Metrologic Instruments Is1000 User Manual

IS1000 Series  
Radio Frequency Bar Code Reader  
Configuration Guide  
Metrologic Instruments GmbH  
Dornierstrasse 2  
82178 Puchheim  
GERMANY  
Tel. : +49 (0) 89 890 19 0  
Fax : +49 (0) 89 890 19 200  
Metrologic Instruments GmbH makes no guaranteed declaration or offer concerning the contents  
or use of this manual, and notably refutes any express or implicit liability as regards the  
merchandisable quality or suitability for a particular use of the product.  
In addition, Metrologic Instruments GmbH reserves the right to update this publication and to  
make changes at any time without notice.  
Metrologic Instruments GmbH refutes any liability concerning any modifications that might be  
made to the commodities supplied.  
You use this equipment at your own risks and perils.  
Metrologic Instruments GmbH will not be held liable for any direct or indirect losses or damage  
resulting from its use.  
Moreover, Metrologic Instruments GmbH reserves the right to modify its products, entirely or in  
part, at any time without notice.  
This hardware is guaranteed by Metrologic Instruments GmbH for one year from the date of  
delivery. During this period, any defective equipment item will be repaired or replaced without  
charge.  
Copyright 2001 Metrologic Instruments GmbH. All rights reserved.  
This manual is intended for the private use of the recipient, whether supplied on paper or in  
electronic form.  
It may not be modified or copied by any means whatsoever without written authorization from  
Metrologic Instruments GmbH.  
All names of products mentioned in this documentation are registered trademarks of their  
respective manufacturers.  
MLPN XX-XXXXX  
January 2002  
i
IS1000 – Configuration Guide  
Metrologic Instruments GmbH  
Donierstrasse 2  
82178 Puchheim  
GERMANY  
Tel.:+49 (0)89 890 190  
Fax:+49 (0)89 890 19 200  
Metrologic Instruments Italia S.r.L.  
Via Emilia 70  
40064 Ozzano Dell'Emilia (BO)  
ITALY  
Tel.:+39 051 651 19 78  
Fax:+39 051 652 13 37  
Metrologic Eria Ibérica S.A.  
Julian Camarillo 29, D1 Bajo  
28037 Madrid  
SPAIN  
Tel.:+34 91 327 24 00  
Fax:+34 91 327 38 29  
Metrologic Eria Ibérica S.A.  
Consell de Cent 106 – 108 – 3° 3a  
08015 Barcelona  
SPAIN  
Tel.:+34 93 423 11 10  
Fax:+34 93 423 14 76  
Metrologic Eria France S.A.  
Z.I. Paris Nord II, 69, rue de la Belle Etoile, Bât. E – B.P. 50057  
95947 Roissy CDG Cedex  
FRANCE  
Tel.:+33 (0)1 48 63 78 78  
Fax:+33 (0)1 48 63 24 94  
Metrologic Instruments U.K., Ltd.  
58 Tempus Business Centre, Kingsclere Road  
Basingstoke, Hampshire RG21 6XG  
UNITED KINGDOM  
Tel.:+44 (0) 1256 365 900 Fax:+44 (0) 1256 365 955  
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IS1000 – Configuration Guide  
TABLE OF CONTENTS  
1.  
2.  
INTRODUCTION.............................................................................................................1  
1.1. Default Configuration (factory setting)..............................................................3  
COMMUNICATION MODES...........................................................................................5  
2.1. RS232....................................................................................................................6  
2.1.1. Baud Rate..................................................................................................6  
2.1.2. Data Bits ....................................................................................................7  
2.1.3. Parity..........................................................................................................7  
2.1.4. Stop Bits ....................................................................................................7  
2.1.5. End of Message Character........................................................................8  
2.1.6. Time-Out Between Characters ..................................................................9  
2.1.7. ACK/NAK Protocol...................................................................................10  
2.1.8. XON/XOFF Protocol ................................................................................10  
2.1.9. RTS/CTS Protocol ...................................................................................10  
2.1.10. PC-Term Mode ........................................................................................11  
2.2. Keyboard-Wedge ...............................................................................................12  
2.2.1. End of Message Character......................................................................14  
2.2.2. Upper / Lower Case Options ...................................................................14  
2.2.3. Types of Numeric Characters..................................................................15  
2.2.4. Time-Out Between Characters ................................................................15  
2.2.5. "WYSE" Time-Out....................................................................................16  
2.3. P.O.S. (Point Of Sale) Systems.........................................................................17  
2.4. Wand Emulation.................................................................................................18  
2.4.1. Transmission Speed................................................................................18  
2.4.2. Bar/Space Polarity...................................................................................19  
2.4.3. Idle State..................................................................................................19  
2.5. Laser Emulation.................................................................................................20  
SYMBOLOGIES ...........................................................................................................21  
3.  
3.1. Symbology Selection ........................................................................................22  
3.2. Code 39...............................................................................................................24  
3.2.1. Standard/Full ASCII.................................................................................24  
3.2.2. Full ASCII Extended ................................................................................24  
3.2.3. Multiread..................................................................................................25  
3.2.4. Modulo 43 Check Character....................................................................25  
3.2.5. Pharmacode or Pharma 32/39.................................................................26  
3.2.6. CIP Code 39 ............................................................................................26  
3.2.7. Start/Stop.................................................................................................27  
3.2.8. Modulo 43 Algorithm................................................................................27  
3.3. Interleaved 2/5....................................................................................................28  
3.3.1. Fixed Length(s) Authorized and Set Upon First Reading(s)....................28  
3.3.2. Fixed Length(s) Authorized and Set Using the Numeric Pad ..................29  
3.3.3. Variable Lengths Authorized....................................................................30  
3.4. UPC/EAN.............................................................................................................31  
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IS1000 – Configuration Guide  
3.4.1. Types of UPC/EAN Authorized................................................................31  
3.4.2. Transformations.......................................................................................31  
3.4.3. Add-On Options.......................................................................................32  
3.4.4. Leading Prefixes for P.O.S. Systems ......................................................33  
3.4.5. Flag Option ..............................................................................................33  
3.4.6. Check Digit Options.................................................................................34  
3.4.7. Product Code...........................................................................................34  
3.4.8. ISBN Conversion .....................................................................................34  
3.5. Monarch/Codabar ..............................................................................................35  
3.5.1. Start/Stop.................................................................................................35  
3.5.2. Concatenation..........................................................................................35  
3.6. Code 128.............................................................................................................36  
3.6.1. Check Character......................................................................................36  
3.6.2. FNC2 Function.........................................................................................36  
3.7. UCC/EAN 128 .....................................................................................................37  
3.8. Standard 2/5 .......................................................................................................38  
3.8.1. Number of Lengths Authorized................................................................38  
3.8.2. Start/Stop Types......................................................................................38  
3.9. MSI ......................................................................................................................39  
3.9.1. Variable or Fix Lengths............................................................................39  
3.9.2. Double Check Digit (Modulo 10)..............................................................39  
3.9.3. Single Check Digit (Modulo 10) ...............................................................39  
3.10. Plessey ...............................................................................................................40  
3.11. Telepen ...............................................................................................................40  
3.12. Code 93...............................................................................................................40  
3.13. Matrix 2/5 ............................................................................................................41  
3.13.1. Types of Start/Stop..................................................................................41  
3.13.2. Check Digit ..............................................................................................41  
3.13.3. Fixed or Variable Lengths........................................................................41  
3.13.4. Setting the Authorized Lengths................................................................42  
3.14. IATA ....................................................................................................................43  
3.15. BC 412.................................................................................................................43  
3.16. 3W7 .....................................................................................................................43  
3.17. Leading Identifiers.............................................................................................44  
3.17.1. Identifier with One Character...................................................................44  
3.17.2. Identifier with Three Characters...............................................................44  
3.18. Decoding Selectivity..........................................................................................45  
OPERATING MODES...................................................................................................47  
4.  
4.1. Simple Acknowledgment ..................................................................................47  
4.2. Host System Acknowledgment ........................................................................48  
4.3. On File / Not On File ..........................................................................................48  
4.3.1. Setting the On File Character ..................................................................49  
4.3.2. Setting the Not On File Character............................................................49  
4.4. Bell ......................................................................................................................50  
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IS1000 – Configuration Guide  
4.5. Setting the Timers .............................................................................................51  
4.5.1. Timer T1 ..................................................................................................51  
4.5.2. Timer T2 ..................................................................................................52  
4.5.3. Timer T3 ..................................................................................................52  
5.  
6.  
EDITING MODE............................................................................................................53  
APPENDIXES...............................................................................................................55  
6.1. Radio Parameters ..............................................................................................55  
6.1.1. Radio Channel.........................................................................................55  
6.1.2. Number of Re-transmissions ...................................................................56  
6.2. Adjustment of the Beep Sound ........................................................................57  
6.2.1. Laser Reader...........................................................................................57  
6.2.2. Radio Base ..............................................................................................57  
6.3. Preamble / Postamble .......................................................................................58  
6.3.1. Preamble Character.................................................................................58  
6.3.2. Postamble Character...............................................................................58  
6.3.3. Clear Buffer..............................................................................................58  
6.4. Conversion of Characters.................................................................................59  
6.4.1. First Character.........................................................................................59  
6.4.2. Second Character....................................................................................61  
6.5. Rolling Buffer Mode...........................................................................................62  
6.6. Transmission of the Full ASCII Character Set ................................................63  
6.7. Displaying the Firmware Level.........................................................................64  
6.8. Code 39 Full ASCII Extended Table .................................................................65  
6.9. Multiread character Table .................................................................................67  
6.10. Code 39 Full ASCII Table ..................................................................................70  
6.11. Numeric Pad.......................................................................................................81  
6.12. Samples of Bar Codes.......................................................................................82  
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vi  
IS1000 – Configuration Guide  
1.  
INTRODUCTION  
This manual contains information about configuration IS1000 laser reader and decoder present  
in the radio base.  
The installation procedures and technical description are described in the IS1000 Installation  
and User’s Guide.  
The IS1000 Connection List contains the connection numbers (or ID) and the cable references  
to be used for Keyboard-Wedge communication on PCs and terminals, for communication with  
P.O.S. systems and Notebooks. For other types of connections see chapter 2, Communication  
Modes.  
1
IS1000 – Configuration Guide  
Once the radio base is powered on, each parameter value can be changed simply by scanning,  
with the laser reader, the codes appearing in this manual with respect to configuration sequence.  
START OF CONFIGURATION  
bottom left of each page  
Chapter 2  
Page 5  
COMMUNICATION MODES  
Selection of the communication mode and adjustment of the transmission parameters  
Chapter 3  
Chapter 4  
Chapter 5  
Chapter 6  
Page 21  
Page 47  
Page 53  
Page 55  
SYMBOLOGIES  
Selection and adjustment of options  
OPERATING MODES  
Selection of the operating mode and adjustment of options  
EDITING MODE  
Adjustment of data formats  
APPENDIXES  
Adjustment of data formats  
END OF CONFIGURATION  
bottom right of each page  
! Note:  
There is no need to adjust all the parameters. Change only the ones concerning your application.  
Unchanged parameters will keep their previous value.  
The parameter values are stored in a non-volatile memory called EEPROM and are saved when  
the radio base is turned off.  
2
IS1000 – Configuration Guide  
1.1. Default Configuration (factory setting)  
When shipped from the factory, each IS1000 is configured with default parameter values  
as follows:  
Default Configuration  
RS232 mode:  
- 9600 bps  
- Even parity  
- 7 data bits  
Communication Mode  
- 1 stop bit  
- CR/LF end of message characters  
Code 39, Code 128, EAN 128, UPC/EAN, Interleaved 2/5,  
Monarch/Codabar  
Symbology  
Radio  
433 MHz – Channel 3  
- Simple acknowledgment mode  
- Timer 1 = 200 ms  
Operating Mode  
Buzzer  
- Timer 2 = 3 s  
- Timer 3 = 2 s  
- Number of re-transmissions = 3  
High volume  
These are the main parameters, please check the sections of this manual which concern  
your application.  
The default value of each parameter appears like this:  
3 to 5 characters  
Code 39  
FUNCTION X ACTIVATED *  
The text below the code is framed and ended by the sign * to indicate the default value.  
At any time, the default values of all the parameters can be set by scanning this code:  
DEFAULT CONFIGURATION  
! Caution:  
The reading of this code will turn all parameters to their default value.  
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IS1000 – Configuration Guide  
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4
IS1000 – Configuration Guide  
2.  
COMMUNICATION MODES  
The radio base is equipped with a decoder offering a multi-interface communication port.  
The default communication mode is RS232 (9600 baud, 7 data bits, parity even, 1 stop bit, end  
message: CR LF).  
Other communication modes can be selected by using the following sequence:  
Read the code Start of Configuration  
bottom left of each page  
Select the mode of communication  
Adjust the transmission parameters  
Read the code End of Configuration  
bottom right of each page  
START OF CONFIGURATION  
END OF CONFIGURATION  
5
IS1000 – Configuration Guide  
2.1. RS232  
Use the codes on this page through to page 11 to activate and adjust the RS232  
parameters.  
RS232 MODE ACTIVATED *  
2.1.1. Baud Rate  
300  
600  
1200  
2400  
4800  
9600 *  
19200  
38400  
START OF CONFIGURATION  
END OF CONFIGURATION  
6
IS1000 – Configuration Guide  
2.1.2. Data Bits  
8
7 *  
2.1.3. Parity  
MARK  
EVEN *  
ODD  
SPACE  
2.1.4. Stop Bits  
2
1 *  
START OF CONFIGURATION  
END OF CONFIGURATION  
7
IS1000 – Configuration Guide  
2.1.5. End of Message Character  
One character can be systematically transmitted with each code to indicate the  
end of message:  
STX…ETX  
SUITE (MINITEL)  
LF  
CR/LF *  
HT  
NONE  
CR  
EOT  
Other characters or complete fields can be added to the message using the  
Preamble / Postamble function (see appendix 6.3, page 58) or the Editing Mode  
(see chapter 5, page 53).  
START OF CONFIGURATION  
END OF CONFIGURATION  
8
IS1000 – Configuration Guide  
2.1.6. Time-Out Between Characters  
In case that errors are detected using high speed transmissions such as 19200 or  
38400 baud and if two stop bits are already set, a time-out can be inserted  
between each character for a better synchronization:  
10 ms  
0 ms *  
20 ms  
50 ms  
100 ms  
START OF CONFIGURATION  
END OF CONFIGURATION  
9
IS1000 – Configuration Guide  
2.1.7. ACK/NAK Protocol  
Once this protocol is activated, the decoder waits for an acknowledgment from the  
host system:  
ACK (06 hexa) means: message correctly received by the host system.  
NAK (15 hexa) means: message incorrectly received by the host, upon  
reception of this character the decoder resends the  
message.  
ACK/NAK ACTIVATED  
ACK/NAK DISACTIVATED *  
2.1.8. XON/XOFF Protocol  
Using this protocol, the host system can control the data flow coming from the  
decoder:  
XON (11 hexa) means: host system ready to receive data.  
XOFF (13 hexa) means: host system busy, the decoder stops the transmission  
and waits for an XON.  
XON/XOFF ACTIVATED  
XON/XOFF DISACTIVATED *  
2.1.9. RTS/CTS Protocol  
This protocol is a hardware "handshake" between the decoder and the host  
system. Before transmitting data, the decoder rises its RTS signal (pin 4) to +10  
volt and waits for a +10 volt signal on its CTS (pin 5) from the host. The rest  
position of the two pins is -10 volt.  
RTS/CTS PROTOCOL ACTIVATED  
RTS/CTS PROTOCOL DISACTIVATED *  
START OF CONFIGURATION  
END OF CONFIGURATION  
10  
IS1000 – Configuration Guide  
2.1.10. PC-Term Mode  
Some applications use several RS232 terminals connected to a PC host system  
configured in PC-Term mode. When a character is typed on a keyboard of a  
terminal, its scan code value is transmitted to the PC instead of its ASCII value.  
Then, upon reception, the PC sends back the corresponding ASCII character to  
display on the screen.  
Therefore, once this mode is activated, the decoder sends the scan code value of  
each character read.  
To activate the PC-Term mode, read this code and adjust the RS232 parameters  
using page 6 to 10. It is advised to insert a time-out of 50 ms between each  
character when baud rate is over 9600 baud (see page 9).  
PC-TERM MODE ACTIVATED  
Upper/lower case characters and the type of numeric characters can be adjusted  
using page 14 and 15.  
Keyboard layout style can be selected using the Bar Code Pad page 12, without  
reading the code Keyboard-Wedge Mode Activated.  
START OF CONFIGURATION  
END OF CONFIGURATION  
11  
IS1000 – Configuration Guide  
2.2. Keyboard-Wedge  
In this mode the radio base is connected between the keyboard and the computer (or  
terminal). Data is emulated by the decoder as if it was typed on the keyboard.  
The default communication mode (factory setting) is RS232, use the codes on this page to  
activate the Keyboard-Wedge mode and to select the ID corresponding to your computer  
or terminal:  
KEYBOARD-WEDGE MODE ACTIVATED  
Consult the IS1000 Connection List and enter the ID  
corresponding to your computer or terminal using this Bar Code Pad  
0
2
4
6
8
1
3
5
7
9
START OF CONFIGURATION  
END OF CONFIGURATION  
12  
IS1000 – Configuration Guide  
PC Keyboard-Wedge ID:  
PC Keyboard Type  
ID  
ALT Mode  
Belgian  
French  
German  
Hungarian  
Italian  
114  
644  
1
104  
437  
123  
313  
169  
148  
611  
11  
Spanish  
Swedish  
Swiss  
UK  
US  
! Note:  
For other Keyboard-Wedge interfaces, please refer to the IS1000 Connection List to obtain  
ID and cable reference.  
START OF CONFIGURATION  
END OF CONFIGURATION  
13  
IS1000 – Configuration Guide  
2.2.1. End of Message Character  
One of the characters below can be systematically emulated by the decoder as the  
end of message character:  
FIELD EXIT  
RETURN *  
ENTER  
TAB +  
CR/LF ; FEED ; SEND  
LF  
FIELD ADVANCE  
NO CHARACTER  
Other characters, signs, function keys or fields can be added using the Preamble /  
Postamble function (see appendix 6.3, page 58) or the Editing Mode (see chapter  
5, page 53).  
2.2.2. Upper / Lower Case Options  
Use one of these codes to inform the decoder of the state of your keyboard:  
LOWER CASE/SMALL  
UPPER CASE/CAPS *  
START OF CONFIGURATION  
END OF CONFIGURATION  
14  
IS1000 – Configuration Guide  
2.2.3. Types of Numeric Characters  
This function allows the emulation of the numeric characters of the numeric pad or  
those located on top of the keyboard.  
Use this function if trouble occurs with upper/lower case keyboard modes.  
NUMERIC PAD  
NUMERICS LOCATED  
OVER THE ALPHANUMERIC PAD *  
! Note:  
If the option Numeric Pad is chosen, the numeric pad of the keyboard must be  
also turned on (or locked) for correct operation.  
2.2.4. Time-Out Between Characters  
The insertion of a time-out between each character can sometimes avoid eventual  
errors due to a fast transmission speed (specially on PS/2 or when DOS and BIOS  
are very busy).  
5 ms  
20 ms  
100 ms  
0 ms *  
10 ms  
50 ms  
START OF CONFIGURATION  
END OF CONFIGURATION  
15  
IS1000 – Configuration Guide  
2.2.5. "WYSE" Time-Out  
Some Keyboard-Wedge connections on some Wyse terminals can drop  
characters especially when a string of identical characters appears in a code.  
Only in this case, use this function to insert a time-out between characters:  
ACCESS CODE TIME-OUT  
Enter the desired value  
using the Numeric Pad page 81  
0 value 49  
VALIDATION  
START OF CONFIGURATION  
END OF CONFIGURATION  
16  
IS1000 – Configuration Guide  
2.3. P.O.S. (Point Of Sale) Systems  
The main communication modes with P.O.S. systems are:  
RS232  
Keyboard-Wedge  
OCIA  
RS485  
To set RS232 communication use pages 6 to 11 to adjust the transmission parameters.  
To set a Keyboard-Wedge, OCIA or RS485 communication use page 12 of this manual;  
scan the code Keyboard-Wedge Mode Activated and enter your ID.  
! Note:  
Please refer to the IS1000 Connection List to obtain ID and cable reference.  
START OF CONFIGURATION  
END OF CONFIGURATION  
17  
IS1000 – Configuration Guide  
2.4. Wand Emulation  
Scan this code to activate the wand emulation mode:  
WAND EMULATION MODE ACTIVATED  
Then select the symbology to be emulated using the Bar Code Pad page 12, without  
reading the code Keyboard-Wedge Mode Activated:  
Emulation  
Code 39  
ID  
69  
68  
70  
Interleaved 2/5  
UPC/EAN *  
* Only 8 or 13 characters messages are accepted for this emulation  
Then adjust the following transmission parameters.  
2.4.1. Transmission Speed  
HIGH *  
MEDIUM  
LOW  
START OF CONFIGURATION  
END OF CONFIGURATION  
18  
IS1000 – Configuration Guide  
2.4.2. Bar/Space Polarity  
BAR = 0, SPACE = 1  
BAR = 1, SPACE = 0 *  
2.4.3. Idle State  
LOW (0 VOLT)  
HIGH (5 VOLT) *  
START OF CONFIGURATION  
END OF CONFIGURATION  
19  
IS1000 – Configuration Guide  
2.5. Laser Emulation  
With this mode, data are transmitted as code 39 data coming from a TTL hand held laser  
or CCD scanner.  
Scan this code to activate this mode:  
LASER EMULATION MODE ACTIVATED  
! Note:  
For the radio base connector pin-out, refer to the IS1000 Installation and User’s Guide.  
START OF CONFIGURATION  
END OF CONFIGURATION  
20  
IS1000 – Configuration Guide  
3.  
SYMBOLOGIES  
Many bar code symbologies have been developed to suit many data capture applications in  
different domains (retail, industry, medical, transport…) requiring simple or complete sets of  
characters (numeric, alphanumeric, full ASCII set…) with various density performances.  
Each symbology has options which must be carefully checked and adjusted by the user.  
Some samples are printed in appendix 6.12, page 82.  
The default configuration of the IS1000 permits the reading of only six bar code symbologies  
appearing on the next left hand page.  
Other symbologies can be selected on the next right hand page by using the following sequence:  
Read the code Start of Configuration  
bottom left of each page  
Read the code New Selection  
Select the new group of bar code  
symbologies desired  
Adjust the options of each bar code  
symbology desired  
Read the code End of Configuration  
bottom right of each page  
To fully optimize the decoding reliability, it is advised to select only the symbology(ies) required  
for your application.  
In addition, a function called Decoding Selectivity (see page 45) will perform several data  
collections and decodings with comparisons before transmission.  
START OF CONFIGURATION  
END OF CONFIGURATION  
21  
IS1000 – Configuration Guide  
3.1. Symbology Selection  
NEW SELECTION  
This code must be read to initialize  
any new selection of symbologies  
CODE 39 *  
UPC/EAN *  
CODE 128 *  
INTERLEAVED 2/5 *  
MONARCH/CODABAR *  
EAN 128 *  
These six bar code symbologies are the most commonly used and are active by default.  
Other symbologies can be selected on the next page.  
! Note:  
If no symbology is selected after the reading of New Selection code, the above six  
symbologies will remain activated.  
Only the symbologies selected after the reading of New Selection code will be activated  
If New Selection code is not read before selecting another symbology, this will be added  
to the six of above.  
START OF CONFIGURATION  
END OF CONFIGURATION  
22  
IS1000 – Configuration Guide  
STANDARD 2/5  
PLESSEY  
CODE 93  
IATA  
MSI  
TELEPEN  
MATRIX 2/5  
BC 412 **  
3W7  
Reserved # 1  
Reserved # 2  
Reserved # 3  
Once your selection is completed, consult the next pages to verify and adjust the options  
you require for each symbology.  
** Strictly reserved for IBM and authorized companies; require a specific firmware.  
START OF CONFIGURATION  
END OF CONFIGURATION  
23  
IS1000 – Configuration Guide  
3.2. Code 39  
This is the most popular alpha-numeric bar code symbology. It has a set of 43 characters  
(alphanumeric and a few symbols) and can be used with or without a check digit.  
3.2.1. Standard/Full ASCII  
The Code 39 Full ASCII option allows the transmission of the 128 ASCII  
characters. Each ASCII character is a combination of two Code 39 characters. It  
can be very useful specially to transmit control characters (STX, ETX, TAB, EOT…)  
as preambles or postambles in a message (see appendix 6.3, page 58). The Code  
39 Full ASCII Table is listed in appendix 6.10, page 70.  
FULL ASCII  
STANDARD *  
3.2.2. Full ASCII Extended  
In Keyboard-Wedge mode, function keys like F1 to F12, t, HOME, CLEAR… can  
be emulated using this function.  
The function key to be emulated is represented by two Code 39 characters from  
the Code 39 Full ASCII Extended Table (see appendix 6.8, page 65), which can  
be part of the symbol or separate from it.  
ACTIVE ON TWO CHARACTERS  
PRECEDED BY A DASH  
DISACTIVATED *  
(part of or separate from the symbol)  
ACTIVE ON TWO CHARACTERS  
(part of or separate from the symbol)  
ACTIVE ONLY ON TWO CHARACTERS  
SEPARATE FROM THE SYMBOL  
! Note:  
The function key value to be emulated can be set as a preamble or a postamble of  
message (see appendix 6.3, page 58).  
START OF CONFIGURATION  
END OF CONFIGURATION  
24  
IS1000 – Configuration Guide  
3.2.3. Multiread  
ACTIVATED  
DISACTIVATED *  
The Multiread function permits the temporary storage of one or more codes in the  
decoder's memory which will then be transmitted in a single string message.  
To operate the Multiread function, the desired group of codes to be first stored  
must have a Multiread Character as the leading character. This character can be  
chosen in the Multiread Character Table (see appendix 6.9, page 67; default is  
SPACE character) after reading code Activated. The transmission will start once a  
code having no Multiread Character is read.  
3.2.4. Modulo 43 Check Character  
In the case of high level security applications, a check character can be integrated  
as the last character in the code and verified before transmission.  
VERIFIED AND TRANSMITTED  
NOT VERIFIED *  
VERIFIED AND NOT TRANSMITTED  
! Note:  
See page 27 for the calculation algorithm of Code 39 Modulo 43 Check Character.  
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IS1000 – Configuration Guide  
3.2.5. Pharmacode or Pharma 32/39  
This symbology is used only in Italy. The encoding uses the Code 39 standard but  
the decoding performs a transformation of the digits using a translation table.  
Example:  
The Code 39 message: 2 D W W K P will be transformed into 080638517.  
To activate this symbology, the code New Selection must be read first.  
PHARMACODE ACTIVATED  
START/STOP TRANSMITTED  
CHECK DIGIT NOT TRANSMITTED  
NEW SELECTION *  
START/STOP NOT TRANSMITTED *  
CHECK DIGIT TRANSMITTED *  
3.2.6. CIP Code 39  
CIP Code is specific to the French pharmaceutical industry. This function allows  
the reading of the CIP Code 39 only (code with 7 characters), with the possibility of  
transmitting or not the check digit. To cancel this function, read the code All Codes  
39.  
ACTIVATED WITH  
ACTIVATED WITH  
CHECK DIGIT NOT TRANSMITTED  
CHECK DIGIT TRANSMITTED  
ALL CODES 39 *  
START OF CONFIGURATION  
END OF CONFIGURATION  
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IS1000 – Configuration Guide  
3.2.7. Start/Stop  
This function activates the transmission of the start and stop characters (sign ¸).  
TRANSMITTED  
NOT TRANSMITTED *  
3.2.8. Modulo 43 Algorithm  
Code 39 is strongly self checked and most situations do not require a check  
character. If a specific application requires exceptional data security, a check  
character can be added as the last character of the code.  
Example:  
Message: 12345/ABCDE  
Sum of values: 1 + 2 + 3 + 4 + 5 + 40 + 10 + 11 + 12 + 13 + 14 = 115  
Divide 115 by 43. The quotient is 2 with the remainder 29. The check character is  
the character corresponding to the value of the remainder, which is 29 in this  
example, corresponding to the character T.  
The complete message, including check character is: 12345/ABCDET.  
Numerical value assignments for computing the optional check character:  
Character Value  
Character Value  
Character Value  
0
1
2
3
4
5
6
7
8
9
A
B
C
D
E
0
1
F
G
H
I
15  
16  
17  
18  
19  
20  
21  
22  
23  
24  
25  
26  
27  
28  
29  
U
30  
31  
32  
33  
34  
35  
36  
37  
38  
39  
40  
41  
42  
V
2
W
3
X
4
J
Y
5
K
L
Z
6
-
7
M
N
O
P
Q
R
S
T
.
8
Space  
9
$
/
10  
11  
12  
13  
14  
+
%
START OF CONFIGURATION  
END OF CONFIGURATION  
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IS1000 – Configuration Guide  
3.3. Interleaved 2/5  
This symbology is only numeric and offers a very high density of characters per inch due to  
its interleaved encoding system. The decoding is very easy even if the symbols are poorly  
printed. These advantages make it very popular for industrial applications.  
But to avoid missing characters when scanning is incomplete, it has to be used with fixed  
lengths (see pages 28 or 29) or variable lengths with a check digit (see page 30).  
3.3.1. Fixed Length(s) Authorized and Set Upon First Reading(s)  
The characters are interleaved (always paired), therefore it is necessary to define  
whether the number of significant characters is odd or even.  
ODD  
EVEN *  
2 LENGTHS FIXED AFTER  
THE FIRST 2 READS  
1 LENGTH FIXED AFTER THE FIRST READ *  
3 LENGTHS FIXED AFTER  
THE FIRST 3 READS  
4 LENGTHS FIXED AFTER  
THE FIRST 4 READS  
! Note:  
In this mode, the code lengths are not saved after power-off.  
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IS1000 – Configuration Guide  
3.3.2. Fixed Length(s) Authorized and Set Using the Numeric Pad  
Select the number of code length(s) desired (1 to 4):  
ONE  
TWO  
THREE  
FOUR  
Select the N° of the length to be adjusted:  
LENGTH N° 1  
LENGTH N° 2  
LENGTH N° 3  
LENGTH N° 4  
Enter the desired number of characters  
using the Numeric Pad page 81  
VALIDATION  
Go back to adjust a next N° of length or read the code End of Configuration if no  
other lengths is desired.  
! Note:  
In this mode, the code lengths are saved after power-off.  
START OF CONFIGURATION  
END OF CONFIGURATION  
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IS1000 – Configuration Guide  
3.3.3. Variable Lengths Authorized  
ACTIVATED  
CHECK DIGIT  
CHECK DIGIT  
VERIFIED AND TRANSMITTED  
VERIFIED BUT NOT TRANSMITTED  
How to calculate the check digit value:  
Example:  
Message: 14356  
Add the odd positions: 1 + 3 + 6 = 10  
Multiply by 3 = 30  
Add the even positions. 30 + 4 + 5 = 39  
The check digit is the complement to the next ten: CK = 40 – 39 = 1  
The printed message will be: 143561  
CIP CHECK DIGIT  
CIP CHECK DIGIT  
VERIFIED AND TRANSMITTED  
VERIFIED BUT NOT TRANSMITTED  
CHECK DIGIT NOT VERIFIED *  
! Caution:  
The mode Check Digit Not Verified is not advised, missing characters can occur in  
case of incomplete scanning of a code.  
START OF CONFIGURATION  
END OF CONFIGURATION  
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IS1000 – Configuration Guide  
3.4. UPC/EAN  
This symbology is mainly used for retail applications. It has fixed lengths (8 or 12  
characters for UPC, 8 or 13 characters for EAN) and uses a check digit as the last  
character and is only numeric. Two or five supplemental digits called Add-On can be  
added to the right hand size of the codes.  
3.4.1. Types of UPC/EAN Authorized  
ALL UPC/EAN CODES *  
UPC A AUTHORIZED  
EAN 13 AUTHORIZED  
UPC E AUTHORIZED  
EAN 8 AUTHORIZED  
! Note:  
Several selections can be accumulated.  
3.4.2. Transformations  
UPC TRANSMITTED AS UPC  
UPC TRANSMITTED AS EAN *  
UPC E TRANSMITTED AS UPC A  
UPC E TRANSMITTED AS UPC E *  
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IS1000 – Configuration Guide  
3.4.3. Add-On Options  
The Add-On is a group of 2 or 5 digits printed on the right hand size of a code  
which can be transmitted or not depending of the following settings:  
ADD-ON TRANSMITTED  
ADD-ON NOT TRANSMITTED *  
If Add-On Transmitted is set, some conditions can be fixed:  
ADD-ON MUST BE PRESENT  
ADD-ON MAY NOT BE PRESENT *  
If Add-On Must Be Present is selected, other conditions can be fixed:  
On the type of Add-On accepted:  
WITH 2 OR 5 CHARACTERS *  
WITH 5 CHARACTERS ONLY  
WITH 2 CHARACTERS ONLY  
For specific applications with EAN 13 on magazines:  
Code EAN 13 starting with the 3 digits 378 or 379 will be decoded only if the Add-  
On is available and correctly decoded.  
ACTIVATED  
DISACTIVATED *  
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END OF CONFIGURATION  
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IS1000 – Configuration Guide  
3.4.4. Leading Prefixes for P.O.S. Systems  
Leading characters can be transmitted with each code to inform the P.O.S. system  
with the type of UPC or EAN read.  
The prefixes are: FF for EAN 8, F for EAN 13, A for UPC A, E for UPC E.  
PREFIXES TRANSMITTED  
PREFIXES NOT TRANSMITTED *  
3.4.5. Flag Option  
The Flag is the first digit of the code. It can be transmitted or suppressed.  
EAN 13 FLAG NOT TRANSMITTED  
EAN 8 FLAG NOT TRANSMITTED  
UPC A FLAG NOT TRANSMITTED  
UPC E FLAG NOT TRANSMITTED  
EAN 13 FLAG TRANSMITTED *  
EAN 8 FLAG TRANSMITTED *  
UPC A FLAG TRANSMITTED *  
UPC E FLAG TRANSMITTED *  
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END OF CONFIGURATION  
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IS1000 – Configuration Guide  
3.4.6. Check Digit Options  
EAN 13 CHECK DIGIT NOT TRANSMITTED  
EAN 8 CHECK DIGIT NOT TRANSMITTED  
UPC A CHECK DIGIT NOT TRANSMITTED  
UPC E CHECK DIGIT NOT TRANSMITTED  
EAN 13 CHECK DIGIT TRANSMITTED *  
EAN 8 CHECK DIGIT TRANSMITTED *  
UPC A CHECK DIGIT TRANSMITTED *  
UPC E CHECK DIGIT TRANSMITTED *  
3.4.7. Product Code  
The product code is represented by the last six digits (without the check digit) can  
be transmitted alone:  
PRODUCT CODE ONLY  
ALL CHARACTERS TRANSMITTED *  
3.4.8. ISBN Conversion  
This function converts UPC/EAN codes appearing on book into ISBN format.  
The 3 leading digits and the check digit of UPC/EAN codes are suppressed and  
the remaining 9 digits are transmitted with the ISBN check digit calculated by the  
decoder.  
UPC/EAN CONVERTED IN ISBN  
UPC/EAN TRANSMITTED AS AN UPC/EAN *  
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END OF CONFIGURATION  
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IS1000 – Configuration Guide  
3.5. Monarch/Codabar  
The Codabar (or Monarch) is a very high reliable bar code which has been designed  
specially for medical applications such as blood bag identification.  
Its character set contains numerics and four symbols.  
3.5.1. Start/Stop  
TRANSMITTED  
NOT TRANSMITTED *  
ABCD BLOCK  
a b c d Small *  
a, b, c, d are the different start/stop characters.  
3.5.2. Concatenation  
STANDARD  
CONCATENATED *  
This function permits the capture of two codes with only one scan. Codes must be  
close to one another and on the same "line".  
Once captured, the two codes are assembled and transmitted as one message.  
! Note:  
To operate this function correctly, the first code must end with the "d" stop  
character and the second code must start with the "d" start character. These two  
start/stop characters are cleared before transmission.  
START OF CONFIGURATION  
END OF CONFIGURATION  
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IS1000 – Configuration Guide  
3.6. Code 128  
This symbology offers a great flexibility with its three sets of characters:  
Set A: upper case alphanumeric characters and all ASCII control characters.  
Set B: upper and lower case alphanumeric characters and some symbols.  
Set C: numeric only but which a very high density of characters per inch.  
Good quality printed codes are recommended due to the continuous structure (no gaps  
between characters) and the four types of bar and space widths.  
It works with a modulo 103 check character as the last character.  
! Note:  
The UCC/EAN 128 options are described on next page.  
3.6.1. Check Character  
NOT VERIFIED BUT TRANSMITTED  
VERIFIED BUT NOT TRANSMITTED *  
VERIFIED AND TRANSMITTED  
3.6.2. FNC2 Function  
This function permits the temporary storage of a code in the decoder if this code  
starts with the FNC2 character. The message buffered will be concatenated and  
transmitted with next code having no FNC2 character.  
FNC2 ACTIVATED  
FNC2 NOT ACTIVATED *  
START OF CONFIGURATION  
END OF CONFIGURATION  
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IS1000 – Configuration Guide  
3.7. UCC/EAN 128  
This symbology is fully compatible with Code 128. The main difference between EAN 128  
and conventional Code 128 is that EAN 128 codes always contain a reserved non-data  
character, function 1 (FNC1), as the first character after the start character. This FNC1  
character acts also as a separator of fields in the code.  
Example of code UCC/EAN 128 structure:  
START  
FNC1  
ID – DATA 1  
FNC1  
ID – DATA 2  
CK  
STOP  
START: Start character from set A, B or C  
FNC1 : Separator character  
ID  
: Identifier of type of data  
: Check digit modulo 103  
CK  
STOP : Stop character  
The decoder detects an UCC/EAN 128 code when FNC1 is the leading character.  
The transmission of the data string will be performed as follow:  
] C1  
ID – DATA 1  
GS  
ID – DATA 2  
] C1  
GS  
: Three characters representing the identifier of the code UCC/EAN 128  
: ASCII character (1D hexa) acting as a separator  
! Note:  
In Keyboard-Wedge mode, the character GS is transmitted as quotes " (22 hexa).  
The character FNC1 can be transmitted or not using these codes:  
FNC1 TRANSMITTED  
FNC1 NOT TRANSMITTED *  
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END OF CONFIGURATION  
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IS1000 – Configuration Guide  
3.8. Standard 2/5  
This symbology is numeric only and uses the same encoding system as the code  
Interleaved 2/5 but only the bars are significant. The problem of reliability is also the same  
in case of incomplete scanning of a code so it has to be used with fix length(s).  
3.8.1. Number of Lengths Authorized  
TWO  
ONE *  
To fix the number of characters per length, read one (or two) bar code label(s)  
having the desired length(s) after the decoder is turned on.  
! Note:  
The length(s) are not saved after power-off.  
3.8.2. Start/Stop Types  
Two types of start/stop characters can be used, select the one corresponding to  
your application:  
WITH 2 BARS  
WITH 3 BARS *  
START  
STOP  
START  
STOP  
START OF CONFIGURATION  
END OF CONFIGURATION  
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IS1000 – Configuration Guide  
3.9. MSI  
This symbology is mainly used in libraries to trace the loan of books. It is only numeric and  
due to its very simple encoding system it can be used only with fixed length or with  
variable lengths when including one or two check digits.  
3.9.1. Variable or Fix Lengths  
ONE FIXED LENGTH SET BY READING  
A LABEL AFTER POWER-ON  
VARIABLE LENGTHS *  
! Note:  
The length is not saved after power-off.  
3.9.2. Double Check Digit (Modulo 10)  
VERIFIED AND BOTH TRANSMITTED  
VERIFIED BUT NOT TRANSMITTED *  
BOTH VERIFIED BUT ONLY  
FIRST ONE TRANSMITTED  
NOT VERIFIED  
3.9.3. Single Check Digit (Modulo 10)  
VERIFIED AND TRANSMITTED  
VERIFIED BUT NOT TRANSMITTED  
START OF CONFIGURATION  
END OF CONFIGURATION  
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IS1000 – Configuration Guide  
3.10. Plessey  
This was the first bar code symbology invented in the UK during the early 70's to control  
the loan of library books.  
The character set is numeric and its encoding system is very simple (thin bar = 0, large bar  
= 1). It can be only read with two check digits as last characters.  
CHECK DIGIT NOT TRANSMITTED  
CHECK DIGIT TRANSMITTED *  
3.11. Telepen  
Mainly used in UK, this symbology has two separated sets of characters; one is numeric  
and the other is alphanumeric. Use the codes below to activate the set desired.  
NUMERIC  
ALPHANUMERIC *  
3.12. Code 93  
The 128 ASCII characters can be encoded using this symbology which is more dense than  
Code 39. Two check digits are always encoded as the last characters and are verified by  
the decoder but not transmitted.  
Its Multiread function permits the concatenation of codes in the decoder for those that start  
with a space character. These will be transmitted upon the reading of a code having no  
leading space character.  
MULTIREAD NOT ACTIVATED  
MULTIREAD ACTIVATED *  
START OF CONFIGURATION  
END OF CONFIGURATION  
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IS1000 – Configuration Guide  
3.13. Matrix 2/5  
This is a numeric and a more dense code than the Standard 2/5. Each character is  
encoded with three bars and two spaces. It is advised to use it with fixed lengths or with a  
check digit.  
3.13.1. Types of Start/Stop  
WITH 2 BARS  
WITH 3 BARS *  
START  
STOP  
START  
STOP  
3.13.2. Check Digit  
VERIFIED BUT NOT TRANSMITTED  
VERIFIED AND TRANSMITTED *  
NOT VERIFIED  
! Caution:  
The mode Check Digit Not Verified is not advised, missing characters can occur in  
case of incomplete scanning of a code.  
3.13.3. Fixed or Variable Lengths  
FIXED  
VARIABLE *  
In case that fixed lengths have been set, go to next page to adjust the number of  
characters per length.  
START OF CONFIGURATION  
END OF CONFIGURATION  
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IS1000 – Configuration Guide  
3.13.4. Setting the Authorized Lengths  
FIRST LENGTH SELECTED  
ACCESS CODE  
FIRST LENGTH  
Enter the desired number of characters  
using the Numeric Pad page 81  
VALIDATION  
SECOND LENGTH SELECTED  
ACCESS CODE  
SECOND LENGTH  
Enter the desired number of characters  
using the Numeric Pad page 81  
VALIDATION  
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END OF CONFIGURATION  
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IS1000 – Configuration Guide  
3.14. IATA  
This code is used by the airline and railway companies and are printed at the bottom of  
each ticket. It is in fact a Standard 2/5 code with 2 bar start/stop characters.  
Once activated (see Symbology Selection, chapter 3.1), only codes with 15, 17, 19 or 21  
characters can be decoded.  
3.15. BC 412  
This symbology has been developed by IBM and is reserved for IBM and authorized  
companies only. To decode it the decoder must be equipped with specific firmware  
available on request, accompanied with an authorization letter from IBM.  
It uses a check digit being the second character in the code which is verified and  
transmitted or not depending of the option selected.  
CHECK DIGIT TRANSMITTED  
CHECK DIGIT NOT TRANSMITTED *  
3.16. 3W7  
Mainly used in Italy, this symbology has a set of 28 characters (numeric, letters A to F, a  
few symbols and ASCII control characters).  
A check digit modulo 28 is used as the last character in the code which is always verified  
but not transmitted.  
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IS1000 – Configuration Guide  
3.17. Leading Identifiers  
They are characters added by the decoder to the leading positions of each code which  
inform the host system of the type of symbology decoded. For example, they can be used  
when several codes with different symbologies appear on a product or document.  
Two types of identifiers can be used:  
3.17.1. Identifier with One Character  
TRANSMITTED  
NOT TRANSMITTED *  
Symbology  
Identifier  
Symbology  
Telepen  
Identifier  
Code 39  
A
S
I
B
G
Q
T
Pharmacode  
Interleaved 2/5  
UPC/EAN  
Monarch/Codabar  
Code 128  
Code 93  
Matrix 2/5  
IATA  
E
F
C
J
BC 412  
U
X
3W7  
EAN 128  
Reserved # 1  
Reserved # 2  
Reserved # 3  
V
Standard 2/5  
MSI  
R
M
P
W
Y
Plessey  
3.17.2. Identifier with Three Characters  
TRANSMITTED  
NOT TRANSMITTED *  
The first character is ] (5D hexa), the second one identifies the type of symbology  
read, the third one indicates an option in the symbology. Please consult the AIM  
standard to obtain the complete list of identifiers.  
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IS1000 – Configuration Guide  
3.18. Decoding Selectivity  
This function can be used to fully optimize the reliability of decoding when poor printed  
codes are used.  
Once activated, the decoder performs three data captures and three decodes then  
compares them before transmission.  
MAXIMUM SELECTIVITY  
(3 captures, 3 decodes)  
MINIMUM SELECTIVITY *  
(one capture, one decode)  
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4.  
OPERATING MODES  
The default operating mode of the IS1000 is the "Simple Acknowledgment".  
Other operating modes can be selected by using the following sequence:  
Read the code Start of Configuration  
bottom left of each page  
Select the desired operating mode  
Adjust the timers value  
Read the code End of Configuration  
bottom right of each page  
4.1. Simple Acknowledgment  
SIMPLE ACKNOWLEDGMENT *  
Timer T1 = 200 ms (default value). To configure it, see page 51.  
START OF CONFIGURATION  
END OF CONFIGURATION  
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IS1000 – Configuration Guide  
4.2. Host System Acknowledgment  
HOST SYSTEM ACKNOWLEDGMENT  
ACK/NAK PROTOCOL ACTIVATED  
Timer T1 = 200 ms (default value). To configure it, see page 51.  
Timer T2 = 3 s (default value). To configure it, see page 52.  
Timer T3 = 2 s (default value). To configure it, see page 52.  
4.3. On File / Not On File  
ACTIVATED  
DISACTIVATED  
ON FILE / NOT ONFILE  
Timer T1 = 200 ms (default value). To configure it, see page 51.  
Timer T2 = 3 s (default value). To configure it, see page 52.  
Timer T3 = 2 s (default value). To configure it, see page 52.  
START OF CONFIGURATION  
END OF CONFIGURATION  
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IS1000 – Configuration Guide  
4.3.1. Setting the On File Character  
This function can be used to change the On File Character sends by the host.  
By default: Character ~ (7E hexa).  
ACCESS CODE  
ON FILE CHARACTER  
Enter the desired character  
using the Code 39 Full ASCII Table page 70  
VALIDATION  
4.3.2. Setting the Not On File Character  
This function can be used to change the Not On File Character sends by the host.  
By default: Character DEL (7F hexa).  
ACCESS CODE  
NOT ON FILE CHARACTER  
Enter the desired character  
using the Code 39 Full ASCII Table page 70  
VALIDATION  
START OF CONFIGURATION  
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IS1000 – Configuration Guide  
4.4. Bell  
ACTIVATED  
DISACTIVATED  
BELL  
Timer T1 = 200 ms (default value). To configure it, see page 51.  
Timer T2 = 3 s (default value). To configure it, see page 52.  
START OF CONFIGURATION  
END OF CONFIGURATION  
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IS1000 – Configuration Guide  
4.5. Setting the Timers  
Default Value  
Timer T2  
Operating Mode  
Timer T1  
200 ms  
Timer T3  
Simple Acknowledgment  
Host System Acknowledgment  
On File / Not On File  
Bell  
200 ms  
3 s  
3 s  
3 s  
2 s  
2 s  
200 ms  
200 ms  
4.5.1. Timer T1  
Default value = 200 ms  
ACCESS CODE TIMER T1  
Enter the desired value  
using the Numeric Pad page 81  
(Step of 10 ms)  
10 value 254  
VALIDATION  
START OF CONFIGURATION  
END OF CONFIGURATION  
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IS1000 – Configuration Guide  
4.5.2. Timer T2  
Default value = 3 s  
ACCESS CODE TIMER T2  
Enter the desired value  
using the Numeric Pad page 81  
(Step of 100 ms)  
10 value 254  
VALIDATION  
4.5.3. Timer T3  
Default value = 2 s  
ACCESS CODE TIMER T3  
Enter the desired value  
using the Numeric Pad page 81  
(Step of 100 ms)  
10 value 254  
VALIDATION  
START OF CONFIGURATION  
END OF CONFIGURATION  
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IS1000 – Configuration Guide  
5.  
EDITING MODE  
START OF CONFIGURATION  
END OF CONFIGURATION  
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IS1000 – Configuration Guide  
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6.  
APPENDIXES  
6.1. Radio Parameters  
6.1.1. Radio Channel  
Channel Number  
Frequency  
433.4 MHz  
433.6 MHz  
433.8 MHz  
1
2
3
4
5
6
434.0 MHz  
434.2 MHz  
434.4 MHz  
CHANNEL 1  
CHANNEL 3 *  
CHANNEL 5  
CHANNEL 2  
CHANNEL 4  
CHANNEL 6  
START OF CONFIGURATION  
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IS1000 – Configuration Guide  
6.1.2. Number of Re-transmissions  
Maximum number of bar code re-transmission attempts by the IS1000.  
0
2
4
6
1
3 *  
5
7
START OF CONFIGURATION  
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IS1000 – Configuration Guide  
6.2. Adjustment of the Beep Sound  
6.2.1. Laser Reader  
VOLUME LOW  
VOLUME HIGH *  
6.2.2. Radio Base  
VOLUME MEDIUM  
VOLUME HIGH *  
VOLUME LOW  
VOLUME OFF  
DURATION MEDIUM (60 ms)  
DURATION LONG (120 ms) *  
DURATION SHORT (20 ms)  
DURATION VERY SHORT (5 ms)  
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6.3. Preamble / Postamble  
One or several characters (22 maximum) can be systematically added to each message  
as Preamble (leading positions) or as Postamble (ending positions) before transmission to  
the host system.  
These characters can be chosen from the Code 39 Full ASCII Table (see appendix 6.10,  
page 70) when ASCII characters are required or from the Code 39 Full ASCII Extended  
Table (see appendix 6.8, page 65) to emulate function keys in Keyboard-Wedge mode.  
6.3.1. Preamble Character  
ACCESS CODE PREAMBLE BUFFER  
Enter the Preamble character(s)  
using the Code 39 Full ASCII Table page 70 or  
the Code 39 Full ASCII Extended Table page 65  
6.3.2. Postamble Character  
ACCESS CODE POSTAMBLE BUFFER  
Enter the Postamble character(s)  
using the Code 39 Full ASCII Table page 70 or  
the Code 39 Full ASCII Extended Table page 65  
6.3.3. Clear Buffer  
To clear a buffer, read the corresponding access code then read the code Clear  
Buffer Pre-selected.  
CLEAR BUFFER PRE-SELECTED  
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6.4. Conversion of Characters  
6.4.1. First Character  
A first character can be converted into another defined by the user with the codes  
on this page (see next page for changing a second one).  
Example:  
The user wants to convert all Q characters found in an input message into A.  
Input message Q10Q234 will be changed into output message A10A234.  
ACCESS CODE  
FIRST CHARACTER TO BE CONVERTED  
Enter the desired character  
using the Code 39 Full ASCII Table page 70  
VALIDATION  
ACCESS CODE  
NEW CHARACTER DESIRED  
Enter the desired character  
using the Code 39 Full ASCII Table page 70  
VALIDATION  
START OF CONFIGURATION  
END OF CONFIGURATION  
59  
IS1000 – Configuration Guide  
Read this code to clear a pre-programmed conversion of a first character.  
CONVERSION OF FIRST CHARACTER  
CLEARED  
START OF CONFIGURATION  
END OF CONFIGURATION  
60  
IS1000 – Configuration Guide  
6.4.2. Second Character  
ACCESS CODE  
SECOND CHARACTER TO BE CONVERTED  
Enter the desired character  
using the Code 39 Full ASCII Table page 70  
VALIDATION  
ACCESS CODE  
NEW CHARACTER DESIRED  
Enter the desired character  
using the Code 39 Full ASCII Table page 70  
VALIDATION  
Read this code to clear a pre-programmed conversion of a second character.  
CONVERSION OF SECOND CHARACTER  
CLEARED  
START OF CONFIGURATION  
END OF CONFIGURATION  
61  
IS1000 – Configuration Guide  
6.5. Rolling Buffer Mode  
In this mode, the input data is first stored in the buffer of the decoder (up to 3K characters  
maximum) and transmitted to the host system at a rhythm fixed by the inter-message time-  
out selected on this page.  
It can be useful when the data transmission speed to the host system is slow (specially in  
Keyboard-Wedge mode) while a group of bar code labels has to be read very quickly  
(example: carton on a conveyor…) or while a group of RS232 input messages has to be  
first collected before transmission to the host system.  
100 ms  
NO TIME-OUT *  
200 ms  
500 ms  
700 ms  
1 SECOND  
2 SECONDS  
5 SECONDS  
10 SECONDS  
1.5 SECONDS  
3 SECONDS  
7 SECONDS  
START OF CONFIGURATION  
END OF CONFIGURATION  
62  
IS1000 – Configuration Guide  
6.6. Transmission of the Full ASCII Character Set  
This function releases the transmission of the 96 printable ASCII characters (20 to 7F hexa)  
to the host system in any communication mode. The purpose of this function is to verify  
that all characters are correctly emulated by the decoder specially in Keyboard-Wedge  
mode.  
ASCII TABLE TRANSMISSION ACTIVATED  
START OF CONFIGURATION  
END OF CONFIGURATION  
63  
IS1000 – Configuration Guide  
6.7. Displaying the Firmware Level  
Once the IS1000 radio base is connected to a host system with communication  
parameters correctly adjusted, the level of the firmware implemented in the IS1000 laser  
reader, radio base and its decoder can be displayed.  
LASER READER AND RADIO BASE  
The message will appear as follow:  
Portable=X.XX - - Base=X.XX  
RADIO BASE DECODER  
The message will appear as follow:  
FIRMWARE LEVEL: XXX.XX  
START OF CONFIGURATION  
END OF CONFIGURATION  
64  
IS1000 – Configuration Guide  
6.8. Code 39 Full ASCII Extended Table  
A  
B  
D  
F  
H  
J  
L  
FIELD EXIT  
FIELD ADVANCE  
C  
ENTER  
SEND  
E  
TAB -  
RETURN  
G  
RESET, RESTORE  
HOME  
I  
t
s
v
K  
u
M  
CLEAR  
65  
IS1000 – Configuration Guide  
N  
P  
R  
T  
V  
X  
O  
Q  
S  
U  
W  
Y  
F1  
F2  
F3  
F4  
F5  
F6  
F7  
F8  
F9  
F10  
F11  
F12  
Z  
RESERVED  
66  
IS1000 – Configuration Guide  
6.9. Multiread character Table  
0
SPACE *  
1
3
5
7
9
B
2
4
6
8
A
C
E
D
67  
IS1000 – Configuration Guide  
F
H
J
G
I
K
M
O
Q
S
U
L
N
P
R
T
68  
IS1000 – Configuration Guide  
V
X
Z
.
W
Y
-
*
$
/
+
%
69  
IS1000 – Configuration Guide  
6.10. Code 39 Full ASCII Table  
Translation and values of the bar codes which appear on the next pages.  
ASCII  
Code 39  
Hexa Value  
ASCII  
Code 39  
Hexa Value  
NUL  
SOH  
STX  
ETX  
EOT  
ENQ  
ACK  
BEL  
BS  
%U  
$A  
$B  
$C  
$D  
$E  
$F  
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  
SP  
!
Space  
/A  
/B  
/C  
/D  
/E  
/F  
/G  
/H  
/I  
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  
"
#
$
%
&
'
$G  
$H  
$I  
(
HT  
)
LF  
$J  
*
/J  
VT  
$K  
$L  
+
,
/K  
/L  
-
FF  
CR  
$M  
$N  
$O  
$P  
$Q  
$R  
$S  
$T  
-
SO  
.
.
SI  
/
/O  
0
DLE  
DC1  
DC2  
DC3  
DC4  
NAK  
SYN  
ETB  
CAN  
EM  
0
1
2
3
4
5
6
7
8
9
:
1
2
3
4
$U  
$V  
$W  
$X  
$Y  
$Z  
5
6
7
8
9
SUB  
ESC  
FS  
/Z  
%F  
%G  
%H  
%I  
%J  
%A  
%B  
%C  
%D  
%E  
;
<
=
>
?
GS  
RS  
US  
70  
IS1000 – Configuration Guide  
Translation and values of the bar codes which appear on the next pages.  
ASCII  
Code 39  
Hexa Value  
ASCII  
Code 39  
Hexa Value  
@
A
B
C
D
E
F
G
H
I
%V  
A
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  
`
a
b
c
d
e
f
%W  
+A  
+B  
+C  
+D  
+E  
+F  
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  
B
C
D
E
F
G
H
g
h
i
+G  
+H  
+I  
I
J
J
j
+J  
K
L
K
k
l
+K  
+L  
L
M
N
O
P
Q
R
S
T
U
V
W
X
Y
Z
[
M
N
m
n
o
p
q
r
+M  
+N  
+O  
+P  
+Q  
+R  
+S  
+T  
O
P
Q
R
S
s
t
T
U
u
v
w
x
y
z
{
+U  
+V  
+W  
+X  
+Y  
+Z  
V
W
X
Y
Z
%K  
%L  
%M  
%N  
%O  
%P  
%Q  
%R  
%S  
%T  
\
|
]
}
^
~
DEL  
_
71  
IS1000 – Configuration Guide  
NUL  
STX  
EOT  
ACK  
BS  
SOH  
ETX  
ENQ  
BEL  
HT  
LF  
VT  
FF  
CR  
SO  
SI  
72  
IS1000 – Configuration Guide  
DLE  
DC2  
DC4  
SYN  
CAN  
SUB  
FS  
DC1  
DC3  
NAK  
ETB  
EM  
ESC  
GS  
RS  
US  
73  
IS1000 – Configuration Guide  
SP  
!
#
%
'
"
$
&
(
)
*
+
,
-
.
/
74  
IS1000 – Configuration Guide  
0
2
4
6
8
:
1
3
5
7
9
;
<
=
>
?
75  
IS1000 – Configuration Guide  
@
B
D
F
A
C
E
G
I
H
J
K
M
O
L
N
76  
IS1000 – Configuration Guide  
P
R
T
V
X
Z
\
Q
S
U
W
Y
[
]
^
_
77  
IS1000 – Configuration Guide  
`
b
d
f
a
c
e
g
i
h
j
k
m
o
l
n
78  
IS1000 – Configuration Guide  
p
q
r
s
t
u
v
x
z
l
w
y
{
}
~
DEL  
79  
IS1000 – Configuration Guide  
Page intentionally left blank  
80  
IS1000 – Configuration Guide  
6.11. Numeric Pad  
For entering variable data while configuration.  
0
2
4
6
8
1
3
5
7
9
81  
IS1000 – Configuration Guide  
6.12. Samples of Bar Codes  
CODE 39  
INTERLEAVED 2/5  
CODABAR  
CODE 128  
EAN 128  
82  
IS1000 – Configuration Guide  
UPC E  
UPC A  
UPC A with ADD-ON of 5 characters  
EAN 8  
EAN 13  
EAN 13 with ADD-ON of 5 characters  
83  
IS1000 – Configuration Guide  
Page intentionally left blank  
84  
IS1000 – Configuration Guide  

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