Symbol PDT68XX - Datex Service
Contents
1. Code 128 Decode Performance Enable Code 128 Decode Performance Level Level 1 Code 39 Decode Performance Enable Code 39 Decode Performance Level Level 1 MicroPDF Performance Level 0 UPC Composite Linking Auto UPC linkage Transmit Code ID Character None Laser On Time 5 Seconds Scanning Mode Smart Raster Aim Mode Dot Aim Aim Time 0 Second No Aiming Transmit No Decode Message Disable Using BldScn2D exe The Bldscn2d exe is based on the bldscan exe and should only be used to build SCN2DSSILEXE Install the PDT6800 scankit before unsing Bldscn2d exe Screen Menus Table 1 1 Start Menu BldScn2D Version 1 00 Hit anykey to continue Scn2dSSI scanner driver configuration tool Copyright c 1990 2001 Symbol Technologies Inc Usage bldscn2d output driver name F 24 Code Type Menu 2D Scanner Drivers and Applications Alpha characters are used to select code types and function keys are used to perform actions eries 3000 Scanner Driver Build bldscn2d 4 gt UPC A 1 cd UPC EO 1 EAN 13 EAN 8 UPC E1 1 cd Supplementals D2of5 I 2 of 5 0 cd Code 39 0 cd Codabar Code 128 Code 93 Code 11 MSI PDF 417 UCC EAN 128 Driver 24551 SPECIAL OPTIONS LIST BAR CODE MENUS 12 6 13 8 6 Commands 2 5 AUTO Select Decoder Help Set Default2. PDT 6800 Series Product Reference Guide PDT 6800 Series Product Reference Guide 70 32645 02 Revision A August 2001 1998 2001 by Symbol Technologies Inc All rights reserved No part of this publication may be reproduced or used in any form or by any electrical or mechanical means without permission in writing from Symbol This includes electronic or mechanical means such as photocopying recording or information storage and retrieval systems The material in this manual is subject to change without notice The software is provided strictly on an as is basis All software including firmware furnished to the user is on a licensed basis Symbol grants to the user a non transferable and non exclusive license to use each software or firmware program delivered hereunder licensed program Except as noted below such license may not be assigned sublicensed or otherwise transferred by the user without prior written consent of Symbol No right to copy a licensed program in whole or in part is granted except as permitted under copyright law The user shall not modify merge or incorporate any form or portion of a licensed program with other program material create a derivative work from a licensed program or use a licensed program in a network without written permission from Symbol The user agrees to maintain Symbol s copyright notice on the licensed programs delivered hereunder and to i
3. 6800 Series Product Reference Guide 7 14 22 Appendix A Null Modem Pin outs Null Modem Pin Outs for Full Duplex Use the pin outs shown in Figure A 1 for null modem communication PG 1 1 PG TD 2 lero 2 TD RD 3 3 RD RTS 4 4 r 4 RTS LIS 5 5 CTS DSR 6 6 DSR SG 7 1 SG DCD 8 4 8 DCD DTR 20 20 DTR Figure 1 Null Modem Pin Outs Full Duplex ne PDT 6800 Series Product Reference Guide 2 Null Modem Pin outs for Half Duplex Use the pin outs shown in Figure A 2 for testing PGND 1 1 PGND TD 2 3 RD RD 3 2 TD RTS 4 8 DCD I5 B DSR 6 20 SG 7 1 SG DCD 8 4 RTS 5 CTS DTR 20 6 DSR Figure A 2 Null Modem Pin Outs Half Duplex A 2 22 Appendix Keyboard Layouts Introduction The following pages show the characters and character sequences produced by the 35 key and 46 key PDT 6800 Series keyboard when modified with the key sequence in the figure caption For instance Figure B 4 shows what characters the keys produce when you press the Alpha key first B 1 ne PDT 6800 Series Product Reference Guide 7 35 Key Keyboard Key definitions can be changed by the application program The captions indicate what sequence of modifier keys produce the keyboard ALPHA CLEAR SHIFT C 50 96 50 gt o lt 0m
4. 7 8 entering data scanner ety duce 5 12 entering data with the scanner 5 12 error codes communications C 2 error messages double key erfor 52s oer nn 7 2 power Tollit a dco X apr xad wads 7 2 t place cello 7 2 F flash disk application Storage bends 4 1 configuration file storage 4 1 PLASHDSE SYR Lose dass sd cR RES 4 1 PUBL Mev su duced opa 5 10 information Service xi K keyboard 35 key layouts B 2 46 key layouts 5 imoditier keys ie e 5 9 ON 5 2 setting speed 5 10 eee 5 10 7 6 D crm 5 9 L laser 5 12 LEDs battery charge indicator 2 16 COMMUMNCHHMONS S 2 17 5 7 lagding piogia 3 2 locked states eaa a eh neo de 5 10 low battery cete he ERR 7 2 M messages double key ertt 12 5 7 2 low battery 7 2 power cesser ded tii 7 2 oo etal a d WC 7 2 momentary States 5 10 mounting CRD 38 6865 2 4 N normal power eases E 1 E 2 NYM BIENES o a io eae 3 4 P PC adapter battery charge LE
5. Warranty Coverage uud Proced te sence Chapter Getting Started Tribes dU a ace Akad PEOR o E bate DR es Parts of the PDT 6800 Series Terminal bo qe e poer rene dba RIS RARER So Battery Lu s uade AR ds EFE RR Ponce Interface Module i deque Rer Y CER CE Oe RRS and Network OptloBSsia seo Xe ri Sed Vp EE voci a dead gun Ce do aed dies Betore You Use the Terminal ud RR Install and Charge Battery cic daiwa ORE ad Load the Appropriate seme teri e Redes dk godes Chapter 2 Accessories Setup xad ERR elei Parte of the CRD 38 0209 eed Paris ofthe CRD 386866 RR Wall Mounting the CRD 38 6865 2 2 22 5555555 deai dn wd Wall Mounting the CRD 38 6866 08200000000 1 1 1 2 1 3 1 3 1 3 1 3 14 1 4 1 4 1 4 2 1 2 2 2 3 2 3 2 4 2 5 6800 Series Product Reference Guide Table Mounting the CRD 38 6866 RE RR RARE RR DNR ERR 2 5 Connecting POWSE eu ciem erbe RET Y oer e Rieter dccem dod ROR Soe REN a 2 6 Connecting for Data odds EQ 2
6. 0 3 2 testing components self test 7 5 testing hardware components 7 5 time required for charging 6 6 tips battery ds 6 5 wes eR EVA GaSe 5 15 troublesliopBllg nec eer ad cane ban 7 3 Baot 7 3 32252850565 7 3 U using the keyboard ssec 5 9 NSIS the SCAMIEl si penance reb RES 5 12 W wall mounting ET 2 12 30 6860 COWL e 2 11 Lol i PEE 2 5 aic doe bars E 1 E 2 Wari Stl E 1 E 2 Tell Us What You Think We d like to know what you think about this Manual Please take a moment to fill out this questionnaire and fax this form to 631 738 3318 or mail to Symbol Technologies Inc One Symbol Plaza M S B 4 Holtsville NY 11742 1300 Attn Technical Publications Manager IMPORTANT If you need product support please call the appropriate cus tomer support number provided Unfortunately we cannot provide customer support at the fax number above User s Manual Title please include revision level How familiar were you with this product before using this manual Very familiar Slightly familiar J Not at all familiar Did this manual meet your needs If not please explain What topics need to be added to the index if applicable
7. Depending on how close together you place the CCMs the cables can be from 1 foot to 10 feet long First Coupled One Power Supply Group and RS 232 Cable per Group of Coupled CCMs a Group Can ier Number from DE to 4 CCMs Second Coupled Group Figure 2 15 Daisy Chaining Multiple CCMs To chain the CCMs 1 Couple the CCMs as directed in the sectionCoupling CCMs 2 Inthe first coupled section connect the serial cable to the left most CCM 3 Connect the RS 232 cable s male or female DB 25 connector in the serial port of the right most CCM in the first coupling 4 Connect the male or female DB 25 in the serial port of the left most CCM in the second coupling ne PDT 6800 Series Product Reference Guide 5 Connect the power supplies for each coupled section as directed in Connecting Power PC Adapter The PC Adapter works with the Printer Interface Module PIM so you can Communicate to and from the PC without a CCM 38 6860 CRD 38 6865 or CRD 38 6866 cradle Charge the NiCd battery pack in the terminal without a cradle Note The Lithium Ion battery DOES NOT charge when the
8. CD m ORO ORO QD Ce Figure 8 46 Unmodified Keyboard B 5 ne PDT 6800 Series Product Reference Guide 0000080 0006 00090000 999 000900 9906 9900009 20 Figure B 9 46 Key Function Key Modified Keyboard 00000 vege abs 9999980 099 0000000 BOD Figure B 10 46 Key Shift Key Modified Keyboard B 6 Keyboard Layouts 80 O O ete o 000 ele ed 0000680 0000900 900 00006866 ENTER Figure 46 Key Control CTL Key Modified Keyboard B 7 6800 Series Product Reference Guide B 8 Za Appendix C Communications Status Codes Introduction The program loader status code consists of four hexadecimal digits which indicate whether or not the transfer was successful and if not the source of the communications error A status code of 0000 indicates success any other code indicates failure Table C 1 lists the failures associated with the status codes The values are additive C 1 6800 Series Product Reference Guide Table Communications Status Codes C 2 Status Code Meaning 0002 Receive overrun error 0004 Receive parity error 0008 Receive framing error 0010 Programming voltage not present 0020 Data Set Ready or Carrier Detect not
9. Parity Odd Press the first letter of a parity option Even Odd None Space or Mark or scroll using UpArrow and DownArrow and press lt ENTER gt when the correct value is displayed Flow Control the terminal displays Comm Parameters Flow Control None Press the first letter of a flow control option None Xon Xoff or RTS CTS or scroll using UpArrow or DownArrow and press lt ENTER gt when the correct value is displayed 3 5 6800 Series Product Reference Guide Starting Communications 1 The terminal is ready to receive the program from the host PC and displays Comm Parameters Start lt ENT gt Press ENTER on the terminal Press ENTER on the host computer The SENDHEX program begins transmitting the program image When communications are established the terminal displays Program loader Receiving XXXX where XXXX is the program segment address being transferred When the transmission is complete the terminal displays Program loader Status 0000 A status of 0000 all zeros indicates a successful transfer Other status values indicate an error These values are provided in Appendix C Communications Status Codes If you received an error press CLEAR on the terminal to return to the Command Mode main menu Ending Communications To return to the Command Mode main menu 3 6 Press CLEAR on the terminal Power down the terminal Detach any cables connec
10. When an operator ends a momentary state by toggling it off or by completing the key sequence the system returns the keyboard to the last active locked state Note Pressing the FUNC key does not clear the last momentary state However pressing another momentary key after FUNC clears the FUNCTION state Operating the PDT 6800 Series Table 5 1 Special Keys Key Name 35 Key Key Name 46 Key Description CTRL Control CTL Control Invokes the control command FUNC Function FUNC Function Invokes the function command for certain utilities such as turning on the back light Press FUNC and the corresponding numeric key to produce function keys F1 to F10 Press FUNC then to scroll left and FUNC to scroll right Press FUNC then BKSP to enter a blank space BKSP Backspace BKSP Backspace Erases information entered on the display one character at a time Information erased this way cannot be recovered This key is also used to produce a break by pressing CTL BKSP PWR Power PWR Power Turns the terminal on and off CLEAR CLR Clear Partially or completely escapes from an application level or screen CLR also clears all data typed from the display SHIFT SHF Shift Accesses the shifted keyboard ENTER ENTER Places entered data into the terminal s memory AY Move the cursor up down Press FUNC then to scroll left press FUNC then V to scroll rig
11. co n gt lt pm a a a NA gt Uv lt 5 c m Figure 35 6800 Series Keyboard BKSP SPAC CTRL DOO DC 208 2098 0 D 558 c IEEE ENTER Figure B 2 35 Key Unmodified Keyboard B 2 Keyboard Layouts 89886 Saag cl 006 T Figure B 3 35 Function Key Modified Keyboard Figure B 4 35 Key Alpha Key Modified Keyboard ne PDT 6800 Series Product Reference Guide 0098 0008 2000 2900 2000 G E 00 rri rri A gt Figure B 5 35 Key Shift Key Modified Keyboard 0080 0000 0008 meni J 182 Figure 6 35 Key Control CTRL Key Modified Keyboard B 4 Keyboard Layouts 46 Key Keyboard Key definitions can be changed by the application program The captions indicate what sequence of modifier keys produce the keyboard om C ODODO CD QD Cu Ow e Ge Gb CO E EE Too Figure B 7 46 Key PDT 6800 Series Keyboard G C D Co Cg O CD
12. What topics do you feel need to be better discussed Please be specific What can we do to further improve our manuals Thank you for your input We value your comments PDT 6800 Series Product Reference Guide 70 32645 02 Revision A August 2001 Symbol Technologies Inc One Symbol Plaza Holtsville N Y 11742 1300
13. 0 NB2DSSIA 1 03 PDF DRIVER LOADED CRC Checksum 0x1949 Re Install Driver NEW INTB6 INSTALLED decoder NBRWCAAE The driver is successfully loaded The driver version string is NB2DSSIA major revision 1 0 minor revision 0 3 The checksum is 0x1949 checksum will be different based on the version number with decoder version string of NBRWCAAE 0 NB2DSSIA 1 03 PDF DRIVER LOADED CRC Checksum 0x1949 NEW INTB6 REMOVED Driver Removed The driver is successfully loaded The driver version string is NB2DSSIA major revision 1 0 minor revision 0 3 The checksum is 0x1949 checksum will be different based on the version number APIs ioctl functions the urm gt and urm gd files must be updated F 2 Application Notes 2D Scanner Drivers and Applications With composite codes enabled you will experience a delay decoding UPC EAN bar codes New APIs Table F 2 lists new APIs for scn2dssi exe Refer to 1424 for information on how to use these functions Table F 2 APIs Function Length Structure ConsloctlGetExtDecoders 0x1B ConsloctlSetExtDecoders 0x19 ConsloctlGetExtDecodersLen ConsloctlSetExtDecodersLen struct ExtDecoders S BYTE Bookland BYTE EAN128 BYTE ISBT128 BYTE CouponCode BYTE C39Trioptic BYTE TLC39 BYTE RSS 14 BYTE RSS Limited BYTE RSS Expanded BYTE CompositeAB BYTE CompositeC BYTE Code128 Emulation BYTE MicroPD
14. We recommend that you use the flash disk E mainly for application and configuration file storage It is important to note that because of the slow writing time 3 4 seconds writing files during a power interruption low battery dead battery suspend power off or power failure could corrupt the disk Be sure to only write data to the disk with the terminal connected to external power or with the battery fully charged to avoid problems To avoid overwriting the flash disk by mistake the flash disk is set to read only mode for normal 4 1 Series 6800 Product Reference Guide 2 operation The software installation or application software takes of write read mode switching for you Standard Spectrum24 Software The terminal comes with the system software installed including Spectrum24 radio drivers TCP IP software configuration files various utilities A BIOS of version 3 08 or later is required The default files cover most expected installations initializations with minor changes as detailed in this chapter If your requirements are more advanced refer to the Spectrum24 Network Terminal Technical Reference Guide pln 70 20193 XX for more information on the Spectrum24 RF network SLAODI COM the Symbol provided ODI driver and the configuration file setups required for various platforms Refer to the Spectrum24 Setup and Utilities Reference Guide pln 72 50795 XX for more information on Sp
15. command mode The first time you lt PWR gt or communication turn the terminal on or after the terminal has been stored without batteries acts the same as a Cold Boot resets BIOS loses contents of RAM Appendix 2D Scanner Drivers and Applications Introduction The PDT 6800 Series terminal uses additional scanner drivers and applications to scan 2D bar codes This chapter covers the following Using scn2dssi exe Output messages Application development Application Notes New APIs New API definitions Label Type definition for 2D scanner driver SCN2DSSI scanner driver default parameters Using bldscn2D exe Code type menus 9 9 9 9 9 9 9 9 Parameter menus Using Scn2dssi exe Usage Scn2dssi exe Load the driver Scn2dssi exe o Overwrite the previous driver F 1 6800 Series Product Reference Guide Scn2dssi exe r Remove the current driver Output Messages Table Output Messages Screen Description 0 NB2DSSIA 1 03 The driver is successfully loaded The driver version PDF DRIVER LOADED string is NB2DSSIA major revision 1 0 minor CRC Checksum 0x1949 revision 0 3 The checksum is 0x1949 checksum NEW INTB6 INSTALLED will be different based on the version number with Application Development The driver works with the standard Serial 3000 applications such as scan exe To use new decoder NBRWCAAE decoder version string of NBRWCAAE
16. detected on open 0040 Lost DSR while receiving 0080 ABORT key hit during comm 0100 Insufficient NVM for image 0200 Illegal Intel hexadecimal record 0400 Unsupported Intel record 0600 NVM EEPROM failed to erase 0800 Receive time out error 1000 Control start character time out 2000 Clear To Send inactive time out error 4000 Receive buffer full Appendix D Specifications Environment The terminal s operating conditions are listed in Table D 1 Table 1 Environmental Specifications Condition Range Operating Temperature 13 F to 122 F 20 C to 50 Storage Temperature 13 F to 140 F 20 C to 60 C Humidity Operating 95 relative humidity noncondensing Altitude Up to 10 000 feet Electrostatic Up to 15 KV discharge to all surfaces terminal power may go off Shock Withstands multiple 4 foot drops to concrete without malfunction or loss of data Note Batteries lose power faster at extremely high and low temperatures The LCD operates slowly at temperatures below 0 C D 1 6800 Series Product Reference Guide RF Communications Specification Spectrum One Spectrum24 Spectrum24 6810 6842 6845 6846 Spreading Direct sequence Frequency hopping Frequency hopping Technique Data Rate 60 6 Kbps 1 Mbps 2 Mbps 11 Mbps Range Open Space 1500 feet 454 meters Up to 1000 feet 303 meters Up to 1000 feet 303 meters Frequenc
17. lt PWR gt Release 4 and 5 The terminal displays configuration information copyright RAM size and expanded memory RAM size Other information displayed depends on the operating system installed device drivers and AUTOEXEC BAT commands If this warm boot procedure fails to restart the terminal use the Cold Boot procedure Cold Boot A cold boot fully resets the system and clears memory including the RAM disk Any programs and data stored in memory or on the RAM disk are deleted Nonvolatile memory NVM the Application EEPROM is not affected If the cold boot procedure fails to restart the terminal see Chapter 7 Error Recovery and Troublesbooting Caution This procedure permanently erases all data and software in the terminal un less they reside in NVM Contents of RAM are lost 5 4 Operating the PDT 6800 Series To perform a cold boot For the 35 Key terminal Power the terminal off Press and hold lt SPACE gt lt FUNC gt and Up Arrow Press and release lt PWR gt Release SPACE lt FUNC gt and Up Arrow For the 46 Key terminal Power the terminal off Press and hold A lt B gt and D Press and release lt PWR gt Release A B and D The terminal displays version information copyright RAM size and installed expanded memory RAM size Other information displayed depends on the operating system installed device drivers and AUTOEXEC BAT commands
18. 0x04 A E E 4 for main block 1 for supplemental EAN8 5 0x04 A E E 4 for main block 2 for supplemental F 20 2D Scanner Drivers and Applications Table F 7 New AIM ID for UPC EAN family with supplemental EAN13 2 0x05 A E E 0 for main block 1 for supplemental EAN13 5 0x05 A E E 0 for main block 2 for supplemental Note E denotes 2 AIM Ids are transmitted the first prefixes the main UPC EAN block the second prefixes the supplemental block Sample data format 11 0123456 1121 Table F 8 Composite Code Data Formats Table 1D Component Data Format Standard Mode EAN 128 Emulation Mode EAN 13 UPC A 1D JEO Not supported UPC E 2D 0 See note 1 EAN 8 1D JE4 Not supported 2D 0 See note 1 RSS 14 1D 0 Not supported RSS Limited 2D 1 See note 2 Code 39 TLC39 ANSI MH10 8 3M syntax 06 Format gt R 06 GS 6P 1D GSS2DR S 05 Format gt R 5 05 GS 906 1D GS 8004 2D RS EOT See note 3 EAN 128 If the last AI in the Not supported RSS Expanded EAN128 is a predefined fixed length eO Otherwise e0 GS See note 2 Notes 1 If the UPC EAN component has a supplemental 1 precedes a 2 digit supplemental 2 precedes the 5 digit supplemental 2 In standard mode the data following symbol separator begins with AIM ID 1 The data fol lowing the composite component escape mechanism begi
19. 15 seconds until the terminal powers down Restarting After a Forced Power Off When a terminal is powered off because of software or hardware failure use the following methods to restart Use the warm boot procedure for a software failure When a warm boot fails use the cold boot procedure system software problem in the nonvolatile memory NVM occurs see Chapter 3 Batch and Spectrum One Terminal Setup Note Do not use the PWR key to restart a terminal when it was forced off due to defective system or application software in the NVM Pressing the PWR key causes the program to resume where it stopped trying to perform the same unsuccessful operation 5 3 6800 Series Product Reference Guide 7 Booting the Terminal Powering the terminal on does not boot the system or initialize the program or data To initialize the terminal perform either a warm boot or cold boot Warm Boot A warm boot resets the operating system while preserving the program and data on the RAM disk This process is similar to pressing the Ctrl Alt Del keys PC except that it does not clear the system s memory To perform a warm boot For the 35 Key terminal Power the terminal off Press and hold lt F gt and lt J gt Press and release lt PWR gt Release lt F gt and lt J gt For the 46 Key terminal Power the terminal off Press and hold 4 and 5 Press and release
20. 7 Connecting the CRD 38 6865 Internal Modem heb RE RE RE SERA 2 9 Connecting to the Telephone eR ER Pd e Erde es 2 10 Connecting the CRD 38 6866 to Other Cradles isis esee dees rr a Rh ERROR Rd 2 10 CUM EC etie bd e rid ix bea iw rd des 2 11 Parte of the CCM uias EXER REOR ba owes be Fee ERE KC RE he as 2 11 Wall 2 12 Coupbap 2 12 EY Yr EY erg eec i dw ebd ge qb 2 13 Connecting the CCM for Serial Communications 2 14 Daisy Chaining Two or More 5 gt 54245542 RR Revere RR De RR Gel 2 15 2 16 Parit ofthe PC A EYE A VEU A qi 2 16 Connecting the PC Adapter to the Terminal and Serial 2 17 Chapter 3 Batch and Spectrum One Terminal Setup Init OD BODIE s 252545 ME DEORE 3 1 Hardware Requirement eRe RATES eee 3 1 COE Oe 3 2 Downloading the Pistia E 3 2 Initiate Host Communications ae wads d RR FREE 3 3 Chapter 4 Spectrum24 RF Terminal Setup Speci Damals jose pac doo acer CR
21. Control underline inverse Function f underlined f inverse f Backup Batteries Maintaining the Terminal To prevent data loss during battery replacement the terminal utilizes a super cap as a backup The super cap provides sufficient power to preserve memory contents for approximately 15 minutes while the primary battery is replaced The super cap does not provide enough power to operate the terminal On receiving a low battery message replace or recharge the primary battery immediately Replacing the Battery Pack Battery packs available from Symbol are listed below System P N Battery Pack NiCd Six cell 600 mAh IS 21 36474 01 Intrinsically safe rechargeable in CCM 38 6860 CRD 38 6865 CRD 38 6866 and PC adapter Lithium Ion 21 40340 01 Rechargeable in UBC 2000 battery adapter p n 21 32665 24 Note The Series 3800 NiCd battery packs 3872 103 3872 105 and 3872 115 CANNOT be used in the Series 6800 terminal Removing the Battery Pack To remove the battery pack Figure 6 1 1 Power the terminal off 2 Press the battery release buttons on both sides of the handle 6 3 6800 Series Product Reference Guide 3 Slide the battery pack out of the handle op Sime 5 Battery Compartment Press Press Release Release Button Button Battery Pack Figure 6 1 Removing the Battery Pack If you intend to store your t
22. Running Commu ical Communicating Communicating Chapter 7 Error Recovery and Troubleshooting weet eer ec 1 Error Messages s BEC M TP rr Startup Failu Boot 2 l dedicate o Keyboard Te Memory Transfer Program ____ 6800 Series Product Reference Guide phe PER wih d 7 8 Ser GComimnbmcations Parameters sees ib 7 9 Modem Prelate 252525545540 545 PR ERA DU dX RE AREE 7 12 Scaring Prablems 7 12 What 7 12 Appendix A Null Modem Pin outs Null Modem Pi Outs for Full Daplex i sc tke ee A 1 Null Modem Pin outs for datu Re ed A 2 Appendix B Keyboard Layouts nuin 6 dak PPP PORE ER __________ B 1 kin eT B 2 _ __ des B 5 Appendix C Communications Status Codes IMPOR MENON ce sce OEE how dos ah dade C 1 Appendix D Specifications i ap qe Apr CR aet poca CR AREA D 1 do eR Pbi edes deed D 2 Scamming ene 3 Ap
23. See page xii for contact information Before calling have the model number serial number and several of your bar code symbols at hand Call the Support Center from a phone near the scanning equipment so that the service person can try to talk you through your problem If the equipment is found to be working properly and the problem is symbol readability the Support Center will request samples of your bar codes for analysis at our plant If your problem cannot be solved over the phone you may need to return your equipment for servicing If that is necessary you will be given specific directions Note Symbol Technologies is not responsible for any damages incurred during shipment if the approved shipping container is not used Shipping the units improperly can possibly void the warranty If the xi 6800 Series Product Reference Guide original shipping container was not kept contact Symbol to have another sent to you Symbol Support Center For service information warranty information or technical assistance contact or call the Symbol Support Center in United States Symbol Technologies Inc One Symbol Plaza Holtsville New York 11742 1300 1 800 653 5350 United Kingdom Symbol Technologies Symbol Place Winnersh Triangle Berkshire RG41 STP United Kingdom 0800 328 2424 Inside UK 44 208 945 7529 Outside UK Australia Symbol Technologies Pty Ltd 432 St Kilda Road Melbourne Victoria 3004 1
24. Spectrum One hardware requirements and loading programs Chapter 4 Spectrum24 RF Terminal Setup provides general information on Spectrum24 software initialization and options Chapter 5 Operating the PDT 6800 Series describes how to use the terminal Chapter 6 Maintaining the Terminal includes tips on properly maintaining your terminal and batteries Chapter 7 Error Recovery and Troubleshooting basic information on terminal and software troubleshooting Appendix A Null Modem Pin outs provides the pin outs for null modem communication Appendix B Keyboard Layouts describes the 35 key and 46 key keyboards and the associated key functions Appendix C Communications Status Codes provides communication status codes and their meaning ne PDT 6800 Series Product Reference Guide Appendix D Specifications provides the technical specifications for the terminal Appendix E Boot Up Quick Reference provides the key sequence necessary to initiate a warm boot cold boot or command mode start Appendix E 2D Scanner Drivers and Applications describes the installation of the 2D scan engine drivers and applications Notational Conventions The following conventions are used in this document Italics are used to highlight specific items in the general text and to identify chapters and sections in this and related documents Bullets indicate action items lists of alternatives e lists of required steps that not nece
25. T See Composite Code Data Formats RSS EXPANDED Table COMPOSITE B 0x65 T See Composite Code Data Formats RSS LIMITED Table COMPOSITE B 0x66 T See Composite Code Data Formats RSS 14 Table COMPOSITE B 0x67 T See Composite Code Data Formats UPCA Table COMPOSITE B 0x68 T See Composite Code Data Formats UPCE Table MACRO MICRO 0x9A X L Same rules as for Micro PDF417 PDF CodeID begin with P actually it should contain three letters such as 1 but for back ward compatible only one letter will be returned CouponCode AIM ID E C denotes 2 AIM Ids are transmitted the first prefixes the main UPC EAN block the second prefixes the EAN 128 block The sample data format for CouponCode with AIM ID iJE0512345678902 C1123456783 All Function 1 characters in the 1D and 2D are sent as G S 29 10 the first Function 1 in the EAN 128 is not transmitted Table F 7 New AIM ID for UPC EAN family with supplemental Code Type LabelType Symbol ID AIM ID AIM ID Modifier Name Value Hex ASCII Letter UPCEO 2 0x0 A E E 0 for main block 1 for supplemental UPCEO 5 0x0 A E E 0 for main block 2 for supplemental UPCE1 2 0x01 A E E 0 for main block 1 for supplemental UPCE1 5 0x01 A E E 0 for main block 2 for supplemental UPCA 2 0x02 A E E 0 for main block 1 for supplemental 5 0x02 A E E 0 for main block 2 for supplemental 8 2
26. Troubleshooting Table 7 4 35 Key KeyboardTest Code s Key Test Code Key Test Code SPACE 00 L 19 ALPHA 01 M 20 CTRL 02 N 21 FUNC 03 22 BKSP 04 P 23 SHIFT 07 Q 24 A 08 R 25 B 09 S 26 C 10 T 27 11 U 28 E 12 V 29 F 13 W 30 G 14 X 31 H 15 Y 32 I 16 Z 33 J 17 ENTER 34 K 18 7 7 6800 Series Product Reference Guide Table 7 5 46 Key KeyboardTest Codes Key Test Code Key Test Code Key Test Code FUNC 01 M 17 Period 32 SHF 02 N 18 Up arrow 33 CTL 03 0 19 Down arrow 34 A 05 P 20 7 35 B 06 Q 21 8 36 C 07 R 22 9 37 D 08 S 23 4 38 E 09 T 24 5 39 F 10 U 25 6 40 G 11 V 26 1 41 H 12 W 27 2 42 I 13 X 28 3 43 J 14 Y 29 0 44 K 15 Z 30 ENTER 45 L 16 BKSP 31 If numbers other than those given in the tables appear on the display please contact your authorized representative Press lt CLEAR gt to terminate the test and return to the Self Test screen Memory Transfer Program Command Mode includes a memory transfer utility that transfers data from a terminal toa host PC for program troubleshooting Programmers can analyze an application using tools provided in the Series 3000 Application Development Kit and described in the Series 3000 Application Programmer s Reference Manual Hardware Setup 1 Turn off the terminal and host PC Disconnect or unplug the cradle if u
27. Valid from Level 1 to Level 3 Enable Code39 Decode Performance This option offers three levels of decode performance or aggressiveness for Code 39 symbols Increasing the performance level reduces the amount of required bar code orientation which is useful if you are scanning very long and or truncated bar codes Increased levels reduce decode security If you enable this option you may select a Decode Performance level to suit your performance needs This option only works with Code 39 One Discrete Length Code39 Decode Performance Level Valid from Level 1 to Level 3 MicroPDF Performance Controls performance level of 6800 Series Product Reference Guide UPC_CompositeUPC Composite Linking MicroPDF decoding Set the level to Level 3 or above to improve MicroPDF decode performance Specifics how UPC Composite Linking is handled Get Set Scan options Uses ConsloctlGetScanOptions ConsloctlSetScanOptions to get set scan option Field Size Value Description Subcommand Number BYTE 29 Get 27 Set Error Code BYTE Not Used laser_on_time BYTE 5 99 aim time BYTE 0 2 scan mode BYTE 1 Smart Raster 2 Always Raster 4 Slab Raster aim mode BYTE 0 Disable 1 Enable laser_on_time aim_time scan_mode aim_modeAim mode F 12 Scanner laser on time This parameter sets the maximum time decode processing continues during a scan attempt It is pro grammab
28. and insurance charges prepaid Symbol will ship the repaired or replacement product freight and insurance prepaid in North America Shipments from the US or other locations will be made EO B Symbol s manufacturing plant Symbol will use new or refurbished parts at its discretion and will own all parts removed from repaired products Customer will pay for the replacement product in case it does not return the replaced product to Symbol within 3 days of receipt of the replacement product The process for return and customer s charges will be in accordance with Symbol s Exchange Policy in effect at the time of the exchange Customer accepts full responsibility for its software and data including the appropriate backup thereof Repair or replacement of a product during warranty will not extend the original warranty term Symbol s Customer Service organization offers an array of service plans such as on site depot or phone support that can be implemented to meet customer s special operational requirements and are available at a substantial discount during warranty period General Except for the warranties stated above Symbol disclaims all warranties express or implied on products furnished hereunder including without limitation implied warranties of merchantability and fitness for a particular purpose The stated express warranties are in lieu of all obligations or liabilities on part of Symbol for damages including without limitation spe
29. be out of range of the AP and unable to complete the initialization process Move back in range and repeat the initialization process Startup process fails Boot server type BOOTP or DHCP doesn t exist Verify that the boot server is operating and able to respond to TCP IP BOOTP or DHCP requests from the terminal Low battery message Place the terminal in a cradle and recharge battery OR Power terminal off and replace battery Battery is dead Battery not replaced after receiving low battery message or terminal left on for more than 24 hours Recharge or replace the battery Terminal disassociated from Access Point Application does not respond to interactive operations Applications using internal batch mode continue to function until required to transmit via radio then fail to work No message displayed Error Recovery and Troubleshooting Self Test Function Command mode includes a SelfTest function which verifies that terminal hardware components are operating properly Components tested include Real time clock RTC Battery power Keyboard codes Liquid crystal display LCD controller Read only memory ROM random access memory RAM expanded memory EMS and non volatile memory NVM Run Self Test if you suspect a problem with the hardware Except for keyboard testing no operator input is necessary after selecting a test screen Running
30. larger symbols and closer for symbols with bars that are close together Optimal scanning distance varies with bar code density and scanner optics but more combinations work within 4 to 10 inches 5 Ifthe decode is successful the screen displays the code and the Scan LED turns from red to green The terminal may also beep Note The procedure for your scanner may differ from the one given above Scanner use depends on the application Scanning 2D Bar Codes The terminal supports PDF417 bar code scanning The raster pattern has multiple scanning rows to accommodate the PDF417 symbol s multiple rows 1 Point the scanner at the bar code and press the trigger 2 raster pattern spreads keep the pattern in the same horizontal plane as the bar code gt gt Figure 5 4 Raster Pattern 3 Ifthe decode is successful the screen displays the code and the Scan LED turns from red to green The terminal may also beep Note The procedure for your scanner may differ from the one given above Scanner use depends on the application PDT 6800 Series Product Reference Guide PDF Bar Codes If the PDF417 symbol is tall the vertical scan pattern may not be high enough to cover it In this case try a slow up and down scanning motion With the raster pattern open move the terminal slowly down toward the bottom of the sy
31. performs communications between terminals and a host modem or printer CRD 38 6865 Single slot cradle for charging NiCd battery packs also performs communications between terminals and a host a modem or a printer CRD 38 6866 Four slot cradle for charging NiCd battery packs in the terminal and for communicating between terminals and a host a modem or a printer UBC Charger UBC 1000 or 2000 battery charger Adapter Works with the Printer Interface Module PIM to communicate with the host PC without a cradle or to charge a NiCd battery pack in the terminal without a cradle The Lithium Ion battery is charged using the UBC 2000 charging adapter p n 21 32665 24 Printer Interface Module The Printer Interface Module works with the PC Adapter to perform communications between the terminal and a host PC or a printer without a cradle Radio and Network Options Spectrum One Network The PDT 6810 includes an internal radio frequency transmitter receiver for use in a Symbol Spectrum One network Spectrum24 Network The PDT 6842 PDT 6845 and PDT 6846 include an internal radio frequency transmitter receiver for use in a Symbol Spectrum24 network Refer to Spectrum24 Network Terminal Technical Reference Guide p n 70 20193 XX for more information ne PDT 6800 Series Product Reference Guide 2 Unpacking Remove the clear protective tape from the display and the optical connector Save the
32. the first prefixes the main UPC EAN block the second prefixes the EAN 128 block The sample data format for CouponCode with AIM ID iJE0512345678902 C1123456781 All Function 1 characters in the 1D and 2D are sent as 5 29 10 the first Function 1 in the EAN 128 is not transmitted Table F 6 Symbology table with LabelType Symbol ID and AIM ID Code Type Name LabelType Symbol ID AIM ID AIM ID Modifier Value Hex ASCII Letter UPCEO 0x0 A E 0 UPCE1 0 1 0 0x2 A E 0 MSI 0x3 J M Same rules as for Code 39 8 0 4 4 EAN13 0 5 0 CODABAR 0x6 C F 0 1 standard ABC CODE39 0 7 B A 0 no check digit 1 3 check digit included exclude D2O0F5 0x8 G S 0 I2OFS 0x9 F I Same rule as for Code39 CODE11 OxA H H 0 1 2 1 2 0 check digits included CODE93 OxB E G 0 CODE128 D C 0 also see UCC EAN 128 PDF417 OxD X L 0 Conforms with 1994 PDF 417 spec 1 Backslash characters doubled 2 Backslash characters not dou bled IATA2OFS OxE G S 0 EAN128 OxF K C 1 2 character 1 2 is Function 1 F1 BOOKLAND 0 11 L X 0 TRIOPTIC39 0x12 M X 0 2D Scanner Drivers and Applications Table F 6 Symbology table with LabelType Symbol ID and AIM ID Continued COUPON 0x13 N 1 POSTNET US 0x15 p X 0 PL
33. to RJ 11 plug cables may be used with a range of adapters for locations such as Europe Connecting the CRD 38 6866 to Other Cradles Up to twenty four CRD 38 6866 cradles can be connected in a series using an RS 232 inter cradle cable p n 60427 00 00 between each cradle Caution Each cradle must have its own power supply any other power hook up method is unsafe 1 Plug one end of the inter cradle cable into the communication port located on the right end of the first cradle 2 Plug the other end of the inter cradle cable into the communication port located below the power connector on the left end of the second cradle 3 Connect the power supply to the second cradle as described in Connecting Power on page 2 6 4 Repeat the above steps for any additional cradles being added to the chain 5555 Chaining Interconnect Cable p n 60427 00 00 Figure 2 10 Connecting the CRD 38 6866 to Other Cradles Accessories Setup CCM 38 6860 Parts of the CCM 38 6860 Battery Charging Optical Contacts Connectors Spare Battery Charging Slot Power Port Communications Port Terminal In Terminal Battery COMM LED Charge LED Charge LED Figure 2 11 Parts of the CCM 38 6860 ne PDT 6800 Series Product Reference Guide 7 Wall Mounting The CCM 38 6860 can be table or wall mounted To wall mount the CCM 1 Attach the wall mounting brackets to the bottom of the CCM using the sc
34. you the option of label ing the extended symbol as either an EAN 13 bar code or an EAN 8 bar code This affects Transmit Code ID Character and DECODE_DATA message When EAN Zero Extend is disabled this parameter has no effect on bar code data Uses conv_ean8to13_b from decoder parameters to enable EAN Zero Extend Convert I 2 of 5 barcode type to EAN 13 This parameter con verts a 14 character I 2 of 5 code into EAN 13 To accomplish cvtC39 2 C32 C32Prefix EnableC128Perf C128PerfLvl EnableC39Perf C39PerfLvl updf performance 2D Scanner Drivers and Applications this the I 2 of 5 code type must be enabled one length must be set to 14 and the code must have a leading zero and a valid EAN 13 check digit Convert Code39 to Code32 Code 39 must be enabled in order for this parameter to function Code32 Prefix Enable this parameter to add the prefix charac ter A to all Code 32 bar codes Convert Code 39 to Code 32 must be enabled for this parameter to function Enable Code128 Performance This option offers three levels of decode performance or aggressiveness for Code 128 symbols Increasing the performance level reduces the amount of required bar code orientation which is useful if you are scanning very long and or truncated bar codes Increased levels reduce decode security If you enable this option you may select a Decode Per formance level to suit your performance needs Code128 Decode Performance Level
35. 00 Series Product Reference Guide 2 Communications For terminals being used in a direct communications batch environment or a Spectrum One network environment applications are transferred from a host computer to the terminal communications line using null modem connected to the cradle OR through the PC Adapter The procedure uses the SENDHEX program on the host computer and the Program Loader function from Command Mode on the terminal Programs are stored in the terminal s nonvolatile memory NVM also called the application EEPROM Note For details on the SENDHEX program refer to the Series 3000 Application Programmer s Manual Other software may be used in place of the SENDHEX program Downloading the Program To download the program initiate the communications software on the host computer and terminal as described in the following sections Note To cancel communications at any time during the session press CLEAR on the terminal The session stops immediately Communications parameters specified on the host and the terminal must match These parameters typically are 38400 bps 7 bit parity Odd parity Xon Xoff flow control To program the EEPROM the terminal must be connected to the host through a cradle CCM 38 6860 or PC Adapter with PIM 3 2 Batch and Spectrum One Terminal Setup Initiate Host Communications Software If using a cradle CCM 38 6860 CRD 38
36. 6866 CRD 38 6865 do steps 1 3 Otherwise continue with step 4 1 Connect the cradle to the host computer Refer to Chapter 2 Accessories Setup 2 Power on the cradle 3 Place the terminal in the cradle 4 Connect the PC adapter 5 Power on the host computer 6 Start the communications program 7 Atthe DOS prompt enter the SENDHEX command sendhex pgmname 38400 com2 where SENDHEX is the command pgmname is the application being loaded hex extension is optional parameters are the communications parameters following the program name Parameters include baud rate communications port data bits parity and flow control To accept the default parameters do not enter a value In the example the baud rate is set to 38400 bps and the communications port to COM2 The default values are accepted for the remaining parameters Note Versions of SENDHEX earlier than 3 0 do not support flow control If you use an earlier version and encounter communication errors use a lower baud rate 8 SENDHEX displays the prompt Press lt Enter gt to begin communications 9 Do NOT press ENTER yet Before starting communications refer to Starting Communications on page 3 6 set up the terminal as described in Initiate Terminal Communications 3 3 6800 Series Product Reference Guide Initiate Terminal Communications 1 Boot the terminal to command mode For the 35 Key terminal Press and hold lt BKSP gt an
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38. ANET US 0x16 pt X 0 ISBT128 0x19 D C 0 MICROPDF 0 1 X L 0 1 or 2 same definition as PDF417 3 Code128 emul implied F1 in 1st position 4 Code 128 emul F1 after 1st letter digits 5 Code 128 emul no implied F1 CODE32 0x20 B A Same rules as for Code 39 POSTBAR CA 0x26 pt X 0 POSTAL UK 0x27 pt X 0 MACROPDF 0x28 X L Same rules as for PDF 417 RSS 14 0x30 R e 0 RSS LIMITED 0x31 R e 0 RSS EXPANDED 0x32 R e 0 COMPOSITE A 0x51 T See Composite Code Data Formats EAN 128 Table COMPOSITE A 0x52 T See Composite Code Data Formats EAN 13 Table COMPOSITE A 0x53 T See Composite Code Data Formats EAN 8 Table COMPOSITE A 0x54 T See Composite Code Data Formats RSS EXPANDED Table COMPOSITE A 0x55 T See Composite Code Data Formats RSS LIMITED Table COMPOSITE A 0x56 T See Composite Code Data Formats RSS 14 Table COMPOSITE A 0x57 T See Composite Code Data Formats UPCA Table COMPOSITE A 0x58 T See Composite Code Data Formats UPCE Table COMPOSITE C 0x59 T See Composite Code Data Formats EAN128 Table TLC 39 OxSA T See Composite Code Data Formats Table COMPOSITE B 0x61 T See Composite Code Data Formats EAN 128 Table F 19 6800 Series Product Reference Guide Table F 6 Symbology table with LabelType Symbol ID and AIM ID Continued COMPOSITE B 0x62 T See Composite Code Data Formats EAN 13 Table COMPOSITE B 0x63 T See Composite Code Data Formats EAN 8 Table COMPOSITE B 0x64
39. Byte 526 to Byte Sender identification string 781 Addressee 256 BYTES Byte 782 to Byte Identification string of intended 1037 receiver of file SegmentIndex Contains segment index of the MacroPDF symbol SegmentCount Contains total number of macro PDF symbol in the set FileIdNull Terminated text string containing the File Identification sequence Time stamp The sequence should be the same for each symbol in set The time stamp of the source file expressed as the elapsed time in seconds from 1 January 1970 00 00 GMT F 13 PDT 6800 Series Product Reference Guide FileSize Total number of bytes in original file CheckSum The 16 bit CCITT 16 CRC result computed over the entire source file FineName Null terminated text string containing the original source filename Sender Sender identification string Addressee Identification string of intended receiver of file Get Scanner Version Uses ConsloctlGetVersion to retrieve the version information Field Size Value Description Subcommand Number BYTE 31 Get Error Code BYTE Not Used Major BYTE Major version of the scanner driver Minor BYTE Minor version of the scanner driver Scannerver 20 BYTES Byte 4 to Byte 23 Scanner Driver version string such as NB2DSSIA Decoderver 20 BYTES Byte 24 to Byte 43 Software revision string of the SSI scanner software Major Major version of the scanner driver Minor Minor version of t
40. C E1 Check Digit UPCEO Preamble Country Code Report UPC A Check Digit Number System Enable Code 39 Check Digit UPCE1 Preamble Country Code Transmit Code39 Check Digit Number System Enable 11 Check Digit UPCA Preamble Country Code Transmit Codell Check Digit Number System MSI Check Digit Transmit MSI Check Digit Check Digit Algorithm ESC Quit F1 HELP PgUp PgDn Preu Next CHECK DIGITS lt lt 2 PARAMETER SUMMARY MENU Copyright 1990 2001 Symbol Technologies Inc F 27 PDT 6800 Series Product Reference Guide Parameter Menu 2 Series 3000 Scanner Driver Build bldscn2d Linear Redundancy Security Code 32 Prefix Micro PDF Performance Code 39 Redundancy UPC Composite D 2 of 5 Redundancy System Info I 2 of 5 Redundancy Transmit Code ID 0 2 Code 128 Redundancy 0 None 1 Symbol ID 2 Aim ID Codabar Redundancy Code 11 Redundancy Scan Options MSI Redundancy Code 93 Redundancy Laser On Time 5 99 Trioptic Redundancy Rim Time 0 2 Bidirectioal NON UPC codes Scan Mode 1 smart 2 always 4 slab Linear Security Level 1 4 Aim Mode 0 Disable 1 Enable A B D E G J K Misc Options Enable Code128 Performance C128 Decode Performance Level Levell Level3 1 highest Enable Code39 Performance C39 Decode Performance Level 11 Level3 1 highest ESC Quit F1 HELP PgUp PgDn Prev Next PARAMETER SUMMARY MENU
41. Cold Boot Failure During a cold boot the system briefly displays a status line for each driver as it loads in the format 0 Driver The line shows a status value usually 0 followed by the name and version number of the driver If the system halts at one of these lines and displays a status value other than 0 the displayed device driver failed to load properly If such a failure occurs try cold booting the terminal again If this does not solve the problem call the Symbol Support Center More troubleshooting information is provided in the publications listed in Related Publications on page x 5 5 6800 Series Product Reference Guide 2 6842 Switching 802 11 to Spring RF Protocol After a cold boot the PDT 6842 boots up with the 802 11 RF protocol If you are using the Spring RF protocol do the following to switch from 802 11 to Spring 1 Cold boot the terminal The following prompt displays SOFTWARE UPDATE Update y n 2 Within four seconds type the letter y If you do not type the letter y within four seconds the terminal boots up with the 802 11 RF protocol The next prompt displays RF PROTOCOL UPDATE OPPORTUNITY Update RF protocol y n 3 Within ten seconds type the letter y If you do not type the letter y within ten seconds the terminal boots up with the 802 11 RF protocol The next prompt displays RF Protocol Currently 802 11 1 Abort upda
42. Copyright c 1990 2001 Symbol Technologies Inc F 28 22 Numerics 2D scanner driver installation F 1 38 6860 connecting for communications 2 14 coupling 2 or more CCMs 2 12 daisy chaining 2 or more 2 15 Darts Of accede ERR EHI AREE 2 11 parts required 2 2 wall mounting 2 11 2 12 38 6865 connecting for communications 2 7 connectie to DOWEE cece ean 2 6 2 1 2 2 PASO 2 3 paris REP 2 2 Wall MOURNS 525 4248556 2 4 38 6866 connecting for communications 2 7 connecting to other cradles 2 10 connecting to essc et 2 6 GeO as ciebat 2 1 2 2 s PP 2 3 ports 2 2 table mounting 2 5 wall mounting 2 5 6800 keyboard layout B 1 684X OCHO 4 1 802 11 switching to Spring RF protocol 5 6 A pb PR A 2 16 SU 44 00 25 5 2 alan 5 2 B back lightitig 4 ossa E RR RUE 5 7 backspace Bey 5 11 battery charging the Lithium Ion 6 7 charging the NiCd sese ees 6 6 charging esq 6 5 VE uc a Face ani p 6 2 fecharging spare packs ss rta 6 6 REDOVNE di Ro
43. D 2 os ossis 2 16 charging TIME pb e A Ro 2 16 Index communication LED 2 17 connecting to 6800 2 17 connecting to serial device 2 17 DBs colnectol iaa wid iden ee au 2 17 DONS Aer TET 2 16 power Supply port sos veux 2 17 SOC PEE a DER 2 17 PDF417 POSE e EE 5 13 PDT 6800 keyboard layouts 2 20 0 B 1 PDT6842 switching 802 11 to Spring protocol 5 6 115 T 2 16 connecting for communicating 5 16 PIM used with PC adapter 2 16 power connection 38 6855 cradle 2 6 38 8866 cradle 2 6 power 7 2 Power Key 5 11 TOWER 5 3 TORE pee d 5 3 PAWEL GN BERE RUE 5 2 ER 5 2 realtime chok loas cr rer RR 5 2 remove from erus 5 2 Pad qd vr pP d dd 5 3 power restoring after automatic shutdown 5 3 printer interface module PIM 2 16 printer communicating with 5 16 programi Inadet i rea 3 2 SJ n AP 3 4 CONES iis oos edhe Keke aeg C 1 PWR Key 5 11 R AME MOG dud e 5 2 recharging spare battery packs 6 6 related documentation x removing t
44. F F 3 6800 Series Product Reference Guide Table F 2 APIs Continued Function Length Structure ConsloctlGetExtDecoderParms 0x1C ConsloctlSetExtDecoderParms 0x1A Len ConsloctlSetExtDecoderParms Len ConsloctlGetExtDecoderParms struct ExtDecoderParms 5 BYTE linear security level BYTE linear supp code39 xmit chkdgt BYTE i25 chkdgt BYTE msi chkdgt scheme BYTE check i25 chkdgt BYTE random weight chkdgt BYTE tri39 red enabled BYTE cvtEAN8_2_EAN13 BYTE cvtI25_2_EAN13 BYTE cvtC39_2_C32 BYTE C32Prefix BYTE EnableC128Perf BYTE C128PerfLvl BYTE EnableC39Perf BYTE C39PerfLvl BYTE updf performance BYTE UPC Composite ConsloctlGetScanOptions 0x1D ConsloctlSetScanOptions 0x1B ConsloctlGetScanOptionsLen ConsloctlSetScanOptionsLen struct ScanOptions_S BYTE laser_on_time BYTE aim_time BYTE scan_mode BYTE aim_mode F 4 2D Scanner Drivers and Applications Table F 2 APIs Continued Function Length Structure ConsloctlGetMacroPDF 0x1C ConsloctlSetMacroPDF 0x1A ConsloctlGetMacroPDFLen ConsloctlSetMacroPDFLen struct MacroPDF S byte xmit_file_name byte xmit_block_count byte xmit_time_stamp byte xmit_sender byte xmit_addressee byte xmit_csum byte xmit_file_size byte xmit_header byte xmit_marker ConsloctlGetMacroPDFAuxData 0 1 Con
45. Female p n 25 19297 01 Null Modem Cable DB25 Male to DB 9 Female p n 25 19299 01 Chaining Interconnect Cable p n 60427 00 00 Two Wall Mounting Kits p n 3866 000 per 38 6866 Before attempting to mount or connect the Charging and Communications Module CCM 38 6860 verify that you have the following parts Four slot CCM Kit includes power supply mounting brackets and hardware US 3860 100 International 3860 101 AC Power Supply US 58690 00 00 International 58690 01 00 Null Modem Cable DB 25 Female to DB 25 Female p n 59846 00 00 DB 25 Female to DB 9 Female p n 25 19298 01 CCM Four Slot Add on Kit includes CCM coupling kit and mounting brackets p n 3861 101 2 2 Accessories Setup Parts of the CRD 38 6865 Screw Hole 1 Covers Optical Connectors Battery Contacts Power Port Spare Battery Charging Slot Serial Port Charging LED COMM LED Figure 2 1 Parts of the CRD 38 6865 Parts of the CRD 38 6866 Screw Hole Covers i v Power Port LS cd 0090 lt NW ES m NA Serial Port Optica Battery Charging LED COMM LED Connectors Contacts Figure 2 2 Parts of the CRD 38 6866 2 3 ne PDT 6800 Series Product Reference Guide 2 Wall Mounti
46. Note Connecting power to both CRD 38 6865 and CRD 38 6866 is the same 1 Connect the power supply cord s round plug to the power port on the left side of the cradle 2 Connect the power supply s AC plug to a standard electrical outlet 2 6 Accessories Setup The green and red indicators light for 3 seconds blink for 3 seconds then go out CRD 38 6865 CRD 38 6866 Figure 2 7 Connecting Power to the CRD 38 6865 and CRD 38 6866 Connecting for Data Communications To connect the CRD 38 6865 or CRD 38 6866 Be sure to unplug the cradle s power supply before connecting the serial cables Turn off the PC 3 Plug the RS 232 serial cable s DB 25 connector in the cradle s communication port Figure 2 8 4 Connect the cable s other connector to the host computer s serial COMM port 2 7 2 8 7 6800 Series Product Reference Guide 5 Reconnect the cradle s power supply Lu CRD 38 6866 Figure 2 8 Connecting the CRD 38 6865 and CRD 38 6866 for Communications with Computer Printer or Modem Accessories Setup Connecting the CRD 38 6865 Internal Modem RJ II Port Figure 2 9 RJ I1 Internal Modem Connection Some cradles use an optional internal modem that communicates at rates of up to 14 400 bps with v 32 bit data compression It can be connected directly to a telephone line through the
47. PC Adapter and PIM are connected Use the UBC 2000 battery adapter p n 21 32665 24 to charge the Lithium Ion battery Parts of the PC Adapter PIM PC Adapter DB 9 Connector RS 232 Pin Port Battery Charge Indicator LED Power Supply Port Figure 2 16 Parts of the PC Adapter The Battery Charge Indicator LED flashes when the terminal power is turned on and while the NiCd battery pack is being charged Note When power to the PC Adapter is turned on NiCd battery charging begins automatically and continues for 7 hours Accessories Setup The LED flashes once when the terminal is turned on It remains steady while the terminal is powered and blinks slowly during downloading The RS 232 25 pin port attaches the null modem cable connected to a PC or other RS 232 device See Appendix A Null Modem Pin outs for null modem pin outs DB 9 connector attaches the PIM s DB 9 connector The power supply port attaches the 15 Volt power supply Connecting the PC Adapter to the Terminal and Serial Device PIM s Optical Connector PIM Power Supply RS 232 Cable DB 25 PC Power DB 9 Port Connector Adapter Supply Port Figure 2 17 Setting Up the PC Adapter 1 Turn the PC and terminal OFF 2 Plug the PIM s DB 9 connector in the PC Adapter s DB 9 port ne PDT 6800 Series Product Reference Guide 7 3 Attach the PIM s optical connector to the terminal by inserting the clips on the c
48. RJ 11 port shown in Figure 2 9 Note The four slot cradle does not have an internal modem To connect the internal modem Connect the phone cord into the RJ 11 port on the back of the cradle 2 Connect the other end of the phone cord into the wall phone jack Caution When connecting the internal modem to the phone line always connect the phone line to the cradle first then to the wall phone jack When removing the connection always remove the telephone line from the wall phone jack then remove from the cradle There are specific firmware settings which are used to configure the modem s hardware and software for proper operation and regulatory compliance The terminal s application can control these settings and enable you to view and amend the settings for country region pulse tone dialing or repeat dial timing Incorrectly defining these settings can lead to illegal use of the modem and can create unreliable operation The application developer should consult the Series 3000 Application Programmer s Reference Manual for correct settings 2 9 6800 Series Product Reference Guide 2 Connecting to the Telephone Network A compliant telephone cord is required with an RJ 11 plug connection to the modem terminated with an appropriate and correctly wired local telecom connector compatible with the telephone network Such a cable may be obtained from your local supplier Alternately compliant RJ 11 plugs
49. Self Test Access the Self Test function from the Command Mode Menu 1 3 Boot to Command Mode refer to Chapter 5 Operating the PDT 6800 Series for boot sequence In the Command Mode Main Menu use the UpArrow or DownArrow to scroll through the options Highlight Self Test and press lt Enter gt Press CLR any Self Test screen to return to the Self Test screen or from the Self Test screen to return to the Command Mode screen 7 5 ae PDT 6800 Series Product Reference Guide 7 Self Test Summaries Self test is divided into five functions or screens Config Screen 1 Reports the terminal series BIOS version battery status and current power source Config Screen 2 Reports information on the keyboard and display including power wakeup source Memory Screen Tests ROM RAM and EMS Expanded memory and reports the amount of installed RAM and EMS Fill Screen Fills the entire screen with a test pattern to verify that the entire screen displays Set RTC Screen Sets the time and date settings of the real time clock Keyboard Test Keyboard testing can be performed while the terminal displays Config Screen 1 results Test any keys except CLEAR and PWR When you press a key the corresponding key code is displayed on the top row to the right of the test name Table 7 4 lists the codes for the 35 key keyboard and Table 7 5 lists the codes for the 46 key keyboard 7 6 Error Recovery and
50. adle module and PC adapter for charging the NiCd battery and communicating with a host printer or modem Note The Lithium Ion battery is charged in the UBC 2000 battery adapter p n 21 32665 24 Refer to Chapter 6 Maintaining the Terminal for more information The CRD 38 6865 cradle CRD 38 6866 cradle and CCM 38 6860 Charging and Communications Module provide RS 232 communication charging and storage for the PDT 6800 Series terminal The PC adapter provides charging for the NiCd battery and communications for the terminal Save the shipping container for storing or shipping the cradle module or PC adapter Inspect all equipment for damage If anything is damaged or missing call your authorized customer support representative immediately 2 1 6800 Series Product Reference Guide Required Parts Before attempting to mount or connect the cradles verify that you have the following parts CRD 38 6865 Single Slot Cradle with Charging Slot US Kit 3865 110 International Kit 3865 111 AC Power Supply US 59915 00 00 International 60507 00 00 Null Modem Cable DB 25 Male to DB 25 Female p n 25 19297 01 Null Modem Cable DB25 Male to DB 9 Female p n 25 19299 01 Wall Mounting Kit p n 3866 000 CRD 38 6866 Four Slot Cradle US Kit 3866 100 International Kit 3866 101 AC Power Supply US 60153 00 00 International 60174 00 00 Null Modem Cable DB 25 Male to DB 25
51. al communications cradles are NOT certified for use in potential ly hazardous environments To charge an intrinsically safe PDT 6800 Series terminal in a cradle remove the terminal from the potentially hazardous en vironment before charging Battery Charging with the PC Adapter Refer to Chapter 2 Accessories Setup for instructions on setting up the PC Adapter for charging Battery charging begins automatically when power is supplied to the PC Adapter Fully charging a battery using the PC Adapter requires 7 hours Other Charging Options You have the option of charging battery packs in the UBC 1000 or 2000 Charger Refer to the documentation for the charger for more information Charging the Lithium lon Battery Pack Note Placing the terminal in the cradle with a Lithium Ion battery installed does not damage the battery The Lithium Ion battery does not charge when the terminal is placed in a cradle Use the cradle for communications and as a place holder for the terminal when a lithium Ion battery is installed To charge the Lithium Ion battery p n 21 40340 01 remove the battery from the terminal and charge in a UBC 2000 battery adapter p n 21 32665 24 Refer to the UBC 2000 Quick Reference Guide for more information Cleaning The PDT 6800 Series terminals require a minimum amount of maintenance However keep the terminal clean to avoid problems and prolong the terminal s life Before doing any maintenance or cleani
52. arging the NiCd Battery Pack The NiCd battery pack automatically charges when the terminal is placed in a cradle or connected to a PC Adapter A full charge takes about 7 hours We recommend that you always keep the NiCd battery pack fully charged Charging NiCd Battery pack in the Terminal Using a Cradle To charge a NiCd battery in the terminal using the CCM 38 6860 CRD 38 6865 or CRD 38 6866 cradle Figure 6 3 1 Place the terminal in the cradle The cradle charging light flashes when charging a discharged battery and remains steady when trickle charging a charged battery CCM 38 6860 CRD 38 6865 CRD 38 6866 Figure 6 3 Charging the Battery in the Cradle 2 Leave the terminal up to 7 hours to recharge a fully discharged battery Charging NiCd Battery Packs Outside the Terminal Slots are provided in the CCM 38 6860 and CRD 38 6865 cradles to charge spare battery packs outside the terminal Place the battery pack to be charged in one of the battery slots in the cradle The LED indicator lamp under the battery slot in which the terminal was placed indicates the battery is charging On the CCM 38 6860 the spare battery charging indicator lamp is on the right If the lamp is off the battery pack is not charging A blinking LED indicates fast charge a solid on LED means slow charge ready See the cradle documentation listed in Related Publications on page x for details 6 6 Maintaining the Terminal Caution The option
53. before being decoded The following codes must be read three times Code Type Length MSI Plessey 4 or less D2 of 5 8 or less 12 of 5 8 or less Level 4 All code types must be successfully read three times before being decoded linear_supp_enabled code39 xmit chkdgt This option applies to supplemental code types When enabled a bar code is transmitted only when both blocks are successfully decoded within one laser scan Enable to transmit the check digit with the data Disable to trans mit the data without check digit F 9 2 xmit i25 chkdgt msi chkdgt scheme check i25 chkdgt random weight chkdgt tri39 red enabled cvtEAN8 2 EANI13 cvtI25 2 13 ne PDT 6800 Series Product Reference Guide Enable to transmit the check digit with the data Disable to transmit the data without check digit Select which algorithm to use when the number of check digits is set to 2 check digits 0 Mod11 Mod10 1 Mod10 Mod10 Select I 2 of 5 check digit type 0 Do not use check digit 1 Use USC Uniform Symbology Specification check digit 2 Use OPCC Optical Product Code Council check digit This parameter applies to both EAN 13 and UPC A 0 disable random weight check digit 1 use four digit method to calculate check digit 2 use five digit method to calculate check digit Enable TriopticCode39 redundancy Convert EAN 8 barcode type to EAN 13 When EAN Zero Extend is enabled this parameter gives
54. charged Power Fault The last terminal power off was caused by a power failure Possible causes of a power failure include the battery pack is removed with the terminal on the terminal is dropped the batteries lose power suddenly the terminal displays a low battery power error message and you attempt to power the terminal on without recharging or replacing the batteries Troubleshooting Error Recovery and Troubleshooting Table 7 2 lists some minor problems causes and actions to take If you cannot resolve the problem after checking this list call the Symbol Support Center for assistance Table 7 2 Troubleshooting the Terminal Symptom Possible Cause Action Display is blank Battery pack is dead or missing Replace or recharge battery pack Terminal does not respond when keys are pressed Application program was not successfully downloaded Repeat downloading Time and date are incorrect Real time clock has malfunctioned or needs setting Set time and date See your application guide Startup Failure Problems are most frequently start up failures If cold booting the terminal does not start the application successfully the application the system software or the system is malfunctioning If you can boot the system to Command Mode try the following Use Program Loader to download a new version of the software to NVM This procedu
55. cial indirect or consequential damages arising out of or in connection with the use or performance of the product Seller s liability for damages to buyer or others resulting from the use of any product shall in no way exceed the purchase price of said product except in instances of injury to persons or property Some states or jurisdictions do not allow the exclusion or limitation of incidental or consequential damages so the proceeding exclusion or limitation may not apply to you XV 6800 Series Product Reference Guide xvi Chapter 1 Getting Started Introduction The PDT 6800 Series terminal is a hand held battery powered portable data collection device Data is entered from the terminal s keyboard or through the integrated laser scanner As a remote terminal it collects and stores data that is later uploaded to a host computer The PDT 6800 Series terminals include 6800 batch terminal no radio 6810 Spectrum One network PDT 6842 2 Mb Spectrum24 radio network PDT 6845 2 Mb Spectrum24 radio short range network PDT 6846 11 Mb Spectrum24 radio network Since the procedures and descriptions in this guide are similar for all terminals listed above PDT 6800 Series terminals is used as a general term describing all terminals unless otherwise specified PDT 6800 Series terminals use Caldera s DR DOS operating system that is compatible with and extends Micro
56. crews Coupling 1T Bracket Screws Figure 2 13 CouplingTwo CCMs Connecting Power Only the power connection is required for charging batteries in the CCM Install the power supply a Attach the power supply to the left side of the CCM as shown in Figure 2 14 using two cross head screws b Connect the power supply plug to an AC wall outlet 6800 Series Product Reference Guide 2 When the CCM is connected to power all the LEDs flash at the same time for 3 seconds flash once from left to right and then turn on for 3 seconds before going out Null Modem Cable Figure 2 14 Connecting the CCM 38 6860 for Charging and Communications Connecting the CCM for Serial Communications Note Both the communications cables and the power supply connection are required for performing communications through the CCM 1 Turn off the PC 2 Plug the RS 232 null modem cable s DB 25 connector in the cradle s communication port Accessories Setup 3 Connect the cable s other connector to the host computer s serial COMM port Daisy Chaining Two or More CCMs Up to twenty four CCMs can be daisy chained together for charging and communications To daisy chain two or more groups of four CCMs requires 25 pin male to female straight through RS 232 cable per group of coupled CCMs power supply per group of coupled CCMs
57. d lt SHIFT gt Press and release PWR Release lt BKSP gt and lt SHIFT gt For the 46 Key terminal Press and hold lt F gt and lt I gt Press and release lt PWR gt Release lt F gt and lt I gt The terminal displays COMMAND MODE Select function Self test Scroll through Command Mode options using UpArrow or DownArrow until Program loader is displayed Press ENTER The terminal displays Program loader WARNING EEPROM WILL BE ERASED CONTINUE ENT Before loading the new application erase the NVM s original contents Note To cancel this operation press CLEAR 3 4 Press lt gt to erase the EEPROM Wait while the EEPROM is erased When complete the program prompts for the communications parameters Batch and Spectrum One Terminal Setup Baud Rate the terminal displays Comm Parameters Baud 4 9600 Scroll through the list using UpArrow or DownArrow When the correct rate is displayed 38400 is recommended press lt ENTER gt Data Bits the terminal displays Comm Parameters Data Bits Y Press lt 7 gt recommended or lt 8 gt to specify data bits or scroll through the list using UpArrow and DownArrow Press lt ENTER gt when the correct value is displayed Note If 8 data bits is selected the program selects No parity and skips the next step Parity if 7 data bits is selected the terminal displays Comm Parameters
58. data bits the program selects No parity and skips the next screen 10 Specify parity type Use UpArrow and DownArrow to display a parity option or press the first letter of a parity option Even Odd None Space or Mark and press lt ENTER gt 11 Set flow control Use UpArrow and DownArrow to display the flow control options or press the first letter of an option None Xon Xoff or RTS CTS and press lt ENTER gt Start Communications 1 The terminal is ready to send the data to the host PC and displays Comm Parameters Start lt ENT gt Verify that the host is ready to receive data 3 Press lt ENTER gt on the terminal While data is being transferred the terminal displays a report of the 1 KB range being transferred Memory Transfer Sending XXXX PDT 6800 Series Product Reference Guide 7 The display is updated for every 1024 bytes 1 KB of memory 4 When the transmission completes or aborts the terminal displays the transmission status screen Memory Transfer Status 0000 A status of 0000 all zeros indicates that the transfer was successful Any other status indicates failure Refer to Appendix C Communications Status Codes for the status codes which indicate the source of the error End Communications To return to the Command Mode Main Menu press CLEAR Take whatever corrective action is necessary and reboot the terminal Internal Modem Problems If you are having diff
59. do 6 3 replacement 2 2 db Een 6 3 battery charge LED PC adapter 2 18 battery Storage 441 424 Ark 6 5 ER m RR RUP 5 11 booting CUM UR E edid E 1 E 2 Command Mode vester 3 4 SOC DUE o e eee Ea did E 1 E 2 break key sequence for 5 11 CCM daisy chainig 20206560 REA 2 14 MOMMIES 2 11 COM 38 6960 Ex 2 1 2 2 connecting for communications 2 14 coupling 2 or more together 2 12 2 11 Index 1 6800 Series Product Reference Guide wall MOUNTING 2 12 Chapter descriptions ix charging Lithium Ion battery pack 6 7 NiCd battery pack 6 6 spare battery packs ea des 6 6 B PP e qe 6 6 charging and communications module 2 1 2 2 cold book 2222222 oe 5 5 E 1 E 2 Command Modes oer sarees 3 2 fO viver eevee ees 3 4 program loader 2 2 2 3 3 communications 5 16 select parameters e x 3 4 status codes och 3 6 C 1 with hast or printer assesses 5 16 connecting for communications 2 14 2 14 38158305 cradle 2 7 38 6866 cradle rena 2 7 connecting to other cradle
60. e Transmit Code 39 Check Digit Disable 12 of 5 Check Digit Disable Transmit I 2 of 5 Check Digit Disable Transmit UPC A Check Digit Enable Transmit UPC E Check Digit Enable Transmit UPC E1 Check Digit Enable Code 11 Check Digit One Transmit Code11 Check Digit Disable MSI Check Digits Two check digits Transmit MSI Check Digit Disable MSI Check Digit Algorithm Mod 10 Mod 10 Random Weight Check Digit Disable Conversion Parameters EAN 8 Zero Extend Disable Convert UPC to UPCA Disable Convert UPC E1 to UPCA Disable Convert EAN 8 to EAN 13 Type Disable Convert Code 39 to Code 32 Disable Code 39 Full ASCII Conversion Disable Convert I 2 of 5 to EAN 13 Disable UPC A Preamble System UPC E Preamble System UPC E1 Preamble System Code 32 Prefix Disable Security Parameters Linear UPC EAN Decode Enable Linear Code Type Security Levels 2 UPC EAN Security Level 0 Bi directional Redundancy Disable Code 11 Redundancy Enable Code 39 Redundancy Disable Code 128 Redundancy Disable MSI Redundancy Enable Codabar Redundancy Enable I2 of 5 Redundancy Enable D 2 of 5 Redundancy Enable Code 93 Redundancy Disable F 23 6800 Series Product Reference Guide Table F 10 Decode Options Default Table Continued 39 Redundancy Enable Decode Redundancy for UPC EAN without sup plemental 10 Other Parameters
61. e terminal and charging in a UBC 2000 battery adapter p n 21 32665 24 Refer to the UBC 2000 Quick Reference Guide for more information 6 1 6800 Series Product Reference Guide Battery Life Battery life is affected by many factors including scanning radio communications very high or very low operating temperatures backlighting use battery age When to Replace or Recharge the Battery The PDT 6800 Series terminals provide two types of indicators to notify you when battery power is running low warning messages and modified cursors These indicators may be changed or disabled by an application 6 2 LOW BATTERY When the battery is low the cursor changes as shown in Table 6 1 on page 6 2 If ERR3000 is loaded the message LOW BATTERY also appears At this level the terminal continues to operate but there is probably less than 1 hour of usable power left VERY LOW When the power is very low the DEAD BATTERY message appears and the system powers off Replace or recharge the battery pack before attempting to use the terminal If the battery is not immediately recharged or replaced data may be lost Table 6 1 Cursor Indicators Keyboard State Cursor Character Low Battery Unshifted NSI inverted caret inverted solid caret Shifted caret solid caret Momentary Shifted 4 gt up arrow solid up arrow Momentary Unshifted gt down arrow 4 solid down arrow
62. e acad 4 1 Accessmy the Flash Disks 2a ses ded bebe ia eo ACH ERR 4 1 Standard Spectrum 4 SORWATE oi ons REDDER EARS 4 2 Chapter 5 Operating the PDT 6800 Series litte eo oae e dida dis 5 1 Powering the 5 2 Removing Terminal Prams Cradle Cu EO ERE EAR 5 2 Keboan i Joi EOS 5 2 Real Tune dag D PESE dd hc dd grt 5 2 Lascr DESDE PEE RC DATA a SE Edu dea Ubaldo adl 5 3 Restoring Power After Automatic Shutdown 0000008 rh eh 5 3 Powering the qi on do 5 3 Forcing Power Y bade Ro EE ded 5 3 Restarting After a Forced Power Off e ionia Edd 5 3 the Terminal laua int d a p QU 5 4 Contents Mi Boots 2465655866 dete EN Cold CORD Vee CHRD Hie CORD we 5 4 Comma somete ela PASS A pt Adju NICE til a aa nia HG n ME j 5 7 PDT 6800 Series Keyboard tionc EEE 5 8 Coren rer ee WS Aide edad ed Re qaod d 5 9
63. ectrum24 boot options addressing initializing the terminal and Access Point AP associations 4 2 Chapter 5 Operating the PDT 6800 Series Introduction This chapter describes how to operate a PDT 6800 Series terminal including Powering the terminal on and off Booting the terminal PDT 6842 Switching 802 11 to Spring RF protocol Adjusting the display contrast Entering data using the keyboard Entering data using the scanner Communicating with a PC or printer Communicating on an RF network 5 1 6800 Series Product Reference Guide 7 Powering the Terminal On There are several ways to power on a terminal Each way lets you resume at the same location in the application where you left off Note The PDT 6800 Series terminal always checks for enough battery power for safe operation before it powers on Removing Terminal From a Cradle The terminal automatically powers on when it is removed from a cradle While the terminal is in the cradle the NiCd battery is constantly being charged If you remove the terminal from the cradle but do not use it right away press the PWR key to turn it off or let it power off automatically Refer to the section Restoring Power After Automatic Sbutdown on page 53 Note The Lithium Ion battery is charged in the UBC 2000 battery adapter p n 21 32665 24 not in tbe cradle Keyboard Your terminal can be programmed to power on from the keyboard b
64. een step 7 page 10 If you select Range the screen displays RAM Use Arrow Keys Start End 00000 Specify a range of RAM by setting the Start and End addresses Use RightArrow and LeftArrow to move the cursor to the digit to be changed Use UpArrow and DownArrow to change the values Type a range and press lt ENTER gt Specify a range of NVM to transfer Choose All or None If the system has EMS installed it prompts for the range to transfer otherwise it skips this screen EMS Use arrow keys Start End The range is specified in page numbers 16 KB per page Use RightArrow and LeftArrow to move between the Start and End values Use UpArrow and DownArrow to change the page number value Set the range and press lt ENTER gt The terminal displays a range verification screen For example RAM 0000 3FFF NVM D510 Error Recovery and Troubleshooting EMS 0000 010 Correct lt ENI gt If the values are correct press ENTER If the values are not correct press lt CLEAR gt to clear the fields and select new values 8 Specify the baud rate Use the UpArrow and DownArrow to scroll through the list of baud rates until the correct rate is displayed and press ENTER Note Flow control may be necessary at 38400 bps and higher 9 Specify the data bits Press 7 or 8 or use UpArrow and DownArrow to display the values 7 or 8 and press ENTER Note If you select 8
65. ended Decoders ConsloctlGetExtDecoders command returns the status of the additional supported decoders in the terminal and uses ConsloctlSetExtDecoders command to enable or disable the additional decoders supported in the terminal Table F 3 Get Set Extended Decoders Field Size Value Description Subcommand Number BYTE 27 Get 25 Set Error Code BYTE Not Used Bookland BYTE 0 Disable 1 Enable EAN128 BYTE 0 Disable 1 Enable ISBT128 BYTE 0 Disable 1 Enable CouponCode BYTE 0 Disable 1 Enable C39Trioptic BYTE 0 Disable 1 Enable TLC39 BYTE 0 Disable 1 Enable RSS_14 BYTE 0 Disable 1 Enable F 6 2D Scanner Drivers and Applications Table F 3 Get Set Extended Decoders Continued Field Size Value Description RSS_Limited BYTE 0 Disable 1 Enable RSS_Expanded BYTE 0 Disable 1 Enable CompositeAB BYTE 0 Disable 1 Enable CompositeC BYTE 0 Disable 1 Enable Code128_Emulation BYTE 0 Disable 1 Enable MicroPDF BYTE 0 Disable 1 Enable CouponCode When enabled it decodes UPC A UPC A with 2 supplemental UPC A C39Trioptic Trioptic Code39 symbols always contain six characters Trioptic Code39 Bookland User must enable UPC A and or EAN13 for Bookland with 5 supplemental and UPC A EAN 128 barcode codes User must enable UPC A EAN 13 and EAN 128 and Code39 Full ASCH can
66. erminal without the battery pack ensure that you have stored any data and or programs you wish to keep on another terminal a host computer or another medium to avoid loss of data The terminal backup power source retains data for approximately 15 minutes after the battery pack is removed as long as the backup batteries remain in place Installing the Battery Pack 1 Orient the battery pack with the handle facing the terminal s scan window Figure 6 2 2 Slide the pack into the battery compartment while pressing the battery release buttons 3 Press the battery lock in to secure 6 4 Maintaining the Terminal Orient Figure 6 2 Installing the Battery Pack Battery Charging Tips For maximum capacity and battery life follow these helpful hints Do Charge at temperatures between 0 C and 38 C 32 F to 100 F 21 C 70 F is preferred Recharge as soon as you see the Low Battery message Save your data and program on another terminal or another medium if you plan to store your terminal without the primary battery pack Store batteries at room temperature of 21 C 70 F or cooler Recharge the NiCd battery pack after storage Don t Store or recharge primary batteries at temperatures below 0 C 32 F or above 38 C 100 F Judge a battery s charge level by measuring its voltage voltage does not indicate charge level 6 5 ne PDT 6800 Series Product Reference Guide 7 Ch
67. ers with the same effect as pressing the Alt key on a PC 5 9 6800 Series Product Reference Guide 7 To cancel the effect of a modifier key press it again Keyboard Speed If your application program allows it the characters may be set to appear faster or slower Refer to the Series 3000 Application Programmer s Manual for more information Keyboard States The keyboard states are listed below in the order in which they take priority unless changed by the application Unshifted Shifted Function Control The standard cursor shapes for the keyboard states are shown in Table 6 1 on page 6 2 Momentary and Locked States Each keyboard state is either momentary or locked A momentary state lasts for only the following keystroke A locked state lasts until the activator key is pressed again Only one momentary state can be active at a time Momentary states always take priority over locked states If you press several momentary state keys in a row the system changes to the state of the last key pressed For example if you press SHF then CTRL the terminal enters the CONTROL state The CTRL SHE and FUNC keys activate a momentary state If you press a momentary state key twice in a row the system enters the state and then cancels it For example if you press SHF SHE the terminal is shifted and then immediately unshifted When batteries are low the cursor changes See Cursor Indicators Table 6 1 on page 6 2
68. es 3000 Application Programmer s Guide and your application guide 4 FUNC ALPHA CLEAR S 5 8 t gt o lt aie 9008 996 066 9996 7 WI s Y 00 ENTER Figure 5 1 35 Key Keyboard Operating the PDT 6800 Series 000000 0 gt 00000 99000 206 B 6 9 0 6 0 2 9 e AA 000000 8 ENTER 909 Figure 5 2 46 Key Keyboard Using the Keyboard Except during boot operations the terminal expects the operator to press keys one at a time If the terminal has been programmed for it ERR3000 is loaded and if two or more keys are pressed simultaneously the terminal indicates a Double Key The keyboard also has an optionally configurable auto repeat function If the application allows a character repeats as long as the key is held down If the key is pressed immediately following a modifier key the modifier sequence affects only the first occurrence of the character key Modifier Keys The Shift Alpha Function and Control keys are modifier keys When pressed individually or in certain combinations these keys change the keyboard state and possibly the character produced by the character key subsequently pressed Refer to Table 5 1 for a list of the terminal s special keys For example pressing lt FUNC gt followed by lt CTRL gt produces Alt charact
69. ff from cradle Warm Boot lt F gt Choosing a If system software is present returns lt J gt program that terminal to DOS Otherwise returns lt PWR gt resides in NVM terminal to command mode Retains contents of RAM Cold Boot lt SPACE gt Resetting BIOS and Erases and recreates RAM disk Only lt FUNC gt the operating data in NVM is retained Up Arrow system lt PWR gt Command lt BKSP gt Entering command Takes terminal to beginning of Mode Start lt SHIFI gt mode for Self Test command mode The first time you lt PWR gt or communication turn the terminal on or after the terminal has been stored without batteries acts the same as a Cold Boot resets BIOS loses contents of RAM mM PDT 6800 Series Product Reference Guide Table E 2 46 Key Boot Procedures Boot Type Key Sequence Used For Results Power On PWR or Trigger or Applying power Returns terminal to where it was when remove terminal it was turned off from cradle Warm Boot 4 Choosing a If system software is present returns 5 program that terminal to DOS Otherwise returns lt PWR gt resides in NVM terminal to command mode Retains contents of RAM Cold Boot lt A gt Resetting BIOS and Erases and recreates RAM disk Only lt B gt the operating data in NVM is retained lt D gt system lt PWR gt Command lt F gt Entering command Takes terminal to beginning of Mode Start lt I gt mode for Self Test
70. he battery coercere 6 3 Index 3 6800 Series Product Reference Guide replacing the battery 6 3 restoring power after automatic shutdown 5 3 S scanning adjusting the laser beam 5 12 HOM 5 14 te eee 5 15 bec oh UR SRR EWES 5 13 tips for successful decode 5 15 self test Conte 7 6 Config Screen 2 7 6 7 8 Pull a sue Saepe Ghee 7 6 Memory Serec ace es cea ue 7 6 DID doge nA Qa dc ittun 7 5 Set RTO 7 6 testing hardware components 7 5 SENDLEEX 3 2 programming 2 3 2 service Information 4244406400 sr weed xi setting the keyboard speed 5 10 spare battery packs charging 6 6 Spectrum24 system SO tWaTe aA dees 4 2 startup Tallures 7 3 states PC 5 10 MOMMA 5 10 symbol 22 422 xii system software Spectrum24 4 2 Index 4 T table mounting 38 6866 2 5 temperature battery charging o2 nt Rao 6 5 battery 6 5 terminal switching from 802 11 to Spring RF PRON e e ace ree t cce de 5 6 terminal initialization program loader function 3 2 sendhex command
71. he scanner driver Scannerver Scanner Driver version string Decoderver Software revision string of the SSI scanner software 2D Scanner Drivers and Applications Get Multi Packet Status Uses ConsloctlGetMultiPacketStatus to retrieve the number of packets left for a multi packet barcode such as composite code For a single packet data it will always return 0 Field Size Value Subcommand Number BYTE 32 Get Error Code BYTE Not Used NumPacketsLeft BYTE 0 255 NumPacketsLeft Number of packets left to be read Label Type Definition for 2D Scanner Driver PDT68XX 2D scanner driver supports AIM ID as well as many new symbologies such as Coupon Code Composite Code RSS and TLC39 Tables below show the relation between label type symbol ID and AIM ID To support AIM ID the xmit_code_id_char in Ioctl Get Set Return Format command will be modified as follow 0 Don t transmit code ID 2 Transmit AIM ID 2 Transmit AIM ID Table F 5 Symbology table with LabelType Symbol ID and AIM ID Code Type Name LabelType Symbol ID AIM ID AIM ID Modifier Value Hex ASCII Letter UPCEO 0x0 A E 0 UPCE1 0 1 0 UPCA 0x2 A E 0 MSI 0 3 M Same rules as for Code 39 EAN8 0 4 4 EAN13 0x5 A E 0 CODABAR 0x6 0 1 standard ABC mo PDT 6800 Series Product Reference Guide Table 5 Symbology table with Label Type Symbol ID and AIM ID C
72. ht Arrow key use depends on the application 14 Moves the cursor up down Move the cursor left right gt ALPHA Shifts the keyboard to produce alphabetic characters SPACE Places a blank space on a line of the display 6800 Series Product Reference Guide 2 Scanning The PDT 6800 has an integrated scanner which allows you to collect data by scanning 1 or 2 dimensional bar codes See Appendix E 2D Scanner Drivers and Applications for information on enabling the 2D scanner Before scanning can occur the terminal must be running an application that supports bar code scanning The terminal must also be programmed to scan the type of bar code you want such as Universal Product Code UPC or Code 3 of 9 For information on scanning applications and on programming the scanner refer to the Series 3000 Application Developer s Kit Scanning 10 Bar Codes 1 Pullthe trigger on the handle to power on the terminal and laser scanner The Scan LED turns red if scanning is enabled and the laser is on 2 Point the terminal at a slight angle to the bar code and pull the trigger Figure 5 3 Using the Laser Scanner 3 Ensure that the scan beam crosses all bars and spaces on the 1D bar code symbol as shown below Do not hold the scanner directly over the bar code 9 4 2 3 1 2 3 4 5 Right Wrong Operating the PDT 6800 Series 4 Hold the scanner farther away for
73. iculties with your internal modem please check the following before returning your product Connection to the telephone network is correct necessary special requirements such as dialing 9 and ignoring dial tone have been considered in the event of using a PBX Firmware settings described the Series 3000 Application Programmer s Guide have been configured correctly Scanning Problems What If Nothing happens when you follow the operating instructions e Check the system power Verify that the scanner is programmed to read the symbology you are trying to read Try scanning a test symbol of the symbology you are trying to read Check the bar code to ensure that it is not defaced A defaced bar code may not be readable Error Recovery and Troubleshooting Check to see that you are scanning from the proper distance Your terminal operates but scanned data is not displayed correctly Check the system power Check that the communications parameters baud rate parity stop bits etc set properly for the receiving device The laser does not activate You may have exceeded the allowable amount of scanning activity within the limits of your laser class of operation in this case wait for a short interval before scanning again You may be scanning in an inappropriately hot environment If so remove the equipment from the environment or allow the laser to cool down 7 13
74. ight_chkdgt BYTE 0 disable 1 use four digit method 2 use five digit method tri39_red_enabled BYTE 0 Disable 1 Enable cvtEAN8 2 EAN13 BYTE 0 Type is EAN 8 1 15 EAN 13 cvtI25 2 EAN13 BYTE 0 Disable 1 Enable cvtC39 2 C32 BYTE 0 Disable 1 Enable C32Prefix BYTE 0 Disable 1 Enable EnableC128Perf BYTE 0 Disable 1 Enable C128PerfLvl BYTE 1 Level 1 2 Level 2 3 Level 3 EnableC39Perf BYTE 0 Disable 1 Enable C39PerfLvl BYTE 1 Level 1 2 Level 2 3 Level 3 updf performance BYTE 0 9 Level 0 to Level 9 UPC Composite BYTE 0 UPC is never linked 1 UPC always linked 2 AutoD UPC linkage linear_security_level 2D Scanner Drivers and Applications Linear Code Type Security Level Four levels of decode security for linear code types e g Code 39 Interleaved 2 of 5 Code128 etc Higher security levels are selected for decreasing levels of bar code quality As security levels increase the scanner s aggressiveness decreases Select the security level appropriate for your bar code quality Level 1 The following code types must be successfully read twice before being decoded Code Type Length Codabar All MSI Plessey 4 or less D2 of 5 8 or less 12 of 5 8 or less Level 2 All code types must be successfully read twice before being decoded Level 3 Code types other than the following must be successfully read twice
75. ighting conditions at various temperatures and at different viewing angles To reduce lighten display contrast press FUNC Y increase darken display contrast press FUNC X Backlighting The backlight illuminates the display in dimly lit areas 5 7 6800 Series Product Reference Guide 7 Note Use of backlighting can significantly reduce battery life To turn the backlight on or off press FUNC then L or use the key sequence listed in your application guide The backlight turns off automatically when the terminal is powered off or when the terminal has not been used for an amount of time set by the application See the Series 3000 Application Programmer s Guide for more information PDT 6800 Series Keyboard The keyboard is used for entering data and issuing commands to the terminal Figure 5 1 and Figure 5 2 illustrate the standard 35 key and 46 key keyboards respectively The keys on the keyboard are distinguished as modifier keys and character keys Because terminal keyboards have fewer keys than PC keyboards each character key can produce more than the usual one or two characters The modifier keys SHF Shift CTL and FUNC used individually or in combination determine which character or special function the character keys produce Because the keyboard is programmable your terminal may not work as described here For more information and illustrations of other keyboard states see the Seri
76. is and correction including Error messages Troubleshooting start up failures Troubleshooting Spectrum24 terminal initialization failures Running the Self Test function Self Test summaries Keyboard test Running memory transfer Scanning problems 7 1 PDT 6800 Series Product Reference Guide Error Messages If ERR3000 is loaded in the system configuration the terminal displays the following messages to indicate error conditions that affect system performance A message is usually accompanied by one or more beeps after which the system returns to its previous status The application can change the actual wording of the messages or disable messages The messages listed in Table 7 1 are representative Refer to the Series 3000 Application Programmer s Guide or your application guide for additional information Table 7 1 Error Messages Message Explanation Double Key Error Two or more keys were pressed at the same time This does not include boot sequences described in Chapter 5 Operating the PDT 6800 Series Low Battery The battery pack should be recharged or replaced as soon as possible Dead Battery Replace or recharge the battery pack immediately This message is programmable so it may be worded differently See your application guide After this message is displayed the terminal shuts itself off You may not be able to power it on again until the battery pack is
77. le in 0 1 second increments from 0 5 to 9 9 seconds Aim time When a scanner with an aim mode is triggered this parameter sets the duration the aiming pattern is seen before a scan attempt begins 1 200 ms 2 400 ms Scan mode Set the rastering mode of the scan engine The fol lowing are the valid raster mode values Smart Raster 0x01 Always Raster 0x02 Slab Only Raster 0x04 Programmable raster is not supported Enable Disable aiming 2D Scanner Drivers and Applications Get Macro PDF Auxiliary Data MacroPDF Auxiliary Data contains control block information which can be used to recombine the data from the individual MarcoPDF symbols in the proper order to fully recreate the original file content Uses ConsloctlGetMacroPDFAuxData to retrieve the control block information Note The structure will contain the last scanned and decoded MacroP DF control block information if MacroPDF has never been scanned the fields will contain 0 or NULL Field Size Value Description Subcommand Number BYTE 30 Get Error Code BYTE Not Used SegmentIndex WORD 0 65535 SegmentCount WORD 0 65535 FileId 256 BYTES Byte 6 to Byte 261 File IDs Time_stamp LONG Time Stamp is time_t format FileSize WORD 0 65535 CheckSum WORD CRC checksum FileName 256 BYTES Byte 269 to Byte Null terminated text string con 525 taining the original source file name Sender 256 BYTES
78. mbol keeping the beam horizontal to the rows then slowly back up toward the top A A Figure 5 5 ScanningTall PDF Bar Code The scan beam does not have to be perfectly parallel with the top and bottom of the symbol Scanning Considerations Usually scanning is a simple matter of aim scan and decode and a few quick trial efforts master it simply and intuitively However two important considerations can optimize any scanning technique angle and range Aiming Hold at an Angle Do not hold the terminals scan window directly over the bar code Laser light reflecting directly back into the scan window from the bar code is known as specular reflection This strong light can blind the scanner and make decoding difficult The area where specular reflection occurs is known as a dead zone 5 14 Operating the PDT 6800 Series You can tilt the terminal up to 55 forward or back and achieve a successful decode Practice quickly shows what tolerances to work within 1 Successful 2 Possible Specular 3 Successful Scanning Reflection Scanning Shaded area represents es dead zone 2 Figure 5 6 Scanning Angle and Specular Reflection Range Any scanning device decodes well over a particular working range minimum and maximum distances from the bar code This range varies according to bar code density and scanning device optics Sca
79. nclude the same on any authorized copies it makes in whole or in part The user agrees not to decompile disassemble decode or reverse engineer any licensed program delivered to the user or any portion thereof Symbol reserves the right to make changes to any software or product to improve reliability function or design Symbol does not assume any product liability arising out of or in connection with the application or use of any product circuit or application described herein No license is granted either expressly or by implication estoppel or otherwise under any Symbol Technologies Inc intellectual property rights An implied license only exists for equipment circuits and subsystems contained in Symbol products Symbol Spectrum One and Spectrum24 are registered trademarks of Symbol Technologies Inc Other product names mentioned in this manual may be trademarks or registered trademarks of their respective companies and are hereby acknowledged Symbol Technologies Inc One Symbol Plaza Holtsville New York 11742 1300 http www symbol com 22 Contents About This Guide Chapter Descriptions lu da esso ke ceed eek RO dos d C uisi eed pa me oe Related A EN QUUM ENS d AA S RUE KR Sevice SEO adu he Ree Syuibul Support CEEE 3 p patena e daa d o oe Eb ege t bons cr
80. ng power the terminal off 6 7 an PDT 6800 Series Product Reference Guide To clean a terminal use a clean soft cloth dampened with a mild cleaner such as soap and water Do not use abrasive paper cloth or abrasive corrosive cleaners Wipe the entire terminal except for the scanner window with the damp cloth Clean the charging contacts keypad and scanner trigger Wipe the scanner window periodically with a lens tissue or other material suitable for cleaning optical material such as eyeglasses Do not pour spray or spill any liquid on any part of the terminal particularly the scanner or scan element components Storage If the terminal will not be used for a while store it in a cool dry place away from dust For the best protection repack the terminal in the original shipping container for storage Caution If you remove the primary battery the terminal maintains memory contents for atleast 15 minutes To prevent loss of programs and data transmit them to a host computer before removing the primary batteries for longer than 15 minutes When you remove the terminal from storage without the battery pack reset the real time clock Refer to the Series 3000 Application Programmer s Reference Manual or Series 3000 Application Programmer s Guide for specific instructions 6 8 Chapter 7 Error Recovery and Troubleshooting Introduction This chapter provides information to assist in basic troubleshooting analys
81. ng the CRD 38 6865 The CRD 38 6865 can be wall mounted on a wall bracket for convenience To wall mount the 38 6865 1 Mark where you want the cradle positioned on the wall 2 Using a fastener appropriate to the wall construction insert and secure the fastener Figure 2 3 Let the head protrude slightly Figure 2 3 Wall Mounting the 38 6865 3 Slide the bracket down over the head of the fastener 4 Remove the black tape covers from the cradle screw holes Figure 2 4 Figure 2 4 Removing theTape Covers 2 4 Accessories Setup 5 Position the cradle on the bracket Figure 2 5 Secure Cradle to Bracket 6 Secure the cradle to the bracket using two 10 metal screws Figure 2 5 Wall Mounting the CRD 38 6866 The CRD 38 6866 can be wall mounted on two mounting brackets Follow the directions for Wall Mounting the CRD 38 6865 on page 2 4 using two brackets Table Mounting the CRD 38 6866 Note Installing the suction cup feet is not mandatory but helps keep the cradle in place 1 On the bottom of the cradle thread each of the four suction cup feet into the screw holes 2 5 6800 Series Product Reference Guide 7 2 Wet the base of each suction cup and secure cradle to a smooth tabletop by pushing firmly down on the cradle Figure 2 6 Figure 2 6 Installing Suction Cups on the CRD 38 6866 Connecting Power
82. nning within range brings quick and constant decodes scanning too close or too far away prevents decodes You need to find the right working range for the bar codes you are scanning The best general advice is Hold the scanner farther away for larger symbols Move the scanner closer for symbols with bars that are close together Start scanning at a distance from the bar code not from direct contact If the bar code does not readily decode move the scanner in closer Practice quickly shows what distances to work within 5 15 ne PDT 6800 Series Product Reference Guide Running Communications Communicating With a Host To communicate with a host 1 Set up the CCM 38 6860 CRD 38 6865 cradle CRD 38 6866 cradle or the PC adapter as described in Chapter 2 Accessories Setup 2 If using a cradle place the terminal in the CCM or cradle 3 Start the communications program on the host and terminal Communicating With a Printer To communicate with a printer attach the terminal to the Printer Interface Module PIM 1 Attach the PIM s optical connector to the terminal s optical port by inserting the clips on the connector in the slots on either side of the port 2 Plug the PIM s DB 9 connector in the printer s port 3 Power the printer and terminal on PIM Clips Optical Connector Optical Port Figure 5 7 Connecting the PIM to the PDT 6800 Series Radio Communica
83. not be enabled simultaneously Composite AB When enabled the following barcode types are automatically enabled regardless of their status EAN 128 EAN 13 EAN 8 RSS Expanded RSS Limited RSS 14 UPC A and UPCE If driver enabled barcode type is scanned the driver will not send the data to application Composite C When enabled EAN 128 will be automatically enabled If driver enabled barcode type is scanned the driver will not send the data to application Code128 Emulation is not supported in current release It will be supported in future release Get Set Extended Decoder Parameters Uses ConsloctlGetExtDecoderParms or ConsloctlSetExtDecoderParms to get or set the extended parameters Table F 4 Get Set Extended Decoder Parameters Field Size Value Desciption Subcommand Number BYTE 28 Get 26 Set Error Code BYTE Not Used F 7 6800 Series Product Reference Guide F 8 Table F 4 Get Set Extended Decoder Parameters Continued Field Size Value Desciption linear_security_level BYTE 1 Level 1 2 Level 2 3 Level 3 4 Level 4 linear_supp_enabled BYTE 0 Disable 1 Enable code39 xmit chkdgt BYTE 0 Disable 1 Enable xmit i25 chkdgt BYTE 0 Disable 1 Enable msi chkdgt scheme BYTE 0 Mod11 Mod10 1 Mod10 Mod10 check 125 chkdgt BYTE 0 Disable 1 USS check digit 2 OPCC check digit random_we
84. ns with AIM ID e2 if ECI interpreta tion is enabled e3 if ECI interpretation is not enabled 3 RS is character 30 10 and EOT is character 04 The transmitted format 05 or 06 is data depen dent F 21 PDT 6800 Series Product Reference Guide SCN2DSSI Scanner Driver Default Parameters The out of box SCN2DSSI EXE has the following default values Table F 9 Decoder Enable Disable Default Table Code Type Length 0 fixed length Default Value UPC A 0 Enable UPC EO 0 Enable EAN 13 0 Enable EAN 8 0 Enable UPC E1 0 Disable SUPP 2 0 Enable SUPP 5 0 Enable SUPP_AUTO_D 0 Auto Discriminate supps D2 OF 5 0 to 14 Disable 2 5 14 10 Enable CODE 39 0 to 55 Enable CODABAR 4 to 55 Enable CODE 128 1 to 55 Enable CODE 93 4 to 55 Disable CODE 11 4 to 55 Disable MSI 4 to 55 Disable PDF 417 0 Enable UCC EAN 128 1 55 BOOKLAND 0 Disable ISBT 128 1 to 55 Enable COUPON CODE 0 Disable TRIOPTIC 39 0 Disable TLC 39 0 Disable RSS 14 0 Disable RSS LIMITED 0 Disable RSS EXPANDED 0 Disable COMPOSITE AB 0 Disable COMPOSITE C 0 Disable CODE 128 EMULATION 0 Disable always MICRO PDF 0 Enable F 22 2D Scanner Drivers and Applications Table F 10 Decode Options Default Table Parameter Default Value Check Digits Parameters Code 39 Check Digit Disabl
85. ntre d Affaire d Antony 3 Rue de la Renaissance 92184 Antony Cedex France 01 40 96 52 21 Inside France 33 1 40 96 52 50 Outside France Italy Symbol Technologies Italia S R L Via Cristoforo Columbo 49 20090 Trezzano S N Navigilo Milano Italy 2 484441 Inside Italy 39 02 484441 Outside Italy Mexico Symbol Technologies Mexico Ltd Torre Picasso Boulevard Manuel Avila Camacho No 88 Lomas de Chapultepec CP 11000 Mexico City DE Mexico 5 520 1835 Inside Mexico 52 5 520 1835 Outside Mexico Norway Symbol Technologies Trollasveien 36 Postboks 72 1414 Trollasen Norway 66810600 Inside Norway 47 66810600 Outside Norway xiii 6800 Series Product Reference Guide South Africa Spain Symbol Technologies Africa Inc Symbol Technologies S A Block B2 Edificioi la Piovera Azul Rutherford Estate C Peonias No 2 Sexta Planta 1 Scott Street 28042 Madrid Spain Waverly 2090 Johannesburg 913244000 Inside Spain Republic of South Africa 34 9 1 320 39 09 Outside Spain 11 4405668 Inside South Africa 27 11 4405668 Outside South Africa Sweden Symbol Technologies AB Albygatan 109D Solna Sweden 84452900 Inside Sweden 46 84452900 Outside Sweden If you purchased your Symbol product from a Symbol Business Partner contact that Business Partner for service Warranty Symbol Technologies Inc Symbol manufactures its hardware products in accordance with industry standard practice
86. omposite Code Data Formats EAN 8 Table COMPOSITE A 0x54 T See Composite Code Data Formats RSS EXPANDED Table COMPOSITE A 0x55 T See Composite Code Data Formats RSS LIMITED Table COMPOSITE A 0x56 T See Composite Code Data Formats RSS 14 Table COMPOSITE A 0x57 T See Composite Code Data Formats UPCA Table COMPOSITE A 0x58 T See Composite Code Data Formats UPCE Table COMPOSITE C 0x59 T See Composite Code Data Formats EAN128 Table TLC 39 0 5 T See Composite Code Data Formats Table COMPOSITE B 0x61 T See Composite Code Data Formats EAN 128 Table COMPOSITE B 0x62 T See Composite Code Data Formats EAN 13 Table COMPOSITE B 0x63 T See Composite Code Data Formats EAN 8 Table COMPOSITE B 0x64 T See Composite Code Data Formats RSS EXPANDED Table COMPOSITE B 0x65 T See Composite Code Data Formats RSS LIMITED Table COMPOSITE B 0x66 T See Composite Code Data Formats RSS 14 Table COMPOSITE B 0x67 I See Composite Code Data Formats UPCA Table COMPOSITE B 0x68 T See Composite Code Data Formats UPCE Table MACRO MICRO 0x9A X Same rules as for Micro PDF417 PDF F 17 PDT 6800 Series Product Reference Guide 2 Table F 5 Symbology table with LabelType Symbol ID and AIM ID Continued For CodeID begin with P actually it should contain three letters such as 01 but forbackward compatible only one letter will be returned CouponCode AIM ID E C denotes 2 AIM Ids are transmitted
87. onnector in the slots on either side of the port Figure 2 18 PIM Optical Connector Optical Port PIM Cable Figure 2 18 Attaching the PIM s Optical Connector Connect the RS 232 cable s DB 25 connector in the PC Adapter s RS 232 port Plug the other end of the RS 232 cable in the RS 232 device e g host PC Plug the jack end of the 16 Volt power supply into the power supply port oe Plug the 15 Volt power supply s cube into an electrical outlet The Battery Charge Indicator LED flashes when the terminal is powered on Za Chapter 3 Batch and Spectrum One Terminal Setup Introduction Before using the PDT 6800 Series terminal perform the following Install the battery refer to Chapter 6 Maintaining the Terminal Charge the battery refer to Chapter 6 Maintaining the Terminal Load the system files and application s refer to Series 3000 Application Programmer s Guide p n 70 16308 XX Hardware Requirements Following is the equipment required to initialize a batch or Spectrum One radio terminal PDT 6800 batch or PDT 6810 Spectrum One terminal One or more CCM 38 6860 or CRD 38 6866 or a CRD 38 6865 OR PC adapter with Printer Interface Module PIM RS 232 null modem cable Power Supply Host Computer Refer to Chapter 2 Accessories Setup for setting up the cradles or PC Adapter for communications 3 1 PDT 68
88. ontinued CODE39 0 7 B A 0 check digit 1 3 check digit included exclude 020 5 0 8 G 5 0 I20F5 0x9 F I Same rule as for Code39 CODE11 OxA H H 0 1 2 1 2 0 check digits included CODE93 OxB E G 0 CODE128 0 also see UCC EAN 128 PDF417 OxD X L 0 Conforms with 1994 PDF 417 spec 1 Backslash characters doubled 2 Backslash characters not dou bled IATA2OF5 OxE G 5 0 EAN128 OxF K C 1 2 character 1 2 is Function 1 F1 BOOKLAND 11 L X 0 TRIOPTIC39 0x12 M X 0 COUPON 0x13 N E C 1 POSTNET US Ox15 pt X 0 PLANET US 0x16 pt X 0 ISBT128 0x19 D C 0 MICROPDF Ox1A X L 0 1 or 2 same definition as PDF417 3 Code128 emul implied F1 in 1st position 4 Code 128 emul F1 after 1st letter digits 5 Code 128 emul no implied F1 CODE32 0x20 B A Same rules as for Code 39 POSTBAR CA 0x26 pt X 0 POSTAL UK 0x27 pt X 0 MACROPDF 0x28 X L Same rules as for PDF 417 RSS 14 0x30 R e 0 RSS LIMITED 0x31 R e 0 RSS EXPANDED 0x32 R e 0 COMPOSITE A 0x51 T See Composite Code Data Formats EAN 128 Table F 16 2D Scanner Drivers and Applications Table F 5 Symbology table with LabelType Symbol ID and AIM ID Continued COMPOSITE A 0x52 T See Composite Code Data Formats EAN 13 Table COMPOSITE A 0x53 T See C
89. pendix E Boot Up Quick Reference roduc cas E 1 vi Contents Appendix F 2D Scanner Drivers and Applications ds baba F 1 Lang bep E E Ee A wed ae A R F 1 GHEE A TL Routt d dba que 2 Application Development scsi 405 ERR dee eo ows F 2 Jj chia TE CPP F 3 Wee exes oe cot kee ete ee EE Reed endear PR pP epa ee oper F 5 MEDE RAL RR RR dE CORR E qd Keg F 6 Index Feedback vii 6800 Series Product Reference Guide viii 22 About This Guide The PDT 6800 Series Product Reference Guide provides general instructions for setup initializing operating troubleshooting and maintaining the PDT 6800 Series terminal Chapter Descriptions Following are brief descriptions of each chapter in this guide Chapter 1 Getting Started provides a product overview and information on terminal parts operation accessories batteries and loading software Chapter 2 Accessories Setup general information on the CCM 38 6860 CRD 38 6865 CRD 38 6866 and PC adapter Chapter 3 Batch and Spectrum One Terminal Setup provides information on batch and
90. re is described in Chapter 3 Batch and Spectrum One Terminal Setup or Chapter 4 Spectrum24 RF Terminal Setup After downloading new software warm boot the terminal as described in Chapter 5 Operating the PDT 6800 Series Use Self Test to check whether system hardware is operational The SelfTest procedure is described later in this chapter After downloading new software warm boot the terminal as described in Chapter 5 Operating the PDT 6800 Series Boot Failure Messages During a cold boot the system briefly displays a status line for each driver as it loads in the format 0 Driver The line shows a status value usually 0 followed by the name version number of the driver If the system halts at one of these lines and displays a status value other than 0 the displayed driver did not load properly 7 3 PDT 6800 Series Product Reference Guide If such a failure occurs cold boot the terminal again If this does not solve the problem call Symbol Customer Support More troubleshooting information is found in the documentation listed in Related Publications Spectrum24 Terminal Typical initialization and operating problems and solutions for Spectrum24 terminals are listed in Table 7 3 Table 7 3 Troubleshooting Spectrum24 Terminal s Problem Explanation Action Out of range Terminal is out of the Access Point s range If you move the terminal during initialization the terminal may
91. rews provided Figure 2 12 Step 2 Figure 2 12 Wall Mounting the CCM 2 Position the CCM with attached brackets on the wall Insert the appropriate wall mounting hardware into the bracket holes as shown in Figure 2 12 and secure Note Appropriate wall mounting hardware is provided by customer Coupling CCMs Up to four CCM 38 6860s can be coupled together for table or wall mounting with power provided by a single power supply attached to the left most CCM To couple two or more CCMs for table or wall mounting 1 Verify that add on kit p n 3861 101 contains the following parts 1CCM 1 coupling bracket cross head screws 2 flat head screws Accessories Setup On the add on or right hand CCM use a 3 16 inch driver and remove the jack screws securing the communications port and replace them with the flat head screws ONE AT A TIME Note Be sure to remove the jack screws one at a time otherwise the connector will fall into the housing Mate the power port on the right side of the first cradle with the power port on the left hand side of the second cradle Place the coupling bracket between the CCMs aligning the holes in the coupling bracket with the holes in the CCM s base Figure 2 13 Install 6 cross head screws through the coupling bracket into the CCMs and tighten To wall mount the coupled CCMs refer to Wall Mounting above S
92. s 38 6866 cradle 2l 2ll zessktieres 2 10 connecting to power 38 6865 xs 2 6 38 6866 cradle 2 6 coupling 2 or more CCMs 2 12 cradles doe EA ERR 2 1 2 2 2 1 2 2 connecting for communications 2 7 connecting POWED 42 224 2 6 coupling 2 or more CCMs 2 12 mounting the 38 6865 2 4 mounting the 38 6866 2 5 parts required for setting up 38 6865 2 2 parts required for setting up 38 6866 2 2 parts required for setting up 38 6860 2 2 CRD 38 6865 connecting for communications 2 7 connecting tO pOWEI 2 2226 99 Res 2 6 ptis Ul qe Pa qu 2 3 wall mounting 22 esr 2 4 Index 2 CRD 38 6866 connecting for communications 2 7 connecting to other cradles 2 10 connecting to power 2 6 OT E eR pEedpb ede d ud 2 3 table mounting sisi ea 2 5 wall mounting 221 22 2 5 D display key scan test s iii A REUS 7 8 documents available from Symbol Technologies x downloading program Iaader 3 2 using SENDHEX command 3 2 downloading a program CONUS Loa caua dao 3 4 ending communications 3 6 selecting communications parameters 3 4 starting communications 3 6 driver 2D stall doa 1
93. s Saue Settings Restore Settings Restart BLDSCAN Ext Decoders Build Driver PgUp PgDn Parameter Menu ESC Quit right c 1990 2001 Symbol Technologies Inc F 25 PDT 6800 Series Product Reference Guide Code Type Menu 2 Series 3000 Scanner Driver BAR CODE MENUS OOKLAND ISBT 128 Coupon Code Trioptic 39 TLE 39 RSS_14 RSS_Limited RSS_Expanded CompositeAB SPECIAL OPTIONS LIST Select Decoder Help Set Defaults Save Settings Restore Settings Restart BLDSCAN Standard Options CompositeC Build Driver C128 Emulation Variable PgUp PgDn Parameter Menu MicroPDF 5 Quit A B D H E J K Driver scn2dssi right c 1990 2001 Symbol Technologies Inc F 26 2D Scanner Drivers and Applications Parameter Menu This menu contains information for programming decoder parameters eries 3000 Scanner Driver Build bldscn2d EXPANSION CONVERSION 9 I 2 of 5 Check Digit Page 1 Transmit I 2 of 5 Check Digit EAN8 Zero Extend Expanded to UPC A UPC EAN DECODE OPTIONS UPC E1 Expanded to UPC A Code 39 Full ASCII Conversion 8 to EAN13 I 2 of 5 to EANI3 Code39 to 2 UPC EAN Security 0 3 Linear UPC Enable Linear Supplemental Enable Random Weight Check Digit 0 2 Decode Supp_2 Decode 5 Suppl Auto Discriminate 0 2 Report UPC EO Check Digit Supplemental Retry Count 2 30 Report UP
94. s Symbol warrants that for a period of twelve 12 months from date of shipment products will be free from defects in materials and workmanship This warranty is provided to the original owner only and is not transferable to any third party It shall not apply to any product i which has been repaired or altered unless done or approved by Symbol ii which has not been maintained in accordance with any operating or handling instructions supplied by Symbol iii which has been subjected to unusual physical or electrical stress misuse abuse power shortage negligence or accident or iv which has been used other than in accordance with the product operating and handling instructions Preventive maintenance is the responsibility of customer and is not covered under this warranty Wear items and accessories having a Symbol serial number will carry a 90 day limited warranty Non serialized items will carry a 30 day limited warranty xiv About This Guide Warranty Coverage and Procedure During the warranty period Symbol will repair or replace defective products returned to Symbol s manufacturing plant in the US For warranty service in North America call the Symbol Support Center at 1 800 653 5350 International customers should contact the local Symbol office or support center If warranty service is required Symbol will issue a Return Material Authorization Number Products must be shipped in the original or comparable packaging shipping
95. sed 7 8 Error Recovery and Troubleshooting Caution Always power off the terminal before attaching or removing cables and adapters 2 Connect an RS 232 null modem cable to the PC s serial port Figure 7 1 MemoryTransfer Connections Connect the other end of the cable to the cradle s communication port Connect the cradle to a power source Place the terminal in the cradle 22 Power the host Set Communications Parameters Host 1 Start the communications program on the host PC 2 Setup the host communication parameters these parameters must match the terminal s parameters At the DOS prompt on the host enter RCVHEX filename hex baud rate lt comport gt Typical parameters are 38400 bps Odd parity 7 bit data Xon Xoff flow control 7 9 6800 Series Product Reference Guide 7 Terminal 1 Boot the terminal to Command Mode refer to Chapter 5 Operating the PDT 6800 Series for the appropriate key sequence Select the Memory Transfer function from the Command Mode menu Use UpArrow or DownArrow to scroll through the Command Mode options until Memory Transfer is displayed then press ENTER Select the range of memory to transfer by pressing the first letter of the desired range All Range or None or use the UpArrow or DownArrow and press ENTER If you select All the program skips to the range verification scr
96. shipping container for later storage or shipping Inspect all equipment for damage and make sure you have received everything listed on the packing slip If you find anything unsatisfactory or missing contact your authorized customer support representative immediately Before You Use the Terminal Install and Charge Battery Prior to using the PDT 6800 Series terminal for the first time install the battery pack Be sure to charge the battery pack before use Refer to Chapter 6 Maintaining the Terminal If you hear a repeated tone or see a message on the display recharge or replace the battery pack Refer to Chapter 6 Maintaining the Terminal Load the Appropriate Software What software you load and how you load it depends on the environment in which you use it Ifthe terminal is intended for use in batch applications PDT 6800 or in a Spectrum One network environment PDT 6810 refer to Chapter 3 Batch and Spectrum One Terminal Setup for information on loading the software Ifthe terminal is intended for use in a Spectrum24 network environment PDT 6842 PDT 6845 or PDT 6846 refer to Chapter 4 Spectrum24 RF Terminal Setup for information on loading the software Ifyou are using the 2D scan engine install the appropriate drivers and applications Refer to Appendix E 2D Scanner Drivers and Applications Za Chapter 2 Accessories Setup Introduction This chapter provides instructions for setting up the cr
97. sloctlGetMacroPDFAuxDa taLen struct MacroPDFAuxData_S WORD SegmentIndex WORD SegmentCount CHAR FileId 256 time t Time stamp WORD FileSize WORD CheckSum CHAR FileName 256 CHAR Sender 256 CHAR Addressee 256 h 5 ConsloctlGetVersion 0x1F ConsloctlGetVersionLen struct Version S BYTE Major BYTE Minor BYTE Scannerver 20 BYTE Decoderver 20 F 5 BR PDT 6800 Series Product Reference Guide Table F 2 APIs Continued Function Length Structure ConsloctlGetMultiPacketStatus 0x20 ConsloctlGetMultiPacketStatus struct MultiPacketStatus S Len BYTE NumPacketsLeft Code128 Emulation is not supported in current release but will be supported in future releases When Composite AB C is enabled the following barcode types are automatically enabled regardless of their status EAN 128 EAN 13 EAN 8 RSS Expanded RSS Limited RSS 14 UPC A and UPCE If driver enabled barcode type is scanned the driver WILL NOT send the data to application For the driver returns MacroPDF barcode type to the application along with the main block An application can then call ConsloctlGetMacroPDFAuxData to retrieve the control block information MacroPDFAuxData structure contains the last scanned and decoded MacroPDF control block If MacroPDF has never been scanned the field will contain 0 or NULL New API Definitions Get Set Ext
98. soft MS DOS Although the terminals are MS DOS feature compatible they are not one hundred percent MS DOS compatible DR DOS provides access to a number of commercially available programming tools Additional programming tools are available from Symbol for easier programming and access to special features PDT 6800 Series Product Reference Guide Power saving features of the PDT 6800 Series terminals include auto off and power save modes which reduce power consumption until an operator provides input These features conserve battery power lengthening the time between charges or replacement Parts of the PDT 6800 Series Terminal Battery Scan LED Recharge Contacts Display Optical Connectors Status LED Battery Compartment Keyboard Battery Release Button Batter Lock Scan Window Trigger Handle Battery Compartment Battery Pack Figure 1 1 Parts of the PDT 6800 SeriesTerminal 1 2 Getting Started Accessories The following accessories are available for the PDT 6800 Series terminal Battery Chargers The terminal uses a six cell 600 mAh intrinsically safe Nickel Cadmium NiCd battery or a Lithium Ion battery The NiCd battery is charged using one of the following charging accessories CCM 38 6860 Four slot Charging and Communications Module CCM for charging NiCd battery packs in the terminal and spare battery packs also
99. ssarily sequential Sequential lists e g those that describe step by step procedures appear as numbered lists Related Publications The following is a list of documents and publications that you may find useful if you want to know more about the PDT 6800 Series terminals or about the tools and utilities that are available for writing applications for the terminals PDT 6800 Series Quick Reference Guide p n 70 32644 XX CCM 38 6860 Quick Reference Guide p n 70 33400 XX CRD 38 6865 Quick Reference Guide p n 70 33401 XX CRD 38 6866 Quick Reference Guide p n 70 33402 XX Printer Interface Module Quick Reference Guide p n 59164 00 82 Series 3000 Application Programmer s Guide p n 70 16308 XX About This Guide Series 3000 Application Programmer s Reference Manual p n 70 16309 XX Series 3000 System Software Manual p n 70 16310 XX Series 3000 Application Developer s Library p n 70 16311 XX Spectrum24 Access Point User s Guide p n 70 12057 XX Spectrum24 Network Terminal Technical Reference Guide p n 70 20193 XX Novell LAN Workplace Reference Manual p n 70 20288 XX Spectrum24 TNClient System Administrator s Guide p n 70 20244 XX Spectrum24 STEP Installation and Configuration Guide for Series 3000 Flash Disk Terminals p n 70 20343 XX Spectrum24 NDK Series 3000 p n 70 20481 XX Service Information If you have a problem with your equipment contact the Symbol Support Center for your region
100. te 2 Make pre 802 11 3 Make 802 11 Select 1 2 3 4 Select 2 to boot up with the Spring RF protocol The next prompt displays Enter password 5 Enter the password RFPROT then press ENTER The terminal continues to boot The procedure to switch to the Spring RF protocol is complete If a compatibility problem exists the terminal pauses with an error message Contact your System Administrator 5 6 Operating the PDT 6800 Series Boot to Command Mode Command Mode provides functions for Running the Self Test program to verify that the hardware is operating properly refer to Chapter 7 Error Recovery and Troubleshooting Performing a Memory Transfer to upload data from a terminal to a host system refer to Chapter 7 Error Recovery and Troubleshooting Performing a Program Download to transfer an application from the host to a terminal refer to Chapter 3 Batch and Spectrum One Terminal Setup To boot to Command Mode For the 35 Key terminal Power the terminal off Press and hold lt BKSP gt and lt SHIFT gt Press and release lt PWR gt Release lt BKSP gt and lt SHIFT gt For the 46 Key terminal Power the terminal off Press and hold lt F gt and lt I gt Press and release lt PWR gt Release lt F gt and lt I gt Adjusting the Display Display Contrast The screen s contrast is adjustable to eight levels making the display more readable in different l
101. ted to the terminal Reboot the terminal using the appropriate cold boot sequence Refer to Booting the Terminal on page 5 4 Chapter 4 Spectrum24 RF Terminal Setup Spectrum24 Terminals In Spectrum24 terminals wireless connectivity is accomplished using standard communications protocols Because they are standard the protocols are generalized and take up considerably more space on the terminal s NVM than is required for Spectrum One 9 terminals Because there is less space available in NVM for application files the terminal operates with an additional megabyte of non volatile memory or flash disk This extra memory is used to reduce not only the boot times but also the time and resources required to load applications into the terminal The flash disk also offers the possibility of running multiple applications from the same terminal refer to the Spectrum24 Setup and Utilities Reference Guide pln 72 50795 01 for more information With version 3 03 or later of the system software LWP HEX the terminal can also run diagnostic tools Accessing the Flash Disk The flash disk is accessed through a driver FLASHDSK SYS which makes the flash disk appear to a program as another disk drive E The drive has characteristics of fast reading but slow writing for example even for the smallest files the write process takes 3 4 seconds These characteristics make it ideal for files that are written once accessed often and seldom updated
102. tions The PDT 6810 operates in a Symbol Spectrum One RF network the PDT 6840 Series operates in a Symbol Spectrum24 RF network Operating the PDT 6800 Series The terminal s Status LED indicates the state of the 6800 s connection to either of the RF networks Off indicates that the radio is working and associated with an access point Spectrum24 or base station Spectrum One Flashes red once per indicates that the radio is out of range or not associated with an second access point or base station Refer to the network documentation for more information on operating the terminal in the specific RF environment 6800 Series Product Reference Guide 5 18 Chapter 6 Maintaining the Terminal Batteries The PDT 6800 Series terminal is powered by a rechargeable Nickel Cadmium NiCd or Lithium Ion battery pack Fully charged the battery pack provides up to 8 hours of continuous operation The NiCd battery pack is charged by placing a terminal with the battery installed in CCM 38 6860 CRD 38 6865 or CRD 38 6866 cradle for 7 hours or connecting the terminal to a PC Adapter or placing the battery pack in a spare battery charging slot on the CCM 38 6860 or CRD 38 6865 for up to 7 hours Note The terminal can be used while the battery is being charged in the CCM 38 6860 or connected to the PC Adapter The Lithium Ion battery pack p n 21 40340 01 is charged by removing the battery from th
103. y Pressing the PWR key only Pressing any key If you press the PWR key while the terminal is in the cradle the terminal powers on If you leave the terminal in the cradle and press PWR to turn the terminal off it appears to turn off but is on very low power See the Series 3000 Application Programmer s Guide for more information on programming your keyboard Real Time Clock If the application program allows it the terminal can be powered on by the real time clock This lets the terminal perform unattended operations such as an overnight communication session 5 2 Operating the PDT 6800 Series Laser Trigger If the application program allows you can power on the terminal by pulling the trigger Restoring Power After Automatic Shutdown The terminal shuts off if you do not use it for an amount of time set by your application Press the PWR key or press the trigger to restore power and return to your application Powering the Terminal Off To perform a normal power off press the PWR key or let the terminal shut down automatically as programmed See your application guide or the section Restoring Power After Automatic Shutdown for more information Consult your system administrator if you are unable to power off the terminal Forcing Power Off If pressing the PWR key does not turn off the terminal force the power off to reduce battery drain and preserve your data To force power off press and hold the PWR key for
104. y 902 928 MHz Country dependent Country dependent Range Typically 2 4 to 2 5 GHz Typically 2 4 to 2 5 GHz Output Power 250 mW 500 mW US 500 mW US 100 mW International 100 mW International Ethernet Through NCU Dix Ethernet Dix Ethernet Compatibility Radio Channel CSMA CA CSMA CA CSMA CA Access Method D 2 Specifications Scanning Decode Zones 15 Note Typical performance at 68 F 20 C L on high quality symbols 10 SE 1200 5 STANDARD 5 mil 5 4 0 k 6 0 a5 59 9 on 15 mil L 15 25 ami 25 0 20 mil ov vis 40 mil ang 55 mil 41 0 TTT TTTT TTT TT TT TTT TT TT In 0 5 10 15 20 25 30 35 40 45 cm 0 127 254 38 1 508 635 762 889 1016 1143 Depth of Field Minimum distance determined by symbol length and scan angle Figure 1 ID Scanning Decode Zones cm 38 1 12 7 25 4 38 1 6800 Series Product Reference Guide D 4 Za Appendix E Boot Up Quick Reference Introduction Table E 1 and Table E 2 list the boot procedures for the 35 and 46 key keyboards Table 1 35 Key Boot Procedures Boot Type Key Sequence Used For Results Power On PWR or Trigger or Applying power Returns terminal to where it was when remove terminal it was turned o
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