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PureScan Di5 Configuration Manual

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PureScan-Di5
Configuration guide

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Summary of Contents for PureScan Di5

  • Page 1 PureScan-Di5 Configuration guide...
  • Page 2 bar code configuration...

  • Page 3: Table Of Contents

    TABLE OF CONTENTS Code options (continued) Introduction ..........U1 3.3.19.Options for Codablock F.....U63 3.3.20.Options for DataMatrix......U63 Defaults ............U5 3.3.21.Options for Aztec........U64 3.3.21.Options for Chinese Sensible code..U65 Interface ...........U7 3.3.22.Options for QR Code......U66 3.3.23.Options for Micro QR Code....U67 2.1. RS232 options ........U8 3.3.24.Options for Maxicode......U67 2.1.1.

  • Page 4: Introduction

    INTRODUCTION This menu book is intended for setting up your bar code reader to optimize its performance for your particular application. When the required options have been configured, they remain in the reader, even after power down. The reader can be returned to factory default by reading the default label.

  • Page 5: Power Off

    • 5: Configuring via the menu book Use chapter 5 to select the read options to your To configure the required options proceed as preference. These options affect the read follows: mode, read time, trigger and redundancy. • scan the SET label •...
  • Page 6 Configuring via RS232 The following commands may be used to: In the middle column of the menu pages the Command B sound a good read beep command is printed, e.g. U2. These commands Command E sound an error beep can be sent to readers with an RS232 interface. Command G motor off To configure via the RS232 port proceed as...

  • Page 8: Defaults

    1. DEFAULTS This option allows you to undo all previously configured options and bring the reader's configuration back to factory default settings. These factory default settings are printed in bold. Note that differences may occur depending on the type of interface as will be mentioned in the text.
  • Page 9 1. Defaults RS232 USB-HID...

  • Page 10: Interface

    2. INTERFACE This chapter describes the configurable transmission options for your reader. Some options may not be relevant to the type of reader you have. An attempt to configure the reader for such options does not affect its operation and usually results in the reader producing an error tone, indicating you tried to make an illegal configuration entry.

  • Page 11: Rs232 Options

    2.1. RS232 options This paragraph describes the specific options TxD: for a reader with an RS232 interface. Transmitted Data: Transmits data from the reader to the host. This connection is Bar code readers with an RS232 interface are mandatory. normally supplied with either a DB25 or DB9 female connector.

  • Page 12: Baud Rate Settings

    2.1.1. Baud rate settings The baud rate is the rate at which bits are transmitted from the reader to the host, and vice versa. Both the reader and the host should be set to the same baud rate _ZZ_ _K0_ 150 baud _K1_ 300 baud...

  • Page 13: Data, Parity, Stop Bits

    2.1.2. Data, parity and stop bits The data characters may be transferred in one Fig. 2.03. Data, parity, stop bits of the following formats: START 7 Bit Data STOP A parity bit may be added to every character so START 7 Bit Data 2 STOP that the total number of 1's in the data bits,...

  • Page 14: Handshaking

    2.1.3. Handshaking Data flow control is available using either ON the reader is allowed to transmit data. hardware (Modem, Busy/Ready) or software When all data has been transmitted, the reader (XON/XOFF). In addition, an optional will turn RTS OFF. In response, the host should acknowledgement control is available (ACK/ turn OFF the reader's CTS.
  • Page 15 Response: "None" 6. ACK/NAK no response: Action: If there is no response within one The difference from the ACK/NAK mode is that second then the reader terminates when no response from the host is received transmission with an error buzzer. See figure within 100 ms, the reader assumes that the 2.06.
  • Page 16 2.1.3. Handshaking _ZZ_ _P0_ No handshake _P1_ Busy/ready _P2_ Modem _ZG_ XON/XOFF _P3_ ACK/NAK _P4_ ACK/NAK NO RESPONSE _I0_ Flow Control time out indefinitely _I1_ Flow Control time out 100ms _I2_ Flow Control time out 200ms _I3_ Flow Control time out 400ms _ZZ_...

  • Page 17: Intercharacter Delay For Rs232

    2.1.4. Intercharacter delay for RS232 The intercharacter delay introduces a configurable time delay after each character transmitted. This may be used if the connected computer or terminal does not support flow control and is not capable of handling the received data. _ZZ_ _KA_ No delay...

  • Page 18: Keyboard Wedge/Usb Options

    2.2. Keyboard wedge/USB options This paragraph describes the options which are With keyboard: relevant to readers with a wedge or USB Use this mode in case a keyboard is connected interface. The following parameters can be to the PC wedge Y-cable. configured: The wedge is only listening in case the computer is booting or when the wedge is idle.
  • Page 19 2.2.1. Keyboard language Keyboards are also different depending on country or language. Examples are the QWERTY and AZERTY keyboards. Select the same language that has been selected on your The languages supported depend on the reader model and software release. Please consult your sales office for the languages currently supported.
  • Page 20 _ZZ_ _PK_ Swiss ( German ) _PI_ Dutch _PJ_ Belgian _PD_ Swedish _PG_ Finnish _KK_ Danish _PE_ Norwegian _PM_ Japanese _WF_ Czech _ZZ_...

  • Page 21: Special Options

    2.2.2. Special options Auto NumLock mode: When selecting this option, the bar code reader This section contains some specialised automatically uses the correct NumLock state. keyboard options. No CAPSLOCK mode: Do not use numpad: This options cancels the CAPSLOCK mode. The reader wil emulate the numerical keys on the alpha keypad when transmitting numerical CAPSLOCK mode:...

  • Page 22: Intercharacter Delay For Wedges/Usb

    The intercharacter delay can be used to adapt 2.2.3. Intercharacter delay for wedges/USB the reader's data transmission speed to the system. If the transmission speed is too high, the system may not be able to receive all characters. Adjust the intercharacter delay until the data is received correctly.
  • Page 23 Note: 3. CODE OPTIONS The menubook categorizes the barcodes as The menu options in this chapter are intended groups of different symbologies with their to adjust the decoding settings of the reader: translations and sometimes with relations to • which bar code types can be read other family names.

  • Page 24: Code Options

    3.1. Setting of readable codes These options do not affect the reading of the Example 2: If you want to read one of the special bar codes menu labels. The required bar code types can be selected by enabling a single readable code that is a variation of the readable code, read only and enabling readable codes.
  • Page 25 3.1.1. Enabling a single read. code _ZZ_ _A0_ All codes excl. add-on _J0_ Only all UPC and EAN codes _J1_ UPC only _J2_ UPC + 2 only _J3_ UPC + 5 only _J4_ EAN only _J5_ EAN + 2 only _J6_ EAN + 5 only _A2_...
  • Page 26 _ZZ_ _RA_ S-Code only _AB_ Matrix 2of5 only _JE_ Chinese Post Matrix 2of5 only _JL_ Korean Postal Authority code only _D5H_ Intelligent Mail Barcode only _D6C_ POSTNET only _A4_ IATA only _A7_ MSI/Plessey only _A9_ Telepen only _A1_ UK/Plessey only _A6_ Code 128 only _A5_...
  • Page 27 _ZZ_ _J9_ GS1 DataBar only _JJ_ GS1 DataBar Limited only _JK_ GS1 DataBar Expanded only _D4R_ Codablock F only _BG2_ DataMatrix ECC000 - 140 only _BC0_ DataMatrix ECC200 only _BC5_ Aztec only _BF4_ Aztec runes only _D4K_ Chinese Sensible code only _BC1_ QR Code only...

  • Page 28: Enabling Of Readable Codes

    _ZZ_ _BC4_ MicroPDF417 only _BCA_ Enable all 1D codes only _BCB_ Enable all 2D codes only _ZZ_ 3.1.2. Enabling of readable codes With this option you can set the reader to read a number of bar code types or simply enable additional bar code types.
  • Page 29 3.1.2. Enabling of readable codes _ZZ_ _A0_ All codes excl. add-on _R1_ Enable UPC _R2_ Enable UPC + 2 _R3_ Enable UPC + 5 _R4_ Enable EAN _R5_ Enable EAN + 2 _R6_ Enable EAN + 5 _B2_ Enable Code 39 _JZ_ Enable Tri-Optic _B3_...
  • Page 30 _ZZ_ _BB_ Enable Matrix 2of5 _JS_ Enable Chinese Post Matrix 2of5 _WH_ Enable Korean Postal Authority code _D5F_ Enable Intelligent Mail Barcode _D6A_ Enable POSTNET _B4_ Enable IATA _B7_ Enable MSI/Plessey _B9_ Enable Telepen _B1_ Enable UK/Plessey _B6_ Enable Code 128 _B5_ Enable Code 93 _BLC_...
  • Page 31 _ZZ_ _JY_ Enable GS1-Databar Limited _DR_ Enable GS1-Databar Expanded _D4P_ Enable Codablock F _BG0_ Enable DataMatrix ECC000 - 140 _BCC_ Enable DataMatrix ECC200 _BCH_ Enable Aztec _BF2_ Enable Aztec runes _D4L_ Enable Chinese Sensible code _BCD_ Enable QR Code _D2U_ Enable Micro QR Code _BCE_ Enable Maxicode...

  • Page 32: Setting Of Number Of Characters

    _ZZ_ _BCM_ Enable all 1D codes _BCN_ Enable all 2D codes _B0_ Disable all _ZZ_ 3.2. Setting of number of characters If you are going to read bar codes of known Fixed length ON all codes. length, it is recommended to set the reader for This option enables the fixed length checking.
  • Page 33 It is possible to configure a fixed length or a Fixed length ON for selected codes: minimum and a maximum length for selected This option enables fixed length checking for symbologies by reading the respective option different bar code types and will only affects the followed by a barcode label with the required bar code types read.
  • Page 34 Minimum length for selected codes: Maximum length for selected codes: This option modifies the default minimum This option enables the maximum length length table. The number of minimum lengths checking. The number of maximum lengths which can be configured is reader dependent. which can be configured is reader dependent.
  • Page 35 Serial programming: To set a length using serial commands, the sequence is as follows: <ESC> <command> <SPACE>*<CodeID>* <Length 1> <Length 2**> <CR> *(if required by <command>) **(length 2 may be the same length as length 1, when only one length is required) Example: Setting fixed length for all codes, lengths 8, 10 and 12:...

  • Page 36: Setting Code Specific Options

    3.3. Setting code specific options Code specific options may be configured Not transmit CD: This option disables the transmission of the affecting: check digit. If the check digit calculation is • enabling and disabling code variants and disabled, the reader can not differentiate translations, such as EAN-128, as were listed between a (valid) check digit and a data in the relations table for setting of readable...

  • Page 37: Options For Upc-A

    3.3.1. Options for UPC-A The UPC-A symbology is a fixed length Fig. 3.12. Options for UPC-A symbology encoding 11 data digits, a check digit and non printable start/stop characters. UPC-A The following characters are supported: leading data check • the digits 0 up to 9 zero (11 digits) digit...

  • Page 38: Options For Upc-E

    3.3.2. Options for UPC-E The UPC-E symbology is a fixed length symbology encoding 6 data digits, a check digit Fig. 3.14. Options for UPC-E and non printable start/stop characters. The following characters are supported: UPC-E • the digits 0 upto 9 leading digit data check...
  • Page 39 3.3.2. Options for UPC-E _ZZ_ _E7_ UPC-E, No leading digit, transmit CD _E9_ UPC-E, No leading digit, not transmit CD _E6_ UPC-E, Leading digit, transmit CD _E8_ UPC-E, Leading digit, not transmit CD _6Q_ Transmit UPC-E as is _6P_ Transmit UPC-E as UPC- _ZZ_...

  • Page 40: Options For Ean-13 And Ean-8

    3.3.3. Options for EAN-13 and EAN-8 EAN-13: The EAN-13 symbology is a fixed length Fig. 3.16. Options for EAN-13 and EAN-8 symbology encoding 12 data digits, a check digit and non printable start/stop characters. EAN-13 The following characters are supported: data check •...
  • Page 41 3.3.3. Options for EAN-13 and EAN-8 _ZZ_ _6J_ EAN-13 not transmit CD _6K_ EAN-13 transmit CD _6H_ EAN-8 not transmit CD _6I_ EAN-8 transmit CD _IB_ Disable ISBN translation _IA_ Enable ISBN translation _IK_ Enable ISBN if possible _HN_ Disable ISSN translation _HO_ Enable ISSN translation...

  • Page 42: Options For Code 39 And It.pharm

    3.3.4. Options for Code 39 and It. Pharm. Code 39: Italian Pharmaceutical only: Code 39 is a variable length symbology with an In this mode the decoded data characters are optional check digit and printable start/stop translated to the Italian Pharmaceutical format. characters.
  • Page 43 Fig. 3.21. Options for Code 39 and It.Pharm. Fig. 3.20. Options for Code 39 and It.Pharm. Italian Pharmaceutical Code 39 data start leading check stop start data check stop (8 digits) char. digit char. char. (0 or more char.) digit char.
  • Page 44 _ZZ_ _D8_ Not transmit CD _D9_ Transmit CD _D1_ Not transmit ST/SP _D0_ Transmit ST/SP _DA_ Not transm. ld. A for It. Pharm.Code _DB_ Transmit leading A for It. Pharm.Code _8D_ Minimum 3 digits _8E_ Minimum 1 digit _+M_ Disable concatenation _+L_ Enable concatenation _ZZ_...

  • Page 45: Options For Codabar

    3.3.5. Options for Codabar Codabar (NW7): Codabar (NW7) is a variable length symbology Fig. 3.23. Options for Codabar with an optional check digit and printable start/ stop characters. The next characters are Codabar supported: start data check stop • the digits 0 upto 9 char.
  • Page 46 Space insertion: This option inserts spaces in position 2, 7, 13, Fig. 3.26. Options for Codabar of the data string for use in library systems. Codabar Start and Stop ST/SP translation: This option enables the translation and Not transmit ST/SP transmission of the start and stop characters.
  • Page 47 3.3.5. Options for Codabar _ZZ_ _HA_ Enable only Codabar normal mode _H4_ Enable only ABC code _H5_ Enable only CX code _H3_ Enable Codabar, ABC and CX _H7_ Not check CD _H6_ Check CD _H9_ Not transmit CD _H8_ Transmit CD _HE_ Disable space insertion _HD_...
  • Page 48 _ZZ_ _F1_ ST/SP: ABCD/TN*E _F2_ ST/SP: abcd/tn*e ST/SP: _HJ_ <DC1><DC2><DC3><DC4>/ <DC1><DC2><DC3><DC4> _HC_ Minimum data one character _HB_ Minimum data three characters _HF_ Minimum data five characters _HI_ Disable intercharacter gap check _HH_ Enable intercharacter gap check _ZZ_...
  • Page 49 3.3.6. Options for 2of5 and S-Code Code 2of5: Options for code 2of5: Code 2of5 is a variable length symbology with • disable transmission of the check digit an optional check digit and non printable start • enable check digit check and stop characters.

  • Page 50: Options For 2Of5 And S-Code

    3.3.6. Options for 2of5 and S-Code _ZZ_ _E1_ Not transmit CD _E0_ Transmit CD _G0_ Not check CD _G1_ Check CD _GE_ Minimum data one character _GF_ Minimum data three character _GI_ Minimum data five character _GK_ Disable space check for Industrial 2of5 _GJ_ Enable space check for...

  • Page 51: Options For Iata

    3.3.7. Options for IATA Check digit calculation: The IATA code is a variable length symbology If the check digit calculation is required, then with an optional check digit and non printable the appropriate calculation method must be start/stop characters. The following characters selected.

  • Page 52: Options For Msi/Plessey

    3.3.8. Options for MSI/Plessey MSI Plessey is a variable length symbology with one or two optional check digit calculations CD1 and CD2 and non printable start/stop Fig. 3.29. Options for MSI/Plessey characters. The following characters are supported: MSI/Plessey • the digits 0 up to 9 data (1 upto 13 digits) The checksum is calculated as the sum modulo...
  • Page 53 3.3.8. Options for MSI/Plessey _ZZ_ _4A_ Not check CD _4B_ Check 1 CD = MOD 10 _4C_ Check 2 CD's = MOD 10/ MOD 10 _4D_ Check 2 CD's = MOD 10/ MOD 11 _4R_ Check 2 CD's = MOD 11/ MOD 10 _4G_ Not transmit CD...

  • Page 54: Options For Telepen

    3.3.9. Options for Telepen Telepen is a variable length symbology with a check digit and non printable start/stop Fig. 3.30. Options for Telepen characters. The following characters are supported: Telepen • in numeric mode, the digits 00 upto 99 • in full ASCII mode, all 128 ASCII characters data check (1 upto 32 characters)

  • Page 55: Options For Uk/Plessey

    3.3.10. Options for UK/Plessey Space insertion: UK Plessey is a variable length symbology with This option inserts spaces in position 2, 5, 11, a mandatory checksum and non printable start/ 14 of the data string for use in library systems. stop characters.

  • Page 56: Options For Code 128 And Gs1-128

    3.3.11. Options for Code 128 and GS1-128 Code 128: FNC2 Concatenation: Code 128 is a variable length symbology with a If a Code 128 bar code contains a leading mandatory check digit and non printable start/ FNC2 character, the data is stored into the stop characters.
  • Page 57 3.3.11. Options for Code 128 and GS1-128 _ZZ_ _OF_ Disable GS1-128 _JF_ Enable GS1-128 only _OG_ Enable GS1-128 if possible _MP_ Disable concatenation _MO_ Enable concatenation _ZZ_...
  • Page 58 3.3.12. Options for Code 93 Code 93 is a variable length symbology with 2 mandatory check digits and non printable start/ Fig. 3.34. Options for Code 93 stop characters. The following characters are supported: Code 93 • the digits 0 upto 9 data check check...
  • Page 59 3.3.12. Options for Code 93 _ZZ_ _9Q_ Not check CD _AC_ Check CD _DZ_ Not transmit CD _DY_ Transmit CD _+W_ Disable concatenation _+V_ Enable concatenation _ZZ_...
  • Page 60 3.3.13. Options for Code 11 Options for Code 11: Code 11 is a variable length symbology with 1 • disable check digit(s) or 2 optional check digits and non printable • automatic checking for 1 or 2 check digits start/stop characters. If the data is 10 or less depending of the number of data characters characters, one check digit is used.

  • Page 61: Options For Korean Postal Authority

    3.3.14. Options for Korean Postal Authority code Transmit dash: Korean Postal Authority code is a fixed length The dash character '-' ( hex 2D ) is printed numeric symbology with a mandatory check between the 3rd and 4th digit digit. The check digit is not transmitted. For string format see figure 3.36.

  • Page 62: Options For Intelligent Mail Barcode

    3.3.15. Options for Intelligent Mail Barcode 3.3.16. Options for POSTNET Intelligent Mail Barcode is a symbology in four POSTNET (Postal Numeric Encoding different states. It is formerly known as Technique) is a height modulated symbology OneCode and is a variant of the 4-State with a number of fixed lengths.

  • Page 63: Options For Gs1 Databar

    3.3.17. Options for GS1 Databar The next GS1 Databar versions are supported. • Omnidirectional/Truncated/Stacked (refer to GS1 Databar) GS1 Databar is formerly known as RSS familiy • Limited (refer to GS1 Databar Limited) including the RSS-14 group. Support for GS1 •...

  • Page 64: Options For Composite Codes

    3.3.18. Options for Composite Codes CC-A is a modified MicroPDF417 version. CC-B is standard MicroPDF417. Fig. 3.41. Options for Composite Codes CC-C is standard PDF417. Composite A Maximum data capacity: • CC-A: 56 characters 1D data composite data (1 upto 73 characters) (1 upto 56 characters) •...
  • Page 65 3.3.18. Options for Composite Codes _ZZ_ _RQ_ Not ignore composite link flag _RP_ Ignore composite link flag _BHF_ Disable Composite on GS1-Databar _BHE_ Enable Composite on GS1-Databar As a single component, _BL0_ only 1D component is allowed As a single component, _BL1_ only 2D component is allowed...

  • Page 66: Options For Codablock F

    3.3.19. Options for Codablock F 3.3.20. Options for DataMatrix Codablock-F is variable size multi row (stacked) Data Matrix is a variable size matrix symbology symbology based on Code 128. All features of with selectable error correction levels. Code 128 do apply for Codablock F. Maximum data capacity (ECC200): Maximum data capacity: •...

  • Page 67: Options For Aztec

    3.3.21. Options for Aztec Aztec code is a variable size matrix symbology Options for DataMatrix: with selectable error correction levels. • Structured append time out: see chapter Read options Maximum data capacity: Standard Aztec: • alphanumeric: 3067 characters Fig. 3.46. Options for DataMatrix •...

  • Page 68: Options For Chinese Sensible Code

    3.3.22. Options for Chinese Sensible code Chinese Sensible code is a matrix symbology Encodable characters: with selectable error correction levels. The • numerical values 0-9 code allows 84 variable sized versions. • ASCII value 0 - 127 ( ISO 646 ) •...

  • Page 69: Options For Qr Code

    3.3.23. Options for QR Code Options for QR code: QR code is a variable size matrix symbology • structured append time out: see read mode with selectable error correction levels. options • no further options supported Maximum data capacity: Model 1: •...

  • Page 70: Options For Micro Qr Code

    3.3.24. Options for Micro QR Code 3.3.25. Options for Maxicode Micro QR code is a compact version for the Maxicode is a fixed size matrix symbology with regular QR Code. selectable error correction levels. Maximum data capacity: Maximum data capacity: Model 1: •...

  • Page 71: Options For Pdf417

    3.3.26. Options for PDF417 3.3.27. Options for MicroPDF417 PDF417 is variable size multi row (stacked) MicroPDF417 is variable size multi row symbology with selectable error correction (stacked) symbology with fixed error correction levels. levels. Maximum data capacity: Maximum data capacity: •...

  • Page 72: String Options

    4. STRING OPTIONS This chapter describes the alterations which can be made to the format of the transmitted data string. Options available are: Case conversion • conversion of bar code data The bar code data has the format as described in chapter ‘Code Options’.

  • Page 73: Case Conversion

    4.1. Case conversion The bar code data may be converted to either lower or upper case or the case may be Fig. 4.02. Case conversion exchanged. These options may be used if the user of a wedge has a preference to leave for Test string AbCd instance the CAPSLOCK on or if the host...

  • Page 74: Set Prefix And Suffix

    4.2. Set prefix and suffix If the direct input keyboard key <return> from A prefix and suffix of maximum 4 direct input this chapter is selected then the result is a entries each may be included in front and at the <carriage return>...
  • Page 75 In case the modifier is an asterix (*), the value Fig. 4.04. Set prefix and suffix depends on the options of the symbology or on OPTICON Code identifiers the configured Code options. For details refer to their own respective modifier tables. See UPC-A figures 4.06 up to 4.17.
  • Page 76 Fig. 4.05. Set prefix and suffix Fig. 4.06. Modifiers for Code 39 AIM/ISO15424 Code identifiers for : AIM/ISO15424 Code identifiers ]AIM-ID Code options ]AIM-ID Symbology *(Modifier table) Normal Code 39 (D5) UPC-A Not check CD (C1) UPC-A +2 Transmit CD (D9) UPC-A +5 Normal Code 39 (D5) UPC-E...
  • Page 77 Fig. 4.07. Modifiers for Codabar Fig. 4.09. Modifiers for IATA AIM/ISO15424 Code identifiers for : AIM/ISO15424 Code identifiers for : Code options Code options ]AIM-ID ]AIM-ID Codabar normal mode (HA) Not check CD (4H) Not check CD (H7) Transmit CD (4L) Transmit CD (H8) Check FC and SN only (4I) Codabar ABC (H3 or H4)
  • Page 78 Fig. 4.12. Modifiers for Code 11 Fig. 4.15. Modifiers for Aztec H* / X0 AIM/ISO15424 Code identifiers for : AIM/ISO15424 Code identifiers for : Code options ]AIM-ID Data structure ]AIM-ID Check 1 CD (BLG) No structure / other or Check auto 1 or 2 CDs (BLI) FNC1 preceeding 1st message character (length <...

  • Page 79: Set Prefix

    4.2.1. Set prefix _ZZ_ _RY_ All Codes _N1_ UPC-A _M0_ UPC-A + add on _N2_ UPC-E _M1_ UPC-E + add on _N3_ EAN-13 _M2_ EAN-13 + add on _N4_ EAN-8 _M3_ EAN-8 + add on _M4_ Code 39 _M5_ Codabar _M6_ Industrial 2of5 _M7_...
  • Page 80 _ZZ_ _MB_ S-Code _GL_ Matrix 2of5 _I8_ IATA _N0_ MSI/Plessey _L8_ Telepen _MA_ UK/Plessey _M9_ Code 128 _M8_ Code 93 _BLD_ Code 11 _*$_ Korean Postal Authority code _D5I_ Intelligent Mail Barcode _D6D_ POSTNET _OE_ GS1-Databar _ZZ_...
  • Page 81 _ZZ_ _RR_ Composite codes _D4S_ Codablock F _MD_ DataMatrix _BF0_ Aztec _D4N_ Chinese Sensible code _MK_ QR Code _ML_ Maxicode _OC_ PDF417 _OD_ MicroPDF417 _MH_ ISO track 1 (IATA) _MI_ ISO track 2 (ABA) _MJ_ ISO track 3 (THRIFT) _MG_ Clear all prefixes _MZ_ Preamble...

  • Page 82: Set Suffix

    4.2.2. Set suffix _ZZ_ _RZ_ All Codes _N6_ UPC-A _O0_ UPC-A + add on _N7_ UPC-E _O1_ UPC-E + add on _N8_ EAN-13 _O2_ EAN-13 + add on _N9_ EAN-8 _O3_ EAN-8 + add on _O4_ Code 39 _O5_ Codabar _O6_ Industrial 2of5 _O7_...
  • Page 83 _ZZ_ _OB_ S-Code _GM_ Matrix 2of5 _I9_ IATA _N5_ MSI/Plessey _L9_ Telepen _OA_ UK/Plessey _O9_ Code 128 _O8_ Code 93 _BLE_ Code 11 _*%_ Korean Postal Authority code _D5J_ Intelligent Mail Barcode _D6E_ POSTNET _PQ_ GS1-Databar _ZZ_...
  • Page 84 _ZZ_ _RS_ Composite codes _D4T_ Codablock F _PO_ DataMatrix _BF1_ Aztec _D4O_ Chinese Sensible code _PW_ QR Code _PX_ Maxicode _PY_ PDF417 _PZ_ MicroPDF417 _PT_ ISO track 1 (IATA) _PU_ ISO track 2 (ABA) _PV_ ISO track 3 (THRIFT) _PR_ Clear all suffixes _PS_ Postamble...

  • Page 85: Direct Input Keyboard Keys

    4.3.1. Direct input keyboard keys _ZZ_ _8J_ _8K_ _8L_ _8M_ _8N_ _8O_ _8P_ _8Q_ _8R_ _8S_ _8T_ _8U_ _9X_ Backspace _ZZ_...
  • Page 86 _ZZ_ _7H_ _7I_ RETURN _7Q_ Enter ( Numeric keypad ) _7J_ _7K_ Arrow down _7L_ Arrow up _7M_ Arrow right _7N_ Arrow left _7T_ <DEL> _VQ_ <INSERT> _VR_ <HOME> _VS_ <END> _7O_ Page up _ZZ_...
  • Page 87 _ZZ_ _7P_ Page down _7U_ Left <Shift> _7W_ Left <Ctrl> _7Y_ Left <Alt> _$8_ Left <GUI> _7V_ Right <Shift> _7X_ Right <Ctrl> _7Z_ Right <Alt> _$9_ Right <GUI> _9S_ CAPSLOCK _ZZ_...

  • Page 88: Direct Input Character Misc

    4.3.2. Direct input character misc. _ZZ_ _5A_ <SPACE> _5B_ _5C_ “ _5D_ _5E_ _5F_ _5G_ & _5H_ _5I_ _5J_ _5K_ _5L_ _5M_ _ZZ_...
  • Page 89 _ZZ_ _5N_ _5O_ _5P_ _6A_ _6B_ _6C_ < _6D_ _6E_ > _6F_ _6G_ _7A_ _7B_ _7C_ _ZZ_...
  • Page 90 _ZZ_ _7D_ _7E_ _7F_ ‘ _9T_ _9U_ _9V_ _9W_ _ZZ_...

  • Page 91: Direct Input Numeric

    4.3.3. Direct input numeric _ZZ_ _Q0_ _Q1_ _Q2_ _Q3_ _Q4_ _Q5_ _Q6_ _Q7_ _Q8_ _Q9_ _ZZ_...

  • Page 92: Direct Input Character

    4.3.4. Direct input character _ZZ_ _0A_ _0B_ _0C_ _0D_ _0E_ _0F_ _0G_ _0H_ _0I_ _0J_ _0K_ _0L_ _0M_ _ZZ_...
  • Page 93 _ZZ_ _0N_ _0O_ _0P_ _0Q_ _0R_ _0S_ _0T_ _0U_ _0V_ _0W_ _0X_ _0Y_ _0Z_ _ZZ_...

  • Page 94: Direct Input Lower Case Character

    4.3.5. Direct input lower case character _ZZ_ _$A_ _$B_ _$C_ _$D_ _$E_ _$F_ _$G_ _$H_ _$I_ _$J_ _$K_ _$L_ _$M_ _ZZ_...
  • Page 95 _ZZ_ _$N_ _$O_ _$P_ _$Q_ _$R_ _$S_ _$T_ _$U_ _$V_ _$W_ _$X_ _$Y_ _$Z_ _ZZ_...

  • Page 96: Direct Input Control Character

    4.3.6. Direct input control character _ZZ_ _9G_ ^@ (NULL) _1A_ ^A (SOH) _1B_ ^B (STX) _1C_ ^C (ETX) _1D_ ^D (EOT) _1E_ ^E (ENQ) _1F_ ^F (ACK) _1G_ ^G (BEL) _1H_ ^H (BS) _1I_ ^I (HT) _1J_ ^J (LF) _1K_ ^K (VT) _1L_ ^L (FF)
  • Page 97 _ZZ_ _1M_ ^M (CR) _1N_ ^N (SO) _1O_ ^O (SI) _1P_ ^P (DLE) _1Q_ ^Q (DC1) _1R_ ^R (DC2) _1S_ ^S (DC3) _1T_ ^T (DC4) _1U_ ^U (NAK) _1V_ ^V (SYN) _1W_ ^W (ETB) _1X_ ^X (CAN) _1Y_ ^Y (EM) _ZZ_...
  • Page 98 _ZZ_ _1Z_ ^Z (SUB) _9A_ ^[ (ESC) _9B_ ^\ (FS) _9C_ ^] (GS) _9D_ ^^ (RS) _9E_ ^_ (US) _9F_ DEL (ASCII 127) _ZZ_...

  • Page 99: Direct Input Code Id/Length

    4.3.7. Direct input code id/length _ZZ_ _$2_ Code identification _$1_ Code identification ISO- 15424 / AIM _$3_ Code length (1D = 2 digits, 2D = 6 digits) _$6_ Code length (1D and 2D = 6 digits) _ZZ_...

  • Page 100: Read Options

    5. READ OPTIONS This chapter allows to set the read mode, trigger type, redundancy and illumination.

  • Page 101: Read Mode Options

    5.1. Read mode options The following read modes are available: Trigger repeat: This option makes it more easy to select a Single read: single bar code from a sheet filled with bar When a bar code has been decoded, the codes.
  • Page 102 5.1. Read mode options _ZZ_ _S0_ Single read _S1_ Multiple read _S2_ Continuous read _S7_ Disable trigger _S8_ Enable trigger _XA_ Add-on wait mode disabled _XB_ Add-on wait mode 0.25 sec. _XC_ Add-on wait mode 0.50 sec. _XD_ Add-on wait mode 0.75 sec.

  • Page 103: Multiple Read Reset Time

    5.1.1. Multiple read reset time This option can be used in conjunction with duration of each frame is variable, and is multiple read mode. dependent of the captured image. See figure • for Laser and CCD readers, it sets the time 5.01.

  • Page 104: Quiet Zone Options

    5.1.2. Quiet zone options With this option the reader can decode bar codes that have smaller start and/or end margins than specified for the symbology. Be careful when using this option. It may increase the possibility of partial reads and ghost reads. Do not use smaller margin checks then necessary.

  • Page 105: Auto Trigger Options

    5.1.3. Auto trigger options 5.2. Read time options These options are used to activate the auto The length of the period that the reader is ON trigger option of the reader. This is only after the trigger switch is pressed, or (in supported for reader equipped with the auto multiple or continuous read mode) after a label trigger option.
  • Page 106 5.2. Read time options _ZZ_ _Y0_ 0 seconds _Y1_ 1 second _Y2_ 2 seconds _Y3_ 3 seconds _Y4_ 4 seconds _Y5_ 5 seconds _Y6_ 6 seconds _Y7_ 7 seconds _Y8_ 8 seconds _Y9_ 9 seconds _YL_ Read time * 10 _YM_ Indefinitely _ZZ_...

  • Page 107: Redundancy

    5.4. Redundancy This is the number of times that a label must be correctly decoded before it is transmitted. Selecting a higher redundancy count makes reading slower, but it reduces the probability of reading errors, especially when labels of poor definition are used.

  • Page 108: Positive And Negative Bar Codes

    5.5. Positive and negative bar codes Usually bar codes are printed black on white, but sometimes white on black. These labels are called positive and negative respectively. In case the 'negative bar codes' option has been selected, positive labels may not be decoded anymore or with difficulty.

  • Page 109: Floodlight And Aiming Options

    5.6. Floodlight and aiming options The floodlight and aiming options affect the If an aiming light is available, the bar code light source that illuminates the area of the bar reader can generate an aiming pattern to help code symbol. the user to target at the bar code symbol.
  • Page 110 U107...

  • Page 111: Indicator Options

    6. INDICATOR OPTIONS This chapter describes the options for the Buzzer and Good Read LED. U108...

  • Page 112: Buzzer Settings

    6.1. Buzzer settings These options determine the buzzer type, tone, Buzzer after transmission: duration and loudness. The buzzer tone and The good read buzzer will be activated after loudness are reader dependent due to different transmission. buzzer types. Enable startup buzzer: Buzzer type: When this options is selected, the reader will The buzzer may be disabled or enabled as...
  • Page 113 _ZZ_ _W3_ Low - high buzzer _W7_ Buzzer duration 50 msec _W4_ Buzzer duration 100 msec _W5_ Buzzer duration 200 msec _W6_ Buzzer duration 400 msec _T0_ Buzzer loudness: Maximum _T1_ Buzzer loudness: Loud _T2_ Buzzer loudness: Normal _T3_ Buzzer loudness: Minimum _VY_ Buzzer before...

  • Page 114: Good Read Led

    6.2. Good read LED The Good Read LED can be disabled or set for several durations. _ZZ_ _T4_ Disable indicator _T5_ Indicator duration: 0.2 s _T6_ Indicator duration: 0.4 s _T7_ Indicator duration: 0.8 s _ZZ_ U111...

  • Page 115: Miscellaneous

    7. MISCELLANEOUS 7.1. Diagnostics The options in this part are primarily intended for diagnostic purposes. The following options are available: Transmit software version: The software version is transmitted. Transmit ROM checksum: The software calculated checksum over the internal program is transmitted. Transmit settings: The reader settings are transmitted as a string of hexadecimal numbers.

  • Page 116: Serial Configuration Support

    7.2. Serial configuration support Disable configuring via RS232: Error message - No label: The reader ignores all configuration commands Following this menu label a maximum of 4 from the RS232 port. The trigger and buzzer direct input characters may be read. These commands are still accepted.
  • Page 117 7.2. Serial configuration support _ZZ_ _TS_ Disable configuring via RS232 _TT_ Enable configuring via RS232 _8B_ Disable trigger via RS232 _8C_ Enable trigger via RS232 _WB_ Disable buzzer via RS232 _WA_ Enable buzzer via RS232 _TY_ Disable good read LED via RS232 _TZ_ Enable good read LED...
  • Page 118 _ZZ_ _TH_ Error message No label _TI_ Error message No decode _ZZ_ U115...

  • Page 119: Trouble Shooting

    A. TROUBLE SHOOTING The trouble shooting diagram can be of help if your reader does not operate as expected. If any problem is not covered or solved with this diagram you need to contact your dealer. Whether the reader operates or not can be checked in the following way: •...

  • Page 120: Example Codes

    B. EXAMPLE CODES Example C.01 UPC-A UPC-A 71589 81230 UPC-A +2 UPC-A +5 98765 23569 27002 49659 02209 Example C.02 UPC-E UPC-E UPC-E1 234567 123456 default data: 2345670 default data: 1234565 UPC-E1 +2 UPC-E +2 213224 657832 default data: 213224022 default data: 657832690 UPC-E +5...
  • Page 121 Example C.03. EAN-13 and EAN-8 EAN-13 EAN-8 (ISBN) 9 780131 103627 6537 8823 ISBN data: 0131103628 EAN-13 +2 EAN-8 +2 710841 090246 5638 2662 EAN-13 +5 EAN-8 +5 02904 06331 8 710841 030181 1055 7778 Example C.04. Code 39 and It.Pharm. Code 39 Italian Pharmaceutical Code 39 (Full Italian Pharmaceutical)
  • Page 122 Example C.05. Codabar Codabar 01235 encoded data: C01235D Codabar ABC Codabar CX 01234 56789 12344 56784 encoded data: encoded data: encoded data: encoded data: C01234D D56789A A12344C B56784B Codabar ABC data: Codabar CX data: 0123456789 1234456784 Example C.06. 2of5 and S-Code Industrial 2of5 Matrix 2of5 1234567895...
  • Page 123 Example C.07. Example C.08. IATA MSI/Plessey (with MOD 10 Checksum) 1234567890 02468 encoded data: 024687 Example C.09. Example C.10. UK/Plessey Telepen Telepen numeric (Telepen ASCII) 02468 encoded data: 02468F8 57748174857483 Telepen ASCII data: Telepen Example C.11. Code 128 and GS1-128 Code 128 EAN-128 ]C12143658709...
  • Page 124 Example C.15. Example C.16. POSTNET Intelligent Mail Barcode 2132035356 12 001 987654 321600500 21320 0035 encoded data: 21320-3535 Example C.17. Example C.18. Composite Codes GS1 Databar Composite GS1 Databar Component A 0165473728281919 encoded data: 65473728281919 encoded RSS-14 data: 01234567891231 encoded CC-A data: CC-A : up to 56 characters GS1 Databar stacked default data:...
  • Page 125 Example C.19. Example C.20. (ECC200) Codablock F DataMatrix Codablock F sample bar code DataMatrix sample bar code. Example C.21. (Aztec) (Aztec Runes) Aztec encoded data: Aztec sample bar code. Example C.23. Example C.22. Chinese Sensible code QR Code (Model 2) QR Code sample bar code.
  • Page 126 Example C.25. Example C.26. PDF417 MicroPDF417 MicroPDF417 sample bar code. PDF417 sample bar code. U123...
  • Page 127 This card belongs to the universal menu book You can take out this card and pull out the window. The window spares out one bar code while masking all the other.

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