GRYPHON™ Dx30/Mx30
Reference Manual
GRYPHON™ Dx30/Mx30
REFERENCE MANUAL
DATALOGIC S.p.A.
Via Candini 2
40012 - Lippo di Calderara di Reno
Bologna - Italy
Gryphon™ Dx30/Mx30
Ed.: 09/2006
This manual refers to software version 3.1.0 and later
ALL RIGHTS RESERVED
Datalogic reserves the right to make modifications and improvements without prior notification.
Datalogic shall not be liable for technical or editorial errors or omissions contained herein, nor for incidental
or consequential damages resulting from the use of this material.
Product names mentioned herein are for identification purposes only and may be trademarks and or
registered trademarks of their respective companies.
© Datalogic S.p.A. 2006
Rev. B
CONTENTS
GENERAL VIEW ....................................................................................... viii
1
2
INSTALLATION............................................................................................ 2
RS232 Connection........................................................................................ 4
Gryphon™ Mx30 Battery Maintenance ......................................................... 8
Battery Type.................................................................................................. 8
Battery Charging........................................................................................... 8
2.1
2.2
2.3
2.4
2.5
2.6
2.7
2.8
2.8.1
2.8.2
2.8.3
3
3.1
3.1.1
3.1.2
3.1.3
3.2
Stand Alone Layouts................................................................................... 10
Host Master Layout..................................................................................... 12
3.2.1
4
4.1
Configuration Methods................................................................................ 13
Using DL Sm@rtSet.................................................................................... 13
Copy Command.......................................................................................... 13
Sending Configuration Strings from Host.................................................... 14
Setup Procedures ....................................................................................... 14
Gryphon™ Dx30 Setup............................................................................... 15
Gryphon™ Mx30/OM-Gryphon™ Stand Alone Setup................................. 15
Using Multiple M-Series Readers With Same Cradle.................................. 17
Gryphon™ M/STAR-Modem™ in Stand Alone Mode ................................. 18
Gryphon™ M/STAR-System™ Setup ......................................................... 19
Interface Selection ...................................................................................... 21
USB Reader Configuration.......................................................................... 26
Changing Default Settings .......................................................................... 28
4.1.1
4.1.2
4.1.3
4.1.4
4.2
4.3
4.4
4.4.1
4.4.2
4.5
4.6
4.7
4.8
iii
Handshaking............................................................................................... 32
Ack/Nack Protocol....................................................................................... 33
Inter-character Delay................................................................................... 34
Serial Trigger Lock...................................................................................... 35
USB PARAMETERS .................................................................................. 36
Handshaking............................................................................................... 37
Ack/Nack Protocol....................................................................................... 37
Inter-character Delay................................................................................... 38
Serial Trigger Lock...................................................................................... 39
Keyboard Nationality................................................................................... 40
Inter-character Delay................................................................................... 41
Inter-code Delay.......................................................................................... 42
Control Character Emulation....................................................................... 42
USB Keyboard Speed................................................................................. 43
Keyboard Nationality................................................................................... 45
Inter-character Delay................................................................................... 47
Inter-code Delay.......................................................................................... 48
Keyboard Setting......................................................................................... 49
Control Character Emulation....................................................................... 51
PEN EMULATION ...................................................................................... 52
Operating Mode .......................................................................................... 53
Minimum Output Pulse................................................................................ 54
Conversion to Code 39 and Code 128........................................................ 55
Overflow...................................................................................................... 56
Output Level................................................................................................ 56
Idle Level..................................................................................................... 57
Inter-Block Delay......................................................................................... 57
iv
DATA FORMAT.......................................................................................... 58
Code Identifier............................................................................................. 61
Special Keys ............................................................................................... 65
Field Adjustment ......................................................................................... 66
Field Adjustment Character......................................................................... 67
Code Length Tx .......................................................................................... 67
POWER SAVE............................................................................................ 71
Sleep State/USB Suspend.......................................................................... 72
Enter Sleep Timeout ................................................................................... 73
Hand-Held Operation .................................................................................. 75
Stand Operation.......................................................................................... 75
Hardware Trigger Mode .............................................................................. 76
Trigger-off Timeout ..................................................................................... 76
Flash Mode ................................................................................................. 77
Reads per Cycle.......................................................................................... 77
Safety Time................................................................................................. 78
Beeper Intensity.......................................................................................... 78
Beeper Tone ............................................................................................... 79
Beeper Type ............................................................................................... 79
Beeper Length ............................................................................................ 79
DECODING PARAMETERS....................................................................... 82
Ink Spread................................................................................................... 83
Overflow Control ......................................................................................... 83
Interdigit Control.......................................................................................... 84
Decoding Safety.......................................................................................... 84
Puzzle Solver™ .......................................................................................... 85
CODE SELECTION.................................................................................... 86
EAN/UPC Family ........................................................................................ 88
2/5 Family ................................................................................................... 95
Code 39 Family........................................................................................... 96
v
Code 128 Family......................................................................................... 98
Codabar Family......................................................................................... 100
Plessey ..................................................................................................... 103
RSS Codes ............................................................................................... 109
Concatenation........................................................................................... 111
Advanced Formatting................................................................................ 114
Power-Off Timeout.................................................................................... 130
Battery Type.............................................................................................. 131
Single Store .............................................................................................. 132
5
5.1
Handshaking............................................................................................. 133
RX Timeout............................................................................................... 136
Pen Parameters........................................................................................ 136
Output and Idle Levels .............................................................................. 137
Inter-Block Delay....................................................................................... 138
Data Format.............................................................................................. 138
Header/Terminator Selection .................................................................... 138
Define Special Key Sequence................................................................... 140
Address Stamping..................................................................................... 147
Address Delimiter...................................................................................... 147
Power Save............................................................................................... 148
Sleep State/USB Suspend........................................................................ 148
Enter Sleep Timeout ................................................................................. 148
Standby..................................................................................................... 148
Reading Parameters ................................................................................. 149
5.1.1
5.1.2
5.1.3
5.1.4
5.2
5.2.1
5.2.2
5.2.3
5.2.4
5.2.5
5.3
5.3.1
5.3.2
5.3.3
5.3.4
5.4
5.4.1
5.4.2
5.4.3
5.5
vi
5.5.1
5.5.2
5.5.3
5.5.4
5.5.5
5.6
5.6.1
5.6.2
5.6.3
5.7
5.7.1
5.7.2
5.7.3
5.7.4
5.8
Hardware Trigger Mode ............................................................................ 149
Trigger-Off Timeout................................................................................... 149
Safety Time............................................................................................... 150
Ink-Spread ................................................................................................ 150
Overflow Control ....................................................................................... 150
Radio Parameters (Mx30 Series Only)...................................................... 151
Power-Off Timeout.................................................................................... 151
Single Store .............................................................................................. 152
Copy Gryphon™ Mx30 Series ................................................................... 155
Copy OM-Gryphon™ ................................................................................ 156
Battery Selection....................................................................................... 157
5.9
5.9.1
5.9.2
5.9.3
5.10
5.11
6
Gryphon Dx30........................................................................................... 159
Gryphon™ Mx30....................................................................................... 160
OM-Gryphon™ / C-Gryphon™.................................................................. 161
System and Radio Features...................................................................... 162
Status Indicators ....................................................................................... 162
Reading Diagrams .................................................................................... 164
6.1
6.2
6.3
6.4
6.5
6.6
A
B
C
HOST CONFIGURATION STRINGS........................................................ 167
CODE IDENTIFIER TABLE...................................................................... 180
HEX AND NUMERIC TABLE ................................................................... 184
vii
INTRODUCTION
1
1 INTRODUCTION
Datalogic has moved a step ahead in the concept of “instinctive reading. ”The new
Gryphon™ reader series 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 (D130 and D230) and two cordless (M130
and M230) 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
(D230 and M230) 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™ Dx30/Mx30
2
2 INSTALLATION
Connections should always be made with power OFF!
CAUTION
2.1 GRYPHON™ DX30 INTERFACE CABLE CONNECTIONS
The Gryphon™ Dx30 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™ Dx30 body.
Connections should always be made with power OFF!
CAUTION
2
INSTALLATION
2
2.2 OM-GRYPHON™ INTERFACE CABLE CONNECTIONS
Interface Cable
Power
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 Host 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™ Dx30/Mx30
2
6
GRYPHON™ Dx30/Mx30
2
2.8 GRYPHON™ MX30 BATTERY MAINTENANCE
2.8.1 Battery Type
You can install NiMh or Alkaline AA batteries in the Gryphon™ Mx30.
2.8.2
Battery Charging
Once the system is connected and powered, you can place the Gryphon™ Mx30 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 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.
8
INSTALLATION
2
2.8.3
Replacing Gryphon™ M Batteries
To change the batteries in your Gryphon™ Mx30 scanner, proceed as follows:
Battery
Cover Screw
1. Unscrew the battery cover screw.
2. Open the battery cover.
Battery
Cover
3. Replace the old batteries with new
ones, then screw the battery cover
back into place.
+
-
NiMh, or Alkaline AA Batteries
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.
WARNING
9
GRYPHON™ Dx30/Mx30
3
3 GRYPHON™ MX30 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.
10
GRYPHON™ MX30 SYSTEM AND NETWORK LAYOUTS
3
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™ Mx30 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.
11
GRYPHON™ Dx30/Mx30
3
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™ Mx30 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™
B. STAR-Box™ 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.
12
CONFIGURATION
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
DL Sm@rtSet is a Windows-based utility program providing a quick and user-friendly
configuration method via the RS232 or USB-COM interfaces.
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. 5.9.
13
GRYPHON™ Dx30/Mx30
4
4.1.4
Sending Configuration Strings from Host
An alternative configuration method is provided in Appendix A using the RS232 or
USB-COM interface. This method is particularly useful when many devices need to
be configured with the same settings. Batch files containing the desired parameter
4.2 SETUP PROCEDURES
For Gryphon™ Dx30 Series readers, follow the setup procedures in pars. 4.3, 4.6
and 4.7.
For Gryphon™ Mx30 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:
Begin Setup by choosing the setup
procedure for your GRYPHON™
reader as indicated below.
Gryphon™ Dx30
Par. 4.3
Par. 4.6
Par. 4.7
Stand Alone Applications
STAR-System™ Applications
Gryphon™ Mx30/OM-Gryphon™
Gryphon™ Mx30/STAR-System™
Par. 4.5
Par. 4.4
Par. 4.6
Optional Par. 4.4.1
•
•
STARGATE™
multiple guns per OM-Gryphon™
STAR-Modem™ in STAR-System™ Mode
GRYPHON™ Mx30/STAR-Modem™
in Stand Alone Mode
Par. 4.4.2
End of Setup
Your reader is now ready to read
barcodes using the default settings.
14
CONFIGURATION
4
4.3 GRYPHON™ DX30 SETUP
Read the restore default parameters code below.
1.
Restore Gryphon™ Dx30 Default
Ì$+$*oÎ
After reading the above code, go to par. 4.6 Interface Selection.
4.4 GRYPHON™ MX30/OM-GRYPHON™ STAND ALONE SETUP
Read the restore default parameters code below.
Restore Gryphon™Mx30 Default
1.
Ì$+$*oÎ
Read the codes below to set the radio address of the Gryphon™ Mx30 reader.
2.
Enter configuration
Ì$+;Î
Set Radio Address
3.
ÌRA0RFHÎ
+
four digits for the Gryphon™ Mx30 Address (from 0000 to 1999).
All readers used in the same area must have different addresses.
Exit and Save configuration
4.
Ì$-?Î
15
GRYPHON™ Dx30/Mx30
4
Read the Bind code to pair the Gryphon™ Mx30 to the OM-Gryphon™ cradle.
The reader is dedicated to the cradle. Any previously bound reader will be
excluded.
5.
To connect several readers to the same cradle see the following paragraph
4.4.1, ‘Using Multiple M Series Readers with Same Cradle'.
Bind
Ì$+RN0$-IÎ
The green LED on the Gryphon™ Mx30 will blink; the reader is ready to be
positioned onto the cradle.
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™ Mx30, and the green LED on the reader will go off.
6.
Green LED
Read the OM-Gryphon™ restore default code:
Restore OM-Gryphon™ default
7.
Ì$+RX0$-qÎ
Go to par. 4.6 Interface Selection.
16
CONFIGURATION
4
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).
Join
5.
Ì$+RN1$-NÎ
The green LED on the Gryphon™ Mx30 will blink: the reader is ready to be
positioned onto the cradle. Complete step 6.
END of procedure.
If the cradle is not Bound to a reader, its address assumes a
random value which can cause conflicts and malfunctions to other
cradles within its range.
CAUTION
YOUR READER IS NOW READY TO READ BARCODES.
To change the defaults see par. 4.8.
17
GRYPHON™ Dx30/Mx30
4
4.4.2
Gryphon™ M/STAR-Modem™ in Stand Alone Mode
To configure a Gryphon™ Mx30 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:
STAR-Modem™ Address
4.
ÌRSRÎ
Read the code above and the four-digit address of the STAR-Modem™.
Exit and Save configuration
5.
Ì$-?Î
END of procedure.
YOUR READER IS NOW READY TO READ BARCODES.
To change the defaults see par. 4.8.
18
CONFIGURATION
4
4.5 GRYPHON™ M/STAR-SYSTEM™ SETUP
The following procedure allows configuring
a
Gryphon™ Mx30 reader to
communicate with various STAR-System™ devices such as STARGATE™ RF base
stations.
Restore Gryphon™ Mx30 Default
1.
Ì$+$*oÎ
Enter configuration
2.
Ì$+;Î
Set the connection according to the length of the codes to be read:
3.
Code Length ≤240 Characters
ÌRA1aÎ
Code Length >240 Characters
ÌRA2dÎ
Set Radio Address
4.
ÌRF8Î
+
four digits from the Numeric Table in the range 0000-1999.
All readers must have different addresses.
19
GRYPHON™ Dx30/Mx30
4
First STAR-System™ Address
5.
ÌRSRÎ
Read the code above and the four-digit address of the First STAR-System™
device in the system.
Set Last STAR-System™ Address
6.
ÌRTTÎ
Read the code above and the four-digit address of the Last STAR-System™
device in the system.
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.
NOTE
Exit and Save Configuration
7.
Ì$-?Î
END of procedure.
YOUR READER IS NOW READY TO READ BARCODES.
To change the defaults see par. 4.8.
20
GRYPHON™ Dx30/Mx30
4
WEDGE
IBM AT or PS/2 PCs
Ì$+CP500$-aÎ
IBM XT
Ì$+CP503$-vÎ
PC Notebook
Ì$+CP505$-ÈÎ
IBM SURE1
Ì$+CP506$-$Î
IBM Terminal 3153
Ì$+CP504$-}Î
22
CONFIGURATION
4
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
23
GRYPHON™ Dx30/Mx30
4
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
24
CONFIGURATION
4
WEDGE (CONTINUED)
DIGITAL TERMINALS
VT2xx/VT3xx/VT4xx
Ì$+CP512$-uÎ
APPLE
APPLE ADB Bus
Ì$+CP513$-|Î
25
GRYPHON™ Dx30/Mx30
4
4.7 USB READER CONFIGURATION
The USB interface is compatible with:
Windows 98 (and later)
Mac OS 8.0 (and later)
IBM POS for Windows
4690 Operating System
USB Start-up
As with all USB devices, upon connection, the Host performs several checks by
communicating with the Gryphon™ Dx30. During this phase the green LED on the
Gryphon™ Dx30 reader blinks and normal operations are suspended. Two basic
conditions must be met before the Gryphon™ Dx30 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
First Start-Up
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
Connect Gryphon™
Dx30 to Host
selected from the dialog box (the first time only).
Green LED blinks
Load drivers
(if requested)
Normally the Host supplies sufficient power to the
reader, the start-up phase ends correctly, the green
Green LED off - BEEP OK
LED stops blinking and the reader emits the beep OK
signal.
Select desired USB
interface code
(USB-KBD is default)
In rare cases, 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 (green LED
continues blinking). In this case, disconnect the USB
Load drivers
(if requested)
device cable at the Host (green LED stops blinking);
and then try a different USB port as indicated by the
Operating System message. The reader emits the
Read test codes.
Reader is READY
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.datalogic.com.
The reader is ready to read barcodes. Successive start-ups will automatically
recognize the previously loaded drivers.
26
CONFIGURATION
4
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.datalogic.com.
27
GRYPHON™ Dx30/Mx30
4
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 first four groups are for Standard Interface parameter configuration:
RS232
USB
WEDGE
PEN EMULATION
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 (Mx30 series only) allow configuration of radio control
parameters.
28
RS232 PARAMETERS
All Gryphon™ Dx30 Series readers
+
Gryphon™ Mx30/OM-Gryphon™ configurations only
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
BAUD RATE
PARITY
DATA BITS
STOP BITS
HANDSHAKING
ACK/NACK PROTOCOL
FIFO
INTER-CHARACTER DELAY
RX TIMEOUT
SERIAL TRIGGER LOCK
1.
2.
Read the Enter Configuration code ONCE, available at the top of each page.
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
Exit and Save Configuration
RS232
Ì$+;Î
Ì$-?Î
INTER-CHARACTER DELAY
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
RX TIMEOUT
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.
34
Enter Configuration
Exit and Save Configuration
RS232
Ì$+;Î
Ì$-?Î
SERIAL TRIGGER LOCK
ꢀ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, Control character
emulation, USB keyboard speed
USB-IBM
No parameter selection required.
1.
2.
Read the Enter Configuration code ONCE, available at the top of each page.
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
Exit and Save Configuration
USB-COM
Ì$+;Î
Ì$-?Î
FIFO
disable
ÌEC0UÎ
ꢀenable
ÌEC1XÎ
See par. 5.1.3 for details.
INTER-CHARACTER DELAY
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
38
Enter Configuration
Exit and Save Configuration
USB-COM
Ì$+;Î
Ì$-?Î
RX TIMEOUT
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.
SERIAL TRIGGER LOCK
ꢀ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
Exit and Save Configuration
USB-KBD
Ì$+;Î
Ì$-?Î
KEYBOARD NATIONALITY
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
French
ÌFJ2jÎ
German
ÌFJ3mÎ
Italian
ÌFJ1gÎ
Japanese
ÌFJ8|Î
Spanish
ÌFJ6vÎ
Swedish
ÌFJ5sÎ
ꢀUSA
ÌFJ0dÎ
40
Enter Configuration
Exit and Save Configuration
USB-KBD
Ì$+;Î
Ì$-?Î
FIFO
disable
ÌEC0UÎ
ꢀenable
ÌEC1XÎ
See par. 5.1.3 for details.
INTER-CHARACTER DELAY
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
41
Enter Configuration
Exit and Save Configuration
USB-KBD
Ì$+;Î
Ì$-?Î
INTER-CODE DELAY
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
CONTROL CHARACTER EMULATION
ꢀCTRL + Shift + Key
ÌFO0nÎ
CTRL + Key
ÌFO1qÎ
42
WEDGE PARAMETERS
All Gryphon™ Dx30 Series readers
+
Gryphon™ Mx30/OM-Gryphon™ configurations only
ꢁ
ꢁ
ꢁ
ꢁ
KEYBOARD NATIONALITY
CAPS LOCK
CAPS LOCK
AUTO-RECOGNITION
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
NUM LOCK
INTER-CHARACTER DELAY
INTER-CODE DELAY
KEYBOARD SETTING
CONTROL CHARACTER
EMULATION
ꢁ
ꢁ
1.
2.
Read the Enter Configuration code ONCE, available at the top of each page.
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.
.
44
Enter Configuration
Exit and Save Configuration
WEDGE
Ì$+;Î
Ì$-?Î
KEYBOARD NATIONALITY
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
45
Enter Configuration
Exit and Save Configuration
WEDGE
Ì$+;Î
Ì$-?Î
CAPS LOCK
ꢀ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.
CAPS LOCK AUTO-RECOGNITION (IBM AT COMPATIBLE ONLY)
disable
ÌFP0pÎ
ꢀenable
ÌFP1sÎ
46
Enter Configuration
Exit and Save Configuration
WEDGE
Ì$+;Î
Ì$-?Î
NUM LOCK
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.
INTER-CHARACTER DELAY
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
47
Enter Configuration
Exit and Save Configuration
WEDGE
Ì$+;Î
Ì$-?Î
KEYBOARD SETTING
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.
49
01 : Shift
02 : Alt
03 : Ctrl
04 : Backspace
05 : SPACE
06 : !
07 : "
08 : #
09 : $
10 : %
11 : &
12 : '
13 : (
14 : )
15 : *
16 : +
17 : ,
18 : -
28 : 7
29 : 8
30 : 9
31 : :
51 : N
52 : O
53 : P
54 : Q
55 : R
56 : S
57 : T
58 : U
59 : V
60 : W
61 : X
62 : Y
63 : Z
64 : [
65 : \
66 : ]
67 : ^
68 : _ (underscore)
69 : `
32 : ;
33 : <
34 : =
35 : >
36 : ?
37 : @
38 : A
39 : B
40 : C
41 : D
42 : E
43 : F
44 : G
45 : H
46 : I
19 : .
20 : /
21 : 0
22 : 1
23 : 2
24 : 3
25 : 4
26 : 5
27 : 6
47 : J
48 : K
49 : L
50 : M
70 : {
71 : |
72 : }
73 : ~
74 : DEL
GRYPHON™ Mx30-Series Readers Only
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.
Do not place the reader onto the OM-GRYPHON™ cradle during this
procedure. Otherwise, the battery charging will occur modifying the LEDs
functioning.
CAUTION
Once the procedure has been completed, the green LED turns off.
50
PEN EMULATION
All Gryphon™ Dx30 Series readers
+
Gryphon™ Mx30/OM-Gryphon™ configurations only
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
OPERATING MODE
MINIMUM OUTPUT PULSE
CONVERSION TO CODE 39
OVERFLOW
OUTPUT LEVEL
IDLE LEVEL
INTER-BLOCK DELAY
1.
2.
Read the Enter Configuration code ONCE, available at the top of each page.
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.
52
PEN EMULATION
The operating mode parameters are complete commands and do not require reading the
Enter and Exit configuration codes.
OPERATING MODE
ꢀinterpret mode
Ì$]8Î
Interprets commands without sending them to the decoder.
transparent mode
Ì$[4Î
Sends commands to the decoder without interpreting them.
53
Enter Configuration
Exit and Save Configuration
PEN EMULATION
Ì$+;Î
Ì$-?Î
CONVERSION TO CODE 39 AND CODE 128
► disable conversion to Code 39
ÌDA0PÎ
Transmits codes in their original format.
ꢂenable 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™ Dx30 Series readers
ꢂ= default value fro Gryphon™ Mx30 Series readers
See par. 5.2.2 for details.
55
Enter Configuration
Exit and Save Configuration
PEN EMULATION
Ì$+;Î
Ì$-?Î
IDLE LEVEL
ꢀnormal
(black level)
ÌDE0XÎ
inverted
(white level)
ÌDE1[Î
See par. 5.2.4 for details.
INTER-BLOCK DELAY
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.
57
DATA FORMAT
NOT FOR PEN INTERFACES
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
CODE IDENTIFIER
CUSTOM CODE IDENTIFIER
HEADER
TERMINATOR
SPECIAL KEYS
FIELD ADJUSTMENT
FIELD ADJ. CHARACTER
CODE LENGTH TX
CHARACTER REPLACEMENT
ADDRESS STAMPING
ADDRESS DELIMITER
1.
2.
Read the Enter Configuration code ONCE, available at the top of each page.
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
DATA FORMAT
CODE IDENTIFIER TABLE
CODE
2/5 interleaved
AIM STANDARD DATALOGIC STANDARD Custom
] I y
] X y
] S y
] X y
] E 4
] E 0
] X y
] X y
] E 5
] E 6
] E 1
] E 2
] X y
] X y
] X y
] X y
] A y
] A y
] F y
] X y
] C y
] C y
] C4
N
P
O
Q
A
B
C
D
J
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
K
L
M
F
G
H
I
V
W
R
S
T
k
EAN 128
ISBT 128
f
Code 93
CIP/39
CIP/HR
Code 32
] 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
U
Y
e
X
Z
a
o
d
c
b
p
q
t
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
v
u
59
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.
60
Enter Configuration
Exit and Save Configuration
DATA FORMAT
Ì$+;Î
Ì$-?Î
CUSTOM CODE IDENTIFIER
define custom code identifier(s)
ÌEH/Î
ꢀ
ꢃ
ꢄ
Read the above code.
(Code Identifiers default to Datalogic standard, see table on previous page).
Select the code type from the code table in Appendix B for the identifier you want to
change.
ꢅ
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 ꢄ: valid characters are in the range 00-FD. For Wedge and USB-KBD
interfaces, it is also possible to read the Special Key(s) on page 65.
Example:
To define Code 39 Code Identifier = @
define custom code identifier(s)
Code 39
Read
+
+
40
+
FF
ÌEH/Î ÌVWÎ
62
Enter Configuration
Exit and Save Configuration
DATA FORMAT
Ì$+;Î
Ì$-?Î
HEADER
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. For Wedge and USB-KBD interfaces, it is also possible to read the Special Key(s)
on page 65.
Example:
four character header
+ 41 + 42 + 43 + 44 = Header ABCD
For more details see par. 5.3.1.
63
Enter Configuration
Exit and Save Configuration
DATA FORMAT
Ì$+;Î
Ì$-?Î
TERMINATOR
no terminator
ÌEA10-Î
one character terminator
ÌEA111Î
ꢀ
ꢀ
ꢀ
ꢀ
two character terminator
ÌEA125Î
ꢀ
ꢀ
ꢀ
ꢀ
three character terminator
ÌEA139Î
four character terminator
ÌEA14=Î
five character terminator
ÌEA15AÎ
six character terminator
ÌEA16EÎ
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. For Wedge and USB-KBD interfaces, it is also possible to read the Special Key(s)
on page 65.
Example:
two character terminator
+ 0D + 0A = Terminator CR LF
For more details see par. 5.3.1.
64
Enter Configuration
Exit and Save Configuration
DATA FORMAT
Ì$+;Î
Ì$-?Î
SPECIAL KEYS
Available only for Wedge IBM AT-PS/2 and USB-KBD Interfaces
It is necessary to define each Special Key by following the procedure given in
par. 5.3.2.
NOTE
Select one or more of the following Special Keys according to your needs.
Special Key 1
Ì9CÄÎ
Special Key 2
Ì9DÆÎ
Special Key 3
Ì9EÈÎ
Special Key 4
Ì9FÊÎ
Special Key 5
ÌA0bÎ
65
Enter Configuration
Exit and Save Configuration
DATA FORMAT
Ì$+;Î
Ì$-?Î
FIELD ADJUSTMENT
ꢀ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:
ꢃ Read the enable field adjustment code:
enable field adjustment
ÌEF+Î
ꢀ
ꢄ Select the code type from the Code Identifier Table in Appendix B.
ꢅ Select the type of adjustment to perform:
right addition
Ì01Î
left addition
Ì12Î
right deletion
Ì23Î
left deletion
Ì34Î
ꢆ 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
+
+
+
04
ÌEF+Î ÌVWÎ Ì01Î
66
Enter Configuration
Exit and Save Configuration
DATA FORMAT
Ì$+;Î
Ì$-?Î
FIELD ADJUSTMENT CHARACTER
ꢃ Read the field adjustment character code:
field adjustment character
ÌEG-Î
ꢀ
ꢄ Read the hexadecimal value corresponding to the character you want to use for field
adjustment. Valid characters are in the range 00-FE. For Wedge and USB-KBD interfaces, it
is also possible to read the Special Key(s) on page 65.
Example:
To define the field adjustment character = A:
field adjustment character
Read
+ 41
CODE LENGTH TX
ꢀ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.
67
Enter Configuration
Exit and Save Configuration
DATA FORMAT
Ì$+;Î
Ì$-?Î
CHARACTER REPLACEMENT
ꢀ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:
ꢃ
Read one of the following character replacement codes:
first character replacement
ÌEO1pÎ
ꢀ
second character replacement
ÌEO2sÎ
ꢀ
third character replacement
ÌEO3vÎ
ꢀ
ꢄ
ꢅ
ꢆ
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.
From the Hex/Numeric Table read two characters corresponding to the Hex value (00-FE)
which identifies the character to be replaced. For Wedge and USB-KBD interfaces, it is
also possible to read the Special Key(s) on page 65.
From the Hex/Numeric Table read two characters corresponding to the Hex value (00-FE)
which identifies the new character to replace. For Wedge and USB-KBD interfaces, it is
also possible to read the Special Key(s) on page 65.
FF = the character to be replaced will be substituted with no character, that is, it will be
removed from the code.
68
Enter Configuration
Exit and Save Configuration
DATA FORMAT
Ì$+;Î
Ì$-?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.
ASCII characters corresponding ASCII characters corresponding
first character replacement
Code 39
to the HEX value for character 0
to the HEX value for character 1
+
+
30
+
31
ÌEO1pÎ ÌVWÎ
For Code 39 codes containing the string "0123", the contents transmitted will be "1123".
second character
replacement
ASCII characters corresponding ASCII characters corresponding
Code 39
to the HEX value for character A
to the HEX value for character B
+
+
41
+
42
ÌEO2sÎ ÌVWÎ
For Code 39 codes containing the string "ABCD", the contents transmitted will be "BBCD".
69
Enter Configuration
Exit and Save Configuration
DATA FORMAT
Ì$+;Î
Ì$-?Î
ADDRESS STAMPING (MX30 SERIES ONLY)
ꢀdisable reader address stamping
ÌRU0ÊÎ
enable reader address stamping
ÌRU1"Î
See par. 5.3.3 for details.
ADDRESS DELIMITER (MX30 SERIES ONLY)
ꢀdisable reader address delimiter
ÌRV0!Î
enable reader address delimiter and select characters
ÌRV1$Î
ꢀ
Read 2 HEX characters in the range 00-FE.
See par. 5.3.4 for details.
70
POWER SAVE
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
SCAN RATE
SLEEP STATE/USB SUSPEND
ENTER SLEEP TIMEOUT
STANDBY
1.
2.
Read the Enter Configuration code ONCE, available at the top of each page.
Read configuration codes from the desired groups.
= Read the code and follow the procedure given
ꢀ
ꢀ
= Default value
3.
Read the Exit and Save Configuration code ONCE, available at the top of
each page.
71
Enter Configuration
Exit and Save Configuration
POWER SAVE
Ì$+;Î
Ì$-?Î
SCAN RATE
67 scans per sec.
ÌBT0tÎ
135 scans per sec.
ÌBT1wÎ
ꢀ270 scans per sec.
ÌBT2zÎ
A lower scan rate reduces power consumption but can lengthen reading response time.
SLEEP STATE/USB SUSPEND
ꢀdisable
ÌBQ0nÎ
enable
ÌBQ1qÎ
See par. 5.4.1 for details.
For Mx30 series readers, sleep state is entered immediately after reading a code and is not
configurable.
72
Enter Configuration
Exit and Save Configuration
POWER SAVE
Ì$+;Î
Ì$-?Î
ENTER SLEEP TIMEOUT
enter sleep timeout
ÌBR@Î
ꢀ
Read 2 numbers in the range 00-99:
00 = Enter Sleep state immediately
01-99 = corresponds to a max. 9.9 sec. delay before entering the
Sleep state.
ꢀenter sleep timeout = 0.6 sec.
See par. 5.4.2 for details.
STANDBY
ꢀdisable
ÌBM1iÎ
optimize for reading speed
enable
ÌBM0fÎ
optimize for low power consumption
See par. 5.4.3 for details.
For Mx30 series readers, standby is always enabled and is not configurable.
73
READING PARAMETERS
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
HAND-HELD OPERATION
STAND OPERATION
HARDWARE TRIGGER MODE
TRIGGER-OFF TIMEOUT
FLASH MODE
READS PER CYCLE
SAFETY TIME
BEEPER INTENSITY
BEEPER TONE
BEEPER TYPE
BEEPER LENGTH
PDF DECODING RECOGNITION
INTENSITY
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
GOOD READ SPOT DURATION
AUTOMATIC OPERATION
AIMING LIGHT
1.
2.
Read the Enter Configuration code ONCE, available at the top of each page.
Read configuration codes from the desired groups.
= Read the code and follow the procedure given
ꢀ
ꢀ
= Default value
3.
Read the Exit and Save Configuration code ONCE, available at the top of
each page.
74
Enter Configuration
Exit and Save Configuration
READING PARAMETERS
Ì$+;Î
Ì$-?Î
HAND-HELD OPERATION
ꢀhardware trigger
ÌBK1eÎ
software trigger
ÌBK0bÎ
* always on
ÌBK3kÎ
not available for Mx30 series readers
*
automatic
ÌBK2hÎ
hardware trigger ready
ÌBK4nÎ
STAND OPERATION
hardware trigger
ÌBU3ÃÎ
software trigger
ÌBU1yÎ
* always on
ÌBU2|Î
*
not available for Mx30 series readers
ꢀautomatic
ÌBU0vÎ
75
Enter Configuration
Exit and Save Configuration
READING PARAMETERS
Ì$+;Î
Ì$-?Î
HARDWARE TRIGGER MODE
ꢀtrigger active level
ÌBA0NÎ
trigger active pulse
ÌBA1QÎ
See par. 5.5.1 for details
TRIGGER-OFF TIMEOUT
trigger-off timeout
ÌBD$Î
ꢀ
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. 5.5.2 for details.
76
Enter Configuration
Exit and Save Configuration
READING PARAMETERS
Ì$+;Î
Ì$-?Î
FLASH MODE
"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
READS PER CYCLE
ꢀone read per cycle
ÌBC0RÎ
multiple reads per cycle
ÌBC1UÎ
See par. 5.5.3 for details.
77
Enter Configuration
Exit and Save Configuration
READING PARAMETERS
Ì$+;Î
Ì$-?Î
SAFETY TIME
safety time
ÌBE&Î
ꢀ
Limits same code consecutive reading.
Read 2 numbers in the range 00-99:
00 = no same code consecutive reading until reader is
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. 5.5.4 for details.
BEEPER INTENSITY
* 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.
78
DECODING PARAMETERS
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
INK SPREAD
INTERDIGIT CONTROL
DECODING SAFETY
PUZZLE SOLVER™
Before changing these parameter values read the descriptions in
par. 5.6.
CAUTION
1.
2.
Read the Enter Configuration code ONCE, available at the top of each page.
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.
82
Enter Configuration
Exit and Save Configuration
DECODING PARAMETERS
Ì$+;Î
Ì$-?Î
INTERDIGIT CONTROL
disable
ÌAV0wÎ
ꢀenable
ÌAV1zÎ
See par. 5.6.3 for details.
DECODING SAFETY
ꢀone read
ÌED0WÎ
(decoding safety disabled)
two reads
ÌED1ZÎ
three reads
ÌED2]Î
four reads
ÌED3`Î
Required number of good reads before accepting code.
84
Enter Configuration
Exit and Save Configuration
DECODING PARAMETERS
Ì$+;Î
Ì$-?Î
PUZZLE SOLVER™
ꢀ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
EAN 13
UPC A
without Add-on
without Add-on
without Add-on
Code 128
Code 39
•
•
For Code 39, Check digit control is forced.
PuzzleSolver™ is not valid for ISBT 128 code.
85
CODE SELECTION
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
EAN/UPC FAMILY
2/5 FAMILY
CODE 39 FAMILY
CODE 128 FAMILY
CODABAR FAMILY
CODE 93
MSI
PLESSEY
TELEPEN
DELTA IBM
CODE 11
CODE 16K
CODE 49
PDF417
ꢁ
ꢁ
ꢁ
ꢁ
PDF READERS ONLY
RSS CODES
1.
2.
Read the Enter Configuration code ONCE, available at the top of each page.
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.
86
Enter Configuration
Exit and Save Configuration
CODE SELECTION
Ì$+;Î
Ì$-?Î
DISABLE ALL CODE FAMILIES
ÌAZ0ÃÎ
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.
NOTE
SINGLE
SELECTIONS =
•
•
ONE combination code from the EAN family
ONE code from the 2/5 family
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.
87
Enter Configuration
Exit and Save Configuration
CODE SELECTION
Ì$+;Î
Ì$-?Î
EAN/UPC FAMILY
disable the family
ÌAA0MÎ
ꢃ
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.
WITHOUT ADD ON
ꢀEAN 8/EAN 13/UPC A/UPC E
ÌAA1PÎ
EAN 8/EAN 13
ÌAA3VÎ
UPC A/UPC E
ÌAA4YÎ
88
Enter Configuration
Exit and Save Configuration
CODE SELECTION
Ì$+;Î
Ì$-?Î
WITH ADD ON 2 AND 5
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
UPC A/UPC E
ÌAAM=Î
WITH ADD ON 5 ONLY
EAN 8/EAN 13
ÌAAL:Î
UPC A/UPC E
ÌAAN@Î
89
Enter Configuration
Exit and Save Configuration
CODE SELECTION
Ì$+;Î
Ì$-?Î
WITH AND WITHOUT ADD ON
ꢀEAN/UPC with and without ADD ON no
Autodiscrimination
ÌAA8Ad03Î
EAN/UPC Autodiscrimination ADD ON by
Prefix
ÌAA8Ad19Î
By setting the EAN/UPC Autodiscrimination ADD ON by Prefix, the desired prefixes
must be selected by reading the corresponding codes given in the following section,
since no prefix is configured by default.
90
Enter Configuration
Exit and Save Configuration
CODE SELECTION
Ì$+;Î
Ì$-?Î
SELECT EAN/UPC PREFIXES
When scanning the following codes, barcodes starting with the
selected prefixes will be read and transmitted only if the ADD ON is
present. If no ADD ON is found, the barcode will not be read.
Barcodes starting with different characters are read regardless of ADD
ON presence and transmitted always without ADD ON.
NOTE
ꢀCancel All Selections
ÌET0wÎ
OR
select one or more of the following prefixes:
378/379
ÌET1378ET2379PÎ
434/439
ÌET3434ET4439ÉÎ
414/419
ÌET5414ET6419}Î
977
ÌET7977QÎ
978
ÌET8978ZÎ
979
ÌET9979cÎ
The commands above are not mutually exclusive. They can be used to configure
more than one set of prefixes simultaneously.
91
Enter Configuration
Exit and Save Configuration
CODE SELECTION
Ì$+;Î
Ì$-?Î
Example:
The following string allows reading and transmitting with ADD ON all EAN/UPC starting with the
434/439, 977 and 978 prefixes:
1.
2.
EAN/UPC Autodiscrimination ADD ON by Prefix.
434/439: enables reading and transmission with ADD ON of all EAN/UPC barcodes
starting with 434/439 prefixes.
3.
4.
977: enables reading and transmission with ADD ON of all EAN/UPC barcodes starting
with 977 prefix.
978: enables reading and transmission with ADD ON of all EAN/UPC barcodes starting
with 978 prefix.
EAN/UPC Autodiscrimination ADD ON by
434/439
Prefix
+
+
ÌAA8Ad19Î ÌET3434ET4439ÉÎ
977
978
+
+
ÌET7977QÎ ÌET8978ZÎ
To clear the current prefix selections:
1.
Cancel all Selections
Cancel All Selections
ÌET0wÎ
92
Enter Configuration
Exit and Save Configuration
CODE SELECTION
Ì$+;Î
Ì$-?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
NO CHECK DIGIT
TRANSMISSION
ꢀEAN 8
ÌAAG1oÎ
EAN 8
ÌAAG0kÎ
ꢀEAN 13
ÌAAH1rÎ
EAN 13
ÌAAH0nÎ
ꢀUPC A
ÌAAI1uÎ
UPC A
ÌAAI0qÎ
ꢀUPC E
ÌAAJ1xÎ
UPC E
ÌAAJ0tÎ
93
Enter Configuration
Exit and Save Configuration
CODE SELECTION
Ì$+;Î
Ì$-?Î
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
94
Enter Configuration
Exit and Save Configuration
CODE SELECTION
Ì$+;Î
Ì$-?Î
2/5 FAMILY
disable the family
ÌAC0QÎ
ꢃ
Read the desired family code
ꢄ
Read a check digit selection
ꢀInterleaved 2/5
ÌAC1TÎ
CHECK DIGIT TABLE
ꢀ
no check digit control
Ì12Î
Normal 2/5 (5 Bars)
ÌAC2WÎ
ꢀ
ꢀ
ꢀcheck digit control and transmission
Ì23Î
Industrial 2/5 (IATA)
ÌAC3ZÎ
check digit control without transmission
Ì34Î
Matrix 2/5 (3 Bars)
ꢅ Read 4 numbers for the code length
ÌAC4]Î
where:
ꢀ
−
−
First
length.
2
digits
=
minimum code
Second 2 digits = maximum code
length.
The pharmaceutical code below is part of
the 2/5 family but has no check digit or
code length selections.
The maximum code length is 99
characters.
The minimum code length must always
be less than or equal to the maximum.
Code CIP/HR
ÌAC5`Î
Examples:
0199 = variable from 1 to 99 digits in
the code.
1010 = 10 digit code length only.
French pharmaceutical code
95
Enter Configuration
Exit and Save Configuration
CODE SELECTION
Ì$+;Î
Ì$-?Î
CODE 39 FAMILY
disables the family
ÌAB0OÎ
ꢃ
Read the desired family code
ꢄ
Read a check digit selection
CHECK DIGIT TABLE
ꢀno check digit control
Ì12Î
ꢀStandard Code 39
ÌAB1RÎ
ꢀ
ꢀ
check digit control
and transmission
Full ASCII Code 39
ÌAB2UÎ
Ì23Î
check digit control
without transmission
Ì34Î
96
Enter Configuration
Exit and Save Configuration
CODE SELECTION
Ì$+;Î
Ì$-?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
set code length
Read the code + 4 numbers for the code length where:
First 2 digits = minimum code length.
ÌAB*=Î
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.
97
Enter Configuration
Exit and Save Configuration
CODE SELECTION
Ì$+;Î
Ì$-?Î
CODE 128 FAMILY
disables the family
ÌAI0]Î
ꢃ
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.
98
Enter Configuration
Exit and Save Configuration
CODE SELECTION
Ì$+;Î
Ì$-?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.
set code length
Read the code + 4 numbers for the code length where:
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.
CODE 93
ꢀdisables the code
ÌAK0aÎ
Code 93
ÌAK1dÎ
control without transmission
of check digit
99
Enter Configuration
Exit and Save Configuration
CODE SELECTION
Ì$+;Î
Ì$-?Î
CODABAR FAMILY
ꢀdisable the family
ÌAD0SÎ
ꢃ
Read the desired equality control code
ꢄ
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.
100
Enter Configuration
Exit and Save Configuration
CODE SELECTION
Ì$+;Î
Ì$-?Î
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
set code length
Read the code + 4 numbers for the code length where:
First 2 digits = minimum code length.
ÌAD*AÎ
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.
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
101
Enter Configuration
Exit and Save Configuration
CODE SELECTION
Ì$+;Î
Ì$-?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
102
Enter Configuration
Exit and Save Configuration
CODE SELECTION
Ì$+;Î
Ì$-?Î
PLESSEY
ꢀ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 transmitted
ÌAF12;Î
check digit control
check digit not transmitted
ÌAF13?Î
Anker Plessey
no check digit control
ÌAF21:Î
check digit control
check digit transmitted
ÌAF22>Î
check digit control
check digit not transmitted
ÌAF23BÎ
103
Enter Configuration
Exit and Save Configuration
CODE SELECTION
Ì$+;Î
Ì$-?Î
TELEPEN
ꢀ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 transmitted
ÌAL12GÎ
check digit control
check digit not transmitted
ÌAL13KÎ
Alphanumeric Telepen
no check digit control
ÌAL21FÎ
check digit control
check digit transmitted
ÌAL22JÎ
check digit control
check digit not transmitted
ÌAL23NÎ
104
Enter Configuration
Exit and Save Configuration
CODE SELECTION
Ì$+;Î
Ì$-?Î
CODE 11
ꢀdisable the family
ÌAG0YÎ
Enable the code by selecting one of the check digit selections.
no check digit control
ÌAG1\Î
Type C check digit control
check digit transmitted
ÌAG21<Î
Type C check digit control
check digit not transmitted
ÌAG22@Î
Type K check digit control
check digit transmitted
ÌAG31?Î
Type K check digit control
check digit not transmitted
ÌAG32CÎ
Type C and Type K
check digit control
check digits transmitted
ÌAG41BÎ
Type C and Type K
check digit control
check digits not transmitted
ÌAG42FÎ
106
Enter Configuration
Exit and Save Configuration
CODE SELECTION
Ì$+;Î
Ì$-?Î
CODE 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.
CODE 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.
107
Enter Configuration
Exit and Save Configuration
CODE SELECTION
Ì$+;Î
Ì$-?Î
PDF417
Only PDF417 series 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.
108
Enter Configuration
Exit and Save Configuration
CODE SELECTION
Ì$+;Î
Ì$-?Î
RSS CODES
ꢀdisable the family
ÌAQ0mÎ
DISABLE CODE
ENABLE CODE
disable RSS Expanded Linear and Stacked
ÌAQ10IÎ
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.
109
ADVANCED FORMATTING
NOT FOR PEN INTERFACES
ꢁ
ꢁ
ꢁ
ꢁ
CONCATENATION
ADVANCED FORMATTING
Please follow the setup procedure carefully for these parameters.
NOTE
NOTE
The Advanced Formatting parameters may not be compatible with the
IBM USB POS interface selection.
1.
2.
Read the Enter Configuration code ONCE, available at the top of page .
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.
110
Enter Configuration
Exit and Save Configuration
ADVANCED FORMATTING
Ì$+;Î
Ì$-?Î
CONCATENATION
ꢀ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
Code 1
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.
111
Exit and Save Configuration
ADVANCED FORMATTING
Ì$-?Î
Code 2
2
code ID
ÌEK1hÎ
ꢀ
Read the code type from the Code Identifier Table beginning in Appendix B.
code length
ÌEL1jÎ
ꢀ
Read a number in the range 01-99 from the Hex/Numeric Table.
Concatenation Result Code ID
3
use code 1 ID
ÌEN0kÎ
use code 2 ID
ÌEN1nÎ
Since you can concatenate codes from different families, you must select the Code ID character
of the resulting code. The Code ID character will be sent in the output message only if it is
enabled according to the Code Identifier selection (Datalogic, AIM, or Custom).
Concatenation Timeout
4
timeout
ÌEJ3Î
ꢀ
Read two numbers in the range 00 to 99
00= no timeout
01-99 = timeout from 1 to 99 seconds
Define the timeout, which determines the valid waiting period between the two codes, in order to
accept concatenation. If the timeout expires, the resulting action will be based on the following
selection. (HHDII)
112
Exit and Save Configuration
ADVANCED FORMATTING
Ì$-?Î
Transmission after Timeout
5
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
113
ADVANCED FORMATTING
ADVANCED FORMATTING
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
114
Enter Configuration
Exit and Save Configuration
ADVANCED FORMATTING
Ì$+;Î
Ì$-?Î
1
Begin Format Definition
begin Format 1 definition
ÌHA0TÎ
ꢀ
ꢀ
ꢀ
begin Format 2 definition
ÌHA1WÎ
begin Format 3 definition
ÌHA2ZÎ
begin Format 4 definition
ÌHA3]Î
ꢀ
2
Match Code Type
match code type
ÌHB&Î
ꢀ
Read the above code + the code type to match from the Code Identifier Table in Appendix B.
any code type
OR
ÌHB0VÎ
3
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.
any code length
OR
ÌHC001Î
115
Exit and Save Configuration
ADVANCED FORMATTING
Ì$-?Î
Match with Predefined Characters
4
no match
ÌHD0HE00ÄÎ
OR
match with 1 character
ÌHD1]Î
ꢀ
match with a 2-character string
ÌHD2`Î
ꢀ
ꢀ
ꢀ
match with a 3-character string
ÌHD3cÎ
match with a 4-character string
ÌHD4fÎ
After selecting the predefined match code, read the character(s) from the HEX table. Range
of characters = 01-FE.
Example:
Match code with the 2-character predefined string = "@@".
Match with a 2-character string
Read
+ 40 + 40
position of first character in predefined string
AND
ÌHE,Î
ꢀ
Read the above code + two numbers in the range 01 to 99 representing the character
position in the code where the first character of the predefined string must be found.
Read 00 if the match string can be found in any character position.
116
Exit and Save Configuration
ADVANCED FORMATTING
Ì$-?Î
Divide Code into Fields
divide code into fields
ÌHF.Î
5
ꢀ
Read one number in the range 1 to 5 to divide the code into fields.
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) defining a match character to be found consecutively repeated in the code itself. In this
case the field ends with the first character that does not match.
OR BY
c) specifying a specific character length up to the maximum of 99 characters.
OR BY
d) 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.
117
Exit and Save Configuration
ADVANCED FORMATTING
Ì$-?Î
DEFINE FIELD 1 BY:
EITHER
field separator
a)
ÌHG0`Î
ꢀ
Read the field separator character from the HEX table. Range of characters = 01-FE.
discard separator
include separator
Ì01Î
Ì12Î
OR
match character
b)
ÌHG3iÎ
ꢀ
Read the match character from the HEX table. Range of characters = 01-FE.
OR
field length
c)
ÌHG1cÎ
ꢀ
Read two numbers in the range 01 to 99 to define the field length.
OR
this is the last field (variable length)
d)
ÌHG2fÎ
ꢀ
AND
no field terminators
ÌHH0bÎ
1 field terminator
2 field terminators
ÌHH1eÎ
ÌHH2hÎ
ꢀ
ꢀ
Read the field terminator character(s) from the HEX table. Valid range of characters for all
readers = 01-FE. For Wedge and USB-KBD interfaces, it is also possible to read the Special
Key(s) on page 65.
118
Exit and Save Configuration
ADVANCED FORMATTING
Ì$-?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
match character
b)
ÌHG3iÎ
ꢀ
Read the match character from the HEX table. Range of characters = 01-FE.
OR
field length
c)
ÌHG1cÎ
ꢀ
Read two numbers in the range 01 to 99 to define the field length.
OR
this is the last field (variable length)
d)
ÌHG2fÎ
ꢀ
AND
no field terminators
ÌHH0bÎ
1 field terminator
2 field terminators
ÌHH1eÎ
ÌHH2hÎ
ꢀ
ꢀ
Read the field terminator character(s) from the HEX table. Valid range of characters for all
readers = 01-FE. For Wedge and USB-KBD interfaces, it is also possible to read the Special
Key(s) on page 65.
119
Exit and Save Configuration
ADVANCED FORMATTING
Ì$-?Î
DEFINE FIELD 3 BY:
EITHER
field separator
a)
ÌHG0`Î
ꢀ
Read the field separator character from the HEX table. Range of characters = 01-FE.
discard separator
include separator
Ì01Î
Ì12Î
OR
match character
b)
ÌHG3iÎ
ꢀ
Read the match character from the HEX table. Range of characters = 01-FE.
OR
field length
c)
ÌHG1cÎ
ꢀ
Read two numbers in the range 01 to 99 to define the field length.
OR
this is the last field (variable length)
d)
ÌHG2fÎ
ꢀ
AND
no field terminators
ÌHH0bÎ
1 field terminator
2 field terminators
ÌHH1eÎ
ÌHH2hÎ
ꢀ
ꢀ
Read the field terminator character(s) from the HEX table. Valid range of characters for all
readers = 01-FE. For Wedge and USB-KBD interfaces, it is also possible to read the Special
Key(s) on page 65.
120
Exit and Save Configuration
ADVANCED FORMATTING
Ì$-?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
match character
b)
ÌHG3iÎ
ꢀ
Read the match character from the HEX table. Range of characters = 01-FE.
OR
field length
c)
ÌHG1cÎ
ꢀ
Read two numbers in the range 01 to 99 to define the field length.
OR
this is the last field (variable length)
d)
ÌHG2fÎ
ꢀ
AND
no field terminators
ÌHH0bÎ
1 field terminator
2 field terminators
ÌHH1eÎ
ÌHH2hÎ
ꢀ
ꢀ
Read the field terminator character(s) from the HEX table. Valid range of characters for all
readers = 01-FE. For Wedge and USB-KBD interfaces, it is also possible to read the Special
Key(s) on page 65.
121
Exit and Save Configuration
ADVANCED FORMATTING
Ì$-?Î
DEFINE FIELD 5 BY:
EITHER
field separator
a)
ÌHG0`Î
ꢀ
Read the field separator character from the HEX table. Range of characters = 01-FE.
discard separator
include separator
Ì01Î
Ì12Î
OR
match character
b)
ÌHG3iÎ
ꢀ
Read the match character from the HEX table. Range of characters = 01-FE.
OR
field length
c)
ÌHG1cÎ
ꢀ
Read two numbers in the range 01 to 99 to define the field length.
OR
this is the last field (variable length)
d)
ÌHG2fÎ
ꢀ
AND
no field terminators
ÌHH0bÎ
1 field terminator
2 field terminators
ÌHH1eÎ
ÌHH2hÎ
ꢀ
ꢀ
Read the field terminator character(s) from the HEX table. Valid range of characters for all
readers = 01-FE. For Wedge and USB-KBD interfaces, it is also possible to read the Special
Key(s) on page 65.
122
Exit and Save Configuration
ADVANCED FORMATTING
Ì$-?Î
First Additional Fixed Field
no fixed field
7
ÌHI0dÎ
1 character fixed field
ÌHI1gÎ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
2 character fixed field
ÌHI2jÎ
3 character fixed field
ÌHI3mÎ
4 character fixed field
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 Wedge and USB-KBD interfaces, it is
also possible to read the Special Key(s) on page 65.
Example:
4 Character Fixed Field
+ 4D + 41 + 49 + 4E = MAIN
123
Exit and Save Configuration
ADVANCED FORMATTING
Ì$-?Î
Second Additional Fixed Field
no fixed field
8
ÌHJ0fÎ
1 character fixed field
ÌHJ1iÎ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
2 character fixed field
ÌHJ2lÎ
3 character fixed field
ÌHJ3oÎ
4 character fixed field
ÌHJ4rÎ
5 character fixed field
ÌHJ5uÎ
6 character fixed field
ÌHJ6xÎ
After selecting one of the Additional Fixed Field codes, read the corresponding character(s)
from the HEX table. Range of characters = 01-FE. For Wedge and USB-KBD interfaces, it is
also possible to read the Special Key(s) on page 65.
Example:
3 Character Fixed Field
+ 53 + 45 + 54 = SET
124
Exit and Save Configuration
ADVANCED FORMATTING
Ì$-?Î
Field Transmission
number of fields to transmit
ÌHK8Î
9
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
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 +
+
+
+
125
Exit and Save Configuration
ADVANCED FORMATTING
Ì$-?Î
Standard Formatting
do not apply standard formatting
ÌHL0jÎ
10
apply standard formatting
ÌHL1mÎ
After performing Advanced Formatting on the barcode read, Standard Formatting (Headers,
Code Length, Code ID, Terminators) can be applied to the message to be transmitted.
End Format Definition
end Format 1 definition
ÌHM0lÎ
11
end Format 2 definition
ÌHM1oÎ
end Format 3 definition
ÌHM2rÎ
end Format 4 definition
ÌHM3uÎ
126
Enter Configuration
Exit and Save Configuration
ADVANCED FORMATTING
Ì$+;Î
Ì$-?Î
Enable Advanced Format
ꢀno Advanced Formats enabled
ÌHN0nÎ
Advanced Format 1
Advanced Format 2
Advanced Format 3
Advanced Format 4
enable
disable
ÌHN11NÎ
ÌHN10JÎ
enable
disable
ÌHN21QÎ
ÌHN20MÎ
enable
disable
ÌHN31TÎ
ÌHN30PÎ
enable
disable
ÌHN41WÎ
ÌHN40SÎ
127
Enter Configuration
Exit and Save Configuration
ADVANCED FORMATTING
Ì$+;Î
Ì$-?Î
No Match Result
clear data - no transmission
ÌHO0pÎ
transmit data using standard format
ÌHO1sÎ
This selection determines the action to be taken when codes read do not conform to the
advanced format requisites (no match).
•
•
Codes not matching can be ignored, cleared from memory and not transmitted.
Codes not matching can be transmitted using the Standard formatting (Headers, Code
Length, Code ID, Terminators).
128
RADIO PARAMETERS
Gryphon™ Mx30 Series readers only
ꢁ
ꢁ
ꢁ
ꢁ
RADIO PROTOCOL TIMEOUT
POWER-OFF TIMEOUT
BEEPER CONTROL FOR RADIO
RESPONSE
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
ꢁ
BATTERY TYPE
SINGLE STORE
1.
2.
Read the Enter Configuration code ONCE, available at the top of each page.
Read configuration codes from the desired groups.
= Read the code and follow the procedure given
ꢀ
3.
Read the Exit and Save Configuration code ONCE, available at the top of
each page.
129
Enter Configuration
Exit and Save Configuration
RADIO PARAMETERS
Ì$+;Î
Ì$-?Î
RADIO PROTOCOL TIMEOUT
radio protocol timeout
ÌRH<Î
ꢀ
ꢀ
Read a number from the table where:
02-19 =
timeout from 2 to 19 seconds
ꢀ2 seconds
See par. 5.7.1 for details.
POWER-OFF TIMEOUT
power-off timeout
ÌRPLÎ
Read 2 numbers in the range 00-99:
00 = Power-off disabled; reader always ready
01-99 = corresponds to a max. 99 hour delay before power-off.
ꢀpower-off after 4 hours.
See par. 5.7.2 for details.
130
Enter Configuration
Exit and Save Configuration
RADIO PARAMETERS
Ì$+;Î
Ì$-?Î
BEEPER CONTROL FOR RADIO RESPONSE
ꢀnormal
ÌBF0XÎ
only good decode
ÌBF1[Î
only good reception
ÌBF2^Î
off
ÌBF3aÎ
See par. 5.7.3 for details.
BATTERY TYPE
OM-GRYPHON™ CRADLE ONLY
ꢀNiMh
ÌRB1cÎ
alkaline
ÌRB0`Î
131
Enter Configuration
Exit and Save Configuration
RADIO PARAMETERS
Ì$+;Î
Ì$-?Î
SINGLE STORE
ꢀdisable
ÌRO0zÎ
one attempt
ÌRO1}Î
two attempts
ÌRO2ÄÎ
three attempts
ÌRO3ÇÎ
four attempts
ÌRO4ÊÎ
five attempts
ÌRO5"Î
six attempts
ÌRO6%Î
ÌRO7(Î
eight attempts
ÌRO8+Î
nine attempts
ÌRO9.Î
See par. 5.7.4 for details
132
REFERENCES
5
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
Host busy
CTS
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
XON
Host ready
Host busy
XON/XOFF handshaking
133
GRYPHON™ Dx30/Mx30
5
5.1.2
ACK/NACK Protocol
GRYPHON™ Dx30 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
cable
Host
Gryphon™ D
ACK or NACK
ACK/NACK enabled
If the reader does not receive an ACK or NACK, transmission is ended after the RX
When ACK/NACK protocol is enabled, FIFO must be disabled manually, see par.
5.1.3.
GRYPHON™ Mx30 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.
5.7.3.
When ACK/NACK is disabled, there is no control from cradle to Host transmission,
the reader responds with the good reception tone.
data
data
cable
OM-GRYPHON™
Host
GRYPHON™ M
good RX
beep
ACK/NACK disabled
134
REFERENCES
5
data
data
cable
NACK
Host
OM-GRYPHON™
GRYPHON™ M
good RX
beep
data
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. 5.7.1 for Mx30
Series readers.
When ACK/NACK protocol is enabled, FIFO must be disabled manually, see par.
5.1.3.
5.1.3
FIFO
GRYPHON™ Dx30 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™ Mx30 Readers
If enabled, the OM-Gryphon™ collects all messages sent by Gryphon™ Mx30 and
sends them in order of acquisition to the connected Host.
If disabled, Gryphon™ Mx30 blocks message transmission until the
OM-Gryphon™ has completed transmission towards the Host.
135
GRYPHON™ Dx30/Mx30
5
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™ Dx30 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™ Mx30 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.
136
REFERENCES
5
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
medium
wide
=
=
=
space 10 times the minimum output pulse.
space 20 times the minimum output pulse.
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
IDLE: Normal
black
white
space
barcode output
bar
OUTPUT: Normal
IDLE: Inverted
black
white
idle
space
space
barcode output
OUTPUT: Inverted
IDLE: Normal
white
black
idle
idle
bar
barcode output
OUTPUT: Inverted
IDLE: Inverted
white
black
space
bar
barcode output
Output and Idle Levels
137
GRYPHON™ Dx30/Mx30
5
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 DATA FORMAT
The system always provides gun to host data communication using the following
message formatting:
Output Message from Gryphon™ Dx30 or Gryphon™ Mx30 Stand Alone Towards
Host
[Header] [Gun_Addr] [Gun_Addr_delimiter] ] [Code ID] [Code Length]
[Terminator]
CODE
[Items in square brackets are optional.]
Output Message from Gryphon™ Mx30 STAR-System™ Towards Host
[Header] [Code ID] [Code Length]
[Terminator]
CODE
[Items in square brackets are optional.]
5.3.1
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
no header, terminator ENTER
WEDGE:
These default values are always restored through the reading of RS232 or WEDGE
interface selection code, see chapter 2.
138
REFERENCES
5
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
HEX
KEY
KEY
KEY
KEY
ENTER
TAB
F1
F2
F3
F4
F5
F6
F7
F8
F9
F10
F11
ENTER
TAB
F1
F2
F3
F4
F5
F6
F7
F8
F9
F10
ESC
BACKSPACE
HOME
END
PG UP
PG DOWN
↑
FIELD EXIT
RETURN
TAB
F1
83
84
85
86
87
88
89
8A
8B
8C
8D
8E
8F
90
91
92
93
94
95
96
97
98
99
9A
9B
TAB
F1
F2
F3
F4
F5
F6
F7
F8
F9
F10
F11
F12
F2
F3
F4
F5
F6
F7
F8
F9
F10
F11
F12
F13
F14
F15
F16
UP
F12
HOME
END
PG UP
PG DOWN
↑
ENTER
RESET
INSERT
DELETE
FIELD -
FIELD +
ENTER (Paddle)
PRINT
DOWN
LEFT
RIGHT
ESC
CTRL (Right)
Space
↓
←
→
ESC
↓
←
→
ESC
CTRL (Right)
Euro
CTRL (Right)
Space
Space
For all devices using IBM AT (compatible) Wedge or USB-KBD interfaces, all values from 9C to
FE send the relative simulated keypress when available or else the relative ALT-Mode
sequence. See the Hex to Character Conversion Table in Appendix C.
For all devices using other Wedge interfaces, all values from 9C to FE send the Space
character.
139
Enter Configuration
Ì$+;Î
5.3.2
Define Special Key Sequence
The Special Key(s) for Wedge IBM AT-PS/2 and USB-KBD interface users can be
associated with a sequence of keyboard keys that otherwise could not be selected,
i.e. ALT + F6, SHIFT + F1. These Special Keys can be used for:
-
-
-
-
-
-
Headers/Terminators
Character Replacement
Field Adjustment
Custom Code ID
Advanced Formatting – Define Field
Advanced Formatting – Additional Fixed Field
Follow the procedure to define the desired Special Key sequence:
Read the Enter Configuration code above and select the Special Key to define
(one at a time):
1.
Define Special Key 1
ÌFQ9C2>Î
Define Special Key 2
ÌFQ9D2BÎ
Define Special Key 3
ÌFQ9E2FÎ
Define Special Key 4
ÌFQ9F2JÎ
Define Special Key 5
ÌFQA02qÎ
140
REFERENCES
5
Read only one code to be associated with the special key sequence:
2.
SHIFT
Ì12Î
OR
CTRL
Ì23Î
OR
ALT
Ì45Î
OR
CTRL + SHIFT
Ì34Î
OR
ALT + SHIFT
Ì56Î
OR
CTRL + ALT
Ì67Î
141
Exit and Save Configuration
Ì$-?Î
Select the character to be associated with the Special Key sequence by
reading the codes corresponding to the 3 character values from Appendix C.
Then, read the Exit and Save Configuration code above to complete the
Special Key sequence.
3.
S
The character values having the and A symbols require SHIFT or ALT keys
or key combinations in step 2, in particular:
S = the character is obtained in combination with SHIFT
A = the character is obtained in combination with ALT
The following character values change according to the keyboard nationality.
KEYB
CHAR
ITA
016 S
01E S
052 A
025 S
02E S
036 S
04E
03E S
046 S
05B S
05B
USA
FR
BE
03E
026
DE
UK
ES
SW
JP
016 S 04A
052 S 026
016 S 016 S 016 S 016 S 016 S
01E S 01E S 01E S 01E S 01E S
!
"
#
$
%
&
'
026 S 026 A 026 A 05D
05D
025 S 025 S 025 S 025 A 025 S
02E S 052 S 052 S 02E S 02E S 02E S 02E S 02E S
026 A 026 S 026 S
025 S 05B
05B
03D S 016
016
025
02E
04E
036 S 03D S 036 S 036 S 036 S
052 025
05D S 052
04E
05D
03D S
046 S 02E
045 S 04E
03E S 05D
03E S 046 S 03E S 03E S 03E S
046 S 045 S 046 S 046 S 046 S
(
)
05B S 05B
03E S 05B S 05D S 052 S
055 S 05B
*
055 S 055 S 04A S 05B
04E
041
04A
049
04C S
+
,
041
041
04E
049
04A
045
016
01E
026
025
02E
036
03D
03E
046
03A
03A
041
041
04E
049
041
04A
049
041
-
04A
036
055
04A
04E
049
041 S 041 S 049
.
049
03D S
049 S 049 S 03D S 04A
03D S 03D S 04A
/
045 S 045 S 045
016 S 016 S 016
01E S 01E S 01E
026 S 026 S 026
025 S 025 S 025
02E S 02E S 02E
036 S 036 S 036
03D S 03D S 03D
03E S 03E S 03E
046 S 046 S 046
045
016
01E
026
025
02E
036
03D
03E
046
045
016
01E
026
025
02E
036
03D
03E
046
045
016
01E
026
025
02E
036
03D
03E
046
045
016
01E
026
025
02E
036
03D
03E
046
0
1
2
3
4
5
6
7
8
9
045
016
01E
026
025
02E
036
03D
03E
046
142
REFERENCES
5
KEYB
CHAR
ITA
USA
04C S 049
04C 041
041 S 061
055 055
FR
BE
049
DE
UK
ES
SW
JP
049 S
041 S
061
049 S 04C S 049 S 049 S 052
041 S 04C 041 S 041 S 04C
061
041 S 061 041 S
045 S 045 S 04E S
:
;
041
061
04A
<
061
045 S
061 S
04E
04C A
054 A
00E
05B A
055 S
04A S
-
045 S 055
=
049 S 061 S 061 S 061 S 049 S 061 S 061 S 049 S
04A S 03A S 03A S 04E S 04A S 04E S 04E S 04A S
01E S 045 A 01E A 015 A 052 S 01E A 01E A 054
>
?
@
02E A 054 A 052 S 054
03E A 061 A 04C S 061
04E A 05B A 054 S 05B
054 A 03E A 05B
00E A 04E A 051
05B A 046 A 05D
[
054
05D
05B
\
]
036 S 046 A 054
04E S 03E
055
03D A 05D A 055 S 00E
00E
036 S 054 S 05B S 055
^
04A S 04E S 04A S 04A S 051 S
_
’ (accent)
00E
01C
032
021
023
024
02B
034
033
043
03B
042
04B
03A
031
044
04D
015
02D
01B
02C
03C
02A
054
01C
032
021
023
024
02B
034
033
043
03B
042
04B
03A
031
044
04D
015
02D
01B
02C
03C
02A
055 S 054 S
a
b
c
d
e
f
01C
032
015
032
021
023
024
02B
034
033
043
03B
042
04B
04C
031
044
04D
01C
02D
01B
02C
03C
02A
015
032
021
023
024
02B
034
033
043
03B
042
04B
04C
031
044
04D
01C
02D
01B
02C
03C
02A
01C
032
021
023
024
02B
034
033
043
03B
042
04B
03A
031
044
04D
015
02D
01B
02C
03C
02A
01C
032
021
023
024
02B
034
033
043
03B
042
04B
03A
031
044
04D
015
02D
01B
02C
03C
02A
01C
032
021
023
024
02B
034
033
043
03B
042
04B
03A
031
044
04D
015
02D
01B
02C
03C
02A
01C
032
021
023
024
02B
034
033
043
03B
042
04B
03A
031
044
04D
015
02D
01B
02C
03C
02A
021
023
024
02B
034
g
h
i
033
043
j
03B
042
k
l
04B
03A
031
m
n
o
p
q
r
044
04D
015
02D
01B
02C
03C
02A
s
t
u
v
143
GRYPHON™ Dx30/Mx30
5
KEYB
CHAR
ITA
01D
USA
01D
022
FR
01A
BE
01A
DE
01D
022
01A
035
UK
01D
ES
01D
022
035
01A
SW
01D
JP
01D
022
035
01A
w
x
y
z
{
022
022
035
01D
022
035
01D
022
035
01A
022
035
01A
035
035
01A
01A
-
054 S 025 A 046 A 052
05D S 036 A 016 A 04C
05B S 055 A 045 A 054
00E S 01E A 04A A 04E
054 S 052 A 03D A 05B S
061 S 016 A 061 A 06A S
05B S 05D A 045 A 05D S
00E S
|
}
-
-
05D S
-
05B A 055 S
~
To use upper case letters, it is necessary to read one of the
SHIFT commands from step 2 before the value corresponding to
the lower case letters.
NOTE
The following key values are common to all the keyboard nationalities.
KEYB
KEY
ITA
05A
USA
05A
00D
005
006
004
00C
003
00B
083
00A
001
009
078
007
26C
269
27D
27A
FR
05A
BE
05A
DE
05A
UK
05A
ES
05A
SW
05A
JP
05A
00D
005
006
004
00C
003
00B
083
00A
001
009
078
007
26C
269
27D
27A
ENTER
TAB
F1
00D
005
006
004
00C
003
00B
083
00A
001
009
078
007
26C
269
27D
27A
00D
005
006
004
00C
003
00B
083
00A
001
009
078
007
26C
269
27D
27A
00D
005
006
004
00C
003
00B
083
00A
001
009
078
007
26C
269
27D
27A
00D
005
006
004
00C
003
00B
083
00A
001
009
078
007
26C
269
27D
27A
00D
005
006
004
00C
003
00B
083
00A
001
009
078
007
26C
269
27D
27A
00D
005
006
004
00C
003
00B
083
00A
001
009
078
007
26C
269
27D
27A
00D
005
006
004
00C
003
00B
083
00A
001
009
078
007
26C
269
27D
27A
F2
F3
F4
F5
F6
F7
F8
F9
F10
F11
F12
Home
End
PG UP
PG down
144
REFERENCES
5
KEYB
CHAR
ITA
USA
275
FR
275
BE
275
DE
275
UK
275
ES
275
SW
275
JP
Up arrow
275
272
26B
275
Down
arrow
272
26B
272
26B
272
26B
272
26B
272
26B
272
26B
272
26B
272
26B
Left
arrow
Right
arrow
274
076
274
076
274
076
274
076
274
076
274
076
274
076
274
076
274
076
Esc
Ctrl
right
214
214
214
214
214
214
214
214
214
-
02E A 02E A 024 A 024 A 024 A 025 A 02E A 02E A
€
SPACE
029
029
029
029
029
029
If Caps Lock Auto-Recognition is disabled, it is necessary to verify
that the keyboard caps lock status matches the reader one.
NOTE
EXAMPLES
- Defining Special Key Sequences -
1. the following example allows defining Special Key 1 as SHIFT + F5:
enter configuration
define Special Key 1
SHIFT
Read
+
+
+
+
Ì$+;Î ÌFQ9C2>Î Ì12Î
codes from Appendix C corresponding
exit & save configuration
to the character value for F5
003
+
Ì$-?Î
145
GRYPHON™ Dx30/Mx30
5
2. the following example allows defining Special Key 2 as CTRL + S (upper case):
enter configuration
define Special Key 2
CTRL + SHIFT
Read
+
+
+
+
+
+
Ì$+;Î ÌFQ9D2BÎ Ì34Î
codes from Appendix C corresponding to
the character value for s (lower case)
exit & save configuration
01B
+
Ì$-?Î
3. the following example allows defining Special Key 3 as Alt + F6:
enter configuration
define Special Key 3
ALT
Read
+
+
+
Ì$+;Î ÌFQ9E2FÎ Ì45Î
codes from Appendix C corresponding
exit & save configuration
to the character value for F6
00B
+
Ì$-?Î
4. the following example allows defining Special Key 4 as Alt + Shift + F1:
enter configuration
define Special Key 4
ALT + SHIFT
Read
+
+
+
Ì$+;Î ÌFQ9F2JÎ Ì56Î
codes from Appendix C corresponding
exit & save configuration
to the character value for F1
005
+
Ì$-?Î
- Integrating Special Keys in Headers/Terminators -
1. the following example allows setting Special Key 1 (defined in example 1 above)
as terminator:
enter configuration
one character terminator
special key 1
exit & save configuration
Read
+
+
+
Ì$+;Î ÌEA111Î Ì9CÄÎ Ì$-?Î
146
REFERENCES
5
2. the following example allows setting Special Key 2 (defined in example 2 above)
as header:
enter configuration
one character header
special key 2
exit & save configuration
Read
+
+
+
Ì$+;Î ÌEA01.Î Ì9DÆÎ Ì$-?Î
3. the following example allows setting Special Key 3 (defined in example 3 above)
as header:
enter configuration
one character header
special key 3
exit & save configuration
Read
+
+
+
Ì$+;Î ÌEA01.Î Ì9EÈÎ Ì$-?Î
4. the following example allows setting Special Key 4 (defined in example 4 above)
and ENTER character as terminators:
ASCII characters
corresponding to the
HEX value for character
ENTER
enter configuration
two character terminator
special key 4
Read
+
+
+
+
+
83
Ì$+;Î ÌEA125Î Ì9FÊÎ
exit & save configuration
Ì$-?Î
5.3.3
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. 5.3.
5.3.4
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. 5.3.
147
GRYPHON™ Dx30/Mx30
5
5.4 POWER SAVE
5.4.1
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. 5.4.2)
To exit Sleep mode press the trigger.
Enabling the Sleep state implements Standby mode for CCD devices, see par. 5.4.3.
For Mx30 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.
5.4.2
Enter Sleep Timeout
For readers that have the Sleep state enabled, this timeout determines when the
reader will enter this state.
5.4.3
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 Mx30 series readers, standby is always enabled and is not configurable. To exit
Standby press the trigger.
148
REFERENCES
5
5.5 READING PARAMETERS
5.5.1
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
5.5.2
Trigger-Off Timeout
When this timeout is selected, the reader turns OFF automatically after the desired
period of time.
5.5.3
Reads per Cycle
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. 5.5.2).
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. 5.5.4.
149
GRYPHON™ Dx30/Mx30
5
5.5.4
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.
5.5.5
Automatic Operation Aiming Light
This parameter allows an aiming light to be continuously emitted in front of the reader
to facilitate the positioning of the barcode to be read.
5.6 DECODING PARAMETERS
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.
CAUTION
5.6.1
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.
5.6.2
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.
5.6.3
Interdigit Control
The interdigit control parameter verifies the interdigit spacing for code families Code
39 and Codabar.
150
REFERENCES
5
5.7 RADIO PARAMETERS (MX30 SERIES ONLY)
5.7.1
Radio Protocol Timeout
This parameter sets the valid time to wait before transmission between the Mx30
series 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.
5.7.2
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.
5.7.3
Beeper Control for Radio Response
For Mx30 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™ Dx30/Mx30
5
5.7.4
Single Store
When single store mode is enabled, if the Gryphon™ Mx30 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
5.8 CONFIGURATION EDITING COMMANDS
The following commands carry out their specific function and then exit the
configuration environment.
Command
Description
Restore Gryphon™ reader default configuration
(see the relative Quick Reference Manual for
default settings)
Ì$+$*oÎ
Transmit
the
Gryphon™
Dx30
or
Gryphon™ Mx30 Software release
Ì$+$!KÎ
Ì$+$&_Î
Transmit Gryphon™ reader configuration in
ASCII format.
This command is not effective with Pen
emulation interface or with the Gryphon™ D230
reader model.
Restore OM-Gryphon™ default configuration
(see the relative Quick Reference Manual for
default settings)
Ì$+RX0$-qÎ
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™ Dx30/Mx30
5
5.9 CONFIGURATION COPYING COMMANDS
5.9.1
Copy Gryphon™ Dx30 Series
Procedure:
ꢃ
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
ꢄ
ꢅ
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.
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
5.9.2
Copy Gryphon™ Mx30 Series
Procedure:
ꢃ
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.
ꢄ
With the master Gryphon™ Mx30 (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
ꢅ
With the slave Gryphon™ Mx30, 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™ Mx30. The
slave Gryphon™ Mx30 signals the end of the procedure with a series of beeps. It is
now ready to be used with its own OM-Gryphon™ cradle.
ꢆ
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™ Dx30/Mx30
5
5.9.3
Copy OM-Gryphon™
Procedure:
ꢃ
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.
ꢄ
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
ꢅ
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.
ꢆ
Repeat the procedure above to configure other slave cradles.
Note: The master OM-Gryphon™ can be configured for any interface.
156
REFERENCES
5
5.10 BATTERY SELECTION
Battery selection is required only when the Gryphon™ Mx30 reader has an Alkaline
battery and you want to use OM-Gryphon™ or C-Gryphon™ either for serial
configuration, software upgrades or to hold Gryphon™ Mx30. Since this type of
battery must not be charged it is necessary to disable the OM-Gryphon™ or
C-Gryphon™ charge function by following the procedure:
With the Gryphon™ Mx30 read the following code:
1.
Alkaline
Ì$+RN4$-]Î
The green LED on the Gryphon™ Mx30 will blink, signaling the reader has
accepted the command.
Place the reader onto the charger within 10 seconds. The green LED turns
off and a short beep is emitted
2.
To enable the charge function repeat step 1 and 2 substituting the "Alkaline" code
with the following one:
NiMh
Ì$+RN6$-gÎ
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.
CAUTION
157
GRYPHON™ Dx30/Mx30
5
5.11 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
Parity
Data Bits
9600
Odd
8
9600
None
8
9600
Even
8
Stop Bits
1
1
1
Handshaking
ACK/NACK Protocol
FIFO
Inter-Character Delay
RX Timeout
Serial Trigger Lock
Hardware (RTS/CTS)
Disabled
Disabled
Disabled
9.9 sec
None
RTS always ON
Disabled
Enabled
Disabled
9.9 sec
Disabled
Disabled
Enabled
Disabled
2 sec
Disabled
Disabled
Data Format Group
Code Identifier
Header
Terminator
Custom
No Header
CR
Custom
No Header
CR
Custom
No Header
CR
Field Adjustment
Code Length TX
Character Replacement
Address Stamping
Address Delimiter
Disabled
Not Transmitted
Disabled
Disabled
Disabled
Disabled
Not Transmitted
Disabled
Disabled
Disabled
Disabled
Not Transmitted
Disabled
Disabled
Disabled
The table below lists all the Code Identifiers available for the POS terminals:
CODE
NIXDORF Mode A
FUJITSU
ICL Mode
UPC-A
UPC-E
EAN-8
A0
C0
B
A
E
FF
A
E
FF
EAN-13
Code 39
Codabar
Code 128
Interleaved 2 of 5
Code 93
Industrial 2 of 5
UCC/EAN 128
MSI/Plessey
RSS
A
M
N
K
I
L
H
P
O
F
F
None
None
None
None
None
None
None
None
None
None
None
C [code length]
N [code length]
L [code length]
I [code length]
None
H [code length]
L [code length]
None
E
Q
None
None
None
None
PDF417
Other
158
TECHNICAL FEATURES
6
6 TECHNICAL FEATURES
6.1 GRYPHON DX30
Electrical Features
Power Supply
5 Vdc ± 5%
Consumption:
Gryphon D130
Gryphon D230
Maximum
Operating
Sleep mode/USB Suspend
270 mA@ 5 Vdc
165 mA@ 5 Vdc
<500 µA@ 5 Vdc
270 mA@ 5 Vdc
210 mA@ 5 Vdc
4 mA@ 5 Vdc
Max. Scan Rate
270 scans/sec
Reading Indicators
LED, Good Read Spot, Beeper
Optical Features
Sensor
CCD solid state (3648 pixels)
LED array
Illuminator
Wavelength
630 ~ 670 nm
Max. LED Output Power
LED Safety Class
Reading Field
Max. Resolution
0.33 mW
Class 1 EN 60825-1
see reading diagram
Gryphon Dx30-Std
0.076 mm (3 mils)
Gryphon D130-LR
0.11 mm (4.3 mils)
PCS (Datalogic Test Chart)
min. 15%
Environmental Features
Working Temperature
Storage Temperature
Humidity
0 °C to + 55 °C / 32° to +131 °F
-20 °C to + 70 °C / -4° to +158 °F
90% non condensing
IEC 68-2-32 Test ED
1.8 m (5 ft. 11 in.)
Drop Resistance
Protection Class
IP30
Mechanical Features
Weight (without cable)
Cable Length
about 210 g. (7.4 oz.)
2 m. (6 ft. 6 in.)
159
GRYPHON™ Dx30/Mx30
6
6.2 GRYPHON™ MX30
Electrical Features
Battery Type
2 AA NiMh* batteries 1.2 V
Time of Recharge
max 5 hours with NiMh 2100 mAh batteries
Operating Autonomy
(typical continuous reading)
40000 reads with NiMh 2100 mAh batteries
Indicators
LED, Good Read Spot, Beeper
270 scans/sec
Max Scan Rate
Optical Features
Sensor
CCD solid state (3648 pixels)
LED array
Illuminator
Wavelength
630 ~ 670 nm
Max. LED Output Power
LED Safety Class
Reading Field
Max. Resolution
0.33 mW
Class 1 EN 60825-1
see reading diagram
Gryphon Mx30-Std
Gryphon M130-LR
0.076 mm (3 mils)
0.11 mm (4.3 mils)
PCS (Datalogic Test Chart)
Radio Features
Working Frequency
Bit Rate
min. 15%
433.92 MHz
19200 baud
30 m.
Range (in open air)
System Configuration
OM-GRYPHON™
16
STARGATE™
Max. number of devices per base stations
255
Max. number of devices in the same
reading area
2000
Environmental Features
Working Temperature
0° to + 40 °C / 32° to 104 °F
-20° to + 70 °C / - 4° to 158 °F
90% non condensing
Storage Temperature
(without battery)
Humidity
IEC 68-2-32 Test ED
1.8 m (5 ft. 11 in.)
Drop Resistance
Protection Class
Mechanical Features
Weight (without batteries)
Dimensions
IP30
about 245 g. / 8.64 oz
179 x 81 x 98 mm / 7.04 x 3.18 x 3.85 in
ABS and Polycarbonate molded with rubber
Material
*
It is also possible to employ non-chargeable Alkaline AA batteries.
160
TECHNICAL FEATURES
6
6.3 OM-GRYPHON™ / C-GRYPHON™
OM-Gryphon™
C-Gryphon™
Electrical and General Features
Supply Voltage
9 to 28 Vdc
Power Consumption (max)
Indicators
8 W (charging) *
Battery Charging LED (red)
Charge completed LED (green)
Power/Data LED (yellow)
Recharge Time
NiMh batteries
From 3 to 5 hours
Host Interfaces
RS232
300 to 38400 baud
9600 baud
IBM AT or PS/2, XT, PC
Notebook, IBM SURE1,
IBM 3153, 31xx, 32xx,
34xx, 37xx terminals,
Wyse terminals,
WEDGE
Not supported
Digital VT terminals,
Apple ADB Bus
PEN Emulation
Selectable minimum pulse from 200 µs to 1.2 ms
Environmental Features
Working Temperature
Storage Temperature
Humidity
0° to +40 °C / +32° to +104 °F
-20° to +70 °C / -4° to +158 °F
90% non condensing
IP30
Protection Class
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
ABS
Material
* 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™ Dx30/Mx30
6
6.4 SYSTEM AND RADIO FEATURES
Radio Features
Working Frequency
Bit Rate
433.92 MHz
19200
30 m
FSK
Range (in open air)
RF Modulation
OM-GRYPHON™
STARGATE™
System Configurations
Maximum number of devices per
base stations
16
255
Maximum number of devices in the
same reading area
2000
Maximum number of base stations
in network
-
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
L = low tone
GRYPHON™ Dx30/Mx30 READER START-UP
Meaning
Beeper¹
L L L L
Parameters loaded correctly
H H H H
long tones
H L H L
Parameter loading error, reading or writing error in the non volatile
memory
Hardware error in EEPROM
GRYPHON™ Dx30/Mx30 READER CONFIGURATION
Meaning
Beeper¹
H H H H
L
Correct entry or exit from Configuration mode
Good read of a command
L L L
Command read error
162
TECHNICAL FEATURES
6
GRYPHON™ Dx30/Mx30 READER DATA ENTRY
LED
Good Read Spot Meaning
Beeper¹
one beep²
H L long
ON
ON
Correct read of a code in normal mode
TX buffer full (when FIFO is enabled) or TX
error
between
Gryphon™
Mx30
and
OM-Gryphon™
H long
H H H
ON
ON
Successful advanced format concatenation
Timeout expired – operation not completed
Error in advanced data formatting
Ready to read a code
H H long
OFF
OFF
GRYPHON™ Mx30 POWER
Beeper
LED
10 short blinks
Meaning
Low Battery
10 short H
GRYPHON™ Mx30 BIND, JOIN, COPY COMMANDS
LED
Meaning
Beeper¹
Blinking
Command accepted; reader ready to be inserted into
the cradle
L
Success
Failure
H L long tones
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 Mx30 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. 5.7.3.
163
GRYPHON™ Dx30/Mx30
6
OM-GRYPHON™/C-GRYPHON™ CHARGE STATUS
Red LED
ON
Green LED
ON
Meaning
Charging
OFF
ON
End of charge
OFF
OFF
No battery inserted
Discharging (see par. 2.8.2)
Shorted or open battery
Flashing
Flashing
OFF
Flashing
OM-GRYPHON™/C-GRYPHON™ POWER/COMMUNICATION
Yellow LED
ON
Meaning
Power applied
OFF
Error in reading EEPROM parameters
Transmission over the Host port
Blinking
6.6 READING DIAGRAMS
GRYPHON™ D130/M130
Reading diagram at 25 °C and 300 lux ambient lighting
Reading Zones (10° skew angle)
15
10
5
0.13 mm
(5 mils)
EAN13 M=1
0.33 mm
(13 mils)
CODE 39
0.50 mm
(20 mils)
0
-5
-10
-15
(cm)
0
5
10
15
20
25
30
35
164
TECHNICAL FEATURES
6
GRYPHON™ D130/M130-LR
Reading diagram at 25 °C and 300 lux ambient lighting
Reading Zones (10° skew angle)
15
10
5
EAN13 M=1
0.33 mm
(13 mils)
CODE 39
0.13 mm
(5 mils)
CODE 39
0.50 mm
(20 mils)
0
-5
-10
-15
(cm)
0
5
10
15
20
25
30
35
40
45
50
55
GRYPHON™ D230/M230
Reading diagram at 25 °C and 300 lux ambient lighting
Reading Zones (10° skew angle)
10
5
0.13 mm
(5 mils)
EAN13 M=1
0.33 mm
(13 mils)
CODE39
0.50 mm
(20 mils)
0
-5
-10
(cm)
0
5
10
15
20
25
30
165
GRYPHON™ Dx30/Mx30
6
Reading diagram at 25 °C and 300 lux ambient lighting Reading
Zones (10° skew angle)
8
6
PDF417 Aspect Ratio 3:1
4
2
0.17 mm
0.38 mm
(6.6mils)
(15mils)
0
-2
-4
-6
-8
0.25 mm
(10mils)
0
2
4
6
8
10
12
14 (cm)
166
HOST CONFIGURATION STRINGS
A
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 either the RS232 or USB-COM 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:
Multiple command programming sequence:
$+ BG1 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
167
GRYPHON™ Dx30/Mx30
A
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
CP0
RS232
Standard
ICL Mode
Fujitsu
CM0
CM1
Nixdorf Mode A
CM2EC0
CP500
CP501
CP502
FK0
WEDGE for IBM AT
for IBM Terminals: 31xx, 32xx, 34xx, 37xx; make-break keyboard
for IBM Terminals: 31xx, 32xx, 34xx, 37xx; make-only keyboard
Keyboard Type for IBM Terminals 31xx, typewriter
32xx, 34xx, 37xx
for IBM XT
advanced
FK1
CP503
CP504
CP505
CP506
CP507
CP508
CP509
CP510
CP511
CP514
CP512
CP513
CP6
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
USB
USB-KBD
UA03
UA04
UA05
UA02
UA00
UA01
USB-KBD-ALT-MODE
USB-KBD-APPLE
USB-COM
USB-IBM-Table Top
USB-IBM-Hand Held
168
HOST CONFIGURATION STRINGS
A
RS232
DESCRIPTION
STRING
Baud rate
300
600
CD1
CD2
1200
2400
4800
9600
19200
38400
none
even
CD3
CD4
CD5
CD6
CD7
CD8
CC0
CC1
Parity
odd
CC2
Data bits
7
CA0
8
CA1
9
CA2
Stop bits
1
CB0
2
CB1
Handshaking
disable
RTS/CTS
XON/XOFF
RTS always On
disable
enable
disable
enable
CE0
CE1
CE2
CE3
ER0
ER1
EC0
EC1
ACK/NACK Protocol
FIFO
Inter-character delay (ms)
RX Timeout (100 ms)
CK00 - CK99
CL00 - CL99
CR0
Serial Trigger Lock
disable
enable and select characters
CR1ab
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.
169
GRYPHON™ Dx30/Mx30
A
USB
DESCRIPTION
USB-COM
STRING
Handshaking
disable
RTS/CTS
XON/XOFF
CE0
CE1
CE2
RTS always ON
disable
enable
CE3
ER0
ER1
EC0
ACK/NACK Protocol
FIFO
disable
enable
EC1
Inter-character delay (ms)
RX Timeout (100 ms)
Serial Trigger Lock
CK00 - CK99
CL00 - CL99
CR0
disable
enable
CR1ab
USB-KBD
Keyboard nationality
(not for USB-KBD-ALT-MODE)
Belgian
English
FJ7
FJ4
French
FJ2
German
FJ3
Italian
FJ1
Japanese
Spanish
FJ8
FJ6
Swedish
USA
FJ5
FJ0
FIFO
disable
EC0
enable
EC1
Delays
Inter-Character (ms)
Inter-Code (s)
CTRL + Shift + Key
CTRL + Key
Normal
CK00 - CK99
FG00 - FG99
FO0
Control Character Emulation
USB Keyboard Speed
FO1
UT10
UT01
Fast
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.
170
HOST CONFIGURATION STRINGS
A
WEDGE
Belgian
DESCRIPTION
Keyboard nationality
STRING
FJ7
FJ4
English
French
FJ2
German
FJ3
Italian
FJ1
Spanish
FJ6
Swedish
FJ5
USA
FJ0
Japanese (IBM AT compatible only)
caps Lock ON
caps Lock OFF
disable
FJ8
FE1
FE0
FP0
FP1
FL1
FL0
Caps Lock
Caps Lock Auto-Recognition
(IBM AT compatible only)
Num Lock
enable
Toggle Num Lock
Num Lock Unchanged
Inter-Character (ms)
Inter-Code (s)
CTRL + Shift + Key
CTRL + Key
Delays
CK00 - CK99
FG00 - FG99
FO0
Control Character Emulation
FO1
PEN
DESCRIPTION
Operating mode
STRING
$]
interpret (does not require $+ or $-)
transparent (does not require $+ or $-)
$[
Minimum output pulse
DG0
DG1
DG2
DG3
DG4
DG5
DA0
200µs
400µs
600µs
800µs
1 ms
1.2 ms
Conversion to Code 39 and disable conversion to Code 39
Code 128
(D series only)
enable conversion to Code 39
enable conversion to Code 128
(M series only)
normal
DA1
DA2
Output level
Idle level
DD0
DD1
DE0
inverted
normal
inverted
DE1
Overflow
narrow overflow
medium overflow
wide overflow
DH0
DH1
DH2
Inter-Block delay (100 ms)
CK00-CK99
171
GRYPHON™ Dx30/Mx30
A
DATA FORMAT
NOT FOR PEN EMULATION INTERFACES
DESCRIPTION
Code Identifier
STRING
EB0
disable
Datalogic standard
AIM standard
Custom
EB1
EB2
EB3
Custom Code Identifier
Headers
EHabc
EA00
no header
one character
two characters
three characters
four characters
five characters
six characters
seven characters
eight characters
no terminator
one character
two characters
three characters
four characters
five characters
six characters
seven characters
eight characters
special key 1
EA01x
EA02xx
EA03xxx
EA04xxxx
EA05xxxxx
EA06xxxxxx
EA07xxxxxxx
EA08xxxxxxxx
EA10
Terminators
EA11x
EA12xx
EA13xxx
EA14xxxx
EA15xxxxx
EA16xxxxxx
EA17xxxxxxx
EA18xxxxxxxx
9C
Special Keys
special key 2
9D
special key 3
9E
special key 4
9F
special key 5
A0
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 59.
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
172
HOST CONFIGURATION STRINGS
A
DATA FORMAT (continued)
NOT FOR PEN EMULATION INTERFACES
DESCRIPTION
STRING
Code Length Tx
not transmitted
EE0
EE1
EE2
transmitted in variable-digit format
transmitted in fixed 4-digit format
disable
Field Adjustment
EF0
right addition
left addition
right deletion
left deletion
EFa0d
EFa1d
EFa2d
EFa3d
EGe
Field Adjustment Character
Character Replacement
disable character replacement
first character replacement
EO0
EO1afg
EO2afg
EO3afg
RU0
RU1
RV0
second character replacement
third character replacement
disable reader address stamping
enable reader address stamping
disable reader address delimiter
enable reader address delimiter and select
character
Address Stamping
Address Delimiter
RV1h
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 59.
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
Scan Rate
STRING
BT0
BT1
BT2
BQ0
67 scans per sec.
135 scans per sec.
270 scans per sec.
disable
Sleep State/USB Suspend
enable
BQ1
Enter Sleep Timeout (100 ms)
Standby
BR00-BR99
BM0
enable
disable
BM1
173
GRYPHON™ Dx30/Mx30
A
READING PARAMETERS
DESCRIPTION
Hand-Held Operation
STRING
BK0
BK1
software trigger
hardware trigger
automatic
BK2
always on
BK3
hardware trigger ready
software trigger
hardware trigger
automatic
BK4
BU1
BU3
BU0
Stand Operation
always on
BU2
Hardware Trigger Mode
trigger active level
trigger active pulse
BA0
BA1
Trigger-off Timeout (s)
FLASH ON (100 ms)
FLASH OFF (100 ms)
Reads per Cycle
BD00 - BD99
BB001 - BB099
BB101 - BB199
BC0
one read
multiple reads
BC1
Safety Time (100 ms)
Beeper Intensity
BE00 - BE99
BG0
very low intensity
low intensity
medium intensity
high intensity
tone 1
BG1
BG2
BG3
BH0
Beeper Tone
tone 2
BH1
tone 3
BH2
tone 4
BH3
Beeper Type
monotone
bitonal
BJ0
BJ1
Beeper Length
long
BI0
short
BI1
PDF Decoding Recognition Intensity
Good Read Spot - Duration
low
high
disabled
short
BW0
BW1
BV0
BV1
medium
long
BV2
BV3
Automatic Operation Aiming Light
disable
enable
Bb0
Bb1
174
HOST CONFIGURATION STRINGS
A
DECODING PARAMETERS
DESCRIPTION
Ink-spread
STRING
AX0
disable
enable
AX1
Overflow control
Interdigit control
Puzzle SolverTM
Decoding Safety
disable
enable
disable
enable
disable
enable
one read
two reads
three reads
four reads
AW1
AW0
AV0
AV1
AU0
AU1
ED0
ED1
ED2
ED3
CODE SELECTION
DESCRIPTION
DISABLE ALL FAMILY CODES
STRING
AZ0
EAN/UPC disable EAN/UPC family
AA0
EAN 8/EAN 13/UPC A/UPC E
without ADD ON
AA1
with ADD ON
AA5
EAN 8/EAN 13
without ADD ON
AA3
with ADD ON 2 ONLY
with ADD ON 5 ONLY
with ADD ON 2 AND 5
without ADD ON
AAK
AAL
AA6
AA4
UPC A/UPC E
with ADD ON 2 ONLY
with ADD ON 5 ONLY
with ADD ON 2 AND 5
AAM
AAN
AA7
EAN/UPC with and without Add On no Autodiscrimination
EAN/UPC Autodiscrimination Add On by Prefix
AA8Ad0
AA8Ad1
ET0
Select Prefixes
cancel all selections
378/379
434/439
414/419
977
ET1378ET2379
ET3434ET4439
ET5414ET6419
ET7977
ET8978
ET9979
AAG0
978
979
EAN 8 check digit transmission
EAN 13 check digit transmission
UPC A check digit transmission
Disable
Enable
disable
enable
disable
enable
AAG1
AAH0
AAH1
AAI0
AAI1
175
GRYPHON™ Dx30/Mx30
A
CODE SELECTION (continued)
DESCRIPTION
STRING
AAJ0
AAJ1
AAA
AAB
AAC
AAD
AP1
AP2
EAN/UPC UPC E check digit transmission
conversions
disable
enable
UPC E to UPC A
UPC E to EAN 13
UPC A to EAN 13
EAN 8 to EAN 13
enable ISBN
enable ISSN
ISBN Conversion codes
enable ISBN and ISSN
disable ISBN and ISSN
AP3
AP0
Code 39
disable Code 39 family
Standard
AB0
AB11
no check digit control
check digit control and transmission
check digit control without transmission
no check digit control
AB12
AB13
AB21
Full ASCII
check digit control and transmission
check digit control without transmission
AB22
AB23
CIP 39
AB3
Code 32
AB4
code length
disable Code 2/5 family
Interleaved 2/5
AB*xxxx
AC0
2/5
no check digit control
AC11xxxx
AC12xxxx
AC13xxxx
AC21xxxx
AC22xxxx
AC23xxxx
AC31xxxx
AC32xxxx
AC33xxxx
AC41xxxx
AC42xxxx
AC43xxxx
AC5
check digit control and transmission
check digit control without transmission
no check digit control
check digit control and transmission
check digit control without transmission
no check digit control
check digit control and transmission
check digit control without transmission
no check digit control
check digit control and transmission
check digit control without transmission
Normal 2/5 5 bars
Industrial 2/5 (IATA)
Matrix 2/5 3 bars
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.
176
HOST CONFIGURATION STRINGS
A
CODE SELECTION (continued)
disable Codabar family
DESCRIPTION
Codabar
STRING
AD0
Standard
no start/stop character equality control
nor transmission
AD111
no start/stop character equality control
but transmission
start/stop character equality control
but no transmission
start/stop character equality control
and transmission
no start/stop character equality control
but transmission
AD112
AD121
AD122
AD212
ABC Codabar
Codabar ABC forced concatenation
code length
start/stop character case in transmission lower case
upper case
AD232
AD*xxxx
ADA0
ADA1
AI0
Code 128
disable Code 128 family
enable Code 128 - control without transmission of check digit
enable EAN 128 - control without transmission of check digit
AI11
AI21
EQ0
Transmit GS before
Code
disable
enable
EQ1
ISBT 128
code length
disable Code 93 family
enable ISBT 128
AI31
AILxxxx
AK0
Code 93
MSI
enable Code 93 - control without transmission of check digit
disable the family
AK1
AE0
no check
AE1
MOD10 no tx
AE2
MOD10 with tx
AE3
MOD11-MOD10 no tx
MOD11-MOD10 with tx
MOD10-MOD10 no tx
MOD10-MOD10 with tx
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.
177
GRYPHON™ Dx30/Mx30
A
CODE SELECTION (continued)
DESCRIPTION
STRING
Plessey
disable the family
AF0
Standard no check
Standard check - with tx
Standard check - no tx
Anker no check
Anker check - with tx
Anker check - no tx
AF11
AF12
AF13
AF21
AF22
AF23
Telepen
disable the family
Numeric no check
Numeric check - with tx
Numeric check - no tx
Alpha no check
Alpha check - with tx
Alpha check - no tx
disable the family
no check
Type 1 check
Type 2 check
disable the family
no check
AL0
AL11
AL12
AL13
AL21
AL22
AL23
AH0
AH1
AH2
AH3
AG0
Delta IBM
Code 11
AG1
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
AG21
AG22
AG31
AG32
AG41
AG42
AJ0
Code 16K
Code 49
enable
disable
AJ1
AM0
enable
AM1
PDF417
disable
AR0
enable
AR1
RSS Codes
disable the family
disable RSS Expanded Linear and Stacked
enable RSS Expanded Linear and Stacked
disable RSS Limited
enable RSS Limited
disable RSS 14 Linear and Stacked
enable RSS 14 Linear and Stacked
AQ0
AQ10
AQ11
AQ20
AQ21
AQ30
AQ31
178
HOST CONFIGURATION STRINGS
A
RADIO PARAMETERS
DESCRIPTION
Radio Protocol Timeout
Power-Off Timeout
Beeper Control For Radio Response normal
only good decode
STRING
RH02-RH19
RP00-RP99
BF0
enable (seconds)
BF1
only good reception
off
BF2
BF3
Battery Type
Single Store
alkaline
NiMh
disable
RB0
RB1
RO0
one attempt
two attempts
three attempts
four attempts
five attempts
six attempts
seven attempts
eight attempts
nine attempts
RO1
RO2
RO3
RO4
RO5
RO6
RO7
RO8
RO9
179
GRYPHON™ Dx30/Mx30
B
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
EAN 13 with 5 ADD ON
ÌMNÎ
UPC A with 2 ADD ON
ÌFGÎ
180
CODE IDENTIFIER TABLE
B
UPC A with 5 ADD ON
ÌGHÎ
UPC E with 2 ADD ON
ÌHIÎ
UPC E with 5 ADD ON
ÌIJÎ
Code 39
ÌVWÎ
Code 39 Full ASCII
ÌWXÎ
CODABAR
ÌRSÎ
ABC CODABAR
ÌSTÎ
Code 128
ÌTUÎ
EAN 128
ÌklÎ
Code 93
ÌUVÎ
CIP/39
ÌYZÎ
CIP/HR
ÌefÎ
Code 32
ÌXYÎ
ISBT 128
ÌfgÎ
181
GRYPHON™ Dx30/Mx30
B
MSI
ÌZ[Î
Plessey Anker
ÌopÎ
Plessey Standard
ÌabÎ
Delta IBM
ÌcdÎ
Telepen
ÌdeÎ
Code 16K
ÌpqÎ
Code 11
ÌbcÎ
Code 49
ÌqrÎ
RSS Expanded Linear and Stacked
ÌtuÎ
RSS Limited
ÌvwÎ
RSS 14 Linear and Stacked
ÌuvÎ
PDF417
ÌrsÎ
182
CODE IDENTIFIER TABLE
B
183
GRYPHON™ Dx30/Mx30
C
C
HEX AND NUMERIC TABLE
CHARACTER TO HEX CONVERSION TABLE
char
hex
char
hex
char
hex
NUL
SOH
STX
ETX
EOT
ENQ
ACK
BEL
BS
HT
LF
VT
FF
*
+
,
-
.
U
V
W
X
Y
Z
[
\
]
^
_
`
a
b
c
d
e
f
g
h
i
j
k
l
m
n
o
p
q
r
00
01
02
03
04
05
06
07
08
09
0A
0B
0C
0D
0E
0F
10
11
12
13
14
15
16
17
18
19
1A
1B
1C
1D
1E
1F
20
21
22
23
24
25
26
27
28
29
2A
2B
2C
2D
2E
2F
30
31
32
33
34
35
36
37
38
39
3A
3B
3C
3D
3E
3F
40
41
42
43
44
45
46
47
48
49
4A
4B
4C
4D
4E
4F
50
51
52
53
54
55
56
57
58
59
5A
5B
5C
5D
5E
5F
60
61
62
63
64
65
66
67
68
69
6A
6B
6C
6D
6E
6F
70
71
72
73
74
75
76
77
78
79
7A
7B
7C
7D
7E
7F
/
0
1
2
3
4
5
6
7
8
9
:
CR
SO
SI
DLE
DC1
DC2
DC3
DC4
NAK
SYN
ETB
CAN
EM
SUB
ESC
FS
;
<
=
>
?
@
A
B
C
D
E
F
G
H
I
GS
RS
US
SPACE
!
s
t
J
u
v
w
x
y
z
{
K
L
M
N
O
P
Q
R
S
T
"
#
$
%
&
'
(
)
|
}
~
DEL
184
HEX AND NUMERIC TABLE
C
OPEN THIS PAGE TO READ THE DESIRED
HEX AND NUMERIC SELECTIONS
185
HEX AND NUMERIC TABLE
C
HEX / NUMERIC TABLE
CHARACTER TO HEX CONVERSION TABLE
char
hex
char
hex
char
hex
Ì01Î
€
80
81
82
83
84
85
86
87
88
89
8A
8B
8C
8D
8E
8F
90
91
92
93
94
95
96
97
98
99
9A
9B
9C
9D
9E
9F
A0
A1
A2
A3
A4
A5
A6
A7
A8
A9
ª
«
¬
-
®
¯
°
±
²
³
AA
AB
AC
AD
AE
AF
B0
B1
B2
B3
B4
B5
B6
B7
B8
B9
BA
BB
BC
BD
BE
BF
C0
C1
C2
C3
C4
C5
C6
C7
C8
C9
CA
CB
CC
CD
CE
CF
D0
D1
D2
D3
D4
Õ
Ö
×
Ø
Ù
Ú
Û
Ü
Ý
Þ
ß
à
á
â
ã
ä
å
æ
ç
è
é
ê
ë
ì
í
î
ï
ð
ñ
ò
ó
ô
D5
D6
D7
D8
D9
DA
DB
DC
DD
DE
DF
E0
E1
E2
E3
E4
E5
E6
E7
E8
E9
EA
EB
EC
ED
EE
EF
F0
F1
F2
F3
F4
F5
F6
F7
F8
F9
FA
FB
FC
FD
FE
FF
0
Ì12Î
‚
ENTER
TAB
F1
F2
F3
F4
F5
F6
F7
1
Ì23Î
2
Ì34Î
3
Ì45Î
´
4
µ
¶
·
¸
¹
F8
F9
Ì56Î
5
F10
F11
F12
HOME
END
Pg UP
Pg Down
Ç
Ì67Î
º
6
»
¼
½
¾
¿
À
Á
Â
Ã
Ä
Å
Æ
Ç
È
É
Ê
Ë
Ì
Í
Î
Ï
Ð
Ñ
Ò
Ó
Ô
Ì78Î
7
Ì89Î
8
È
Å
Æ
Ì9:Î
9
ESC
CTRL(Right)
€
ÌABÎ
A
œ
ÌBCÎ
B
ž
Ÿ
ÌCDÎ
NBSP
õ
ö
÷
ø
ù
ú
û
ü
C
¡
¢
£
¤
¥
¦
§
¨
©
ÌDEÎ
D
ÌEFÎ
E
ÌFGÎ
ý
F
Reserved
Reserved
Backspace
Ì$%/Î
Cancels an incomplete configuration sequence
90ACC1930
|
