An intercharacter delay of up to 5000 milliseconds (in 5ms increments) may be placed between the transmission of each

character of scanned data. Scan the Intercharacter Delay bar code below, then scan the number of 5ms delays, and the

Save bar code using the Programming Chart inside the back cover of this manual.

Add Suffix

Clear One Suffix

Clear All Suffixes

* Enable

Disable

12345

Intercharacter Delay

Prefix Scanned Data Suffix

Intercharacter Delay

4 - 4

To remove this delay, scan the Intercharacter Delay bar code, then set the number of delays to 0. Scan the Save bar code

using the Programming Chart inside the back cover of this manual.

Note: Intercharacter delays are not supported in USB serial emulation.

User Specified Intercharacter Delay

An intercharacter delay of up to 5000 milliseconds (in 5ms increments) may be placed after the transmission of a particular

character of scanned data. Scan the Delay Length bar code below, then scan the number of 5ms delays, and the Save

bar code using the Programming Chart inside the back cover of this manual.

Next, scan the Character to Trigger Delay bar code, then the 2-digit hex value for the ASCII character that will trigger the

delay ASCII Conversion Chart (Code Page 1252), beginning on page A-3.

To remove this delay, scan the Delay Length bar code, and set the number of delays to 0. Scan the Save bar code using

the Programming Chart inside the back cover of this manual.

Interfunction Delay

An interfunction delay of up to 5000 milliseconds (in 5ms increments) may be placed between the transmission of each

control character in the message string. Scan the Interfunction Delay bar code below, then scan the number of 5ms

delays, and the Save bar code using the Programming Chart inside the back cover of this manual.

To remove this delay, scan the Interfunction Delay bar code, then set the number of delays to 0. Scan the Save bar code

using the Programming Chart inside the back cover of this manual.

Delay Length

Character to Trigger Delay

Interfunction Delays

Prefix Scanned Data Suffix

12345STX HT CR LF

Interfunction Delay

4 - 5

Intermessage Delay

An intermessage delay of up to 5000 milliseconds (in 5ms increments) may be placed between each scan transmission.

Scan the Intermessage Delay bar code below, then scan the number of 5ms delays, and the Save bar code using the

Programming Chart inside the back cover of this manual.

To remove this delay, scan the Intermessage Delay bar code, then set the number of delays to 0. Scan the Save bar code

using the Programming Chart inside the back cover of this manual.

2nd Scan Transmission1st Scan Transmission

Intermessage Delay

4 - 6

5 - 1

Data Formatting

Data Format Editor Introduction

You may use the Data Format Editor to change the scan engine’s output. For example, you can use the Data Format Editor to

insert characters at certain points in bar code data as it is scanned. The selections in the following pages are used only if you

wish to alter the output. Default Data Format setting = None.

Normally, when you scan a bar code, it is output automatically. However, when you create a format, you must use a “send” com-

mand (see Send Commands on page 5-3) within the format program to output data.

Multiple formats may be programmed into the scan engine. They are stacked in the order in which they are entered. However,

the following list presents the order in which formats are applied:

1. Specific Terminal ID, Actual Code ID, Actual Length

2. Specific Terminal ID, Actual Code ID, Universal Length

3. Specific Terminal ID, Universal Code ID, Actual Length

4. Specific Terminal ID, Universal Code ID, Universal Length

5. Universal Terminal ID, Actual Code ID, Actual Length

6. Universal Terminal ID, Actual Code ID, Universal Length

7. Universal Terminal ID, Universal Code ID, Actual Length

8. Universal Terminal ID, Universal Code ID, Universal Length

The maximum size of a data format configuration is 2000 bytes, which includes header information.

If a bar code is read that fails the first data format, the next data format, if there is one, will be used on the bar code data. If there

is no other data format, the raw data is output.

If you have changed data format settings, and wish to clear all formats and return to the factory defaults, scan the Default Data

Format code below.

Add a Data Format

Step 1. Scan the Enter Data Format symbol (page 5-2).

Step 2. Select Primary/Alternate Format

Determine if this will be your primary data format, or one of 3 alternate formats. This allows you to save a total of 4

different data formats. To program your primary format, scan 0 using the Programming Chart inside the back cover of

this manual. If you are programming an alternate format, scan 1, 2, or 3, depending on which alternate format you are

programming. (See "Primary/Alternate Data Formats" on page 5-13 for further information.)

Step 3. Terminal Type

Refer to Terminal ID Table (page 5-3) and locate the Terminal ID number for your PC. Scan three numeric bar codes

on the inside back cover to program the scan engine for your terminal ID (you must enter 3 digits). For example, scan

0 0 3 for an AT wedge.

Note: 099 indicates all terminal types.

Step 4. Code I.D.

In the Symbology Charts, beginning on page A-1, find the symbology to which you want to apply the data format. Locate

the Hex value for that symbology and scan the 2 digit hex value from the Programming Chart inside the back cover of

this manual.

If you wish to create a data format for all symbologies, with the exception of some specific symbologies, refer to B8

(page 5-11).

If you are creating a data format for Batch Mode Quantity, use 35 for the Code I.D.

Note: 99 indicates all symbologies.

* Default Data Format

5 - 2

Step 5. Length

Specify what length (up to 9999 characters) of data will be acceptable for this symbology. Scan the four digit data length

from the Programming Chart inside the back cover of this manual. For example, 50 characters is entered as 0050.

Note: 9999 indicates all lengths.

Step 6. Editor Commands

Refer to Data Format Editor Commands (page 5-3). Scan the symbols that represent the command you want to enter.

94 alphanumeric characters may be entered for each symbology data format.

Step 7. Scan Save to save your data format, or Discard to exit without saving your changes.

Other Programming Selections

Clear One Data Format

This deletes one data format for one symbology. If you are clearing the primary format, scan 0 from the Programming

Chart inside the back cover of this manual. If you are clearing an alternate format, scan 1, 2, or 3, depending on the

format you are clearing. Scan the Terminal Type and Code I.D. (see Symbology Charts on page A-1), and the bar code

data length for the specific data format that you want to delete. All other formats remain unaffected.

Clear all Data Formats

This clears all data formats.

Save to exit and save your data format changes.

Discard to exit without saving any data format changes.

Enter Data Format

Save

Discard

Clear One Data Format

Clear All Data Formats

Save

Discard

5 - 3

Data Format Editor Commands

When working with the Data Format Editor, a virtual cursor is moved along your input data string. The following commands are

used to both move this cursor to different positions, and to select, replace, and insert data into the final output.

Send Commands

Send all characters

F1 Include in the output message all of the characters from the input message, starting from current cursor position,

followed by an insert character. Syntax = F1xx where xx stands for the insert character’s hex value for its ASCII code.

Refer to the ASCII Conversion Chart (Code Page 1252), beginning on page A-3 for decimal, hex and character codes.

Send a number of characters

F2 Include in the output message a number of characters followed by an insert character. Start from the current cursor

position and continue for “nn” characters or through the last character in the input message, followed by character “xx.”

Syntax = F2nnxx where nn stands for the numeric value (00-99) for the number of characters, and xx stands for the

insert character’s hex value for its ASCII code. Refer to the ASCII Conversion Chart (Code Page 1252), beginning on

page A-3 for decimal, hex and character codes.

F2 Example: Send a number of characters

Send the first 10 characters from the bar code above, followed by a carriage return. Command string: F2100D

F2 is the “Send a number of characters” command

10 is the number of characters to send

0D is the hex value for a CR

The data is output as: 1234567890

F2 and F1 Example: Split characters into 2 lines

Send the first 10 characters from the bar code above, followed by a carriage return, followed by the rest of the charac-

ters.

Command string: F2100DF10D

F2 is the “Send a number of characters” command

10 is the number of characters to send for the first line

0D is the hex value for a CR

F1 is the “Send all characters” command

Terminal ID Table

Terminal Model(s) Terminal ID

IBM USB SurePOS Handheld Scanner 128

USB SurePOS Tabletop Scanner 129

RS232 True 000

TTL 000

RS485 051

USB Serial 130

PC Keyboard 124

Mac Keyboard 125

Japanese Keyboard (PC) 134

HID POS 131

5 - 4

0D is the hex value for a CR

The data is output as:

1234567890

ABCDEFGHIJ

<CR>

Send all characters up to a particular character

F3 Include in the output message all characters from the input message, starting with the character at the current cursor

position and continuing to, but not including, the search character “ss,” followed by an insert character. The cursor is

moved forward to the “ss” character. Syntax = F3ssxx where ss stands for the search character’s hex value for its ASCII

code, and xx stands for the insert character’s hex value for its ASCII code.

Refer to the ASCII Conversion Chart (Code Page 1252), beginning on page A-3 for decimal, hex and character codes.

F3 Example: Send all characters up to a particular character

Using the bar code above, send all characters up to but not including “D,” followed by a carriage return.

Command string: F3440D

F3 is the “Send all characters up to a particular character” command

44 is the hex value for a 'D”

0D is the hex value for a CR

The data is output as:

1234567890ABC

<CR>

Send all characters up to a string

B9 Include in the output message all characters from the input message, starting with the character at the current cursor

position and continuing to, but not including, the search string “s...s.” The cursor is moved forward to the beginning of

the “s...s” string. Syntax = B9nnnns...s where nnnn stands for the length of the string, and s...s stands for the string to

be matched. The string is made up of hex values for the characters in the string. Refer to the ASCII Conversion Chart

(Code Page 1252), beginning on page A-3 for decimal, hex and character codes.

B9 Example: Send all characters up to a defined string

Using the bar code above, send all characters up to but not including “AB.”

Command string: B900024142

B9 is the “Send all characters up to a string” command

0002 is the length of the string (2 characters)

41 is the hex value for A

42 is the hex value for B

The data is output as: 1234567890

Send all but the last characters

E9 Include in the output message all but the last “nn” characters, starting from the current cursor position. The cursor is

moved forward to one position past the last input message character included. Syntax = E9nn where nn stands for the

numeric value (00-99) for the number of characters that will not be sent at the end of the message.

Insert a character multiple times

F4 Send “xx” character “nn” times in the output message, leaving the cursor in the current position. Syntax = F4xxnn where

xx stands for the insert character’s hex value for its ASCII code, and nn is the numeric value (00-99) for the number of

times it should be sent. Refer to the ASCII Conversion Chart (Code Page 1252), beginning on page A-3 for decimal,

hex and character codes.

5 - 5

E9 and F4 Example: Send all but the last characters, followed by 2 tabs

Send all characters except for the last 8 from the bar code above, followed by 2 tabs.

Command string: E908F40902

E9 is the “Send all but the last characters” command

08 is the number of characters at the end to ignore

F4 is the “Insert a character multiple times” command

09 is the hex value for a horizontal tab

02 is the number of times the tab character is sent

The data is output as: 1234567890AB <tab><tab>

Insert a string

BA Send “ss” string of “nn” length in the output message, leaving the cursor in the current position. Syntax = BAnnnns...s

where nnnn stands for the length of the string, and s...s stands for the string. The string is made up of hex values for

the characters in the string. Refer to the ASCII Conversion Chart (Code Page 1252), beginning on page A-3 for decimal,

hex and character codes.

B9 and BA Example: Look for the string “AB” and insert 2 asterisks (**)

Using the bar code above, send all characters up to but not including “AB.” Insert 2 asterisks at that point, and send

the rest of the data with a carriage return after.

Command string: B900024142BA00022A2AF10D

B9 is the “Send all characters up to a string” command

0002 is the length of the string (2 characters)

41 is the hex value for A

42 is the hex value for B

BA is the “Insert a string” command

0002 is the length of the string to be added (2 characters)

2A is the hex value for an asterisk (*)

F1 is the “Send all characters” command

0D is the hex value for a CR

The data is output as:

1234567890**ABCDEFGHIJ

<CR>

Insert symbology name

B3 Insert the name of the bar code’s symbology in the output message, without moving the cursor. Only symbologies with

a Honeywell ID are included (see Symbology Charts on page A-1). Refer to the ASCII Conversion Chart (Code Page

1252), beginning on page A-3 for decimal, hex and character codes.

Insert bar code length

B4 Insert the bar code’s length in the output message, without moving the cursor. The length is expressed as a numeric

string and does not include leading zeroes.

5 - 6

B3 and B4 Example: Insert the symbology name and length

Send the symbology name and length before the bar code data from the bar code above. Break up these insertions

with spaces. End with a carriage return.

Command string: B3F42001B4F42001F10D

B3 is the “Insert symbology name” command

F4 is the “Insert a character multiple times” command

20 is the hex value for a space

01 is the number of times the space character is sent

B4 is the “Insert bar code length” command

F4 is the “Insert a character multiple times” command

20 is the hex value for a space

01 is the number of times the space character is sent

F1 is the “Send all characters” command

0D is the hex value for a CR

The data is output as:

Code128 20 1234567890ABCDEFGHIJ

<CR>

Insert key strokes

B5 Insert a key stroke or combination of key strokes. Key strokes are dependent on your keyboard (see Unicode Key Maps

on page A-10). Any key can be inserted, including arrows and functions. Syntax = B5xxssnn where xx is the number

of keys pressed (without key modifiers), ss is the key modifier from the table below, and nn is the key number from the

Unicode Key Maps, page A-10.

For example, B501021F inserts an “A” on a 104 key, U.S. style keyboard. B5 = the command, 01 = number of keys

pressed (without the key modifier), 02 is the key modifier for Shift Right, and 1F is the “a” key. If a lower case “a” were

to be inserted, B501001F would be entered.

If there are three keystrokes, the syntax would change from B5xxssnn for one keystroke to B5xxssnnssnnssnn. An

example that would insert "abc" is as follows: B503001F00320030F833.

Note: Key modifiers can be added together when needed. Example: Control Left+Shift Left = 11.

Move Commands

Move the cursor forward a number of characters

F5 Move the cursor ahead “nn” characters from current cursor position.

Syntax = F5nn where nn is the numeric value (00-99) for the number of characters the cursor should be moved ahead.

Key Modifiers

No Key Modifier 00

Shift Left 01

Shift Right 02

Alt Left 04

Alt Right 08

Control Left 10

Control Right 20

5 - 7

F5 Example: Move the cursor forward and send the data

Move the cursor forward 3 characters, then send the rest of the bar code data from the bar code above. End with a

carriage return.

Command string: F503F10D

F5 is the “Move the cursor forward a number of characters” command

03 is the number of characters to move the cursor

F1 is the “Send all characters” command

0D is the hex value for a CR

The data is output as:

4567890ABCDEFGHIJ

<CR>

Move the cursor backward a number of characters

F6 Move the cursor back “nn” characters from current cursor position.

Syntax = F6nn where nn is the numeric value (00-99) for the number of characters the cursor should be moved back.

Move the cursor to the beginning

F7 Move the cursor to the first character in the input message. Syntax = F7.

FE and F7 Example: Manipulate bar codes that begin with a 1

Search for bar codes that begin with a 1. If a bar code matches, move the cursor back to the beginning of the data and

send 6 characters followed by a carriage return. Using the bar code above:

Command string: FE31F7F2060D

FE is the “Compare characters” command

31 is the hex value for 1

F7 is the “Move the cursor to the beginning” command

F2 is the “Send a number of characters” command

06 is the number of characters to send

0D is the hex value for a CR

The data is output as:

123456

<CR>

Move the cursor to the end

EA Move the cursor to the last character in the input message. Syntax = EA.

Search Commands

Search forward for a character

F8 Search the input message forward for “xx” character from the current cursor position, leaving the cursor pointing to the

“xx” character. Syntax = F8xx where xx stands for the search character’s hex value for its ASCII code.

Refer to the ASCII Conversion Chart (Code Page 1252), beginning on page A-3 for decimal, hex and character codes.

5 - 8

F8 Example: Send bar code data that starts after a particular character

Search for the letter “D” in bar codes and send all the data that follows, including the “D.” Using the bar code above:

Command string: F844F10D

F8 is the “Search forward for a character” command

44 is the hex value for “D”

F1 is the “Send all characters” command

0D is the hex value for a CR

The data is output as:

DEFGHIJ

<CR>

Search backward for a character

F9 Search the input message backward for “xx” character from the current cursor position, leaving the cursor pointing to

the “xx” character. Syntax = F9xx where xx stands for the search character’s hex value for its ASCII code.

Refer to the ASCII Conversion Chart (Code Page 1252), beginning on page A-3 for decimal, hex and character codes.

Search forward for a string

B0 Search forward for “s” string from the current cursor position, leaving cursor pointing to “s” string. Syntax = B0nnnnS

where nnnn is the string length (up to 9999), and S consists of the ASCII hex value of each character in the match string.

For example, B0000454657374 will search forward for the first occurrence of the 4 character string “Test.”

Refer to the ASCII Conversion Chart (Code Page 1252), beginning on page A-3 for decimal, hex and character codes.

B0 Example: Send bar code data that starts after a string of characters

Search for the letters “FGH” in bar codes and send all the data that follows, including “FGH.” Using the bar code

above:

Command string: B00003464748F10D

B0 is the “Search forward for a string” command

0003 is the string length (3 characters)

46 is the hex value for “F”

47 is the hex value for “G”

48 is the hex value for “H”

F1 is the “Send all characters” command

0D is the hex value for a CR

The data is output as:

FGHIJ

<CR>

Search backward for a string

B1 Search backward for “s” string from the current cursor position, leaving cursor pointing to “s” string. Syntax = B1nnnnS

where nnnn is the string length (up to 9999), and S consists of the ASCII hex value of each character in the match string.

For example, B1000454657374 will search backward for the first occurrence of the 4 character string “Test.”

Refer to the ASCII Conversion Chart (Code Page 1252), beginning on page A-3 for decimal, hex and character codes.

5 - 9

Search forward for a non-matching character

E6 Search the input message forward for the first non-“xx” character from the current cursor position, leaving the cursor

pointing to the non-“xx” character. Syntax = E6xx where xx stands for the search character’s hex value for its ASCII

code. Refer to the ASCII Conversion Chart (Code Page 1252), beginning on page A-3 for decimal, hex and character

codes.

E6 Example: Remove zeroes at the beginning of bar code data

This example shows a bar code that has been zero filled. You may want to ignore the zeroes and send all the data that

follows. E6 searches forward for the first character that is not zero, then sends all the data after, followed by a carriage

return. Using the bar code above:

Command string: E630F10D

E6 is the “Search forward for a non-matching character” command

30 is the hex value for 0

F1 is the “Send all characters” command

0D is the hex value for a CR

The data is output as:

37692

<CR>

Search backward for a non-matching character

E7 Search the input message backward for the first non-“xx” character from the current cursor position, leaving the cursor

pointing to the non-“xx” character. Syntax = E7xx where xx stands for the search character’s hex value for its ASCII

code. Refer to the ASCII Conversion Chart (Code Page 1252), beginning on page A-3 for decimal, hex and character

codes.

Miscellaneous Commands

Suppress characters

FB Suppress all occurrences of up to 15 different characters, starting at the current cursor position, as the cursor is

advanced by other commands. When the FC command is encountered, the suppress function is terminated. The

cursor is not moved by the FB command.

Syntax = FBnnxxyy . .zz where nn is a count of the number of suppressed characters in the list, and xxyy .. zz is the list

of characters to be suppressed.

FB Example: Remove spaces in bar code data

This example shows a bar code that has spaces in the data. You may want to remove the spaces before sending the

data. Using the bar code above:

Command string: FB0120F10D

FB is the “Suppress characters” command

01 is the number of character types to be suppressed

20 is the hex value for a space

F1 is the “Send all characters” command

0D is the hex value for a CR

The data is output as:

34567890

<CR>

5 - 10

Stop suppressing characters

FC Disables suppress filter and clear all suppressed characters. Syntax = FC.

Replace characters

E4 Replaces up to 15 characters in the output message, without moving the cursor. Replacement continues until the E5

command is encountered. Syntax = E4nnxx

...zz

where nn is the total count of the number of characters

in the list (characters to be replaced plus replacement characters); xx

defines characters to be replaced and xx

defines

replacement characters, continuing through zz

and zz

E4 Example: Replace zeroes with CRs in bar code data

If the bar code has characters that the host application does not want included, you can use the E4 command to

replace those characters with something else. In this example, you will replace the zeroes in the bar code above with

carriage returns.

Command string: E402300DF10D

E4 is the “Replace characters” command

02 is the total count of characters to be replaced, plus the replacement characters (0 is replaced by CR, so total char-

acters = 2)

30 is the hex value for 0

0D is the hex value for a CR (the character that will replace the 0)

F1 is the “Send all characters” command

0D is the hex value for a CR

The data is output as:

1234

5678

ABC

<CR>

Stop replacing characters

E5 Terminates character replacement. Syntax = E5.

Compare characters

FE Compare the character in the current cursor position to the character “xx.” If characters are equal, move the cursor

forward one position. Syntax = FExx where xx stands for the comparison character’s hex value for its ASCII code.

Refer to the ASCII Conversion Chart (Code Page 1252), beginning on page A-3 for decimal, hex and character codes.

Compare string

B2 Compare the string in the input message to the string “s.” If the strings are equal, move the cursor forward past the end

of the string. Syntax = B2nnnnS where nnnn is the string length (up to 9999), and S consists of the ASCII hex value

of each character in the match string. For example, B2000454657374 will compare the string at the current cursor

position with the 4 character string “Test.”

Refer to the ASCII Conversion Chart (Code Page 1252), beginning on page A-3 for decimal, hex and character codes.

Check for a number

EC Check to make sure there is an ASCII number at the current cursor position. The format is aborted if the character is

not numeric.

EC Example: Only output the data if the bar code begins with a number

If you want only data from bar codes that begin with a number, you can use EC to check for the number.

Command string: ECF10D

EC is the “Check for a number” command

F1 is the “Send all characters” command

0D is the hex value for a CR

5 - 11

If this bar code is read, the next data format, if there is one, will be used on the data. If there

is no other format, the format fails and the raw data is output as AB1234.

If this bar code is read: the data is output as:

1234AB

<CR>

Check for non-numeric character

ED Check to make sure there is a non-numeric ASCII character at the current cursor position. The format is aborted if the

character is numeric.

ED Example: Only output the data if the bar code begins with a letter

If you want only data from bar codes that begin with a letter, you can use ED to check for the letter.

Command string: EDF10D

ED is the “Check for a non-numeric character” command

F1 is the “Send all characters” command

0D is the hex value for a CR

If this bar code is read, the next data format, if there is one, will be used on this data. If there

is no other format, the format fails and the raw data is output as 1234AB.

If this bar code is read: the data is output as:

AB1234

<CR>

Insert a delay

EF Inserts a delay of up to 49,995 milliseconds (in multiples of 5), starting from the current cursor position. Syntax = EFnnnn

where nnnn stands for the delay in 5ms increments, up to 9999. This command can only be used with keyboard

emulation.a

Discard Data

B8 Discards types of data. For example, you may want to discard Code 128 bar codes that begin with the letter A. In step

4 (page 5-1), select 6A (for Code 128), and in step 5, select 9999 (for all lengths). Enter FE41B8 to compare and discard

Code 128 bar codes that begin with the letter A. Syntax = B8.

Note: The B8 command must be entered after all other commands.

The Data Format must be Required (see page 5-12) in order for the B8 command to work.

If Data Format is On, but Not Required (page 5-12), bar code data that meets the B8 format is scanned and output

as usual.

Because the data format needs to be On and Required (page 5-12) for the B8 command, you must input data formats

for all bar codes you wish to discard as well as all bar codes you wish to output.

Other data format settings impact the B8 command. If Data Format Non-Match Error Tone is On (page 5-13), the

scan engine emits an error tone. If Data format Non-Match Error Tone is Off, the code is disabled for reading and

no tone is sounded.

5 - 12

Data Formatter

When Data Formatter is turned Off, the bar code data is output to the host as read, including prefixes and suffixes.

You may wish to require the data to conform to a data format you have created and saved. The following settings can be applied

to your data format:

Data Formatter On, Not Required, Keep Prefix/Suffix

Scanned data is modified according to your data format, and prefixes and suffixes are transmitted.

Data Formatter On, Not Required, Drop Prefix/Suffix

Scanned data is modified according to your data format. If a data format is found for a particular symbol, those prefixes and

suffixes are not transmitted. If a data format is not found for that symbol, the prefixes and suffixes are transmitted.

Data Format Required, Keep Prefix/Suffix

Scanned data is modified according to your data format, and prefixes and suffixes are transmitted. Any data that does not

match your data format requirements generates an error tone and the data in that bar code is not transmitted. If you wish

to process this type of bar code without generating an error tone, see Data Format Non-Match Error Tone.

Data Format Required, Drop Prefix/Suffix

Scanned data is modified according to your data format. If a data format is found for a particular symbol, those prefixes and

suffixes are not transmitted. Any data that does not match your data format requirements generates an error tone. If you

wish to process this type of bar code without generating an error tone, see Data Format Non-Match Error Tone.

Choose one of the following options. Default = Data Formatter On, Not Required, Keep Prefix/Suffix.

Data Formatter Off

* Data Formatter On,

Not Required,

Keep Prefix/Suffix

Data Formatter On,

Not Required,

Drop Prefix/Suffix

Data Format Required,

Keep Prefix/Suffix

Data Format Required,

Drop Prefix/Suffix

5 - 13

Data Format Non-Match Error Tone

When a bar code is encountered that doesn’t match your required data format, the scan engine normally generates an error

tone. However, you may want to continue scanning bar codes without hearing the error tone. If you scan the Data Format

Non-Match Error Tone Off bar code, data that doesn’t conform to your data format is not transmitted, and no error tone will

sound. If you wish to hear the error tone when a non-matching bar code is found, scan the Data Format Non-Match Error

Tone On bar code. Default = Data Format Non-Match Error Tone On.

Primary/Alternate Data Formats

You can save up to four data formats, and switch between these formats. Your primary data format is saved under 0. Your other

three formats are saved under 1, 2, and 3. To set your device to use one of these formats, scan one of the bar codes below.

Single Scan Data Format Change

You can also switch between data formats for a single scan. The next bar code is scanned using an alternate data format,

then reverts to the format you have selected above (either Primary, 1, 2, or 3).

* Data Format Non-Match Error

Tone On

Data Format Non-Match

Error Tone Off

Primary Data Format

Data Format 1

Data Format 2

Data Format 3

5 - 14

For example, you may have set your device to the data format you saved as Data Format 3. You can switch to Data Format

1 for a single trigger pull by scanning the Single Scan-Data Format 1 bar code below. The next bar code that is scanned

uses Data Format 1, then reverts back to Data Format 3.

Single Scan-Primary

Data Format

Single Scan-Data Format 1

Single Scan-Data Format 2

Single Scan-Data Format 3

6 - 1

Symbologies

This programming section contains the following menu selections. Refer to Chapter 10 for settings and defaults.

All Symbologies

If you want to decode all the symbologies allowable for your scanner, scan the All Symbologies On code. If on the other hand,

you want to decode only a particular symbology, scan All Symbologies Off followed by the On symbol for that particular sym-

bology.

Note: When All Symbologies On is scanned, 2D Postal Codes are not enabled. 2D Postal Codes must be enabled separately.

Message Length Description

You are able to set the valid reading length of some of the bar code symbologies. If the data length of the scanned bar code

doesn’t match the valid reading length, the scanner will issue an error tone. You may wish to set the same value for minimum

and maximum length to force the scanner to read fixed length bar code data. This helps reduce the chances of a misread.

EXAMPLE: Decode only those bar codes with a count of 9-20 characters.

Min. length = 09Max. length = 20

• All Symbologies • Interleaved 2 of 5

•Aztec Code •Korea Post

• China Post (Hong Kong 2 of 5) • Matrix 2 of 5

• Chinese Sensible (Han Xin) Code • MaxiCode

• Codabar • MicroPDF417

• Codablock A • MSI

• Codablock F • NEC 2 of 5

• Code 11 • Postal Codes - 2D

• Code 128 • Postal Codes - Linear

• Code 32 Pharmaceutical (PARAF) • PDF417

• Code 39 • GS1 DataBar Omnidirectional

• Code 93 • QR Code

• Data Matrix • Straight 2 of 5 IATA (two-bar start/stop)

• EAN/JAN-13 • Straight 2 of 5 Industrial (three-bar start/stop)

• EAN/JAN-8 • TCIF Linked Code 39 (TLC39)

• GS1 Composite Codes • Telepen

• GS1 DataBar Expanded • Trioptic Code

• GS1 DataBar Limited • UPC-A

• GS1 DataBar Omnidirectional • UPC-A/EAN-13 with Extended Coupon Code

• GS1 Emulation • UPC-E0

•GS1-128 •UPC-E1

All Symbologies On

All Symbologies Off

6 - 2

EXAMPLE: Decode only those bar codes with a count of 15 characters.

Min. length = 15Max. length = 15

For a value other than the minimum and maximum message length defaults, scan the bar codes included in the explanation of

the symbology, then scan the digit value of the message length and Save bar codes on the Programming Chart inside the back

cover of this manual. The minimum and maximum lengths and the defaults are included with the respective symbologies.

Codabar

Codabar On/Off

Codabar Start/Stop Characters

Start/Stop characters identify the leading and trailing ends of the bar code. You may either transmit, or not transmit Start/

Stop characters. Default = Don’t Transmit.

Codabar Check Character

Codabar check characters are created using different “modulos.” You can program the scanner to read only Codabar bar

codes with Modulo 16 check characters. Default = No Check Character.

No Check Character indicates that the scanner reads and transmits bar code data with or without a check character.

When Check Character is set to Validate and Transmit, the scanner will only read Codabar bar codes printed with a check

character, and will transmit this character at the end of the scanned data.

When Check Character is set to Validate, but Don’t Transmit, the unit will only read Codabar bar codes printed with a

check character, but will not transmit the check character with the scanned data.

* On

Off

Transmit

* Don’t Transmit

* No Check Character

6 - 3

Codabar Concatenation

Codabar supports symbol concatenation. When you enable concatenation, the scanner looks for a Codabar symbol having

a “D” start character, adjacent to a symbol having a “D” stop character. In this case the two messages are concatenated

into one with the “D” characters omitted.

Select Require to prevent the scanner from decoding a single “D” Codabar symbol without its companion. This selection

has no effect on Codabar symbols without Stop/Start D characters.

Codabar Message Length

Scan the bar codes below to change the message length. Refer to Message Length Description (page 6-1) for additional

information. Minimum and Maximum lengths = 2-60. Minimum Default = 4, Maximum Default = 60.

Validate Modulo 16, but

Don’t Transmit

Validate Modulo 16

and Transmit

A1234D

D5 6 7 8 A

* Off

Require

Minimum Message Length

Maximum Message Length

6 - 4

Code 39

< Default All Code 39 Settings >

Code 39 On/Off

Code 39 Start/Stop Characters

Start/Stop characters identify the leading and trailing ends of the bar code. You may either transmit, or not transmit Start/

Stop characters. Default = Don’t Transmit.

Code 39 Check Character

No Check Character indicates that the scanner reads and transmits bar code data with or without a check character.

When Check Character is set to Validate, but Don’t Transmit, the unit only reads Code 39 bar codes printed with a check

character, but will not transmit the check character with the scanned data.

When Check Character is set to Validate and Transmit, the scanner only reads Code 39 bar codes printed with a check

character, and will transmit this character at the end of the scanned data. Default = No Check Character.

* On

Off

Transmit

* Don’t Transmit

* No Check Character

Validate, but Don’t Transmit

Validate and Transmit

6 - 5

Code 39 Message Length

Scan the bar codes below to change the message length. Refer to Message Length Description (page 6-1) for additional

information. Minimum and Maximum lengths = 0-80. Minimum Default = 0, Maximum Default = 48.

Code 39 Append

This function allows the scanner to append the data from several Code 39 bar codes together before transmitting them to

the host computer. When the scanner encounters a Code 39 bar code with the append trigger character(s), it buffers Code

39 bar codes until it reads a Code 39 bar code that does not have the append trigger. The data is then transmitted in the

order in which the bar codes were read (FIFO). Default = Off.

Code 32 Pharmaceutical (PARAF)

Code 32 Pharmaceutical is a form of the Code 39 symbology used by Italian pharmacies. This symbology is also known as

PARA F.

Note: Trioptic Code (page 6-32) must be turned off while scanning Code 32 Pharmaceutical codes.

Minimum Message Length

Maximum Message Length

* Off

6 - 6

Full ASCII

If Full ASCII Code 39 decoding is enabled, certain character pairs within the bar code symbol will be interpreted as a single

character. For example: $V will be decoded as the ASCII character SYN, and /C will be decoded as the ASCII character #.

Default = Off.

Character pairs /M and /N decode as a minus sign and period respectively.

Character pairs /P through /Y decode as 0 through 9.

Code 39 Code Page

Code pages define the mapping of character codes to characters. If the data received does not display with the proper

characters, it may be because the bar code being scanned was created using a code page that is different from the one the

host program is expecting. If this is the case, scan the bar code below, select the code page with which the bar codes were

created (see ISO 2022/ISO 646 Character Replacements on page A-8), and scan the value and the Save bar code from

the Programming Chart on the inside the back cover of this manual. The data characters should then appear properly.

NUL %U DLE $P

SP SPACE

00@%VPP‘%Wp+P

SOH $A DC1 $Q !/A 11AAQQa+Aq+Q

STX $B DC2 $R “/B 22BBRRb+Br+R

ETX $C DC3 $S #/C 33CCSSc+Cs+S

EOT $D DC4 $T $/D 44DDTTd+Dt+T

ENQ $E NAK $U %/E 55EEUUe+Eu+U

ACK $F SYN $V &/F 66FFVVf+Fv+V

BEL $G ETB $W ‘/G77GGWWg+Gw+W

BS $H CAN $X (/H 88HHXXh+Hx+X

HT $I EM $Y )/I 99IIYYi+Iy+Y

LF $J SUB $Z */J :/ZJJZZj+Jz+Z

VT $K ESC %A +/K ;%FKK[%Kk+K{%P

FF $L FS %B ,/L <%GLL\%Ll+L|%Q

CR $M GS %C -- =%HMM]%Mm+M}%R

SO $N RS %D .. >%INN^%Nn+N~%S

SI $O US %E //O ?%JOO_%Oo+ODEL %T

Full ASCII On

* Full ASCII Off

Code 39 Code Page

6 - 7

Interleaved 2 of 5

< Default All Interleaved 2 of 5 Settings >

Interleaved 2 of 5 On/Off

Check Digit

No Check Digit indicates that the scanner reads and transmits bar code data with or without a check digit.

When Check Digit is set to Validate, but Don’t Transmit, the unit only reads Interleaved 2 of 5 bar codes printed with a

check digit, but will not transmit the check digit with the scanned data.

When Check Digit is set to Validate and Transmit, the scanner only reads Interleaved 2 of 5 bar codes printed with a

check digit, and will transmit this digit at the end of the scanned data. Default = No Check Digit.

Interleaved 2 of 5 Message Length

Scan the bar codes below to change the message length. Refer to Message Length Description (page 6-1) for additional

information. Minimum and Maximum lengths = 2-80. Minimum Default = 4, Maximum Default = 80.

* On

Off

* No Check Digit

Validate, but Don’t Transmit

Validate and Transmit

Minimum Message Length

6 - 8

NEC 2 of 5

< Default All NEC 2 of 5 Settings >

NEC 2 of 5 On/Off

Check Digit

No Check Digit indicates that the scanner reads and transmits bar code data with or without a check digit.

When Check Digit is set to Validate, but Don’t Transmit, the unit only reads NEC 2 of 5 bar codes printed with a check

digit, but will not transmit the check digit with the scanned data.

When Check Digit is set to Validate and Transmit, the scanner only reads NEC 2 of 5 bar codes printed with a check digit,

and will transmit this digit at the end of the scanned data. Default = No Check Digit.

Maximum Message Length

* On

Off

* No Check Digit

Validate, but Don’t Transmit

Validate and Transmit

6 - 9

NEC 2 of 5 Message Length

Scan the bar codes below to change the message length. Refer to Message Length Description (page 6-1) for additional

information. Minimum and Maximum lengths = 2-80. Minimum Default = 4, Maximum Default = 80.

Code 93

< Default All Code 93 Settings >

Code 93 On/Off

Code 93 Message Length

Scan the bar codes below to change the message length. Refer to Message Length Description (page 6-1) for additional

information. Minimum and Maximum lengths = 0-80. Minimum Default = 0, Maximum Default = 80.

Minimum Message Length

Maximum Message Length

* On

Off

Minimum Message Length

Maximum Message Length

6 - 10

Code 93 Append

This function allows the scanner to append the data from several Code 93 bar codes together before transmitting them to

the host computer. When this function is enabled, the scanner stores those Code 93 bar codes that start with a space

(excluding the start and stop symbols), and does not immediately transmit the data. The scanner stores the data in the

order in which the bar codes are read, deleting the first space from each. The scanner transmits the appended data when

it reads a Code 93 bar code that starts with a character other than a space. Default = Off.

Code 93 Code Page

Code pages define the mapping of character codes to characters. If the data received does not display with the proper

characters, it may be because the bar code being scanned was created using a code page that is different from the one the

host program is expecting. If this is the case, scan the bar code below, select the code page with which the bar codes were

created (see ISO 2022/ISO 646 Character Replacements on page A-8), and scan the value and the Save bar code from

the Programming Chart on the inside the back cover of this manual. The data characters should then appear properly.

* Off

Code 93 Code Page

6 - 11

Straight 2 of 5 Industrial (three-bar start/stop)

Straight 2 of 5 Industrial On/Off

Straight 2 of 5 Industrial Message Length

Scan the bar codes below to change the message length. Refer to Message Length Description (page 6-1) for additional

information. Minimum and Maximum lengths = 1-48. Minimum Default = 4, Maximum Default = 48.

* Off

Minimum Message Length

Maximum Message Length

6 - 12

Straight 2 of 5 IATA (two-bar start/stop)

Straight 2 of 5 IATA On/Off

Straight 2 of 5 IATA Message Length

Scan the bar codes below to change the message length. Refer to Message Length Description (page 6-1) for additional

information. Minimum and Maximum lengths = 1-48. Minimum Default = 4, Maximum Default = 48.

* Off

Minimum Message Length

Maximum Message Length

6 - 13

Matrix 2 of 5

Matrix 2 of 5 On/Off

Matrix 2 of 5 Message Length

Scan the bar codes below to change the message length. Refer to Message Length Description (page 6-1) for additional

information. Minimum and Maximum lengths = 1-80. Minimum Default = 4, Maximum Default = 80.

* Off

Minimum Message Length

Maximum Message Length

6 - 14

Code 11

Code 11 On/Off

Check Digits Required

This option sets whether 1 or 2 check digits are required with Code 11 bar codes. Default = Two Check Digits.

Code 11 Message Length

Scan the bar codes below to change the message length. Refer to Message Length Description (page 6-1) for additional

information. Minimum and Maximum lengths = 1-80. Minimum Default = 4, Maximum Default = 80.

* Off

One Check Digit

* Two Check Digits

Minimum Message Length

Maximum Message Length

6 - 15

Code 128

Code 128 On/Off

ISBT 128 Concatenation

In 1994 the International Society of Blood Transfusion (ISBT) ratified a standard for communicating critical blood informa-

tion in a uniform manner. The use of ISBT formats requires a paid license. The ISBT 128 Application Specification

describes 1) the critical data elements for labeling blood products, 2) the current recommendation to use Code 128 due to

its high degree of security and its space-efficient design, 3) a variation of Code 128 that supports concatenation of neigh-

boring symbols, and 4) the standard layout for bar codes on a blood product label. Use the bar codes below to turn concat-

enation on or off. Default =Off.

Code 128 Message Length

Scan the bar codes below to change the message length. Refer to Message Length Description (page 6-1) for additional

information. Minimum and Maximum lengths = 0-80. Minimum Default = 0, Maximum Default = 80.

* On

Off

* Off

Minimum Message Length

Maximum Message Length

6 - 16

Code 128 Append

This function allows the scanner to append the data from several Code 128 bar codes together before transmitting them to

the host computer. When the scanner encounters a Code 128 bar code with the append trigger character(s), it buffers

Code 128 bar codes until it reads a Code 128 bar code that does not have the append trigger. The data is then transmitted

in the order in which the bar codes were read (FIFO). Default = On.

Code 128 Code Page

Code pages define the mapping of character codes to characters. If the data received does not display with the proper

characters, it may be because the bar code being scanned was created using a code page that is different from the one the

host program is expecting. If this is the case, scan the bar code below, select the code page with which the bar codes were

created (see ISO 2022/ISO 646 Character Replacements on page A-8), and scan the value and the Save bar code from

the Programming Chart on the inside the back cover of this manual. The data characters should then appear properly.

* On

Off

Code 128 Code Page

6 - 17

GS1-128

GS1-128 On/Off

GS1-128 Message Length

Scan the bar codes below to change the message length. Refer to Message Length Description (page 6-1) for additional

information. Minimum and Maximum lengths = 1-80. Minimum Default = 1, Maximum Default = 80.

* On

Off

Minimum Message Length

Maximum Message Length

6 - 18

Telepen

Telepen On/Off

Telepen Output

Using AIM Telepen Output, the scanner reads symbols with start/stop pattern 1 and decodes them as standard full ASCII

(start/stop pattern 1). When Original Telepen Output is selected, the scanner reads symbols with start/stop pattern 1 and

decodes them as compressed numeric with optional full ASCII (start/stop pattern 2). Default = AIM Telepen Output.

Telepen Message Length

Scan the bar codes below to change the message length. Refer to Message Length Description (page 6-1) for additional

information. Minimum and Maximum lengths = 1-60. Minimum Default = 1, Maximum Default = 60.

* Off

* AIM Telepen Output

Original Telepen Output

Minimum Message Length

Maximum Message Length

6 - 19

UPC-A

UPC-A On/Off

Note: To convert UPC-A bar codes to EAN-13, see Convert UPC-A to EAN-13 on page 6-24.

UPC-A Check Digit

This selection allows you to specify whether the check digit should be transmitted at the end of the scanned data or not.

Default = On.

UPC-A Number System

The numeric system digit of a U.P.C. symbol is normally transmitted at the beginning of the scanned data, but the unit can

be programmed so it will not transmit it. Default = On.

* On

Off

* On

Off

* On

Off

6 - 20

UPC-A Addenda

This selection adds 2 or 5 digits to the end of all scanned UPC-A data.

Default = Off for both 2 Digit and 5 Digit Addenda.

UPC-A Addenda Required

When Required is scanned, the scanner will only read UPC-A bar codes that have addenda. You must then turn on a 2 or

5 digit addenda listed on page 6-20. Default = Not Required.

UPC-A Addenda Separator

When this feature is on, there is a space between the data from the bar code and the data from the addenda. When turned

off, there is no space. Default = On.

2 Digit Addenda On

* 2 Digit Addenda Off

5 Digit Addenda On

* 5 Digit Addenda Off

Required

* Not Required

* On

Off

6 - 21

UPC-A/EAN-13

with Extended Coupon Code

Use the following codes to enable or disable UPC-A and EAN-13 with Extended Coupon Code. When left on the default setting

(Off), the scanner treats Coupon Codes and Extended Coupon Codes as single bar codes.

If you scan the Allow Concatenation code, when the scanner sees the coupon code and the extended coupon code in a single

scan, it transmits both as separate symbologies. Otherwise, it transmits the first coupon code it reads.

If you scan the Require Concatenation code, the scanner must see and read the coupon code and extended coupon code in a

single read to transmit the data. No data is output unless both codes are read. Default = Off.

Coupon GS1 DataBar Output

If you scan coupons that have both UPC and GS1 DataBar codes, you may wish to scan and output only the data from the GS1

DataBar code. Scan the GS1 Output On code below to scan and output only the GS1 DataBar code data. Default = GS1 Out-

put Off.

* Off

Allow Concatenation

Require Concatenation

* GS1 Output Off

GS1 Output On

6 - 22

UPC-E0

UPC-E0 On/Off

Most U.P.C. bar codes lead with the 0 number system. To read these codes, use the UPC-E0 On selection. If you need to

read codes that lead with the 1 number system, use UPC-E1 (page 6-24). Default = On.

UPC-E0 Expand

UPC-E Expand expands the UPC-E code to the 12 digit, UPC-A format. Default = Off.

UPC-E0 Addenda Required

When Required is scanned, the scanner will only read UPC-E bar codes that have addenda. Default = Not Required.

* UPC-E0 On

UPC-E0 Off

* Off

Required

* Not Required

6 - 23

UPC-E0 Addenda Separator

When this feature is On, there is a space between the data from the bar code and the data from the addenda. When turned

Off, there is no space. Default = On.

UPC-E0 Check Digit

Check Digit specifies whether the check digit should be transmitted at the end of the scanned data or not. Default = On.

UPC-E0 Leading Zero

This feature allows the transmission of a leading zero (0) at the beginning of scanned data. To prevent transmission, scan

Off. Default = On.

UPC-E0 Addenda

This selection adds 2 or 5 digits to the end of all scanned UPC-E data. Default = Off for both 2 Digit and 5 Digit Addenda.

* On

Off

* On

Off

* On

Off

2 Digit Addenda On

* 2 Digit Addenda Off

6 - 24

UPC-E1

Most U.P.C. bar codes lead with the 0 number system. For these codes, use UPC-E0 (page 6-22). If you need to read codes

that lead with the 1 number system, use the UPC-E1 On selection. Default = Off.

EAN/JAN-13

EAN/JAN-13 On/Off

Convert UPC-A to EAN-13

When UPC-A Converted to EAN-13 is selected, UPC-A bar codes are converted to 13 digit EAN-13 codes by adding a

zero to the front. When Do not Convert UPC-A is selected, UPC-A codes are read as UPC-A.

5 Digit Addenda On

* 5 Digit Addenda Off

UPC-E1 On

* UPC-E1 Off

* On

Off

UPC-A Converted to EAN-13

6 - 25

EAN/JAN-13 Check Digit

This selection allows you to specify whether the check digit should be transmitted at the end of the scanned data or not.

Default = On.

EAN/JAN-13 Addenda

This selection adds 2 or 5 digits to the end of all scanned EAN/JAN-13 data. Default = Off for both 2 Digit and 5 Digit

Addenda.

EAN/JAN-13 Addenda Required

When Required is scanned, the scanner will only read EAN/JAN-13 bar codes that have addenda. Default = Not Required.

* Do not Convert UPC-A

* On

Off

2 Digit Addenda On

* 2 Digit Addenda Off

5 Digit Addenda On

* 5 Digit Addenda Off

Required

6 - 26

EAN/JAN-13 Addenda Separator

When this feature is On, there is a space between the data from the bar code and the data from the addenda. When turned

Off, there is no space. Default = On.

Note: If you want to enable or disable EAN13 with Extended Coupon Code, refer to UPC-A/EAN-13 with Extended Coupon

Code (page 6-21).

ISBN Translate

When On is scanned, EAN-13 Bookland symbols are translated into their equivalent ISBN number format. Default = Off.

* Not Required

* On

Off

* Off

6 - 27

EAN/JAN-8

EAN/JAN-8 On/Off

EAN/JAN-8 Check Digit

This selection allows you to specify whether the check digit should be transmitted at the end of the scanned data or not.

Default = On.

EAN/JAN-8 Addenda

This selection adds 2 or 5 digits to the end of all scanned EAN/JAN-8 data. Default = Off for both 2 Digit and 5 Digit

Addenda.

* On

Off

* On

Off

2 Digit Addenda On

* 2 Digit Addenda Off

5 Digit Addenda On

6 - 28

EAN/JAN-8 Addenda Required

When Required is scanned, the scanner will only read EAN/JAN-8 bar codes that have addenda. Default = Not Required.

EAN/JAN-8 Addenda Separator

When this feature is On, there is a space between the data from the bar code and the data from the addenda. When turned

Off, there is no space. Default = On.

* 5 Digit Addenda Off

Required

* Not Required

* On

Off

6 - 29

MSI

MSI On/Off

MSI Check Character

Different types of check characters are used with MSI bar codes. You can program the scanner to read MSI bar codes with

Type 10 check characters. Default = Validate Type 10, but Don’t Transmit.

When Check Character is set to Validate Type 10/11 and Transmit, the scanner will only read MSI bar codes printed with

the specified type check character(s), and will transmit the character(s) at the end of the scanned data.

When Check Character is set to Validate Type 10/11, but Don’t Transmit, the unit will only read MSI bar codes printed

with the specified type check character(s), but will not transmit the check character(s) with the scanned data.

* Off

* Validate Type 10, but Don’t

Transmit

Validate Type 10 and Transmit

Validate 2 Type 10 Characters,

but Don’t Transmit

Validate 2 Type 10 Characters

and Transmit

Validate Type 10 then Type 11

Character, but Don’t Transmit

6 - 30

MSI Message Length

Scan the bar codes below to change the message length. Refer to Message Length Description (page 6-1) for additional

information. Minimum and Maximum lengths = 4-48. Minimum Default = 4, Maximum Default = 48.

Validate Type 10 then

Type 11 Character and Transmit

Disable MSI Check Characters

Minimum Message Length

Maximum Message Length

6 - 31

GS1 DataBar Omnidirectional

< Default All GS1 DataBar Omnidirectional Settings >

GS1 DataBar Omnidirectional On/Off

GS1 DataBar Limited

< Default All GS1 DataBar Limited Settings >

GS1 DataBar Limited On/Off

* On

Off

* On

Off

6 - 32

GS1 DataBar Expanded

< Default All GS1 DataBar Expanded Settings >

GS1 DataBar Expanded On/Off

GS1 DataBar Expanded Message Length

Scan the bar codes below to change the message length. Refer to Message Length Description (page 6-1) for additional

information. Minimum and Maximum lengths = 4-74. Minimum Default = 4, Maximum Default = 74.

Trioptic Code

Note: If you are going to scan Code 32 Pharmaceutical codes (page 6-5), Trioptic Code must be off.

Trioptic Code is used for labeling magnetic storage media.

* On

Off

Minimum Message Length

Maximum Message Length

* Off

6 - 33

Codablock A

Codablock A On/Off

Codablock A Message Length

Scan the bar codes below to change the message length. Refer to Message Length Description (page 6-1) for additional

information. Minimum and Maximum lengths = 1-600. Minimum Default = 1, Maximum Default = 600.

* Off

Minimum Message Length

Maximum Message Length

6 - 34

Codablock F

Codablock F On/Off

Codablock F Message Length

Scan the bar codes below to change the message length. Refer to Message Length Description (page 6-1) for additional

information. Minimum and Maximum lengths = 1-2048. Minimum Default = 1, Maximum Default = 2048.

* Off

Minimum Message Length

Maximum Message Length

6 - 35

PDF417

< Default All PDF417 Settings >

PDF417 On/Off

PDF417 Message Length

Scan the bar codes below to change the message length. Refer to Message Length Description (page 6-1) for additional

information. Minimum and Maximum lengths = 1-2750. Minimum Default = 1, Maximum Default = 2750.

MacroPDF417

MacroPDF417 is an implementation of PDF417 capable of encoding very large amounts of data into multiple PDF417 bar

codes. When this selection is enabled, these multiple bar codes are assembled into a single data string. Default = On.

* On

Off

Minimum Message Length

Maximum Message Length

* On

Off

6 - 36

MicroPDF417

< Default All MicroPDF417 Settings >

MicroPDF417 On/Off

MicroPDF417 Message Length

Scan the bar codes below to change the message length. Refer to Message Length Description (page 6-1) for additional

information. Minimum and Maximum lengths = 1-366. Minimum Default = 1, Maximum Default = 366.

GS1 Composite Codes

Linear codes are combined with a unique 2D composite component to form a new class called GS1 Composite symbology.

GS1 Composite symbologies allow for the co-existence of symbologies already in use. Default = Off.

* Off

Minimum Message Length

Maximum Message Length

* Off

6 - 37

UPC/EAN Version

Scan the UPC/EAN Version On bar code to decode GS1 Composite symbols that have a U.P.C. or an EAN linear compo-

nent. (This does not affect GS1 Composite symbols with a GS1-128 or GS1 linear component.) Default = UPC/EAN Ver-

sion Off.

Note: If you scan coupons that have both UPC and GS1 DataBar codes, you may wish to scan and output only the data from

the GS1 DataBar code. See Coupon GS1 DataBar Output (page 6-21) for further information.

GS1 Composite Code Message Length

Scan the bar codes below to change the message length. Refer to Message Length Description (page 6-1) for additional

information. Minimum and Maximum lengths = 1-2435. Minimum Default = 1, Maximum Default = 2435.

GS1 Emulation

The scanner can automatically format the output from any GS1 data carrier to emulate what would be encoded in an equivalent

GS1-128 or GS1 DataBar symbol. GS1 data carriers include UPC-A and UPC-E, EAN-13 and EAN-8, ITF-14, GS1-128, and

GS1-128 DataBar and GS1 Composites. (Any application that accepts GS1 data can be simplified since it only needs to recog-

nize one data carrier type.)

If GS1-128 Emulation is scanned, all retail codes (U.P.C., UPC-E, EAN8, EAN13) are expanded out to 16 digits. If the AIM ID

is enabled, the value will be the GS1-128 AIM ID, ]C1 (see Symbology Charts on page A-1).

If GS1 DataBar Emulation is scanned, all retail codes (U.P.C., UPC-E, EAN8, EAN13) are expanded out to 16 digits. If the AIM

ID is enabled, the value will be the GS1-DataBar AIM ID, ]em (see Symbology Charts on page A-1).

If GS1 Code Expansion Off is scanned, retail code expansion is disabled, and UPC-E expansion is controlled by the UPC-E0

Expand (page 6-22) setting. If the AIM ID is enabled, the value will be the GS1-128 AIM ID, ]C1 (see Symbology Charts on

page A-1).

If EAN8 to EAN13 Conversion is scanned, all EAN8 bar codes are converted to EAN13 format.

Default = GS1 Emulation Off.

UPC/EAN Version On

* UPC/EAN Version Off

Minimum Message Length

Maximum Message Length

GS1-128 Emulation

6 - 38

TCIF Linked Code 39 (TLC39)

This code is a composite code since it has a Code 39 linear component and a MicroPDF417 stacked code component. All bar

code readers are capable of reading the Code 39 linear component. The MicroPDF417 component can only be decoded if

TLC39 On is selected. The linear component may be decoded as Code 39 even if TLC39 is off. Default = Off.

QR Code

< Default All QR Code Settings >

QR Code On/Off

This selection applies to both QR Code and Micro QR Code.

GS1 DataBar Emulation

GS1 Code Expansion Off

EAN8 to EAN13 Conversion

* GS1 Emulation Off

* Off

* On

Off

6 - 39

QR Code Message Length

Scan the bar codes below to change the message length. Refer to Message Length Description (page 6-1) for additional

information. Minimum and Maximum lengths = 1-7089. Minimum Default = 1, Maximum Default = 7089.

QR Code Append

This function allows the scanner to append the data from several QR Code bar codes together before transmitting them to

the host computer. When the scanner encounters an QR Code bar code with the append trigger character(s), it buffers the

number of QR Code bar codes determined by information encoded in those bar codes. Once the proper number of codes

is reached, the data is output in the order specified in the bar codes. Default = On.

QR Code Page

QR Code pages define the mapping of character codes to characters. If the data received does not display with the proper

characters, it may be because the bar code being scanned was created using a code page that is different from the one the

host program is expecting. If this is the case, scan the bar code below, select the code page with which the bar codes were

created (see ISO 2022/ISO 646 Character Replacements on page A-8), and scan the value and the Save bar code from

the Programming Chart on the inside the back cover of this manual. The data characters should then appear properly.

Minimum Message Length

Maximum Message Length

* On

Off

QR Code Page

6 - 40

Data Matrix

< Default All Data Matrix Settings >

Data Matrix On/Off

Data Matrix Message Length

Scan the bar codes below to change the message length. Refer to Message Length Description (page 6-1) for additional

information. Minimum and Maximum lengths = 1-3116. Minimum Default = 1, Maximum Default = 3116.

Data Matrix Append

This function allows the scanner to append the data from several Data Matrix bar codes together before transmitting them

to the host computer. When the scanner encounters an Data Matrix bar code with the append trigger character(s), it buf-

fers the number of Data Matrix bar codes determined by information encoded in those bar codes. Once the proper number

of codes is reached, the data is output in the order specified in the bar codes. Default = On.

Data Matrix Code Page

Data Matrix Code pages define the mapping of character codes to characters. If the data received does not display with the

proper characters, it may be because the bar code being scanned was created using a code page that is different from the

one the host program is expecting. If this is the case, scan the bar code below, select the code page with which the bar

* On

Off

Minimum Message Length

Maximum Message Length

* On

Off

6 - 41

codes were created (see ISO 2022/ISO 646 Character Replacements on page A-8), and scan the value and the Save bar

code from the Programming Chart on the inside the back cover of this manual. The data characters should then appear

properly.

MaxiCode

< Default All MaxiCode Settings >

MaxiCode On/Off

MaxiCode Message Length

Scan the bar codes below to change the message length. Refer to Message Length Description (page 6-1) for additional

information. Minimum and Maximum lengths = 1-150. Minimum Default = 1, Maximum Default = 150.

Data Matrix Code Page

* Off

Minimum Message Length

Maximum Message Length

6 - 42

Aztec Code

< Default All Aztec Code Settings >

Aztec Code On/Off

Aztec Code Message Length

Scan the bar codes below to change the message length. Refer to Message Length Description (page 6-1) for additional

information. Minimum and Maximum lengths = 1-3832. Minimum Default = 1, Maximum Default = 3832.

Aztec Append

This function allows the scanner to append the data from several Aztec bar codes together before transmitting them to the

host computer. When the scanner encounters an Aztec bar code with the append trigger character(s), it buffers the number

of Aztec bar codes determined by information encoded in those bar codes. Once the proper number of codes is reached,

the data is output in the order specified in the bar codes. Default = On.

Aztec Code Page

Aztec Code pages define the mapping of character codes to characters. If the data received does not display with the

proper characters, it may be because the bar code being scanned was created using a code page that is different from the

one the host program is expecting. If this is the case, scan the bar code below, select the code page with which the bar

* On

Off

Minimum Message Length

Maximum Message Length

* On

Off

6 - 43

codes were created (see ISO 2022/ISO 646 Character Replacements on page A-8), and scan the value and the Save bar

code from the Programming Chart on the inside the back cover of this manual. The data characters should then appear

properly.

Chinese Sensible (Han Xin) Code

< Default All Han Xin Settings >

Han Xin Code On/Off

Han Xin Code Message Length

Scan the bar codes below to change the message length. Refer to Message Length Description (page 6-1) for additional

information. Minimum and Maximum lengths = 1-7833. Minimum Default = 1, Maximum Default = 7833.

Aztec Code Page

* Off

Minimum Message Length

Maximum Message Length

6 - 44

Postal Codes - 2D

The following lists the possible 2D postal codes, and 2D postal code combinations that are allowed. Only one 2D postal code

selection can be active at a time. If you scan a second 2D postal code selection, the first selection is overwritten. Default = 2D

Postal Codes Off.

Single 2D Postal Codes:

* 2D Postal Codes Off

Australian Post On

British Post On

Canadian Post On

Intelligent Mail Bar Code On

Japanese Post On

KIX Post On

Planet Code On

Also see Planet Code

Check Digit, page 6-47.

Postal-4i On

6 - 45

Combination 2D Postal Codes:

Postnet On

Also see Postnet Check

Digit, page 6-47.

Postnet with B and B’ Fields On

InfoMail On

InfoMail and British

Post On

Intelligent Mail Bar Code and

Postnet with B and B’ Fields On

Postnet and

Postal-4i On

Postnet and

Intelligent Mail Bar Code On

Postal-4i and

Intelligent Mail Bar Code On

Postal-4i and

Postnet with B and B’ Fields On

Planet Code and

Postnet On

6 - 46

Planet Code and

Postnet with B and B’ Fields On

Planet Code and

Postal-4i On

Planet Code and

Intelligent Mail Bar Code On

Planet Code,

Postnet, and

Postal-4i On

Planet Code,

Postnet, and

Intelligent Mail Bar Code On

Planet Code,

Postal-4i, and

Intelligent Mail Bar Code On

Postnet,

Postal-4i, and

Intelligent Mail Bar Code On

Planet Code,

Postal-4i, and

Postnet with B and B’ Fields On

Planet Code,

Intelligent Mail Bar Code, and

Postnet with B and B’ Fields On

Postal-4i,

Intelligent Mail Bar Code, and

Postnet with B and B’ Fields On

6 - 47

Planet Code Check Digit

This selection allows you to specify whether the check digit should be transmitted at the end of Planet Code data. Default

= Don’t Transmit.

Postnet Check Digit

This selection allows you to specify whether the check digit should be transmitted at the end of Postnet data. Default =

Don’t Transmit.

Australian Post Interpretation

This option controls what interpretation is applied to customer fields in Australian 4-State symbols.

Bar Output lists the bar patterns in “0123” format.

Numeric N Table causes that field to be interpreted as numeric data using the N Table.

Alphanumeric C Table causes the field to be interpreted as alphanumeric data using the C Table. Refer to the Australian

Post Specification Tables.

Planet Code,

Postal-4i,

Intelligent Mail Bar Code, and

Postnet On

Planet Code,

Postal-4i,

Intelligent Mail Bar Code, and

Postnet with B and B’ Fields On

Transmit Check Digit

* Don’t Transmit Check Digit

Transmit Check Digit

* Don’t Transmit Check Digit

6 - 48

Combination C and N Tables causes the field to be interpreted using either the C or N Tables.

Postal Codes - Linear

The following lists linear postal codes. Any combination of linear postal code selections can be active at a time.

China Post (Hong Kong 2 of 5)

China Post (Hong Kong 2 of 5) On/Off

China Post (Hong Kong 2 of 5) Message Length

Scan the bar codes below to change the message length. Refer to Message Length Description (page 6-1) for addi-

tional information. Minimum and Maximum lengths = 2-80. Minimum Default = 4, Maximum Default = 80.

* Bar Output

Numeric N Table

Alphanumeric C Table

Combination C and N Tables

* Off

Minimum Message Length

6 - 49

Korea Post

Korea Post

Korea Post Message Length

Scan the bar codes below to change the message length. Refer to Message Length Description (page 6-1) for addi-

tional information. Minimum and Maximum lengths = 2-80. Minimum Default = 4, Maximum Default = 48.

Korea Post Check Digit

This selection allows you to specify whether the check digit should be transmitted at the end of the scanned data.

Default = Don’t Transmit.

Maximum Message Length

* Off

Minimum Message Length

Maximum Message Length

Transmit Check Digit

* Don’t Transmit Check Digit

6 - 50

7 - 1

Imaging Commands

The scan engine is like a digital camera in the way it captures, manipulates, and transfers images. The following commands

allow you to alter the way the scan engine performs these functions.

Single-Use Basis

Imaging Commands with their modifiers send instructions to the scan engine on a single-use basis, and take effect for a single

image capture. Once that capture is complete, the scan engine reverts to its imaging default settings. If you want to perma-

nently change a setting, you must use the serial default commands (see Chapter 10). When the serial default command is

used, that selection becomes the new, permanent setting for the scan engine.

Command Syntax

Multiple modifiers and commands can be issued within one sequence. If additional modifiers are to be applied to the same

command, just add the modifiers to that command. For example, to add 2 modifiers to the Image Snap command, such as set-

ting the Imaging Style to 1P and the Wait for Trigger to 1T, you would enter IMGSNP1P1T.

Note: After processing an image capture command (IMGSNP or IMGBOX), you must follow it with an IMGSHP command if you

want to see it on your terminal.

To add a command to a sequence, each new command is separated with a semicolon. For example, to add the Image Ship

command to the above sequence, you would enter IMGSNP1P1T;IMGSHP.

The imaging commands are:

Image Snap - IMGSNP (page 7-1)

Image Ship - IMGSHP (page 7-3)

Intelligent Signature Capture - IMGBOX (page 7-10)

The modifiers for each of these commands follow the command description.

Note: The images included with each command description are examples only. The results you achieve may be different from

those included in this manual. The quality of the output you receive will vary depending on lighting, quality of the initial

image/object being captured, and distance of the scan engine from the image/object. To achieve a high quality image, it

is recommended that you position your scan engine 4-6" (10.2-15.2 cm) away from the image/object you are capturing.

Step 1 - Take a Picture Using IMGSNP

Image Snap - IMGSNP

An image is taken whenever the hardware button is pressed, or when the Image Snap (IMGSNP) command is processed.

The image snap command has many different modifiers that can be used to change the look of the image in memory. Any num-

ber of modifiers may be appended to the IMGSNP command. For example, you can use the following command to snap an

image, increase the gain, and have the beeper sound once the snap is complete: IMGSNP2G1B

IMGSNP Modifiers

P - Imaging Style

This sets the Image Snap style.

0P Decoding Style. This processing allows a few frames to be taken until the exposure parameters are met. The last

frame is then available for further use.

1P Photo Style (default). This mimics a simple digital camera, and results in a visually optimized image.

2P Manual Style. This is an advanced style that should only be used by an experienced user. It allows you the most

freedom to set up the scan engine, and has no auto-exposure.

B - Beeper

Causes a beep to sound after an image is snapped.

0B No beep (default)

7 - 2

1B Sounds a beep when the image is captured.

T - Wait for Trigger

Waits for a hardware button push before taking the image. This is only available when using Photo Style (1P).

0T Takes image immediately (default)

1T Waits for a button push, then takes the image

L - LED State

Determines if the LEDs should be on or off, and when. Ambient illumination (0L) is preferred for taking pictures of color

documents, such as ID cards, especially when the scanner is in a stand. LED illumination (1L) is preferred when the scan-

ner is handheld. LED State is not available when using Decoding Style (0P).

0L LEDs off (default)

1L LEDs on

E - Exposure

Exposure is used in Manual Style only (2P), and allows you to set the exposure time. This is similar to setting a shutter

speed on a camera. The exposure time determines how long the scanner takes to record an image. On a bright day, expo-

sure times can be very short because plenty of light is available to help record an image. At nighttime, exposure time can

increase dramatically due to the near absence of light. Units are 127 microseconds. (Default = 7874)

nE Range: 1 - 7874

G - Gain

Gain is used in Manual Style only (2P). Like a volume control, the gain modifier boosts the signal and multiplies the pixel

value. As you increase the gain, the noise in an image is also amplified.

1G No gain (default)

2G Medium gain

4G Heavy gain

8G Maximum gain

Example of Exposure at 7874E with

fluorescent lighting: Example of Exposure at 100E with

fluorescent lighting:

Example of Gain at

1G: Example of Gain at

4G: Example of Gain at

8G:

7 - 3

W - Target White Value

Sets the target for the median grayscale value in the captured image. For capturing close-up images of high contrast doc-

uments, a lower setting, such as 75, is recommended. Higher settings result in longer exposure times and brighter images,

but if the setting is too high, the image may be overexposed. Target White Value is only available when using Photo Style

(1P). (Default = 125)

nW Range: 0 - 255

D - Delta for Acceptance

This sets the allowable range for the white value setting (see W - Target White Value). Delta is only available when using

Photo Style (1P). (Default = 25)

nD Range: 0 - 255

U - Update Tries

This sets the maximum number of frames the scan engine should take to reach the D - Delta for Acceptance. Update Tries

is only available when using Photo Style (1P). (Default = 6)

nU Range: 0 - 10

% - Target Set Point Percentage

Sets the target point for the light and dark values in the captured image. A setting of 75% means 75% of the pixels are at or

below the target white value, and 25% of the pixels are above the target white value. Altering this setting from the default is

not recommended under normal circumstances. To alter grayscale values, W - Target White Value should be used.

(Default = 50)

n% Range: 1 - 99

Step 2 - Ship a Picture Using IMGSHP

Image Ship - IMGSHP

An image is taken whenever the button is pressed, or when the Image Snap (IMGSNP) command is processed. The last image

is always stored in memory. You can “ship” the image by using the IMGSHP command.

The image ship commands have many different modifiers that can be used to change the look of the image output. Modifiers

affect the image that is transmitted, but do not affect the image in memory. Any number of modifiers may be appended to the

IMGSHP command. For example, you can use the following command to snap and ship a bitmap image with gamma correction

and document image filtering: IMGSNP;IMGSHP8F75K26U

IMGSHP Modifiers

A - Infinity Filter

Example of White

Value at 75W: Example of White

Value at 125W: Example of White

Value at 200W:

Example of Target

Set Point

Percentage at 97%:

Example of Target

Set Point

Percentage at 40%:

Example of Target

Set Point

Percentage at 50%:

7 - 4

Enhances pictures taken from very long distances (greater than 10 feet or 3m). The Infinity Filter should not be used with

IMGSHP Modifiers (page 7-3).

0A Infinity filter off (default)

1A Infinity filter on

C - Compensation

Flattens the image to account for variations in illumination across the image.

0C Compensation disabled (default)

1C Compensation enabled

D - Pixel Depth

Indicates the number of bits per pixel in the transmitted image (KIM or BMP format only).

8D 8 bits per pixel, grayscale image (default)

1D 1 bit per pixel, black and white image

Example of Infinity Filter off (0A)

from approximately 12 feet

(3.66m) away:

Example of Infinity Filter on (1A)

from approximately 12 feet (3.66m)

away:

Example of Compensation at 0C: Example of Compensation at 1C:

7 - 5

E - Edge Sharpen

An edge sharpen filter cleans up the edges of an image, making it look cleaner and sharper. While edge sharpening does

make the image look cleaner, it also removes some fine detail from the original image. The strength of the edge sharpen

filter can be entered from 1 to 24. Entering a 23E gives the sharpest edges, but also increases noise in the image.

0E Don’t sharpen image (default)

14E Apply edge sharpen for typical image

ne Apply edge sharpen using strength n (n = 1-24)

F - File Format

Indicates the desired format for the image.

0F KIM format

1F TIFF binary

2F TIFF binary group 4, compressed

3F TIFF grayscale

4F Uncompressed binary (upper left to lower right, 1 pixel/bit, 0 padded end of line)

5F Uncompressed grayscale (upper left to lower right, bitmap format)

6F JPEG image (default)

8F BMP format (lower right to upper left, uncompressed)

10F TIFF color compressed image

11F TIFF color uncompressed image

12F JPEG color image

14F BMP color format

15F BMP Uncompressed raw image

H - Histogram Stretch

Increases the contrast of the transmitted image. Not available with some image formats.

0H No stretch (default)

1H Histogram stretch

Example of Edge Sharpen at 0E: Example of Edge Sharpen at 24E:

Example of Histogram Stretch at 0H: Example of Histogram Stretch at 1H:

7 - 6

I - Invert Image

Invert image is used to rotate the image around the X or Y axis.

1ix Invert around the X axis (flips picture upside down)

1iy Invert around the Y axis (flips picture left to right)

IF- Noise Reduction

Used to reduce the salt and pepper noise in an image.

0if No salt and pepper noise reduction (default)

1if Salt and pepper noise reduction

Example of image

with Invert Image set to

1ix:

Example of image not

inverted: Example of image

with Invert Image set

to 1iy:

Example of Noise Reduction On (1if):Example of Noise Reduction Off (0if):

7 - 7

IR - Image Rotate

0ir Image as snapped (rightside up) (default)

1ir Rotate image 90 degrees to the right

2ir Rotate image 180 degrees (upside down)

3ir Rotate image 90 degrees to the left

J - JPEG Image Quality

Sets the desired quality when the JPEG image format is selected. Higher numbers result in higher quality, but larger files.

Smaller numbers result in greater amounts of lossy compression, faster transmission times, lower quality, but smaller files.

(Default = 50)

nJ Image is compressed as much as possible while preserving quality factor of n (n = 0 - 100)

0J worst quality (smallest file)

100Jbest quality (largest file)

K - Gamma Correction

Gamma measures the brightness of midtone values produced by the image. You can brighten or darken an image using

gamma correction. A higher gamma correction yields an overall brighter image. The lower the setting, the darker the

image. The optimal setting for text images is 50K.

0K Gamma correction off (default)

50K Apply gamma correction for brightening typical document image

nK Apply gamma correction factor n (n = 0-1,000)

L, R, T, B, M - Image Cropping

Ships a window of the image by specifying the left, right, top, and bottom pixel coordinates. Device columns are numbered

0 through 1279, and device rows are numbered 0 through 959.

Example of Image Rotate set to 0ir: Example of Image Rotate set to 2ir:

Example of Image Rotate set to 1ir: Example of Image Rotate set to 3ir:

Example of Gamma

Correction set to 50K:

Example of Gamma

Correction set to 0K: Example of Gamma

Correction set to 255K:

7 - 8

nL The left edge of the shipped image corresponds to column n of the image in memory. Range: 000 - 843. (Default

= 0)

nR The right edge of the shipped image corresponds to column n - 1 of the image in memory. Range: 000 - 843.

(Default = all columns)

nT The top edge of the shipped image corresponds to row n of the image in memory. Range: 000 - 639. (Default = 0)

nB The bottom edge of the shipped image corresponds to row n - 1 of the image in memory. Range: 000 - 639.

(Default = all rows)

Alternately, specify the number of pixels to cut from the outside margin of the image; thus only the center pixels are trans-

mitted.

nM Margin: cut n columns from the left, n + 1 columns from the right, n rows from the top, and n + 1 rows from the

bottom of the image. Ship the remaining center pixels. Range: 0 - 238.

(Default = 0, or full image)

P - Protocol

Used for shipping an image. Protocol covers two features of the image data being sent to the host. It addresses the proto-

col used to send the data (Hmodem, which is an Xmodem 1K variant that has additional header information), and the for-

mat of the image data that is sent.

0P None (raw data)

2P None (default for USB)

3P Hmodem compressed (default for RS232)

4P Hmodem

S - Pixel Ship

Pixel Ship sizes an image in proportion to its original size. It decimates the image by shipping only certain, regularly

spaced pixels. For example, 4S would transmit every fourth pixel from every fourth line. The smaller number of pixels

shipped, the smaller the image, however, after a certain point the image becomes unusable.

1S ship every pixel (default)

2S ship every 2nd pixel, both horizontally and vertically

Example of Image

Crop set to 300L:

Example of Image Crop

set to 300R:

Uncropped Image:

Example of Image Crop set to 200T:Example of Image Crop set to 200B:

Example of Image Crop set to 238M:

7 - 9

3S ship every 3rd pixel, both horizontally and vertically

U - Document Image Filter

Allows you to input parameters to sharpen the edges and smooth the area between the edges of text in an image. This fil-

ter should be used with gamma correction (see page 7-7), with the scanner in a stand, and the image captured using the

command:

IMGSNP1P0L168W90%32D

This filter typically provides better JPEG compression than the standard E - Edge Sharpen command (see page 7-9). This

filter also works well when shipping pure black and white images (1 bit per pixel). The optimal setting is 26U.

0U Document image filter off (default)

26U Apply document image filter for typical document image

nU Apply document image filter using grayscale threshold n. Use lower numbers when the image contrast is lower.

1U will have a similar effect to setting E - Edge Sharpen (page 7-5) to 22e. Range: 0-255.

V - Blur Image

Smooths transitions by averaging the pixels next to the hard edges of defined lines and shaded areas in an image.

0V Don’t blur (default)

1V Blur

W - Histogram Ship

A histogram gives a quick picture of the tonal range of an image, or key type. A low-key image has detail concentrated in

the shadows; a high-key image has detail concentrated in the highlights; and an average-key image has detail concentrated

in the midtones. This modifier ships the histogram for an image.

0W Don’t ship histogram (default)

Example of Pixel Ship set to 1S: Example of Pixel

Ship set to 2S: Example of Pixel

Ship set to 3S:

Example of Document

Image Filter set to 0U: Example of Document

Image Filter set to 26U:

Example of Blur Image Off (0V): Example of Blur Image On (1V):

7 - 10

1W Ship histogram

Image Size Compatibility

If you have applications that expect an image ship to return exactly 640x480 pixels, scan the Force VGA Resolution bar

code. Default = Native Resolution.

Intelligent Signature Capture - IMGBOX

IMGBOX allows you to configure the size and location of a signature capture area relative to its proximity to a bar code. This

allows you to tailor a signature capture area to a specific form. In order to use IMGBOX, you need a set form where the signa-

ture box location is in a known location relative to a bar code. You can input the overall size of the signature area, as well as

specify how far the signature area is from the bar code, vertically and horizontally. You can also set the resolution and file format

for the final output of the signature capture image.

Note: IMGBOX commands can only be triggered by one of the following types of bar codes: PDF417, Code 39, Code 128, Aztec,

Codabar, and Interleaved 2 of 5. Once one of these symbologies has been read, the image is retained for a possible

IMGBOX command.

Signature Capture Optimize

If you will be using your scan engine to capture signatures frequently, you should optimize it for this purpose. However, the

speed of scanning bar codes may be slowed when this mode is enabled. Default = Off.

Image used for histogram: Histogram of image at left:

Force VGA Resolution

* Native Resolution

Optimize On

* Optimize Off

7 - 11

The following IMGBOX example was executed and viewed using QuickView software. This software is available at

www.honeywellaidc.com. Click on Software Downloads. Select 4600r from the Products list, then select QuickView Soft-

ware Utility.

Below is an example of a signature capture application. In this example, the aimer is centered over the signature capture area

and the trigger is pressed. A single beep is emitted, indicating that the scan engine has read a Code 128 bar code and the data

has been transferred to the host. An IMGBOX command may now be sent from the host to specify the coordinates of the signa-

ture capture area below that code, and indicating that only that area containing the signature should be transferred as an image

to the host.

To see this example, align the aimer with the signature area (not with the bar code), then press the trigger.

Send the following IMGBOX command string after the button push:

Example: IMGBOX245w37h55y.

Note: Case is not important in the command string. It is used here only for clarity.

The following image is captured:

The IMGBOX commands have many different modifiers that can be used to change the size and appearance of the signature

image output by the scan engine. Modifiers affect the image that is transmitted, but do not affect the image in memory. Any

number of modifiers may be appended to the IMGBOX command.

Note: The IMGBOX command will return a NAK unless a window size (width and height) are specified. See H - Height of

Signature Capture Area (page 7-12) and W - Width of Signature Capture Area (page 7-13).

IMGBOX Modifiers

A - Output Image Width

This option is used to size the image horizontally. If using this option, set the resolution (R) to zero.

B - Output Image Height

Example of Image Width set to 200A:

Example of Image Width set to 600A:

7 - 12

This option is used to size the image vertically. If using this option, set the resolution (R) to zero.

D - Pixel Depth

This indicates the number of bits per pixel in the transmitted image, which defines whether it will be grayscale or black and

white.

8D 8 bits per pixel, grayscale image (default)

1D 1 bit per pixel, black and white image

F - File Format

This option indicates the type of file format in which to save the image.

0F KIM format

1F TIFF binary

2F TIFF binary group 4, compressed

3F TIFF grayscale

4F Uncompressed Binary

5F Uncompressed grayscale

6F JPEG image (default)

7F Outlined image

8F BMP format

H - Height of Signature Capture Area

The height of the signature capture area must be measured in inches divided by .01. In the example, the height of the area

to be captured is 3/8 inch, resulting in a value of H = .375/0.01 = 37.5.

K - Gamma Correction

Gamma measures the brightness of midtone values produced by the image. You can brighten or darken an image using

gamma correction. A higher gamma correction yields an overall brighter image. The lower the setting, the darker the

image. The optimal setting for text images is 50K.

0K Gamma correction off (default)

50K Apply gamma correction for brightening typical document image

Example of Image Height set to 50B:

Example of Image Height set to 100B:

Example: IMGBOX245w37h55y.

7 - 13

nK Apply gamma correction factor n (n = 1-255)

R - Resolution of Signature Capture Area

The resolution is the number of pixels that the scan engine outputs per each minimum bar width. The higher the value for

R, the higher the quality of the image, but also the larger the file size. Values begin at 1000. The scan engine automatically

inserts a decimal point between the first and second digit. For example, use 2500 to specify a resolution of 2.5. Set to zero

when using the A and B modifiers (see A - Output Image Width and B - Output Image Height on page 7-11).

S - Bar Code Aspect Ratio

All dimensions used in IMGBOX are measured as multiples of the minimum element size of the bar code. The bar code

aspect ratio allows you to set the ratio of the bar code height to the narrow element width. In the example, the narrow ele-

ment width is .010 inches and the bar code height is 0.400 inches, resulting in a value of S = 0.4/0.01 = 40.

W - Width of Signature Capture Area

The width of the signature capture area must be measured in inches divided by .01. In the example, the width of the area

to be captured is 2.4 inches, resulting in a value of W = 2.4/0.01 = 240. (A value of 245 was used in the example to accom-

modate a slightly wider image area.)

X - Horizontal Bar Code Offset

Example of Gamma Correction

set to 50K:

Example of Gamma

Correction set to 0K:

Example of Gamma Correction

set to 255K:

Example of Resolution set to 1000R:

Example of Resolution set to 0R:

Example of Resolution set to 2000R:

Example: IMGBOX245w37h55y.

7 - 14

The horizontal bar code offset allows you to offset the horizontal center of the signature capture area. Positive values move

the horizontal center to the right and negative values to the left. Measurements are in multiples of the minimum bar width.

Y - Vertical Bar Code Offset

The vertical bar code offset allows you to offset the vertical center of the signature capture area. Negative numbers indi-

cate that the signature capture is above the bar code, and positive numbers indicate that the area is below the bar code.

Measurements are in multiples of the minimum bar width.

RF Default Imaging Device

The scan engine supports imaging command processing (IMGSHP, IMGSNP, IMGBOX) so that EZConfig-Scanning (see page

9-3) and other applications are able to perform imaging functions as if they were communicating directly with a scanner. To

accomplish this, the scanner uses a menu command called RF_DID (RF Default Imaging Device). RF_DID is the name of the

scanner (BT_NAM) that is to receive imaging commands. The default for RF_DID is “*”indicating that imaging commands are to

be sent to all associated scanners. Change this setting to RF_DIDscanner_name to ensure that they are sent to a particular

scanner. Refer to "Paging" on page 3-7 to generate a report containing the port, work group, scanner name, and address for

each scanner. Refer to "Scanner Name" on page 3-18 set a unique name for each scanner.

Example of Horizontal Offset set to -75X:

Example of Horizontal Offset set to 75X:

Example of Vertical Offset set to -7Y:

Example of Vertical Offset set to 65Y:

8 - 1

Interface Keys

Keyboard Function Relationships

The following Keyboard Function Code, Hex/ASCII Value, and Full ASCII “CTRL”+ relationships apply to all terminals that can

be used with the scan engine. Refer to page 2-15 enable Control + X (Control + ASCII) Mode.

The last five characters in the Full ASCII “CTRL”+ column ( [ \ ] 6 - ), apply to US only. The following chart indicates the equiva-

lents of these five characters for different countries.

Function Code HEX/ASCII Value Full ASCII (CTRL + X Mode)

NUL 00 @

SOH 01 A

STX 02 B

ETX 03 C

EOT 04 D

ENQ 05 E

ACK 06 F

BEL 07 G

BS 08 H

HT 09 I

LF 0A J

VT 0B K

FF 0C L

CR 0D M

SO 0E N

SI 0F O

DLE 10 P

DC1 11 Q

DC2 12 R

DC3 13 S

DC4 14 T

NAK 15 U

SYN 16 V

ETB 17 W

CAN 18 X

EM 19 Y

SUB 1A Z

ESC 1B [

FS 1C \

GS 1D ]

RS 1E ^

US 1F _

Country Codes

United States [ \ ] 6 -

Belgium [ < ] 6 -

Scandinavia 8 < 9 6 -

France ^ 8 $ 6 =

Germany Ã + 6 -

Italy \ + 6 -

Switzerland <. . 6 -

United Kingdom [ ¢ ] 6 -

8 - 2

Denmark 8 \ 9 6 -

Norway 8\ 96-

Spain [ \ ] 6 -

Country Codes

8 - 3

Supported Interface Keys

ASCII HEX

IBM PC/AT and

Compatibles,

USB PC

Keyboard

Apple Mac/iMac

Supported Keys

NUL 00 Reserved Reserved

SOH 01 Enter (KP) Enter/Numpad Enter

STX 02 Cap Lock CAPS

ETX 03 ALT make ALT make

EOT 04 ALT break ALT break

ENQ 05 CTRL make CNTRL make

ACK 06 CTRL break CNTRL break

BEL 07 CR/Enter RETURN

BS 08 Reserved APPLE make

HT 09 Tab TAB

LF 0A Reserved APPLE break

VT 0B Tab TAB

FF 0C Delete Del

CR 0D CR/Enter RETURN

SO 0E Insert Ins Help

SI 0F Escape ESC

DLE 10 F11 F11

DC1 11 Home Home

DC2 12 Print Prnt Scrn

DC3 13 Back Space BACKSPACE

DC4 14 Back Tab LSHIFT TAB

NAK 15 F12 F12

SYN 16 F1 F1

ETB 17 F2 F2

CAN 18 F3 F3

EM 19 F4 F4

SUB 1A F5 F5

ESC 1B F6 F6

FS 1C F7 F7

GS 1D F8 F8

RS 1E F9 F9

US 1F F10 F10

DEL 7F BACKSPACE

8 - 4

9 - 1

Utilities

To Add a Test Code I.D. Prefix to All Symbologies

This selection allows you to turn on transmission of a Code I.D. before the decoded symbology. (See the Symbology Charts,

beginning on page A-1) for the single character code that identifies each symbology.) This action first clears all current prefixes,

then programs a Code I.D. prefix for all symbologies. This is a temporary setting that will be removed when the unit is power

cycled.

Show Decoder Revision

Scan the bar code below to output the decoder revision.

Show Scan Driver Revision

Scan the bar code below to output the scan driver revision. The scan driver controls image capture.

Show Software Revision

Scan the bar code below to output the current software revision, unit serial number, and other product information for the

engine.

Show Data Format

Scan the bar code below to show current data format settings.

Add Code I.D. Prefix to

All Symbologies (Temporary)

Show Decoder Revision

Show Scan Driver Revision

Show Software Revision

Data Format Settings

DFMBK3?.

9 - 2

Test Menu

When you scan the Test Menu On code, then scan a programming code in this manual, the scan engine displays the content of

a programming code. The programming function will still occur, but in addition, the content of that programming code is output

to the terminal.

Note: This feature should not be used during normal scan engine operation.

TotalFreedom

TotalFreedom is an open system architecture that makes it possible for you create applications that reside on your scan engine.

Decoding apps and Data Formatting apps can be created using TotalFreedom. For further information about TotalFreedom, go

to our website at www.honeywellaidc.com.

Application Plug-Ins (Apps)

Any apps that you are using can be turned off or on by scanning the following bar codes. Apps are stored in groups: Decoding,

and Formatting. You can enable and disable these groups of apps by scanning that group’s On or Off bar code below. You can

also scan the List Apps bar code to output a list of all your apps.

Note: You must reset your device in order for the apps setting to take effect.

* Off

* Decoding Apps On

Decoding Apps Off

* Formatting Apps On

Formatting Apps Off

List Apps

9 - 3

EZConfig-Scanning Introduction

EZConfig-Scanning provides a wide range of PC-based programming functions that can be performed on a scan engine con-

nected to your PC's COM port. EZConfig-Scanning allows you to download upgrades to the scan engine's firmware, change

programmed parameters, and create and print programming bar codes. Using EZConfig-Scanning, you can even save/open

the programming parameters for a scan engine. This saved file can be e-mailed or, if required, you can create a single bar code

that contains all the customized programming parameters and mail or fax that bar code to any location. Users in other locations

can scan the bar code to load in the customized programming.

To communicate with a scan engine, EZConfig-Scanning requires that the PC have at least one available serial communication

port, or a serial port emulation using a physical USB port. If you are using the serial port and RS232 cable, an external power

supply is required. When using a USB serial port emulation, only a USB cable is required.

EZConfig-Scanning Operations

The EZConfig-Scanning software performs the following operations:

Scan Data

Scan Data allows you to scan bar codes and display the bar code data in a window. Scan Data lets you send serial

commands to the scan engine and receive scan engine response that can be seen in the Scan Data window. The data

displayed in the Scan Data window can either be saved in a file or printed.

Configure

Configure displays the programming and configuration data of the scan engine. The scan engine's programming and

configuration data is grouped into different categories. Each category is displayed as a tree item under the "Configure"

tree node in the application explorer. When one of these tree nodes is clicked, the right-hand side is loaded with the

parameters' form belonging to that particular category. The "Configure" tree option has all the programming and con-

figuration parameters specified for a scan engine. You can set or modify these parameters as required. You can later

write the modified settings to the scan engine, or save them to a dcf file.

Imaging

Imaging provides all the image-related functions that a 2D scan engine can perform. You can capture an image using

the current settings, and the image will be displayed in an image window. Images captured from the scan engine can

be saved to files in different image formats. You can modify the image settings and save the image settings to an INI

file, which can be loaded later to capture new images. Imaging also lets you preview the images continuously captured

by the scan engine.

Installing EZConfig-Scanning from the Web

Note: EZConfig-Scanning requires .NET software. If .NET is not installed on your PC, you will be prompted to install it

during the EZConfig-Scanning installation.

1. Access the Honeywell web site at www.honeywellaidc.com

2. Click on the Resources tab. Select Download.

3. Click on the dropdown for Select Product Number. Click on your product number.

4. Click on the listing for EZConfig-Scanning.

5. When prompted, select Save File, and save the files to the c:\windows\temp directory.

6. Once you have finished downloading the file, exit the web site.

7. Using Explorer, go to the c:\windows\temp file.

8. Double click on the Setup.exe file. Follow the screen prompts to install the EZConfig-Scanning program.

9. If you’ve selected the defaults during installation, you can click on Start Menu-All Programs-Honeywell-EZConfig-

Scanning.

9 - 4

Resetting the Factory Defaults

If you aren’t sure what programming options are in your scan engine, or you’ve changed some options and want to restore the

scan engine to factory default settings, first scan the Remove Custom Defaults bar code, then scan Activate Defaults. This

resets the scan engine to the factory default settings.

The Menu Commands, beginning on page 10-4 list the factory default settings for each of the commands (indicated by an aster-

isk (*) on the programming pages).

This selection erases all your settings and resets the scan engine to the original factory defaults. It also disables all

plugins.

Remove Custom Defaults

Activate Defaults

10 - 1

Serial Programming Commands

The serial programming commands can be used in place of the programming bar codes. Both the serial commands and the

programming bar codes will program the scan engine. For complete descriptions and examples of each serial programming

command, refer to the corresponding programming bar code in this manual.

The device must be set to an RS232 interface (see page 2-1). The following commands can be sent via a PC COM port using

terminal emulation software.

Conventions

The following conventions are used for menu and query command descriptions:

parameterA label representing the actual value you should send as part of a command.

[option] An optional part of a command.

{Data} Alternatives in a command.

bold Names of menus, menu commands, buttons, dialog boxes, and windows that appear on the screen.

Menu Command Syntax

Menu commands have the following syntax (spaces have been used for clarity only):

Prefix [:Name:] Tag SubTag {Data} [, SubTag {Data}] [; Tag SubTag {Data}] […] Storage

Prefix Three ASCII characters: SYN M CR (ASCII 22,77,13).

Tag A 3 character case-insensitive field that identifies the desired menu command group. For example, all RS232

configuration settings are identified with a Tag of 232.

SubTag A 3 character case-insensitive field that identifies the desired menu command within the tag group. For example, the

SubTag for the RS232 baud rate is BAD.

Data The new value for a menu setting, identified by the Tag and SubTag.

Storage A single character that specifies the storage table to which the command is applied. An exclamation point (!) performs

the command’s operation on the device’s volatile menu configuration table. A period (.) performs the command’s

operation on the device’s non-volatile menu configuration table. Use the non-volatile table only for semi-permanent

changes you want saved through a power cycle.

Query Commands

Several special characters can be used to query the device about its settings.

What is the default value for the setting(s).

What is the device’s current value for the setting(s).

What is the range of possible values for the setting(s). (The device’s response uses a dash (-) to indicate a

continuous range of values. A pipe (|) separates items in a list of non-continuous values.)

:Name: Field Usage (Optional)

This command returns the query information from the scan engine.

Tag Field Usage

When a query is used in place of a Tag field, the query applies to the entire set of commands available for the particular

storage table indicated by the Storage field of the command. In this case, the SubTag and Data fields should not be used

because they are ignored by the device.

SubTag Field Usage

When a query is used in place of a SubTag field, the query applies only to the subset of commands available that match the

Tag field. In this case, the Data field should not be used because it is ignored by the device.

10 - 2

Data Field Usage

When a query is used in place of the Data field, the query applies only to the specific command identified by the Tag and

SubTag fields.

Concatenation of Multiple Commands

Multiple commands can be issued within one Prefix/Storage sequence. Only the Tag, SubTag, and Data fields must be

repeated for each command in the sequence. If additional commands are to be applied to the same Tag, then the new

command sequence is separated with a comma (,) and only the SubTag and Data fields of the additional command are

issued. If the additional command requires a different Tag field, the command is separated from previous commands by a

semicolon (;).

Responses

The device responds to serial commands with one of three responses:

ACK Indicates a good command which has been processed.

ENQ Indicates an invalid Tag or SubTag command.

NAK Indicates the command was good, but the Data field entry was out of the allowable range for this Tag and SubTag

combination, e.g., an entry for a minimum message length of 100 when the field will only accept 2 characters.

When responding, the device echoes back the command sequence with the status character inserted directly before each

of the punctuation marks (the period, exclamation point, comma, or semicolon) in the command.

Examples of Query Commands

In the following examples, a bracketed notation [ ] depicts a non-displayable response.

Example: What is the range of possible values for Codabar Coding Enable?

Enter: cbrena*.

Response: CBRENA0-1[ACK]

This response indicates that Codabar Coding Enable (CBRENA) has a range of values from 0 to 1 (off and on).

Example: What is the default value for Codabar Coding Enable?

Enter: cbrena^.

Response: CBRENA1[ACK]

This response indicates that the default setting for Codabar Coding Enable (CBRENA) is 1, or on.

Example: What is the device’s current setting for Codabar Coding Enable?

Enter: cbrena?.

Response: CBRENA1[ACK]

This response indicates that the device’s Codabar Coding Enable (CBRENA) is set to 1, or on.

Example: What are the device’s settings for all Codabar selections?

Enter: cbr?.

Response: CBRENA1[ACK],

SSX0[ACK],

CK20[ACK],

CCT1[ACK],

MIN2[ACK],

MAX60[ACK],

DFT[ACK].

This response indicates that the device’s Codabar Coding Enable (CBRENA) is set to 1, or on;

the Start/Stop Character (SSX) is set to 0, or Don’t Transmit;

the Check Character (CK2) is set to 0, or Not Required;

concatenation (CCT) is set to 1, or Enabled;

10 - 3

the Minimum Message Length (MIN) is set to 2 characters;

the Maximum Message Length (MAX) is set to 60 characters;

and the Default setting (DFT) has no value.

Trigger Commands

You can activate and deactivate the scan engine with serial trigger commands. First, the scan engine must be put in Manual

Trigger Mode by scanning a Manual Trigger Mode bar code (page 3-5), or by sending a serial menu command for triggering

(page 3-5). Once the scan engine is in serial trigger mode, the trigger is activated and deactivated by sending the following

commands:

Activate: SYN T CR

Deactivate: SYN U CR

The scan engine scans until a bar code has been read, until the deactivate command is sent, or until the serial time-out has

been reached (see "Read Time-Out" on page 3-5 for a description, and the serial command on page 10-8).

Resetting the Custom Defaults

If you want the custom default settings restored to your scan engine, scan the Activate Custom Defaults bar code below. This

resets the scan engine to the custom default settings. If there are no custom defaults, it will reset the scan engine to the factory

default settings. Any settings that have not been specified through the custom defaults will be defaulted to the factory default

settings.

The charts on the following pages list the factory default settings for each of the commands (indicated by an asterisk (*) on the

programming pages).

Activate Custom Defaults

10 - 4

Menu Commands

Selection Setting

* Indicates default

Serial Command

# Indicates a numeric entry

Page

Product Default Settings

Setting Custom Defaults Set Custom Defaults MNUCDP 1-4

Save Custom Defaults MNUCDS 1-4

Resetting the Custom Defaults Activate Custom Defaults DEFALT 1-5

Programming the Interface

Plug and Play Codes Keyboard Wedge:

IBM PC AT and Compatibles with

CR suffix

PAP_AT 2-1

Laptop Direct Connect with CR

suffix

PAPLTD 2-1

RS232 Serial Port PAP232 2-1

Plug and Play Codes: IBM SurePos USB IBM SurePos Handheld PAPSPH 2-2

USB IBM SurePos Tabletop PAPSPT 2-2

Plug and Play Codes: USB USB Keyboard (PC) PAP124 2-2

USB Keyboard (Mac) PAP125 2-2

USB Japanese Keyboard (PC) TRMUSB134 2-2

USB HID PAP131 2-2

USB Serial TRMUSB130 2-3

CTS/RTS Emulation On USBCTS1 2-3

CTS/RTS Emulation Off* USBCTS0 2-3

ACK/NAK Mode On USBACK1 2-3

ACK/NAK Mode Off* USBACK0 2-3

Remote MasterMind for USB ReM Off REMIFC0 2-3

ReM On REMIFC1 2-3

Plug and Play Codes Verifone Ruby Terminal PAPRBY 2-3

Gilbarco Terminal PAPGLB 2-4

Honeywell Bioptic Aux Port PAPBIO 2-4

Datalogic Magellan Aux Port PAPMAG 2-4

NCR Bioptic Aux Port PAPNCR 2-4

Wincor Nixdorf Terminal PAPWNX 2-5

Wincor Nixdorf Beetle PAPBTL 2-5

Program Keyboard

Country

*U.S.A. KBDCTY0 2-5

Albania KBDCTY35 2-5

Azeri (Cyrillic) KBDCTY81 2-5

Azeri (Latin) KBDCTY80 2-5

Belarus KBDCTY82 2-6

Belgium KBDCTY1 2-6

Bosnia KBDCTY33 2-6

Brazil KBDCTY16 2-6

Brazil (MS) KBDCTY59 2-6

Bulgaria (Cyrillic) KBDCTY52 2-6

10 - 5

Bulgaria (Latin) KBDCTY53 2-6

Canada (French legacy) KBDCTY54 2-6

Canada (French) KBDCTY18 2-6

Canada (Multilingual) KBDCTY55 2-6

Croatia KBDCTY32 2-6

Czech KBDCTY15 2-7

Czech (Programmers) KBDCTY40 2-7

Czech (QWERTY) KBDCTY39 2-7

Czech (QWERTZ) KBDCTY38 2-7

Denmark KBDCTY8 2-7

Dutch (Netherlands) KBDCTY11 2-7

Estonia KBDCTY41 2-7

Faroese KBDCTY83 2-7

Finland KBDCTY2 2-7

France KBDCTY3 2-7

Gaelic KBDCTY84 2-7

Germany KBDCTY4 2-8

Greek KBDCTY17 2-8

Greek (220 Latin) KBDCTY64 2-8

Greek (220) KBDCTY61 2-8

Greek (319 Latin) KBDCTY65 2-8

Greek (319) KBDCTY62 2-8

Greek (Latin) KBDCTY63 2-8

Greek (MS) KBDCTY66 2-8

Greek (Polytonic) KBDCTY60 2-8

Hebrew KBDCTY12 2-8

Hungarian (101 key) KBDCTY50 2-8

Hungary KBDCTY19 2-9

Iceland KBDCTY75 2-9

Irish KBDCTY73 2-9

Italian (142) KBDCTY56 2-9

Italy KBDCTY5 2-9

Japan ASCII KBDCTY28 2-9

Kazakh KBDCTY78 2-9

Kyrgyz (Cyrillic) KBDCTY79 2-9

Latin America KBDCTY14 2-9

Latvia KBDCTY42 2-9

Latvia (QWERTY) KBDCTY43 2-9

Lithuania KBDCTY44 2-10

Lithuania (IBM) KBDCTY45 2-10

Macedonia KBDCTY34 2-10

Malta KBDCTY74 2-10

Mongolian (Cyrillic) KBDCTY86 2-10

Selection Setting

* Indicates default

Serial Command

# Indicates a numeric entry

Page

10 - 6

Norway KBDCTY9 2-10

Poland KBDCTY20 2-10

Polish (214) KBDCTY57 2-10

Polish (Programmers) KBDCTY58 2-10

Portugal KBDCTY13 2-10

Romania KBDCTY25 2-10

Russia KBDCTY26 2-11

Russian (MS) KBDCTY67 2-11

Russian (Typewriter) KBDCTY68 2-11

SCS KBDCTY21 2-11

Serbia (Cyrillic) KBDCTY37 2-11

Serbia (Latin) KBDCTY36 2-11

Slovakia KBDCTY22 2-11

Slovakia (QWERTY) KBDCTY49 2-11

Slovakia (QWERTZ) KBDCTY48 2-11

Slovenia KBDCTY31 2-11

Spain KBDCTY10 2-11

Spanish variation KBDCTY51 2-12

Sweden KBDCTY23 2-12

Switzerland (French) KBDCTY29 2-12

Switzerland (German) KBDCTY6 2-12

Tatar KBDCTY85 2-12

Turkey F KBDCTY27 2-12

Turkey Q KBDCTY24 2-12

Ukrainian KBDCTY76 2-12

United Kingdom KBDCTY7 2-12

United Stated (Dvorak right) KBDCTY89 2-13

United States (Dvorak left) KBDCTY88 2-12

United States (Dvorak) KBDCTY87 2-12

United States (International) KBDCTY30 2-13

Uzbek (Cyrillic) KBDCTY77 2-13

Keyboard Conversion *Keyboard Conversion Off KBDCNV0 2-14

Convert all Characters to Upper

Case

KBDCNV1 2-14

Convert all Characters to Lower

Case

KBDCNV2 2-14

Keyboard Style *Regular KBDSTY0 2-13

Caps Lock KBDSTY1 2-13

Shift Lock KBDSTY2 2-13

Automatic Caps Lock KBDSTY6 2-13

Emulate External

Keyboard

KBDSTY5 2-14

Selection Setting

* Indicates default

Serial Command

# Indicates a numeric entry

Page

10 - 7

Control Character Output *Control Character Output Off KBDNPE0 2-14

*Control Character Output On KBDNPE1 2-14

Keyboard Modifiers *Control + X Off KBDCAS0 2-15

DOS Mode Control + X KBDCAS1 2-15

Windows Mode Control + X KBDCAS2 2-15

Windows Mode Prefix/Suffix Off KBDCAS3 2-15

*Turbo Mode Off KBDTMD0 2-15

Turbo Mode On KBDTMD1 2-15

*Numeric Keypad Off KBDNPS0 2-15

Numeric Keypad On KBDNPS1 2-15

*Auto Direct Connect Off KBDADC0 2-16

Auto Direct Connect On KBDADC1 2-16

Baud Rate 300 BPS 232BAD0 2-16

600 BPS 232BAD1 2-16

1200 BPS 232BAD2 2-16

2400 BPS 232BAD3 2-16

4800 BPS 232BAD4 2-16

*9600 BPS 232BAD5 2-17

19200 BPS 232BAD6 2-16

38400 BPS 232BAD7 2-17

57600 BPS 232BAD8 2-17

115200 BPS 232BAD9 2-17

Word Length: Data Bits, Stop Bits,

and Parity

7 Data, 1 Stop, Parity Even 232WRD3 2-17

7 Data, 1 Stop, Parity None 232WRD0 2-17

7 Data, 1 Stop, Parity Odd 232WRD6 2-17

7 Data, 2 Stop, Parity Even 232WRD4 2-17

7 Data, 2 Stop, Parity None 232WRD1 2-17

7 Data, 2 Stop, Parity Odd 232WRD7 2-17

8 Data, 1 Stop, Parity Even 232WRD5 2-18

*8 Data, 1 Stop, Parity None 232WRD2 2-18

8 Data, 1 Stop, Parity Odd 232WRD8 2-18

8 Data, 1 Stop, Parity Mark 232WRD14 2-18

RS232 Receiver Time-out Range 0 - 300 seconds 232LPT### 2-18

RS232 Handshaking *RTS/CTS Off 232CTS0 2-19

Flow Control, No Timeout 232CTS1 2-18

Two-Direction Flow Control 232CTS2 2-18

Flow Control with Timeout 232CTS3 2-19

RS232 Timeout 232DEL#### 2-19

*XON/XOFF Off 232XON0 2-19

XON/XOFF On 232XON1 2-19

*ACK/NAK Off 232ACK0 2-19

ACK/NAK On 232ACK1 2-19

RS232 Stop Mode RS232 Stop Mode On 232SDY 2-20

Selection Setting

* Indicates default

Serial Command

# Indicates a numeric entry

Page

10 - 8

Scanner-Bioptic Packet Mode *Packet Mode Off 232PKT0 2-20

Packet Mode On 232PKT2 2-20

Scanner-Bioptic ACK/NAK Mode *Bioptic ACK/NAK Off 232NAK0 2-20

Bioptic ACK/NAK On 232NAK1 2-20

Scanner-Bioptic ACK/NAK Timeout ACK/NAK Timeout

*5100

232DLK##### 2-21

Input/Output Selections

Power Up Beeper Power Up Beeper Off - Scanner BEPPWR0 3-1

*Power Up Beeper On - Scanner BEPPWR1 3-1

Beep on BEL Character Beep on BEL On BELBEP1 3-1

*Beep on BEL Off BELBEP0 3-1

Trigger Click On BEPTRG1 3-1

*Off BEPTRG0 3-1

Beeper - Good Read Off BEPBEP0 3-2

*On BEPBEP1 3-2

Beeper Volume - Good Read Off BEPLVL0 3-2

Low BEPLVL1 3-2

Medium BEPLVL2 3-2

*High BEPLVL3 3-2

Beeper Pitch - Good Read

(Frequency)

Low (1600) (min 400Hz) BEPFQ11600 3-2

*Medium (2700 Hz) BEPFQ12700 3-2

High (4200) (max 9000Hz) BEPFQ14200 3-2

Beeper Pitch - Error (Frequency) *Razz (250) (min 200Hz) BEPFQ2800 3-3

Medium (3250) BEPFQ23250 3-3

High (4200) (max 9000Hz) BEPFQ24200 3-3

Beeper Duration - Good Read *Normal Beep BEPBIP0 3-3

Short Beep BEPBIP1 3-3

LED - Good Read Off BEPLED0 3-3

*On BEPLED1 3-3

Number of Beeps - Error *1 BEPERR3 3-4

Range 1 - 9 BEPERR# 3-4

Number of Beeps - Good Read *1 BEPRPT1 3-4

Range 1 - 9 BEPRPT# 3-4

Good Read Delay *No Delay DLYGRD0 3-4

Short Delay (500 ms) DLYGRD500 3-4

Medium Delay (1000 ms) DLYGRD1000 3-4

Long Delay (1500 ms) DLYGRD1500 3-4

User-Specified Good Read Delay Range 0 - 30,000 ms DLYGRD##### 3-4

Manual Trigger Modes *Manual Trigger - Normal PAPHHF 3-5

Manual Trigger - Enhanced PAPHHS 3-5

Serial Trigger Mode Read Time-Out

(0 - 300,000 ms) *30,000

TRGSTO#### 3-5

Presentation Mode Presentation Mode PAPTPR 3-5

Selection Setting

* Indicates default

Serial Command

# Indicates a numeric entry

Page

10 - 9

LED Illumination - Presentation

Mode

Off PWRLDC0 3-6

Low PWRLDC100 3-6

*High PWRLDC150 3-6

Presentation LED Behavior After

Decode

*LEDs On TRGPCK1 3-6

LEDs Off TRGPCK0 3-6

Presentation Sensitivity Range 0-20 (*1) TRGPMS## 3-6

Streaming Presentation Streaming Presentation Mode -

Normal

PAPSPN 3-7

Streaming Presentation Mode -

Enhanced

PAPSPE 3-7

Mobile Phone Read Mode Hand Held Scanning - Mobile

Phone

PAPHHC 3-7

Streaming Presentation - Mobile

Phone

PAPSPC 3-7

Image Snap and Ship Image Snap and Ship TRGMOD6 3-7

Hands Free Time-Out Range 0 - 300,000 ms TRGPTO###### 3-8

Reread Delay Short (500 ms) DLYRRD500 3-8

*Medium (750 ms) DLYRRD750 3-8

Long (1000 ms) DLYRRD1000 3-8

Extra Long (2000 ms) DLYRRD2000 3-8

User-Specified Range 0 - 30,000 ms DLYRRD##### 3-8

2D Reread Delay *2D Reread Delay Off DLY2RR0 3-9

Short (1000ms) DLY2RR1000 3-9

Medium (2000ms) DLY2RR2000 3-9

Long (3000ms) DLY2RR3000 3-9

Extra Long (4000ms) DLY2RR4000 3-9

Illumination Lights *Lights On SCNLED1 3-9

Lights Off SCNLED0 3-9

Aimer Delay 200 milliseconds SCNDLY200 3-10

400 milliseconds SCNDLY400 3-10

*Off (no delay) SCNDLY0 3-10

User-Specified Aimer Delay Range 0 - 4,000 ms SCNDLY#### 3-10

Aimer Mode Off SCNAIM0 3-10

*Interlaced SCNAIM2 3-10

Centering Window Centering On DECWIN1 3-11

*Centering Off DECWIN0 3-11

Top of Centering Window (*40%) DECTOP### 3-11

Bottom of Centering Window

(*60%)

DECBOT### 3-11

Selection Setting

* Indicates default

Serial Command

# Indicates a numeric entry

Page

10 - 10

Preferred Symbology On PRFENA1 3-12

*Off PRFENA0 3-12

High Priority Symbology PRFCOD## 3-12

Low Priority Symbology PRFBLK## 3-12

Preferred Symbology Timeout

(*500) Range 100-3000

PRFPTO#### 3-13

Preferred Symbology Default PRFDFT 3-13

Output Sequence Editor Enter Sequence SEQBLK 3-15

Default Sequence SEQDFT 3-15

Partial Sequence Transmit Partial Sequence SEQTTS1 3-15

*Discard Partial Sequence SEQTTS0 3-15

Require Output Sequence Required SEQ_EN2 3-15

On/Not Required SEQ_EN1 3-15

*Off SEQ_EN0 3-16

Multiple Symbols On SHOTGN1 3-16

*Off SHOTGN0 3-16

No Read On SHWNRD1 3-16

*Off SHWNRD0 3-16

Video Reverse Video Reverse Only VIDREV1 3-16

Video Reverse and Standard Bar

Codes

VIDREV2 3-17

*Video Reverse Off VIDREV0 3-17

Working Orientation *Upright ROTATN0 3-17

Vertical, Bottom to Top (Rotate

CCW 90°)

ROTATN1 3-17

Upside Down ROTATN2 3-17

Vertical, Top to Bottom (Rotate CW

90°)

ROTATN3 3-17

Prefix/Suffix Selections

Add CR Suffix to All Symbologies VSUFCR 4-2

Prefix Add Prefix PREBK2## 4-2

Clear One Prefix PRECL2 4-2

Clear All Prefixes PRECA2 4-2

Suffix Add Suffix SUFBK2## 4-3

Clear One Suffix SUFCL2 4-3

Clear All Suffixes SUFCA2 4-3

Function Code Transmit *Enable RMVFNC0 4-3

Disable RMVFNC1 4-3

Intercharacter Delay Range 0 - 1000 (5ms increments) DLYCHR## 4-3

User Specified

Intercharacter Delay

Delay Length

0 - 1000 (5ms increments)

DLYCRX## 4-4

Character to Trigger Delay DLY_XX## 4-4

Interfunction Delay Range 0 - 1000 (5ms increments) DLYFNC## 4-4

Intermessage Delay Range 0 - 1000 (5ms increments) DLYMSG## 4-5

Selection Setting

* Indicates default

Serial Command

# Indicates a numeric entry

Page

10 - 11

Data Formatter Selections

Data Format Editor *Default Data Format (None) DFMDF3 5-1

Enter Data Format DFMBK3## 5-2

Clear One Data Format DFMCL3 5-2

Clear All Data Formats DFMCA3 5-2

Data Formatter Data Formatter Off DFM_EN0 5-12

*Data Formatter On,

Not Required,

Keep Prefix/Suffix

DFM_EN1 5-12

Data Format Required,

Keep Prefix/Suffix

DFM_EN2 5-12

Data Formatter On,

Not Required,

Drop Prefix/Suffix

DFM_EN3 5-12

Data Format Required,

Drop Prefix/Suffix

DFM_EN4 5-12

Data Format Non-Match Error Tone *Data Format Non-Match Error

Tone On

DFMDEC0 5-13

Data Format Non-Match Error

Tone Off

DFMDEC1 5-13

Primary/Alternate Data Formats Primary Data Format ALTFNM0 5-13

Data Format 1 ALTFNM1 5-13

Data Format 2 ALTFNM2 5-13

Data Format 3 ALTFNM3 5-13

Single Scan Data Format Change Single Scan-Primary

Data Format

VSAF_0 5-14

Single Scan-Data Format 1 VSAF_1 5-14

Single Scan-Data Format 2 VSAF_2 5-14

Single Scan-Data Format 3 VSAF_3 5-14

Symbologies

All Symbologies All Symbologies Off ALLENA0 6-1

All Symbologies On ALLENA1 6-1

Codabar Default All Codabar

Settings

CBRDFT 6-2

Off CBRENA0 6-2

*On CBRENA1 6-2

Codabar Start/Stop Char. *Don’t Transmit CBRSSX0 6-2

Transmit CBRSSX1 6-2

Codabar Check Char. *No Check Char. CBRCK20 6-2

Validate, But Don’t Transmit CBRCK21 6-2

Validate, and Transmit CBRCK22 6-2

Codabar Concatenation *Off CBRCCT0 6-3

On CBRCCT1 6-3

Require CBRCCT2 6-3

Selection Setting

* Indicates default

Serial Command

# Indicates a numeric entry

Page

10 - 12

Codabar Message Length Minimum (2 - 60) *4 CBRMIN## 6-3

Maximum (2 - 60) *60 CBRMAX## 6-3

Code 39 Default All Code 39

Settings

C39DFT 6-4

Off C39ENA0 6-4

*On C39ENA1 6-4

Code 39 Start/Stop Char. *Don’t Transmit C39SSX0 6-4

Transmit C39SSX1 6-4

Code 39 Check Char. *No Check Char. C39CK20 6-4

Validate, But Don’t

Transmit

C39CK21 6-4

Validate,

and Transmit

C39CK22 6-4

Code 39 Message Length Minimum (0 - 48) *0 C39MIN## 6-5

Maximum (0 - 80) *48 C39MAX## 6-5

Code 39 Append *Off C39APP0 6-5

On C39APP1 6-5

Code 32 Pharmaceutical (PARAF) *Off C39B320 6-5

On C39B321 6-5

Code 39 Full ASCII *Off C39ASC0 6-6

On C39ASC1 6-6

Code 39 Code Page C39DCP 6-6

Interleaved 2 of 5 Default All Interleaved

2 of 5 Settings

I25DFT 6-7

Off I25ENA0 6-7

*On I25ENA1 6-7

Interleaved 2 of 5 Check Digit *No Check Char. I25CK20 6-7

Validate, But Don’t

Transmit

I25CK21 6-7

Validate, and Transmit I25CK22 6-7

Interleaved 2 of 5 Message Length Minimum (2 - 80) *4 I25MIN## 6-7

Maximum (2 - 80) *80 I25MAX## 6-7

NEC 2 of 5 Default All NEC

2 of 5 Settings

N25DFT 6-8

Off N25ENA0 6-8

*On N25ENA1 6-8

NEC 2 of 5 Check Digit *No Check Char. N25CK20 6-8

Validate, But Don’t

Transmit

N25CK21 6-8

Validate, and Transmit N25CK22 6-8

NEC 2 of 5 Message Length Minimum (2 - 80) *4 N25MIN## 6-9

Maximum (2 - 80) *80 N25MAX## 6-9

Selection Setting

* Indicates default

Serial Command

# Indicates a numeric entry

Page

10 - 13

Code 93 Default All Code 93

Settings

C93DFT 6-9

Off C93ENA0 6-9

*On C93ENA1 6-9

Code 93 Message Length Minimum (0 - 80) *0 C93MIN## 6-9

Maximum (0 - 80) *80 C93MAX## 6-9

Code 93 Append On C93APP1 6-10

*Off C93APP0 6-10

Code 93 Code Page Code 93 Code Page C93DCP 6-10

Straight 2 of 5 Industrial Default All Straight 2 of 5 Industrial

Settings

R25DFT 6-11

*Off R25ENA0 6-11

On R25ENA1 6-11

Straight 2 of 5 Industrial Message

Length

Minimum (1 - 48) *4 R25MIN## 6-11

Maximum (1 - 48) *48 R25MAX## 6-11

Straight 2 of 5 IATA Default All Straight 2 of 5 IATA

Settings

A25DFT 6-12

Straight 2 of 5 IATA *Off A25ENA0 6-12

On A25ENA1 6-12

Straight 2 of 5 IATA Message

Length

Minimum (1 - 48) *4 A25MIN## 6-12

Maximum (1 - 48) *48 A25MAX## 6-12

Matrix 2 of 5 Default All Matrix 2 of 5

Settings

X25DFT 6-13

*Off X25ENA0 6-13

On X25ENA1 6-13

Matrix 2 of 5 Message Length Minimum (1 - 80) *4 X25MIN## 6-13

Maximum (1 - 80) *80 X25MAX## 6-13

Code 11 Default All Code 11

Settings

C11DFT 6-14

*Off C11ENA0 6-14

On C11ENA1 6-14

Code 11 Check Digits Required 1 Check Digit C11CK20 6-14

*2 Check Digits C11CK21 6-14

Code 11 Message Length Minimum (1 - 80) *4 C11MIN## 6-14

Maximum (1 - 80) *80 C11MAX## 6-14

Code 128 Default All Code 128

Settings

128DFT 6-15

Off 128ENA0 6-15

*On 128ENA1 6-15

ISBT Concatenation *Off ISBENA0 6-15

On ISBENA1 6-15

Code 128 Message Length Minimum (0 - 80) *0 128MIN## 6-15

Maximum (0 - 80) *80 128MAX## 6-15

Selection Setting

* Indicates default

Serial Command

# Indicates a numeric entry

Page

10 - 14

Code 128 Append *On 128APP1 6-16

Off 128APP0 6-16

Code 128 Code Page Code 128 Code Page (*2) 128DCP## 6-16

GS1-128 Default All GS1-128 Settings GS1DFT 6-17

*On GS1ENA1 6-17

Off GS1ENA0 6-17

GS1-128 Message Length Minimum (1 - 80) *1 GS1MIN## 6-17

Maximum (0 - 80) *80 GS1MAX## 6-17

Telepen Default All Telepen

Settings

TELDFT 6-18

*Off TELENA0 6-18

On TELENA1 6-18

Telepen Output *AIM Telepen Output TELOLD0 6-18

Original Telepen Output TELOLD1 6-18

Telepen Message Length Minimum (1 - 60) *1 TELMIN## 6-18

Maximum (1 - 60) *60 TELMAX## 6-18

UPC-A Default All

UPC-A Settings

UPADFT 6-19

Off UPAENA0 6-19

*On UPAENA1 6-19

UPC-A Check Digit Off UPACKX0 6-19

*On UPACKX1 6-19

UPC-A Number System Off UPANSX0 6-19

*On UPANSX1 6-19

UPC-A 2 Digit Addenda *Off UPAAD20 6-20

On UPAAD21 6-20

UPC-A 5 Digit Addenda *Off UPAAD50 6-20

On UPAAD51 6-20

UPC-A Addenda Required *Not Required UPAARQ0 6-20

Required UPAARQ1 6-20

UPC-A Addenda

Separator

Off UPAADS0 6-20

*On UPAADS1 6-20

UPC-A/EAN-13 with Extended

Coupon Code

*Off CPNENA0 6-21

Allow Concatenation CPNENA1 6-21

Require Concatenation CPNENA2 6-21

Coupon GS1 DataBar Output GS1 Output Off CPNGS10 6-21

GS1 Output On CPNGS11 6-21

UPC-E0 Default All UPC-E

Settings

UPEDFT 6-22

Off UPEEN00 6-22

*On UPEEN01 6-22

UPC-E0 Expand *Off UPEEXP0 6-22

On UPEEXP1 6-22

Selection Setting

* Indicates default

Serial Command

# Indicates a numeric entry

Page

10 - 15

UPC-E0 Addenda Required Required UPEARQ1 6-22

*Not Required UPEARQ0 6-22

UPC-E0 Addenda Separator *On UPEADS1 6-23

Off UPEADS0 6-23

UPC-E0 Check Digit Off UPECKX0 6-23

*On UPECKX1 6-23

UPC-E0 Leading Zero Off UPENSX0 6-23

*On UPENSX1 6-23

UPC-E0 Addenda 2 Digit Addenda On UPEAD21 6-23

*2 Digit Addenda Off UPEAD20 6-23

5 Digit Addenda On UPEAD51 6-23

*5 Digit Addenda Off UPEAD50 6-23

UPC-E1 *Off UPEEN10 6-24

On UPEEN11 6-24

EAN/JAN-13 Default All EAN/

JAN Settings

E13DFT 6-24

Off E13ENA0 6-24

*On E13ENA1 6-24

Convert UPC-A to EAN-13 UPC-A Converted to EAN-13 UPAENA0 6-24

Do not Convert UPC-A UPAENA1 6-24

EAN/JAN-13 Check Digit Off E13CKX0 6-25

*On E13CKX1 6-25

EAN/JAN-13 2 Digit Addenda 2 Digit Addenda On E13AD21 6-25

*2 Digit Addenda Off E13AD20 6-25

5 Digit Addenda On E13AD51 6-25

*5 Digit Addenda Off E13AD50 6-25

EAN/JAN-13 Addenda Required *Not Required E13ARQ0 6-25

Required E13ARQ1 6-25

EAN/JAN-13 Addenda

Separator

Off E13ADS0 6-26

*On E13ADS1 6-26

ISBN Translate *Off E13ISB0 6-26

On E13ISB1 6-26

EAN/JAN-8 Default All EAN/

JAN 8 Settings

EA8DFT 6-27

Off EA8ENA0 6-27

*On EA8ENA1 6-27

EAN/JAN-8 Check Digit Off EA8CKX0 6-27

*On EA8CKX1 6-27

EAN/JAN-8 Addenda *2 Digit Addenda Off EA8AD20 6-27

2 Digit Addenda On EA8AD21 6-27

*5 Digit Addenda Off EA8AD50 6-27

5 Digit Addenda On EA8AD51 6-27

Selection Setting

* Indicates default

Serial Command

# Indicates a numeric entry

Page

10 - 16

EAN/JAN-8 Addenda Required *Not Required EA8ARQ0 6-28

Required EA8ARQ1 6-28

EAN/JAN-8 Addenda

Separator

Off EA8ADS0 6-28

*On EA8ADS1 6-28

MSI Default All MSI Settings MSIDFT 6-29

*Off MSIENA0 6-29

On MSIENA1 6-29

MSI Check Character *Validate Type 10, but Don’t

Transmit

MSICHK0 6-29

Validate Type 10 and

Transmit

MSICHK1 6-29

Validate 2 Type 10 Chars, but Don’t

Transmit

MSICHK2 6-29

Validate 2 Type 10 Chars and

Transmit

MSICHK3 6-29

Validate Type 10 then Type 11

Char, but Don’t Transmit

MSICHK4 6-29

Validate Type 10 then Type 11

Char and Transmit

MSICHK5 6-30

Disable MSI Check Characters MSICHK6 6-30

MSI Message Length Minimum (4 - 48) *4 MSIMIN## 6-30

Maximum (4 - 48) *48 MSIMAX## 6-30

GS1 DataBar Omnidirectional Default All

GS1 DataBar Omnidirectional

Settings

RSSDFT 6-31

Off RSSENA0 6-31

*On RSSENA1 6-31

GS1 DataBar Limited Default All GS1 DataBar Limited

Settings

RSLDFT 6-31

Off RSLENA0 6-31

*On RSLENA1 6-31

GS1 DataBar Expanded Default All GS1 DataBar

Expanded Settings

RSEDFT 6-32

Off RSEENA0 6-32

*On RSEENA1 6-32

GS1 DataBar Expanded Msg.

Length

Minimum (4 - 74) *4 RSEMIN## 6-32

Maximum (4 - 74) *74 RSEMAX## 6-32

Trioptic Code *Off TRIENA0 6-32

On TRIENA1 6-32

Codablock A Default All Codablock A Settings CBADFT 6-33

*Off CBAENA0 6-33

On CBAENA1 6-33

Codablock A Msg. Length Minimum (1 - 600) *1 CBAMIN### 6-33

Maximum (1 - 600) *600 CBAMAX### 6-33

Selection Setting

* Indicates default

Serial Command

# Indicates a numeric entry

Page

10 - 17

Codablock F Default All Codablock F Settings CBFDFT 6-34

*Off CBFENA0 6-34

On CBFENA1 6-34

Codablock F Msg. Length Minimum (1 - 2048) *1 CBFMIN#### 6-34

Maximum (1 - 2048) *2048 CBFMAX#### 6-34

PDF417 Default All PDF417 Settings PDFDFT 6-35

*On PDFENA1 6-35

Off PDFENA0 6-35

PDF417 Msg. Length Minimum (1-2750) *1 PDFMIN#### 6-35

Maximum (1-2750) *2750 PDFMAX#### 6-35

MacroPDF417 *On PDFMAC1 6-36

Off PDFMAC0 6-36

MicroPDF417 Default All Micro PDF417 Settings MPDDFT 6-36

On MPDENA1 6-36

*Off MPDENA0 6-36

MicroPDF417 Msg. Length Minimum (1-366) *1 MPDMIN### 6-36

Maximum (1-366) *366 MPDMAX### 6-36

GS1 Composite Codes On COMENA1 6-36

*Off COMENA0 6-36

UPC/EAN Version On COMUPC1 6-37

*Off COMUPC0 6-37

GS1 Composite Codes Msg. Length Minimum (1-2435) *1 COMMIN#### 6-37

Maximum (1-2435) *2435 COMMAX#### 6-37

GS1 Emulation GS1-128 Emulation EANEMU1 6-37

GS1 DataBar Emulation EANEMU2 6-36

GS1 Code Expansion Off EANEMU3 6-38

EAN8 to EAN13 Conversion EANEMU4 6-38

*GS1 Emulation Off EANEMU0 6-38

TCIF Linked Code 39 On T39ENA1 6-38

*Off T39ENA0 6-38

QR Code Default All QR Code Settings QRCDFT 6-38

*On QRCENA1 6-38

Off QRCENA0 6-38

QR Code Msg. Length Minimum (1-7089) *1 QRCMIN#### 6-39

Maximum (1-7089) *7089 QRCMAX#### 6-39

QR Code Append *On QRCAPP1 6-39

Off QRCAPP0 6-39

QR Code Page QR Code Page (*3) QRCDCP## 6-39

Data Matrix Default All Data Matrix Settings IDMDFT 6-40

*On IDMENA1 6-40

Off IDMENA0 6-40

Data Matrix Msg. Length Minimum (1-3116) *1 IDMMIN#### 6-40

Maximum (1-3116) *3116 IDMMAX#### 6-40

Selection Setting

* Indicates default

Serial Command

# Indicates a numeric entry

Page

10 - 18

Data Matrix Append *On IDMAPP1 6-40

Off IDMAPP0 6-40

Data Matrix Code Page Data Matrix Code Page (*51) IDMDCP## 6-40

MaxiCode Default All MaxiCode Settings MAXDFT 6-41

On MAXENA1 6-41

*Off MAXENA0 6-41

MaxiCode Msg. Length Minimum (1-150) *1 MAXMIN### 6-41

Maximum (1-150) *150 MAXMAX### 6-41

Aztec Code Default All Aztec Code Settings AZTDFT 6-42

*On AZTENA1 6-42

Off AZTENA0 6-42

Aztec Code Msg. Length Minimum (1-3832) *1 AZTMIN#### 6-42

Maximum (1-3832) *3832 AZTMAX#### 6-42

Aztec Append *On AZTAPP1 6-42

Off AZTAPP0 6-42

Aztec Code Page Aztec Code Page (*51) AZTDCP## 6-42

Chinese Sensible (Han Xin) Code Default All Han Xin Code Settings HX_DFT 6-43

On HX_ENA1 6-43

*Off HX_ENA0 6-43

Chinese Sensible (Han Xin) Code

Msg. Length

Minimum (1-7833) *1 HX_MIN#### 6-43

Maximum (1-7833) *7833 HX_MAX#### 6-43

Postal Codes - 2D

2D Postal Codes *Off POSTAL0 6-44

Single 2D Postal Codes Australian Post On POSTAL1 6-44

British Post On POSTAL7 6-44

Canadian Post On POSTAL30 6-44

Intelligent Mail Bar Code On POSTAL10 6-44

Japanese Post On POSTAL3 6-44

KIX Post On POSTAL4 6-44

Planet Code On POSTAL5 6-44

Postal-4i On POSTAL9 6-44

Postnet On POSTAL6 6-45

Postnet with B and B’ Fields On POSTAL11 6-45

InfoMail On POSTAL2 6-45

Selection Setting

* Indicates default

Serial Command

# Indicates a numeric entry

Page

10 - 19

Combination 2D Postal Codes InfoMail and British Post On POSTAL8 6-45

Intelligent Mail Bar Code and

Postnet with B and B’ Fields On

POSTAL20 6-45

Postnet and Postal-4i On POSTAL14 6-45

Postnet and Intelligent Mail Bar

Code On

POSTAL16 6-45

Postal-4i and Intelligent Mail Bar

Code On

POSTAL17 6-45

Postal-4i and Postnet with B and B’

Fields On

POSTAL19 6-45

Planet and Postnet On POSTAL12 6-45

Planet and Postnet with B and B’

Fields On

POSTAL18 6-46

Planet and Postal-4i On POSTAL13 6-46

Planet and Intelligent Mail Bar

Code On

POSTAL15 6-46

Planet, Postnet, and Postal-4i On POSTAL21 6-46

Planet, Postnet, and Intelligent

Mail Bar Code On

POSTAL22 6-46

Planet, Postal-4i, and Intelligent

Mail Bar Code On

POSTAL23 6-46

Combination 2D Postal Codes

(continued)

Postnet, Postal-4i, and Intelligent

Mail Bar Code On

POSTAL24 6-46

Planet, Postal-4i, and Postnet with

B and B’ Fields On

POSTAL25 6-46

Planet, Intelligent Mail Bar Code,

and Postnet with B and B’ Fields

POSTAL26 6-46

Postal-4i, Intelligent Mail Bar

Code, and Postnet with B and B’

Fields On

POSTAL27 6-46

Planet, Postal-4i, Intelligent Mail

Bar Code, and Postnet On

POSTAL28 6-47

Planet, Postal-4i, Intelligent Mail

Bar Code, and Postnet with B and

B’ Fields On

POSTAL29 6-46

Planet Code Check Digit Transmit PLNCKX1 6-47

*Don’t Transmit PLNCKX0 6-47

Postnet Check Digit Transmit NETCKX1 6-47

*Don’t Transmit NETCKX0 6-47

Australian Post Interpretation Bar Output AUSINT0 6-48

Numeric N Table AUSINT1 6-48

Alphanumeric C Table AUSINT2 6-48

Combination N and C Tables AUSINT3 6-48

Selection Setting

* Indicates default

Serial Command

# Indicates a numeric entry

Page

10 - 20

Postal Codes - Linear

China Post (Hong Kong 2 of 5) Default All China Post (Hong Kong

2 of 5) Settings

CPCDFT 6-48

*Off CPCENA0 6-48

On CPCENA1 6-48

China Post (Hong Kong 2 of 5) Msg.

Length

Minimum (2 - 80) *4 CPCMIN## 6-48

Maximum (2 - 80) *80 CPCMAX## 6-48

Korea Post Default All Korea Post Settings KPCDFT 6-49

*Off KPCENA0 6-49

On KPCENA1 6-49

Korea Post Msg. Length Minimum (2 - 80) *4 KPCMIN## 6-49

Maximum (2 - 80) *48 KPCMAX## 6-49

Korea Post Check Digit Transmit Check Digit KPCCHK1 6-49

*Don’t Transmit Check Digit KPCCHK0 6-49

Imaging Default Commands

Image Snap Default all Imaging Commands IMGDFT 7-1

Imaging Style - Decoding SNPSTY0 7-1

*Imaging Style - Photo SNPSTY1 7-1

Imaging Style - Manual SNPSTY2 7-1

Beeper On SNPBEP1 7-1

*Beeper Off SNPBEP0 7-1

*Wait for Trigger Off SNPTRG0 7-2

Wait for Trigger On SNPTRG1 7-2

*LED State - Off SNPLED0 7-2

LED State - On SNPLED1 7-2

Exposure (1-7874 microseconds) SNPEXP 7-2

*Gain - None SNPGAN1 7-2

Gain - Medium SNPGAN2 7-2

Gain - Heavy SNPGAN4 7-2

Gain - Maximum SNPGAN8 7-2

Target White Value (0-255) *125 SNPWHT### 7-3

Delta for Acceptance (0-255) *25 SNPDEL### 7-3

Update Tries (0-10) *6 SNPTRY## 7-3

Target Set Point Percentage (1-99)

*50

SNPPCT## 7-3

Selection Setting

* Indicates default

Serial Command

# Indicates a numeric entry

Page

10 - 21

Image Ship *Infinity Filter - Off IMGINF0 7-3

Infinity Filter - On IMGINF1 7-3

*Compensation Off IMGCOR0 7-4

Compensation On IMGCOR1 7-4

*Pixel Depth - 8 bits/pixel

(grayscale)

IMGBPP8 7-4

Pixel Depth - 1 bit/pixel (B&W) IMGBPP1 7-4

*Don’t Sharpen Edges IMGEDG0 7-5

Sharpen Edges (0-23) IMGEDG## 7-5

*File Format - JPEG IMGFMT6 7-5

File Format - KIM IMGFMT0 7-5

File Format - TIFF binary IMGFMT1 7-5

File Format - TIFF binary group 4,

compressed

IMGFMT2 7-5

File Format - TIFF grayscale IMGFMT3 7-5

File Format - Uncompressed

binary

IMGFMT4 7-5

File Format - Uncompressed

grayscale

IMGFMT5 7-5

File Format - BMP IMGFMT8 7-5

*Histogram Stretch Off IMGHIS0 7-5

Histogram Stretch On IMGHIS1 7-5

*Noise Reduction Off IMGFSP0 7-6

Noise Reduction On IMGFSP1 7-6

Image Ship (continued) Invert Image around X axis IMGNVX1 7-6

Invert Image around Y axis IMGNVY1 7-6

Rotate Image none IMGROT0 7-7

Rotate Image 90° right IMGROT1 7-7

Rotate Image 180° right IMGROT2 7-7

Rotate Image 90° left IMGROT3 7-7

JPEG Image Quality (0-100) *50 IMGJQF### 7-7

*Gamma Correction Off IMGGAM0 7-7

Gamma Correction On (0-1000) IMGGAM### 7-7

Image Crop - Left (0-843) *0 IMGWNL### 7-8

Image Crop - Right (0-843) *843 IMGWNR### 7-8

Image Crop - Top (0-639) *0 IMGWNT### 7-8

Image Crop - Bottom (0-639) *639 IMGWNB### 7-8

Image Crop - Margin (1-238) *0 IMGMAR### 7-8

Protocol - None (raw) IMGXFR0 7-8

Protocol - None (default USB) IMGXFR2 7-8

Protocol - Hmodem Compressed IMGXFR3 7-8

Protocol - Hmodem IMGXFR4 7-8

Ship Every Pixel IMGSUB1 7-8

Selection Setting

* Indicates default

Serial Command

# Indicates a numeric entry

Page

10 - 22

Image Ship (continued) Ship Every 2nd Pixel IMGSUB2 7-8

Ship Every 3rd Pixel IMGSUB3 7-9

*Document Image Filter Off IMGUSH0 7-9

Document Image Filter On (0-255) IMGUSH### 7-9

*Don’t Ship Histogram IMGHST0 7-9

Ship Histogram IMGHST1 7-9

Image Size Compatibility Force VGA Resolution IMGVGA1 7-10

*Native Resolution IMGVGA0 7-10

Intelligent Signature Capture Optimize On DECBND1 7-10

*Optimize Off DECBND0 7-10

Utilities

Add Code I.D. Prefix to All Symbologies (Temporary) PRECA2,BK2995C80! 9-1

Show Decoder Revision REV_DR 9-1

Show Scan Driver Revision REV_SD 9-1

Show Software Revision REVINF 9-1

Show Data Format DFMBK3? 9-1

Test Menu On TSTMNU1 9-2

*Off TSTMNU0 9-2

Application Plug-Ins (Apps) *Decoding Apps On PLGDCE1 9-2

Decoding Apps Off PLGDCE0 9-2

*Formatting Apps On PLGFOE1 9-2

Formatting Apps Off PLGFOE0 9-2

List Apps PLGINF 9-2

Resetting the Factory Defaults Remove Custom Defaults DEFOVR 9-4

Activate Defaults DEFALT 9-4

Selection Setting

* Indicates default

Serial Command

# Indicates a numeric entry

Page

11 - 1

Maintenance

Repairs

Repairs and/or upgrades are not to be performed on this product. These services are to be performed only by an authorized

service center (see Customer Support on page 12-1).

Inspecting Cords and Connectors

Inspect the engine’s interface cable and connector for wear or other signs of damage. A badly worn cable or damaged connec-

tor may interfere with engine operation. Contact your Honeywell distributor for information about cable replacement.

Troubleshooting

The engine automatically performs self-tests whenever you turn it on. If your engine is not functioning properly, review the fol-

lowing Troubleshooting Guide to try to isolate the problem.

Is the power on? Is the aimer on?

If the aimer isn’t illuminated, check that:

• The cable is connected properly.

• The host system power is on (if external power isn’t used).

Is the engine having trouble reading your symbols?

If the engine isn’t reading symbols well, check that the symbols:

• Aren’t smeared, rough, scratched, or exhibiting voids.

• Aren’t coated with frost or water droplets on the surface.

• Are enabled in the engine or in the decoder to which the engine connects.

Is the bar code displayed but not entered?

The bar code is displayed on the host device correctly, but you still have to press a key to enter it (the Enter/Return key or

the Tab key, for example).

• You need to program a suffix. Programming a suffix enables the engine to output the bar code data plus the key you

need (such as “CR”) to enter the data into your application. Refer to Prefix/Suffix Overview on page 4-1 for further

information.

Does the engine read the bar code incorrectly?

If the engine reads a bar code, but the data is not displayed correctly on the host screen:

• The engine may not be programmed for the appropriate terminal interface.

For example, you scan “12345” and the host displays “@es%.”

Reprogram the engine with the correct Plug and Play bar code. See Programming the Interface beginning on page 2-1.

• The engine may not be programmed to output your bar code data properly.

For example, you scan “12345” and the host displays “A12345B.”

Reprogram the engine with the proper symbology selections. See Chapter 6.

The engine won’t read your bar code at all.

1. Scan the sample bar codes in the back of this manual. If the engine reads the sample bar codes, check that your bar

code is readable.

Verify that your bar code symbology is enabled (see Chapter 6).

2. If the engine still can’t read the sample bar codes, scan All Symbologies On, page 6-1.

If you aren’t sure what programming options have been set in the engine, or if you want the factory default settings restored,

refer to Resetting the Factory Defaults on page 9-4.

11 - 2

12 - 1

Customer Support

Technical Assistance

If you need assistance installing or troubleshooting your device, please contact us by using one of the methods below:

Knowledge Base: www.hsmknowledgebase.com

Our Knowledge Base provides thousands of immediate solutions. If the Knowledge Base cannot help, our Technical Support

Portal (see below) provides an easy way to report your problem or ask your question.

Technical Support Portal: www.hsmsupportportal.com

The Technical Support Portal not only allows you to report your problem, but it also provides immediate solutions to your techni-

cal issues by searching our Knowledge Base. With the Portal, you can submit and track your questions online and send and

receive attachments.

Web form: www.hsmcontactsupport.com

You can contact our technical support team directly by filling out our online support form. Enter your contact details and the

description of the question/problem.

Telephone: www.honeywellaidc.com/locations

For our latest contact information, please check our website at the link above.

Product Service and Repair

Honeywell International Inc. provides service for all of its products through service centers throughout the world. To obtain war-

ranty or non-warranty service, please visit www.honeywellaidc.com and select Support > Contact Service and Repair to see

your region's instructions on how to obtain a Return Material Authorization number (RMA #). You should do this prior to return-

ing the product.

Limited Warranty

Honeywell International Inc. ("HII") warrants its products to be free from defects in materials and workmanship and to conform to

HII’s published specifications applicable to the products purchased at the time of shipment. This warranty does not cover any

HII product which is (i) improperly installed or used; (ii) damaged by accident or negligence, including failure to follow the proper

maintenance, service, and cleaning schedule; or (iii) damaged as a result of (A) modification or alteration by the purchaser or

other party, (B) excessive voltage or current supplied to or drawn from the interface connections, (C) static electricity or electro-

static discharge, (D) operation under conditions beyond the specified operating parameters, or (E) repair or service of the prod-

uct by anyone other than HII or its authorized representatives.

This warranty shall extend from the time of shipment for the duration published by HII for the product at the time of purchase

("Warranty Period"). Any defective product must be returned (at purchaser’s expense) during the Warranty Period to HII factory

or authorized service center for inspection. No product will be accepted by HII without a Return Materials Authorization, which

may be obtained by contacting HII. In the event that the product is returned to HII or its authorized service center within the

Warranty Period and HII determines to its satisfaction that the product is defective due to defects in materials or workmanship,

HII, at its sole option, will either repair or replace the product without charge, except for return shipping to HII.

EXCEPT AS MAY BE OTHERWISE PROVIDED BY APPLICABLE LAW, THE FOREGOING WARRANTY IS IN LIEU OF ALL

OTHER COVENANTS OR WARRANTIES, EITHER EXPRESSED OR IMPLIED, ORAL OR WRITTEN, INCLUDING, WITHOUT

LIMITATION, ANY IMPLIED WARRANTIES OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE, OR

NON-INFRINGEMENT.

HII’S RESPONSIBILITY AND PURCHASER’S EXCLUSIVE REMEDY UNDER THIS WARRANTY IS LIMITED TO THE

REPAIR OR REPLACEMENT OF THE DEFECTIVE PRODUCT WITH NEW OR REFURBISHED PARTS. IN NO EVENT

SHALL HII BE LIABLE FOR INDIRECT, INCIDENTAL, OR CONSEQUENTIAL DAMAGES, AND, IN NO EVENT, SHALL ANY

LIABILITY OF HII ARISING IN CONNECTION WITH ANY PRODUCT SOLD HEREUNDER (WHETHER SUCH LIABILITY

ARISES FROM A CLAIM BASED ON CONTRACT, WARRANTY, TORT, OR OTHERWISE) EXCEED THE ACTUAL AMOUNT

PAID TO HII FOR THE PRODUCT. THESE LIMITATIONS ON LIABILITY SHALL REMAIN IN FULL FORCE AND EFFECT

12 - 2

EVEN WHEN HII MAY HAVE BEEN ADVISED OF THE POSSIBILITY OF SUCH INJURIES, LOSSES, OR DAMAGES. SOME

STATES, PROVINCES, OR COUNTRIES DO NOT ALLOW THE EXCLUSION OR LIMITATIONS OF INCIDENTAL OR CONSE-

QUENTIAL DAMAGES, SO THE ABOVE LIMITATION OR EXCLUSION MAY NOT APPLY TO YOU.

All provisions of this Limited Warranty are separate and severable, which means that if any provision is held invalid and unen-

forceable, such determination shall not affect the validity of enforceability of the other provisions hereof. Use of any peripherals

not provided by the manufacturer may result in damage not covered by this warranty. This includes but is not limited to: cables,

power supplies, cradles, and docking stations. HII extends these warranties only to the first end-users of the products. These

warranties are non-transferable.

The duration of the limited warranty for the N56XX engine is 15 months.

A - 1

Reference Charts

Symbology Charts

Note: “m” represents the AIM modifier character. Refer to International Technical Specification, Symbology Identifiers, for AIM

modifier character details.

Prefix/Suffix entries for specific symbologies override the universal (All Symbologies, 99) entry.

Refer to Data Editing beginning on page 4-1 and Data Formatting beginning on page 5-1 for information about using Code ID

and AIM ID.

Linear Symbologies

AIM Honeywell

Symbology ID Possible modifiers

(m)ID Hex

All Symbologies 99

Codabar ]Fm0-1 a 61

Code 11 ]H3 h 68

Code 128 ]Cm0, 1, 2, 4 j 6A

Code 32 Pharmaceutical (PARAF) ]X0 < 3C

Code 39 (supports Full ASCII mode) ]Am0, 1, 3, 4, 5, 7 b 62

TCIF Linked Code 39 (TLC39) ]L2 T 54

Code 93 and 93i ]Gm0-9, A-Z,

a-m

i69

EAN ]Em0, 1, 3, 4 d 64

EAN-13 (including Bookland EAN) ]E0 d 64

EAN-13 with Add-On ]E3 d 64

EAN-13 with Extended Coupon Code ]E3 d 64

EAN-8 ]E4 D 44

EAN-8 with Add-On ]E3 D 44

GS1

GS1 DataBar ]em0y79

GS1 DataBar Limited ]em{ 7B

GS1 DataBar Expanded ]em}7D

GS1-128 ]C1 I 49

2 of 5

China Post (Hong Kong 2 of 5) ]X0 Q 51

Interleaved 2 of 5 ]Im0, 1, 3 e 65

Matrix 2 of 5 ]X0 m 6D

NEC 2 of 5 ]X0 Y 59

Straight 2 of 5 IATA ]Rm0, 1, 3 f 66

Straight 2 of 5 Industrial ]S0 f 66

MSI ]Mm0, 1 g 67

Telepen ]Bmt74

UPC 0, 1, 2, 3, 8, 9, A, B, C

A - 2

UPC-A ]E0 c 63

UPC-A with Add-On ]E3 c 63

UPC-A with Extended Coupon Code ]E3 c 63

UPC-E ]E0 E 45

UPC-E with Add-On ]E3 E 45

UPC-E1 ]X0 E 45

Add Honeywell Code ID 5C80

Add AIM Code ID 5C81

Add Backslash 5C5C

Batch mode quantity 535

AIM Honeywell

Symbology ID Possible modifiers

(m)ID Hex

A - 3

2D Symbologies

Postal Symbologies

ASCII Conversion Chart (Code Page 1252)

In keyboard applications, ASCII Control Characters can be represented in 3 different ways, as shown below. The CTRL+X func-

tion is OS and application dependent. The following table lists some commonly used Microsoft functionality. This table applies

AIM Honeywell

Symbology ID Possible modifiers

(m)ID Hex

All Symbologies 99

Aztec Code ]zm0-9, A-C z 7A

Chinese Sensible Code (Han Xin Code) ]X0 H 48

Codablock A ]O6 0, 1, 4, 5, 6 V 56

Codablock F ]Om0, 1, 4, 5, 6 q 71

Code 49 ]Tm0, 1, 2, 4 l 6C

Data Matrix ]dm0-6 w 77

GS1 ]em0-3

GS1 Composite ]em0-3 y 79

GS1 DataBar Omnidirectional ]emy79

MaxiCode ]Um0-3 x 78

PDF417 ]Lm0-2 r 72

MicroPDF417 ]Lm3-5 R 52

QR Code ]Qm0-6 s 73

Micro QR Code ]Qms73

AIM Honeywell

Symbology ID Possible modifiers

(m)ID Hex

All Symbologies 99

Australian Post ]X0 A 41

British Post ]X0 B 42

Canadian Post ]X0 C 43

China Post ]X0 Q 51

InfoMail ]X0 , 2c

Intelligent Mail Bar Code ]X0 M 4D

Japanese Post ]X0 J 4A

KIX (Netherlands) Post ]X0 K 4B

Korea Post ]X0 ? 3F

Planet Code ]X0 L 4C

Postal-4i ]X0 N 4E

Postnet ]X0 P 50

A - 4

to U.S. style keyboards. Certain characters may differ depending on your Country Code/PC regional settings.

Lower ASCII Reference Table

Note: Windows Code page 1252 and lower ASCII use the same characters.

Non-printable ASCII control

characters

Keyboard Control + ASCII (CTRL+X) Mode

Control + X Mode Off (KBDCAS0)

Windows Mode Control + X Mode On (KBDCAS2)

DEC HEX Char CTRL + X CTRL + X function

000 NUL Reserved CTRL+ @

101 SOH NP Enter CTRL+ A Select all

202 STX Caps Lock CTRL+ B Bold

303 ETX ALT Make CTRL+ C Copy

404 EOT ALT Break CTRL+ D Bookmark

505 ENQ CTRL Make CTRL+ E Center

606 ACK CTRL Break CTRL+ F Find

707 BEL Enter / Ret CTRL+ G

808 BS (Apple Make) CTRL+ H History

909 HT Tab CTRL+ I Italic

10 0A LF (Apple Break) CTRL+ J Justify

11 0B VT Tab CTRL+ K hyperlink

12 0C FF Delete CTRL+ L list,

left align

13 0D CR Enter / Ret CTRL+ M

14 0E SO Insert CTRL+ N New

15 0F SI ESC CTRL+ O Open

16 10 DLE F11 CTRL+ P Print

17 11 DC1 Home CTRL+ Q Quit

18 12 DC2 PrtScn CTRL+ R

19 13 DC3 Backspace CTRL+ S Save

20 14 DC4 Back Tab CTRL+ T

21 15 NAK F12 CTRL+ U

22 16 SYN F1 CTRL+ V Paste

23 17 ETB F2 CTRL+ W

24 18 CAN F3 CTRL+ X

25 19 EM F4 CTRL+ Y

26 1A SUB F5 CTRL+ Z

27 1B ESC F6 CTRL+ [

28 1C FS F7 CTRL+ \

29 1D GS F8 CTRL+ ]

30 1E RS F9 CTRL+ ^

31 1F US F10 CTRL+ -

127 7F

⌂

NP Enter

Printable Characters

DEC HEX Character DEC HEX Character DEC HEX Character

32 20 <SPACE> 64 40 @96 60 `

33 21 !65 41 A97 61 a

34 22 "66 42 B98 62 b

35 23 #67 43 C99 63 c

A - 5

36 24 $68 44 D100 64 d

37 25 %69 45 E101 65 e

38 26 &70 46 F102 66 f

39 27 '71 47 G103 67 g

40 28 (72 48 H104 68 h

41 29 )73 49 I105 69 i

42 2A *74 4A J106 6A j

43 2B +75 4B K107 6B k

44 2C ,76 4C L108 6C l

45 2D -77 4D M109 6D m

46 2E .78 4E N110 6E n

47 2F /79 4F O111 6F o

48 30 080 50 P112 70 p

49 31 181 51 Q113 71 q

50 32 282 52 R114 72 r

51 33 383 53 S115 73 s

52 34 484 54 T116 74 t

53 35 585 55 U117 75 u

54 36 686 56 V118 76 v

55 37 787 57 W119 77 w

56 38 888 58 X120 78 x

57 39 989 59 Y121 79 y

58 3A :90 5A Z122 7A z

59 3B ;91 5B [123 7B {

60 3C <92 5C \124 7C |

61 3D =93 5D ]125 7D }

62 3E >94 5E ^126 7E ~

63 3F ?95 5F _127 7F ⌂

Extended ASCII Characters

DEC HEX CP 1252 ASCII Alternate Extended PS2 Scan Code

128 80 Çup arrow

↑

0x48

129 81 üdown arrow

↓

0x50

130 82 ‚é

right arrow

→

0x4B

131 83 ƒâ

left arrow

←

0x4D

132 84 „äInsert 0x52

133 85 …àDelete 0x53

134 86 †åHome 0x47

135 87 ‡çEnd 0x4F

136 88 ˆêPage Up 0x49

137 89 ‰ ë Page Down 0x51

138 8A Š è Right ALT 0x38

139 8B ‹ ï Right CTRL 0x1D

140 8C ŒîReserved n/a

141 8D ì Reserved n/a

142 8E Ž Ä Numeric Keypad Enter 0x1C

143 8F Å Numeric Keypad / 0x35

144 90 ÉF1 0x3B

145 91 ‘æF2 0x3C

146 92 ’ÆF3 0x3D

147 93 “ôF4 0x3E

Printable Characters (Continued)

DEC HEX Character DEC HEX Character DEC HEX Character

A - 6

148 94 ”öF5 0x3F

149 95 •òF6 0x40

150 96 –ûF7 0x41

151 97 —ùF8 0x42

152 98 ˜ÿF9 0x43

153 99 ™ÖF10 0x44

154 9A šÜF11 0x57

155 9B ›¢F12 0x58

156 9C œ £ Numeric Keypad + 0x4E

157 9D ¥ Numeric Keypad - 0x4A

158 9E ž₧Numeric Keypad * 0x37

159 9F Ÿ ƒ Caps Lock 0x3A

160 A0 á Num Lock 0x45

161 A1 ¡íLeft Alt 0x38

162 A2 ¢óLeft Ctrl 0x1D

163 A3 £úLeft Shift 0x2A

164 A4 ¤ñRight Shift 0x36

165 A5 ¥ÑPrint Screen n/a

166 A6 ¦ªTab 0x0F

167 A7 §ºShift Tab 0x8F

168 A8 ¨¿Enter 0x1C

170 AA ª¬Alt Make 0x36

171 AB «½Alt Break 0xB6

172 AC ¬¼Control Make 0x1D

173 AD ¡Control Break 0x9D

174 AE ®«Alt Sequence with 1 Character 0x36

175 AF ¯»Ctrl Sequence with 1 Character 0x1D

176 B0 °░

177 B1 ±▒

178 B2 ²▓

179 B3 ³│

180 B4 ´┤

181 B5 µ╡

182 B6 ¶╢

183 B7 ·╖

184 B8 ¸╕

185 B9 ¹╣

186 BA º║

187 BB »╗

188 BC ¼╝

189 BD ½╜

190 BE ¾╛

191 BF ¿┐

192 C0 À└

193 C1 Á┴

194 C2 Â┬

195 C3 Ã├

196 C4 Ä─

197 C5 Åí

198 C6 Æ╞

199 C7 Ç╟

Extended ASCII Characters (Continued)

DEC HEX CP 1252 ASCII Alternate Extended PS2 Scan Code

A - 7

200 C8 È╚

201 C9 É╔

202 CA Ê╩

203 CB Ë╦

204 CC Ì╠

205 CD Í═

206 CE Î╬

207 CF Ï╧

208 D0 Ð╨

209 D1 Ñ╤

210 D2 Ò╥

211 D3 Ó╙

212 D4 Ô╘

213 D5 Õ╒

214 D6 Ö╓

215 D7 ×╫

216 D8 Ø╪

217 D9 Ù┘

218 DA Ú┌

219 DB Û█

220 DC Ü▄

221 DD Ý▌

222 DE Þ▐

223 DF ß▀

224 E0 àα

225 E1 áß

226 E2 âΓ

227 E3 ãπ

228 E4 äΣ

229 E5 åσ

230 E6 æµ

231 E7 çτ

232 E8 èΦ

233 E9 éΘ

234 EA êΩ

235 EB ëδ

236 EC ì∞

237 ED íφ

238 EE îε

239 EF ï∩

240 F0 ð≡

241 F1 ñ±

242 F2 ò≥

243 F3 ó≤

244 F4 ô⌠

245 F5 õ⌡

246 F6 ö÷

247 F7 ÷≈

248 F8 ø°

249 F9 ù·

250 FA ú·

251 FB û√

Extended ASCII Characters (Continued)

DEC HEX CP 1252 ASCII Alternate Extended PS2 Scan Code

A - 8

ISO 2022/ISO 646 Character Replacements

Code pages define the mapping of character codes to characters. If the data received does not display with the proper charac-

ters, it may be because the bar code being scanned was created using a code page that is different from the one the host pro-

gram is expecting. If this is the case, select the code page with which the bar codes were created. The data characters should

then appear properly.

252 FC üⁿ

253 FD ý²

254 FE þ■

255 FF ÿ

Code Page Selection Method/Country Standard Keyboard Country Honeywell Code Page

Option

United States

(standard ASCII)

ISO/IEC 646-IRV n/a 1

Automatic National Character

Replacement

ISO/IEC 2022 n/a 2 (default)

Binary Code page n/a n/a 3

Default “Automatic National Character replacement” will select the below Honeywell Code Page options for Code128, Code

39 and Code 93.

United States ISO/IEC 646-06 0 1

Canada ISO /IEC 646-121 54 95

Canada ISO /IEC 646-122 18 96

Japan ISO/IEC 646-14 28 98

China ISO/IEC 646-57 92 99

Great Britain (UK) ISO /IEC 646-04 7 87

France ISO /IEC 646-69 3 83

Germany ISO/IEC646-21 4 84

Switzerland ISO /IEC 646-CH 6 86

Sweden / Finland (extended Annex C) ISO/IEC 646-11 2 82

Ireland ISO /IEC 646-207 73 97

Denmark ISO/IEC 646-08 8 88

Norway ISO/IEC 646-60 9 94

Italy ISO/IEC 646-15 5 85

Portugal ISO/IEC 646-16 13 92

Spain ISO/IEC 646-17 10 90

Spain ISO/IEC 646-85 51 91

Extended ASCII Characters (Continued)

DEC HEX CP 1252 ASCII Alternate Extended PS2 Scan Code

A - 9

Dec 35 36 64 91 92 93 94 96 123 124 125 126

Hex 23 24 40 5B 5C 5D 5E 60 7B 7C 7D 7E

US 0 1 # $ @ [ \ ] ^ ` { | } ~

CA 54 95

# $ à â ç ê î ô é ù è û

CA 18 96

# $ à â ç ê É ô é ù è û

JP 28 98

# $ @ [ ¥ ] ^ ` { | } ⎯

CN 92 99

# ¥ @ [ \ ] ^ ` { | } ⎯

GB 787

£ $ @ [ \ ] ^ ` { | } ˜

FR 383

£ $ à ° ç § ^ µ é ù è ¨

DE 484

# $ § Ä Ö Ü ^ ` ä ö ü ß

CH 686

ù $ à é ç ê î ô ä ö ü û

SE/FI 282

# ¤ É Ä Ö Å Ü é ä ö å ü

DK 888

# $ @ Æ Ø Å ^ ` æ ø å ˜

NO 994

# $ @ Æ Ø Å ^ ` æ ø å ¨

IE 73 97

£ $ Ó É Í Ú Á ó é í ú á

IT 585

£ $ § ° ç é ^ ù à ò è ì

PT 13 92

# $ § Ã Ç Õ ^ ` ã ç õ °

ES 10 90

# $ § ¡ Ñ ¿ ^ ` ° ñ ç ˜

ES 51 91

# $ · ¡ Ñ Ç ¿ ` ´ ñ ç ¨

COUNTRY

Country Keyboard

Honeywell

CodePage

ISO / IEC 646 National Character Replacements

A - 10

Unicode Key Maps

6E 70 71 72 73 74 75 76 77 78 79 7A 7B 7C 7D 7E

4B 50 55

4C 51 56

01 02 03 04 05 06 07 08 09 0A 0B 0C 0D 0F

10 11 12 13 14 15 16 17 18 19 1A 1B 1C 1D

1F 20 21 22 23 24 25 26 27 28 29 2B

392E 2F 30 31 32 33 34 35 36 37

4F 54 59

3A 3B 3C 3E 3F 38 40

5A 5F 64

5B 60 65

5C 61 66

5D 62 67

63 68

104 Key U.S. Style Keyboard

6E 70 71 72 73 74 75 76 77 78 79 7A 7B 7C 7D 7E

4B 50 55

4C 51 56

01 02 03 04 05 06 07 08 09 0A 0B 0C 0D 0F

10 11 12 13 14 15 16 17 18 19 1A 1B 1C

1F 20 21 22 23 24 25 26 27 28 29

392E 2F 30 31 32 33 34 35 36 37

4F 54 59

3A 3B 3C 3E 3F 38 40

5A 5F 64

5B 60 65

5C 61 66

5D 62 67

63 68

105 Key European Style Keyboard

Sample Symbols

UPC-A

0 123456 7890

Interleaved 2 of 5

Code 128

EAN-13

Code 39

Codabar

1234567890

Code 128

9 780330 290951

BC321

A13579B

Code 93

123456-9$

Code 2 of 5

123456

6543210

RSS-14

(01)00123456789012

Matrix 2 of 5

Sample Symbols

Aztec

MaxiCode

Micro PDF417

Package Label

Test Message

OCR-A with Modulo 10

check character

OCR-A with Modulo 36

check character

PDF417

Postnet

Code 49

Car Registration

Zip Code

1234567890

Data Matrix

QR Code

Test Symbol

Numbers

Programming Chart

Note: If you make an error while scanning the letters or digits (before scanning Save), scan Discard, scan the correct letters or

digits, and Save again.

Save

Discard

Reset

Honeywell Scanning & Mobility

9680 Old Bailes Road

Fort Mill, SC 29707

www.honeywellaidc.com

N56XX-UG Rev C

11/13

Honeywell 56805683 Xenon 1900/1902 Area Imaging Scanner User’s Guide User Manual To The 667f3d43 91b9 4487 98cc 8ee2fee645d4

N56XX to the manual fff40e0a-57e2-43d0-845a-67fe94018b99

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