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Metrologic Instruments IS1000 manual

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Table of contents for the manual

  • Page 1

    IS1000 Series Radio Frequency Bar Code Reader Configuration Guide Metrologic Instruments GmbH Dornierstrasse 2 82178 Puchheim GERMAN Y Tel. : +49 (0) 89 890 19 0 Fax : +49 (0) 89 890 19 200[...]

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    [...]

  • Page 3

    IS1000 – Configuration Guide i Metrologic Instruments GmbH makes no guaranteed declaration or offer concerning the contents or use of this manual, and notably refutes any ex press or implicit liability as regards th e merchandisable quality or suitability for a particular use of the product. In addition, Metrologic Instruments GmbH reserves the r[...]

  • Page 4

    IS1000 – Configuration Guide ii Metrologic Instruments GmbH Donierstrasse 2 82178 Puchheim GERMAN Y Tel.: +49 (0)89 890 190 Fax: +49 (0)89 890 19 200 info@europe.metrologic.com 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. Ju[...]

  • Page 5

    IS1000 – Configuration Guide iii TABLE OF CONTENTS 1. INTRODUCTION............................................................................................................. 1 1.1. Default Configuration (factory setting) .............................................................. 3 2. COMMUNICATION MODES......................................[...]

  • Page 6

    IS1000 – Configuration Guide iv 3.4.1. Types of UPC/EAN Authorized ................................................................ 31 3.4.2. Transformations ....................................................................................... 31 3.4.3. Add-On Options .............................................................................[...]

  • Page 7

    IS1000 – Configuration Guide v 4.5. Setting the Timers ............................................................................................. 51 4.5.1. Timer T1 .................................................................................................. 51 4.5.2. Timer T2 ..............................................................[...]

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    IS1000 – Configuration Guide vi Page intentionally left blank[...]

  • Page 9

    IS1000 – Configuration Guide 1 1. INTRODUCTION This manual contains information about configuration IS100 0 laser reader and deco der present in the radio base. The installation procedures and technical description are d escribed in the IS1000 Installation and User’s Guide . The IS1000 Connection List contains the connection numbers (or ID) and[...]

  • Page 10

    IS1000 – Configuration Guide 2 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. Chapter 2 Page 5 Chapter 3 Page 21 Chapter 4 Page 47 Chapter 5 Page 53 Chapter 6 Page 55 There is no need to adjust all the para[...]

  • Page 11

    IS1000 – Configuration Guide 3 1.1. Default Configur ation (factory setting) When shipped from the factory, each IS1000 is configured with default parameter values as follows: Default Configuration Communication Mode RS232 mode: - 9600 bps - Even parity - 7 data bits - 1 stop bit - CR/LF end of message characters Symbology Code 39, Code 128, EAN [...]

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    IS1000 – Configuration Guide 4 Page intentionally left blank[...]

  • Page 13

    IS1000 – Configuration Guide 5 START OF CONFIG URATION END OF CONFIGURATION 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 usin[...]

  • Page 14

    IS1000 – Configuration Guide 6 START OF CONFIG URATION END OF CONFIGURATION 2.1. RS232 Use the codes on this page through to page 11 to activate and adjust the RS232 parameters. 2.1.1. Baud Rate RS232 MODE ACTIVATED * 38400 2400 19200 1200 9600 * 600 4800 300[...]

  • Page 15

    IS1000 – Configuration Guide 7 START OF CONFIG URATION END OF CONFIGURATION 2.1.2. Data Bits 2.1.3. Parity 2.1.4. Stop Bits 7 * 8 EVEN * MA RK ODD SPACE 1 * 2[...]

  • Page 16

    IS1000 – Configuration Guide 8 START OF CONFIG URATION END OF CONFIGURATION 2.1.5. End of Message Character One character can be systematically transmitted with each code to indicate the end of message: Other characters or complete fields can be a dded to the message using the Preamble / Postamble function (see appendix 6.3, page 58) or the Editi[...]

  • Page 17

    IS1000 – Configuration Guide 9 START OF CONFIG URATION END OF CONFIGURATION 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: 100 ms 0 ms * 10 ms 20 ms 5[...]

  • Page 18

    IS1000 – Configuration Guide 10 START OF CONFIG URATION END OF CONFIGURATION 2.1.7. ACK/NAK Protocol Once this protocol is activated, the de coder wait s for an acknowledgment from the host system: • ACK (06 hexa) means: message correct ly received by the host system. • NAK (15 hexa) means: message incorrectly received by the host, upon recep[...]

  • Page 19

    IS1000 – Configuration Guide 11 START OF CONFIG URATION END OF CONFIGURATION 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 inst ead of its ASCII value. Then, upon recept[...]

  • Page 20

    IS1000 – Configuration Guide 12 START OF CONFIG URATION END OF CONFIGURATION 2.2. Keyboard-Wedge In this mode the radio base is connected betw een 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 cod es on this page t[...]

  • Page 21

    IS1000 – Configuration Guide 13 START OF CONFIG URATION END OF CONFIGURATION PC Keyboard-Wedge ID: PC Keyboard Type ID ALT Mode 114 Belgian 644 French 1 German 104 Hungarian 437 Italian 123 Spanish 313 Swedish 169 Swiss 148 UK 611 US 11 For other Keyboard-Wedge interfaces, please refer to the IS1000 Connection List to obtain ID and cable referenc[...]

  • Page 22

    IS1000 – Configuration Guide 14 START OF CONFIG URATION END OF CONFIGURATION 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: Other characters, signs, function keys or fields can be added using the Preamble / Postamble function (see appendix 6.3, page 58) or[...]

  • Page 23

    IS1000 – Configuration Guide 15 START OF CONFIG URATION END OF CONFIGURATION 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 key board modes. If the option Numeric Pad is chosen, the[...]

  • Page 24

    IS1000 – Configuration Guide 16 START OF CONFIG URATION END OF CONFIGURATION 2.2.5. "WYSE" Time-Out Some Keyboard-Wedge connections on some Wyse terminals can drop characters especially when a string of identical characters app ears in a code. Only in this case, use this function to insert a time-out between characters: Enter the desire[...]

  • Page 25

    IS1000 – Configuration Guide 17 START OF CONFIG URATION END OF CONFIGURATION 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 communicat[...]

  • Page 26

    IS1000 – Configuration Guide 18 START OF CONFIG URATION END OF CONFIGURATION 2.4. Wand Emulation Scan this code to activate the wand emulation mode: Then select the symbology to be emulated using the Bar Code Pad page 12, without reading the code Keyboard-Wedge Mode Activated : Emulation ID Code 39 69 Interleaved 2/5 68 UPC/EAN * 70 * Only 8 or 1[...]

  • Page 27

    IS1000 – Configuration Guide 19 START OF CONFIG URATION END OF CONFIGURATION 2.4.2. Bar/Space Polarity 2.4.3. Idle State BAR = 1, SPACE = 0 * BAR = 0, SPACE = 1 HIGH (5 VOLT) * LOW (0 VOLT)[...]

  • Page 28

    IS1000 – Configuration Guide 20 START OF CONFIG URATION END OF CONFIGURATION 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: For the radio base connector pin-out, refer to the IS1000 Installation and User’s Guide. ! Note: LASER EMUL[...]

  • Page 29

    IS1000 – Configuration Guide 21 START OF CONFIG URATION END OF CONFIGURATION 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 dens[...]

  • Page 30

    IS1000 – Configuration Guide 22 START OF CONFIG URATION END OF CONFIGURATION 3.1. Symbology Selection This code must be read to initialize any new selection of symbologies These six bar code symbologies are the most commonly used and are active by default. Other symbologies can be selected on the next page. • If no symbology is selected after t[...]

  • Page 31

    IS1000 – Configuration Guide 23 START OF CONFIG URATION END OF CONFIGURATION 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. STANDARD 2/5 MSI BC 412 ** 3W7 TELEPEN Reserved # 1 Reserved # 2 [...]

  • Page 32

    IS1000 – Configuration Guide 24 START OF CONFIG URATION END OF CONFIGURATION 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 1[...]

  • Page 33

    IS1000 – Configuration Guide 25 START OF CONFIG URATION END OF CONFIGURATION 3.2.3. Multiread 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[...]

  • Page 34

    IS1000 – Configuration Guide 26 START OF CONFIG URATION END OF CONFIGURATION 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[...]

  • Page 35

    IS1000 – Configuration Guide 27 START OF CONFIG URATION END OF CONFIGURATION 3.2.7. Start/Stop This function activates the transmission of the start and stop characters ( sign ¸ ). 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 [...]

  • Page 36

    IS1000 – Configuration Guide 28 START OF CONFIG URATION END OF CONFIGURATION 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 applic[...]

  • Page 37

    IS1000 – Configuration Guide 29 START OF CONFIG URATION END OF CONFIGURATION 3.3.2. Fixed Length(s) Authoriz ed and Set Using the Numeric Pad Select the number of code length(s) desired (1 to 4): Select the N° of the length to be adjusted: Enter the desired number of characters using the Numeric Pad page 81 Go back to adjust a next N° of length[...]

  • Page 38

    IS1000 – Configuration Guide 30 START OF CONFIG URATION END OF CONFIGURATION 3.3.3. Variable Lengths Authorized 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 p[...]

  • Page 39

    IS1000 – Configuration Guide 31 START OF CONFIG URATION END OF CONFIGURATION 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 [...]

  • Page 40

    IS1000 – Configuration Guide 32 START OF CONFIG URATION END OF CONFIGURATION 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: If Add-On Transmitted is set, some conditions can be fixed: If Add-On Must Be Present is selected, o[...]

  • Page 41

    IS1000 – Configuration Guide 33 START OF CONFIG URATION END OF CONFIGURATION 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. 3.4.5. Flag Option The Flag is the first [...]

  • Page 42

    IS1000 – Configuration Guide 34 START OF CONFIG URATION END OF CONFIGURATION 3.4.6. Check Digit Options 3.4.7. Product Code The product code is represented by the last six digits (without the check digit) can be transmitted alone: 3.4.8. ISBN Conversion This function converts UPC/EAN codes appearing on book into ISBN format. The 3 leading digits [...]

  • Page 43

    IS1000 – Configuration Guide 35 START OF CONFIG URATION END OF CONFIGURATION 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 a, b, c, d are the differen[...]

  • Page 44

    IS1000 – Configuration Guide 36 START OF CONFIG URATION END OF CONFIGURATION 3.6. Code 128 This symbology offers a great flexibility with its three sets of characters: • Set A: upper case alpha numeric characters and all ASCII control characters. • Set B: upper and lower case alphanu meric characters and some symbols. • Set C: numeric only [...]

  • Page 45

    IS1000 – Configuration Guide 37 START OF CONFIG URATION END OF CONFIGURATION 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 [...]

  • Page 46

    IS1000 – Configuration Guide 38 START OF CONFIG URATION END OF CONFIGURATION 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 use d with fix length(s)[...]

  • Page 47

    IS1000 – Configuration Guide 39 START OF CONFIG URATION END OF CONFIGURATION 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 Len[...]

  • Page 48

    IS1000 – Configuration Guide 40 START OF CONFIG URATION END OF CONFIGURATION 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 d[...]

  • Page 49

    IS1000 – Configuration Guide 41 START OF CONFIG URATION END OF CONFIGURATION 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 3.13.2. Check Digit The mode Check Digi[...]

  • Page 50

    IS1000 – Configuration Guide 42 START OF CONFIG URATION END OF CONFIGURATION 3.13.4. Setting t he Authorized Lengths Enter the desired number of characters using the Numeric Pad page 81 Enter the desired number of characters using the Numeric Pad page 81 FIRST LENGTH SELECTED ACCESS CODE FIRST LENGTH VALIDA TION SECOND LENGTH SELECTED ACCESS CODE[...]

  • Page 51

    IS1000 – Configuration Guide 43 START OF CONFIG URATION END OF CONFIGURATION 3.14. IATA This code is used by the airline and railway co mpanies and are printed at the bot tom of each ticket. It is in fact a Standard 2/5 code with 2 bar start/st op characters. Once activated (see Symbology Selection , chapter 3.1), only codes with 15, 17, 19 or 21[...]

  • Page 52

    IS1000 – Configuration Guide 44 START OF CONFIG URATION END OF CONFIGURATION 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 sy mbology decoded. For example, they can be used when several codes with different symbologies appear on a product or doc[...]

  • Page 53

    IS1000 – Configuration Guide 45 START OF CONFIG URATION END OF CONFIGURATION 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 [...]

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    IS1000 – Configuration Guide 46 START OF CONFIG URATION END OF CONFIGURATION Page intentionally left blank[...]

  • Page 55

    IS1000 – Configuration Guide 47 START OF CONFIG URATION END OF CONFIGURATION 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: 4.1. Simple Acknowledgment • Timer T1 = 200 ms (default value). To configure it, see page 51. S[...]

  • Page 56

    IS1000 – Configuration Guide 48 START OF CONFIG URATION END OF CONFIGURATION 4.2. Host System Acknowledgment • 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 • Timer T[...]

  • Page 57

    IS1000 – Configuration Guide 49 START OF CONFIG URATION END OF CONFIGURATION 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). Enter the desired character using the Code 39 Full ASCII Table page 70 4.3.2. Setting the Not On File Character This funct[...]

  • Page 58

    IS1000 – Configuration Guide 50 START OF CONFIG URATION END OF CONFIGURATION 4.4. 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. ACTIVA TED DISA CTIVATED BELL[...]

  • Page 59

    IS1000 – Configuration Guide 51 START OF CONFIG URATION END OF CONFIGURATION 4.5. Setting the Timers Default Value Operating Mode Timer T1 Timer T2 Timer T3 Simple Acknowledgment 200 ms Host System Acknowledg ment 200 ms 3 s 2 s On File / Not On File 200 ms 3 s 2 s Bell 200 ms 3 s 4.5.1. Timer T1 Default value = 200 ms Enter the desired value usi[...]

  • Page 60

    IS1000 – Configuration Guide 52 START OF CONFIG URATION END OF CONFIGURATION 4.5.2. Timer T2 Default value = 3 s Enter the desired value using the Numeric Pad page 81 (Step of 100 ms) 10 ≤ value ≤ 254 4.5.3. Timer T3 Default value = 2 s Enter the desired value using the Numeric Pad page 81 (Step of 100 ms) 10 ≤ value ≤ 254 ACCESS CODE TIM[...]

  • Page 61

    IS1000 – Configuration Guide 53 START OF CONFIG URATION END OF CONFIGURATION 5. EDITING M ODE[...]

  • Page 62

    IS1000 – Configuration Guide 54 START OF CONFIG URATION END OF CONFIGURATION[...]

  • Page 63

    IS1000 – Configuration Guide 55 START OF CONFIG URATION END OF CONFIGURATION 6. APPENDIXES 6.1. Radio Parameters 6.1.1. Radio Channel Channel Number Frequency 1 433.4 MHz 2 433.6 MHz 3 433.8 MHz 4 434.0 MHz 5 434.2 MHz 6 434.4 MHz CHANNEL 1 CHANNEL 2 CHANNEL 3 * CHANNEL 4 CHANNEL 5 CHANNEL 6[...]

  • Page 64

    IS1000 – Configuration Guide 56 START OF CONFIG URATION END OF CONFIGURATION 6.1.2. Number of Re-transmissions Maximum number of bar code re-transmission attempts by the IS1000. 0 1 2 3 * 4 5 6 7[...]

  • Page 65

    IS1000 – Configuration Guide 57 START OF CONFIG URATION END OF CONFIGURATION 6.2. Adjustment of the Beep Sound 6.2.1. Laser Reader 6.2.2. Radio Base VOLUME HIGH * VOLUME LOW VOLUME HIGH * VOLUME MEDIUM VOLUME LOW VOLUME OFF DURATION LONG (120 ms) * DUR ATION MEDIUM (60 ms) DURATION SHORT (20 ms) DURATION VERY SHORT (5 ms)[...]

  • Page 66

    IS1000 – Configuration Guide 58 START OF CONFIG URATION END OF CONFIGURATION 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 AS[...]

  • Page 67

    IS1000 – Configuration Guide 59 START OF CONFIG URATION END OF CONFIGURATION 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 i[...]

  • Page 68

    IS1000 – Configuration Guide 60 START OF CONFIG URATION END OF CONFIGURATION Read this code to clear a pre-programmed conversion of a first character. CONVERSION OF FIRST CHAR ACTER CLEARED[...]

  • Page 69

    IS1000 – Configuration Guide 61 START OF CONFIG URATION END OF CONFIGURATION 6.4.2. Second Character Enter the desired character using the Code 39 Full ASCII Table page 70 Enter the desired character using the Code 39 Full ASCII Table page 70 Read this code to clear a pre-programmed conversion of a second character. CONVERSION OF SECOND CH ARACTE[...]

  • Page 70

    IS1000 – Configuration Guide 62 START OF CONFIG URATION END OF CONFIGURATION 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 tran[...]

  • Page 71

    IS1000 – Configuration Guide 63 START OF CONFIG URATION END OF CONFIGURATION 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 t his function is to verify that all characters are correctly em ul[...]

  • Page 72

    IS1000 – Configuration Guide 64 START OF CONFIG URATION END OF CONFIGURATION 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. The message will a[...]

  • Page 73

    IS1000 – Configuration Guide 65 6.8. Code 39 Full ASCII Extended Table FIELD EXIT HOME FIELD ADVANCE t s u TA B - v RETURN CLEAR RESET, RESTORE ● A ● G ● B ● H ● I ● J ● K ● L ● M ENTER ● C ● D SEND ● E ● F[...]

  • Page 74

    IS1000 – Configuration Guide 66 F7 F12 F1 F2 F3 F4 F5 F6 F9 F10 RESERVED ● N ● O ● P ● Q ● R ● S ● V ● W ● Z F11 ● X ● Y F8 ● T ● U[...]

  • Page 75

    IS1000 – Configuration Guide 67 6.9. Multiread character Table SPACE * 0 1 2 3 4 5 6 7 8 9 A B C D E[...]

  • Page 76

    IS1000 – Configuration Guide 68 F G H I J K L M N O P Q T U R S[...]

  • Page 77

    IS1000 – Configuration Guide 69 V W X Y Z - . * $ / + %[...]

  • Page 78

    IS1000 – Configuration Guide 70 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 %U 00 SP Space 20 SOH $A 01 ! /A 21 STX $B 02 " /B 22 ETX $C 03 # /C 23 EOT $D 04 $ /D 24 ENQ $E 05 % /E 25 ACK $F 06 & /F 26 BEL $G 07 ' /G 27 B[...]

  • Page 79

    IS1000 – Configuration Guide 71 Translation and values of the bar codes which appear on the next pages. ASCII Code 39 Hexa Value ASCII Code 39 Hexa Value @ %V 40 ` %W 60 A A 41 a +A 61 B B 42 b +B 62 C C 43 c +C 63 D D 44 d +D 64 E E 45 e +E 65 F F 46 f +F 66 G G 47 g +G 67 H H 48 h +H 68 I I 49 i +I 69 J J 4A j +J 6A K K 4B k +K 6B L L 4C l +L 6[...]

  • Page 80

    IS1000 – Configuration Guide 72 NUL SOH STX ETX EOT ENQ ACK BE L BS HT LF VT SO SI FF CR[...]

  • Page 81

    IS1000 – Configuration Guide 73 DLE DC1 DC2 DC3 DC4 NAK SYN ETB CA N EM SUB ESC RS US FS GS[...]

  • Page 82

    IS1000 – Configuration Guide 74 SP ! " # $ % & ' ( ) * + . / , -[...]

  • Page 83

    IS1000 – Configuration Guide 75 0 1 2 3 4 5 6 7 8 9 : ; > ? < =[...]

  • Page 84

    IS1000 – Configuration Guide 76 @ A B C D E F G H I J K N O L M[...]

  • Page 85

    IS1000 – Configuration Guide 77 P Q R S T U V W X Y Z [ ^ _ ][...]

  • Page 86

    IS1000 – Configuration Guide 78 ` a b c d e f g h i j k n o l m[...]

  • Page 87

    IS1000 – Configuration Guide 79 p q r s t u v w x y z { ~ DEL l }[...]

  • Page 88

    IS1000 – Configuration Guide 80 Page intentionally left blank[...]

  • Page 89

    IS1000 – Configuration Guide 81 6.11. Numeric Pad For entering variable data while configuration. 0 1 2 3 4 5 6 7 8 9[...]

  • Page 90

    IS1000 – Configuration Guide 82 6.12. Samples of Bar Codes EAN 128 CODE 128 CODABAR INTE RLEA VED 2/5 CODE 39[...]

  • Page 91

    IS1000 – Configuration Guide 83 EAN 13 with ADD-ON of 5 character s EAN 13 EAN 8 UPC A with ADD- ON of 5 characters UPC A UPC E[...]

  • Page 92

    IS1000 – Configuration Guide 84 Page intentionally left blank[...]