Datalogic GRYPHON Reference Manual

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Datalogic GRYPHON Reference Manual | Manualzz

Australia

Datalogic Scanning Pty Ltd

North Ryde, Australia

Telephone: [61] (2) 9870 3200

Fax: [61] (2) 9878 8688

France and Benelux

Datalogic Scanning Sarl

LES ULIS Cedex, France

Telephone: [33].01.64.86.71.00

Fax: [33].01.64 46.72.44

Germany

Datalogic Scanning GmbH

Darmstadt, Germany

Telephone: 49 (0) 61 51/93 58-0

Fax: 49 (0) 61 51/93 58 58

Italy

Datalogic Scanning SpA

Vimercate (MI), Italy

Telephone: [39] (0) 39/62903.1

Fax: [39] (0) 39/6859496

Japan

Datalogic Scanning KK

Shinagawa, Tokyo, Japan

Telephone: 81 (0)3 3491 6761

Fax: 81 (0)3 3491 6656

Latin America

Datalogic Scanning, Inc

Miami, Florida, USA

Telephone: (305) 591-3222

Fax: (305) 591-3007

Spain and Portugal

Datalogic Scanning Sarl

Sucursal en España

Madrid, Spain

Telephone: 34 91 746 28 60

Fax: 34 91 742 35 33

United Kingdom

Datalogic Scanning LTD

Watford, England

Telephone: 44 (0) 1923 809500

Fax: 44 (0) 1923 809 505

www.scanning.datalogic.com

Datalogic Scanning, Inc.

959 Terry Street

Eugene, OR 97402

Telephone: (541) 683-5700

Fax: (541) 345-7140

©2007 Datalogic Scanning, Inc.

90ACC1780 (Rev. H)

09/07

Gryphon™

Reference Manual

Datalogic Scanning, Inc.

959 Terry Street

Eugene, Oregon 97402

Telephone: (541) 683-5700

Fax: (541) 345-7140

An Unpublished Work - All rights reserved. No part of the contents of this documentation or the procedures described therein may be reproduced or transmitted in any form or by any means without prior written per-mission of Datalogic

Scanning, Inc. or its subsidiaries or affiliates ("Datalogic" or “Datalogic Scanning”).

Owners of Datalogic products are hereby granted a non-exclusive, revocable license to reproduce and transmit this documentation for the purchaser's own internal business purposes. Purchaser shall not remove or alter any proprietary notices, including copyright notices, contained in this documentation and shall ensure that all notices appear on any reproductions of the documentation.

Should future revisions of this manual be published, you can acquire printed versions by contacting your Datalogic representative. Electronic versions may either be downloadable from the Datalogic website (www.scanning.datalogic.com) or provided on appropriate media. If you visit our website and would like to make comments or suggestions about this or other Datalogic publications, please let us know via the

"Contact Datalogic" page.

Disclaimer

Datalogic has taken reasonable measures to provide information in this manual that is complete and accurate, however, Datalogic reserves the right to change any specification at any time without prior notice. Datalogic is a registered trademark of

Datalogic S.p.A. in many countries and the Datalogic logo is a trademark of Datalogic

S.p.A. all licensed to Datalogic Scanning, Inc. All other trademarks and trade names referred to herein are property of their respective owners.

CONTENTS

1

GENERAL VIEW ....................................................................................... viii

INTRODUCTION .......................................................................................... 1

2 INSTALLATION............................................................................................ 2

2.1

GRYPHON™ D Interface Cable Connections............................................... 2

2.2

OM-GRYPHON™ Interface Cable Connections ........................................... 3

2.3

RS232 Connection........................................................................................ 4

2.4

USB .............................................................................................................. 4

2.5

IBM USB POS............................................................................................... 5

2.6

WEDGE Connection ..................................................................................... 5

2.7

PEN Emulation Connection........................................................................... 6

2.8

GRYPHON™ M Battery Maintenance........................................................... 7

2.8.1

Battery Type.................................................................................................. 7

2.8.2

Battery Charging ........................................................................................... 7

2.8.3

Replacing GRYPHON™ M Batteries ............................................................ 7

3 GRYPHON™ M SYSTEM AND NETWORK LAYOUTS ................................ 9

3.1

Stand Alone Layouts ..................................................................................... 9

3.1.1

Single Reader Layout.................................................................................... 9

3.1.2

Multiple Reader Layout ................................................................................. 9

3.1.3

Multiple Stand Alone Layouts...................................................................... 10

3.2

Multidrop STAR-System™ Network Layouts............................................... 11

3.2.1

Host Master Layout ..................................................................................... 11

4 CONFIGURATION...................................................................................... 12

4.1

Configuration Methods ................................................................................ 12

4.1.1

Reading Configuration Barcodes ................................................................ 12

4.1.2

Using DL Sm@rtSet.................................................................................... 12

4.1.3

Copy Command .......................................................................................... 12

4.1.4

Sending Configuration Strings from Host .................................................... 13

4.2

Setup Procedures ....................................................................................... 13

4.3

GRYPHON™ D Setup ................................................................................ 14

4.4

GRYPHON™ M/OM-GRYPHON™ Stand Alone Setup.............................. 14

4.4.1

Using Multiple M-Series Readers With Same Cradle.................................. 16

4.4.2

GRYPHON™ M/STAR-Modem™ in Stand Alone Mode ............................. 17

4.5

GRYPHON™ M/STAR-System™ Setup..................................................... 18

4.6

Interface Selection ...................................................................................... 20

4.7

USB Reader Configuration.......................................................................... 25

4.8

Changing Default Settings .......................................................................... 28

RS232 PARAMETERS ............................................................................... 29

iii

iv

Baud Rate ................................................................................................... 30

Parity........................................................................................................... 31

Data Bits ..................................................................................................... 31

Stop Bits...................................................................................................... 32

Handshaking ............................................................................................... 32

Ack/Nack Protocol....................................................................................... 33

FIFO............................................................................................................ 33

Inter-character Delay................................................................................... 34

Rx Timeout.................................................................................................. 34

Serial Trigger Lock...................................................................................... 35

USB PARAMETERS .................................................................................. 36

Handshaking ............................................................................................... 37

Ack/Nack Protocol....................................................................................... 37

FIFO............................................................................................................ 38

Inter-character Delay................................................................................... 38

Rx Timeout.................................................................................................. 39

Serial Trigger Lock...................................................................................... 39

Keyboard Nationality ................................................................................... 40

FIFO............................................................................................................ 41

Inter-character Delay................................................................................... 41

Inter-code Delay.......................................................................................... 42

WEDGE PARAMETERS............................................................................. 43

Keyboard Nationality ................................................................................... 44

Caps Lock ................................................................................................... 45

Caps Lock Auto-Recognition (IBM AT compatible only)............................... 45

Num Lock.................................................................................................... 46

Inter-character Delay................................................................................... 46

Inter-code Delay.......................................................................................... 47

Keyboard Setting......................................................................................... 48

PEN EMULATION ...................................................................................... 50

Operating Mode .......................................................................................... 51

Minimum Output Pulse................................................................................ 52

Conversion to Code 39 and Code 128 ........................................................ 53

Overflow...................................................................................................... 54

Output Level................................................................................................ 54

Idle Level..................................................................................................... 55

Inter-Block Delay......................................................................................... 55

IBM 46xx .................................................................................................... 56

IBM Data Formatting................................................................................... 57

DATA FORMAT.......................................................................................... 58

Code Identifier............................................................................................. 62

Custom Code Identifier ............................................................................... 63

Header ........................................................................................................ 64

Terminator................................................................................................... 65

Field Adjustment ......................................................................................... 67

Field Adjustment Character......................................................................... 69

Code Length Tx .......................................................................................... 69

Character Replacement .............................................................................. 70

Address Stamping (M Series Only) ............................................................. 73

Address Delimiter (M Series Only) .............................................................. 73

POWER SAVE............................................................................................ 74

Scan Rate ................................................................................................... 75

Sleep State/USB Suspend .......................................................................... 75

Enter Sleep Timeout ................................................................................... 76

Standby....................................................................................................... 76

READING PARAMETERS.......................................................................... 77

Operating Mode .......................................................................................... 79

Hand-Held Operation .................................................................................. 79

Stand Operation.......................................................................................... 80

Hardware Trigger Mode .............................................................................. 80

Trigger-off Timeout ..................................................................................... 80

Flash Mode ................................................................................................. 81

Reads per Cycle.......................................................................................... 81

Safety Time................................................................................................. 82

Beeper Intensity .......................................................................................... 82

Beeper Tone ............................................................................................... 83

Beeper Type ............................................................................................... 83

Beeper Length ............................................................................................ 83

PDF Decoding Recognition Intensity........................................................... 84

Good Read Spot Duration........................................................................... 84

DECODING PARAMETERS....................................................................... 85

Ink Spread................................................................................................... 86

Overflow Control ......................................................................................... 86

Interdigit Control.......................................................................................... 87

Decoding Safety.......................................................................................... 87

Puzzle Solver™ .......................................................................................... 88

CODE SELECTION .................................................................................... 89

EAN/UPC Family ........................................................................................ 92

2/5 Family ................................................................................................... 96

Code 39 Family........................................................................................... 97

Code 128 Family......................................................................................... 99

Code 93 .................................................................................................... 100

Codabar Family......................................................................................... 101

v

MSI ........................................................................................................... 103

Plessey ..................................................................................................... 104

Telepen ..................................................................................................... 105

Delta IBM .................................................................................................. 106

Code 11 .................................................................................................... 107

Code 16K .................................................................................................. 108

Code 49 .................................................................................................... 108

PDF417..................................................................................................... 109

RSS Codes ............................................................................................... 110

ADVANCED FORMATTING ..................................................................... 111

Concatenation........................................................................................... 113

Advanced Formatting................................................................................ 116

RADIO PARAMETERS............................................................................. 133

Radio Protocol Timeout............................................................................. 134

Power-Off Timeout.................................................................................... 134

Beeper Control for Radio Response ......................................................... 135

Battery Type.............................................................................................. 135

Single Store .............................................................................................. 136

5 REFERENCES ......................................................................................... 137

5.1

RS232 Parameters ................................................................................... 137

5.1.1

Handshaking ............................................................................................. 137

5.1.2

ACK/NACK Protocol ................................................................................. 138

5.1.3

FIFO.......................................................................................................... 139

5.1.4

RX Timeout ............................................................................................... 140

5.2

Pen Parameters ........................................................................................ 140

5.2.1

Minimum Output Pulse.............................................................................. 140

5.2.2

Conversion to Code 39 and Code 128 ...................................................... 140

5.2.3

Overflow.................................................................................................... 141

5.2.4

Output and Idle Levels .............................................................................. 141

5.2.5

Inter-Block Delay....................................................................................... 142

5.3

IBM 46xx Parameters................................................................................ 142

5.3.1

IBM Data Formatting (Transmission Format) ............................................ 142

5.4

Data Format .............................................................................................. 143

5.4.1

Header/Terminator Selection .................................................................... 143

5.4.2

Set Custom Extended Header/Terminator Keys ....................................... 145

5.4.3

Address Stamping..................................................................................... 147

5.4.4

Address Delimiter...................................................................................... 147

5.5

Power Save............................................................................................... 147

5.5.1

Sleep State/USB Suspend ........................................................................ 147

5.5.2

Enter Sleep Timeout ................................................................................. 148

5.5.3

Standby..................................................................................................... 148

5.6

Reading Parameters ................................................................................. 148

5.6.1

Operating Mode ........................................................................................ 148

vi

A

B

5.6.2

Hardware Trigger Mode ............................................................................ 149

5.6.3

Trigger-Off Timeout................................................................................... 149

5.6.4

Reads per Cycle........................................................................................ 149

5.6.5

Safety Time............................................................................................... 150

5.7

Decoding Parameters ............................................................................... 150

5.7.1

Ink-Spread ................................................................................................ 150

5.7.2

Overflow Control ....................................................................................... 150

5.7.3

Interdigit Control........................................................................................ 150

5.8

Radio Parameters (M SEries Only) ........................................................... 151

5.8.1

Radio Protocol Timeout............................................................................. 151

5.8.2

Power-Off Timeout.................................................................................... 151

5.8.3

Beeper Control for Radio Response ......................................................... 151

5.8.4

Single Store .............................................................................................. 152

5.9

Configuration Editing Commands.............................................................. 153

5.10

Configuration Copying Commands ........................................................... 154

5.10.1

Copy GRYPHON

™ D-Series..................................................................... 154

5.10.2

Copy GRYPHON

™ M-Series .................................................................... 155

5.10.3

Copy OM-GRYPHON™ ............................................................................ 156

5.11

C-GRYPHON™ Configuration .................................................................. 157

5.12

Default Parameters for POS Terminals..................................................... 158

6 TECHNICAL FEATURES ......................................................................... 159

6.1

GRYPHON™ D......................................................................................... 159

6.2

GRYPHON™ M ........................................................................................ 160

6.3

OM-GRYPHON™ / C-GRYPHON™......................................................... 161

6.4

System and Radio Features...................................................................... 162

6.5

Status Indicators ....................................................................................... 162

6.6

Reading Diagrams .................................................................................... 164

HOST CONFIGURATION STRINGS ........................................................ 166

CODE IDENTIFIER TABLE...................................................................... 179

C HEX AND NUMERIC TABLE ................................................................... 173 vii

GENERAL VIEW

GRYPHON™ D/M READERS

Figure A – Gryphon™ D and M Series Readers viii

Figure B – OM-GRYPHON™ and C-GRYPHON™

INTRODUCTION

1 INTRODUCTION

Datalogic has moved a step ahead in the concept of “instinctive reading. ”The new

Gryphon™ reader has been developed to provide optimised reading performance through excellent ergonomic design, a natural instinctive reading approach and innovative good reading feedback.

The “INSTINCTIVE READING DISTANCE,” a concept introduced by Datalogic a few years ago based on in-depth ergonomic studies, represents the natural position of the user while reading a code. The Gryphon™ series takes this concept one step further. The series includes two tethered (D100 and D200) and two cordless (M100 and M200) models, allowing operations anywhere mobility is required at the desk/POS and around the shop floor, as well as in a small warehouse. The new

“green spot,” (Datalogic patent application) produced by the Gryphon™ provides

“good reading” feedback directly on the code, where the user usually tends to be looking. Correct pointing becomes quick and easy thanks to the sharp and bright illumination line. All these characteristics are coupled with outstanding performance in terms of reading quickness and decoding capability thanks to state-of-the-art optics and a decode rate of 270 scans/sec, making the Gryphon™ very user friendly, intuitive and fast.

Specially optimised optics allow reading of the most popular standard codes with superior depths of field from near contact to over 30 cm. High resolution codes, which can reach 3 mils are also easily read. Two specific models of the Gryphon™ series

(D200 and M200) have also been designed to provide decoding of the PDF417, as well as traditional barcodes. The Gryphon™ reader series is paving the road for innovative barcode reading.

1

GRYPHON™

2 INSTALLATION

CAUTION

Connections should always be made with power OFF!

2.1 GRYPHON™ D INTERFACE CABLE CONNECTIONS

The Gryphon™ D reader incorporates a multi-standard interface which can be connected to a Host by plugging the correct interface cable into the connector as shown below.

To disconnect the cable, insert a paper clip or other similar object into the slot on the reader battery cover while unplugging the cable from the Gryphon™ D body.

CAUTION

Connections should always be made with power OFF!

2

INSTALLATION

2.2 OM-GRYPHON™ INTERFACE CABLE CONNECTIONS

OM-GRYPHON™ Connectors

The OM-GRYPHON™ incorporates a multi-standard interface which can be connected to a Host by simply plugging the correct interface cable into the connector, placed on the base of the cradle. In addition the cradle must be connected to an external power supply.

To disconnect the cable, insert a paper clip or other similar object into the hole corresponding to the Host connector on the body of the cradle.

Push down on the clip while unplugging the cable.

Disconnecting the OM-GRYPHON™ Cable

3

GRYPHON™

2.3 RS232 CONNECTION

2.4 USB

4

INSTALLATION

2.5 IBM USB POS

2.6 WEDGE CONNECTION

5

GRYPHON™

2.7 PEN EMULATION CONNECTION

6

INSTALLATION

2.8

2.8.1

GRYPHON™ M BATTERY MAINTENANCE

Battery Type

You can install NiMh, NiCd or Alkaline AA batteries in the Gryphon™ M.

2.8.2 Battery Charging

Once the system is connected and powered, you can place the Gryphon™ M into the cradle to charge the battery.

When the scanner is correctly inserted in the cradle, the red LED on the cradle goes on to indicate that the battery is charging. The green LED on the cradle goes on when the battery is completely charged.

When using NiCd or NiMh batteries, frequent recharging before fully discharging can cause a “memory effect” in which the batteries assume a reduced capacity.

Since it is not practical to wait for the reader to be fully discharged before recharging it, the OM-Gryphon™ and the C-Gryphon™ are provided with a battery-reconditioning feature which overcomes the “memory effect” problem.

To perform battery reconditioning, simply press the battery-reconditioning key on the cradle control panel: the battery will be fully discharged in a short period of time (red

LED flashing), then automatically recharged.

We recommend performing the battery reconditioning once every few months or whenever you feel the battery capacity has decreased.

2.8.3 Replacing GRYPHON™ M Batteries

To change the batteries in your Gryphon™ M scanner, proceed as follows:

1.

Unscrew the battery cover screw.

7

GRYPHON™

2.

Open the battery cover.

3.

Replace the old batteries with new ones, then screw the battery cover back into place.

NiMh, NiCd, or Alkaline AA Batteries

WARNING

Do not incinerate, disassemble, short terminals or expose to high temperature. Risk of fire, explosion. Use specified charger only. Risk of explosion if the battery is replaced by an incorrect type. Dispose of the batteries as required by the relevant laws in force.

8

GRYPHON™ M SYSTEM AND NETWORK LAYOUTS

3 GRYPHON™ M SYSTEM AND NETWORK LAYOUTS

There are two basic system layouts that can be employed: Stand Alone systems and

Multidrop STAR-System™ Networks.

3.1 STAND ALONE LAYOUTS

3.1.1 Single Reader Layout

3.1.2 Multiple Reader Layout

In stand alone systems, each cradle is connected to a single Host.

9

GRYPHON™

3.1.3 Multiple Stand Alone Layouts

Many stand alone connections can operate in the same physical area without interference, provided all readers and cradles in the system have different addresses.

Multiple Stand Alone Systems in the Same Area

Since the cradles can communicate to multiple Gryphon™ M scanners, you might find it useful to employ one or more C-Gryphon™ battery chargers in addition to the

OM-Gryphon™ cradle, so that the battery re-charging operation can be performed for several scanners at the same time.

10

GRYPHON™ M SYSTEM AND NETWORK LAYOUTS

3.2 MULTIDROP STAR-SYSTEM™ NETWORK LAYOUTS

Even though many stand alone systems can operate in the same physical area without interfering with each other, it may be desirable to bridge data from multiple base stations in a network to a single Host. Gryphon™ M readers are compatible with

STAR-System™ networks. These networks provide seamless active roaming for any

RF reading device in the system.

3.2.1 Host Master Layout

A. Host Master with STAR-Link™ converter

C. STARGATE™ base stations

Example Multidrop STAR-System™ Network with Host as Master

In this layout the Host acts as the Master using STAR-Link™ software. The Host is connected in RS232 to a STAR-Box™ converter which is connected to the first slave in the RS485 network. In this way the base stations provide communications between a single Host and all readers in the system. STARGATE™ base stations are used as slaves in this network. The Slaves at the ends of the network must be terminated (see the STARGATE™ and STAR-Box™ Installation Manuals).

See par. 4.5 and or the Sm@rtSet Help On-Line for system configuration

specifications.

11

GRYPHON™

4 CONFIGURATION

4.1 CONFIGURATION METHODS

4.1.1 Reading Configuration Barcodes

This manual can be used for complete setup and configuration of your reader by

following the setup procedures in this chapter (see par. 4.2 for an overview).

If you wish to change the default settings, this manual provides complete configuration of your reader in an easy way.

To configure your reader:

1)

Open the folded page in Appendix C with the hex-numeric table and keep it open during the device configuration.

2)

Read the Enter Configuration code ONCE, available at the top of each page of configuration.

3)

Modify the desired parameters in one or more sections following the procedures given for each group.

4)

Read the Exit and Save Configuration code ONCE, available at the top of each page of configuration.

Reference notes describing the operation of the more complex parameters are given

in chapter 5.

4.1.2 Using DL Sm@rtSet

DL Sm@rtSet is a Windows-based utility program providing a quick and user-friendly configuration method via the RS232 interface.

It also allows upgrading the software of the connected device (see the DL Sm@rtSet

User's Manual for more details).

4.1.3 Copy Command

A previously configured device (Master), can be used to send its configuration directly to other devices of the same type (Slaves). The particular procedure for each device is

given in par. 5.10.

12

CONFIGURATION

4.1.4 Sending Configuration Strings from Host

An alternative configuration method is provided in Appendix A using the RS232

interface. This method is particularly useful when many devices need to be configured with the same settings. Batch files containing the desired parameter settings can be prepared to configure devices quickly and easily.

4.2 SETUP PROCEDURES

For Gryphon™ D-Series readers, follow the setup procedures in pars. 4.3 and 4.6.

For Gryphon™ D USB readers, follow the setup procedures in par. 4.7.

For Gryphon™ M-Series readers, the setup procedures depend on two basic applications, Stand Alone or STAR-System™.

Stand Alone applications allow communication with the Host by either the

OM-Gryphon™ cradle (par. 4.4), or by the STAR-Modem™ radio modem

(par. 4.4.2).

STAR-System™ applications allow communication with the Host through an RS485 network by the STARGATE™ RF base station or by the STAR-Modem™ radio

modem (par. 4.5).

Proceed as shown in the following diagram:

B eg in S etup by choosing the setup procedure for your G R Y P H O N ™ reader as indicated below.

G R Y PH O N ™ D

P ar. 4.3

P ar. 4.6

S tand Alon e Ap plications

G R Y PH O N ™ M /O M -G R Y PH O N ™

P ar. 4.4

P ar. 4.6

O ptio nal P ar. 4.4.1

m ultiple guns per O M -G R Y P H O N ™

G R Y PH O N ™ M /ST AR -M odem ™

in S tand A lone M ode

P ar. 4.4.2

G R Y PH O N ™ D U SB

P ar. 4.7

S TAR-S ystem ™ Application s

G R Y PH O N ™ M /ST AR -System ™

P ar. 4.5

STARG ATE™

STAR-Modem ™ in STAR-System ™ M ode

E nd o f S etup

Y our reader is now ready to read barcodes using the default settings.

13

GRYPHON™

4.3 GRYPHON™ D SETUP

1.

Read the restore default parameters code below.

Restore Gryphon™ D Default

Ì$+$*oÎ

After reading the above code, go to par. 4.6 Interface Selection.

4.4 GRYPHON™ M/OM-GRYPHON™ STAND ALONE SETUP

Read the restore default parameters code below.

1.

Restore Gryphon™M Default

Ì$+$*oÎ

2.

Read the codes below to set the radio address of the Gryphon

™ M reader.

Enter configuration

Ì$+;Î

3.

Set Radio Address

ÌRA0RFHÎ

+

four digits for the Gryphon™ M Address (from 0000 to 1999).

All readers used in the same area must have different addresses.

4.

Exit and Save configuration

Ì$-?Î

14

CONFIGURATION

5.

Read the Bind code to pair the Gryphon™ M to the OM-Gryphon™ cradle.

The reader is dedicated to the cradle. Any previously bound reader will be excluded.

To connect several readers to the same cradle see the following paragraph

4.4.1, ‘Using Multiple M Readers with Same Cradle'.

Bind

Ì$+RN0$-IÎ

The green LED on the Gryphon™ M will blink; the reader is ready to be positioned onto the cradle.

6.

Firmly position the reader onto the OM-Gryphon™ cradle within 10 seconds, a beep will be emitted, signaling that the OM-Gryphon™ cradle has been paired to the Gryphon™ M, and the green LED on the reader will go off.

7.

Read the OM-Gryphon™ restore default code:

Restore OM-Gryphon™ default

Ì$+RX0$-qÎ

Go to par. 4.6 Interface Selection.

15

GRYPHON™

4.4.1 Using Multiple M-Series Readers With Same Cradle

If you want to use several M-Series readers with the same OM-Gryphon™ cradle, you must first Bind the cradle with one of the readers (see previously described configuration procedure).

Successive readers can be associated with the same cradle by following the configuration procedure substituting the Bind command with Join (step 5).

5.

Join

Ì$+RN1$-NÎ

The green LED on the Gryphon™ M will blink: the reader is ready to be positioned onto the cradle. Complete step 6.

END of procedure.

CAUTION

If the cradle is not

Bound

cradles within its range.

to a reader, its address assumes a random value which can cause conflicts and malfunctions to other

YOUR READER IS NOW READY TO READ BARCODES.

To change the defaults see par. 4.8.

16

CONFIGURATION

4.4.2 GRYPHON™ M/STAR-Modem™ in Stand Alone Mode

To configure a Gryphon™ M reader to communicate with STAR-Modem™ in Stand

Alone Mode, follow the procedure in par. 4.4 substituting steps 4 and 5 with those

below:

4.

STAR-Modem™ Address

ÌRSRÎ

Read the code above and the four-digit address of the STAR-Modem™.

5.

Exit and Save configuration

Ì$-?Î

END of procedure.

YOUR READER IS NOW READY TO READ BARCODES.

To change the defaults see par. 4.8.

17

GRYPHON™

4.5 GRYPHON™ M/STAR-SYSTEM™ SETUP

The following procedure allows configuring a Gryphon™ M reader to communicate with various STAR-System™ devices such as STARGATE™ RF base stations.

1.

Restore Gryphon™ M Default

Ì$+$*oÎ

2.

Enter configuration

Ì$+;Î

3.

Set the connection according to the length of the codes to be read:

Code Length

≤240 Characters

ÌRA1aÎ

Code Length >240 Characters

ÌRA2dÎ

4.

Set Radio Address

ÌRF8Î

+

four digits from the Numeric Table in the range 0000-1999.

All readers must have different addresses.

18

CONFIGURATION

5.

First STAR-System™ Address

ÌRSRÎ

Read the code above and the four-digit address of the First STAR-System™ device in the system.

6.

Set Last STAR-System™ Address

ÌRTTÎ

Read the code above and the four-digit address of the Last STAR-System™ device in the system.

NOTE

Whenever the system is composed of a single base station, the first and last base station addresses (steps 5 and 6) must have the same value.

7.

END of procedure.

Exit and Save Configuration

Ì$-?Î

YOUR READER IS NOW READY TO READ BARCODES.

To change the defaults see par. 4.8.

19

GRYPHON™

4.6 INTERFACE SELECTION

Read the interface selection code for your application.

RS232

Standard

Ì$+CP0$-$Î

POS Terminals

Nixdorf Mode A

Ì$+CM2EC0$->Î

Fujitsu

Ì$+CM1$-ÈÎ

ICL Mode

Ì$+CM0$-ÃÎ

For POS terminal default settings refer to par. 5.12.

PEN

Ì$+CP6$-BÎ

20

WEDGE

IBM AT or PS/2 PCs

Ì$+CP500$-aÎ

IBM XT

Ì$+CP503$-vÎ

PC Notebook

Ì$+CP505$-ÈÎ

IBM SURE1

Ì$+CP506$-$Î

IBM Terminal 3153

Ì$+CP504$-}Î

CONFIGURATION

21

GRYPHON™

WEDGE (CONTINUED)

IBM Terminals 31xx, 32xx, 34xx, 37xx:

To select the interface for these IBM Terminals, read the correct KEY

TRANSMISSION code. Select the KEYBOARD TYPE if necessary

(default = advanced keyboard).

KEY TRANSMISSION MODE

make-only keyboard

Ì$+CP502$-oÎ

make-break keyboard

Ì$+CP501$-hÎ

KEYBOARD TYPE

‹ advanced keyboard

Ì$+FK1$-ÉÎ

typewriter keyboard

Ì$+FK0$-ÄÎ

22

CONFIGURATION

WEDGE (CONTINUED)

ALT MODE

The ALT-mode selection allows barcodes sent to the PC to be interpreted correctly independently from the Keyboard Nationality used. You do not need to make a

Keyboard Nationality selection.

(default = Num Lock Unchanged). Make sure the Num Lock key on your

keyboard is ON.

IBM AT - ALT mode

Ì$+CP507$-+Î

PC Notebook - ALT mode

Ì$+CP508$-2Î

WYSE TERMINALS

ANSI Keyboard

Ì$+CP509$-9Î

PC Keyboard

Ì$+CP510$-gÎ

ASCII Keyboard

Ì$+CP511$-nÎ

VT220 style Keyboard

Ì$+CP514$-ÇÎ

23

GRYPHON™

24

WEDGE (CONTINUED)

DIGITAL TERMINALS

VT2xx/VT3xx/VT4xx

Ì$+CP512$-uÎ

APPLE

APPLE ADB Bus

Ì$+CP513$-|Î

IBM 46XX

(IBM 46xx models only)

PORT 9B

4501 Protocol

Ì$+CP800$-pÎ

(typical)

1520 Protocol

Ì$+CP801$-wÎ

PORT 5B

1520 Protocol

Ì$+CP801$-wÎ

(typical)

4501 Protocol

Ì$+CP800$-pÎ

CONFIGURATION

4.7 USB READER CONFIGURATION

The USB interface is compatible with:

Windows 98 (and later) IBM POS for Windows

Mac OS 8.0 (and later) 4690 Operating System

USB Start-up

As with all USB devices, upon connection, the Host performs several checks by communicating with the USB device. During this phase the green LED on the device blinks and normal operations are suspended. Two basic conditions must be met before the USB device is ready to read codes, the correct USB driver must be loaded and sufficient power must be supplied to the reader.

For all systems, the correct USB driver for the default USB-KBD interface is included in the Host Operating System and will either be loaded automatically or will be suggested by the O.S. and should therefore be selected from the dialog box (the first time only).

If the Host supplies sufficient power to the reader, the start-up phase ends correctly, the LED stops blinking and the reader emits the beep OK signal.

If the Host does not supply sufficient power to the reader, a dialog box will appear on the Host and the reader will be blocked (LED continues blinking). In this case, disconnect the USB device cable at the Host (LED stops blinking), connect and power-up an external supply to the USB cable then reconnect the USB cable to the

Host and close the dialog box. The reader emits the beep OK signal. You can now read codes. At this point you can read the USB interface configuration code according to your application. Load drivers from the O.S. (if requested). When configuring the USB-COM interface, the relevant files and drivers must be installed from the USB Device Installation software which can be downloaded from the web page http://www.scanning.datalogic.com.

The reader is ready.

25

GRYPHON™

First Start-Up

Connect device to

Host with USB cable

LED blinks

Load drivers

(if requested)

LED off

BEEP OK

Disconnect reader at Host

YES

Connect external power supply to cable and power up

Reconnect reader cable to Host and close dialog box

Does a dialog box appear asking whether Bus power is sufficient?

NO

LED off - BEEP OK

Select desired USB interface code

Load drivers

(if requested)

Read test codes.

Reader is READY

Successive start-ups will automatically recognize the previously loaded drivers. If external power is used, verify that external power is already supplied.

Successive Start-Ups

Connect device to

Host with USB cable

LED blinks

BEEP OK

Disconnect reader at Host

Connect external power supply to cable and power up

Reconnect reader cable to Host and close dialog box

YES

Does a dialog box appear asking whether Bus power is sufficient?

NO

LED off - BEEP OK

Read test codes.

Reader is READY

26

CONFIGURATION

USB

USB-KBD

Ì$+UA03$-:Î

USB-KBD-ALT-MODE

Ì$+UA04$-@Î

USB-KBD-APPLE

Ì$+UA05$-FÎ

USB-COM*

Ì$+UA02$-4Î

USB-IBM-Table Top

Ì$+UA00$-(Î

USB-IBM-Hand Held

Ì$+UA01$-.Î

* When configuring USB-COM, the relevant files and drivers must be installed from the USB Device Installation software which can be downloaded from the web site http://www.scanning.datalogic.com.

27

GRYPHON™

4.8 CHANGING DEFAULT SETTINGS

Once your reader is setup, you can change the default parameters to meet your application needs. Refer to the preceding paragraphs for initial configuration in order to set the default values and select the interface for your application.

In this manual, the configuration parameters are divided into logical groups making it easy to find the desired function based on its reference group.

The RS232, WEDGE, PEN EMULATION groups are for Standard Interface parameter configuration for Gryphon™ D series readers and

Gryphon™ M/OM-Gryphon™ Stand Alone configurations only:

The USB group is for Gryphon™ D USB only.

The IBM 46xx group is for IBM 46xx models only.

The following parameter groups are common to all interface applications:

DATA FORMAT parameters regard the messages sent to the Host system for all interfaces except Pen Emulation.

POWER SAVE manages overall current consumption in the reading device.

READING PARAMETERS control various operating modes and indicator status functioning.

DECODING PARAMETERS maintain correct barcode decoding in certain special reading conditions.

CODE SELECTION parameters allow configuration of a personalized mix of codes, code families and their options.

ADVANCED FORMATTING PARAMETERS allow code concatenation and advanced formatting of messages towards the Host. It cannot be used with Pen Emulation connections.

RADIO PARAMETERS (M series only) allow configuration of radio control parameters.

28

CONFIGURATION

RS232 PARAMETERS

Gryphon™ D Series Readers

+

Gryphon™ M/OM-Gryphon™ configurations only

~

~

~

~

~

~

~

~

B

AUD

R

ATE

P

ARITY

D

ATA

B

ITS

S

TOP

B

ITS

H

ANDSHAKING

A

CK

/N

ACK

P

ROTOCOL

F

IFO

I

NTER

-

CHARACTER

D

ELAY

~

~

~

~

~

~

~

~

~ ~

R

X

T

IMEOUT

~

S

ERIAL

T

RIGGER

L

OCK

~

1.

Read the Enter Configuration code ONCE, available at the top of each page.

2.

Read configuration codes from the desired groups.

‹

= Read the code and follow the procedure given

= Default value

3.

Read the Exit and Save Configuration code ONCE, available at the top of each page.

29

Enter Configuration

Ì$+;Î

150 baud

ÌCDOKÎ

600 baud

ÌCD2[Î

2400 baud

ÌCD4aÎ

‹ 9600 baud

ÌCD6gÎ

38400 baud

ÌCD8mÎ

RS232

B

AUD

R

ATE

Exit and Save Configuration

Ì$-?Î

300 baud

ÌCD1XÎ

1200 baud

ÌCD3^Î

4800 baud

ÌCD5dÎ

19200 baud

ÌCD7jÎ

30

Enter Configuration

Ì$+;Î

RS232

P

ARITY

‹ none

ÌCC0SÎ

even parity

ÌCC1VÎ

odd parity

ÌCC2YÎ

D

ATA

B

ITS

7 bits

ÌCA0OÎ

‹

8 bits

ÌCA1RÎ

9 bits

ÌCA2UÎ

Exit and Save Configuration

Ì$-?Î

31

Enter Configuration

Ì$+;Î

32

RS232

S

TOP

B

ITS

‹ 1 stop bit

ÌCB0QÎ

2 stop bits

ÌCB1TÎ

H

ANDSHAKING

‹ disable

ÌCE0WÎ

hardware (RTS/CTS)

ÌCE1ZÎ

software (XON/XOFF)

ÌCE2]Î

RTS always ON

ÌCE3`Î

See par. 5.1.1 for details.

Exit and Save Configuration

Ì$-?Î

Enter Configuration

Ì$+;Î

RS232

A

CK

/N

ACK

P

ROTOCOL

‹ disable (sw 3.1.0)

ÌCF0YÎ

‹ disable (sw 4.0 and later)

ÌER0sÎ

enable (sw 3.1.0)

ÌCF3bÎ

enable (sw 4.0 and later)

ÌER1vÎ

See par. 5.1.2 for details, particularly on implementing this parameter with Gryphon™ M.

FIFO

Exit and Save Configuration

Ì$-?Î

disable

ÌEC0UÎ

‹ enable

ÌEC1XÎ

See par. 5.1.3 for details.

33

Enter Configuration

Ì$+;Î

RS232

I

NTER

-

CHARACTER

D

ELAY

delay between characters transmitted to Host

ÌCK3Î

Read 2 numbers from the table where:

00 = DELAY disabled

01-99 = DELAY from 1 to 99 milliseconds

‹ delay disabled

R

X

T

IMEOUT

timeout control in reception from Host

ÌCL5Î

Read 2 numbers from the table where:

00 = TIMEOUT disabled

01-99 = TIMEOUT from .1 to 9.9 seconds

‹ rx timeout 5 seconds

See par. 5.1.4 for details.

Exit and Save Configuration

Ì$-?Î

34

Enter Configuration

Ì$+;Î

RS232

S

ERIAL

T

RIGGER

L

OCK

Exit and Save Configuration

Ì$-?Î

‹ disabled

ÌCR0qÎ

enable and select characters

ÌCR1tÎ

Read 2 characters from the Hex/Numeric table in the range 00-FE where:

− First Character enables device trigger

− Second Character inhibits device trigger until the first character is received again.

35

USB PARAMETERS

~

USB-COM

Handshaking, Ack/Nack protocol, FIFO,

Inter-character delay, Rx timeout, Serial trigger lock

~

~

USB-KBD

Keyboard nationality, FIFO, Inter-character delay, Inter-code delay

~

~ ~

USB-IBM

No parameter selection required.

1.

Read the Enter Configuration code ONCE, available at the top of each page.

2.

Read configuration codes from the desired groups.

‹

= Read the code and follow the procedure given

= Default value

3.

Read the Exit and Save Configuration code ONCE, available at the top of each page.

36

Enter Configuration

Ì$+;Î

USB-COM

H

ANDSHAKING

‹ disable

ÌCE0WÎ

hardware (RTS/CTS)

ÌCE1ZÎ

software (XON/XOFF)

ÌCE2]Î

RTS always ON

ÌCE3`Î

See par. 5.1.1 for details.

A

CK

/N

ACK

P

ROTOCOL

‹

disable

ÌER0sÎ

enable

ÌER1vÎ

See par. 5.1.2 for details.

Exit and Save Configuration

Ì$-?Î

37

Enter Configuration

Ì$+;Î

USB-COM

FIFO

disable

ÌEC0UÎ

‹ enable

ÌEC1XÎ

See par. 5.1.3 for details.

I

NTER

-

CHARACTER

D

ELAY

delay between characters transmitted to Host

ÌCK3Î

Read 2 numbers from the table where:

00 = DELAY disabled

01-99 = DELAY from 1 to 99 milliseconds

‹ delay disabled

Exit and Save Configuration

Ì$-?Î

38

Enter Configuration

Ì$+;Î

USB-COM

R

X

T

IMEOUT

Exit and Save Configuration

Ì$-?Î

timeout control in reception from Host

ÌCL5Î

Read 2 numbers from the table where:

00 = TIMEOUT disabled

01-99 = TIMEOUT from .1 to 9.9 seconds

‹ rx timeout 5 seconds

See par. 5.1.4 for details.

S

ERIAL

T

RIGGER

L

OCK

‹ disabled

ÌCR0qÎ

enable and select characters

ÌCR1tÎ

Read 2 characters from the Hex/Numeric table in the range 00-FE where:

− First Character enables device trigger

− Second Character inhibits device trigger until the first character is received again.

39

Enter Configuration

Ì$+;Î

French

USB-KBD

Exit and Save Configuration

Ì$-?Î

K

EYBOARD

N

ATIONALITY

Not Available for USB-KBD-ALT-MODE Interface

This parameter default value is restored through the Interface Selection code and not Restore

Default.

Belgian

ÌFJ7yÎ

English

ÌFJ4pÎ

ÌFJ2jÎ

German

ÌFJ3mÎ

Italian

ÌFJ1gÎ

Japanese

ÌFJ8|Î

Spanish

ÌFJ6vÎ

Swedish

ÌFJ5sÎ

‹ USA

ÌFJ0dÎ

40

Enter Configuration

Ì$+;Î

USB-KBD

FIFO

disable

ÌEC0UÎ

‹ enable

ÌEC1XÎ

See par. 5.1.3 for details.

I

NTER

-

CHARACTER

D

ELAY

delay between characters transmitted to Host

ÌCK3Î

Read 2 numbers from the table where:

00 = DELAY disabled

01-99 = DELAY from 1 to 99 milliseconds

‹ delay disabled

Exit and Save Configuration

Ì$-?Î

41

Enter Configuration

Ì$+;Î

USB-KBD

I

NTER

-

CODE

D

ELAY

delay between codes transmitted to Host

ÌFG.Î

Read 2 numbers from the table where:

00 = DELAY disabled

01-99 = DELAY from 1 to 99 seconds

‹ delay disabled

Exit and Save Configuration

Ì$-?Î

42

Enter Configuration

Ì$+;Î

USB-KBD

Exit and Save Configuration

Ì$-?Î

WEDGE PARAMETERS

Gryphon™ D Series Readers

+

Gryphon™ M/OM-Gryphon™ configurations only

~

~

~

~

~

~

K

EYBOARD

N

ATIONALITY

C

APS

L

OCK

C

APS

L

OCK

A

UTO

-

RECOGNITION

N

UM

L

OCK

I

NTER

-

CHARACTER

D

ELAY

I

NTER

-

CODE

D

ELAY

~

~

~

~

~

~

~ ~

K

EYBOARD

S

ETTING

1.

Read the Enter Configuration code ONCE, available at the top of each page.

2.

Read configuration codes from the desired groups.

‹

= Read the code and follow the procedure given

= Default value

.

3.

Read the Exit and Save Configuration code ONCE, available at the top of each page.

43

Enter Configuration

Ì$+;Î

WEDGE

K

EYBOARD

N

ATIONALITY

Exit and Save Configuration

Ì$-?Î

Belgian

ÌFJ7yÎ

English

ÌFJ4pÎ

French

ÌFJ2jÎ

German

ÌFJ3mÎ

Italian

ÌFJ1gÎ

Spanish

ÌFJ6vÎ

Swedish

ÌFJ5sÎ

‹ USA

ÌFJ0dÎ

The Japanese Keyboard Nationality selection is valid only for IBM AT compatible PCs.

Japanese

ÌFJ8|Î

44

Enter Configuration

Ì$+;Î

WEDGE

Exit and Save Configuration

Ì$-?Î

C

APS

L

OCK

‹ caps lock OFF

ÌFE0ZÎ

caps lock ON

ÌFE1]Î

Select the appropriate code to match your keyboard caps lock status.

Note: Caps lock manual configuration is ignored when Caps Lock Auto-Recognition is enabled.

For PC Notebook interface selections, the caps lock status is automatically recognized, therefore this command is not necessary.

C

APS

L

OCK

A

UTO

-R

ECOGNITION

(IBM AT

COMPATIBLE ONLY

)

disable

ÌFP0pÎ

‹ enable

ÌFP1sÎ

45

Enter Configuration

Ì$+;Î

WEDGE

Exit and Save Configuration

Ì$-?Î

N

UM

L

OCK

toggle num lock

ÌFL1kÎ

‹ num lock unchanged

ÌFL0hÎ

This selection is used together with the Alt Mode interface selection for AT or Notebook PCs.

It changes the way the Alt Mode procedure is executed, therefore it should be set as follows:

• if your keyboard Num Lock is normally on use num lock unchanged

• if your keyboard Num Lock is normally off use toggle num lock

In this way the device will execute the Alt Mode procedure correctly for your application.

I

NTER

-

CHARACTER

D

ELAY

delay between characters transmitted to Host

ÌCK3Î

Read 2 numbers from the table where:

00 = DELAY disabled

01-99 = DELAY from 1 to 99 milliseconds

‹ delay disabled

46

Enter Configuration

Ì$+;Î

WEDGE

I

NTER

-

CODE

D

ELAY

delay between codes transmitted to Host

ÌFG.Î

Exit and Save Configuration

Ì$-?Î

Read 2 numbers from the table where:

00 = DELAY disabled

01-99 = DELAY from 1 to 99 seconds

‹ delay disabled

47

Enter Configuration

Ì$+;Î

WEDGE

Exit and Save Configuration

Ì$-?Î

K

EYBOARD

S

ETTING

ALPHANUMERIC KEYBOARD SETTING

The reader can be used with terminals or PCs with various keyboard types and nationalities through a simple keyboard setting procedure.

The type of computer or terminal must be selected before activating the keyboard setting command.

Keyboard setting consists of communicating to the reader how to send data corresponding to the keyboard used in the application. The keys must be set in a specific order.

Press and release a key to set it.

Some characters may require more than one key pressed simultaneously during normal use

(refer to the manual of your PC or terminal for keyboard use). The exact sequence must be indicated to the reader in this case pressing and releasing the different keys.

Example:

If one has to press the "Shift" and "4" keys simultaneously on the keyboard to transmit the character "$" to the video, to set the "$", press and release "Shift" then press and release "4".

Each pressed and released key must generate an acoustic signal on the reader, otherwise repress the key. Never press more than one key at the same time, even if this corresponds to the normal use of your keyboard.

Press "Backspace" to correct a wrong key entry. In this case the reader emits 2 beeps.

Note: "CAPS LOCK" and "NUM LOCK" must be off before starting the keyboard setting procedure. "SHIFT" must be repressed for each character and cannot be substituted by

"CAPS LOCK".

setting the alphanumeric keyboard

ÌFB0TÎ

Read the code above.

Press the keys shown in the following table according to their numerical order.

Some ASCII characters may be missing as this depends on the type of keyboard: these are generally particular characters relative to the various national symbologies. In this case:

The first 4 characters (Shift, Alt, Ctrl, and Backspace) can only be substituted with

keys not used, or substituted with each other.

• characters can be substituted with other single symbols (e.g. "SPACE") even if not included in the barcode set used.

• characters can be substituted with others corresponding to your keyboard.

The reader signals the end of the procedure with 2 beeps indicating the keys have been

registered.

48

01 : Shift

02 : Alt

03 : Ctrl

04 : Backspace

WEDGE

GRYPHON™ M-Series Readers Only

74 : DEL

When working with Gryphon™ M-Series readers, the keyboard setup functioning is signaled by the LEDs on the OM-Gryphon™ cradle. Each key stroke corresponds to a double blinking of the green LED.

By pressing the Backspace key the red LED on the OM-Gryphon™ cradle blinks, while the green LED stays on.

CAUTION

Do not place the reader onto the OM-GRYPHON™ cradle during this procedure. Otherwise, the battery charging will occur modifying the LEDs functioning.

Once the procedure has been completed, the green LED turns off.

49

PEN EMULATION

Gryphon™ D Series Readers

+

Gryphon™ M/OM-Gryphon™ configurations only

~

~

~

~

~

O

PERATING

M

ODE

M

INIMUM

O

UTPUT

P

ULSE

C

ONVERSION TO

C

ODE

39

O

VERFLOW

O

UTPUT

L

EVEL

~

~

~

~

~

~

I

DLE

L

EVEL

~

~

I

NTER

-B

LOCK

D

ELAY

~

1.

Read the Enter Configuration code ONCE, available at the top of each page.

2.

Read configuration codes from the desired groups.

‹

= Default value

3.

Read the Exit and Save Configuration code ONCE, available at the top of each page.

50

PEN EMULATION

The operating mode parameters are complete commands and do not require reading the

Enter and Exit configuration codes.

O

PERATING

M

ODE

‹ interpret mode

Ì$]8Î

Interprets commands without sending them to the decoder. transparent mode

Ì$[4Î

Sends commands to the decoder without interpreting them.

51

Enter Configuration

Ì$+;Î

200

μs

ÌDG0\Î

PEN EMULATION

M

INIMUM

O

UTPUT

P

ULSE

high resolution code emulation

Exit and Save Configuration

Ì$-?Î

400

μs

ÌDG1_Î

‹ 600

μs

ÌDG2bÎ

800

μs

ÌDG3eÎ

1 ms

ÌDG4hÎ

1.2 ms

ÌDG5kÎ

low resolution code emulation

See par. 5.2.1 for details.

52

Enter Configuration

Ì$+;Î

PEN EMULATION

Exit and Save Configuration

Ì$-?Î

C

ONVERSION TO

C

ODE

39

AND

C

ODE

128

► disable conversion to Code 39

ÌDA0PÎ

Transmits codes in their original format.

†

enable conversion to Code 39

ÌDA1SÎ

Converts codes read into Code 39 format. enable conversion to Code 128

ÌDA2VÎ

Converts codes read into Code 128 format.

► = default value for Gryphon™ D Series Readers

† = default value for Gryphon™ M Series Readers

See par. 5.2.2 for details.

53

54

Enter Configuration

Ì$+;Î

PEN EMULATION

O

VERFLOW

narrow

ÌDH0^Î

‹ medium

ÌDH1aÎ

wide

ÌDH2dÎ

See par. 5.2.3 for details.

O

UTPUT

L

EVEL

‹ normal

(white = logic level 0)

ÌDD0VÎ

inverted

(white = logic level 1)

ÌDD1YÎ

See par. 5.2.4 for details.

Exit and Save Configuration

Ì$-?Î

Enter Configuration

Ì$+;Î

PEN EMULATION

I

DLE

L

EVEL

‹ normal

(black level)

ÌDE0XÎ

inverted

(white level)

ÌDE1[Î

See par. 5.2.4 for details.

I

NTER

-B

LOCK

D

ELAY

delay between character blocks transmitted to Host

ÌCK3Î

Read 2 numbers from the table where:

00 = DELAY disabled

01-99 = DELAY from .1 to 9.9 seconds

‹

delay disabled

See par. 5.2.5 for details.

Exit and Save Configuration

Ì$-?Î

55

IBM 46XX

For IBM 46xx Models Only

~

IBM D

ATA

F

ORMATTING

~

1.

Read the Enter Configuration code ONCE, available at the top of each page.

2.

Read configuration codes from the desired groups.

‹

= Default value

3.

Read the Exit and Save Configuration code ONCE, available at the top of each page.

56

Enter Configuration

Ì$+;Î

IBM 46xx

IBM D

ATA

F

ORMATTING

conversion to Code 39

ÌGD0YÎ

‹ IBM Standard

ÌGD1\Î

mixed IBM Standard + Code 39

ÌGD2_Î

See par. 5.3.1 for details.

Exit and Save Configuration

Ì$-?Î

57

DATA FORMAT

NOT FOR PEN INTERFACES

~

~

~

~

~

~

~

C

ODE

I

DENTIFIER

C

USTOM

C

ODE

I

DENTIFIER

H

EADER

T

ERMINATOR

F

IELD

A

DJUSTMENT

F

IELD

A

DJ

.

C

HARACTER

C

ODE

L

ENGTH

T

X

~

~

~

~

~

~

~

~

~

C

HARACTER

R

EPLACEMENT

A

DDRESS

S

TAMPING

~

~

~ ~

A

DDRESS

D

ELIMITER

1.

Read the Enter Configuration code ONCE, available at the top of each page.

2.

Read configuration codes from the desired groups.

‹

= Read the code and follow the procedure given

= Default value

3.

Read the Exit and Save Configuration code ONCE, available at the top of each page.

58

59

DATA FORMAT

CODE

2/5 interleaved

2/5 industrial

2/5 normal 5 bars

2/5 matrix 3 bars

EAN 8

EAN 13

UPC A

UPC E

EAN 8 with 2 ADD ON

EAN 8 with 5 ADD ON

EAN 13 with 2 ADD ON

EAN 13 with 5 ADD ON

UPC A with 2 ADD ON

UPC A with 5 ADD ON

UPC E with 2 ADD ON

UPC E with 5 ADD ON

Code 39

Code 39 Full ASCII

CODABAR

ABC CODABAR

Code 128

EAN 128

ISBT 128

Code 93

CIP/39

CIP/HR

Code 32

MSI

Plessey Standard

Plessey Anker

Telepen

Delta IBM

Code 11

Code 16K

Code 49

RSS Expanded Linear and Stacked

RSS Limited

RSS 14 Linear and Stacked

CODE IDENTIFIER TABLE

AIM STANDARD DATALOGIC STANDARD Custom

] G y

] X y

] X y

] X y

] M y

] P 0

] P 1

] X 0

] X 0

] H y

] K 0

] T y

] e 0

] e 0

] e 0

] X y

] A y

] A y

] F y

] X y

] C y

] C y

] C4

] E 5

] E 6

] E 1

] E 2

] X y

] X y

] X y

] I y N

] X y P

] S y

] X y

O

Q

] E 4

] E 0

] X y

] X y

A

B

C

D

J

K

L

M

F

G

H

S

T k f

I

V

W

R o d c b

U

Y e

X

Z a p q t v u

60

DATA FORMAT

• AIM standard identifiers are not defined for all codes: the X identifier is assigned to the code for which the standard is not defined. The y value depends on the selected options

(check digit tested or not, check digit tx or not, etc.).

• When customizing the Datalogic Standard code identifiers, 1 or 2 identifier characters can be defined for each code type. If only 1 identifier character is required, the second character must be selected as FF (disabled).

• The code identifier can be singly disabled for any code by simply selecting FF as the first identifier character.

• Write in the Custom character identifiers in the table above for your records.

61

Enter Configuration

Ì$+;Î

DATA FORMAT

C

ODE

I

DENTIFIER

‹ disable

ÌEB0SÎ

Exit and Save Configuration

Ì$-?Î

Datalogic standard

ÌEB1VÎ

AIM standard

ÌEB2YÎ

custom

ÌEB3\Î

62

Enter Configuration

Ì$+;Î

DATA FORMAT

Exit and Save Configuration

Ì$-?Î

C

USTOM

C

ODE

I

DENTIFIER

define custom code identifier(s)

ÌEH/Î

c Read the above code.

(Code Identifiers default to Datalogic standard, see table on previous page). d

Select the code type from the code table in Appendix B for the identifier you want to

change. e You can define 1 or 2 identifier characters for each code type. If only 1 identifier character is required, the second character must be selected as FF (disabled). Read the hexadecimal value corresponding to the character(s) you want to define as identifiers for the code selected in step d: valid characters are in the range 00-FD.

Example: To define Code 39 Code Identifier = @

Read define custom code identifier(s) Code 39

ÌEH/Î

+

ÌVWÎ

+

40

+

FF

63

Enter Configuration

Ì$+;Î

DATA FORMAT

Exit and Save Configuration

Ì$-?Î

H

EADER

no header

ÌEA00*Î

one character header

ÌEA01.Î

two character header

ÌEA022Î

three character header

ÌEA036Î

four character header

ÌEA04:Î

five character header

ÌEA05>Î

six character header

ÌEA06BÎ

seven character header

ÌEA07FÎ

eight character header

ÌEA08JÎ

After selecting one of the desired Header codes, read the character(s) from the HEX table. Valid characters are in the range 00-FE.

Example:

four character header

+ 41 + 42 + 43 + 44 = Header ABCD

64

Enter Configuration

Ì$+;Î

DATA FORMAT

Exit and Save Configuration

Ì$-?Î

For more details see par. 5.4.1 and par. 5.4.2.

T

ERMINATOR

no terminator

ÌEA10-Î

two character terminator

ÌEA125Î

four character terminator one character terminator

ÌEA111Î

three character terminator

ÌEA139Î

six character terminator

ÌEA16EÎ

ÌEA14=Î

five character terminator

ÌEA15AÎ

seven character terminator

ÌEA17IÎ

eight character terminator

ÌEA18MÎ

After selecting one of the desired Header codes, read the character(s) from the HEX table. Valid characters are in the range 00-FE.

Example:

65

Enter Configuration

Ì$+;Î

DATA FORMAT

two character terminator

+ 0D + 0A = Terminator CR LF

For more details see par. 5.4.1. and par. 5.4.2.

Exit and Save Configuration

Ì$-?Î

66

Enter Configuration

Ì$+;Î

DATA FORMAT

Exit and Save Configuration

Ì$-?Î

F

IELD

A

DJUSTMENT

‹ disable field adjustment

ÌEF0[Î

Field adjustment allows a number of characters n, to be added to or subtracted from the barcode read. The adjustment can be different for each enabled code type. To define the field adjustment: c

Read the enable field adjustment code: enable field adjustment

ÌEF+Î

d

Select the code type from the Code Identifier Table in Appendix B.

e

Select the type of adjustment to perform: right addition

Ì01Î

right deletion

Ì23Î

left addition

Ì12Î

left deletion

Ì34Î

f

Read a number in the range 01 - 32 from the Hex/Numeric Table to define how many characters to add or delete:

Conditions:

• Adjustment is only performed on the barcode data, the Code Identifier and Code Length

Transmission fields are not modified by the field adjustment parameter.

• If the field setting would subtract more characters than exist in the barcode, the subtraction will take place only to code length 0.

• You can set up to a maximum of 10 different field adjustments on the same barcode family or on different barcode families.

Example: To add 4 characters to the right of Standard Code 39 Codes: enable field adjustment Code 39 right addition

Read

ÌEF+Î

+

ÌVWÎ

+

Ì01Î

+

04

67

Enter Configuration

Ì$+;Î

DATA FORMAT

Exit and Save Configuration

Ì$-?Î

68

Enter Configuration

Ì$+;Î

DATA FORMAT

Exit and Save Configuration

Ì$-?Î

F

IELD

A

DJUSTMENT

C

HARACTER

c

Read the field adjustment character code: field adjustment character

ÌEG-Î

d

Read the hexadecimal value corresponding to the character you want to use for field adjustment. Valid characters are in the range 00-FE.

Example:

To define the field adjustment character = A: field adjustment character

Read + 41

C

ODE

L

ENGTH

T

X

‹ code length not transmitted

ÌEE0YÎ

code length transmitted in variable-digit format

ÌEE1\Î

code length transmitted in fixed 4-digit format

ÌEE2_Î

The code length is transmitted in the message after the Headers and Code Identifier characters.

The code length is calculated after performing any field adjustment operations.

69

Enter Configuration

Ì$+;Î

DATA FORMAT

Exit and Save Configuration

Ì$-?Î

C

HARACTER

R

EPLACEMENT

‹ disable character replacement

ÌEO0mÎ

This parameter allows up to three characters to be replaced from the barcode read. These substitutions are stored in memory. To define each character replacement: c

Read one of the following character replacement codes: first character replacement

ÌEO1pÎ

second character replacement

ÌEO2sÎ

third character replacement

ÌEO3vÎ

d

From the Code Identifier Table in Appendix B, read the Code Identifier for the desired

code family.

0 = character replacement will be effective for all code families. e

From the Hex/Numeric Table read two characters corresponding to the Hex value (00-FE) which identifies the character to be replaced. f

From the Hex/Numeric Table read two characters corresponding to the Hex value (00-FE) which identifies the new character to replace.

70

Enter Configuration Exit and Save Configuration

Ì$+;Î

DATA FORMAT

Ì$-?Î

FF = the character to be replaced will be substituted with no character, that is, it will be removed from the code.

71

Enter Configuration

Ì$+;Î

DATA FORMAT

Exit and Save Configuration

Ì$-?Î

Example:

The following strings define:

1.

First Character Replacement: substitution in Code 39 barcodes of all occurrences of the 0 character with the 1 character.

2.

Second Character Replacement: substitution in Code 39 barcodes of all occurrences of the A character with the B character. first character replacement Code 39

ASCII characters corresponding to the HEX value for character 0

ASCII characters corresponding to the HEX value for character 1

30

+

31

For Code 39 codes containing the string "0123", the contents transmitted will be "1123". second character replacement

Code 39

ASCII characters corresponding to the HEX value for character A

ASCII characters corresponding to the HEX value for character B

41

+

42

For Code 39 codes containing the string "ABCD", the contents transmitted will be "BBCD".

72

Enter Configuration

Ì$+;Î

DATA FORMAT

A

DDRESS

S

TAMPING

(M S

ERIES

O

NLY

)

Exit and Save Configuration

Ì$-?Î

‹ disable reader address stamping

ÌRU0ÊÎ

enable reader address stamping

ÌRU1"Î

See par. 5.4.3 for details.

A

DDRESS

D

ELIMITER

(M S

ERIES

O

NLY

)

‹ disable reader address delimiter

ÌRV0!Î

enable reader address delimiter and select characters

ÌRV1$Î

Read 2 HEX characters in the range 00-FE.

See par. 5.4.4 for details.

73

~

~

POWER SAVE

S

CAN

R

ATE

S

LEEP

S

TATE

/USB S

USPEND

~

~

~ ~

E

NTER

S

LEEP

T

IMEOUT

~ ~

S

TANDBY

1.

Read the Enter Configuration code ONCE, available at the top of each page.

2.

Read configuration codes from the desired groups.

‹

= Read the code and follow the procedure given

= Default value

3.

Read the Exit and Save Configuration code ONCE, available at the top of each page.

74

Enter Configuration

Ì$+;Î

POWER SAVE

Exit and Save Configuration

Ì$-?Î

S

CAN

R

ATE

67 scans per sec.

ÌBT0tÎ

135 scans per sec.

ÌBT1wÎ

‹

270 scans per sec.

ÌBT2zÎ

A lower scan rate reduces power consumption but can lengthen reading response time.

S

LEEP

S

TATE

/USB S

USPEND

‹ disable

ÌBQ0nÎ

enable

ÌBQ1qÎ

See par. 5.5.1 for details.

For M-Series readers, sleep state is entered immediately after reading a code and is not configurable.

75

Enter Configuration

Ì$+;Î

POWER SAVE

Exit and Save Configuration

Ì$-?Î

E

NTER

S

LEEP

T

IMEOUT

enter sleep timeout

ÌBR@Î

Read 2 numbers in the range 00-99:

00 = Enter Sleep state immediately

01-99 = corresponds to a max. 9.9 sec. delay before entering the

Sleep state.

‹ enter sleep timeout = 0.6 sec.

See par. 5.5.2 for details.

S

TANDBY

‹ disable

ÌBM1iÎ

optimize for reading speed enable

ÌBM0fÎ

optimize for low power consumption

See par. 5.5.3 for details.

For M-Series readers, standby is always enabled and is not configurable.

76

Enter Configuration

Ì$+;Î

POWER SAVE

Exit and Save Configuration

Ì$-?Î

READING PARAMETERS

~

O

PERATING

M

ODE

~

~

H

AND

-H

ELD

O

PERATION

~

~

~

~

~

~

~

~

S

TAND

O

PERATION

H

ARDWARE

T

RIGGER

M

ODE

T

RIGGER

-

OFF

T

IMEOUT

F

LASH

M

ODE

R

EADS PER

C

YCLE

S

AFETY

T

IME

B

EEPER

I

NTENSITY

~

~

~

~

~

~

~

~

~

~

~

B

EEPER

T

ONE

B

EEPER

T

YPE

B

EEPER

L

ENGTH

PDF D

ECODING

R

ECOGNITION

I

NTENSITY

~

~

~

~

~

G

OOD

R

EAD

S

POT

D

URATION

~

1.

Read the Enter Configuration code ONCE, available at the top of each page.

2.

Read configuration codes from the desired groups.

‹

= Read the code and follow the procedure given

= Default value

3.

Read the Exit and Save Configuration code ONCE, available at the top of each page.

77

Enter Configuration

Ì$+;Î

POWER SAVE

Exit and Save Configuration

Ì$-?Î

78

Enter Configuration

Ì$+;Î

READING PARAMETERS

Exit and Save Configuration

Ì$-?Î

O

PERATING

M

ODE

You can pre-configure both Hand-Held and Stand operating modes, and with the codes below,

you can switch between them. See par. 5.6.1 for details. Stand operation is not advised for M-

Series readers since it constantly consumes battery power.

‹

hand-held operation

ÌBP0lÎ

automatic

ÌBP2rÎ

stand operation

ÌBP1oÎ

H

AND

-H

ELD

O

PERATION

‹ hardware trigger

ÌBK1eÎ

software trigger

ÌBK0bÎ

* always on

ÌBK3kÎ

* not available for M-Series readers automatic hardware trigger ready

ÌBK2hÎ

ÌBK4nÎ

79

Enter Configuration

Ì$+;Î

READING PARAMETERS

S

TAND

O

PERATION

hardware trigger

ÌBU3ÃÎ

* always on

ÌBU2|Î

* not available for M-Series readers

‹ trigger active level

ÌBA0NÎ

H

ARDWARE

T

RIGGER

M

ODE

See par. 5.6.2 for details

T

RIGGER

-

OFF

T

IMEOUT

trigger-off timeout

ÌBD$Î

Exit and Save Configuration

Ì$-?Î

software trigger

ÌBU1yÎ

‹ automatic

ÌBU0vÎ

trigger active pulse

ÌBA1QÎ

Read 2 numbers in the range 00-99:

00 = disables the trigger-off timeout

01-99 = corresponds to a max. 99-sec. delay after the trigger press to allow the reader to turn off automatically.

‹ trigger-off timeout disabled

See par. 5.6.3 for details.

80

Enter Configuration

Ì$+;Î

READING PARAMETERS

F

LASH

M

ODE

"FLASH" ON duration

ÌBB0PÎ

"FLASH" OFF duration

ÌBB1SÎ

Read 2 numbers in the range 01-99:

01 to 99 = from .1 to 9.9 seconds.

‹ Flash-ON = 1 sec. Flash-OFF = 0.6 sec

R

EADS PER

C

YCLE

‹ one read per cycle

ÌBC0RÎ

multiple reads per cycle

ÌBC1UÎ

See par. 5.6.4 for details.

Exit and Save Configuration

Ì$-?Î

81

Enter Configuration

Ì$+;Î

READING PARAMETERS

S

AFETY

T

IME

Exit and Save Configuration

Ì$-?Î

safety time

ÌBE&Î

Limits same code consecutive reading.

Read 2 numbers in the range 00-99:

removed (no decoding) for at least 400 ms.

01-99 = timeout from .1 to 9.9 seconds before a consecutive read on same code.

‹ safety time = 0.5 sec

See par. 5.6.5 for details.

B

EEPER

I

NTENSITY

* very low intensity

ÌBG0ZÎ

low intensity

ÌBG1]Î

medium intensity

ÌBG2`Î

‹ high intensity

ÌBG3cÎ

* This sets the beeper OFF for data entry, while for all other beeper signals it has the meaning “very low intensity”. The Beeper Intensity parameter is effective for all operating

conditions described in par. 6.5.

82

Enter Configuration

Ì$+;Î

READING PARAMETERS

B

EEPER

T

ONE

tone 1

ÌBH0\Î

tone 3

ÌBH2bÎ

B

EEPER

T

YPE

‹ monotone

ÌBJ0`Î

B

EEPER

L

ENGTH

long

ÌBI0^Î

Exit and Save Configuration

Ì$-?Î

‹ tone 2

ÌBH1_Î

tone 4

ÌBH3eÎ

bitonal

ÌBJ1cÎ

‹ short

ÌBI1aÎ

83

Enter Configuration

Ì$+;Î

READING PARAMETERS

Exit and Save Configuration

Ì$-?Î

PDF D

ECODING

R

ECOGNITION

I

NTENSITY

‹ low

ÌBW0zÎ

high

ÌBW1}Î

G

OOD

R

EAD

S

POT

D

URATION

disable

ÌBV0xÎ

short

ÌBV1{Î

‹ medium

ÌBV2~Î

long

ÌBV3ÅÎ

84

DECODING PARAMETERS

~

I

NK

S

PREAD

~

~

O

VERFLOW

C

ONTROL

~

~

~

~

I

NTERDIGIT

C

ONTROL

D

ECODING

S

AFETY

P

UZZLE

S

OLVER

~

~

~

CAUTION

Before changing these parameter values read the descriptions in par.

5.7

.

1.

Read the Enter Configuration code ONCE, available at the top of each page.

2.

Read configuration codes from the desired groups.

‹ = Default value

3.

Read the Exit and Save Configuration code ONCE, available at the top of each page.

85

Enter Configuration

Ì$+;Î

DECODING PARAMETERS

I

NK

S

PREAD

disable

ÌAX0{Î

‹ enable

ÌAX1~Î

See par. 5.7.1 for details.

O

VERFLOW

C

ONTROL

disable

ÌAW1|Î

‹ enable

ÌAW0yÎ

See par. 5.7.2 for details.

Exit and Save Configuration

Ì$-?Î

86

Enter Configuration

Ì$+;Î

DECODING PARAMETERS

I

NTERDIGIT

C

ONTROL

disable

ÌAV0wÎ

‹ enable

ÌAV1zÎ

See par. 5.7.3 for details.

D

ECODING

S

AFETY

‹ one read

ÌED0WÎ

(decoding safety disabled) three reads

ÌED2]Î

Required number of good reads before accepting code.

Exit and Save Configuration

Ì$-?Î

two reads

ÌED1ZÎ

four reads

ÌED3`Î

87

Enter Configuration

Ì$+;Î

DECODING PARAMETERS

Exit and Save Configuration

Ì$-?Î

P

UZZLE

S

OLVER

‹ disable

ÌAU0uÎ

enable

ÌAU1xÎ

In the case of damaged or poorly printed codes, this parameter allows reading multiple parts of the single code to reconstruct it.

To read codes using this technology, simply move the illuminated bar over the code so that each line of the code is scanned. During this process a series of brief “ticks” indicates that reading is proceeding correctly.

Conditions:

This parameter is only valid for the following codes:

EAN 8 without Add-on

EAN 13 without Add-on

UPC A without Add-on

Code 128 Code 39

For Code 39, Check digit control without transmission is forced.

• PuzzleSolver™ is disabled when code ISBT 128 is enabled.

88

CODE SELECTION

~

EAN/UPC F

AMILY

~

~

2/5 F

AMILY

~

~

~

~

~

~

~

~

~

~

C

ODE

39 F

AMILY

C

ODE

128 F

AMILY

C

ODABAR

F

AMILY

C

ODE

93

MSI

P

LESSEY

T

ELEPEN

D

ELTA

IBM

C

ODE

11

~

~

~

~

~

~

~

~

~

~

~

~

C

ODE

16K

C

ODE

49

PDF417

PDF R

EADERS

O

NLY

~

~

~

~ ~

RSS C

ODES

1.

Read the Enter Configuration code ONCE, available at the top of each page.

2.

Read configuration codes from the desired groups.

‹

= Read the code and follow the procedure given

= Default value

3.

Read the Exit and Save Configuration code ONCE, available at the top of each page.

89

90

Enter Configuration

Ì$+;Î

CODE SELECTION

Exit and Save Configuration

Ì$-?Î

DISABLE ALL CODE FAMILIES

ÌAZ0ÃÎ

NOTE

The reader allows up to 5 code selections. This does not limit the number of CODES enabled to 5, as it depends on the code family.

SINGLE

SELECTIONS =

Example

5 code selections: 1. 2/5 Interleaved

2. 2/5 Industrial

3. Code 128 + EAN 128

4. Code 39 Full ASCII + Code 32

5. UPC A/UPC E

In this section all SINGLE code selections are underlined and in bold.

91

Enter Configuration

Ì$+;Î

CODE SELECTION

Exit and Save Configuration

Ì$-?Î

EAN/UPC F

AMILY

disable the family

ÌAA0MÎ

c Read the desired family code

Note:

Since the EAN/UPC without ADD ON code selection is enabled by default, to correctly enable another selection, first disable the family.

EAN 8/EAN 13/UPC A/UPC E with and without ADD ON

ÌAA8eÎ

WITHOUT ADD ON

‹ EAN 8/EAN 13/UPC A/UPC E

ÌAA1PÎ

EAN 8/EAN 13

ÌAA3VÎ

UPC A/UPC E

ÌAA4YÎ

92

Enter Configuration

Ì$+;Î

CODE SELECTION

WITH ADD ON 2 AND 5

Exit and Save Configuration

Ì$-?Î

EAN 8/EAN 13/UPC A/UPC E

ÌAA5\Î

EAN 8/EAN 13

ÌAA6_Î

UPC A/UPC E

ÌAA7bÎ

WITH ADD ON 2 ONLY

EAN 8/EAN 13

ÌAAK7Î

WITH ADD ON 5 ONLY

UPC A/UPC E

ÌAAM=Î

EAN 8/EAN 13

ÌAAL:Î

UPC A/UPC E

ÌAAN@Î

93

Enter Configuration

Ì$+;Î

CODE SELECTION

Exit and Save Configuration

Ì$-?Î

EAN/UPC CHECK DIGIT TX SELECTIONS

For each code type in this family you can choose to transmit the check digit or not

CHECK DIGIT TRANSMISSION

‹ EAN 8

NO CHECK DIGIT

TRANSMISSION

ÌAAG1oÎ

EAN 8

ÌAAG0kÎ

‹ EAN 13

ÌAAH1rÎ

EAN 13

ÌAAH0nÎ

‹ UPC A

ÌAAI1uÎ

UPC A

ÌAAI0qÎ

‹ UPC E

ÌAAJ1xÎ

UPC E

ÌAAJ0tÎ

94

Enter Configuration

Ì$+;Î

CODE SELECTION

CONVERSION OPTIONS

UPC E to UPC A conversion

ÌAAAÄÎ

UPC E to EAN 13 conversion

ÌAABÇÎ

UPC A to EAN 13 conversion

ÌAACÊÎ

EAN 8 to EAN 13 conversion

ÌAAD"Î

Enable only ISBN conversion

ÌAP1nÎ

Enable only ISSN conversion

ÌAP2qÎ

Enable both ISBN and ISSN conversion

ÌAP3tÎ

Disable both ISBN and ISSN conversion

ÌAP0kÎ

Exit and Save Configuration

Ì$-?Î

95

Enter Configuration

Ì$+;Î

CODE SELECTION

2/5 F

AMILY

Exit and Save Configuration

Ì$-?Î

c

Read the desired family code

‹ Interleaved 2/5

ÌAC1TÎ

disable the family

ÌAC0QÎ

d

Read a check digit selection

CHECK DIGIT TABLE

no check digit control

Ì12Î

Normal 2/5 (5 Bars)

ÌAC2WÎ

Industrial 2/5 (IATA)

ÌAC3ZÎ

Matrix 2/5 (3 Bars)

ÌAC4]Î

The pharmaceutical code below is part of the 2/5 family but has no check digit or code length selections.

Code CIP/HR

ÌAC5`Î

French pharmaceutical code

‹ check digit control and transmission

Ì23Î

check digit control without transmission

Ì34Î

e

Read 4 numbers for the code length where:

First 2 digits = minimum code length.

Second 2 digits = maximum code length.

The maximum code length is 99 characters.

The minimum code length must always be less than or equal to the maximum.

Examples:

0199 = variable from 1 to 99 digits in the code.

1010 = 10 digit code length only.

96

Enter Configuration

Ì$+;Î

CODE SELECTION

C

ODE

39 F

AMILY

c Read the desired family code disables the family

ÌAB0OÎ

Exit and Save Configuration

Ì$-?Î

d

Read a check digit selection

‹ Standard Code 39

ÌAB1RÎ

CHECK DIGIT TABLE

‹ no check digit control

Ì12Î

Full ASCII Code 39

ÌAB2UÎ

check digit control and transmission

Ì23Î

check digit control without transmission

Ì34Î

97

Enter Configuration

Ì$+;Î

CODE SELECTION

Exit and Save Configuration

Ì$-?Î

The pharmaceutical codes below are part of the Code 39 family but have no check digit selections.

Code CIP39

ÌAB3XÎ

French pharmaceutical code

Code 32

ÌAB4[Î

Italian pharmaceutical code

CODE LENGTH (optional)

The code length selection is valid for the entire Code 39 family

Read the code + 4 numbers for the code length where:

First 2 digits = minimum code length.

Second 2 digits = maximum code length. set code length

ÌAB*=Î

The maximum code length is 99 characters.

The minimum code length must always be less than or equal to the maximum.

Examples: 0199 = variable from 1 to 99 digits in the code. 1010 = 10 digit code length only.

98

Enter Configuration

Ì$+;Î

CODE SELECTION

Exit and Save Configuration

Ì$-?Î

C

ODE

128 F

AMILY

disables the family

ÌAI0]Î

c

Read the desired family code

‹ Code 128

ÌAI11=Î

control without transmission of check digit

EAN 128

ÌAI21@Î

control without transmission of check digit

Transmit GS Before Code

Code EAN 128 uses the ASCII <GS> character to separate a variable length code field from the next code field. This character can also be transmitted before the code.

‹ disable

ÌEQ0qÎ

enable

ÌEQ1tÎ

If the <GS> character has been modified in the Character Replacement parameter, the new character is affected by this command.

99

Enter Configuration

Ì$+;Î

CODE SELECTION

Exit and Save Configuration

Ì$-?Î

ISBT 128

ÌAI31CÎ

Enabling ISBT 128 automatically disables Puzzle Solver™.

CODE LENGTH (optional)

The code length selection is valid for the entire Code 128 family.

Read the code + 4 numbers for the code length where: set code length

First 2 digits = minimum code length

ÌAILJÎ

Second 2 digits = maximum code length

The maximum code length is 99 characters. The minimum code length must always be less than or equal to the maximum.

Examples: 0199 = variable from 1 to 99 digits in the code. 1010= 10 digit code length only.

The length is calculated on the output string.

C

ODE

93

‹

disables the code

ÌAK0aÎ

Code 93

ÌAK1dÎ

control without transmission of check digit

100

Enter Configuration

Ì$+;Î

CODE SELECTION

Exit and Save Configuration

Ì$-?Î

C

ODABAR

F

AMILY

‹ disable the family

ÌAD0SÎ

c

Read the desired equality control code d

Read a start/stop transmission selection

START/STOP CHARACTER

TRANSMISSION

Standard Codabar

ÌAD113Î

no start/stop character equality control no transmission

Ì12Î

Standard Codabar

ÌAD127Î

start/stop character equality control transmission

Ì23Î

The Codabar ABC code below uses a fixed start/stop character transmission selection.

Codabar ABC

ÌAD212)Î

no start/stop character equality control but transmission.

101

Enter Configuration

Ì$+;Î

CODE SELECTION

Codabar ABC Forced Concatenation

enable Codabar ABC with forced concatenation

ÌAD2321Î

non start/stop character equality control but transmission

CODE LENGTH (optional)

The code length selection is valid for the entire Codabar family

Exit and Save Configuration

Ì$-?Î

Read the code + 4 numbers for the code length where:

First 2 digits = minimum code length.

Second 2 digits = maximum code length. set code length

ÌAD*AÎ

The maximum code length is 99 characters.

The minimum code length must always be less than or equal to the maximum.

Examples: 0199 = variable from 1 to 99 digits in the code. 1010 = 10 digit code length only.

START/STOP CHARACTER CASE IN TRANSMISSION

The start/stop character case selections below are valid for the entire Codabar family: transmit start/stop characters in lower case

ÌADA0_Î

transmit start/stop characters in upper case

ÌADA1cÎ

102

Enter Configuration

Ì$+;Î

CODE SELECTION

Exit and Save Configuration

Ì$-?Î

MSI

‹ disable the family

ÌAE0UÎ

Enable the code by selecting one of the check digit selections. no check digit control

ÌAE1XÎ

MOD10 check digit control no check digit transmission

ÌAE2[Î

MOD10 check digit control check digit transmission

ÌAE3^Î

MOD11 - MOD10 check digit control no check digit transmission

ÌAE4aÎ

MOD11 - MOD10 check digit control check digit transmission

ÌAE5dÎ

MOD10 - MOD10 check digit control no check digit transmission

ÌAE6gÎ

MOD10 - MOD10 check digit control check digit transmission

ÌAE7jÎ

103

Enter Configuration

Ì$+;Î

CODE SELECTION

P

LESSEY

‹ disable the family

ÌAF0WÎ

Enable the code by selecting one of the check digit selections.

Standard Plessey no check digit control

ÌAF117Î

check digit control check digit not transmitted

ÌAF13?Î

Anker Plessey check digit control check digit transmitted

ÌAF22>Î

Exit and Save Configuration

Ì$-?Î

check digit control check digit transmitted

ÌAF12;Î

no check digit control

ÌAF21:Î

check digit control check digit not transmitted

ÌAF23BÎ

104

Enter Configuration

Ì$+;Î

CODE SELECTION

T

ELEPEN

‹ disable the family

ÌAL0cÎ

Enable the code by selecting one of the check digit selections.

Numeric Telepen no check digit control

ÌAL11CÎ

check digit control check digit not transmitted

ÌAL13KÎ

Alphanumeric Telepen check digit control check digit transmitted

ÌAL22JÎ

Exit and Save Configuration

Ì$-?Î

check digit control check digit transmitted

ÌAL12GÎ

no check digit control

ÌAL21FÎ

check digit control check digit not transmitted

ÌAL23NÎ

105

Enter Configuration

Ì$+;Î

CODE SELECTION

D

ELTA

IBM

‹ disable the family

ÌAH0[Î

Enable the code by selecting one of the check digit selections. no check digit control

ÌAH1^Î

Type 1 check digit control

ÌAH2aÎ

Type 2 check digit control

ÌAH3dÎ

Exit and Save Configuration

Ì$-?Î

106

Enter Configuration

Ì$+;Î

CODE SELECTION

Exit and Save Configuration

Ì$-?Î

C

ODE

11

‹ disable the family

ÌAG0YÎ

Enable the code by selecting one of the check digit selections.

Type C check digit control check digit transmitted

ÌAG21<Î

Type K check digit control check digit transmitted

ÌAG31?Î

Type C and Type K check digit control check digits transmitted

ÌAG41BÎ

no check digit control

ÌAG1\Î

Type C check digit control check digit not transmitted

ÌAG22@Î

Type K check digit control check digit not transmitted

ÌAG32CÎ

Type C and Type K check digit control check digits not transmitted

ÌAG42FÎ

107

Enter Configuration

Ì$+;Î

CODE SELECTION

Exit and Save Configuration

Ì$-?Î

C

ODE

16K

‹ disable the code

ÌAJ0_Î

Code 16K

ÌAJ1bÎ

To read stacked codes, simply move the reader over the code so that each line of the code is scanned. During this process a series of brief “ticks” indicates that reading is proceeding correctly.

C

ODE

49

‹ disable the code

ÌAM0eÎ

Code 49

ÌAM1hÎ

To read stacked codes, simply move the reader over the code so that each line of the code is scanned. During this process a series of brief “ticks” indicates that reading is proceeding correctly.

108

Enter Configuration

Ì$+;Î

CODE SELECTION

Exit and Save Configuration

Ì$-?Î

PDF417

Only PDF417 readers

disable the code

ÌAR0oÎ

‹ PDF417

ÌAR1rÎ

To read stacked codes, simply move the reader over the code so that each line of the code is scanned. During this process a series of brief “ticks” indicates that reading is proceeding correctly.

109

Enter Configuration

Ì$+;Î

CODE SELECTION

Exit and Save Configuration

Ì$-?Î

RSS C

ODES

ÌAQ0mÎ

DISABLE CODE

disable RSS Expanded Linear and Stacked

ÌAQ10IÎ

‹ disable the family

ENABLE CODE

enable RSS Expanded Linear and Stacked

ÌAQ11MÎ

disable RSS Limited

ÌAQ20LÎ

enable RSS Limited

ÌAQ21PÎ

disable RSS 14 Linear and Stacked

ÌAQ30OÎ

enable RSS 14 Linear and Stacked

ÌAQ31SÎ

To read stacked codes, simply move the reader over the code so that each line of the code is scanned. During this process a series of brief “ticks” indicates that reading is proceeding correctly.

110

Enter Configuration

Ì$+;Î

CODE SELECTION

Exit and Save Configuration

Ì$-?Î

ADVANCED FORMATTING

NOT FOR PEN INTERFACES

~

~

C

ONCATENATION

A

DVANCED

F

ORMATTING

~

~

NOTE

Please follow the setup procedure carefully for these parameters.

The Advanced Formatting parameters may not be compatible with the

IBM USB POS/IBM 46xx interface selection.

NOTE

1.

Read the Enter Configuration code ONCE, available at the top of page .

2.

Read configuration codes precisely following the numbered procedure given.

‹

= Read the code and follow the procedure given

= Default value

3.

Read the Exit and Save Configuration code ONCE, available at the top of page.

111

Enter Configuration

Ì$+;Î

CODE SELECTION

Exit and Save Configuration

Ì$-?Î

112

Enter Configuration

Ì$+;Î

ADVANCED FORMATTING

Exit and Save Configuration

Ì$-?Î

C

ONCATENATION

‹ disable

ÌEI0aÎ

enable

ÌEI1dÎ

Permits the concatenation of two codes defined by code type and length. It is possible to set a timeout for the second code reading and to define code transmission if the timeout expires.

The order of transmission is CODE 1-CODE 2.

Define Concatenation

1

Code 1

code ID

ÌEK0eÎ

Read the code type from the Code Identifier Table beginning in Appendix B. code length

ÌEL0gÎ

Read a number in the range 01-99 from the Hex/Numeric Table.

113

ADVANCED FORMATTING

Exit and Save Configuration

Ì$-?Î

Code 2 2

code ID

ÌEK1hÎ

Read the code type from the Code Identifier Table beginning in Appendix B. code length

ÌEL1jÎ

Read a number in the range 01-99 from the Hex/Numeric Table.

Concatenation Result Code ID 3

use code 1 ID

ÌEN0kÎ

use code 2 ID

ÌEN1nÎ

Since you can concatenate codes from different families, you must select the Code ID character of the resulting code. The Code ID character will be sent in the output message only if it is enabled according to the Code Identifier selection (Datalogic, AIM, or Custom).

4 Concatenation Timeout

timeout

ÌEJ3Î

Read two numbers in the range 00 to 99

00= no timeout

01-99 = timeout from 1 to 99 seconds

114

Exit and Save Configuration

ADVANCED FORMATTING

Ì$-?Î

Define the timeout, which determines the valid waiting period between the two codes, in order to accept concatenation. If the timeout expires, the resulting action will be based on the following selection.

5 Transmission after Timeout

no code transmitted after timeout

ÌEM0iÎ

only code 1 transmitted

(if read) after timeout

ÌEM1lÎ

only code 2 transmitted

(if read) after timeout

ÌEM2oÎ

either code 1 or code 2 transmitted after timeout

ÌEM3rÎ

115

ADVANCED FORMATTING

A

DVANCED

F

ORMATTING

Advanced formatting has been designed to offer you complete flexibility in changing the format of barcode data before transmitting it to the host system. This formatting will be performed when the barcode data meets certain criteria which you will define in the following procedure.

Up to 4 advanced code management formats can be defined and saved in memory. For each format you must complete the entire configuration procedure:

Read the Enter

Configuration Command

Step 1

Begin Format Definition

1, 2, 3, or 4

Steps 2 - 4

Define Match Code Conditions

Step 5

Divide Code into Fields

Step 6

Define Code Fields

Steps 7 - 8

Add up to 2 Additional Fields

Step 9

Define Field Transmission

Step 10

Apply or Not

Standard Message Formatting

Step 11

End Format Definition

1, 2, 3, or 4

YES

Define another?

NO

Enable Advanced Formats

1, 2, 3, 4

Define No Match Result

Read the Exit and Save

Configuration Command

116

3

Enter Configuration

Ì$+;Î

ADVANCED FORMATTING

Begin Format Definition

begin Format 1 definition

ÌHA0TÎ

Exit and Save Configuration

Ì$-?Î

1

begin Format 2 definition

ÌHA1WÎ

begin Format 3 definition

ÌHA2ZÎ

begin Format 4 definition

ÌHA3]Î

Match Code Type 2

match code type

ÌHB&Î

Read the above code + the code type to match from the Code Identifier Table in Appendix B.

OR

any code type

ÌHB0VÎ

Match Code Length

match code length

ÌHC(Î

Read the above code + two numbers in the range 01 to 99 for the exact code length.

117

Enter Configuration

Ì$+;Î

ADVANCED FORMATTING

OR

any code length

ÌHC001Î

Exit and Save Configuration

Ì$-?Î

118

ADVANCED FORMATTING

Match with Predefined Characters

Exit and Save Configuration

Ì$-?Î

4

no match

ÌHD0HE00ÄÎ

OR match with 1 character

ÌHD1]Î

match with a 2-character string

ÌHD2`Î

match with a 3-character string

ÌHD3cÎ

match with a 4-character string

ÌHD4fÎ

After selecting the predefined match code, read the character(s) from the HEX table. Range of characters = 01-FE.

Example:

Match code with the 2-character predefined string = "@@".

Match with a 2-character string

Read + 40 + 40

AND

position of first character in predefined string

ÌHE,Î

119

ADVANCED FORMATTING

Read the above code + two numbers in the range 01 to 99 representing the character position in the code where the first character of the predefined string must be found.

Read 00 if the match string can be found in any character position.

5 Divide Code into Fields

divide code into fields

ÌHF.Î

Read one number in the range 1 to 5 to divide the code into fields.

Exit and Save Configuration

Ì$-?Î

6 Define Code Fields

define code fields

Each code field length can be set by either:

a) defining a field separator character to be found in the code itself. In this case you can choose to discard the code separator character or include it as the last character of the field.

OR BY

b) specifying a specific character length up to the maximum of 99 characters.

OR BY

c) selecting the last field as variable length (if any).

You must define the same number of fields as selected in step 5, including fields that will not be transmitted.

120

ADVANCED FORMATTING

Exit and Save Configuration

Ì$-?Î

DEFINE FIELD 1 BY:

EITHER

field separator

a)

ÌHG0`Î

Read the field separator character from the HEX table. Range of characters = 01-FE. discard separator include separator

Ì01Î Ì12Î

OR

field length

b)

ÌHG1cÎ

Read two numbers in the range 01 to 99 to define the field length.

c)

OR

this is the last field (variable length)

ÌHG2fÎ

AND

Field 1 Terminators

no field terminators

ÌHH0bÎ

1 field terminator 2 field terminators

ÌHH1eÎ

Read the field terminator character(s) from the HEX table.

ÌHH2hÎ

Valid range of characters for all readers = 01-FE.

For readers using Wedge interface, all values from 9C to FE send the Space character.

121

ADVANCED FORMATTING

Exit and Save Configuration

Ì$-?Î

DEFINE FIELD 2 BY:

EITHER

field separator

a)

ÌHG0`Î

Read the field separator character from the HEX table. Range of characters = 01-FE. discard separator include separator

Ì01Î Ì12Î

OR

field length

b)

ÌHG1cÎ

Read two numbers in the range 01 to 99 to define the field length.

c)

OR

this is the last field (variable length)

ÌHG2fÎ

AND

Field 2 Terminators

no field terminators

ÌHH0bÎ

1 field terminator 2 field terminators

ÌHH1eÎ

Read the field terminator character(s) from the HEX table.

ÌHH2hÎ

Valid range of characters for all readers = 01-FE.

For readers using Wedge interface, all values from 9C to FE send the Space character.

122

ADVANCED FORMATTING

Exit and Save Configuration

Ì$-?Î

DEFINE FIELD 3 BY:

EITHER

field separator

a)

ÌHG0`Î

Read the field separator character from the HEX table. Range of characters = 01-FE. discard separator include separator

Ì01Î Ì12Î

OR

field length

b)

ÌHG1cÎ

Read two numbers in the range 01 to 99 to define the field length.

c)

OR

this is the last field (variable length)

ÌHG2fÎ

AND

Field 3 Terminators

no field terminators

ÌHH0bÎ

1 field terminator 2 field terminators

ÌHH1eÎ

Read the field terminator character(s) from the HEX table.

ÌHH2hÎ

Valid range of characters for all readers = 01-FE.

For readers using Wedge interface, all values from 9C to FE send the Space character.

123

ADVANCED FORMATTING

Exit and Save Configuration

Ì$-?Î

DEFINE FIELD 4 BY:

EITHER

field separator

a)

ÌHG0`Î

Read the field separator character from the HEX table. Range of characters = 01-FE. discard separator include separator

Ì01Î Ì12Î

OR

field length

b)

ÌHG1cÎ

Read two numbers in the range 01 to 99 to define the field length.

c)

OR

this is the last field (variable length)

ÌHG2fÎ

AND

Field 4 Terminators

no field terminators

ÌHH0bÎ

1 field terminator 2 field terminators

ÌHH1eÎ

Read the field terminator character(s) from the HEX table.

ÌHH2hÎ

Valid range of characters for all readers = 01-FE.

For readers using Wedge interface, all values from 9C to FE send the Space character.

124

ADVANCED FORMATTING

Exit and Save Configuration

Ì$-?Î

DEFINE FIELD 5 BY:

EITHER

field separator

a)

ÌHG0`Î

Read the field separator character from the HEX table. Range of characters = 01-FE. discard separator include separator

Ì01Î Ì12Î

OR

field length

b)

ÌHG1cÎ

Read two numbers in the range 01 to 99 to define the field length.

c)

OR

this is the last field (variable length)

ÌHG2fÎ

AND

Field 5 Terminators

no field terminators

ÌHH0bÎ

1 field terminator 2 field terminators

ÌHH1eÎ

Read the field terminator character(s) from the HEX table.

ÌHH2hÎ

Valid range of characters for all readers = 01-FE.

For readers using Wedge interface, all values from 9C to FE send the Space character.

125

ADVANCED FORMATTING

Exit and Save Configuration

Ì$-?Î

First Additional Fixed Field 7

no fixed field

ÌHI0dÎ

1 character fixed field

ÌHI1gÎ

2 character fixed field

ÌHI2jÎ

3 character fixed field

4 character fixed field

ÌHI3mÎ

ÌHI4pÎ

5 character fixed field

ÌHI5sÎ

6 character fixed field

ÌHI6vÎ

After selecting one of the Additional Fixed Field codes, read the corresponding character(s) from the HEX table. Range of characters = 01-FE. For readers using Wedge interface, all values from 9C to FE send the Space character.

126

8

ADVANCED FORMATTING

Example:

4 Character Fixed Field

+ 4D + 41 + 49 + 4E = MAIN

Second Additional Fixed Field

no fixed field

ÌHJ0fÎ

1 character fixed field

ÌHJ1iÎ

2 character fixed field

ÌHJ2lÎ

3 character fixed field

ÌHJ3oÎ

4 character fixed field

ÌHJ4rÎ

5 character fixed field

ÌHJ5uÎ

6 character fixed field

ÌHJ6xÎ

Exit and Save Configuration

Ì$-?Î

127

Exit and Save Configuration

ADVANCED FORMATTING

Ì$-?Î

After selecting one of the Additional Fixed Field codes, read the corresponding character(s) from the HEX table. Range of characters = 01-FE. For readers using Wedge interface, all values from 9C to FE send the Space character.

Example:

3 Character Fixed Field

+ 53 + 45 + 54 = SET number of fields to transmit

9 Field Transmission

ÌHK8Î

Read one number in the range 1 to 7 for the number of fields to transmit. Include only fields to

be transmitted.

Field Order Transmission

Read the codes corresponding to the fields to transmit in the order in which they are to be transmitted. A field can be transmitted more than once. See example. field 1

Ì12Î

field 2

Ì23Î

field 3

Ì34Î

field 4

Ì45Î

field 5

Ì56Î

additional field 1

Ì67Î

additional field 2

Ì78Î

128

ADVANCED FORMATTING

Exit and Save Configuration

Ì$-?Î

Example:

The barcode is divided into 3 defined fields plus 1 additional fixed field.

Transmit in the order: Field 2, Additional Field 1, Field 1, Field 2.

Number of Fields to Transmit Field 2 Additional Field 1 Field 1 Field 2

+ 4 + + + +

10 Standard Formatting

do not apply standard formatting

ÌHL0jÎ

apply standard formatting

ÌHL1mÎ

After performing Advanced Formatting on the barcode read, Standard Formatting (Headers,

Code Length, Code ID, Terminators) can be applied to the message to be transmitted.

End Format Definition 11

end Format 1 definition

ÌHM0lÎ

end Format 2 definition

ÌHM1oÎ

end Format 3 definition

ÌHM2rÎ

129

ADVANCED FORMATTING

end Format 4 definition

ÌHM3uÎ

Exit and Save Configuration

Ì$-?Î

130

Enter Configuration

Ì$+;Î

ADVANCED FORMATTING

enable

ÌHN11NÎ

enable

ÌHN21QÎ

enable

ÌHN31TÎ

enable

ÌHN41WÎ

Enable Advanced Format

‹ no Advanced Formats enabled

ÌHN0nÎ

Advanced Format 1

Advanced Format 2

Advanced Format 3

Advanced Format 4

Exit and Save Configuration

Ì$-?Î

disable

ÌHN10JÎ

disable

ÌHN20MÎ

disable

ÌHN30PÎ

disable

ÌHN40SÎ

131

Enter Configuration

Ì$+;Î

ADVANCED FORMATTING

Exit and Save Configuration

Ì$-?Î

No Match Result

clear data - no transmission

ÌHO0pÎ

transmit data using standard format

ÌHO1sÎ

This selection determines the action to be taken when codes read do not conform to the advanced format requisites (no match).

Codes not matching can be ignored, cleared from memory and not transmitted.

Codes not matching can be transmitted using the Standard formatting (Headers, Code

Length, Code ID, Terminators).

132

Enter Configuration

Ì$+;Î

ADVANCED FORMATTING

Exit and Save Configuration

Ì$-?Î

RADIO PARAMETERS

Gryphon™ M Series Readers only

~

R

ADIO

P

ROTOCOL

T

IMEOUT

~

~

~

~

P

OWER

-O

FF

T

IMEOUT

B

EEPER

C

ONTROL FOR

R

ADIO

R

ESPONSE

B

ATTERY

T

YPE

~

~

~

~

S

INGLE

S

TORE

~

1.

Read the Enter Configuration code ONCE, available at the top of each page.

2.

Read configuration codes from the desired groups.

= Read the code and follow the procedure given

3.

Read the Exit and Save Configuration code ONCE, available at the top of each page.

133

Enter Configuration

Ì$+;Î

RADIO PARAMETERS

R

ADIO

P

ROTOCOL

T

IMEOUT

radio protocol timeout

ÌRH<Î

Read a number from the table where:

02-19 = timeout from 2 to 19 seconds

‹ 2 seconds

See par. 5.8.1 for details.

P

OWER

-O

FF

T

IMEOUT

power-off timeout

ÌRPLÎ

Exit and Save Configuration

Ì$-?Î

Read 2 numbers in the range 00-99:

00 = Power-off disabled; reader always ready

01-99 = corresponds to a max. 99 hour delay before power-off.

‹ power-off after 4 hours.

See par. 5.8.2 for details.

134

Enter Configuration

Ì$+;Î

RADIO PARAMETERS

Exit and Save Configuration

Ì$-?Î

B

EEPER

C

ONTROL FOR

R

ADIO

R

ESPONSE

‹ normal

ÌBF0XÎ

only good reception

ÌBF2^Î

only good decode

ÌBF1[Î

off

ÌBF3aÎ

See par. 5.8.3 for details.

B

ATTERY

T

YPE

OM-GRYPHON™ CRADLE ONLY

‹ NiMh/NiCD

ÌRB1cÎ

alkaline

ÌRB0`Î

135

Enter Configuration

Ì$+;Î

‹ disable

ÌRO0zÎ

RADIO PARAMETERS

S

INGLE

S

TORE

Exit and Save Configuration

Ì$-?Î

one attempt

ÌRO1}Î

two attempts

ÌRO2ÄÎ

three attempts

ÌRO3ÇÎ

four attempts

ÌRO4ÊÎ

five attempts

ÌRO5"Î

six attempts

ÌRO6%Î

seven attempts

ÌRO7(Î

eight attempts

ÌRO8+Î

See par. 5.8.4 for details

nine attempts

ÌRO9.Î

136

REFERENCES

5 REFERENCES

5.1 RS232 PARAMETERS

5.1.1 Handshaking

Hardware handshaking: (RTS/CTS)

The RTS line is activated by the decoder before transmitting a character.

Transmission is possible only if the CTS line (controlled by the Host) is active.

Signals at

EIA levels

RTS

TX

Transmitted data Transmitted data

CTS

Host busy

RTS/CTS handshaking

Software handshaking: (XON/XOFF)

During transmission, if the Host sends the XOFF character (13 Hex), the decoder interrupts the transmission with a maximum delay of one character and only resumes when the XON character (11 Hex) is received.

Transmitted data Transmitted data

TX

RX

XOFF

Host busy

XON

Host ready

XON/XOFF handshaking

137

GRYPHON™

5.1.2 ACK/NACK Protocol

GRYPHON™ D Series Readers

This parameter sets a transmission protocol in which the Host responds to the reader after every code transmitted. The Host sends an ACK character (06 HEX) in the case of good reception or the NACK character (15 HEX) requesting re-transmission, in the case of bad reception. data

Gryphon

D

cable

Host

ACK or NACK

ACK/NACK enabled

If the reader does not receive an ACK or NACK, transmission is ended after the RX

Timeout (see par. 5.1.4).

Selection of the ACK/NACK protocol temporarily disables FIFO buffering see

par. 5.1.3.

GRYPHON™ M Series Readers

The transmission protocol takes place between reader, cradle and Host. The reader passes its data (code read) to the cradle which sends it to the Host.

In the following descriptions the completed transmission is indicated by the Beeper

Control for Radio Response parameter with its default setting to Normal, see par.

5.8.3.

When ACK/NACK is disabled, there is no control from cradle to Host transmission, the reader responds with the good reception tone. data data

GRYPHON

M

OM-GRYPHON™ cable

Host

good RX beep

ACK/NACK disabled

138

REFERENCES

GRYPHON

M data

OM-GRYPHON™

data

cable

NACK data

Host

good RX beep

ACK

ACK/NACK enabled

When ACK/NACK is enabled, the Host sends an ACK character (06 HEX) in the case of good reception or the NACK character (15 HEX) requesting re-transmission, in the case of bad reception. Only after the ACK character is received by the

OM-Gryphon™ does the reader respond with the good reception tone.

If the reader does not receive an ACK or NACK, transmission is ended after the RX

Timeout (see par. 5.1.4). See also Radio Protocol Timeout, par. 5.8.1 for M-Series

readers.

Selection of the ACK/NACK protocol temporarily disables FIFO buffering see par.

5.1.3.

5.1.3 FIFO

GRYPHON™ D Series Readers

This parameter determines whether data (barcodes) are buffered on a First In First

Out basis allowing faster data collection in certain cases for example when using slow baud rates and/or hardware handshaking.

If the FIFO buffering is enabled, codes are collected and sent out on the serial line in the order of acquisition. About 800 characters can be collected (buffer full), after which the reader signals an error and discards any further codes until the transmission is restored.

If the FIFO buffering is disabled, each code must be transmitted before another one can be read.

GRYPHON™ M Series Readers

If enabled, the OM-Gryphon™ collects all messages sent by Gryphon™ M and sends them in order of acquisition to the connected Host.

If disabled, Gryphon™ M blocks message transmission until the

OM-Gryphon™ has completed transmission towards the Host.

139

GRYPHON™

5.1.4 RX Timeout

When the RS232 interface is selected, the Host can be used to configure the device

by sending it command strings (see Appendix A).

This parameter can be used to automatically end data reception from the Host after the specified period of time.

If no character is received from the Host, after the timeout expires, any incomplete string (any string not terminated by <CR>) is flushed from the device buffer.

5.2 PEN PARAMETERS

5.2.1 Minimum Output Pulse

This parameter sets the duration of the output pulse corresponding to the narrowest element in the barcode. In this way the code resolution is controlled by the signal sent to the decoder, independently of the physical resolution of the code read.

The shortest pulse (200

μs) corresponds to a high resolution code emulation and therefore a shorter transfer speed to the decoder (for decoders able to work on high resolution codes). Likewise, longer pulses correspond to low resolution code emulation and therefore a longer transfer time to the decoder.

5.2.2 Conversion to Code 39 and Code 128

GRYPHON™ D Series Readers

When using these readers it is possible to convert all codes to Code 39. By disabling this option the decoded codes will be transmitted in their original format; except for the following codes which are ALWAYS converted into Code 39 format:

MSI, Plessey, Telepen, Delta IBM, Code 11, Code 16K, Code 49, PDF417, RSS.

GRYPHON™ M Series Readers

When using these readers it is possible to choose between converting the decoded codes into either Code 39 format or Code 128 format. It is not possible to disable conversion.

140

REFERENCES

5.2.3 Overflow

This parameter generates a white space before the first bar and after the last bar of the code. The selections are as follows: narrow = space 10 times the minimum output pulse. medium = space 20 times the minimum output pulse. wide = space 30 times the minimum output pulse.

5.2.4 Output and Idle Levels

The following state diagrams describe the different output and idle level combinations for Pen emulation: idle bar

OUTPUT: Normal

black

space

IDLE: Normal

white

barcode output bar

OUTPUT: Normal

black

idle space

IDLE: Inverted

white

barcode output space

OUTPUT: Inverted

IDLE: Normal idle bar barcode output

white black

OUTPUT: Inverted

IDLE: Inverted idle space bar barcode output

white black

Output and Idle Levels

141

GRYPHON™

5.2.5 Inter-Block Delay

For the PEN Emulation interface, data are sent to the Host in fixed size blocks of 20 characters each. The inter-block delay parameter allows setting a delay between each block sent to the Host.

5.3 IBM 46XX PARAMETERS

5.3.1 IBM Data Formatting (Transmission Format)

The IBM 46xx series cash register recognizes the following codes:

EAN 8/ EAN 13 / UPC A / UPC E with and without Add On

Interleaved 2/5

Code 39

Codabar

Code 128

Code 93

Normal 2/5

The transmission format of codes belonging to this set is specified by the protocol. As the reader allows a wider set of codes to be selected, the following formats are defined to offer the user all the reading possibilities of the Datalogic products.

Conversion to Code 39 Format

Data from any code selected may be transmitted. Each code is transmitted to the

Host as Code 39. Any character not included in the standard Code 39 set will be replaced with a “Space” (20 Hex).

IBM Standard Format

Only codes belonging to the above mentioned set may be transmitted. Each code transmitted to the Host is recognized by the identifier requested by the protocol. If the selected code does not belong to this set, it will not be transmitted.

Mixed IBM Standard + Code 39 Format

Data from any code selected may be transmitted. For codes belonging to the above mentioned set, the “IBM Standard Format” is applied. The “Code 39” format applies to codes not belonging to this set.

142

REFERENCES

5.4 DATA FORMAT

The system always provides gun to host data communication using the following message formatting:

Output Message from Gryphon™ D or Gryphon™ M Stand Alone Towards Host

[Header] [Gun_Addr] [Gun_Addr_delimiter] ] [Code ID] [Code Length]

CODE

[Terminator]

[Items in square brackets are optional.]

Output Message from Gryphon™ M STAR-System™ Towards Host

[Header] [Code ID] [Code Length]

CODE

[Terminator]

[Items in square brackets are optional.]

5.4.1 Header/Terminator Selection

The header/terminator selection is not effected by the reading of the restore default code. In fact, header and terminator default values depend on the interface selection:

RS232: no header, terminator CR-LF

WEDGE: no header, terminator ENTER

These default values are always restored through the reading of RS232 or WEDGE interface selection code, see chapter 2.

143

GRYPHON™

For the WEDGE interface, the following extended keyboard values can also be configured:

EXTENDED KEYBOARD TO HEX CONVERSION TABLE

IBM AT

IBM 3153

APPLE ADB

IBM XT IBM 31xx, 32xx,

34xx, 37xx

Wyse

Digital

8F

90

91

92

93

8A

8B

8C

8D

8E

94

95

96

97

83

84

85

86

87

88

89

98

99

9A

9B

TAB TAB TAB TAB

F1 F1 F1 F1

F2 F2 F2 F2

F3 F3 F3 F3

F4 F4 F4 F4

F5 F5 F5 F5

F6 F6 F6 F6

F7 F7 F7 F7

F8 F8 F8 F8

F9 F9 F9 F9

F10 F10 F10 F10

F11 ESC F11 F11

F12 BACKSPACE F12 F12

HOME HOME ENTER F13

PG UP

PG DOWN

PG UP

PG DOWN

INSERT

DELETE

F15

F16

FIELD -

FIELD +

ENTER (Paddle)

UP

DOWN

LEFT

PRINT RIGHT

ESC ESC ESC

CTRL (Right) CTRL (Right) CTRL (Right)

Euro Space Space Space

For all readers using Wedge interface, all values from 9C to FE send the Space character.

144

Enter Configuration Exit and Save Configuration

Ì$+;Î Ì$-?Î

5.4.2 Set Custom Extended Header/Terminator Keys

The extended Header/Terminator keys for Wedge Interface users can be customized by defining them through a simple keyboard setting procedure.

For example, the Numeric Keypad keys can be set for use as Headers or

Terminators by substituting the default extended keys using this procedure.

The type of computer or terminal must be selected before activating the keyboard setting command.

Press and release a key to set it.

Some characters may require more than one key pressed simultaneously during normal use (refer to the manual of your PC or terminal for keyboard use). The exact sequence must be indicated to the reader in this case pressing and releasing the different keys.

Example:

If one has to press the "Shift" and "4" keys simultaneously on the keyboard to transmit the character "$" to the video, to set the "$", press and release "Shift" then press and release "4".

Each pressed and released key must generate an acoustic signal on the reader, otherwise repress the key. Never press more than one key at the same time, even if this corresponds to the normal use of your keyboard.

Press "Back space" to correct a wrong key entry. In this case the reader emits

2 beeps.

Note: "CAPS LOCK" and "NUM LOCK" must be off before starting the keyboard setting procedure. "SHIFT" must be repressed for each character and cannot be substituted by "CAPS LOCK".

Set Custom Extended Header/Terminator Keys

ÌFB1WÎ

Read the code above.

If the first 4 KEYS (Shift, Alt, Ctrl, and Backspace) are not available on your keyboard, you can only substitute them with keys not used, or substitute them with

each other.

Keys 5 to 28 must be defined

Press the desired keys in the following order:

The reader signals the end of the procedure with 2 beeps indicating the keys have been registered.

145

GRYPHON™

CUSTOM EXTENDED KEYBOARD SETTING TABLE

Custom

Order HEX

01

02

03

04

-

-

-

-

13

14

15

16

17

18

19

05

06

07

08

09

10

11

12

25

26

27

28

20

21

22

23

24

8E

8F

90

91

92

89

8A

8B

8C

8D

83

84

85

86

87

88

97

98

99

9A

93

94

95

96

GRYPHON™ M

Series

Readers Only

KEY

Shift

Alt

Ctrl

Backspace

When working with Gryphon™ M-Series readers, the keyboard setup functioning is signaled by the LEDs on the OM-Gryphon™ cradle. Each key stroke corresponds to a double blinking of the green LED.

By pressing the Backspace key the red LED on the OM-GRYPHON™ cradle blinks, while the green LED stays on.

CAUTION

Do not place the reader onto the OM-Gryphon™ cradle during this procedure. Otherwise, the battery charging will occur modifying the LEDs functioning.

Once the procedure has been completed, the green LED turns off.

146

REFERENCES

5.4.3 Address Stamping

It is possible to include the reader address in the message sent to the host. The reader Address Stamping parameter consists of a 4-digit number in the range

0000-1999.

For message output format, refer to par. 5.4.

5.4.4 Address Delimiter

The Address Delimiter allows a character to be included to separate the reader

Address stamping field from the next field in the message. Any character can be included in the hexadecimal range from 00 to FE.

For message output format, refer to par. 5.4.

5.5 POWER SAVE

5.5.1 Sleep State/USB Suspend

When using interfaces other than USB, this mode allows the

μP in the reader to enter a “Sleep” state for minimum power consumption. For D-series readers, this command is only valid when hardware trigger type is selected.

Before entering Sleep mode, the following are verified:

• no commands coming from Host

• no data being transmitted to Host

• Enter Sleep Timeout ended (see par. 5.5.2)

To exit Sleep mode press the trigger.

Enabling the Sleep state implements Standby mode for CCD devices, see par. 5.5.3.

For M-Series readers, sleep state is entered immediately after reading a code and is not configurable. To exit Sleep mode press the trigger.

When using the USB interface, this mode allows the device to manage Selective

Suspend conditions generated by the Host Operating System in which optimizing low power consumption (ex. Windows Stand-by). It is possible to exit the Suspend mode either from the Host (ex. moving the mouse during Stand-by) or through the barcode reader. The latter, called Remote Wakeup, makes the device wake up the Host restoring the communication. Remote Wakeup is possible by pressing the trigger.

147

GRYPHON™

5.5.2 Enter Sleep Timeout

For readers that have the Sleep state enabled, this timeout determines when the reader will enter this state.

5.5.3 Standby

If this command is enabled, part of the CCD circuitry shuts down (Standby), in order to optimize low power consumption when not reading. When the trigger is pressed this circuitry powers up. This mode causes a minor delay of about 100 ms before the reader is ready.

For M-Series readers, standby is always enabled and is not configurable. To exit

Standby press the trigger.

5.6 READING PARAMETERS

5.6.1 Operating Mode

This group of parameters allows setting different reading modes for either Hand-Held operation or Stand operation:

Software Trigger: the reader is set in FLASH MODE. Code reading takes place during the flash on time;

Hardware Trigger: the code reading is started with a trigger press (ON);

Hardware Trigger Ready: the illuminator is switched ON when the reader sees a code. It functions as a pointer aiming at the code to be read. The reading phase starts only when the trigger is pressed. In this mode the reader is automatically set to trigger active level and one read per cycle parameters. (Only for Hand-

Held operation);

Automatic: the illuminator is switched ON when the reader sees a code. The reading phase starts automatically;

Always ON: the illuminator is always ON and the reader always ready for code reading. This value is not available for M-Series readers.

148

REFERENCES

5.6.2 Hardware Trigger Mode

This mode determines how the reading phase is controlled when the hardware trigger operating mode is selected:

• trigger active level: the reader goes ON when the trigger is pressed and goes

OFF when it is released;

• trigger active pulse: the reader goes ON at the first trigger press and goes OFF only at a second press.

5.6.3 Trigger-Off Timeout

When this timeout is selected, the reader turns OFF automatically after the desired period of time.

5.6.4 Reads per Cycle

In general, a reading cycle corresponds to the ON + OFF times of a device.

The resulting effects of this parameter on code reading depend on other related configuration conditions. Here are the definitions of ON and OFF times.

• For readers using the software trigger parameter (FLASH MODE), a reading cycle corresponds to the flash on + flash off times. Code reading takes place during the flash on time.

• For readers using the hardware trigger parameter, a reading cycle corresponds to a trigger press (ON) + one of the following OFF events: trigger release (for trigger active level) a second trigger press (for trigger active pulse)

trigger-off timeout (see par. 5.6.3).

When one read per cycle is selected, the device decodes only one code during the

ON period and immediately turns the reader OFF. It is only possible to read another code when the next ON time occurs.

In multiple reads per cycle, the ON period is extended so that the device can continue decoding codes until an OFF event occurs. For software trigger mode, the

flash on period is immediately reset after each read and therefore extended. If another code is decoded before the reset flash on period expires, it is again reset and the effect is that the device remains ON, decoding codes until the flash on or timeout period expires.

The Safety Time parameter should be used in this case to avoid unwanted multiple

reading of the same code, see par. 5.6.5.

149

GRYPHON™

5.6.5 Safety Time

Safety time prevents the device from immediately decoding the same code more than once. Same code consecutive reading can be disabled requiring the reader to be removed from the code (no decoding) for at least 400 ms, or a timeout can be set up to 9.9 seconds before the decoder will accept the same code. Reading is immediate if the code changes.

The safety time parameter is not applicable when reading stacked codes or when setting one read per cycle in hardware trigger operating mode, since these settings require voluntary action by the user.

5.7 DECODING PARAMETERS

CAUTION

These parameters are intended to enhance the decoding capability of the reader for particular applications. Used incorrectly, they can degrade the reading performance or increase the possibility of a decoding error.

5.7.1 Ink-Spread

The ink-spread parameter allows the decoding of codes which are not perfectly printed because the page texture tends to absorb the ink.

5.7.2 Overflow Control

The overflow control parameter can be disabled when decoding codes printed on small surfaces, which do not allow the use of an overflow space.

This command does not effect code families 2/5, Code 128 and Code 93.

This command is forced (enabled) when PDF417 codes are enabled.

5.7.3 Interdigit Control

The interdigit control parameter verifies the interdigit spacing for code families Code

39 and Codabar.

150

REFERENCES

5.8 RADIO PARAMETERS (M SERIES ONLY)

5.8.1 Radio Protocol Timeout

This parameter sets the valid time to wait before transmission between the M reader and OM-Gryphon™ cradle is considered failed.

This parameter should be set taking into consideration the radio traffic (number of readers in the same area).

If the RS232 interface is used with ACK/NACK enabled, this parameter should be at least equal to the RX Timeout parameter for low traffic environments. It should be increased if there are many readers in the same area.

It can be set between 2 and 19 seconds.

5.8.2 Power-Off Timeout

If this command is enabled, after the desired timeout in hours, the Gryphon™ batteries are disconnected and all power consumption ceases. To restore power, press the trigger once. The reader will now be ready to read codes.

Power-off does not effect configuration parameters.

5.8.3 Beeper Control for Radio Response

For M-Series readers, the data entry good read tone normally results in two beeps; the first indicates that the reader has decoded the code, the second indicates whether

OM-Gryphon™ has received the data.

This can be changed according to the following selections:

♦ Normal: both good decode and good reception are signaled (two beeps).

♦ Only Good Decode: only the first beep indicating a good read is signaled.

♦ Only Good Reception: only the second beep indicating a good reception is signaled.

♦ Off: Neither good read nor good reception beeps are signaled.

For all configurations, any transmission errors will always be signaled.

151

GRYPHON™

5.8.4 Single Store

When single store mode is enabled, if the Gryphon™ M fails to transmit a code to the cradle, it enters a special operating mode that prevents the user from reading barcodes. When such operating mode is entered, the trigger no longer enables barcode reading but is used to retry transmission itself for the number of attempts selected in configuration. Once the transmission is successful the reader returns to the standard mode. If transmission is not successful after the number of configured attempts, the code is discarded.

Single store may be useful if you often read codes at the limit of the coverage area and there is a chance that code transmission can fail. In such case single store allows you to move to a more favorable position or location (i.e. closer to the cradle) and retry transmission without the necessity of re-reading the code since it is already stored in the reader.

Conversely, if single store is disabled, and the user wants to retry transmission, the code must be read again, and therefore the attempt must be made from basically the same location. If the user gives up, he does not know if the transaction was successful. (Actually the transmission could have been successful but the cradle may have been unable to acknowledge the message). There are applications in which there is no risk of transmission failure. In such cases it may be better to disable single store so that the user perceives a more consistent behavior of the trigger in that it always corresponds to code reading.

152

REFERENCES

5.9 CONFIGURATION EDITING COMMANDS

The following commands carry out their specific function and then exit the configuration environment.

Command Description

Ì$+$*oÎ

Ì$+$!KÎ

Ì$+$&_Î

Restore Gryphon™ reader default configuration

(see the relative Quick Reference Manual for default settings).

Transmit the Gryphon™ D or

Gryphon™ M Software release.

Transmit Gryphon™ reader configuration in

ASCII format.

This command is not effective with Pen emulation interface or with the Gryphon™ D200 reader model.

Ì$+RX0$-qÎ

Restore OM-Gryphon™ default configuration

(see the relative Quick Reference Manual for default settings).

Ì$+RX1$-vÎ

Ì$+RX2$-{Î

Transmit the OM-Gryphon™ Software release.

Transmit OM-Gryphon™ configuration in ASCII format.

This command is not effective with Pen emulation interface.

153

GRYPHON™

5.10 CONFIGURATION COPYING COMMANDS

5.10.1 Copy GRYPHON

D-Series

Procedure: c

Connect the master (correctly configured reader) and the slave (reader to be configured) together through two RS232 serial interface cables and external power supply. Accessory cables and power supply are available from your

Datalogic distributor to provide this connection.

RS232 Cables: CAB363 & CAB364 or CAB320 & CAB328

Power Supply: PG5 d Using the slave reader, read the Restore Default barcode and then the RS232

interface barcode from chapter 4 of this manual or from the Quick Reference

Manual. e

With the master reader, read the Configuration Copy barcode below.

Copy Configuration

Ì$+ZZ0$-*Î

The configuration will be copied from the master to the slave reader. The slave reader signals the end of the procedure with a series of beeps.

Note: The master reader can be configured for any interface.

154

REFERENCES

5.10.2 Copy GRYPHON

M-Series

Procedure: c Using the slave reader and its OM-Gryphon™ cradle, follow the initialization

procedure in chapter 4 of this manual or from the Quick Reference Manual.

d With the master Gryphon™ M (correctly configured reader), read the Copy

Configuration barcode below. Then place it onto an OM-Gryphon™ cradle within

10 seconds. The reader will beep indicating the configuration has been copied.

The configuration will be simultaneously sent over the RS232 interface of the

OM-Gryphon™. If this causes undesired effects disconnect the RS232 cable between the PC and OM-Gryphon™ during this process.

Copy Configuration

Ì$+ZZ0$-*Î

e With the slave Gryphon™ M, read the Get Configuration barcode below. Then place it onto the same OM-Gryphon™ cradle used in the step above. The slave reader's address will not be changed.

Get Configuration

Ì$+ZZ2$-4Î

The configuration will be copied from the master to the slave Gryphon

™ M. The slave Gryphon

™ M signals the end of the procedure with a series of beeps. It is now ready to be used with its own OM-Gryphon™ cradle. f Repeat the procedure above to configure other slave readers. The

OM-Gryphon™ can continue to configure slave readers until it receives another command or data.

155

GRYPHON™

5.10.3 Copy OM-GRYPHON™

Procedure: c Using the slave reader and its OM-Gryphon™ cradle, read the Restore Default barcode, set the radio address, and then read the RS232 interface barcode

from chapter 4 of this manual or from the Quick Reference Manual.

d Connect the master OM-Gryphon™ and the slave OM-Gryphon™ (cradle to be configured) together through two RS232 serial interface cables and external power supply. Accessory cables and power supply are available from your

Datalogic distributor to provide this connection.

RS232 Cables: CAB363 & CAB364 or CAB320 & CAB328

Power Supply: PG12 e Read the Configuration Copy barcode below with a reader. Then place it onto the master OM-Gryphon™ cradle.

Copy Configuration

Ì$+ZZ3$-9Î

The configuration will be copied from the master OM-Gryphon™ to the slave

OM-Gryphon™. The reader signals the end of the procedure with a series of beeps. f Repeat the procedure above to configure other slave cradles.

Note: The master OM-Gryphon™ can be configured for any interface.

156

REFERENCES

5.11 C-GRYPHON™ CONFIGURATION

Battery selection is required only when the Gryphon™ M reader has an Alkaline battery and you want to use C-Gryphon™ either for serial configuration, software upgrades or to hold Gryphon™ M. Since this type of battery must not be charged it is necessary to disable the C-Gryphon™ charge function by following the procedure:

1.

With the Gryphon™ M read the following code:

Alkaline

Ì$+RN4$-]Î

The green LED on the Gryphon™ M will blink, signaling the reader has accepted the command.

2.

Place the reader onto the charger within 10 seconds. The green LED turns off and a short beep is emitted

To enable the charge function repeat step 1 and 2 substituting the "Alkaline" code with the following one:

NiMh/NiCd

Ì$+RN6$-gÎ

CAUTION

Attempts to charge Alkaline batteries could cause leakage of liquid, generation of heat or, in extreme cases, explosion. If using Alkaline batteries, carefully follow the procedure above to avoid damage.

157

GRYPHON™

5.12 DEFAULT PARAMETERS FOR POS TERMINALS

The default values of the RS232 and Data Format parameters for POS terminals are listed in the following table:

NIXDORF Mode A FUJITSU ICL Mode

RS232 Group

Baud Rate 9600 9600 9600

Data Bits

Stop Bits

Handshaking

ACK/NACK Protocol

Inter-Character Delay

RX Timeout

Serial Trigger Lock

Data Format Group

Code Identifier

Header

8

1

Hardware (RTS/CTS)

Disabled

Disabled

9.9 sec

Disabled

Custom

No Header

8

1

None

Disabled

Disabled

2 sec

Disabled

Custom

No Header

8

1

RTS always ON

Disabled

Disabled

9.9 sec

Disabled

Custom

No Header

Field Adjustment

Code Length TX

Character Replacement

Address Stamping

Address Delimiter

Disabled

Not Transmitted

Disabled

Not Transmitted

Disabled

Not Transmitted

Disabled Disabled Disabled

Disabled Disabled Disabled

Disabled Disabled Disabled

The table below lists all the Code Identifiers available for the POS terminals:

CODE NIXDORF Mode A FUJITSU ICL Mode

Code 39

Code 128

Interleaved 2 of 5

Code 93

Industrial 2 of 5

UCC/EAN 128

M

K

I

L

H

P

None

None

None

None

None

None

C [code length]

L [code length]

I [code length]

None

H [code length]

L [code length]

158

TECHNICAL FEATURES

6 TECHNICAL FEATURES

6.1 GRYPHON™ D

Electrical Features

Supply Voltage

Consumption

Maximum

Operating

Sleep Mode/USB Suspend

Optical Features

Sensor

Scan Rate (max)

Reading field

Resolution (max)

PCS (min)

(Datalogic Test Chart)

Environmental Features

Working Temperature

Storage Temperature

Humidity

Drop resistance

Protection Class

Mechanical Features

Weight (without cable)

Dimensions

Material

5 Vdc ± 5%

330 mA

250 mA

<500

μA

CCD solid state (3648 pixels)

270 scans/sec

see reading diagram (par. 6.6)

0.076 mm (3 mils)

15%

0° to +55 °C / +32° to +131 °F

-20° to +70 °C / -4° to +158 °F

90% non condensing

IEC 68-2-32 Test ED

IP30 about 200 g. (7 oz.)

179 x 81 x 98 mm / 7.04 x 3.18 x 3.85 in

ABS and Polycarbonate molded with rubber

159

GRYPHON™

6.2 GRYPHON™ M

Electrical Features

Battery Type

Time of recharge NiMh

Operating autonomy

(typ. continuous reading)

Indicators

2 AA NiMh* batteries

1.2 V – 1400 mAh

From 3 to 5 hours

Optical Features

Sensor

Scan Rate (max)

Reading field

Resolution (max)

CCD solid state (3648 pixels)

270 scans/sec

see reading diagram (par. 6.6)

0.076 mm (3 mils)

PCS (min)

(Datalogic Test Chart)

15%

Environmental Features

Working Temperature

Storage Temperature

(without battery)

25,000 reads - NiMh

LED, Good Read Spot, Beeper

0 to +40 °C / +32° to +104 °F

-20 to +70 °C / -4° to +158 °F

Drop resistance

Protection class

IEC 68-2-32 Test ED

IP30

Mechanical Features

Weight (with batteries)

Dimensions

Material about 280 g. / 9.87 oz

179 x 81 x 98 mm / 7.04 x 3.18 x 3.85 in

ABS and Polycarbonate molded with rubber

* It is possible to employ also NiCd or non-chargeable Alkaline AA batteries.

160

TECHNICAL FEATURES

6.3 OM-GRYPHON™ / C-GRYPHON™

Electrical and General Features

Supply Voltage

Power Consumption (max)

Indicators

9 to 28 Vdc

8 W (charging) *

Battery Charging LED (red)

Charge completed LED (green)

Power/Data LED (yellow)

Recharge Time

NiMh / NiCd batteries

Host Interfaces

RS232

WEDGE

PEN Emulation

From 3 to 5 hours

150 to 38400 baud 9600 baud

IBM AT or PS/2, XT, PC Notebook,

IBM SURE1, IBM 3153, 31xx, 32xx,

34xx, 37xx terminals, Wyse terminals, Digital VT terminals,

Apple ADB Bus supported

Not supported

Selectable minimum pulse from 200

μS to 1.2 mS

Environmental Features

Working Temperature

0° to +40 °C / +32° to +104 °F

Storage Temperature

Humidity

-20° to +70 °C / -4° to +158 °F

90% non condensing

Protection IP30

Mechanical Features

Weight (without cable)

Dimensions about 250 g. / 8.81 oz.

208 x 107 x 55.5 mm / 8.1 x 4.2 x 2.18 in

Material ABS

* Having a switching regulator inside, the OM-Gryphon™ and C-Gryphon™ draw the same power, regardless of the supply voltage. i.e. as the input voltage increases the current drawn decreases.

161

GRYPHON™

6.4 SYSTEM AND RADIO FEATURES

Radio Features

Working Frequency

Bit Rate

Effective Radiated Power

Range (in open air)

RF Modulation

European Models

433.92 MHz

19200

<10 mW

30 m

USA Models

910 MHz

36800

<1 mW

15 m

FSK

System Configurations

Maximum number of devices per base stations

Maximum number of devices in the same reading area

Maximum number of base stations in network

OM-GRYPHON™ STARGATE™

16 255

2000

16

6.5 STATUS INDICATORS

The reader has three indicators, LED, Beeper and Good Read Spot. The

OM-Gryphon™ and C-Gryphon™ cradles have three indicator LEDs. They signal several operating conditions which are described in the tables below.

H = high tone

GRYPHON™ D/M READER START-UP

L = low tone

Beeper

¹

L L L L

H H H H long tones

Meaning

Parameters loaded correctly

Parameter loading error, reading or writing error in the non volatile memory

H L H L Hardware error in EEPROM

GRYPHON™ D/M READER CONFIGURATION

Beeper

¹

H H H H

Meaning

L

L L L

Correct entry or exit from Configuration mode

Good read of a command

Command read error

162

TECHNICAL FEATURES

GRYPHON™ D/M READER DATA ENTRY

Beeper

¹ LED

Good Read Spot Meaning one beep²

H L long

H long

H H H

H H long

ON

ON

ON

ON

OFF

Correct read of a code in normal mode

TX buffer full (when FIFO is enabled) or TX error between Gryphon™ M and

OM-Gryphon™

Successful advanced format concatenation

Timeout expired – operation not completed

Error in advanced data formatting

Ready to read a code OFF

GRYPHON™ M POWER

Beeper LED Meaning

10 short H 10 short blinks Low Battery

GRYPHON™ M BIND, JOIN, COPY COMMANDS

Beeper

¹

LED Meaning

Blinking Command accepted; reader ready to be inserted into the cradle

H L long tones Failure

¹ Only the Beeper Intensity command can modify these signals.

² The data entry good read tone is user-configurable with all the Beeper commands in the Reading Parameters section.

For M-Series readers, normally this results in two beeps; the first indicates that the reader has decoded the code, the second indicates whether OM-Gryphon™ has

received the data. See also par. 5.8.3.

163

GRYPHON™

OM-GRYPHON™/C-GRYPHON™ CHARGE STATUS

Red LED Green LED

Meaning

OFF ON End of charge

Flashing Flashing Shorted or open battery

OM-GRYPHON™/C-GRYPHON™ POWER/COMMUNICATION

Yellow LED

Meaning

OFF Error in reading EEPROM parameters

Blinking Transmission over the Host port

6.6 READING DIAGRAMS

GRYPHON™ D/M100

Reading Zones (10° skew angle)

15

10

0.13 mm

(5 mils)

5

0

CODE 39

0.076 mm

(3 mils)

CODE 39

0.13 mm

(5 mils)

EAN13 M=1

0.33 mm

(13 mils)

CODE 39

0.50 mm

(20 mils)

-5

-10

-15

0 5 10 15 20 25 30 35 (cm)

164

TECHNICAL FEATURES

GRYPHON™ D/M200

Reading Zones (10° skew angle)

0

-5

10

5

0.13 mm

(5 mils)

-10

CODE39

0.076 mm

(3 mils)

CODE39

0.13 mm

(5 mils)

EAN13 M=1

0.33 mm

(13 mils)

CODE39

0.50 mm

(20 mils)

0 5 10 15 20 25 30 35

-4

-6

-8

0

4

2

0

-2

8

Reading Zones (10° skew angle)

PDF417 Aspect Ratio 3:1

6

0.17 mm

(6.6mils)

2 4

0.25 mm

(10mils)

6 8 10 12

0.38 mm

(15mils)

14 16 (cm)

165

GRYPHON™

A HOST CONFIGURATION STRINGS

In this section we provide a description of how to modify the device configuration using serial strings sent from the Host.

This method requires the RS232 interface.

The device configuration can be changed by receiving commands from the Host through the serial interface. When this method is used, the programming sequence format is the following:

$+

Command

$CR

Carriage return character (0D Hex.)

Exit and Save configuration

Character sequence in following tables

Enter configuration environment

Example:

$+ BG1

Multiple command programming sequence:

BH0 AC410132 $CR

Carriage return character (0D Hex.)

Exit and save new configuration

Matrix 2/5 3 bars: no check digit, variable length code from 1 to 32 characters

Beeper tone 1

Beeper low intensity

Enter configuration environment

Each configuration parameter setting removes the condition previously active for that parameter.

The device buffer can contain about 400 characters. If your programming string goes over this value, you must split it into separate groups and send each group after a delay of at least 3 seconds to give the reader time to empty the buffer and interpret the commands.

NOTE

166

HOST CONFIGURATION STRINGS

SERIAL CONFIGURATION STRINGS

ENTER/EXIT CONFIGURATION COMMANDS

DESCRIPTION STRING

Enter Configuration

Exit and Save Configuration

Restore Default

Transmit Software Release (not for PEN emulation)

$+

$-

$*

$!

Transmit Device Configuration in ASCII (not for PEN emulation)

$&

These commands do not require $-.

INTERFACE SELECTION

DESCRIPTION STRING

RS232 Standard

CP0

CM0

Fujitsu

WEDGE for IBM AT for IBM Terminals: 31xx, 32xx, 34xx, 37xx; make-break keyboard for IBM Terminals: 31xx, 32xx, 34xx, 37xx; make-only keyboard

CM1

CM2EC0

CP500

CP501

CP502

31xx, 32xx, 34xx, 37xx for IBM XT advanced for IBM Terminal 3153 for IBM PC Notebook for IBM SURE1 for IBM AT - ALT mode for IBM PC Notebook - ALT mode for Wyse Terminal - ANSI Keyboard for Wyse Terminal - PC Keyboard for Wyse Terminal - ASCII Keyboard for Wyse Terminal - VT220 style Keyboard for Digital Terminals VT2xx/3xx/4xx for Apple ADB Bus

PEN EMULATION

IBM 46xx 4501 Protocol

USB USB-KBD

USB-KBD-ALT-MODE

USB-KBD-APPLE

USB-COM

CP512

CP513

CP6

CP800

CP801

UA03

UA04

UA05

UA02

UA00

UA01

FK1

CP503

CP504

CP505

CP506

CP507

CP508

CP509

CP510

CP511

CP514

167

GRYPHON™

RS232

DESCRIPTION STRING

Baud rate 150

300

600

1200

CD0

CD1

CD2

CD3

2400

4800

9600

19200

38400

CD4

CD5

CD6

CD7

Parity none

even

odd

CD8

CC0

CC1

Data bits 7

8

9

CC2

CA0

CA1

Stop bits 1

2

Handshaking disable

CA2

CB0

CB1

RTS/CTS

XON/XOFF

CE0

CE1

CE2

CE3

ACK/NACK Protocol disable (sw 3.1.0) disable (sw 4.0 and later) enable (sw 4.0 and later)

CF0

CF3

ER0

FIFO disable

enable

Inter-character delay

(ms)

ER1

EC0

EC1

RX Timeout

(100 ms)

Serial Trigger Lock disable enable and select characters

CK00 - CK99

CL00 - CL99

CR0

CR1 ab

a = Hex values representing an ASCII character from 00 to FE enabling the device trigger.

b = HEX values representing an ASCII character from 00 to FE inhibiting the device trigger.

168

HOST CONFIGURATION STRINGS

USB

DESCRIPTION STRING

USB-COM

Handshaking disable

RTS/CTS

XON/XOFF

CE0

CE1

CE2

RTS

CE3

ACK/NACK Protocol

enable

Inter-character delay

(ms)

disable

enable

FIFO disable

ER0

ER1

EC0

EC1

RX Timeout

(100 ms)

Serial Trigger Lock

enable

USB-KBD

Keyboard nationality disable

Belgian

CK00 - CK99

CL00 - CL99

CR0

CR1 ab

(not for USB-KBD-ALT-MODE) English

French

German

FJ7

FJ4

FJ2

Italian

Spanish

Swedish

USA

Japanese

FJ3

FJ1

FJ6

FJ5

FJ0

FIFO disable

enable

FJ8

EC0

EC1

CK00 - CK99

FG00 - FG99

a = Hex values representing an ASCII character from 00 to FE enabling the device trigger.

b = HEX values representing an ASCII character from 00 to FE inhibiting the device trigger.

WEDGE

DESCRIPTION STRING

Keyboard nationality Belgian

FJ7

English FJ4

French FJ2

German FJ3

Italian FJ1

Spanish FJ6

Swedish FJ5

USA

FJ0

Japanese (IBM AT compatible only)

FJ8

169

GRYPHON™

WEDGE (continued)

DESCRIPTION STRING

Caps Lock caps Lock ON

FE1

Caps Lock Auto-Recognition

(IBM AT compatible only)

Num Lock

Delays disable enable

Toggle Num Lock

Num Lock Unchanged

Inter-Character

(ms)

Inter-Code

(s)

FP0

FP1

FL1

FL0

CK00 - CK99

FG00 - FG99

PEN

DESCRIPTION STRING

Operating mode

Minimum output pulse interpret (does not require $+ or $-) transparent (does not require $+ or $-)

200

μs

400

μs

600

μs

800

μs

$]

$[

DG0

DG1

DG2

DG3

DG4

DG5

Conversion to Code 39 and

Code 128 disable conversion to Code 39

(D series only) enable conversion to Code 39

DA0

DA1

enable conversion to Code 128

(M series only)

Output level normal

inverted

Idle level normal

inverted

DA2

DD0

DD1

DE0

DE1

DH0

Inter-Block delay

(100 ms)

CK00-CK99

IBM 46xx

DESCRIPTION STRING

IBM Data Formatting Code 39 Format

GD0

IBM Standard Format

Mixed IBM Standard + Code 39 Format

GD1

GD2

170

HOST CONFIGURATION STRINGS

DATA FORMAT

NOT FOR PEN EMULATION INTERFACES

DESCRIPTION STRING

Code Identifier disable

EB0

Datalogic

EB1

Custom

Custom Code Identifier

EB2

EB3

EH abc

EA00

EA01 x

EA02 xx

three

EA03 xxx

EA04 xxxx

EA05 xxxxx

EA06 xxxxxx

seven

xxxxxxx

eight

xxxxxxxx

EA10

EA11 x

EA12 xx

three

EA13 xxx

EA14 xxxx

EA15 xxxxx

EA16 xxxxxx

seven

xxxxxxx

eight

xxxxxxxx

a = ASCII character.

b, c, x = HEX values representing an ASCII character.

a = ASCII character of the DATALOGIC STANDARD Code Identifier from the table on page 60.

b = Hex value of the first Custom Code Identifier character from 00 to FD;

FF = disable Code Identifier

c = Hex value of the second Custom Code Identifier character from 00 to FD;

FF = disable second character of Custom Code Identifier

x = Hex value from 00 to FE

171

GRYPHON™

DATA FORMAT (continued)

NOT FOR PEN EMULATION INTERFACES

DESCRIPTION STRING

Code Length Tx not transmitted

EE0

Field Adjustment transmitted in variable-digit format transmitted in fixed 4-digit format disable

EE1

EE2

EF0

EF a0d

EF a1d

EF a2d

Field Adjustment Character

Character Replacement left deletion disable character replacement

EF a3d

EG e

EO0

Address Stamping second character replacement third character replacement disable reader address stamping

EO2 afg

EO3 afg

RU0

RU1

Address Delimiter enable reader address stamping disable reader address delimiter enable reader address delimiter and select character

RV0

RV1 h

a = ASCII character.

d = a number from the Hex/Numeric Table

e, f, g, h = HEX values representing an ASCII character

a = ASCII character of the DATALOGIC STANDARD Code Identifier from the table on page 60.

d = a number in the range 01-32 from the Hex/Numeric Table

e = Hex value from 00 to FE

f = Hex value of the character to be replaced from 00 to FE

g = Hex value of the new character to insert from 00 to FE

FF = replace with no new character (remove character)

h = a HEX value in the range from 00 - FE representing the ASCII character.

POWER SAVE

DESCRIPTION STRING

Scan Rate 67 scans per sec.

BT0

Sleep State/USB Suspend

135 scans per sec.

270 scans per sec. disable

BT1

BT2

BQ0

Enter Sleep Timeout

(100 ms)

BR00-BR99

172

HOST CONFIGURATION STRINGS

READING PARAMETERS

DESCRIPTION STRING

Operating Mode hand-held operation

BP0

Hand-Held Operation software trigger

BK0

Stand Operation hardware trigger ready software trigger

Hardware Trigger Mode

Trigger-off Timeout

(s)

FLASH ON

(100 ms)

FLASH OFF

(100 ms)

Reads per Cycle

Safety Time

(100 ms)

Beeper Intensity

Beeper Tone trigger active level one read very low intensity tone 1

Beeper Type

Beeper Length monotone long

PDF Decoding Recognition Intensity low

Good Read Spot - Duration disabled

BK4

BU1

BA0

BD00 - BD99

BB001 - BB099

BB101 - BB199

BC0

BE00 - BE99

BG0

BH0

BJ0

BI0

BW0

BV0

173

GRYPHON™

DECODING PARAMETERS

DESCRIPTION STRING

Ink-spread disable

enable

Overflow control disable

enable

AX0

AX1

AW1

AW0

Interdigit control

enable

Puzzle Solver

TM disable

disable

enable

Decoding Safety one read

AV0

AV1

AU0

AU1

ED0

ED1

ED2

ED3

CODE SELECTION

DESCRIPTION STRING

DISABLE ALL FAMILY CODES

EAN/UPC disable EAN/UPC family

AZ0

EAN 8/EAN 13/UPC A/UPC E

EAN 8/EAN 13 without ADD ON with and without ADD ON without ADD ON with ADD ON 2 ONLY

AA0

AA1

AA5

AA8

AA3

UPC A/UPC E with ADD ON 5 ONLY with ADD ON 2 AND 5 without ADD ON with ADD ON 2 ONLY with ADD ON 5 ONLY

AAK

AAL

AA6

AA4

AAM

EAN 8 check digit transmission

EAN 13 check digit transmission with ADD ON 2 AND 5 disable enable disable enable

AAN

AA7

AAG0

AAG1

AAH0

UPC A check digit transmission

UPC E check digit transmission disable enable disable

AAH1

AAI0

AAI1

conversions enable

UPC E to UPC A

UPC E to EAN 13

UPC A to EAN 13

EAN 8 to EAN 13

AAJ0

AAJ1

AAA

AAB

AAC

AAD

174

HOST CONFIGURATION STRINGS

CODE SELECTION (continued)

DESCRIPTION STRING

ISBN Conversion codes enable ISBN

AP1

enable ISSN

AP2

enable ISBN and ISSN disable ISBN and ISSN

Code 39 disable Code 39 family

Standard no check digit control check digit control and transmission check digit control without transmission no check digit control Full ASCII check digit control and transmission check digit control without transmission

Code

AP3

AP0

AB0

AB11

AB12

AB13

AB21

AB22

AB23

AB3

AB4

AB* xxxx

2/5 disable Code 2/5 family

Interleaved 2/5 no check digit control check digit control and transmission check digit control without transmission

AC0

AC11 xxxx

AC12 xxxx

AC13 xxxx

Normal 2/5 5 bars no check digit control check digit control and transmission check digit control without transmission

Industrial 2/5 (IATA) no check digit control

AC21 xxxx

AC22 xxxx

AC23 xxxx

check digit control and transmission check digit control without transmission

AC31 xxxx

AC32 xxxx

AC33 xxxx

Matrix 2/5 3 bars no check digit control check digit control and transmission

AC41 xxxx

AC42 xxxx

check digit control without transmission

AC43 xxxx

AC5

CIP/HR

xxxx = ASCII numbers that define the code length where:

• First 2 digits = minimum acceptable code length.

• Second 2 digits = maximum acceptable code length.

The minimum code length must always be less than or equal to the maximum.

The maximum code length for all codes is 99 characters:

Examples:

0132 = variable length from 1 to 32 digits in the code.

1010 = 10 digit code length only.

175

GRYPHON™

CODE SELECTION (continued)

DESCRIPTION STRING

Codabar disable Codabar family

Standard no start/stop character equality control nor transmission no start/stop character equality control but transmission start/stop character equality control but no transmission start/stop character equality control and transmission

ABC Codabar no start/stop character equality control but transmission

Codabar ABC forced concatenation start/stop character case in transmission lower case

AD0

AD111

AD112

AD121

AD122

AD212

AD232

AD* xxxx

ADA0

Code 128 disable Code 128 family enable Code 128 - control without transmission of check digit enable EAN 128 - control without transmission of check digit

AI0

AI11

AI21

Code

ISBT 128 enable enable ISBT 128

Code 93 disable Code 93 family enable Code 93 - control without transmission of check digit

MOD10 no tx

MOD10 with tx

EQ1

AI31

AIL xxxx

AK0

AK1

AE0

AE1

AE2

AE3

AE4

AE5

AE6

AE7

xxxx = ASCII numbers that define the code length where:

• First 2 digits = minimum acceptable code length.

• Second 2 digits = maximum acceptable code length.

The minimum code length must always be less than or equal to the maximum.

The maximum code length for all codes is 99 characters:

EXAMPLES:

0132 = variable length from 1 to 32 digits in the code.

1010 = 10 digit code length only.

176

HOST CONFIGURATION STRINGS

CODE SELECTION (continued)

DESCRIPTION STRING

Standard no check

Standard check - with tx

Standard check - no tx

Anker check - with tx

Anker check - no tx

AF0

AF11

AF12

AF13

AF21

AF22

AF23

Delta IBM

Code 11

Code 16K

Numeric no check

Numeric check - with tx

Numeric check - no tx

Alpha check - with tx

Alpha check - no tx disable the family disable the family

Type C with tx

Type C no tx

Type K with tx

Type K no tx

Type C and K with tx

Type C and K no tx disable

enable

Code 49 disable

enable

PDF417 disable

enable

RSS Codes disable the family disable RSS Expanded Linear and Stacked enable RSS Expanded Linear and Stacked disable RSS Limited disable RSS 14 Linear and Stacked enable RSS 14 Linear and Stacked

AG0

AG1

AG21

AG22

AG31

AG32

AG41

AG42

AJ0

AJ1

AL0

AL11

AL12

AL13

AL21

AL22

AL23

AH0

AH1

AH2

AH3

AM0

AM1

AR0

AR1

AQ0

AQ10

AQ11

AQ20

AQ21

AQ30

AQ31

177

GRYPHON™

RADIO PARAMETERS

DESCRIPTION STRING

Radio Protocol Timeout

Power-Off Timeout

Beeper Control For Radio Response enable (seconds) normal only good decode

RH02-RH19

RP00-RP99

BF0

BF1

Battery Type only good reception off alkaline

BF2

BF3

Single Store

NiMh disable one attempt two attempts three attempts four attempts five attempts

RB0

RB1

RO0

RO1

RO2

RO3

RO4

RO5

six attempts seven attempts eight attempts nine attempts

RO6

RO7

RO8

RO9

178

CODE IDENTIFIER TABLE

B CODE IDENTIFIER TABLE

2/5 Interleaved

ÌNOÎ

2/5 Industrial

ÌPQÎ

2/5 normal 5 bars

ÌOPÎ

2/5 matrix 3 bars

ÌQRÎ

EAN 8

ÌABÎ

EAN 13

ÌBCÎ

UPC A

ÌCDÎ

UPC E

ÌDEÎ

EAN 8 with 2 ADD ON

ÌJKÎ

EAN 8 with 5 ADD ON

ÌKLÎ

EAN 13 with 2 ADD ON

ÌLMÎ

UPC A with 2 ADD ON

ÌFGÎ

EAN 13 with 5 ADD ON

ÌMNÎ

179

GRYPHON™

UPC A with 5 ADD ON

ÌGHÎ

UPC E with 5 ADD ON

ÌIJÎ

Code 39 Full ASCII

ÌWXÎ

ABC CODABAR

ÌSTÎ

EAN 128

ÌklÎ

CIP/39

ÌYZÎ

Code 32

ÌXYÎ

180

UPC E with 2 ADD ON

ÌHIÎ

Code 39

ÌVWÎ

CODABAR

ÌRSÎ

Code 128

ÌTUÎ

Code 93

ÌUVÎ

CIP/HR

ÌefÎ

ISBT 128

ÌfgÎ

MSI

ÌZ[Î

Plessey Standard

ÌabÎ

Telepen

ÌdeÎ

Code 11

ÌbcÎ

RSS Expanded Linear and Stacked

ÌtuÎ

RSS 14 Linear and Stacked

ÌuvÎ

CODE IDENTIFIER TABLE

Plessey Anker

ÌopÎ

Delta IBM

ÌcdÎ

Code 16K

ÌpqÎ

Code 49

ÌqrÎ

RSS Limited

ÌvwÎ

PDF417

ÌrsÎ

181

HEX AND NUMERIC TABLE

CHARACTER TO HEX CONVERSION TABLE char hex

CAN

EM

SUB

ESC

FS

GS

RS

US

DLE

DC1

DC2

DC3

DC4

NAK

SYN

ETB

BS

HT

LF

VT

FF

CR

SO

SI

NUL

SOH

STX

ETX

EOT

ENQ

ACK

BEL

SPACE

!

"

#

$

%

&

'

(

)

11

12

13

14

15

16

17

18

09

0A

0B

0C

0D

0E

0F

10

00

01

02

03

04

05

06

07

08

21

22

23

24

25

26

27

19

1A

1B

1C

1D

1E

1F

20

28

29 char hex char

F

G

H

I

B

C

D

E

>

?

@

A

<

=

:

;

6

7

8

9

2

3

4

5

0

1

.

/

,

-

*

+

N

O

P

Q

J

K

L

M

R

S

T s t q r m n o p k l i j e f g h a b c d

_

`

]

^

Y

Z

[

\

U

V

W

X

{

| y z u v w x

}

~

DEL

3B

3C

3D

3E

3F

40

41

42

33

34

35

36

37

38

39

3A

2A

2B

2C

2D

2E

2F

30

31

32

4B

4C

4D

4E

4F

50

51

43

44

45

46

47

48

49

4A

52

53

54

66

67

68

69

6A

6B

6C

6D

5E

5F

60

61

62

63

64

65

55

56

57

58

59

5A

5B

5C

5D

76

77

78

79

7A

7B

7C

6E

6F

70

71

72

73

74

75

7D

7E

7F

Ì01Î

0

Ì23Î

2

Ì45Î

4

Ì67Î

6

Ì89Î

8

ÌABÎ

A

ÌCDÎ

C

ÌEFÎ

E

HEX / NUMERIC TABLE

Backspace

Ì$%/Î

Cancels an incomplete configuration sequence

Ì12Î

1

Ì34Î

3

Ì56Î

5

Ì78Î

7

Ì9:Î

9

ÌBCÎ

B

ÌDEÎ

D

ÌFGÎ

F

HEX AND NUMERIC TABLE

CHARACTER TO HEX CONVERSION TABLE char hex

CAN

EM

SUB

ESC

FS

GS

RS

US

DLE

DC1

DC2

DC3

DC4

NAK

SYN

ETB

BS

HT

LF

VT

FF

CR

SO

SI

NUL

SOH

STX

ETX

EOT

ENQ

ACK

BEL

SPACE

!

"

#

$

%

&

'

(

)

11

12

13

14

15

16

17

18

09

0A

0B

0C

0D

0E

0F

10

00

01

02

03

04

05

06

07

08

21

22

23

24

25

26

27

19

1A

1B

1C

1D

1E

1F

20

28

29 char hex char

F

G

H

I

B

C

D

E

>

?

@

A

<

=

:

;

6

7

8

9

2

3

4

5

0

1

.

/

,

-

*

+

N

O

P

Q

J

K

L

M

R

S

T s t q r m n o p k l i j e f g h a b c d

_

`

]

^

Y

Z

[

\

U

V

W

X

{

| y z u v w x

}

~

DEL

3B

3C

3D

3E

3F

40

41

42

33

34

35

36

37

38

39

3A

2A

2B

2C

2D

2E

2F

30

31

32

4B

4C

4D

4E

4F

50

51

43

44

45

46

47

48

49

4A

52

53

54

66

67

68

69

6A

6B

6C

6D

5E

5F

60

61

62

63

64

65

55

56

57

58

59

5A

5B

5C

5D

76

77

78

79

7A

7B

7C

6E

6F

70

71

72

73

74

75

7D

7E

7F

Ì01Î

0

Ì23Î

2

Ì45Î

4

Ì67Î

6

Ì89Î

8

ÌABÎ

A

ÌCDÎ

C

ÌEFÎ

E

HEX / NUMERIC TABLE

Backspace

Ì$%/Î

Cancels an incomplete configuration sequence

Ì12Î

1

Ì34Î

3

Ì56Î

5

Ì78Î

7

Ì9:Î

9

ÌBCÎ

B

ÌDEÎ

D

ÌFGÎ

F

Australia

Datalogic Scanning Pty Ltd

North Ryde, Australia

Telephone: [61] (2) 9870 3200

Fax: [61] (2) 9878 8688

France and Benelux

Datalogic Scanning Sarl

LES ULIS Cedex, France

Telephone: [33].01.64.86.71.00

Fax: [33].01.64 46.72.44

Germany

Datalogic Scanning GmbH

Darmstadt, Germany

Telephone: 49 (0) 61 51/93 58-0

Fax: 49 (0) 61 51/93 58 58

Italy

Datalogic Scanning SpA

Vimercate (MI), Italy

Telephone: [39] (0) 39/62903.1

Fax: [39] (0) 39/6859496

Japan

Datalogic Scanning KK

Shinagawa, Tokyo, Japan

Telephone: 81 (0)3 3491 6761

Fax: 81 (0)3 3491 6656

Latin America

Datalogic Scanning, Inc

Miami, Florida, USA

Telephone: (305) 591-3222

Fax: (305) 591-3007

Spain and Portugal

Datalogic Scanning Sarl

Sucursal en España

Madrid, Spain

Telephone: 34 91 746 28 60

Fax: 34 91 742 35 33

United Kingdom

Datalogic Scanning LTD

Watford, England

Telephone: 44 (0) 1923 809500

Fax: 44 (0) 1923 809 505

www.scanning.datalogic.com

Datalogic Scanning, Inc.

959 Terry Street

Eugene, OR 97402

Telephone: (541) 683-5700

Fax: (541) 345-7140

©2007 Datalogic Scanning, Inc.

90ACC1780 (Rev. H)

9/07

Gryphon™

Reference Manual

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