MS xx07
Contents
1. Send F2 Key Send F4 Key Send F6 Key Send F8 Key Send F10 Key 13 67 A LZ MS XX07 Series Integration Guide Send Function Key continued Send F11 Key Send F13 Key Send F15 Key Send F17 Key Send F19 Key 13 68 Send F12 Key Send F14 Key Send F16 Key Send F18 Key Send F20 Key Send Function Key continued Send F21 Key Send F23 Key Advanced Data Formatting Send F22 Key Send F24 Key 13 69 A LZ MS XX07 Series Integration Guide Send Function Key continued Send PF1 Key Send PF3 Key Send PF5 Key Send PF7 Key Send PF9 Key 13 70 Send PF2 Key Send PF4 Key Send PF6 Key Send PF8 Key Send PF10 Key2. Send Function Key continued Send PF11 Key Send PF13 Key Send PF15 Key Send PF17 Key Send PF19 Key Advanced Data Formatting Send PF12 Key Send PF14 Key Send PF16 Key Send PF18 Key Send PF20 Key 13 71 A LZ MS XX07 Series Integration Guide Send Function Key continued Send PF21 Key Send PF23 Key Send PF25 Key Send PF27 Key Send PF29 Key 13 72 Send PF22 Key Send PF24 Key Send PF26 Key Send PF28 Key Send PF30 Key Advanced Data Formatting Send Right Control Key The Send Right Control Key action sends a tap press and release of the Right Control Key Send Right Control Key Send Graphic User Interface GUI Characters The Send Graphic User Interface Ch
3. High Volume 10 11 LZ MS XX07 Series Integration Guide Beeper Tone Parameter 91h To select a decode beep frequency tone scan the appropriate bar code Low Frequency 02h Medium Frequency 01h High Frequency 00h 10 12 Parameter Menus Beeper Frequency Adjustment Parameter FOh 91H This parameter adjusts the frequency of the high beeper tone from the nominal 2500 Hz to another frequency matching the resonances of the installation It is programmable in 10 Hz increments from 1220 Hz to 3770 Hz To increase the frequency scan the bar code below then scan three numeric bar codes beginning on page 10 132 that correspond to the desired frequency adjustment divided by 10 For example to set the frequency to 3000 Hz an increase of 500 Hz scan numeric bar codes 0 5 0 corresponding to 50 or 500 10 To decrease the frequency scan the bar code below then scan three numeric bar codes beginning on page 10 132 that correspond to the value 256 desired adjustment 10 For example to set the frequency to 2000 Hz a decrease of 500 Hz scan numeric bar codes 2 0 6 corresponding to 206 or 256 500 10 Beeper Frequency Adjustment Default 2500 Hz 10 13 A LZ MS XX07 Series Integration Guide Laser On Time Parameter 88h This pa
4. Parameter peca Default LE Set Default Parameter All Defaults 10 10 Scanning Options Beeper Volume 8Ch High Volume 10 11 Beeper Tone 91h High Frequency 10 12 Beeper Frequency Adjustment FOh 91h 2500 Hz 10 13 Laser On Time 88h MS 120X 3 0 sec 10 14 MS 220X 3207 5 0 sec Scan Angle MS 1207FZY only BFh Wide 10 15 Power Mode 80h Low Power 10 16 Trigger Mode 8Ah Continuous 10 17 Scanning Mode MS 2207 8Dh Smart Raster 10 18 MS 2207VHD and MS 3207 only Aiming Mode FOh 7Eh Disabled 10 18 Raster Height MS 2207 E4h 15 10 20 MS 2207VHD and MS 3207 only Raster Expansion Rate MS 2207 E5h 11 10 20 MS 2207VHD and MS 3207 only Time out Between Same Symbol 89h 0 6 sec 10 21 Time out Between Different Symbols 90h 0 0 sec 10 21 Beep After Good Decode 38h Enable 10 22 Transmit No Read Message 5Eh Disable 10 23 Parameter Scanning ECh Enable 10 24 10 2 Parameter Menus Table 10 1 Default Table Continued Parameter fuod Default ieu Linear Code Type Security Levels 4Eh MS 120X 1 10 25 MS 220X MS 3207 2 Bi directional Redundancy 43h Disable 10 27 UPC EAN UPC A 01h Enable 10 28 UPC E 02h Enable 10 28 UPC E1 OCh Disable 10 30 EAN 8 04h Enable 10 31 EAN 13 03h Enable 10 32 Bookland EAN 53h Disable 10 33 UPC EAN Coupon Code 55h Disable 10 34 Decode UPC EAN Supplementals 10h Ignore 10 3
5. 00h 10 123 LZ MS XX07 Series Integration Guide Transmit Block Count Parameter B1h Transmit Block Count activates transmission of the block count field The field character tag is 9231001 For example the field may be 192310011856 Enable Transmit Block Count 01h Disable Transmit Block Count 00h 10 124 Parameter Menus Transmit Time Stamp Parameter B2h Transmit Time Stamp activates transmission of the time stamp field The field character tag is 9231002 For example the field may be 923 0022123443243234 Enable Transmit Time Stamp 01h Disable Transmit Time Stamp 00h 10 125 LZ MS XX07 Series Integration Guide Transmit Sender Parameter B3h Transmit Sender activates transmission of the sender field The field character tag is 19231003 For example the field may be 923 003Symbol Technologies Holtsville NY Enable Sender Transmit 01h Disable Sender Transmit 00h 10 126 Parameter Menus Transmit Addressee Parameter B4h Transmit Addressee activates t
6. 13 43 A LZ MS XX07 Series Integration Guide Control Characters continued Send Control H Send Control J Send Control L Send Control N 13 44 Send Control Send Control K Send Control M Send Control O Control Characters continued Send Control P Send Control R Send Control T Send Control V Advanced Data Formatting Send Control Q Send Control S Send Control U Send Control W 13 45 A LZ MS XX07 Series Integration Guide Control Characters continued Send Control X Send Control Z Send Control Send Control 6 13 46 Send Control Y Send Control Send Control Send Control
7. Timeout Between Decodes Different Symbols 10 21 LZ MS XX07 Series Integration Guide Beep After Good Decode Parameter 38h Scan this symbol to set the scanner to beep after a good decode Beep After Good Decode 01h Scan this symbol to set the scanner not to beep after a good decode The beeper still operates during parameter menu scanning and indicates error conditions Do Not Beep After Good Decode 00h 10 22 Parameter Menus Transmit No Read Message Parameter 5Eh Enable this option to transmit NR if a 1 D symbol does not decode and FR if a 2 D symbol does not decode Any enabled prefix or suffixes are appended around this message Enable No Read 01h When the parameter is disabled and a symbol can not be decoded no message is sent to the host Disable No Read 00h 10 23 A LZ MS XX07 Series Integration Guide Parameter Scanning Parameter ECh To disable the decoding of parameter bar codes scan the bar code below The Set Defaults parameter bar code can still be decoded To enable decoding of parameter bar codes either scan Enable Parameter Scanning Set All Defaults or set this parameter to 01h via a serial command Enable Parameter Scanning
8. Portuguese Brazilian Windows 12 7 LZ MS XX07 Series Integration Guide USB Keystroke Delay This parameter sets the delay in milliseconds between emulated keystrokes Scan a bar code below to increase the delay when hosts require a slower transmission of data No Delay Medium Delay 20 msec Long Delay 40 msec 12 8 USB Interface 7 USB CAPS Lock Override This option applies only to the HID Keyboard Emulation device When enabled the case of the data is preserved regardless of the state of the caps lock key This setting is always enabled for the Japanese Windows ASCII keyboard type Override Caps Lock Key Enable Do Not Override Caps Lock Key Disable 12 9 LZ MS XX07 Series Integration Guide USB Ignore Unknown Characters This option applies only to the HID Keyboard Emulation device and IBM device Unknown characters are characters the host does not recognize Select Send Bar Codes With Unknown Characters to send all bar code data except for unknown characters No error beeps sound When Do Not Send Bar Codes With Unknown Characters is selected bar codes containing at least one unknown character are not sent to the host and an error beep sounds
9. 01h Disable Parameter Scanning 00h 10 24 Parameter Menus Linear Code Type Security Level Parameter 4Eh Note Does not apply to Code 128 MiniScan scanners offer four levels of decode security for linear code types e g Code 39 Interleaved 2 of 5 Select higher security levels for decreasing levels of bar code quality As security levels increase the scanner s aggressiveness decreases Select the security level appropriate for bar code quality Linear Security Level 1 The following code types must be successfully read twice before being decoded Code Type Length Codabar All MSI Plessey 4 or less D2of5 8 or less 120f5 8 or less Linear Security Level 1 01h Linear Security Level 2 All code types must be successfully read twice before being decoded Linear Security Level 2 02h 10 25 LA MS XX07 Series Integration Guide Linear Security Level 3 Code types other than the following must be successfully read twice before being decoded The following codes must be read three times Code Type Length MSI Plessey 4 or less D2of5 8 or less 120f5 8 or less Linear Security Level 3 03h Linear Security Level 4 All code types must be successfully read three times before being
10. Raster Expansion Speed Default 11 10 20 Parameter Menus Timeout Between Decodes Timeout Between Decodes Same Symbol Parameter 89h When in Continuous triggering mode this parameter sets the minimum duration of not decoding data before the scanner decodes a second bar code identical to one just decoded This reduces the risk of accidentally scanning the same symbol twice It is programmable in 0 1 second increments from 0 0 to 9 9 seconds The recommended interval is 0 6 seconds Timeout Between Decodes Different Symbol Parameter 90h This option sets the minimum duration of not decoding data before the scanner decodes a second different bar code This is used in Continuous mode to prevent the scanner from decoding when a different symbol appears in the scanner s field of view before the timeout period between decodes expires This is programmable in 0 1 second increments from 0 0 to 9 9 seconds The recommended value is 0 0 seconds Select the timeout between decodes for the same or different symbols 1 Scan the option bar code you wish to set 2 Scan two numeric bar codes beginning on page 10 132 which correspond to the desired interval in 0 1 second increments To change the selection or to cancel an incorrect entry scan the Cancel bar code on page 10 134 Timeout Between Decodes Same Symbol
11. 00h 10 79 LZ MS XX07 Series Integration Guide Convert 2 of 5 to EAN 13 Parameter 52h This parameter converts a 14 character I 2 of 5 code into EAN 13 and transmits to the host as EAN 13 To accomplish this 2 of 5 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 2 of 5 to EAN 13 Enable 01h Do Not Convert I 2 of 5 to EAN 13 Disable 00h 10 80 Parameter Menus Discrete 2 of 5 Enable Disable Discrete 2 of 5 Parameter 05h To enable or disable Discrete 2 of 5 scan the appropriate bar code below Enable Discrete 2 of 5 01h Disable Discrete 2 of 5 00h 10 81 A LZ MS XX07 Series Integration Guide Set Lengths for Discrete 2 of 5 Parameter L1 14h L2 15h The length of a code refers to the number of characters i e human readable characters the code contains and includes check digits Lengths for D 2 of 5 can be set for any length one or two discrete lengths or lengths within a specific range One Discrete Length Select this option to decode only those codes containing a selected length For example select D 2 of 5 One Discrete Length then scan 1 4 to decode only D 2 of 5 symbols containing 14 characters Numeric bar codes begin on page 10 132 To change the selection or cancel an incorrect entry scan the Cancel
12. Bookland EAN PDF417 Advanced Data Formatting Code Lengths Scan these bar codes to define the number of characters the selected code type must contain f you don t select a code length selected code types of any length are affected 2 Characters Select one length per rule only 1 Character 4 Characters 3 Characters 6 Characters 5 Characters 13 15 A A MS XX07 Series Integration Guide Code Lengths continued 7 Characters 8 Characters 9 Characters 10 Characters 11 Characters 12 Characters 13 16 Code Lengths continued 13 Characters 15 Characters 17 Characters Advanced Data Formatting 14 Characters 16 Characters 18 Characters 13 17 A A MS XX07 Series Integration Guide Code Lengths continued 19 Characters 21 Characters
13. 23 Characters 13 18 20 Characters 22 Characters 24 Characters Code Lengths continued 25 Characters 27 Characters 29 Characters Advanced Data Formatting 26 Characters 28 Characters 30 Characters 13 19 A LA MS XX07 Series Integration Guide Message Containing A Specific Data String Use this feature to select whether the formatting affects data that begins with a specific character or data string or contains a specific character or data string There are 4 features Specific String at Start e Specific String Any Location Any Message OK Rule Belongs to Set Specific String at Start To enter the desired character or characters 1 Scan the following bar code 2 Enter a string of characters up to a total of 8 using the Alphanumeric Keyboard beginning on page 13 80 3 Scan End Of Message on page 13 86 Specific String At Start 13 20 Advanced Data Formatting Specific String Any Location To enter the position use a leading zero if necessary 1 Scan the following bar code 2 Enter a location using the Numeric Keypad on page 13 22 3 Enter a string of characters up to a tot
14. Item Description Power Requirements Input Voltage Scanning Current Standby Current Vec Noise Level 5 0 VDC 10 250 30 mA typical 45 5 mA typical 200 mV peak to peak max Laser Power 0 95 mW 0 1 mW 650 nm nominal Scan Rate 640 scans sec Scan Frequency Horizontal 320 Hz 5 Hz Scan Frequency Vertical 282 Hz 5 Hz Frame Rate 24 frames sec 12 Hz 1 Hz vertical Print Contrast Minimum 35 absolute dark light reflectance differential Scan Angle Horizontal 349 1 5 Vertical 349 1 5 Scan Pattern Smart raster high density single scan line Start Time 0 065 sec to 7596 of steady state horizontal amplitude Skew Tolerance 15 from plane parallel to symbol see Figure 6 4 on page 6 8 Pitch Angle 30 from normal see Figure 6 4 on page 6 8 Roll 4 from for scanning benchmark label assuming 3 1 codeword aspect ratio see Figure 6 4 on page 6 8 Decode Depth of Field See Figure 6 4 on page 6 8 Beam Deviation offset from the nominal Horizontal 3 0 Vertical 3 09 Horizontal tilt 29 6 6 MS 2207 Specifications Table 6 2 MS 2207 Technical Specifications 23 C Continued Item Description Ambient Light Immunity Sunlight Artificial Light 8 000 ft candles 86 112 lux 450 ft candles 4 844 lux Drop Multiple 30 drops Vibration Unpowered sc
15. A A MS XX07 Series Integration Guide MS 2207 VHD 2D Decode Zone Note Typical performance at 68 F 20 C on high quality symbols in normal room light Y module dimension 3X V 5V In cm dm 25 635 I 1 25 3 18 o eae at a m 0 0 1 25 3 18 4 0 mil 1 90 3 00 i 2 5 6 35 1 50 6 6 mil 14 75 10 mil 35 MRD 3 00 4 4 5 75 m 0 1 2 3 4 5 6 om 0 51 51 152 101 254 15 2 Depth of Field Figure 7 6 MS 2207VHD 2D Slab Raster Decode Distances Note Not optimized for omnidirectional mode O soa s 2 0 7 10 MS 2207 VHD 2D Decode Distances Table 7 4 MS 2207VHD 2D Slab Raster Decode Distances MS 2207VHD Specifications Symbol p n Content anges Bar Code Type Contrast Near Far Near Far 4 mil 123 1 90 in 3 00 in 2 20 in 2 70 in 64 17025 01 80 MRD 4 83 cm 7 62 cm 5 59 cm 6 89 cm PDF417 6 6 mil ABCDEF 1 50 in 4 75 in 2 00 in 4 50 in 64 14035 01 80 MRD 3 81 cm 12 07 cm 5 08 cm 11 43 cm PDF417 10 mil 012345678905 3 00 in 5 75 in 4 25 in 5 00 in 64 14937 01 80 MRD 7 62 cm 14 61 cm 10 80 cm 12 72 cm PDF417 Notes 1 Contrast measured as Mean Reflective Difference MRD at 650 nm 2 Near ranges on lower densities largely depend on the width of the bar code and the scan angle 3 Working range specifications Photographic quality symbols pitch 10 skew 0 roll 0
16. Send Bar Codes With Unknown Characters Transmit Do Not Send Bar Codes with Unknown Characters Disable 12 10 USB Interface 7 SS Emulate Keypad When enabled all characters are sent as ASCII sequences over the numeric keypad For example ASCII A is sent as ALT make 0 6 5 ALT Break Disable Keypad Emulation Enable Keypad Emulation USB Keyboard FN 1 Substitution This option applies only to the USB HID Keyboard Emulation device Enable this to replace any FN 1 characters in an EAN 128 bar code with a Key Category and value Enable Disable 12 11 A A MS XX07 Series Integration Guide Function Key Mapping ASCII values under 32 are normally sent as a control key sequences see Table A 2 on page A 7 When this parameter is enabled the keys in bold are sent in place of the standard key mapping Table entries that do not have a bold entry remain the same whether or not this parameter is enabled Disable Function Key Mapping Enable Function Key Mapping Simulated Caps Lock When enabled the scanner inverts upper and lower case characters on the scanner bar code as ifthe Caps Lock state is enabled on the keyboard This is done regardless of the current state of the keyboard s Ca
17. 72 0 z z O MS 220XVHD al 2 5 5 1 5 10 1 t 7 5 152 10 254 Qa o 7 l 55 mil Minn PS aes wear In 0 25 5 7 5 10 12 5 15 cm 0 12 7 25 4 38 1 50 8 63 5 76 2 Depth of Field Minimum distance determined by symbol length and scan angle Figure 7 5 MS 2207VHD 1D Slab Raster Decode Distances 7 8 MS 2207VHD 1D Decode Distances Table 7 3 MS 2207VHD 1D Decode Distances MS 2207VHD Specifications Symbol p n Content anges Bar Code Type Contrast Near Far Near Far 4 mil STI4026 2 0 in 3 4 in 2 75 in 2 8 in 64 15660 01 80 MRD 5 08 cm 8 64 cm 7 00 cm 7 11 cm Code 39 5 mil STI5025 1 75 in 4 1 in 2 25 in 3 5 in 64 18779 01 80 MRD 4 45 cm 10 41 cm 5 72 cm 8 89 cm Code 39 6 mil 123 1 75 in 4 75 in 2 25 in 4 0 in 64 01755 01 80 MRD 4 45 cm 12 07 cm 5 72 cm 10 16 cm Code 39 7 5 mil STI30F4 1 50 in 5 25 in 2 00 in 4 75 in 63 04191 01 80 MRD 3 81 cm 13 34 cm 5 08 cm 12 07 cm Code 39 55 mil A Note 2 15 0 in Note 2 12 5 in 60 01601 01 80 MRD 38 10 cm 31 75 cm Code 39 Notes 1 Contrast measured as Mean Reflective Difference MRD at 650 nm 2 Near ranges on lower densities largely depend on the width of the bar code and the scan angle 3 Working range specifications Photographic quality symbols pitch 10 skew 0 roll 0 ambient light lt 150 ft candles and temperature 23 C 7 9
18. A A MS XX07 Series Integration Guide Sweden Sverige Letter address Symbol Technologies AB Box 1354 S 171 26 SOLNA Sweden Visit shipping address Symbol Technologies AB Solna Strandvag 78 S 171 54 SOLNA Sweden Switchboard 08 445 29 00 domestic Call Center 46 8 445 29 29 international Support E Mail Sweden Support se symbol com If you purchased your Symbol product from a Symbol Business Partner contact that Business Partner for service For the latest version of this guide go to http www symbol com manuals xvi e Chapter 1 Introduction Caution Use of controls adjustments or procedures other than those specified here can result in hazardous laser light exposure Overview The MiniScan family of industrial fixed mount scanners are specifically designed for stand alone applications and OEM applications such as kiosks 1 1 tra MS XX07 Series Integration Guide Figure 1 1 MiniScan Family of Scanners MS XX07 Series scanners provide easy and flexible integration of bar code scanning into a host device and include the following models 1 2 The MS 1207FZY offers fuzzy logic for premium scanning performance on all types of 1D bar codes including poorly printed and low contrast symbols The MS 1207FZY features a compact design for superior performance and durability in a form factor that easily integrates into OEM devices for embedded applications such as medical instruments diagnost
19. A A MS XX07 Series Integration Guide The rule specifies the editing conditions and requirements before data transmission occurs Using ADF Bar Codes When programming a rule make sure the rule is logically correct Plan ahead before scanning To program each data formatting rule Start the Rule Scan the Begin New Rule bar code on page 13 8 Criteria Scan the bar codes for all pertinent criteria Criteria can include code type e g Code 128 code length or data that contains a specific character string e g the digits 129 These options are described in Criteria on page 13 12 Actions Scan all actions related to or affecting these criteria The actions of a rule specify how to format the data for transmission These options are described in ADF Bar Code Menu Example on page 13 3 Save the Rule Scan the Save Rule bar code on page 13 9 This places the rule in the top position in the rule buffer If you make errors during this process some special purpose bar codes can be useful Erase Criteria and Start Again Erase Actions and Start Again Erase Previously Saved Rule etc Erase criteria actions and entire rules by scanning the appropriate bar code see page 13 9 Standard Beeper Definitions on page 3 8 help guide you through the programming steps Advanced Data Formatting ADF Bar Code Menu Example This section provides an example of how to enter and use ADF rules for scan data An auto par
20. Chapter 6 MS 2207 Specifications provides the technical and scanning specifications for the MS 2207 scanner Chapter 7 MS 2207VHD Specifications provides the technical and scanning specifications for the MS 2207VHD scanner Chapter 8 MS 3207 Specifications provides the technical and scanning specifications for the MS 3207 scanner Chapter 9 Maintenance and Troubleshooting provides information on maintaining and troubleshooting the MiniScan scanners Chapter 10 Parameter Menus describes the programmable parameters and provides bar codes for programming Chapter 11 RS 232 Interface describes how to set up the scanner for RS 232 operation Chapter 12 USB Interface describes how to set up the scanner for USB operation Chapter 13 Advanced Data Formatting ADF describes how to customize scanned data before transmitting to the host Chapter 14 Mounting Template provides mounting templates for the MiniScan scanners Appendix A ASCII Character Sets provides prefix and suffix values that can be assigned for ASCII character data transmission Notational Conventions The following conventions are used in this document xii Bullets indicate action items lists of alternatives lists of required steps that are not necessarily sequential Sequential lists e g those that describe step by step procedures appear as numbered lists About This Guide Related Documents The following document provides more inf
21. Disable Linear UPC EAN Decode 00h 10 49 LZ MS XX07 Series Integration Guide UPC Half Block Stitching Parameter 4Ah Note This option is supported by the MS 2207 MS 2207VHD and MS 3207 only This parameter enables UPC Half Block Stitching Enable UPC Half Block Stitching 01h Disable UPC Half Block Stitching 00h 10 50 Parameter Menus Code 128 Enable Disable Code 128 Parameter 08h To enable or disable Code 128 scan the appropriate bar code below Enable Code 128 01h Disable Code 128 00h 10 51 LZ MS XX07 Series Integration Guide Enable Disable UCC EAN 128 Parameter OEh To enable or disable UCC EAN 128 scan the appropriate bar code below Enable UCC EAN 128 01h Disable UCC EAN 128 00h 10 52 Parameter Menus Enable Disable ISBT 128 Parameter 54h To enable or disable ISBT 128 scan the appropriate bar code below Enable ISBT 128 01h Disable ISBT 128 00h Lengths for Code 128 No length setting is required for Code 128 10 53 LZ MS XX07 Series Integration Guide Code 128 Decode Performance Parameter 48h Note This o
22. sss eere 1948 Pause D ratlon sisse Rr RR RR RYE ERE RNV RaEEYPeryGawr ua 13 8 A LZ MS XX07 Series Integration Guide Esci New RUE 2i dares ks kehkesedsausdndxic e prn d EE E END RS PES 13 8 ave PS Lo cas ERES SN DAE Pde EAE DURE KRUDQ b Ed dd EE dup add qid 13 9 Sse Laden bbesns ie dd as died ded edu dolci E d Heated dedotoiedr daa ENG d abdo 13 9 UIC ENSIMA ESSE ieu apa aka apa dog api E de odd CR AE ha RRR Ra 13 10 Disabis MUR Sel oasis RE PET EE PEOR ERN ORE EFECAdERUQuSS ee QU Eds Ld eee Ep 13 11 COMITE oou rubi e UMP ADESSET Rd dae eats Seek Shee 13 12 Code TPES o1 iba d dec doo Ra dao deg dioi deg dubios Dolce Ro eT eee dicil d eoi odes 13 12 cs us du qd qeqide uei t edd rp weak e ebbe mpEE E E PB Edidit 13 15 Message Containing A Specific Data String llle 13 20 0021 prr Pcr 13 24 SED DAD s ques au eek tex oe dr ore REGED ane So EE RDI RRO Ee or ER Eg RE RE 13 24 fg FMS ari 13 27 MOOD Dala isis oso IAEA esed ms 13 32 Pad Data wil SPACO usd esed dci dee V eee eke Rd ded dde dE Red densi 13 34 Pad Db Wii BIOS uia du dead cashes AI a aoi itl Brod 13 38 ESOS pide siede lakes Pad dC dd ned dread e a gd dv deh AO 13 42 Sen ausos siccis A RE Ed E Edd 13 43 Send Right COMMON Key c adu adi aar idear RH CRURA dd Ra Rs dr dacw dos 13 73 Send Graphic User Interface GUI Characters 2 is iioies isses eaa ea 13 73 Tur OMON Rule Sela sorna RERPUTWEF sud err QE DERE REDO ES s 13 79 Alplanumene ReybDOBI uoce qureeiex dae 4E EN
23. 1076 1077 1078 1079 1080 1081 1082 1083 1084 1085 1086 1087 1088 1089 lt X 2 lt C A 0 3 O V O Z Z T XJS 1090 N N lt X g lt C A 0 D O V O Z Z T aA co 1091 K 1092 L p 1093 M 1094 N 1095 960 1096 W 1097 A a 1098 B b The keystroke in bold is sent only if Function Key Mapping is enabled A 10 ASCII Character Sets Table A 2 USB ASCII Character Set Continued 1099 C C 1100 D d 1101 E e 1102 F f 1103 G g 1104 H h 1105 l i 1106 J j 1107 K k 1108 L 1109 M m 1110 N n 1111 0 o 1112 P p 1113 Q q 1114 R r 1115 S s 1116 T t 1117 U u 1118 V v 1119 W w 1120 X x 1121 Y y 1122 Z z 1123 P 1124 Q The keystroke in bold is sent only if Function Key Mapping is enabled A 11 Pa LZ MS XX07 Series Integration Guide E Table A 2 USB ASCII Character Set Continued 1125 R 1126 S ALT Keys Keystroke 2064 ALT 2 2065 ALTA 2066 ALT B 2067 ALT C 2068 ALT D 2069 ALTE 2070 ALT F 2071 ALT G 2072 ALT H 2073 ALT I 2074 ALT J 2075 ALT K 2076 ALT L 2077 ALT M 2078 ALT N
24. Advanced Data Formatting V x Z 13 89 LA MS XX07 Series Integration Guide 13 90 Za Chapter 14 Mounting Template Overview This chapter provides mounting templates for the MiniScan scanners Copy the page with your MiniScan model s template to aid in mounting MS 1207FZY MS 1207WA MS 2207 MS 2207VHD Mounting Template e Figure 14 1 MS 1207FZY MS 1207WA MS 2207 MS 2207VHD Mounting Template 14 1 A A MS XX07 Series Integration Guide MS 3207 Mounting Template 4 o Figure 14 2 MS 3207 Mounting Template 14 2 Za Appendix A ASCII Character Sets RS 232 ASCII Character Set The values in Table A 1 can be assigned as prefixes or suffixes for ASCII character data transmission in an RS 232 environment Table A 1 Prefix Suffix Values Prefix Suffix Value Code 39 Pues NN ASCII Character 1000 U NUL 1001 A SOH 1002 B STX 1003 C ETX 1004 D EOT 1005 E ENQ 1006 F ACK 1007 G BELL 1008 H BACKSPACE 1009 HORIZONTAL TAB 1010 J LF NEW LINE 1011 K VT E RE P LZ MS XX07 Series Integration Guide Table A 1 Prefix Suffix Values Continued Prefix Suffix Value Code 39 A E ASCII Character 1012 L FF 1013 M CR ENTER 1014 N SO 1015 0 SI 1016 P DLE 1017 Q DC1 1018 R DC2 1019 S DC3 1020 T DC4 1021 U NAK 1022
25. In this mode it is a differential bi directional signal 4 SYN_CLK I O Synapse Mode Synapse Clock line Signal used as a clock by a Symbol Synapse host Pin is shorted to RTS SYN_DAT in USB cables to allow for auto detection of USB mode via signal loopback 5 Ground Power supply ground input and signal ground reference 6 Power 5 0 VDC 10 8 2 MS 3207 Specifications Table 8 1 MS 3207 Electrical Interface Continued Pin No Pin Name Type Function 7 CTS D 1 0 RS 232 Mode Clear to send handshaking input line used only in conjunction with the RTS line Optionally used by another device to signal the scanner to begin transmitting data USB Mode D signal During USB operation this signal works in conjunction with the D signal as a differential bi directional signal 8 RTS SYN DAT 1 0 RS 232 Mode Request to send handshaking output line used only in conjunction with the CTS line Optionally used by the scanner to signal another device that data is available to send Synapse Mode Synapse Data line Signal is used to transmit data to and from a Symbol Synapse host 9 Beeper Download I O During normal operation this signal functions as an external beeper drive line This signal can sink 50mA of current to drive an external beeper and is normally pulled up This signal is also used to begin Flash Download operation when grounded externally during
26. Note Do not use polycarbonate material Acrylic When fabricated by cell casting acrylic has very good optical quality and low initial cost However protect the surface from the environment as acrylic is susceptible to attack by chemicals mechanical stresses and UV light Acrylic has reasonably good impact resistance and can be ultrasonically welded CR 39 CR 39 is a thermal setting plastic produced by the cell casting process and is commonly used in plastic eye glasses lenses CR 39 has excellent chemical and environmental resistance including good surface hardness Typically it does not require hard coating but can be hard coated for severe environments CR 39 has reasonably good impact resistance and cannot be ultrasonically welded 2 16 Installation Chemically Tempered Float Glass Glass is a hard material which provides excellent scratch and abrasion resistance However unannealed glass is brittle Increasing flexibility strength with minimal optical distortion requires chemical tempering Glass cannot be ultrasonically welded and is difficult to cut into odd shapes Table 2 2 Suggested Window Properties Material Red cell cast acrylic Spectral Transmission 85 minimum from 640 to 690 nanometers Thickness 0 059 0 005 Wavefront Distortion transmission 0 2 wavelengths peak to valley maximum over any 0 08 in diameter within the clear aperture Clear Aperture To extend to within 0 04 in o
27. Parameter Menus Transmit UPC E Check Digit Parameter 29h Scan the appropriate bar code below to transmit the symbol with or without the UPC E check digit Transmit UPC E Check Digit 01h Do Not Transmit UPC E Check Digit 00h 10 39 LZ MS XX07 Series Integration Guide Transmit UPC E1 Check Digit Parameter 2Ah Scan the appropriate bar code below to transmit the symbol with or without the UPC E1 check digit Transmit UPC E1 CHECK DIGIT 01h Do Not Transmit UPC E1 Check Digit 00h 10 40 Parameter Menus UPC A Preamble Parameter 22h Preamble characters Country Code and System Character can be transmitted as part of a UPC A symbol Select one of the following options for transmitting UPC A preamble to the host device transmit system character only transmit system character and country code 0 for USA or transmit no preamble No Preamble lt DATA gt 00h System Character lt SYSTEM CHARACTER lt DATA gt 01h System Character amp Country Code lt COUNTRY CODE SYSTEM CHARACTER lt DATA gt 02h 10 41 A LZ MS XX07 Series Integration Guide UPC E Preamble Parameter 23h Preamble characters Country Code and System Character can be transmitted as part of a UPC E symbol Select one of the
28. R Scan Rate of scanner see technical specifications H Symbol height N Number of scans over symbol minimum of 10 scans H Symbol Height gt Scan Beam Parallel to Symbol Direction of Conveyor Figure 2 10 Symbol Parallel To Conveyor Movement Example Use the previous formula to calculate the number of scans for a specific bar code scanner and conveyor speed a minimum of 10 scans per symbol is recommended R 640 scans sec H 60 mil N 10 scans V 640 x 060 10 3 84 in sec 2 15 A A MS XX07 Series Integration Guide Embedded Applications Requiring a Window Use the following guidelines for applications that require a window in front of the MiniScan Note Symbol does not recommend placing an exit window in front of the MiniScan however the following information is provided for applications that require such a window Window Material Many window materials that look perfectly clear can contain stresses and distortions that can reduce scanner performance For this reason only optical glass or cell cast acrylic with an anti reflection coating is highly recommended Following is a description of acrylic and CR 39 another popular window material Table 2 2 on page 2 17 outlines the suggested window properties Caution Consult an opto mechanical engineer to recommend an appropriate window material and to determine if coatings are appropriate for the specific application
29. Scan Rule Belongs to Set 1 When scanning a bar code of length 15 send the next 2 characters send the class key send the next 8 characters send the stock key To switch between the two sets of rules program a switching rule that specifies what type of bar code must be scanned to switch between the rule sets For example in the case of the sale rule the rule programmer wants the cashier to scan the bar code M before a sale To do this a rule can be entered as follows When scanning a bar code of length 1 that begins with M select rule set number 1 Another rule could be programmed to switch back When scanning a bar code of length 1 that begins with N turn off rule set number 1 13 5 A LA MS XX07 Series Integration Guide The switching back to normal rules can also be done in the sale rule For example When scanning a bar code of length 15 send the next 2 characters send the class key send the next 8 characters send the stock key turn off rule set 1 It is recommended that you scan the Disable All Rule Sets bar code on page 13 11 after programming a rule belonging to an alternate rule set In addition to enabling and disabling rule sets within the rules you can enable or disable them by scanning the appropriate bar codes on 13 11 Rules Hierarchy in Bar Codes The order of programming individual rules is important Program the most general rule last All programmed rules are stored in a buf
30. Skip Back 5 Characters Skip Back 7 Characters Skip Back 9 Characters 13 30 Skip Back 2 Characters Skip Back 4 Characters Skip Back 6 Characters Skip Back 8 Characters Skip Back 10 Characters Send Preset Value Use these bar codes to send preset values values in Table A 1 on page A 1 Send Value 1 Send Value 3 Send Value 5 Advanced Data Formatting These values must be set using the prefix suffix Send Value 2 Send Value 4 13 31 LZ MS XX07 Series Integration Guide Modify Data The following bar codes modify data in the ways listed The following actions work for all send commands that follow it within a rule Programming pad zeros to length 6 send next 3 characters stop padding send next 5 characters to add three zeros to the first send the next send is unaffected by the padding These options do not apply to Send Keystroke or Send Preset Value Remove All Spaces To remove all spaces in the send commands that follow scan this bar code Crunch All Spaces To leave one s
31. E9h This enables the backslash 1 character as an Escape character for systems that can process transmissions containing special data sequences Scan a bar code below to either format special data e g GLI escapes MacroPDF417 Control Block optional fields according to the GLI Global Label Identifier protocol or the ECI Extended Channel Interpretation protocol or to disable this parameter ECI Protocol 01h GLI Protocol 02h None 00h 10 120 Parameter Menus Delete Character Set ECIs Parameter E6h Select Delete Character Set ECIs to delete any escape sequences representing Character Set ECIs also known as GLIs from its buffer before transmission In many receiving systems Character Set ECIs can be removed without affecting the way data is displayed or processed Select Transmit Character Set ECIs to transmit data from PDF417 and MicroPDF417 bar codes containing Character Set ECIs even when the ECI Protocol is disabled Scan a bar code to delete or transmit character set ECIs Delete Character Set ECIs 01h Transmit Character Set ECIs 00h 10 121 LZ MS XX07 Series Integration Guide ECI Decoder Parameter E8h This parameter enables the scanner to interpret any Extended Channel Interpretations ECIs that are supported by the scanner firmware This does not af
32. Latin America Sales Support 2730 University Dr Coral Springs FL 33065 USA 1 800 347 0178 Inside United States 1 954 255 2610 Outside United States 954 340 9454 Fax Netherlands Nederland Symbol Technologies Kerkplein 2 7051 CX Postbus 24 7050 AA Varsseveld Netherlands 315 271700 Inside Netherlands 31 315 271700 Outside Netherlands South Africa Symbol Technologies Africa Inc Block B2 Rutherford Estate 1 Scott Street Waverly 2090 Johannesburg Republic of South Africa 11 809 5311 Inside South Africa 27 11 809 5311 Outside South Africa About This Guide Italy Italia 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 M xico Symbol Technologies Mexico Ltd Torre Picasso Boulevard Manuel Avila Camacho No 88 Lomas de Chapultepec CP 11000 Mexico City DF Mexico 5 520 1835 Inside Mexico 52 5 520 1835 Outside Mexico Norway Norge Symbol s registered and mailing address Symbol Technologies Norway Hoybratenveien 35 C N 1055 OSLO Norway Symbol s repair depot and shipping address Symbol Technologies Norway Enebakkveien 123 N 0680 OSLO Norway 47 2232 4375 Spain Espa a Symbol Technologies S L Avenida de Bruselas 22 Edificio Sauce Alcobendas Madrid 28108 Spain Telephone 34 91 324 4000 Service Telephone 34 91 324 4000 Fax 34 91 324 4010 XV
33. Parameter Menus A code ID character identifies the code type of a scanned bar code This can be useful when decoding more than one code type The code ID character is inserted between the prefix character if selected and the decoded symbol Select no code ID character a Symbol Code ID character or an AIM Code ID character The Symbol Code ID characters are listed below Table 10 2 Symbol Code ID Characters Code Type Symbol Identifier UPC A UPC E UPC E1 EAN 13 EAN 8 A Code 39 Code 32 Codabar Code 128 ISBT 128 Code 93 Interleaved 2 of 5 Discrete 2 of 5 D 20f 5 IATA Code 11 MSI Plessey UCC EAN 128 Bookland EAN Trioptic Code 39 Coupon Code RSS all variants Composite Scanlet PDF417 Micro PDF417 Macro PDF417 Micro MacroPDF417 x Sl alm Zz rl Al cl I ol n m ojo w Note UPC EAN Composite is transmitted in two portions each with a T prefix 10 107 LZ MS XX07 Series Integration Guide Transmit Code ID Character continued Symbol Code ID Character 02h AIM Code ID Character 01h None 00h 10 108 Parameter Menus Prefix Suffix Values Parameter P 69h S1 68h S22 6Ah A prefix and or one or two suffixes can be appended to scan data for use in data editing To set a value for a prefix or suffix scan a four digit number
34. gt E Figure 3 4 Raster Scan Pattern Semi omnidirectional Scan Pattern The semi omnidirectional pattern is an alternative to the full omnidirectional pattern that scans highly truncated 1D and RSS bar codes Present bar codes horizontally with no more than a 20 tilt j l I AN Ni ll i li ii Mi WM I M il iH Y W i i i i i i x A 0 y N M j 00 i i M i Y y y M i A l U W KK W i M l ll i N i Figure 3 5 Semi omnidirectional Scan Pattern 3 3 A LA MS XX07 Series Integration Guide Omnidirectional Scan Pattern The high speed rotating omnidirectional scan pattern provides aggressive performance on 1D bar codes because there are no holes in the pattern This ensures fast throughput at the point of activity and the ability to read 1D symbols in 360 of rotation eliminating the need to orient the bar code in the field of view Figure 3 6 Omnidirectional Scan Pattern High Density Single Scan Line Scan Pattern The High Density single scan line appears as a mini raster and scans multiple areas of 1D codes to swiftly and accurately capture data on poorly printed and damaged bar codes Figure 3 7 High Density Single Scan Line Scan Pattern Scan Angle Selection
35. 01453 978 534 6511 Cell caster hard coater laser cutter CR39 exit window manufacturer Milford CT 06460 203 882 9093 Glasflex Corporation Cell caster Acrylic exit window 4 Sterling Road manufacturer Sterling NJ 07980 908 647 4100 Optical Polymers Int OPI CR 39 cell caster coater laser CR39 exit window 110 West Main Street cutter manufacturer Polycast 70 Carlisle Place Stamford CT 06902 800 243 9002 acrylic cell caster hard coater laser cutter Acrylic exit window manufacturer TSP 2009 Glen Parkway Batavia OH 45103 800 277 9778 acrylic cell caster coater laser cutter Acrylic exit window manufacturer 2 18 Installation Embedded Window Angle and Position If a window is placed between the MiniScan and the item to be scanned observe the following guidelines e Window Clear Opening Make the clear opening of the window large enough so that the entire scan beam passes through the window Cutting off any part of the beam can result in internal reflections and degrade decode range performance Ensure that win dow placement relative to the MiniScan accounts for tolerances on all parts involved in that assembly Window Angle Angle the window at least 2 more than the tilt of the window on the scanner see Table 2 4 Further tilting the window is acceptable and decreases the possibility of a secondary reflection from that window degrading the scanner s per
36. 13 32 TOC e MEME cT 13 42 advanced data formatting 13 1 code lengths 13 15 actions u nan 13 1 13 24 code types o oo nunan annann 13 12 alphanumeric keyboard 13 80 SUBE Qoarloexstblba bid 13 1 13 12 alternate rule sets 13 4 default rules oo 13 7 bar code menu example 13 3 move cursor past a character 13 27 beep coco 13 42 move cursor to a character 13 27 code lengths 13 15 move cursor to start of data 13 27 code types coco 13 12 numeric keypad 00 13 22 GIGEB corse errare herte 13 1 13 12 pad Spaces sss sess 13 34 default rules 13 7 pd LEIS ouis sesopbesi qe tercie 13 38 numeric keypad 13 22 A E PEA E EE TE E 13 1 pad spaces 13 34 rules hierarchy o o 13 6 pad zeros coco 13 38 send alt characters 13 59 miles coco 13 1 send control characters 13 43 rules hierarchy oooocooooooo o 13 6 send function key 13 67 send alt characters 13 59 send keyboard characters 13 47 send control characters 13 43 send keypad characters 13 63 send function KSY iiicsiirssisss 13 67 send preset value 13 27 send keyboard characters 13 47 send value 000 13 31 send keypad characters 13 63 skip ahead characters 13
37. 20 mil 123 19 0 in 14 0 in 64 17456 01 80 MRD Note 2 48 26cm N A 35 56 cm Code 39 40 mil AB 24 0 in 18 0 in 64 17457 01 80 MRD Note 2 60 96cm N A 45 72 cm Code 39 55 mil A 31 0 in 25 0 in 60 01601 01 80 MRD Note 2 78 74cm Note 2 63 50 cm Code 39 Notes 1 Contrast measured as Mean Reflective Difference MRD at 650 nm 2 Near ranges on lower densities largely depend on the width of the bar code and the scan angle 3 Working range specifications Photographic quality symbols pitch 10 skew 0 roll 0 ambient light lt 150 ft candles and temperature 23 C 6 10 MS 2207 Specifications MS 2207 2D Decode Zone Note Typical performance at 68 F 20 C on high quality symbols in normal room light Y module dimension 3X Vcc 5V MS 220X 6 6 mil 1 5 k 46 0 10 mil Minimum Element Width 3596 5 127 3 5 gt 8 0 10 mil Minimum Element Width 80 3 5 15 mil Minimum Element Width 5 6 15 0 In 0 2 4 6 8 10 12 14 16 em 0 5 1 10 1 15 2 20 3 25 4 30 5 35 6 40 6 Depth of Field Figure 6 6 MS 2207 2D Slab Raster Decode Distances o So a sS Q o m Note Not optimized for omnidirectional mode 6 11 A LA MS XX07 Series Integration Guide MS 2207 2D Decode Distances Table 6 4 MS 2207 2D Slab Raster Decode Distances Typical Working Guaranteed Working S
38. 26 cm Note2 43 18 cm Code 39 2 2 1 55 mil CD 24 0 in 22 0 in 64 17458 01 80 MRD Note 2 60 96 cm Note 2 55 88 cm Code 39 2 2 1 1 Contrast measured as Mean Reflective Difference MRD at 670 nm 2 Near ranges on lower densities not specified largely depend on the width of the bar code and the scan angle 3 Working range specifications at ambient temperature 23 C Usable Scan Length The decode zone is a function of various symbol characteristics including density print contrast wide to narrow ratio and edge acuity Consider width of decode zone at any given distance when designing a system Calculating the Usable Scan Length Method on page 2 11 describes how to calculate the usable scan length The scan angle is provided in Table 5 2 on page 5 6 5 10 Za Chapter 6 MS 2207 Specifications Overview This chapter provides the technical specifications for the MS 2207 scanner 6 1 A LA MS XX07 Series Integration Guide MS 2207 Electrical Interface Figure 6 1 MiniScan Connector Table 6 1 lists the pin functions of the MiniScan MS 2207 interface Table 6 1 MS 2207 Electrical Interface Pin No Pin Name Type Function Trigger Signals scanner to begin scanning session TXD 0 Serial data transmit output Drives the serial data receive input on the device communicating with the scanner RXD D 1 0 RS232 Mode Serial data receive input Driven by the ser
39. 39 iE m T Enable Disable Code AA et Enable Disable Trioptic Cod ee Convert Code 39 to Code 32 ihe 32 2 x Dinan S HES scisco icd wo kx ede ke RA bE eh Pde hehehehe S a ee oic dod aede do 10 81 Enable Di C HMM UA NUMINI 10 81 Set e dd for Codabar vii A A MS XX07 Series Integration Guide Lone 129 EMUO ss sibarita ora iria uec 10 98 Roa RI RNA scd O 10 99 pce aicoracianriaidaiara ibid os A A AR 10 99 Ron diia r AAA AA a acie dc abo do 10 100 HS EDIDI criar ida nidad iii 10 101 Convent RSS 16 UPCEAN d dado dd SA RR aaa a 10 102 COMPOSE iodo dex dr deb ddr did ded dea dra ded 10 103 psg veris M TUTTMTMT 10 103 Composite COAG isocscesk nett ed 3 ESE EO es 10 104 LOO TLO ood ian oxen aoe oes oa P 5 Eee MPO cR EE T EET 10 105 UPC Composite Mod su caer ease ee RR REG eR Rene GE ede CR EUR ORE EROS EES 10 106 Dale prose Ge kaise weds cucu PRIM SPOS OSHS SERA OETA T EPQpE RSS EP EES 10 107 Transmit Code ID CASOUBE s picar bx ore PE Oe IPTEPS 10 107 Pre fix suffi Values 2s aacxas rx debe DR RR wade sd Roe ER Rade RC PRG RC E dear 10 109 Scan D ta Transmission PONE vi airada diane d bU Cen dex ac ke dX C a AC g 10 111 mos ssi E PET PP P Tr 10 113 Deom Eve M a air 10 114 EDO UD Evel costs tke ooo does o oe Supe doble doped ier ai 10 115 PROMSE EVEN conri e Eb dL SOLO OLOR bd C d Je d OR E aia X b E Eoo 10 116 hack FOF Feas uos xri ee esa dd eS E qe PSU EP Tui paci p pede eoe pP
40. 4 to limit decoding to only Code 93 symbols containing 14 characters Numeric bar codes begin on page 10 132 To change the selection or cancel an incorrect entry scan the Cancel bar code on page 10 134 Code 93 One Discrete Length Two Discrete Lengths Select this option to decode only those codes containing two selected lengths For example select Code 93 Two Discrete Lengths then scan 0 2 1 4 to limit the decoding to only Code 93 symbols containing 2 or 14 characters Numeric bar codes begin on page 10 132 To change the selection or cancel an incorrect entry scan the Cancel bar code on page 10 134 Code 93 Two Discrete Lengths 10 68 Parameter Menus Length Within Range Select this option to decode only those codes within a specified range For example to decode Code 93 symbols containing between 4 and 12 characters first scan Code 93 Length Within Range then scan 0 4 1 and 2 single digit numbers must always be preceded by a leading zero Numeric bar codes begin on page 10 132 To change the selection or cancel an incorrect entry scan the Cancel bar code on page 10 134 Code 93 Length Within Range Any Length Scan this option to decode Code 93 symbols containing any number of characters Code 93 Any Length 10 69 LZ MS XX07 Series Integration Guide Code 11 Enable Disable
41. Alphanumeric Keyboard Space Dash 13 80 o Alphanumeric Keyboard continued Advanced Data Formatting amp lt gt 13 81 A LZ MS XX07 Series Integration Guide Alphanumeric Keyboard continued 2 Underscore 13 82 A Alphanumeric Keyboard continued Advanced Data Formatting Do not confuse bar codes on this page with those on the numeric keypad 0 2 4 6 8 1 3 5 7 9 13 83 A LZ MS XX07 Series Integration Guide Alphanumeric Keyboard continued A C E G 13 84 B D F H J Advanced Data Formatting Alphanumeric Keyboard continued K 0 Q S L N P R T 13 85 A LZ MS XX07 Series Integration Guide Alphanumeric Keyboard continued U Ww Y Cancel 13 86 V X Z End Of Message Alphanumeric Keyboard continued a c e g Advanced Data Formatting b d f h j 13 87 A LZ MS XX07 Series Integration Guide Alphanumeric Keyboard continued k m o q S 13 88 n p r t Alphanumeric Keyboard continued u Ww y
42. Codabar 00h 10 84 Parameter Menus Set Lengths for Codabar Parameter it L1 18h L2 19h The length of a code refers to the number of characters i e human readable characters the code contains including start or stop characters Lengths for Codabar may be set for any length one or two discrete lengths or lengths within a specific range One Discrete Length Select this option to decode only those codes containing a selected length For example select Codabar One Discrete Length then scan 1 4 to decode only Codabar symbols containing 14 characters Numeric bar codes begin on page 10 132 To change the selection or cancel an incorrect entry scan the Cancel bar code on page 10 134 Codabar One Discrete Length Two Discrete Lengths Select this option to decode only those codes containing two selected lengths For example select Codabar Two Discrete Lengths then scan 0 2 1 4 to decode only Codabar symbols containing 2 or 14 characters Numeric bar codes begin on page 10 132 To change the selection or cancel an incorrect entry scan the Cancel bar code on page 10 134 Codabar Two Discrete Lengths 10 85 A A MS XX07 Series Integration Guide Length Within Range Select this option to decode a code within a specified range For example to decode Codabar symbols containing between 4 and 12 characters first scan Codabar
43. Code 11 Parameter OAh To enable or disable Code 11 scan the appropriate bar code below Enable Code 11 01h Disable Code 11 00h 10 70 Parameter Menus Set Lengths for Code 11 Parameter L1 1Ch L2 1Dh The length of a code refers to the number of characters i e human readable characters including check digit s the code contains Lengths for Code 11 can be set for any length one or two discrete lengths or lengths within a specific range One Discrete Length Select this option to decode only those codes containing a selected length For example select Code 11 One Discrete Length then scan 1 4 to limit the decoding to only Code 11 symbols containing 14 characters Numeric bar codes begin on page 10 132 To change the selection or cancel an incorrect entry scan the Cancel bar code on page 10 134 Code 11 One Discrete Length Two Discrete Lengths Select this option to decode only those codes containing two selected lengths For example select Code 11 Two Discrete Lengths then scan 0 2 1 4 to limit the decoding to only Code 11 symbols containing 2 or 14 characters Numeric bar codes begin on page 10 132 To change the selection or cancel an incorrect entry scan the Cancel bar code on page 10 134 Code 11 Two Discrete Lengths 10 71 A A MS XX07 Series Integration Guide Length Within Range Select this option to decode only those codes within a specifi
44. E quad du aa Rd 4 2 MS 2072 Mechanical Drawing sau o dca cec droga Uae IRR ee OR B Rb dod pde a 4 3 MS T1207WA Technical SpscllicaliGne 2x21 keiiRecpereusreq ias NOR NAME 4 5 MS 207 EZY Decade ZOE o san aa Kot dao d OR Road dra eres Skene do on dad 4 8 Henke Scan Leng d cad queo ou wet Peon eer e Aa d 4 10 Chapter 5 MS 1207WA Specifications COWEN tae E dE ACRI E RUE doen dia do qon dina a Moser d douce head ine wankers ane dida 5 1 Bis 120715 Electrical WEGE AG uuu ira ace kd aca dE UE ROUES daar Rode qb e dU ethan d diras 5 2 MS 1207 Mechanical Drawings usc a addred RipX Rd een RR qe EE RU CO Ra dde ado dcs 5 4 MS 1207A Technical SPSCiICAIONS sesos ies Padeu be Re RA ESS 5 6 MS 1207 A Decode LONE a3 2 ote dn deron ae ak dn dote des dU ol oq deed dd dario Sie 5 9 Usable Scat ESO 1ousa bos ERM ERR ERA RUP Ka bad iube iie d ban eda 5 10 Chapter 6 MS 2207 Specifications A zoe Bo E de GRAN EQ A EA bob dde Oa els Fed CR Red Ee TE RUN did 6 1 MS 2207 Electrical Interface iusa essa rex deer EX RYE Y bese dba oe X eae CRM OR RR ence e 6 2 Contents Chapter 8 MS 3207 Specifications A ead Deoa E ndr d Sod a deed dated ded don debo dod E AI E 8 1 P iaa pim M NEM ciendo T Chapter 9 Maintenance and Troubleshooting Tr ubla hoeting rifa ih ondaa hase sas suda 94 ea 10 Parameter Menus A A MS XX07 Series Integration Guide SCM ODIO n1a cot seteies cedet eSI EUPE SQ EPA EEP CNRpReTCEPSi ip QS 10 11 P
45. Keyboard Characters Advanced Data Formatting Scan the bar code representing the keyboard character you want to send Send Space Send Send Send amp Send Send Send Send 13 47 Se d LZ MS XX07 Series Integration Guide Keyboard Characters continued Send Send Send Send 13 48 Send Send Send Send Keyboard Characters continued Send 0 Send 2 Send 4 Send 6 Advanced Data Formatting Send 1 Send 3 Send 5 Send 7 13 49 A LZ MS XX07 Series Integration Guide Keyboard Characters continued Send 8 Send Send Send 13 50 Send 9 Send Send Send Keyboard Characters continued Send Send B Send D Send F Advanced Data Formatting Send A Send C Send E Send G 13 51 A LZ MS XX07 Series Integration Guide Keyboard Characters continued Send H Send
46. Menus Enable Disable Trioptic Code 39 Parameter ODh Trioptic Code 39 is a variant of Code 39 used in marking computer tape cartridges Trioptic Code 39 symbols always contain six characters Do not enable Trioptic Code 39 and Code 39 Full ASCII simultaneously To enable or disable Trioptic Code 39 scan the appropriate bar code below Enable Trioptic Code 39 01h Disable Trioptic Code 39 00h 10 57 LA MS XX07 Series Integration Guide Convert Code 39 to Code 32 Parameter 56h Code 32 is a variant of Code 39 used by the Italian pharmaceutical industry Scan the appropriate bar code below to enable or disable converting Code 39 to Code 32 Note Code 39 must be enabled for this parameter to function Convert Code 39 To Code 32 Enable 01h Do Not Convert Code 39 To Code 32 Disable 00h 10 58 Parameter Menus Code 32 Prefix Parameter E7h Enable this parameter to add the prefix character A to all Code 32 bar codes Convert Code 39 to Code 32 must be enabled for this parameter to function Enable Code 32 Prefix 01h Disable Code 32 Prefix 00h 10 59 A MS XX07 Series Integration Guide Set Lengths for Code 39 Parameter L1 12h L2 13h The length of a code refers to the number of characters i e hu
47. NAK After three unsuccessful attempts to send data the scanner issues an error indication and discards the data The scanner waits up to the programmable Host Serial Response Time out to receive an ACK or NAK If the scanner does not get a response in this time it issues an error indication and discards the data There are no retries when a time out occurs ACK NAK ENQ When this option is selected the scanner waits for an ENQ character from the host before transmitting data If the scanner does not receive an ENQ within the Host Serial Response Time out it issues an error indication and discards the data The host must transmit an ENQ character at least every Host Serial Response Time out to prevent transmission errors ENQ 11 17 LZ MS XX07 Series Integration Guide ACK NAK with ENQ This combines the two previous options ACK NAK with ENQ XON XOFF An XOFF character turns the scanner transmission off until the scanner receives an XON character There are two situations for XON XOFF XOFF is received before the scanner has data to send When the scanner has data to send it waits up to Host Serial Response Time out for an XON character before transmission If the scanner does not receive an XON within this time it issues an error indication and discards the data e XOFF is received during a transmission Data transmission then stops after sending the current byte When the scanner receives an XON character it se
48. Parameter Menus Length Within Range Select this option to decode only codes within a specified range For example to decode 2 of 5 symbols containing between 4 and 12 characters first scan 12 of 5 Length Within Range then scan 0 4 1 and 2 single digit numbers must always be preceded by a leading zero Numeric bar codes begin on page 10 132 To change the selection or cancel an incorrect entry scan the Cancel bar code on page 10 134 12 of 5 Length Within Range Any Length Scan this option to decode I 2 of 5 symbols containing any number of characters Note Selecting this option can lead to misdecodes for 2 of 5 codes 12 of 5 Any Length 10 77 A LZ MS XX07 Series Integration Guide I 2 of 5 Check Digit Verification Parameter 31h When enabled this parameter checks the integrity of an 2 of 5 symbol to ensure it complies with a specified algorithm either USS Uniform Symbology Specification or OPCC Optical Product Code Council Disable 00h USS Check Digit 01h OPCC Check Digit 02h 10 78 Parameter Menus Transmit 2 of 5 Check Digit Parameter 2Ch Scan this symbol to transmit the check digit with the data Transmit 2 of 5 Check Digit Enable 01h Scan this symbol to transmit data without the check digit Do Not Transmit 2 of 5 Check Digit Disable
49. Rate 600 Baud Rate 1200 Baud Rate 2400 Baud Rate 4800 RS 232 Interface Baud Rate continued Baud Rate 9600 Baud Rate 19 200 Baud Rate 38 400 LA MS XX07 Series Integration Guide Parity A parity check bit is the most significant bit of each ASCII coded character Select the parity type according to host device requirements Select Odd parity and the parity bit value is set to O or 1 based on data to ensure that an odd number of 1 bits are contained in the coded character Odd Select Even parity and the parity bit value is set to O or 1 based on data to ensure that an even number of 1 bits are contained in the coded character Even Select Mark parity and the parity bit is always 1 Mark 11 10 RS 232 Interface Parity continued Select Space parity and the parity bit is always 0 Space Select None when no parity bit is required None 11 11 LA MS XX07 Series Integration Guide Stop Bit Select The stop bit s at the end of each transmitted character marks the end of transmission of one character and prepares the receiving device for the next character in the serial data stream Select the number of stop bits one or two the host device is programmed to accommodate 4 Stop Bit 2 Stop Bits Data Bits This paramet
50. When the Two MSI Plessey check digits option is selected an additional verification is required to ensure integrity Select one of the following algorithms MOD 10 MOD 11 00h MOD 10 MOD 10 01h 10 94 Parameter Menus PDF417 MicroPDF417 Note These options are supported by the MS 2207 MS 2207VHD and MS 3207 only Enable Disable PDF417 Parameter OFh To enable or disable PDF417 scan the appropriate bar code below Enable PDF417 01h Disable PDF417 00h 10 95 LZ MS XX07 Series Integration Guide Enable Disable MicroPDF417 Parameter E3h To enable or disable MicroPDF417 scan the appropriate bar code below Enable MicroPDF417 01h Disable MicroPDF417 00h 10 96 Parameter Menus MicroPDF Performance Parameter FOh 65h If there are problems decoding MicroPDF symbols select Selective Performance FOh 65h This can decrease decoding aggressiveness on some symbols Standard Performance for MicroPDF 00h Selective Performance for MicroPDF 03h 10 97 LA MS XX07 Series Integration Guide Code 128 Emulation Param
51. ambient light lt 150 ft candles and temperature 23 C Note Not optimized for omnidirectional mode Usable Scan Length The decode zone is a function of various symbol characteristics including density print contrast wide to narrow ratio and edge acuity Consider width of decode zone at any given distance when designing a system Calculating the Usable Scan Length Method on page 2 11 describes how to calculate the usable scan length The scan angle is provided in the Usable Scan Length Diagram on page 2 12 7 11 E REN ad A MS XX07 Series Integration Guide 7 12 Za Chapter 8 MS 3207 Specifications Overview This chapter provides the technical specifications for the MS 3207 scanner 8 1 P LZ MS XX07 Series Integration Guide MS 3207 Electrical Interface This section describes the pin functions of the MS 3207 interface Figure 8 1 MS 3207 Connector Table 8 1 MS 3207 Electrical Interface Pin x No Pin Name Type Function 1 Trigger l Signals to scanner to begin scanning session 2 TXD O Serial data transmit output Drives the serial data receive input on the device communicating with the scanner 3 RXD D I O RS 232 Mode Serial data receive input Driven by the serial data transmit output on the device communicating with the scanner USB Mode D signal During USB operation this signal is pulled up by a 1 5k Ohm resistor to begin USB enumeration
52. and or truncated bar codes Increased levels reduce decode security If you enable this option you can select a Decode Performance level from the next page to suit performance needs Note This option only works with Code 39 One Discrete Length Enable Code 39 Decode Performance 01h Disable Code 39 Decode Performance 00h 10 65 LZ MS XX07 Series Integration Guide Code 39 Decode Performance Level Parameter 47h Note This option is supported by the MS 2207 MS 2207VHD and MS 3207 only Select a level of decode performance Code 39 Decode Performance Level 1 03h Code 39 Decode Performance Level 2 02h Code 39 Decode Performance Level 3 01h 10 66 Parameter Menus Code 93 Enable Disable Code 93 Parameter 09h To enable or disable Code 93 scan the appropriate bar code below Enable Code 93 01h Disable Code 93 00h 10 67 A MS XX07 Series Integration Guide Set Lengths for Code 93 Parameter it L1 1Ah L2 1Bh The length of a code refers to the number of characters i e human readable characters including check digit s the code contains Lengths for Code 93 can be set for any length one or two discrete lengths or lengths within a specific range One Discrete Length Select this option to decode only those codes containing a selected length For example select Code 93 One Discrete Length then scan 1
53. below to move the cursor in relation to a specified character Then enter a character by scanning a bar code from the Alphanumeric Keyboard beginning on page 13 80 Note f there is no match when the rule is interpreted and the rule fails the next rule is checked Move Cursor To Move Cursor To Start Character Move Cursor Past Character Send Pause Scan the bar code below to insert a pause in the transmission of data The length of this pause is controlled by the value of the Pause Duration parameter Send Pause 13 28 Skip Ahead Use the following bar codes to skip ahead characters Skip Ahead 1 Character Skip Ahead 3 Characters Skip Ahead 5 Characters Skip Ahead 7 Characters Skip Ahead 9 Characters Advanced Data Formatting Skip Ahead 2 Characters Skip Ahead 4 Characters Skip Ahead 6 Characters Skip Ahead 8 Characters Skip Ahead 10 Characters 13 29 LZ MS XX07 Series Integration Guide Skip Back Use the following bar codes to skip back characters Skip Back 1 Characters Skip Back 3 Characters
54. decoded Linear Security Level 4 04h 10 26 Parameter Menus Bi directional Redundancy Parameter 43h This parameter is only valid when a Linear Code Type Security Level is enabled see page 10 25 When this parameter is enabled a bar code must be successfully scanned in both directions forward and reverse before being decoded Enable Bi directional Redundancy 01h Disable Bi directional Redundancy 00h 10 27 A LZ MS XX07 Series Integration Guide UPC EAN Enable Disable UPC A Parameter 01h To enable or disable UPC A scan the appropriate bar code below Enable UPC A 01h Disable UPC A 00h 10 28 Parameter Menus Enable Disable UPC E Parameter 02h To enable or disable UPC E scan the appropriate bar code below Enable UPC E 01h Disable UPC E 00h 10 29 LZ MS XX07 Series Integration Guide Enable Disable UPC E1 Parameter OCh To enable or disable UPC E1 scan the appropriate bar code below Enable UPC E1 01h Disable UPC E1 00h 10 30 Parameter Menus Enable Disable EAN 8 Parameter 04h To enable or disable EAN 8 scan the appropriate bar code below Enable EAN 8 01h Disable EAN 8 00h 10
55. entry incorrect bar code programming sequence remain in program mode Communication Communication error 4 Beeps short high tone 4 Beeps hi hi hi lo Receive error 3 Beeps lo hi lo ADF transmit error Table 3 2 LED Definitions LED Indication Red Scanner is on Green A bar code was successfully decoded 3 8 Za Chapter 4 MS 1207FZY Specifications Overview This chapter provides the technical specifications for the MS 1207FZY scanner 4 1 A A MS XX07 Series Integration Guide MS 1207FZY Electrical Interface Figure 4 1 MiniScan Connector Table 4 1 lists the pin functions of the MiniScan MS 1207FZY interface Table 4 1 MS 1207FZY Electrical Interface Pn Pin Name Type Function No 1 Trigger l Signals scanner to begin scanning session 2 TXD O Serial data transmit output Drives the serial data receive input on the device communicating with the scanner 3 RXD l Serial data receive input Driven by the serial data transmit output on the device communicating with the scanner 4 Not used 5 Ground Power supply ground input and signal ground reference 6 Power l 5 0 VDC x 10 7 CTS I Clear to send handshaking input line used only in conjunction with the RTS line Optionally used by another device to signal the scanner to begin transmitting data 8 RTS O Request to send handshaking output line u
56. following options for transmitting UPC E preamble to the host device transmit system character only transmit system character and country code 0 for USA or transmit no preamble No Preamble lt DATA gt 00h System Character lt SYSTEM CHARACTER lt DATA gt 01h System Character amp Country Code lt COUNTRY CODE SYSTEM CHARACTER lt DATA gt 02h 10 42 Parameter Menus UPC E1 Preamble Parameter 24h Preamble characters Country Code and System Character can be transmitted as part of a UPC E1 symbol Select one of the following options for transmitting UPC E1 preamble to the host device transmit system character only transmit system character and country code 0 for USA or transmit no preamble No Preamble lt DATA gt 00h System Character lt SYSTEM CHARACTER lt DATA gt 01h System Character amp Country Code lt COUNTRY CODE SYSTEM CHARACTER lt DATA gt 02h 10 43 LA MS XX07 Series Integration Guide Convert UPC E to UPC A Parameter 25h This parameter converts UPC E zero suppressed decoded data to UPC A format before transmission After conversion data follows UPC A format and is affected by UPC A programming selections e g Preamble Check Digit Scan DO NOT CONVERT UPC E TO UPC A to transmit UPC E zero suppressed decoded data Convert UPC E To UPC A E
57. i e four bar codes see Numeric Bar Codes beginning on page 10 132 that corresponds to that value See Table A 1 on page A 1 for the four digit codes To change the selection or cancel an incorrect entry scan the Cancel bar code on page 10 134 Note n order to use Prefix Suffix values first set the Scan Data Transmission Format on page 10 111 10 109 LA MS XX07 Series Integration Guide Prefix Suffix Values continued Scan Prefix 07h Scan Suffix 1 06h Scan Suffix 2 08h Data Format Cancel 10 110 Parameter Menus Scan Data Transmission Format To change the Scan Data Transmission Format scan the Scan Options bar code below then select one of four options Data As Is e DATA lt SUFFIX gt e PREFIX DATA e PREFIX DATA lt SUFFIX gt Note To set values for the prefix and or suffix see Prefix Suffix Values on page 10 109 After making a selection scan the Enter bar code on page 10 112 To change the selection or to cancel an incorrect entry scan the Data Format Cancel bar code on page 10 112 To add a carriage return enter after each bar code scanned scan the following bar codes in order 1 SCAN OPTIONS 2 DATA lt SUFFIX gt 3 Enter on page 10 112 Scan Options Data As Is 10 111 A MS XX07 Series Integra
58. in Note 2 10 0 in 60 02710 03 80 MRD 4 4 cm 31 8 cm 25 4 cm LC 35 Notes 1 Contrast measured as Mean Reflective Difference MRD at 650 nm 2 Near ranges on largely depend on the width of the bar code and the scan angle 3 Working range specifications Photographic quality symbols pitch 15 skew 0 roll 0 ambient light lt 150 ft candles and temperature 23 C Vcc 5V 4 Measured from the front of the scanner 8 10 MS 3207 Specifications 2D Slab Raster Decode Distances Note Typical performance at 68 F 20 C In on high quality symbols in normal room light p Vec 5V 10 7 5 I 5 25 MiniScadm es se eee ete aise ree aia ue og in igs SS eS een ee E E 0 2 5 6 6 mil PDF 417 5 1 0 k 5 25 L 75 35 10 mil PDF 417 10 i 11 Bs 15 mil PDF 417 xd 10 kK seme 32 0 oops cq SAA In 0 5 10 15 20 25 30 35 cm 0 12 7 25 4 38 1 50 8 63 5 76 2 88 9 Depth of Field Minimum distance determined by symbol length and scan angle Figure 8 6 MS 3207 2D Slab Raster Decode Zone cm 27 9 25 4 15 2 10 1 5 1 5 1 10 1 15 2 25 4 27 9 o 5 o0 S 2 0 8 11 A A MS XX07 Series Integration Guide Table 8 4 MS 3207 2D Slab Raster Decode Distances Symbol Density Bar Code Typical Working Guaranteed Working 3 Symbol p n Content Ranges Ranges Bar Code Type Contrast
59. is the reflectance factor of the background and Rp the reflectance factor of the dark bars The state in which a scanner is configured for parameter values See Scanning Mode A clear space containing no dark marks which precedes the start character of a bar code symbol and follows the stop character Memory devices where any location in memory can be accessed as quickly as any other location Amount of light returned from an illuminated surface The narrowest element dimension which can be distinguished by a particular reading device or printed with a particular device or method Request to send Reduced Space Symbology A family of space efficient symbologies developed by UCC EAN Received data Area intended to contain a symbol A skip back characters gt 13 30 a LLL Lo cia REYRSRP RE ERE 2 20 skip back n characters 13 27 e A EE TEE 13 3 space removal suus 13 32 adding window 0000 2 16 AAA COMAS esas pte tos ita 13 1 specific data string 13 20 ME A S 13 1 13 24 specific string MOVE CUPBOF co ricrssiierias 13 28 any location 13 21 A A 13 24 BI MESSAGE nn baie setup fields 13 27 AAA fos ecksseenee enne 19 20 alphanumeric keyboard 13 80 rule belongs to set 13 23 alternate rule sets 13 4 turn off rule sets 13 79 bar code menu example 13 3 zero removal oss sss se n
60. mal MFG LABEL FRONT OF SCAN ENGINE O 3X M3 3 6 MM LG MAX MOUNTING SCREW HOLES 75 Seren LI 1 50 38 39 10 Notes Unless otherwise specified Dimensions are in inches dimensions in are mm User mounting tolerances are not included Figure 5 3 MS 1207WA Mechanical Drawing 5 5 A A MS XX07 Series Integration Guide MS 1207WA Technical Specifications Table 5 2 provides the MS 1207WA technical specifications Table 5 2 MS 1207WA Technical Specifications 23 C Item Description Power Requirements Input Voltage Scanning Current Standby Current Vec Noise Level 5 0 VDC 10 110 mA 30mA 40 mA 5 mA typical 200 mV peak to peak max Laser Power 0 48 mW 0 05 mW A 670 nm nominal Scan Rate 36 5 scans sec bidirectional Print Contrast Minimum 20 absolute dark light reflectance measured at 670 nm Scan Angle 60 2 Scan Pattern Single scan line Skew Tolerance Pitch Angle Roll 65 from normal see Figure 5 4 on page 5 8 55 from normal see Figure 5 4 on page 5 8 20 from vertical see Figure 5 4 on page 5 8 Decode Depth of Field See Figure 5 5 on page 5 9 Ambient Light Immunity Sunlight Artificial Light 8 000 ft candles 86 112 lux 450 ft candles 4 844 lux Drop Multiple 30 drops Vibration Withstands a sinusoidal vibration of 1 G along each of the 3 mutually per
61. no intercharacter gaps in a continuous code The absence of gaps allows for greater information density Clear to send An area within a scanner s field of view in which specular reflection may prevent a successful decode To recognize a bar code symbology e g UPC EAN and then analyze the content of the specific bar code scanned A decoding scheme that converts pulse widths into data representation of the letters or numbers encoded within a bar code symbol The range between minimum and maximum distances at which a scanner can read a symbol with a certain minimum element width A digital representation of a decoded bar code A binary bar code symbology representing each character by a group of five bars two of which are wide The location of wide bars in the group determines which character is encoded spaces are insignificant Only numeric characters 0 to 9 and START STOP characters may be encoded A bar code or symbol in which the spaces between characters intercharacter gaps are not part of the code Glossary 3 Element Encoded Area Host Computer IEC IEC 60825 Class 1 IEC 60825 Class 2 Intercharacter Gap Interleaved Bar Code Interleaved 2 of 5 Glossary 4 P A MS XX07 Series Integration Guide European Article Number This European International version of the UPC provides its own coding format and symbology standards Element dimensions are specified metrically EAN is used primarily in
62. table wc ccc ce eee e eae aes 10 2 dimensions MS1207FZY 225 die 55dhu ge dina ca 4 6 MS TOT WA sn 3544 as 5 7 MS220T ililesdgadderk ARR banigi 6 7 MS 2207 VAD sesos pi 7 6 A O esr pd 8 7 E ECI decoder usara ia 10 122 delete character set ECls 10 121 electrical interface MiS LORO porra 4 2 MS 1207 WA rad 5 2 Hi 2207 code E e Ri EORR EE 6 2 MS 2207VHD isos er Ree 7 2 A p iee 8 2 escape characters 10 120 H host types ROSZZ civevanvedeosebaseeees 11 6 humidity MS rubric anna 4 6 MS 1207 VA Lice bie bert pirti 5 7 RSF io adque ina ghee phe 6 7 MS 2207 VM eii rb RR ada 7 6 IS OZ AAA had 8 7 l information service oo o xiii a uuu aczaccaca actor goa Ms ded a 2 1 connecting MiniScan 2 8 Isle METER EESTI 2 10 mechanical drawing MS TZ07FZY i l dw xac 4 3 MS T1207 Loss odas aded 5 4 We 2207 P 6 4 MS 2207VHD lt iiososskerteee ns 7 3 MS 2209 P 8 4 MONING o kerr eguieesieeeaoes 2 2 mounting scanner on bracket 2 6 mounting scanner on stand 2 4 mounting SIAN ive nenas dos 2 5 SLE osa diss risiede iub As By 2 4 interface pin outs 4 2 5 2 6 2 7 2 8 2 L laser class MS 1207FZ espro aa 4 6 MES 1207 VN aras cai aod 5 7 MUSEZUT suicida ii 6 7 Ms 2207 Vb AAA adea dedu ROC 7 6 MES SZ ais ews Cages enue 8 7 laser power MS COS REY cercar 4 5 Ma ZO WR serra 5 6 ME 22D dispara tir a 6 6 Index MS ZS
63. transmit no read message 10 23 10 24 nde 10 126 transmit cos in n codeword Tanner s AN convel t UPC El to UPC A TTD MS 1207FZY a oie AT coupon code i52 dadas USQUE stand ementals MOUM usas S EG BAe joa MAR mounting scanner 24 1 technical specifications ma 1 eee Piero UPC A check digit 10 38 UPC A preamble UPC E check digit UPC E preamble 10 42 PCE iussu T 10 30 A LA MS XX07 Series Integration Guide MS 2207VHD cssoscecbess iritsi 7 6 IIS AT FL eek ah at A ESAE 8 7 triggering NOS uasa addu aie wats dtd 3 6 treublesheolng excesserit RE s 9 1 U USB cnbectlo n 1 xa sk aurasxas dk 12 2 USB default parameters 12 3 USB Parameters cios bk E 12 4 W weight MS TZOTEZY coxe 4 6 Index 6 MS T12U MA ere 5 7 M2207 3p pile oak bl Bead E 6 7 MS 2207 VHD aros 7 6 MS 320 s aad sated ee Qu IUE d aves 8 7 window SUI 2 cchob A 2 16 WINDOW coatings basicas eras 2 17 ant re e ol ssrriccrrs sssri ids 2 17 POlVSIOXANE 6 eis dive e mee 2 17 window manufacturers 2 18 window material 2 16 BOO 6 cio be ach RSECRERC EE EE 2 16 A teros terat 2 16 DI MP 2 17 window properties 2 5 22 ciis s 2 17 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 Tech
64. vibration along each of the X Y and Z axes for a period of one hour per axis defined as follows 20 to 80 Hz Ramp up to 0 04 G 2 Hz atthe rate of 3dB octave 80 to 350 Hz 0 04 G 2 Hz 350 to 2000 Hz Ramp down at the rate of 3 dB octave ESD 20kV air discharge 8kV indirect discharge Sealing IP54 Operating Temperature 86 F to 122 F 30 C to 50 C Storage Temperature 104 F to 158 F 40 C to 70 C Humidity 5 to 95 non condensing Laser Class CDRH Class ll IEC Class 2 Height 1 89 in 4 80 cm Width 2 31 in 5 87 cm Depth 3 50 in 8 89 cm Weight 4 97 oz 142 g 8 7 RN Ld A MS XX07 Series Integration Guide Skew Pitch 15 from normal 30 from normal pien 7 h ngle T Skew Angle Scan Beam Scan Beam E E eo Ps N E o M Roll y M Rapt 4 from normal Angle Note Tolerances are reduced at extreme ends of the working range Scan Beam E o rc A E o e Figure 8 4 Skew Pitch and Roll 8 8 MS 3207 Specifications MS 3207 Decode Zones The decode zone is a function of various symbol characteristics including density print contrast wide to narrow ratio and edge acuity The figures shown are typical values Table 8 3 on page 8 10 and Table 8 4 on page 8 12 list the typical and guaranteed distances for selected bar code densities The minimum element width or symb
65. 0 132 For example to decode Code 39 symbols containing between 4 and 12 characters first scan Code 39 Length Within Range Then scan 0 4 1 and 2 single digit numbers must always be preceded by a leading zero To change the selection or cancel an incorrect entry scan the Cancel bar code on page 10 134 Code 39 Length Within Range Any Length Scan this option to decode Code 39 symbols containing any number of characters Code 39 Any Length 10 61 LZ MS XX07 Series Integration Guide Code 39 Check Digit Verification Parameter 30h When this feature is enabled the scanner checks the integrity of all Code 39 symbols to verify that the data complies with specified check digit algorithm Only those Code 39 symbols which include a modulo 43 check digit are decoded Enable Code 39 Check Digit 01h Disable Code 39 Check Digit 00h 10 62 Parameter Menus Transmit Code 39 Check Digit Parameter 2Bh Scan this symbol to transmit the check digit with the data Transmit Code 39 Check Digit Enable 01h Scan this symbol to transmit data without the check digit Do Not Transmit Code 39 Check Digit Disable 00h 10 63 LZ MS XX07 Series Integration Guide Enable Disable Code 39 Full ASCII Para
66. 020 T CTRL T The keystroke in bold is sent only if Function Key Mapping is enabled m P A MS XX07 Series Integration Guide Table A 2 USB ASCII Character Set Continued 1021 U CTRL U 1022 V CTRL V 1023 w CTRLW 1024 X CTRL X 1025 Y CTRL Y 1026 Z CTRL Z 1027 96A CTRL ESC 1028 B CTRL 1029 C CTRL 1030 D CTRL 6 1031 E CTRL 1032 Space Space 1033 IA 1034 IB 1035 IC 1036 D 1037 E 1038 IF amp 1039 IG 1040 IH 1041 N 1042 IJ 1043 IK 1044 L 1045 1046 The keystroke in bold is sent only if Function Key Mapping is enabled ASCII Character Sets Table A 2 USB ASCII Character Set Continued 1047 lo 1048 1049 1050 1051 1052 1053 1054 1055 1056 1057 OO CO NI O oa AJ WwW N OO CO Jj OI oa AJ WwW N 1058 N 1059 F 1060 G A 1061 H 1062 l V 1063 J 1064 V 1065 1066 1067 1068 1069 1070 1071 oQ n m ojojo ol nim olol e 1072 H H The keystroke in bold is sent only if Function Key Mapping is enabled A 9 m ERN d A MS XX07 Series Integration Guide Table A 2 USB ASCII Character Set Continued 1073 1074 1075
67. 0h Disable 10 114 Boot Up Event FOh 02h Disable 10 115 Parameter Event FOh 03h Disable 10 116 Macro PDF MS 2207 MS 2207VHD and MS 3207 only Transmit Symbols in Codeword Afh Disable 10 117 Format Transmit Unknown Codewords BAh Disable 10 119 Escape Character E9h None 10 120 ECI MS 2207 MS 2207VHD and MS 3207 only Delete Character Set ECIs E6h Enable 10 121 ECI Decoder E8h Enable 10 122 Transmit Macro PDF User Selected Fiel d MS 2207 MS 2207VHD and MS 3207 only Transmit File Name BOh Disable 10 123 Transmit Block Count B1h Disable 10 124 10 8 Parameter Menus Table 10 1 Default Table Continued Parameter ica Default ie Transmit Time Stamp B2h Disable 10 125 Transmit Sender B3h Disable 10 126 Transmit Addressee B4h Disable 10 127 Transmit Checksum B6h Disable 10 128 Transmit File Size B5h Disable 10 129 Transmit Macro PDF Control B7h Disable 10 130 Header Last Block Marker B9h Disable 10 131 10 9 A LZ MS XX07 Series Integration Guide Set Default Parameter Scan this bar code to return all parameters to the values listed in Table 10 1 on page 10 2 Set All Defaults 10 10 Parameter Menus Scanning Options Beeper Volume Parameter 8Ch To select a decode beep volume scan the Low Volume Medium Volume or High Volume bar code Low Volume Medium Volume
68. 10 103 LA MS XX07 Series Integration Guide Composite CC A B Parameter FOh 56h Scan a bar code below to enable or disable Composite bar codes of type CC A B Enable CC A B 01h Disable CC A B 00h 10 104 Parameter Menus Composite TLC 39 Parameter FOh 73h Scan a bar code below to enable or disable Composite bar codes of type TLC 39 Enable TLC39 01h Disable TLC39 00h 10 105 A LZ MS XX07 Series Integration Guide UPC Composite Mode Parameter FOh 58h UPC symbols can be linked with a 2D symbol during transmission as if they were one symbol Three options are offered for these symbols Select UPC Never Linked to transmit UPC bar codes regardless of whether a 2D symbol is detected Select UPC Always Linked to transmit UPC bar codes and the 2D portion If 2D is not present the UPC bar code does not transmit If Autodiscriminate UPC Composites is selected the scanner determines if there is a 2D portion then transmits the UPC as well as the 2D portion if present UPC Never Linked 00h UPC Always Linked 01h Autodiscriminate UPC Composites 02h 10 106 Data Options Transmit Code ID Character Parameter 2Dh
69. 11 20 Intercharacter Delay 0 msec 11 21 Nixdorf Beep LED Options Normal Operation 11 22 User selection is required to configure this interface this is the most common selection 11 2 RS 232 Interface Table 11 1 RS 232 Host Default Table Continued Parameter Default Page Number Ignore Unknown Characters Send Bar Code 11 23 User selection is required to configure this interface this is the most common selection A A MS XX07 Series Integration Guide RS 232 Host Parameters Various RS 232 hosts are configured with their own parameter default settings Table 11 2 Selecting the ICL Fujitsu Wincor Nixdorf Mode A Wincor Nixdorf Mode B Olivetti Omron or standard sets the defaults listed below Table 11 2 Terminal Specific RS 232 Wincor Wincor Parameter Standard ig Fujitsu Nixdorf Nixdorf Olivetti Omron Default Mode A Mode B OPOS Transmit Code ID No Yes Yes Yes Yes Yes Yes Data Transmission Data as is Data pan Data Suffix Data Suffix FEIDE Data Suffix Suffix Suffix Suffix Format CR LF Suffix 7013 CR 1013 CR 1013 CR 1013 CR 1013 ETX 1003 CR 1013 Baud Rate 9600 9600 9600 9600 9600 9600 9600 Parity None Even None Odd Odd Even None Hardware None RTS CTS None RTS CTS RTS CTS None None Handshaking Option 3 Option 3 Option 3 Sortware None None None None None Ack Nak None Handshaking Serial Re
70. 2079 ALT O 2080 ALT P 2081 ALT Q 2082 ALT R 2083 ALT S 2084 ALT T 2085 ALT U 2086 ALT V The keystroke in bold is sent only if Function Key Mapping is enabled A 12 ASCII Character Sets Table A 2 USB ASCII Character Set Continued 2087 ALT W 2088 ALT X 2089 ALT Y 2090 ALT Z GUI Shift Keys The Apple iMac keyboard has an apple key on either side of the space bar Windows based systems have a GUI key to the left of the left ALT key and to the right of the right ALT key Other Value Keystroke 3000 Right Control Key 3048 GUI 0 3049 GUI 1 3050 GUI 2 3051 GUI 3 3052 GUI 4 3053 GUI 5 3054 GUI 6 3055 GUI 7 3056 GUI 8 3057 GUI 9 3065 GUI A 3066 GUI B 3067 GUI C 3068 GUI D 3069 GUI E 3070 GUI F 3071 GUI G 3072 GUI H The keystroke in bold is sent only if Function Key Mapping is enabled A 13 Pa LZ MS XX07 Series Integration Guide E Table A 2 USB ASCII Character Set Continued 3073 GUI I 3074 GUI J 3075 GUI K 3076 GUI L 3077 GUI M 3078 GUI N 3079 GUI O 3080 GUI P 3081 GUI Q 3082 GUI R 3083 GUI S 3084 GUI T 3085 GUI U 3086 GUI V 3087 GUI W 3088 GUI X 3089 GUI Y 3090 GUI Z F Keys Keystroke 5001 F1 5002 F2 5003 F3 5004 F4 5005 F5 5006 F6 5007 F7 The keystroke in bold is sent only if
71. 29 send preset value 13 31 skip ahead n characters 13 97 setup M OS Locale eR bd 13 27 Index 1 A LZ MS XX07 Series Integration Guide skip ahead characters skip back characters space removal special commands specific data string turn off rule sets zero removal ammo Imledes us ue coed oe pudis pigiai anti reflection coaters applications fixed mount OEM ASCII character set assembling stand B bar codes data options pause duration RS 232 baud rate beep on bel check receive errors data bits default table hardware handshaking host serial response time out host types intercharacter delay parity RTS line state software handshaking stop bit select scan angle set defaults USB caps lock override country keyboard types default table device type keystroke delay unknown characters beeper Index 2 ACIMIMIONS cosacos 3 8 beeper definitions ssisrisitosiiiitiira 3 8 block elagkam ond seed uote deo dest 1 4 bracket miounting scanner socorrer 2 6 C code types ADF ccoo 13 12 venir epo ici d taka aes Swed 10 117 transmit unknown 10 119 conveyor applications applications COIVBVO sarria rra 2 13 D decode zone MS TPUTEZY eri 4 8 MS 1207WA Liiiisssecen adag hae 5 9 MS sU laisse iras 6 9 MS 2207 VAD rs 7 8 Io da orar 8 9 default parameters csse 10 2 Rod A ERRORES PR 11 2 A Pb pP ee 12 3 default
72. 31 LZ MS XX07 Series Integration Guide Enable Disable EAN 13 Parameter 03h To enable or disable EAN 13 scan the appropriate bar code below Enable EAN 13 01h Disable EAN 13 00h 10 32 Parameter Menus Enable Disable Bookland EAN Parameter 53h To enable or disable EAN Bookland scan the appropriate bar code below Enable Bookland EAN 01h Disable Bookland EAN 00h 10 33 LZ MS XX07 Series Integration Guide UPC EAN Coupon Code Parameter 55h When enabled this parameter decodes UPC A bar codes starting with digit 5 EAN 13 bar codes starting with digit 99 and UPC A EAN 128 Coupon Codes UPC A EAN 13 and EAN 128 must be enabled to scan all types of Coupon Codes Enable UPC EAN Coupon Code Disable UPC EAN Coupon Code Note Use the Decode UPC EAN Supplemental Redundancy parameter to control autodiscrimination of the EAN 128 right half of a coupon code 10 34 Parameter Menus Decode UPC EAN Supplementals Parameter 10h Supplementals are appended characters 2 or 5 according to specific code format conventions e g UPC A 2 UPC E 2 EAN 8 2 Three options are available If UPC EAN with supplemental characters is selected th
73. 5 Decode UPC EAN Supplemental 50h 20 10 37 Redundancy Transmit UPC A Check Digit 28h Enable 10 38 Transmit UPC E Check Digit 29h Enable 10 39 Transmit UPC E1 Check Digit 2Ah Enable 10 40 UPC A Preamble 22h System Character 10 41 UPC E Preamble 23h System Character 10 42 UPC E1 Preamble 24h System Character 10 43 Convert UPC E to A 25h Disable 10 44 10 3 A A MS XX07 Series Integration Guide Table 10 1 Default Table Continued Parameter Page Parameter Number Default Number Convert UPC E1 to A 26h Disable 10 45 EAN 8 Zero Extend 27h Disable 10 46 UPC EAN Security Level 4Dh 0 10 47 Linear UPC EAN Decode 44h Disable 10 49 UPC Half Block Stitching MS 2207 4Ah Disable 10 50 MS 2207 VHD and MS 3207 only Code 128 Code 128 08h Enable 10 51 UCC EAN 128 OEh Enable 10 52 ISBT 128 54h MS 120X Enable 10 53 MS 220X MS 3207 Disable Code 128 Decode Performance 48h Enable 10 54 MS 2207 MS 2207 VHD and MS 3207 only Code 128 Decode Performance Level 49h Level 3 10 55 MS 2207 MS 2207 VHD and MS 3207 only Code 39 Code 39 00h Enable 10 56 Trioptic Code 39 ODh Disable 10 57 Convert Code 39 to Code 32 56h MS 120X MS 3207 10 58 Disable MS 220X Enable 10 4 Parameter Menus Table 10 1 Default Table Continued Parameter Page Parameter Number Default N mber Code 32 Prefix E7h Enable 10 59 Set Length s fo
74. 678905 2 20 in 25 75 in 19 00 in 64 05303 01 80 MRD 559cm 6541cm Note2 48 26 cm 100 UPC 20 mil 123 1 00 in 34 00 in 24 00 in 60 01429 01 80 MRD 2 54cm 86 36cm Note2 60 96 cm Code 39 2 2 1 Note 2 20 mil 123 1 00 in 27 25 in 22 00 in 60 02710 01 25 MRD 2 54cm 69 22cm Note 2 55 88 cm Code 39 2 2 1 Note 2 40 mil AB 2 20 in 66 75 in 49 00 in 64 17457 01 80 MRD 5 59cm 169 55 cm Note 2 124 46 cm Code 39 2 2 1 Note 2 55 mil CD 4 00 in 75 00 in 55 00 in 64 17458 01 80 MRD 10 16cm 190 50 cm Note 2 139 70 cm Code 39 2 2 1 Note 2 Notes 1 Contrast measured as Mean Reflective Difference MRD at 650 nm 2 Near ranges on lower densities largely depend on the width of the bar code and the scan angle 3 Working range specifications Photographic quality symbols pitch 10 skew 0 roll 0 ambient light lt 150 ft candles and temperature 23 C 4 9 A LZ MS XX07 Series Integration Guide Usable Scan Length The decode zone is a function of various symbol characteristics including density print contrast wide to narrow ratio and edge accuracy Consider the width of the scan line at any given distance when designing a system Calculating the Usable Scan Length Method on page 2 11 describes how to calculate the usable scan length The scan angle is provided in Table 4 2 on page 4 5 4 10 Za Chapter 5 MS 1207WA Specifications Overview This chapter provides th
75. Beep LED Options When Nixdorf Mode B is selected this indicates when the scanner beeps and turns on its LED after a decode Normal Operation Beep LED immediately after decode Beep LED After Transmission Beep LED After CTS Pulse 11 22 RS 232 Interface Ignore Unknown Characters Unknown characters are characters the host does not recognize When Send Bar Codes with Unknown Characters is selected all bar code data is sent except for unknown characters and no error beeps sound on the scanner When Do Not Send Bar Codes With Unknown Characters is selected bar code data is sent up to the first unknown character then four error beeps sound on the scanner Send Bar Code with unknown characters Do Not Send Bar Codes with unknown characters 11 23 LA MS XX07 Series Integration Guide 11 24 Chapter 12 USB Interface Introduction This chapter describes how to connect and configure the MS XX07 Series scanner with a USB host The MiniScan attaches directly to a USB host or a powered USB hub which powers it No additional power supply is required Throughout the programming bar code menus asterisks ea indicated default values North American Standard USB Keyboard Indicates Default Feature Option 12 1 A LZ MS XX07 Series Integration Guide Connecting a USB Interface The scanner connects with USB hosts
76. EEe ERRSETI EN ES RENE MEUS 10 34 Decode UPC EAN Supplemientals 4 iuedacddk ar Rx ER CR EUR dE bi o diac 10 35 T srismit UPC Check DIE 23 4 33 43 32d EGO eee ieee Oa gd ak eR a cQ S 10 38 Transit DE E Check DIJI sube bib SEU EE Edid o d Pique dx 10 39 T msrmit DIPCET Ehsck DIBIE ca casinos dos VR RR d deine aida 10 40 UPC Piss MEME Mrs 10 41 Mur 2 based ae Seka aseeiGewididet dake Pd d deed ide udo adde is 10 42 UP Gee PIBSIIME S cosa eub EOM RUE RE RGEPEKCET REQUE PESE e ENIM ERE EES 10 43 Convert UPC E to UPC crm sry bos AA Rn X XU CE TORE RR Pe Y ders 10 44 Convert UPGSET IO UPS oes eg urb esREPEPRREXRERCPERRG RR Rd ped Pew 10 45 EAN Zero EXI isesrkasesku eK erui orit eai teaa PP pee Pe VER Gd e RE 10 46 UPCIEAN Securty Lera ices Sean babes dc dee ed Y RRETRRERO EBENE ERE d AE 10 47 Linear UPC EAN Decode ces ese eek xeebR eek Ree x ex ex dp ona penne 10 49 UPC Malt Block OMONIMO a Era Sabe eee dd eed Rey ed EP T d dw ee ae ae S 10 50 Cool a a bd Eu dido eek d step dA epee cdo ico els 10 51 Enable Disable Code 128 cinco oua doe dde dde dedo dd dde doped dados 10 51 Enable Disable UCCIEANA2S ausus aca acces doa d ikea tae eee ease bad baled 10 52 EnableDisable BT 128 5524 498 43 dr E sane back TOR OR ddp E KR I meee ead 10 53 B nsi tor Coda 6o eer 10 53 Code 128 Decode Perfomance 66 cose sese ew ker koe x Rr EX ee dors 10 54 vi Contents Code 128 Decode Perfomarice Letal oic esee wel P uoce c Eee uso ese ees NM Code
77. ERTICAL 1D 30 LINE SCANNING FIELD 1 Notes Unless otherwise specified Dimensions are in inches dimensions in are mm User mounting tolerances are not included 2 28 58 Figure 7 2 MS 2207VHD Mechanical Drawing 7 3 REND Cd A MS XX07 Series Integration Guide E HOR ZONTAL COLLECTION FIELD NOM I NAL SCAN ANGLE HORIZONTAL 1D AND 2D SCANNING FIELD ETS HOR ZONTAL COLLECTION FIELD MFG LABEL _ 39 10 Notes Unless otherwise specified Dimensions are in inches dimensions in are mm User mounting tolerances are not included FRONT OF SCAN ENGINE 3X M3 3 6 MM LG MAX MOUNTING SCREW HOLES Figure 7 3 MS 2207VHD Mechanical Drawing MS 2207VHD Specifications MS 2207VHD Technical Specifications Table 7 2 provides the MS 2207VHD technical specifications Table 7 2 MS 2207VHD Technical Specifications 23 C Item Description Power Requirements Input Voltage Scanning Current Standby Current Vec Noise Level 5 0 VDC 10 250 30 mA typical 25 5 mA typical 200 mV peak to peak max Laser Power 0 7 mW 0 1 mW X 650 nm nominal Scan Rate 640 scans sec Scan Frequency Horizontal 320 Hz 5 Hz Scan Frequency Vertical 282 Hz 5 Hz Frame Rate 24 frames sec 12 Hz 1 Hz vertical Print Contrast Minimum 35 absolute dark light reflectance differentia
78. Expanded Parameter FOh 54h To enable or disable RSS Expanded scan the appropriate bar code below Enable RSS Expanded 01h Disable RSS Expanded 00h 10 101 A LZ MS XX07 Series Integration Guide Convert RSS to UPC EAN Parameter FOh 8Dh Note This option is supported by the MS 1207FZY and MS 1207WA only This parameter only applies to RSS 14 and RSS Limited symbols not decoded as part of a Composite symbol When this conversion is enabled RSS 14 and RSS Limited symbols encoding a single zero as the first digit have the leading 010 stripped and the bar code reported as EAN 13 Bar codes beginning with two or more zeros but not six zeros have the leading 0100 stripped and the bar code reported as UPC A The UPC A Preamble parameter to transmit the system character and country code applies to converted bar codes Note that neither the system character nor the check digit can be stripped Enable Convert RSS to UPC EAN Disable Convert RSS to UPC EAN 10 102 Parameter Menus Composite Note These options are supported by the MS 2207 MS 2207 VHD and MS 3207 only Composite CC C Parameter FOh 55h Scan a bar code below to enable or disable Composite bar codes of type CC C Enable CC C 01h Disable CC C 00h
79. Function Key Mapping is enabled A 14 ASCII Character Sets Table A 2 USB ASCII Character Set Continued 5008 F8 5009 F9 5010 F10 5011 F11 5012 F12 5013 F13 5014 F14 5015 F15 5016 F16 5017 F17 5018 F18 5019 F19 5020 F20 5021 F21 5022 F22 5023 F23 5024 F24 Keypad Keystroke 6042 E 6043 6044 undefined 6045 6046 6047 6048 0 6049 1 The keystroke in bold is sent only if Function Key Mapping is enabled A 15 Pa LA MS XX07 Series Integration Guide Table A 2 USB ASCII Character Set Continued 6050 2 6051 3 6052 4 6053 5 6054 6 6055 7 6056 8 6057 9 6058 Enter 6059 Num Lock Extended Keypad Keystroke 7001 Break 7002 Delete 7003 PgUp 7004 End 7005 Pg Dn 7006 Pause 7007 Scroll Lock 7008 Backspace 7009 Tab 7010 Print Screen 7011 Insert 7012 Home 7013 Enter 7014 Escape 7015 Up Arrow The keystroke in bold is sent only if Function Key Mapping is enabled A 16 ASCII Character Sets Table A 2 USB ASCII Character Set Continued 7016 Down Arrow 7017 Left Arrow 7018 Right Arrow The keystroke in bold is sent only if Function Key Mapping is enabled A 17 P A MS XX07 Series Integration Guide A 18 Aperture ASCII Autodiscrimination Bar Bar Code D
80. IOPCFVBD asii ds 7 5 Is E ca A RAE acid do 8 6 LED SHORE 1 oscar daa eda Macaca Ados 3 8 M macro PDF delete character set ECls 10 121 ECI decoder 10 122 escape characters 10 120 last blocker marker 10 131 transmit addressee 10 127 transmit block count 10 124 transmit checksum 10 128 transmit file name 10 123 transmit filesize 10 129 transmit macro PDF control header 10 130 transmit sender 10 126 transmit symbols in codeword forms otura ERE REA 10 117 transmit time stamp 10 125 transmit unknown codewords 10 119 transmit user selected fields 10 123 maintenan amp e le ciinnonininia sia x 9 1 mechanical drawing MS IO A AAA 4 3 MS T20P WA sist 4 A 5 4 Ns 220 odo era deu 6 4 MS 220f VAD sarro 7 3 joe cul FE Rr 8 4 MOANING esperare riera 2 2 mounting bracket 1 sa cia 2 6 mounting template 14 1 14 2 N notational conventions xii O operational parameters 10 1 overview ho T1207 EZY cx a kes dwn koe ee es 4 1 MS 1207WA brida arias 5 1 A LZ MS XX07 Series Integration Guide BS GUT rior 6 1 MES Z2OT HD copiosa 7 1 MS 3207 sosa dera 8 1 P parameters RON oleceeks desea tendeaeks 11 4 USE T 12 4 parameters operational 10 1 power requirements MS LOTE seca pts ad udi 4 5 MO T1207 VA sacks stew
81. J Send GUI K Send GUI L 13 76 Advanced Data Formatting Send Graphic User Interface GUI Characters continued Send GUI M Send GUI O Send GUI Q Send GUI N Send GUI P Send GUI R 13 77 A LA MS XX07 Series Integration Guide Send Graphic User Interface GUI Characters continued Send GUI S Send GUI T Send GUI U Send GUI V Send GUI W Send GUI X Send GUI Y Send GUI Z 13 78 Turn On Off Rule Sets Use these bar codes to turn rule sets on and off Turn On Rule Set 1 Turn On Rule Set 3 Turn Off Rule Set 1 Turn Off Rule Set 3 Advanced Data Formatting Turn On Rule Set 2 Turn On Rule Set 4 Turn Off Rule Set 2 Turn Off Rule Set 4 13 79 Se d LZ MS XX07 Series Integration Guide
82. J Send L Send N 13 52 Send Send K Send M Send O Keyboard Characters continued Send P Send R Send T Send V Advanced Data Formatting Send Q Send S Send U Send W 13 53 A LZ MS XX07 Series Integration Guide Keyboard Characters continued Send X Send Z Send Send 13 54 Send Y Send Send Send _ Keyboard Characters continued Send Send b Send d Send f Advanced Data Formatting Send a Send c Send e Send g 13 55 Se d LZ MS XX07 Series Integration Guide Keyboard Characters continued Sendh Send j Send I Send n 13 56 Send i Send k Send m Send o Keyboard Characters continued Send p Sendr Sendt Send v Advanced Data Formatting Send q Send s Sendu Send w 13 57 A LZ MS XX07 Series Integ
83. LZ MS XX07 Series Integration Guide On an addressable boundary eight adjacent binary digits 0 and 1 combined in a pattern to represent a specific character or numeric value Bits are numbered from the right 0 through 7 with bit 0 the low order bit One byte in memory can be used to store one ASCII character Center for Devices and Radiological Health A federal agency responsible for regulating laser product safety This agency specifies various laser operation classes based on power output during operation This is the lowest power CDRH laser classification CDRH Class devices are safe under reasonably foreseeable conditions of operation Software and other controls to limit exposure to laser light may be required to achieve CDRH Class operation The CDRH time base for Class devices is 10 000 seconds CDRH Class Il devices may not emit more than 1 milliwatt average radiant power Eye protection for CDRH Class Il devices is normally afforded by aversion responses including the blink reflex A pattern of bars and spaces which either directly represents data or indicates a control function such as a number letter punctuation mark or communications control contained in a message Those characters available for encodation in a particular bar code symbology A digit used to verify a correct symbol decode The scanner inserts the decoded data into an arithmetic formula and checks that the resulting number matches the encoded chec
84. Length Within Range then scan 0 4 1 and 2 single digit numbers must always be preceded by a leading zero Numeric bar codes begin on page 10 132 To change the selection or cancel an incorrect entry scan the Cancel bar code on page 10 134 Codabar Length Within Range Any Length Scan this option to decode Codabar symbols containing any number of characters Codabar Any Length 10 86 Parameter Menus CLSI Editing Parameter 36h When enabled this parameter strips the start and stop characters and inserts a space after the first fifth and tenth characters of a 14 character Codabar symbol Note Symbol length does not include start and stop characters Enable CLSI Editing 01h Disable CLSI Editing 00h 10 87 A LZ MS XX07 Series Integration Guide NOTIS Editing Parameter 37h When enabled this parameter strips the start and stop characters from decoded Codabar symbol Enable NOTIS Editing 01h Disable NOTIS Editing 00h 10 88 Parameter Menus MSI Plessey Enable Disable MSI Plessey Parameter OBh To enable or disable MSI Plessey scan the appropriate bar code below Enable MSI Plessey 01h Disable MSI Plessey 00h 10 89 A LZ MS XX07 Series Integration Guide Se
85. NOTIS Editing 37h Disable 10 88 MSI Plessey MSI Plessey OBh Disable 10 89 Set Length s for MSI Plessey 1Eh Length Within Range 10 90 1Fh 06 55 10 6 Table 10 1 Default Table Continued Parameter Menus Parameter anaes Default Phat MSI Plessey Check Digits 32h One 10 92 Transmit MSI Plessey Check Digit 2Eh Disable 10 93 MSI Plessey Check Digit Algorithm 33h Mod 10 Mod 10 10 94 PDF417 MicroPDF417 MS 2207 MS 2207VHD and MS 3207 Only PDF417 Ofh MS 220X Enable 10 95 MS 3207 Disable MicroPDF417 E3h Disable 10 96 MicroPDF Performance FOh 65h Standard 10 97 Code 128 Emulation 7Bh Disable 10 98 RSS RSS 14 FOh 52h Disable 10 99 RSS Limited FOh 53h Disable 10 100 RSS Expanded FOh 54h Disable 10 101 Convert RSS to UPC EAN FOh 8Dh Disable 10 101 MS 1207FZY and MS 1207WA only Composite MS 2207 MS 2207VHD and MS 3207 only CC C FOh 55h Disable 10 103 CC AB FOh 56h Disable 10 104 TLC 39 FOh 73h Disable 10 105 UPC Composite Mode FOh 58h Always Linked 10 106 10 7 A A MS XX07 Series Integration Guide Table 10 1 Default Table Continued Parameter pecan Default i add Data Options Transmit Code ID Character 2Dh None 10 107 Prefix Suffix Values 10 109 Prefix 69h NULL Suffix 1 68h CR Suffix 2 6Ah LF Scan Data Transmission Format N A Data as is 10 111 Event Reporting Decode Event FOh 0
86. Near Far Near Far 6 6 mil 123 1 0 in 5 25 in 1 5 in 3 75 in 64 14035 01 80 MRD 2 54 cm 13 34cm 3 8cm 9 5 cm 2D 10 mil ABCDEF 3 5 in 9 5 in 5 0 in 7 5 in 64 14037 01 80 MRD 8 89 cm 24 13cm 12 7 cm 9 5 cm 2D 15 mil 012345678905 6 5 in 14 0 in Note 2 11 0 in 64 14038 01 80 MRD 16 51 cm 35 6 cm 24 1 cm 2D 55 mil CD 1 0 in 32 in Note 2 22 0 in 64 17458 01 80 MRD 2 54 cm 81 3 cm 55 9 cm 1D Notes 1 Contrast measured as Mean Reflective Difference MRD at 650 nm 2 Near ranges on largely depend on the width of the bar code and the scan angle 3 Working range specifications Photographic quality symbols pitch 15 skew 0 roll 0 ambient light lt 150 ft candles and temperature 23 C Vcc 5V 4 Measured from the front of the scanner Usable Scan Length The decode zone is a function of various symbol characteristics including density print contrast wide to narrow ratio and edge acuity Width of decode zone at any given distance must be considered when designing a system Calculating the Usable Scan Length Method on page 2 11 provides a detailed description of how to calculate the usable scan length The scan angle is provided in Table 8 2 on page 8 6 8 12 Za Chapter 9 Maintenance and Troubleshooting Overview The chapter provides information on maintenance and troubleshooting Maintenance Cleaning the exit window is the only maintenance required Do not allow any abras
87. S qud 10 117 Transmit Symbols in Codeword Format csssuuosse e khe RE RR 10 117 Transmit Unknown GodeWoIdS iis saa beretter E YOROA X onc CR X Re Xx eese i 10 119 Escape Charol arras id 10 120 Delete Character Set ECS morirse rear dra 10 121 ep wick 5 oe 4 swe AA 10 122 Transmit Macro PDF UserSel cted Fleld iiis iesadaasadgkkaadquud kd sack e ok da 10 123 Tr nsmit File Name o aii Rew ESTAX REE Rw Rack dd rd b Rack ga Read 10 123 TESTE EI COME aos aco OU OA ACA er b COR BAB RED prr do do bed b ed ddr b gs 10 124 Transit Tite OTIO La added d E dede d HCE tare 92 HER addon duce dodo oa dide d 10 125 TESST SONUS vacila ra gd tetrad a dod d oe RO do EE aoo Codd E a a a diclo odd 10 126 TrAnsmit Ad dr sse6 four lau ki a A kd Rob Rok dod e baw BOR CR Rede Oe 10 127 Traps D A ENE Re MERE 10 128 TONSIL FILS A bep E ped aus 10 129 Transmit Macro PDF Control Header ocooommcmririrra car ara REESE OE 10 130 Last BlsckBr NIRE cua e Ra ROS be bud Re sd o bei Pa dae S ERE 10 131 NMurenc Bar LOOSE 10 132 ANN A A E E E E EE EAA 10 134 Chapter 11 RS 232 Interface MMC a EE dai db da L b E d ON E E OEE E E 11 1 RS 232 Default Par melee uox cies tex bapQpR ir r dines bbe Erer EEE E eee d eer 11 2 RS 232 Host PATEAR a 11 4 RS 232 Host Types soccer eu irepo kpt obet ERE prada E Pad A Fs 11 6 viii Contents Baud Rate eerie ee MM TES E Ed nem Rata Reel ple EAGT AA 12 13 13 Advanced Data Formatting Special Commands
88. TE SER Red PR Rack ER ERR S RS EE 13 80 Chapter 14 Mounting Template Cus vili ee ee eee eee eee eee dd ddr ee ee ee eed dg dd ve reda aita 14 1 MS 1207FZY MS 1207WA MS 2207 MS 2207VHD Mounting Template 14 1 MS 3207 Mounting Templates cede dios qued raid dad dedawee 14 2 Appendix A ASCII Character Sets RS 232 ASCII Character Olor A 1 USE ASCI es SL soutenu Rede Red E II A 7 Glossary Index e About This Manual The MiniScan MS XX07 Series Integration Guide provides general instructions for mounting setting up and programming the following MiniScan models MS 1207FZY MS 1207WA MS 2207 MS 2207VHD MS 3207 Note t is recommended that an opto mechanical engineer perform an opto mechanical analysis prior to integration Chapter Descriptions Topics covered in this guide are as follows Chapter 1 Introduction provides an overview of the MiniScan scanners and features and provides a block diagram of the scanner Chapter 2 Installation describes how to mount and install the MiniScan scanner Chapter 3 Scanning provides information on scan patterns scanning triggering options and beeper and LED definitions Chapter 4 MS 1207FZY Specifications provides the technical and scanning specifications for the MS 1207FZY scanner Chapter 5 MS 1207WA Specifications provides the technical and scanning specifications for the MS 1207WA scanner Xi A LZ MS XX07 Series Integration Guide
89. Table 7 1 lists the pin functions of the MS 2207VHD Table 7 1 MS 2207VHD Electrical Interface Pn Pin Name Type Function No 1 Trigger l Signals scanner to begin scanning session 2 TXD O Serial data transmit output Drives the serial data receive input on the device communicating with the scanner 3 RXD l Serial data receive input Driven by the serial data transmit output on the device communicating with the scanner 4 Not used 5 Ground Power supply ground input and signal ground reference 6 Power l 5 0 VDC x 10 7 CTS l Clear to send handshaking input line used only in conjunction with the RTS line Optionally used by another device to signal the scanner to begin transmitting data 8 RTS O Request to send handshaking output line used only in conjunction with the CTS line Optionally used by the scanner to signal another device that data is available to send 9 Beeper I O During normal operation this signal functions as an external beeper Download drive line This signal can sink 50mA of current to drive an external beeper and is normally pulled up This signal is also used to begin Flash Download operation when grounded externally during power up Input O Output 7 2 MS 2207VHD Specifications MS 2207VHD Mechanical Drawings VERTICAL 2D FRONT OF SCANNING FIELD NOMI NAL CHASSIS SCAN ANGLE 2D DB9 CONNECTOR 1 60 NOMINAL V
90. The MS 1207FZY scanner supports two scan angles see Table 4 2 on page 4 5 for these angles To set the scan angle scan a parameter bar code see Scan Angle on page 10 15 Once the parameter bar code is scanned that scan angle setting is retained Operation in Blink Mode The scan angle during Blink Mode is determined by the scan angle system parameter Scanning Scanning Tips When scanning make sure the symbol to be scanned is within the scanning range See Calculating the Usable Scan Length Method on page 2 11 Align the bar code with the scan beam The green decode LED lights to indicate a successful decode Scan the Entire Symbol The scan beam must cross every bar and space on the symbol The larger the symbol the farther away the scanner should be positioned Position the scanner closer for symbols with bars that are close together RIGHT WRONG Position at an Angle Do not position the scanner exactly perpendicular to the bar code In this position light can bounce back into the scanner s exit window and prevent a successful decode 3 5 A A MS XX07 Series Integration Guide Trigger Options Continuous Default The laser is enabled continuously and decode processing is continuously active The scanner can be configured to scan and transmit a bar code and then not decode the same bar code or any bar code for a set period of time See Timeout Between Decodes on page 10 21 to customize the application to the
91. V SYN 1023 w ETB 1024 X CAN 1025 Y EM 1026 z SUB 1027 A ESC 1028 B FS 1029 C GS 1030 D RS 1031 E US 1032 Space Space 1033 IA 1034 IB 7 1035 IC 1036 ID 1037 IE 96 A 2 ASCII Character Sets Table A 1 Prefix Suffix Values Continued Prefix Suffix Value Full ASCII Code 39 Encode Character ASCII Character 1038 IF 1039 IG 1040 H 1041 l 1042 1043 IJ IK 1044 IL 1045 1046 1047 10 1048 1049 1050 1051 1052 1053 1054 1055 1056 1057 o CO OD om AJ wl N OO CO OD om AJ wl N 1058 N 1059 ES S 1060 G 1061 H 1062 l 1063 J A 3 E nri 24 LZ MS XX07 Series Integration Guide Table A 1 Prefix Suffix Values Continued Prefix Suffix Value Full ASCII Code 39 Encode Character ASCII Character 1064 V 1065 A 1066 1067 1068 1069 1070 1071 1072 IO n mj oc ou r lo mim c o a r 1073 1074 1075 1076 1077 1078 1079 1080 1081 1082 1083 1084 1085 1086 1087 1088 1089 lt X g lt C A 0 D O V O Z Z C Ay csc lt X g lt C A 0 D O V O Z Z C c A 4 ASCII Character Sets Table A 1 P
92. able Interleaved 2 of 5 Parameter 06h To enable or disable Interleaved 2 of 5 scan the appropriate bar code below Enable Interleaved 2 of 5 01h Disable Interleaved 2 of 5 00h 10 75 A LZ MS XX07 Series Integration Guide Set Lengths for Interleaved 2 of 5 Parameter L1 16h L2 17h The length of a code refers to the number of characters i e human readable characters the code contains and includes check digits Lengths for 2 of 5 can be set for any length one or two discrete lengths or lengths within a specific range One Discrete Length Select this option to decode only those codes containing a selected length For example select 2 of 5 One Discrete Length then scan 1 4 to decode only 2 of 5 symbols containing 14 characters Numeric bar codes begin on page 10 132 To change the selection or cancel an incorrect entry scan the Cancel bar code on page 10 134 2 of 5 One Discrete Length Two Discrete Lengths Select this option to decode only those codes containing two selected lengths For example select 2 of 5 Two Discrete Lengths then scan 0 2 1 4 to decode only 2 of 5 symbols containing 2 or 14 characters Numeric bar codes begin on page 10 132 To change the selection or cancel an incorrect entry scan the Cancel bar code on page 10 134 12 of 5 Two Discrete Lengths 10 76
93. able default rules enter the following general rule in the user programmable buffer When receiving scan data send all data Since this rule always applies ADF never goes into the default rules 13 7 A A MS XX07 Series Integration Guide Special Commands Pause Duration This parameter along with Send Pause on page 13 28 inserts a pause in the data transmission To set a pause which is measured in 0 1 second intervals scan a two digit number i e two numeric bar codes For example scanning bar codes 0 and 1 inserts a 0 1 second pause 0 and 5 inserts a 0 5 second delay Numeric bar codes begin on page 10 132 To change the selection or to cancel an incorrect entry scan Cancel on page 10 134 Pause Duration Begin New Rule Scan this bar code to start entering a new rule Begin New Rule Advanced Data Formatting Save Rule Scan this bar code to save the entered rule Save Rule Erase Use these bar codes to erase criteria actions or rules Erase Criteria And Start Again Erase Actions And Start Again Erase Previously Saved Rule Erase All Rules 13 9 A LA MS XX07 Series Integration Guide Quit Entering Rules Scan this bar code to quit entering rules Quit E
94. al of 8 using the Alphanumeric Keyboard beginning on page 13 80 4 Scan End Of Message on page 13 86 Specific String Any Location Any Message OK Do not scan a bar code to format all selected code types regardless of information contained 13 21 A LA MS XX07 Series Integration Guide Numeric Keypad Do not confuse these bar codes with those on the alphanumeric keyboard 0 2 4 6 8 13 22 Cancel 1 3 5 7 9 Advanced Data Formatting Rule Belongs To Set Scan a bar code below to select the set a rule belongs to There are four possible rule sets Refer to Alternate Rule Sets on page 13 4 for more information Rule Belongs To Set 1 Rule Belongs To Set 2 Rule Belongs To Set 3 Rule Belongs To Set 4 13 23 A LA MS XX07 Series Integration Guide Actions Select how to format the data for transmission Send Data Scan the following bar codes to send all data that remains send all data up to a specific character selected from the Alphanumeric Keyboard on page 13 80 or send the next N characters N any number from 1 to 254 selected from the Alphanumeric Keyboard Send All Data That Remains Send Next 2 Characters Send Next 4 Character
95. always be preceded by a leading zero Numeric bar codes begin on page 10 132 To change the selection or cancel an incorrect entry scan the Cancel bar code on page 10 134 MSI Plessey Length Within Range Any Length Scan this option to decode MSI Plessey symbols containing any number of characters Note Selecting this option can cause misdecodes for MSI Plessey codes MSI Plessey Any Length 10 91 A MS XX07 Series Integration Guide MSI Plessey Check Digits Parameter 32h These check digits at the end of the bar code verify the integrity of the data At least one check digit is required Check digits are not automatically transmitted with the data One MSI Plessey Check Digit 00h If two check digits is selected also select an MS Plessey Check Digit Algorithm See page 10 94 Two MSI Plessey Check Digit 01h 10 92 Parameter Menus Transmit MSI Plessey Check Digit Parameter 2Eh Scan this symbol to transmit the check digit with the data Transmit MSI Plessey Check Digit Enable 01h Scan this symbol to transmit data without the check digit Do Not Transmit MSI Plessey Check Digit Disable 00h 10 93 LA MS XX07 Series Integration Guide MSI Plessey Check Digit Algorithm Parameter 33h
96. anner withstands a random vibration along each ofthe X Y and Z axes for a period of one hour per axis defined as follows 20 to 80 Hz Ramp up to 0 04 G 2 Hz at the rate of 3dB octave 80 to 350 Hz 0 04 G 2 Hz 350 to 2000 Hz Ramp down at the rate of 3 dB octave ESD 20kV air discharge 8kV indirect discharge Sealing IP54 Operating Temperature 4 to 122 F 20 to 50 C Storage Temperature 40 to 158 F 40 to 70 C Humidity 5 to 95 non condensing Laser Class CDRH Class Il IEC Class 2 Height 1 60 in 4 06 cm Width 2 28 in 5 79 cm Depth 2 94 in 7 47 cm Weight 4 73 oz 134 gm 6 7 us uel A MS XX07 Series Integration Guide Pitch Pitch Skew 49 from normal Scan Beam 6 8 55 from normal Angle j 15 mil Symbol Scan Beam Roll 20 from normal Angle Note Tolerances are reduced at extreme ends of the working range SP E SN V WN N Nem Scan Beam E E us S E Figure 6 4 Skew Pitch and Roll MS 2207 Specifications MS 2207 Decode Zones The decode zone is a function of various symbol characteristics including density print contrast wide to narrow ratio and edge acurity Typical values are shown Table 6 3 on page 6 10 and Table 6 4 on page 6 12 list the typical and guaranteed distances for selected bar code densities The minimum
97. ar space pair consists of one information bit A zero bit consists of a narrow bar followed by a wide space while one bit consist of a wide bar followed by a narrow bar The zero bit is one unit bar followed by a two unit space and the one bit is a two unit bar followed by a one unit space The primary application for the MSI Plessey code is marking of retail shelves and subsequent scanning with portable devices for inventory purposes The exact or ideal intended value for a specified parameter Tolerances are specified as positive and negative deviations from this value Standard size for a bar code symbol Most UPC EAN codes can be used over a range of magnifications e g from 0 80 to 2 00 of nominal An option that strips the start and stop characters from a decoded Codabar symbol A variable that can have different values assigned to it The average probability that a single scan of a bar code would result in a successful decode In a well designed bar code scanning system that probability should approach near 100 Glossary 5 P LZ MS XX07 Series Integration Guide Print Contrast Signal PCS Programming Mode Quiet Zone Random Access Memory RAM Reflectance Resolution RTS RSS RxD Scan Area Glossary 6 Measurement of the contrast brightness difference between the bars and spaces of a symbol A minimum PCS value is needed for a bar code symbol to be scannable PCS R Rp Rq where R
98. aracter actions tap the specified key while holding the System Dependent Graphic User Interface GUI key The definition of the Graphic User Interface key depends on the attached system Send GUI 0 Send GUI 1 Send GUI 2 Send GUI 3 13 73 A LA MS XX07 Series Integration Guide Send Graphic User Interface GUI Characters continued Send GUI 4 Send GUI 6 Send GUI 8 13 74 Send GUI 5 Send GUI 7 Send GUI 9 Advanced Data Formatting Send Graphic User Interface GUI Characters continued Send GUI A Send GUI B Send GUI C Send GUI D Send GUI E Send GUI F 13 75 A LA MS XX07 Series Integration Guide Send Graphic User Interface GUI Characters continued Send GUI G Send GUI H Send GUI I Send GUI
99. bar code on page 10 134 D 2 of 5 One Discrete Length Two Discrete Lengths Select this option to decode only those codes containing two selected lengths For example select D 2 of 5 Two Discrete Lengths then scan 0 2 1 4 to decode only D 2 of 5 symbols containing 2 or 14 characters Numeric bar codes begin on page 10 132 To change the selection or cancel an incorrect entry scan the Cancel bar code on page 10 134 D 2 of 5 Two Discrete Lengths 10 82 Parameter Menus Length Within Range Select this option to decode codes within a specified range For example to decode D 2 of 5 symbols containing between 4 and 12 characters first scan D 2 of 5 Length Within Range then scan 0 4 1 and 2 single digit numbers must be preceded by a leading zero Numeric bar codes begin on page 10 132 To change the selection or cancel an incorrect entry scan the Cancel bar code on page 10 134 D 2 of 5 Length Within Range Any Length Scan this option to decode D 2 of 5 symbols containing any number of characters Note Selecting this option can lead to misdecodes of D 2 of 5 codes D 2 of 5 Any Length 10 83 A LZ MS XX07 Series Integration Guide Codabar Enable Disable Codabar Parameter 07h To enable or disable Codabar scan the appropriate bar code below Enable Codabar 01h Disable
100. beeper Download drive line This signal can sink 50mA of current to drive an external beeper and is normally pulled up This signal is also used to begin Flash Download operation when grounded externally during power up Input O Output 6 3 A LZ MS XX07 Series Integration Guide MS 2207 Mechanical Drawings VERTICAL 2D NOMINAL FRONT OF SCANNING FIELD SCAN ANGLE CHASSIS 2D DB9 CONNECTOR 1 60 1411 738 0 18 NW 20 25 NOMINAL VERTICAL 1D SCAN LINE SCANNING FIELD 2 94 1D 75 88 22 Notes Unless otherwise specified Dimensions are in inches dimensions in are mm User mounting tolerances are not included 2 28 58 Figure 6 2 MS 2207 Mechanical Drawing MS 2207 Specifications NOM I NAL SCAN ANGLE HORIZONTAL 1D AND 2D SCANNING FIELD HORI ZONTAL COLLECTION FIELD 213 HORIZONTAL COLLECTION FIELD 56 14 MFG LABELS FRONT OF SCAN ENGINE La 3X M3 3 6 MM LG MAX 19 MOUNTING SCREW HOLES 1 50 39 38 10 po Notes Unless otherwise specified Dimensions are in inches dimensions in are mm User mounting tolerances are not included Figure 6 3 MS 2207 Mechanical Drawing 6 5 A LA MS XX07 Series Integration Guide MS 2207 Technical Specifications Table 6 2 provides the MS 2207 technical specifications Table 6 2 MS 2207 Technical Specifications 23 C
101. bile giter widest cin sie E PARE ROO e Aden Rag Ned xiii Chapter 1 Introduction sos PR RS ORES 1 1 NS AOI Seres FRAO AAA P RE EECRE ERR Ss dee sews 1 3 Typical ApplCalioriS i2 sese uw eens be oe x aO x va ewe cw gd Ad vu REWER WET n 1 3 Cie MEI EO EN ETT TETTE A OLTRE 1 4 Miniscan Block Diagram Descriptions ses cee mmm mee 1 4 Chapter 2 Installation EIU dL UMEN eee Cee eee I COT ee ee A Ada eer 2 1 UNPa KDD saciedad iras dados 2 1 MIDI sac E A E a a ke dex a Rad bM qudd 2 2 MS 1207FZY MS 1207WA MS 2207 MS 2207VHD Mounting Dimensions 2 2 MS 3207 Mounting DIMENSIONS cx ousqukee3yQ Te riera VERSA GS E WR KE RR 2 3 Mounting the Scanner on the Optional Stand 0 0 0 cee eee eee 2 4 Mounting the Scanner on the Optional Mounting Bracket 0 00000 e eee 2 6 Connecting the MIDISCBI uus per ewdeexdtrspreEgs dede ne adb d axe epa eg as 2 8 Locatlorban POSI IM secu ac eei RR ERR aE Re E RR i yria ED ERES os 2 10 Using the MiniScan as an Embedded Scanner lilllllel ellen 2 10 Conveyor ONES ecu dd ibaa dob eod br Qd cite Rd Ro qa eek wee get heeds 2 13 Embedded Applications Requiring a Window 0 00 0 2 16 pr 00 P RR ee tas ee ee ee eee ee dara ee dr da a 2 20 Application Noas sappeurs drr bad sd eager d baud ddp Rd dd ddr ado qui ge aded 2 22 TALES M oo ia deduc ead Erud pg d dew d tas a didi ieee sae dd dp 2 22 A LZ MS XX07 Series Integratio
102. continues until a trigger release a valid decode or the Laser On Time out is reached e Pulse A trigger pull activates the laser and decode processing The laser remains on and decode processing continues until a valid decode or the Laser On Time out is reached Continuous The laser is always on and decoding Blink This trigger mode is used for triggerless ScanStand operation Scanning range is reduced in this mode This mode is only supported by MS 1207FZY models Host A host command issues the triggering signal The scanner interprets an actual trigger pull as a Level triggering option Level Pulse 00h 02h Continuous Blink 04h 07h Host 08h 10 17 LA MS XX07 Series Integration Guide Scanning Mode Parameter 8Dh Note These options are supported by the MS 2207 MS 2207 VHD and MS 3207 only Select one of the following scanning modes Smart Raster Always Raster Slab Only Raster Programmable Raster e Omnidirectional Cyclone Semi Omnidirectional Note f Omnidirectional is selected disabling the following parameters is recommended PDF417 MicroPDF417 RSS Limited CC C CC AB TLC 39 and Linear UPC Smart Raster Always Raster 01h 02h Programmable Ra
103. crete 2 of 5 HONS seras a0 cates 10 82 EC GBCOUB ca ciieuexsbo eens 10 122 escape characters 10 120 event reporting 10 113 10 116 bootupevent 10 115 decode event sese 10 114 parameter event 10 116 Interleaved 205 sce 10 75 check digit verification 10 78 convert 2 of 5 to EAN 13 10 80 enel d anmaceunscosubbesc 10 76 transmit check digit 10 79 ISBT 128 enable disable 0 2 10 53 laser on UNO uuiecend series 10 14 last blocker marker 5 sisse 10 131 linear code type security 10 25 10 26 linear UPC EAN decode 10 49 MicroPDPAMY sierras 10 96 performance 5 2 0ssceawe nen 10 97 MSI pless amp y cocco serere 10 89 check digit algorithm 10 94 check digits seco 10 92 A is 10 90 transmit check digit 10 93 numeric bar codes 10 132 10 134 POPS usas ass 10 95 powermode cosvicarsiicra reas 10 16 prefix suffix values 10 109 programmable raster size expansion 10 20 Index MEER 10 99 UPC E1 preamble 10 43 RSS limited xdi usus cane 10 101 scan data transmission format 10 111 scanning MONS 2 cccndecenkace 10 18 set garauts 3 transmit block count sassa sa 1012 S scan bos transmit checksum 10 128 transmit code ID character 10 107 transmit file name i it macro PDF u user selected fields o RS Lo a
104. d Page Up Key Send Page Down Key Send Scroll Lock Key Send Tab Key Advanced Data Formatting Send Delete Key Send End Key Send Pause Key Send Backspace Key Send Print Screen Key 13 65 A LA MS XX07 Series Integration Guide Send Keypad Characters continued Send Insert Key Send Enter Key Send Up Arrow Key Send Left Arrow Key 13 66 Send Home Key Send Escape Key Send Down Arrow Key Send Right Arrow Key Send Function Key Advanced Data Formatting Scan the bar code representing the function key you want to send Send F1 Key Send F3 Key Send F5 Key Send F7 Key Send F9 Key
105. de 128 L len None K K K len L len 12 0f 5 len None len len Code 93 None None L L L len None D2of5 H lt len gt None H H H lt len gt H lt len gt UCC EAN 128 L len None P P P len L len MSI None None O O O lt len gt None Bookland EAN F F A A A F Trioptic None None None None None None Code 11 None None None None None None ATA H lt len gt None H H None None Code 32 None None None None None None 11 5 LZ MS XX07 Series Integration Guide RS 232 Host Types To select an RS 232 host interface scan one of the following bar codes Note You must select an interface as there is no default Standard RS 232 is the most common selection Standard RS 232 ICL RS 232 Wincor Nixdorf RS 232 Mode A Wincor Nixdorf RS 232 Mode B RS 232 Interface RS 232 Host Types continued Olivetti ORS4500 Omron OPOS JPOS Fujitsu RS 232 LZ MS XX07 Series Integration Guide Baud Rate Baud rate is the number of bits of data transmitted per second The scanner s baud rate setting should match the baud rate setting of the host device If not data may not reach the host device or may reach it in distorted form Baud
106. discharge Sealing IP54 Operating Temperature 4 to 122 F 20 to 50 C Storage Temperature 40 to 158 F 40 to 70 C Humidity 5 to 95 non condensing Laser Class CDRH Class ll IEC Class 2 Height 1 60 in 4 06 cm Width 2 28 in 5 79 cm Depth 2 94 in 7 47 cm Weight 4 45 oz 126 gm Note Environmental and or tolerance parameters are not cumulative 4 6 MS 1207FZY Specifications Pitch Pitch Angle gt 65 from normal Skew 50 from normal ne Skew Angle 20 mil Symbol a Scan Beam Scan Beam E T 2 Roll WASTE 20 from normal Angle d E i Note Tolerances are reduced at extreme ends of the working range Scan Beam EB amp EN 2 E o P 4 7 Figure 4 4 Skew Pitch and Roll A A MS XX07 Series Integration Guide MS 1207FZY Decode Zone The scanner has a selectable scan angle of either 30 or 42 The 42 symbol decodes are shown in Figure 4 5 The figures shown are typical values Table 4 3 on page 4 9 lists the typical and guaranteed distances for the 42 scan angle for selected bar code densities The minimum element width or symbol density is the width in mils of the narrowest element bar or space in the symbol The maximum usable length of a symbol at any given range is shown below To calculate this distance see Calculating the Usable Scan Length Method
107. e Select the desired USB device type Note When changing USB Device Types the scanner automatically restarts and issues the standard startup beep sequences HID Keyboard Emulation IBM Table Top USB IBM Hand Held USB 12 4 USB Interface 7 A USB Country Keyboard Types Country Codes Scan the bar code corresponding to the keyboard type This setting applies only to the USB HID Keyboard Emulation device North American Standard USB Keyboard German Windows French Windows 12 5 A LZ MS XX07 Series Integration Guide USB Country Keyboard Types continued French Canadian Windows 95 98 French Canadian Windows 2000 XP Spanish Windows Italian Windows 12 6 USB Interface 7 SS USB Country Keyboard Types continued Swedish Windows UK English Windows Japanese Windows ASCII
108. e 13 28 then any printable ASCII character from the Alphanumeric Keyboard When this is used the cursor moves to the position after the matching character If the character is not there the rule fails and ADF tries the next rule 13 28 Move Cursor to Start of Data Scan this bar code to move cursor to the beginning of the data 13 28 Move Cursor Past a Character This parameter moves the cursor past all sequential occurrences of a selected character For example if the selected character is A then the cursor moves past A AA AAA etc Scan the Move Cursor Past Character bar code on page 13 28 then select a character from the Alphanumeric Keyboard lf the character is not there the cursor does not move i e has no effect 13 28 Skip Ahead N Characters Skip Back N Characters Scan one of these bar codes to select the number of positions ahead to move the cursor Scan one of these bar codes to select the number of positions back to move the cursor 13 29 13 30 Send Preset Value Send Values 1 through 6 by scanning the appropriate bar code from Prefix Suffix Values on page 10 109 These values must be set using the prefix suffix values in Table A 1 on page A 1 and Table A 2 on page A 7 Value 2 Scan Prefix Value 1 Scan Suffix 1 Value 3 Scan Suffix 2 13 31 13 27 A LZ MS XX07 Series Integration Guide Move Cursor Scan a bar code
109. e Mode 1 17 30 MS 1207WA 1 17 60 MS 2207 1 53 34 MS 2207VHD 1 53 34 MS 3207 1 93 34 where D Distance in inches from the front edge of the host housing to the bar code d The host housing s internal optical path from the edge of the housing to the front of the MiniScan scanner B Internal optical path from the scan mirror to the front edge of the MiniScan scanner A Scan angle in degrees Note Usable scan length determined by this formula or 90 of scan line at any working distance This formula is based on good quality symbols in the center of the working range and length of bar code 2 11 A A MS XX07 Series Integration Guide Host System MiniScan A EET Figure 2 8 Usable Scan Length Diagram Testing the Usable Scan Length Method Due to the variety of symbol sizes densities print quality etc there is no simple way to calculate the ideal symbol distance To optimize performance use the Testing The Usable Scan Length positioning method 1 Measure the maximum and minimum distances at which the symbols can be read 2 Check the near and far range on several symbols If they are not reasonably consistent there may be a printing quality problem that can degrade the performance of the system Symbol Technologies can provide advice on how to improve the installation Note Poor quality symbols from bad printing wear or damage may no
110. e scanner does not decode UPC EAN symbols without supplemental characters If UPC EAN without supplemental characters is selected and the MiniScan is presented with a UPC EAN plus supplemental symbol the scanner decodes the UPC EAN and ignores the supplemental characters If autodiscriminate is selected scan Decode UPC EAN Supplemental Redundancy on page 10 37 then select a value from the numeric bar codes beginning on page 10 132 A value of 5 or more is recommended If Enable 378 379 Supplemental Mode is selected the scanner identifies supplementals for EAN 13 bar codes starting with a 378 or 379 prefix only All other UPC EAN bar codes are decoded immediately and the supplemental characters ignored If Enable 978 Supplemental Mode is selected the scanner identifies supplementals for EAN 13 bar codes starting with a 978 prefix only All other UPC EAN bar codes are decoded immediately and the supplemental characters ignored If Enable Smart Supplemental Mode is selected the scanner identifies supplementals for EAN 13 bar codes starting with a 378 379 or 978 prefix only All other UPC EAN bar codes are decoded immediately and the supplemental characters ignored Note To minimize the risk of invalid data transmission we recommend selecting either read or ignore supplemental characters Select the desired option by scanning one of the following bar codes Decode UPC EAN With Supple
111. e technical specifications for the MS 1207WA scanner 5 1 A A MS XX07 Series Integration Guide MS 1207WA Electrical Interface Figure 5 1 MiniScan Connector Table 5 1 lists the pin functions of the MS 1207WA Table 5 1 MS 1207WA Electrical Interface Pin No Pin Name Type Function 1 Trigger Signals scanner to begin scanning session 2 TXD 0 Serial data transmit output Drives the serial data receive input on the device communicating with the scanner 3 RXD D 1 0 RS 232 Mode Serial data receive input Driven by the serial data transmit output on the device communicating with the scanner USB Mode D signal During USB operation this signal is pulled up by a 1 5k Ohm resistor to begin USB enumeration In this mode it is a differential bi directional signal 4 SYN CLK 1 0 Synapse Mode Synapse Clock line Signal used as a clock by a Symbol Synapse host Pin is shorted to RTS SYN_DAT in USB cables to allow auto detection of USB mode via signal loopback 5 Ground Power supply ground input and signal ground reference 6 Power 5 0 VDC x 10 7 CTS D I O RS 232 Mode Clear to send handshaking input line used only in conjunction with the RTS line Optionally used by another device to signal the scanner to begin transmitting data USB Mode D signal During USB operation this signal works in conjunction with the D signal as a different
112. ed range For example to decode Code 11 symbols containing between 4 and 12 characters first scan Code 11 Length Within Range then scan 0 4 1 and 2 single digit numbers must always be preceded by a leading zero Numeric bar codes begin on page 10 132 To change the selection or cancel an incorrect entry scan the Cancel bar code on page 10 134 Code 11 Length Within Range Any Length Scan this option to decode Code 11 symbols containing any number of characters Code 11 Any Length 10 72 Parameter Menus Code 11 Check Digit Verification Parameter 34h When enabled this parameter checks the integrity of a Code 11 symbol to ensure it complies with a specified check digit algorithm Select either to check for one check digit check for two check digits or to disable the feature Disable 00h One Check Digit 01h Two Check Digits 02h 10 73 LZ MS XX07 Series Integration Guide Transmit Code 11 Check Digit Parameter 2Fh Scan this symbol to transmit the check digit with the data Transmit Code 11 Check Digit Enable 01h Scan this symbol to transmit data without the check digit Do Not Transmit Code 11 Check Digit Disable 00h 10 74 Parameter Menus Interleaved 2 of 5 Enable Dis
113. ed Kingdom Symbol Technologies Symbol Place Winnersh Triangle Berkshire RG41 5TP United Kingdom 0800 328 2424 Inside UK 44 118 945 7529 Outside UK Australia Symbol Technologies Pty Ltd 432 St Kilda Road Melbourne Victoria 3004 1 800 672 906 Inside Australia 61 3 9866 6044 Outside Australia Denmark Danmark Symbol Technologies AS Dr Neergaardsvej 3 2970 Hersholm 7020 1718 Inside Denmark 45 7020 1718 Outside Denmark Finland Suomi Oy Symbol Technologies Kaupintie 8 A 6 FIN 00440 Helsinki Finland 9 5407 580 Inside Finland 358 9 5407 580 Outside Finland xiv P LZ MS XX07 Series Integration Guide Asia Pacific Symbol Technologies Asia Inc Singapore Branch 230 Victoria Street 05 07 09 Bugis Junction Office Tower Singapore 188024 Tel 65 6796 9600 Fax 65 6337 6488 Austria Osterreich Symbol Technologies Austria GmbH Prinz Eugen Strasse 70 2 Haus 1040 Vienna Austria 01 5055794 0 Inside Austria 43 1 5055794 0 Outside Austria Europe Mid East Distributor Operations Contact your local distributor or call 44 118 945 7360 France Symbol Technologies France Centre 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 Germany Deutchland Symbol Technologies GmbH Waldstrasse 66 D 63128 Dietzenbach Germany 6074 49020 Inside Germany 49 6074 49020 Outside Germany
114. element width or symbol density is the width in mils of the narrowest element bar or space in the symbol The maximum usable length of a symbol at any given range is shown below To calculate this distance see Calculating the Usable Scan Length Method on page 2 11 MS 2207 1D Decode Zone Note Typical performance at 68 F 20 C on high quality symbols in normal room light In cm Ww Vcc 5V 10 254 j d t h o f F i e l d 13 mil Minimum Element Width P 114 0 20 mil Minimum Element Width gt 19 0 40 mil Mini El t Width ele 0 mil Minimum Element Wi 24 0 55 mil Minimum Element Width 31 0 CT TT TT 7 7 DS In 0 5 10 15 20 25 30 35 cm 0 12 7 25 4 38 1 50 8 63 5 76 2 88 9 Depth of Field Minimum distance determined by symbol length and scan angle Figure 6 5 MS 2207 1D Decode Distances 6 9 LA MS XX07 Series Integration Guide MS 2207 1D Decode Distances Table 6 3 MS 2207 1D Decode Distances Typical Working Guaranteed Working Symbol p n 4 g g Contrast Bar Code Type Near Far Near Far 6 0 mil 123 2 0 in 5 25 in 2 75 in 4 0 in 60 01755 01 80 MRD 5 08 cm 13 34 cm 7 00 cm 10 16 cm Code 39 7 5 mil ABCDEF 1 5 in 7 0 in 2 25 in 5 0 in 64 17452 01 80 MRD 3 81 cm 17 78 cm 5 72 cm 12 7 cm Code 39 13 mil 012345678905 14 0 in 10 5 in 64 05303 01 80 MRD Note 2 35 56 cm N A 26 67 cm 100 UPC
115. em Description Power Requirements Input Voltage Scanning Current Standby Current Vec Noise Level 5 0 VDC 10 160 mA 40 mA 20 mA 5 mA typical 200 mV peak to peak max Laser Power 1 0 mW 0 12 mW X 650 nm nominal Scan Rate Print Contrast 36 5 scans sec bidirectional Minimum 25 absolute dark light reflectance measured at 650 nm Scan Angle Default Wide 42 2 Alternate Narrow 30 2 Scan Pattern Single scan line Skew Tolerance Pitch Angle 50 from normal see Figure 4 4 on page 4 7 65 from normal see Figure 4 4 on page 4 7 Roll 20 from vertical see Figure 4 4 on page 4 7 Decode Depth of Field See Figure 4 5 on page 4 8 Ambient Light Immunity Sunlight 8 000 ft candles 86 112 lux Artificial Light 450 ft candles 4 844 lux Drop Multiple 30 drops Vibration Unpowered scanner withstands a random vibration along each of the X Y and Z axes for a period of one hour per axis defined as follows 20 to 80 Hz Ramp up to 0 04 G 2 Hz at the rate of 3dB octave 80 to 350 Hz 0 04 G 2 Hz 350 to 2000 Hz Ramp down at the rate of 3 dB octave Note Environmental and or tolerance parameters are not cumulative 4 5 T RE P LZ MS XX07 Series Integration Guide Table 4 2 MS 1207FZY Technical Specifications 23 C Continued Item Description ESD 20kV air discharge 8kV indirect
116. ength 11 Pad Spaces To Length 13 Pad Spaces To Length 15 Advanced Data Formatting Pad Spaces To Length 10 Pad Spaces To Length 12 Pad Spaces To Length 14 Pad Spaces To Length 16 13 35 LZ MS XX07 Series Integration Guide Pad Data with Spaces continued Pad Spaces To Length 17 Pad Spaces To Length 19 Pad Spaces To Length 21 Pad Spaces To Length 23 13 36 Pad Spaces To Length 18 Pad Spaces To Length 20 Pad Spaces To Length 22 Pad Spaces To Length 24 Pad Data with Spaces continued Pad Spaces To Length 25 Pad Spaces To Length 27 Pad Spaces To Length 29 Stop Pad Spaces Advanced Data Formatting Pad Spaces To Length 26 Pad Spaces To Length 28 Pad Spaces To Length 30 13 37 LZ MS XX07 Series Integration Guide Pad Data wit
117. ensity Bar Height Bar Width Baud Rate Bit Glossary 1 Glossary An opening which limits the amount of light or radiation passing through an optical system American Standard Code for Information Interchange A 7 bit plus parity code representing 128 letters numerals punctuation marks and control characters It is a standard data transmission code in the U S The ability of an interface controller to determine the code type of a scanned bar code After this determination is made the information content can be decoded The dark element in a printed bar code symbol The number of characters represented per unit of measurement e g characters per inch The dimension of a bar measured perpendicular to the bar width Thickness of a bar measured from the edge closest to the symbol start character to the trailing edge of the same bar A measure of the data flow or number of signaling events occurring per second When one bit is the standard event this is a measure of bits per second bps For example a baud rate of 50 means transmission of 50 bits of data per second Binary digit One bit is the basic unit of binary information Generally eight consecutive bits compose one byte of data The pattern of 0 and 1 values within the byte determines its meaning S Byte CDRH CDRH Class CDRH Class II Character Character Set Check Digit CLSI Editing Codabar Code 128 Glossary 2 P
118. ent no more extreme than the product s specification where the scanner will not exceed its temperature range For instance do not mount the scanner onto or next to a large heat source When placing the scanner with another device ensure there is proper convection or venting for heat Follow these suggestions to ensure product longevity warranty and overall satisfaction with the scanner Using the MiniScan as an Embedded Scanner The MiniScan can be mounted to read symbols that are automatically presented or that are presented in a pre determined location In these applications MinScan positioning with respect to the symbol is critical Failure to properly position the MiniScan can result in unsatisfactory scanning performance A thermal analysis is also recommended Two methods of positioning the scanner are provided Usethe Calculating the Usable Scan Length Method on page 2 11 with consistently good quality symbols This provides a mathematical solution to find the usable scan length The Testing the Usable Scan Length Method on page 2 12 uses real situation testing to adjust the usable scan length to fit the application conditions 2 10 Installation Calculating the Usable Scan Length Method Calculate usable scan length as follows see Figure 2 8 on page 2 12 L 1 8 x D d B x Tan A 2 Table 2 1 Calculation Constants Constants B A MS 1207FZY Default Mode 1 17 42 MS 1207FZY Alternat
119. er allows the scanner to interface with devices requiring a 7 bit or 8 bit ASCII protocol 7 Bit 9 Bit 11 12 RS 232 Interface Check Receive Errors Select whether or not the parity framing and overrun of received characters are checked The parity value of received characters is verified against the parity parameter selected Check For Received Errors Do Not Check For Received Errors earlier 11 13 LZ MS XX07 Series Integration Guide Hardware Handshaking The data interface consists of an RS 232 port designed to operate either with or without the hardware handshaking lines Request to Send RTS and Clear to Send CTS If Standard RTS CTS handshaking is not selected scan data is transmitted as it becomes available Select Standard RTS CTS handshaking to transmit scan data according to the following sequence e The scanner reads the CTS line for activity If CTS is asserted the scanner waits up to the Host Serial Response Time out for the host to negate the CTS line If after the Host Serial Response Time out default the CTS line is still asserted the scanner sounds a transmit error and discards any scanned data When the CTS line is negated the scanner asserts the RTS line and waits up to the Host Serial Response Time out for the host to assert CTS When the host asserts CTS the scanner transmits the data If after the Host Serial Response Time out default the CTS line is not asserted
120. ern Figure 3 2 Raster Scan Pattern High Density Single Scan Line Scan Pattern The High Density single scan line appears as a mini raster and scans multiple areas of 1D codes to swiftly and accurately capture data on poorly printed and damaged bar codes Figure 3 3 High Density Single Scan Line Scan Pattern 3 2 Scanning MS 3207 Scan Patterns The MS 3207 generates four scan patterns based on the software command received at the interface These patterns are Smart Raster Semi omnidirectional Omnidirectional and High Density Single Scan Line The raster pattern can be used to read 1D bar codes and PDF417 symbols The omnidirectional pattern reads 1D bar codes in an omnidirectional manner Smart Raster Scan Pattern The MS 3207 can create a single line which opens vertically to read PDF417 symbols using the Smart Raster feature This feature autodetects the type of bar code being scanned and adjusts its pattern accordingly providing optimal performance on 1D PDF417 RSS and Composite codes Stage 1 Slab Raster Pattern Stage 2 Open Raster Pattern 1
121. eros To Length 18 Pad Zeros To Length 20 Pad Zeros To Length 22 Pad Zeros To Length 24 Pad Data with Zeros continued Pad Zeros To Length 25 Pad Zeros To Length 27 Pad Zeros To Length 29 Stop Pad Zeros Advanced Data Formatting Pad Zeros To Length 26 Pad Zeros To Length 28 Pad Zeros To Length 30 13 41 LA MS XX07 Series Integration Guide Beeps Select a beep sequence for each ADF rule Beep Once Beep Twice Beep Three Times 13 42 Send Keystroke Control Characters Advanced Data Formatting Scan the bar code representing the keystroke you want to send Send Control 2 Send Control B Send Control D Send Control F Send Control A Send Control C Send Control E Send Control G
122. erpretation to the encoded data Non decodable codewords like GLIs are embedded in the output stream like any other codeword e g 9271001 Because GLIs are indistinguishable from other codewords in the output data stream the host must recognize them as GLls and process their interpretations Note that when a macro PDF sequence is transmitted the last character in the last block of data transmitted is always 1922 if selected This indicates the end of that macro PDF transmission 10 117 LZ MS XX07 Series Integration Guide Transmit Symbols in Codeword Format continued Scan the appropriate bar code to enable or disable this Enable Transmit In Codeword Format 01h Disable Transmit In Codeword Format 00h 10 118 Parameter Menus Transmit Unknown Codewords Parameter BAh Select Transmit Unknown Codewords to use the output codeword format for transmitting any non GLl or non macro PDF codeword Select Do Not Transmit Unknown Codewords to sound a decode error beep when an unknown codeword is found Transmit Unknown Codewords 01h Do Not Transmit Unknown Codewords 00h 10 119 LA MS XX07 Series Integration Guide Escape Characters Parameter
123. eter 7Bh When this parameter is enabled the scanner transmits data from certain MicroPDF417 symbols as if it was encoded in Code 128 symbols Transmit AIM Symbology Identifiers must be enabled for this parameter to work If Code 128 Emulation is enabled these MicroPDF417 symbols are transmitted with one of the following prefixes C1 if the first codeword is 903 907 912 914 915 C2 ifthe first codeword is 908 or 909 CO _ if the first codeword is 910 or 911 If disabled they are transmitted with one of the following prefixes L3 if the first codeword is 903 907 912 914 915 L4 if the first codeword is 908 or 909 L5 if the first codeword is 910 or 911 Scan a bar code below to enable or disable Code 128 Emulation Enable Code 128 Emulation 01h Disable Code 128 Emulation 00h 10 98 Parameter Menus RSS Codes RSS 14 Parameter FOh 52h To enable or disable RSS 14 scan the appropriate bar code below Enable RSS 14 01h Disable RSS 14 00h 10 99 LZ MS XX07 Series Integration Guide RSS Limited Parameter FOh 53h To enable or disable RSS Limited scan the appropriate bar code below Enable RSS Limited 01h Disable RSS Limited 00h 10 100 Parameter Menus RSS
124. f the edges all around Surface Quality 60 20 scratch dig Coating Both sides to be anti reflection coated to provide 0 5 max reflectivity each side from 640 to 690 nanometers at nominal window tilt angle Coatings must comply with the hardness adherence requirements of MIL M 13508 Window Coatings Table 2 3 on page 2 18 lists some exit window manufacturers and anti reflection coaters Anti Reflection Coatings Apply an anti reflection coating to the inside and or outside of the window to significantly reduce the amount of light reflected off the window back into the scan engine The coating can also improve the range of acceptable window positions and minimize performance degradation due to signal loss as the light passes through the window Using anti reflection coatings on both the inside and outside of the window is highly recommended Polysiloxane Coating Polysiloxane type coatings are applied to plastic surfaces to improve the surface resistance to both scratch and abrasion They are usually applied by dipping then air drying in an oven with filtered hot air E RE P LZ MS XX07 Series Integration Guide Table 2 3 Window Manufacturers and Coaters Company Discipline Specifics Evaporated Coatings Inc 2365 Maryland Road Willow Grove PA 19090 215 659 3080 Anti reflection coater Acrylic window supplier Anti reflection coater Fosta Tek Optics Inc 320 Hamilton Street Leominster MA
125. fault the scanner issues an error indication and discards the data RTS CTS Option 2 11 15 LZ MS XX07 Series Integration Guide RTS CTS Option 3 When Option 3 is selected the scanner asserts RTS prior to any data transmission regardless of the state of CTS The scanner waits up to the Host Serial Response Time out default for CTS to be asserted If CTS is not asserted during this time the scanner issues an error indication and discards the data The scanner de asserts RTS when transmission is complete RTS CTS Option 3 Software Handshaking This parameter offers control of the data transmission process in addition to or instead of that offered by hardware handshaking There are five options If Software Handshaking and Hardware Handshaking are both enabled Hardware Handshaking takes precedence None When this option is selected data is transmitted immediately None 11 16 RS 232 Interface ACK NAK When this option is selected after transmitting data the scanner expects either an ACK or NAK response from the host When the scanner receives a NAK it re transmits the data and waits for either an ACK or
126. fect symbols not encoded using ECls This version of the product supports ECIs 000900 through 000913 used for efficient encoding of Common Data Syntax Format 00 99 If this parameter is disabled and a symbol is scanned that was encoded using an ECI escape the scanner transmits the ECI escape followed by the uninterpreted data Scan a bar code to enable or disable this option Enable ECI Decoder 01h Disable ECI Decoder 00h 10 122 Parameter Menus Transmit Macro PDF User Selected Fields Note These options are supported by the MS 2207 MS 2207 VHD and MS 3207 only Enable or disable each of the following parameters to indicate whether or not to transmit the specified field in subsequently scanned Macro PDF417 symbols The options cannot be changed in the middle of a Macro PDF set entry All user selected fields are prefixed by 1923 for GLls and C923C for ECIs Tags and examples in the following parameters demonstrate GLI protocol but the ECI tag C923C can be used instead if ECI protocol is enabled Transmit File Name Parameter BOh Transmit File Name activates transmission of the file name field The field character tag is 19231000 For example the filename MANHOURS WKA is sent as 39233900MANHOURS WK1 Enable File Name Transmit 01h Disable File Name Transmit
127. fer As they are programmed they are stored at the top of a rules list If three rules are created the list is configured as follows Third Rule Second Rule First Rule When data is scanned the rules list is checked from top to bottom to determine if the criteria matches and therefore if the actions occur Input is modified into the data format specified by the first matching set of criteria it finds Program the most general rule last For example if the THIRD rule states When scanning a bar code of any length send all data then send the ENTER key and the SECOND rule states When scanning a Code 128 bar code of length 12 send the first four characters then send the ENTER key then send all remaining data and a Code 128 bar code of length 12 is scanned the THIRD rule takes effect and the SECOND rule appears to not function Note that ADF rules are also created when using the standard data editing functions Scan options and prefix suffix programming in the parameter Scan Data Transmission Format are entered as ADF rules The hierarchy mentioned above also applies to them These rules reside in the same rule list as ADF Rules so the order of their creation is also important Advanced Data Formatting Default Rules Every unit has a default rule to send all scan data Units with custom software can have one or more default rules The rules hierarchy checks user programmable rules first then the default rules To dis
128. for mance Optical Working Range Adding a window can reduce the working range of the scan ner since there is a signal loss when passing through window material To minimize this reduction use a special coating described in Window Coatings on page 2 17 To understand the difference test the scanner in the desired orientation and see if the dif ference affects scanner performance Table 2 4 Secondary Window Angles a MiniScan Exit Window Minimum Secondary MiniScan Model Window Angle from Angle from Vertical i Vertical MS 1207FZY MS 2207 30 320 MS 2207VHD MS 2207WA MS 3207 359 37 2 19 P A MS XX07 Series Integration Guide Accessories The following accessories are available for the MiniScan scanner and can be found in Symbol s Solution Builder ordering guide For power connection 110V power supply US p n 50 14000 008 220V power supply Europe p n 50 14000 009 100V power supply Asia p n 50 14000 010 264V Universal power supply also order cables below p n 50 14001 001 DC line cord power supply to scanner p n 50 16002 009 AC line cord wall outlet to power supply p n 23844 00 00 RS 232 TTL RS 232 to True RS 232 conversion cable p n 25 62186 XX Female DB9 with straight connector to RS 232 host female DB9 with trigger jack and no beeper p n 25 13227 XX Female DB9 with straight connector to RS 232 host female DB9 with trigger jack and beeper p
129. formation on unpacking mounting and installing the MiniScan Unpacking Remove the MiniScan from its packing and inspect for damage If the scanner is damaged call the Symbol Support Center at the telephone number listed on page xiii KEEP THE PACKING It is the approved shipping container and should be used if the equipment needs to be returned for servicing 2 1 A A MS XX07 Series Integration Guide Mounting There are three mounting holes threaded inserts on the bottom of the chassis The following figures provide mounting dimensions for the MiniScan scanner housings For a mounting template see Mounting Template on page 14 1 Note Use only non magnetic M3x 5 screws with a maximum length of 3 6M to mount the MiniScan scanner chassis MS 1207FZY MS 1207WA MS 2207 MS 2207VHD Mounting Dimensions 1 12 gt Threaded Inserts 28 Note Dimensions are in inches mm Figure 2 1 MS 1207FZY MS 1207WA MS 2207 MS 2207VHD Mounting Dimensions 2 2 Installation MS 3207 Mounting Dimensions 1 82 Threaded Inserts Note 1 50 38 Dimensions are in inches mm Figure 2 2 MS 3207 Mounting Dimensions A A MS XX07 Series Integration Guide Mounting the Scanner on the Optional Stand To mount the scanner on the optional stand 1 Place the bottom of the scanner on the stand s scanner mount aligning the scanner s center threaded insert beneath the scan window with the center mounting
130. g Temperature 4 to 122 F 20 to 50 C Storage Temperature 40 to 158 F 40 to 70 C Humidity 5 to 95 non condensing Laser Class CDRH Class Il IEC Class 2 Height 1 60 in 4 06 cm Width 2 28 in 5 79 cm Depth 2 94 in 7 47 cm Weight 4 73 oz 134 gm 7 6 MS 2207VHD Specifications Pitch Pitch Angle J 30 from normal Skew i 15 from normal ON Sm Hh T Ei Scan Beam Roll Ro ne Angle 4 from normal Note Tolerances are reduced at extreme ends of the working range Scan Beam Figure 7 4 Skew Pitch and Roll 7 7 A A MS XX07 Series Integration Guide MS 2207VHD Decode Zones The decode zone is a function of various symbol characteristics including density print contrast wide to narrow ratio and edge acurity Typical values are shown Table 7 3 on page 7 9 and Table 7 4 on page 7 11 list the typical and guaranteed distances for selected bar code densities The minimum element width or symbol density is the width in mils of the narrowest element bar or space in the symbol The maximum usable length of a symbol at any given range is shown below To calculate this distance see Calculating the Usable Scan Length Method on page 2 11 MS 2207VHD 1D Decode Zone Note Typical performance at 68 F 20 C on high quality symbols in normal room light In cm Vcc 5V 10 25 4 4 5 15 2 10 1 2 5 5
131. h Zeros To pad data to the left scan the bar code containing the desired number of zeros This parameter is activated by Send commands Pad Zeros To Length 1 Pad Zeros To Length 3 Pad Zeros To Length 5 Pad Zeros To Length 7 13 38 Pad Zeros To Length 2 Pad Zeros To Length 4 Pad Zeros To Length 6 Pad Zeros To Length 8 Pad Data with Zeros continued Pad Zeros To Length 9 Pad Zeros To Length 11 Pad Zeros To Length 13 Pad Zeros To Length 15 Advanced Data Formatting Pad Zeros To Length 10 Pad Zeros To Length 12 Pad Zeros To Length 14 Pad Zeros To Length 16 13 39 LZ MS XX07 Series Integration Guide Pad Data with Zeros continued Pad Zeros To Length 17 Pad Zeros To Length 19 Pad Zeros To Length 21 Pad Zeros To Length 23 13 40 Pad Z
132. h of a symbol at any given range is shown below To calculate this distance see Calculating the Usable Scan Length Method on page 2 11 In cm Note Typical performance at 73 4 F 23 C 124 31 6 on high quality symbols m W i B d I 6 15 2 t E h A A AA A A PA bh 0 0 o f E F i rues 6 152 i 7 5 mil E le 7 E e 0 6 100 UPC C l l d p 20 mil 2115 124 31 6 40 mil E dde 19 9 55 mil 24 TTT TT TT TTT I TTT I TTTI In 0 5 10 15 20 25 cm 0 12 7 25 4 38 1 50 8 63 5 Depth of Field Minimum distance determined by symbol length and scan angle Figure 5 5 MS 1207WA Decode Zone Typical 5 9 A A MS XX07 Series Integration Guide Table 5 3 MS 1207WA Decode Distances Symbol Density Typical Working Guaranteed Working Symbol p n Bar Code Ranges Ranges Content Bar Code Type Contrast W N Ratio ontras Near Far Near Far 5 mil ABCDEFGH 1 0 in 4 0 in 1 2 in 3 0 in 64 17453 01 80 MRD 2 54 cm 10 16cm 3 05cm 7 62 cm Code 39 2 5 1 7 5 mil ABCDEF 0 6 in 7 2 in 0 9 in 6 0 in 64 17452 01 80 MRD 1 52 cm 18 29cm 2 29 cm 15 24 cm Code 39 2 5 1 13 mil 1234567890 0 6 in 11 0 in 0 9 in 9 0 in 64 05303 01 80 MRD 1 52 cm 27 94cm 2 29cm 22 86 cm 100 UPC 20 mil 123 15 0 in 13 0 in 60 01429 01 80 MRD Note2 38 10 cm Note2 33 02 cm Code 39 2 2 1 40 mil AB 19 0 in 17 0 in 64 17457 01 80 MRD Note2 48
133. hole on the front of the stand The two rear threaded inserts on the bottom of the scanner will align with the proper mounting holes on the stand 2 Secure the scanner to the stand using the three screws provided with the stand Assembling the Stand Unscrew the wingnut from the bottom of the one piece scanner mount Scanner mount N Fit the bottom of the neck piece into the opening on the top of the stand base Mounting holes Co Tighten the wingnut underneath the base to secure the cup and neck piece see the Flat areas note below S Bend the neck to the desired position for scanning Stand base Wingnut N Figure 2 3 Assembling the Stand Installation Note Before tightening the wingnut under the base ensure that the flat areas on the flexible neck fit securely in the grooves in the base Mounting the Stand optional You can attach the base of the scanner s stand to a flat surface using two screws or double sided tape not provided Screw Mount 1 Position the assembled base on a flat surface 2 Screw one 10 wood screw into each screw mount hole until the base of the stand is secure Tape Mount 1 Peelthe paper liner off one side of each piece of tape and place the sticky surface over each of the three rectangular tape areas 2 Peelthe paper liner off the exposed sides of each piece of tape and press the stand on a flat surface until it is secure Two sc
134. ial bi directional signal 5 2 MS 1207WA Specifications Table 5 1 MS 1207WA Electrical Interface Continued Pin No Pin Name Type Function 8 RTS SYN DAT I O RS 232 Mode Request to send handshaking output line used only in conjunction with the CTS line Optionally used by the scanner to signal another device that data is available to send Synapse Mode Synapse Data line Used to transmit data to and from a Symbol Synapse host 9 Beeper I O During normal operation this signal functions as an external beeper Download drive line This signal can sink 50mA of current to drive an external beeper and is normally pulled up This signal is also used to begin Flash Download operation when grounded externally during power up Input O Output 5 3 P LZ MS XX07 Series Integration Guide MS 1207WA Mechanical Drawings FRONT OF SCAN ENGINE SCANNING FIELD DB9 CONNECTOR NOMINAL SCAN LINE 1 60 NA x 41 41 70 18 COLLECTION FIELD Notes Unless otherwise specified Dimensions are in inches dimensions in are mm User mounting tolerances are not included 2 28 58 Figure 5 2 MS 1207WA Mechanical Drawing 5 4 68 0 MS 1207WA Specifications 60 0 19 TYPICAL Ad COLLECTION FIELD NV SCANNING FIELD N NOMINAL SCAN ANGLE Brici N 97 19 X 7 i PA 3 25 1 12 20 28 L 5
135. ial data transmit output on the device communicating with the scanner USB Mode D signal During USB operation this signal is pulled up by a 1 5k Ohm resistor to begin USB enumeration In this mode it is a differential bi directional signal SYN CLK 1 0 Synapse Mode Synapse Clock line Signal used as a clock by a Symbol Synapse host Pin is shorted to RTS SYN_DAT in USB cables to allow autodetection of USB mode via signal loopback Ground Power supply ground input and signal ground reference Power 5 0 VDC x 10 CTS D 1 0 RS232 Mode Clear to send handshaking input line used only in conjunction with the RTS line Optionally used by another device to signal the scanner to begin transmitting data USB Mode D signal During USB operation this signal works in conjunction with the D signal as a differential bi directional signal Input O Output 6 2 MS 2207 Specifications Table 6 1 MS 2207 Electrical Interface Continued Pin No Pin Name Type Function 8 RTS SYN DAT 1 0 RS232 Mode Request to send handshaking output line used only in conjunction with the CTS line Optionally used by the scanner to signal another device that data is available to send USB Mode Synapse Data line Signal is used to transmit data to and from a Symbol Synapse host 9 Beeper I O During normal operation this signal functions as an external
136. ic equipment vending machines and gaming As a fixed mount scanner the MS 1207FZY is ideal for applications requiring unattended scanning such as manufacturing warehouse and shipping conveyor belts library and document tracking systems The MS 1207WA Wide Angle Scanner features a broad 60 scan angle to accommodate large 1D bar codes within extremely close range This scanner is ideal for high volume near contact scanning applications such as kiosks ATMs assembly lines warehouse and shipping The MS 2207 and MS 2207 VHD offer a smart raster pattern optimized for 2D applications and poorly printed 1D bar codes The high scan rate ensures fast and reliable data on all 1D symbols and 2D codes such as PDF417 MicroPDF RSS and composite codes These scanners are perfect for automated data entry applications that require high speed scanning performance and small size such as conveyor belts manufacturing and warehouse gas pumps and security ID verification The MS 3207 features a high speed omnidirectional scan pattern that makes it easy and intuitive for consumers to scan bar codes at the point of activity The omnidirectional scan pattern reads bar codes quickly and accurately minimizing Introduction the need for precise positioning of linear 1D bar codes The MS 3207 provides an easy and cost effective way to enhance existing OEM devices with high performance 1D and 2D scanning making it the ideal solution for applications tha
137. including Desktop PCs and Notebooks Apple iMac G4 iBooks North America only IBM SurePOS terminals Sun IBM and other network computers that support more than one keyboard The following operating systems support the scanner through USB Windows 98 2000 ME XP MacOS 8 5 and above BM 4690 OS The scanner also interfaces with other USB hosts that support USB Human Interface Devices HID For more information on USB technology hosts and peripheral devices visit www symbol com usb 12 2 USB Interface 7 USB Default Parameters Table 12 1 lists the defaults for USB host parameters To change any option scan the appropriate bar code s provided in USB Host Parameters on page 12 4 Note See Chapter 9 Maintenance and Troubleshooting for all user preferences hosts symbologies and miscellaneous default parameters Table 12 1 USB Host Parameters Default Table Parameter Default ha USB Device Type HID Keyboard 12 4 Emulation USB Country Keyboard Types Country Codes North American 12 5 USB Keystroke Delay No Delay 12 8 USB CAPS Lock Override Disable 12 9 USB Ignore Unknown Characters Enable 12 10 Emulate Keypad Disable 12 11 USB FN1 Substitution Disable 12 11 Function Key Mapping Disable 12 12 Simulated Caps Lock Disable 12 12 Convert Case None 12 13 12 3 LZ MS XX07 Series Integration Guide USB Host Parameters USB Device Typ
138. ironments In this case try placing a self powered USB hub close to the host between the scanner and host as a buffer to the host against the harsh environment This may not be a valid solution in all cases 2 22 Za Chapter 3 Scanning Overview This chapter provides information on scan patterns scanning triggering options and beeper and LED definitions MiniScan Scan Patterns MS 1207FZY and MS 1207WA Scan Pattern MS 1207FZY and MS 1207WA scanners emit a single scan line to quickly decode 1D bar codes Figure 3 1 Single Scan Line Scan Pattern LZ MS XX07 Series Integration Guide MS 2207 and MS 2207VHD Scan Patterns The MS 2207 and MS 2207 VHD generate different scan patterns Smart Raster and High Density Single Scan Line based on the software command received at the interface The raster pattern can be used to read 1D bar codes and PDF417 symbols Note 7he MS 2207 and MS 2207VHD also support omnidirectional and semi omnidirectional scan patterns but are not optimized for these patterns Smart Raster Scan Pattern The MS 2207 and MS 2207VHD can create a single line which opens vertically to read PDF417 symbols using the Smart Raster feature This feature autodetects the type of bar code being scanned and adjusts its pattern accordingly providing optimal performance on 1D PDF417 RSS and Composite codes Stage 1 Slab Raster Pattern Stage 2 Open Raster Patt
139. ive material to touch the window Clean the scan window with a damp cloth and if necessary a non ammonia based detergent Troubleshooting Problem Possible Cause Possible Solutions No red LED or nothing No power to the scanner Check the system power happens during a scan Confirm that the correct host attempt interface cable is used Connect the power supply Re connect loose cables 9 1 A LZ MS XX07 Series Integration Guide Problem Possible Cause Possible Solutions Scanner cannot read the bar code Interface power cables are loose Re connect loose cables Scanner is not programmed for the correct bar code type Make sure the scanner is programmed to read the type of bar code to be scanned Try scanning other bar code s and other bar code types Incorrect communication parameters Set the correct communication parameters baud rate parity stop bits etc Bar code symbol is unreadable Check the symbol to make sure it is not defaced Try scanning similar symbols of the same code type Inappropriately hot environment Remove the scanner from the hot environment and allow it to cool down Laser activates followed by a beep sequence Beeper is configured Refer to Table 3 1 on page 3 8 for beeper indication descriptions Scanner configured to USB host and does not scan Incorrect trigger mode selected Unpl
140. k digit Check digits are required for UPC but are optional for other symbologies Using check digits decreases the chance of substitution errors when a symbol is decoded An option which inserts a space after the 1st 5th and 10th characters of a 14 character Codabar symbol Length does not include start and stop characters A discrete self checking code with a character set consisting of digits O to 9 and six additional characters A high density symbology which allows the controller to encode all 128 ASCII characters without adding extra symbol elements Code 3 of 9 Code 39 Code 93 Code Length Continuous Code CTS Dead Zone Decode Decode Algorithm Depth of Field Digitized Bar Pattern DBP Discrete 2 of 5 Discrete Code Glossary A versatile and widely used alphanumeric bar code symbology with a set of 43 character types including all uppercase letters numerals from 0 to 9 and 7 special characters and space The code name is derived from the fact that 3 of 9 elements representing a character are wide while the remaining 6 are narrow An industrial symbology compatible with Code 39 but offering a full character ASCII set and a higher coding density than Code 39 Number of data characters in a bar code between the start and stop characters not including those characters A bar code or symbol in which all spaces within the symbol are parts of characters There are
141. ket to a flat surface by inserting 1 8 or smaller fasteners through the surface and into the bracket s mounting holes There are four mounting holes on the bottom of the mounting bracket for horizontal mounting and six holes on the side for vertical mounting Installation Vertical Mounting Holes Horizontal Mounting Holes Mounting Bracket Scanner Bracket Figure 2 5 Mounting the Scanner and Bracket 2 7 RN Ld A MS XX07 Series Integration Guide Connecting the MiniScan To connect the MiniScan to the host connect the scanner cables in the order shown in Figure 2 6 To Host Beeper Optional Trigger Jack Optional Trigger or Photo f See Figure 2 7 Sensor Optional Figure 2 6 Typical Connection Diagram 2 8 Installation Male jack shown for reference 1 Insertion 1 Direction 2 I A 3 3 lt Note Due to many variations of 1 Ground Sleeve jack and socket styles identify 2 Vcc Middle Contact terminals as shown before 3 Trigger Tip soldering leads Figure 2 7 Trigger Jack Connector Pins 2 9 A A MS XX07 Series Integration Guide Location and Positioning Caution The location and positioning guidelines provided do not consider unique application characteristics It is recommended that an opto mechanical engineer perform an opto mechanical analysis prior to integration Note ntegrate the scanner in an environm
142. l Scan Angle Horizontal 349 30 Vertical 12 59 430 Scan Pattern Smart raster high density single scan line Start Time 0 065 sec to 75 of steady state horizontal amplitude Skew Tolerance 15 from plane parallel to symbol see Figure 7 4 on page 7 7 Pitch Angle 30 from normal see Figure 7 4 on page 7 7 Roll 4 for scanning benchmark label assuming 3 1 codeword aspect ratio see Figure 7 4 on page 7 7 Decode Depth of Field See Figure 7 5 on page 7 8 and Figure 7 6 on page 7 10 Beam Deviation offset from the nominal Horizontal 3 0 Vertical 3 0 Horizontal tilt 2 Additional Post Shock Beam Deviation 2000G Shock Horizontal 3 0 max Vertical 6 0 max 7 5 P LA MS XX07 Series Integration Guide Table 7 2 MS 2207VHD Technical Specifications 23 C Continued Item Description Ambient Light Immunity Sunlight Artificial Light 8 000 ft candles 86 112 lux 450 ft candles 4 844 lux Drop Multiple 30 drops Vibration Unpowered scanner withstands a random vibration along each ofthe X Y and Z axes for a period of one hour per axis defined as follows 20 to 80 Hz Ramp up to 0 04 G 2 Hz at the rate of 3dB octave 80 to 350 Hz 0 04 G 2 Hz 350 to 2000 Hz Ramp down at the rate of 3 dB octave ESD 20kV air discharge 8kV indirect discharge Sealing IP54 Operatin
143. logy representing character pairs in groups of five bars and five interleaved spaces Interleaving provides for greater information density The location of wide elements bar spaces within each group determines which characters are encoded This continuous code type uses no intercharacter spaces Only numeric 0 to 9 and START STOP characters may be encoded LASER Light Amplification by Stimulated Emission of Radiation Laser Diode LED Indicator MIL Misread Misdecode MSI Plessey Nominal Nominal Size NOTIS Editing Parameter Percent Decode Glossary The laser is an intense light source Light from a laser is all the same frequency unlike the output of an incandescent bulb Laser light is typically coherent and has a high energy density A gallium arsenide semiconductor type of laser connected to a power Source to generate a laser beam This laser type is a compact source of coherent light A semiconductor diode LED Light Emitting Diode used as an indicator often in digital displays The semiconductor uses applied voltage to produce light of a certain frequency determined by the semiconductor s particular chemical composition 1 mil 1 thousandth of an inch A condition which occurs when the data output of a reader or interface controller does not agree with the data encoded within a bar code symbol A numeric only bar code type MSI Plessey consists of four bars and four adjacent spaces Each b
144. man readable characters including check digit s the code contains Lengths for Code 39 may be set for any length one or two discrete lengths or lengths within a specific range If Code 39 Full ASCII is enabled Length Within a Range or Any Length are the preferred options One Discrete Length This option limits decodes to only those Code 39 symbols containing a selected length Lengths are selected from the numeric bar codes beginning on page 10 132 For example to decode only Code 39 symbols with 14 characters scan Code 39 One Discrete Length then scan 1 followed by 4 To change the selection or cancel an incorrect entry scan the Cancel bar code on page 10 134 Code 39 One Discrete Length Two Discrete Lengths This option limits decodes to only those Code 39 symbols containing either of two selected lengths Lengths are selected from the numeric bar codes beginning on page 10 132 For example to decode only those Code 39 symbols containing either 2 or 14 characters select Code 39 Two Discrete Lengths then scan 0 2 1 and then 4 To change the selection or cancel an incorrect entry scan the Cancel bar code on page 10 134 Code 39 Two Discrete Lengths 10 60 Parameter Menus Length Within Range This option limits decodes to only those Code 39 symbols within a specified range The range is selected using the numeric bar codes beginning on page 1
145. maximum performance Enable the MiniScan before the symbol is presented if possible Conveyor Applications Conveyor applications require setting the conveyor velocity to optimize the scanner s ability to read symbols Also consider the orientation of the symbol with respect to the conveyor direction Figure 2 9 on page 2 14 illustrates the relationship of the conveyor velocity with respect to a symbol positioned perpendicular to the conveyor direction and Figure 2 10 on page 2 15 illustrates the relationship of the conveyor velocity with respect to a symbol positioned parallel to the conveyor direction 2 13 A A MS XX07 Series Integration Guide Symbol is Perpendicular to Conveyor Movement With the symbol bars perpendicular to the conveyor belt direction Picket Fence presentation the relationship is V R x F W N where V Velocity of the conveyor inches second R Scan Rate see technical specifications F 80 of width of scan beam W Symbol Width inches N Number of scans over symbol minimum of 10 scans Figure 2 9 Symbol Perpendicular To Conveyor Movement Example R 640 scans per second F 80 of 6 in W 4in N 10 V 640 x 0 8 x 6 4 10 51 2 in sec 2 14 Installation Symbol is Parallel to Conveyor Movement With the symbol bars parallel to the conveyor belt direction ladder presentation the relationship is V RxH N where V Velocity of the conveyor inches second
146. mentals 01h 10 35 A LA MS XX07 Series Integration Guide Decode UPC EAN Supplementals continued Ignore UPC EAN With Supplementals 00h Autodiscriminate UPC EAN Supplementals 02h Enable 378 379 Supplemental Mode 04h Enable 978 Supplemental Mode 05h Enable Smart Supplemental Mode 03h 10 36 Parameter Menus Decode UPC EAN Supplemental Redundancy Parameter 50h With Autodiscriminate UPC EAN Supplementals selected this option adjusts the number of times from 2 to 30 a symbol without supplementals is decoded before transmission Five or above is recommended when decoding a mix of UPC EAN symbols with and without supplementals and the autodiscriminate option is selected Scan the bar code below to select a decode redundancy value Next scan two numeric bar codes beginning on page 10 132 Enter a leading zero for single digit numbers To change the selection or to cancel an incorrect entry scan the Cancel bar code on page 10 134 Decode UPC EAN Supplemental Redundancy 10 37 LZ MS XX07 Series Integration Guide Transmit UPC A Check Digit Parameter 28h Scan the appropriate bar code below to transmit the symbol with or without the UPC A check digit Transmit UPC A Check Digit 01h Do Not Transmit UPC A Check Digit 00h 10 38
147. meter 11h To enable or disable Code 39 Full ASCII scan the appropriate bar code below When enabled the ASCII character set assigns a code to letters punctuation marks numerals and most control keystrokes on the keyboard The first 32 codes are non printable and are assigned to keyboard control characters such as BACKSPACE and RETURN The other 96 are called printable codes because all but SPACE and DELETE produce visible characters Code 39 Full ASCII interprets the bar code special character 96 preceding a Code 39 character and assigns an ASCII character value to the pair For example when Code 39 Full ASCII is enabled and a B is scanned it is interpreted as b J as and H emulates the keystroke BACKSPACE Scanning ABC M outputs the keystroke equivalent of ABC ENTER Do not enable Code 39 Full ASCII and Trioptic Code 39 simultaneously The scanner does not autodiscriminate between Code 39 and Code 39 Full ASCII Enable Code 39 Full ASCII 01h Disable Code 39 Full ASCII 00h 10 64 Parameter Menus Code 39 Decode Performance Parameter 46h Note This option is supported by the MS 2207 MS 2207 VHD and MS 3207 only 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 when scanning very long
148. mmunication parameters to match the host device Refer to the documentation for the host device This scanner uses TTL RS 232 levels which interfaces with all PC s with no additional hardware Note Particularly noisy electrical environments may require a cable with an RS 232 transceiver To obtain this cable contact the Symbol Support Center Throughout the programming bar code menus asterisks indicate default values Indicates Default Baud Rate 9600 Feature Option A A MS XX07 Series Integration Guide RS 232 Default Parameters Table 11 1 lists the defaults for RS 232 host parameters To change any option scan the appropriate bar code s provided in the Parameter Descriptions section beginning on page 11 6 Note See Chapter 9 Maintenance and Troubleshooting for all user preferences hosts symbologies and miscellaneous parameters Table 11 1 RS 232 Host Default Table Parameter Default oo RS 232 Host Parameters RS 232 Host Types Standard 11 6 Baud Rate 9600 11 9 Parity Type None 11 11 Stop Bit Select 1 Stop Bit 11 12 Data Bits 8 Bit 11 12 Check Receive Errors Enable 11 13 Hardware Handshaking None 11 15 Software Handshaking None 11 16 Host Serial Response Time out 2 Sec 11 19 RTS Line State Low RTS 11 20 Beep on lt BEL gt Disable
149. n 25 13228 XX Female DB9 with straight connector to RS 232 host female DB9 p n 25 5891 8 XX Female DB9 with right angle connector to RS 232 host female DB9 p n 25 5891 9 XX Female DB9 with straight connector to RS 232 host female DB9 with trigger jack and no hardware handshaking p n 25 63736 XX USB Female DB9 with straight connector with trigger jack and beeper to USB Type A connector p n 25 58925 XX Female DB9 with right angle connector to USB host Type A connector p n 25 58923 XX Female DB9 straight to USB p n 25 58926 XX Synapse Adapter Female DB9 with straight connector to Synapse Adapter Cable 6 ft straight p n 25 58921 XX 2 20 Installation Cable Adapters Female 25 pin D TxD on pin 2 p n 50 12100 378 Female 25 pin D TxD on pin 3 p n 50 12100 377 Male 25 pin D TxD on pin 2 p n 50 12100 380 Male 25 pin D TxD on pin 3 p n 50 12100 379 Optional Accessories Push button trigger cable p n 25 04950 XX Photo sensor trigger cable p n 25 13176 XX Fixed mount stand p n 20 60136 XX Mounting bracket p n KT 65578 01 2 21 P LZ MS XX07 Series Integration Guide Application Notes TTL RS 232 Standard RS 232 voltage levels typically range between 12V and 12V to ensure adequate noise rejection over long distances Devices which support TTL level RS 232 signaling typically drive signals between OV and 5V Extensive testing has shown that TTL levels are inte
150. n Block Diagram Miniscan Block Diagram Descriptions Decoded Scan Engine The scan engine emits a beam of laser light that reflects off the bar code to be decoded Black bars absorb light white spaces reflect light The scan engine collects the reflected light and processes the signal through several analog filters The filtered signal is digitized into a Digitized Barcode Pattern DBP Timing information is analyzed by the decoder micro controller to decode and transmit the data contained in the bar code Data transmission is carried out using Symbol s proprietary SSI Interface 1 4 Introduction Interface Board The interface board adapts the scan engine s interface into usable signals and data for the intended host It also contains a beeper and red green LED for audio visual feedback and provides for an external trigger and external beeper The interface board converts the scan engine s data to Synapse USB or TTL level RS 232 A separate host adapter cable p n 25 62186 xx is available to convert the TTL level RS 232 output to standard RS 232 levels All interface types are auto detected based on the host cable attached DB9 The DB9 connector provides a sealed outlet for the various interface signals used between a MiniScan scanner and the host It also maintains pin compatibility with the previous generation LS 1220 MiniScan host cables 1 5 1 6 a e Chapter 2 Installation Overview This chapter provides in
151. n Guide USB Warming Potential Host Side Issues o sese eer rr Re RR RE ees 2 22 Chapter 3 Scanning CUR acides aoi docs go cde dab odo bea ban dE Eod A eee eee ee ee ee ee Do dpa 3 1 BM SCAG scan POL BR ouo 1e 2 4a ais ac e deci ie eter d M abo ue din A 3 1 MS 1207FZY and MS 1207WA Scan Pattern oo osse suse mne e e 3 1 Ms 2207 and MS 2207 VHD Scan Pallelfis isse ku o RR ew wa eR EG oR RR RR RR ERR B 3 2 MS 3207 Scan PalleijiS cess erpxerg e benbX onitan EXERXRCE V PY Fk POR EG RA 3 3 Spar Angle SEGO uscvstresespSewRexev rdTeREXewkwgdt bade egeP seid ae 3 4 Operation in BInk Mode coe ees es wer A RPERTERSRERTPREPRG Gd E EGG EE Rege Y Wd 3 4 OMNI Us whe ee sok Stee he en Owes EIER VET RO QUE S PORES ae 3 5 Scan the Entire S VDO iura da pa Eas E dE Wee Seka xd padded 3 5 Posmon aba ADS C omae Mpeg ded Ed ER VR dox RC HEAR Beat dem d dde ead 3 5 ee CODO Lus ocupar ce Se ee eee ee ee es er EINBAUEN SER EE 3 6 COMMONS IUSIAUL cornada rd tn ges hada huge OUR d dol dc dob dong d deci d ado oes ar 3 6 Level THOS sic a rr E sree ke drap ooo A AE 3 6 Pulse TOG ius ieee EROR chou Pda pe ed eas ar ieee bie obs ined ud 3 6 o EEA ATASA TIT CLER rast eg te Ans ee ee ne TETTETETT 3 7 Host THOGBI uos dd biker ee oO EIS ELLER PESTER edo AAA SREP REE GOS 3 7 Bespar ang EEDDSIUDE o porristas 3 8 Chapter 4 MS 1207FZY Specifications Gus vil aa X4bte Fee weg E d quadra ee eee eee ee eee ee ee ee ipe Br decia 4 1 MS 1207 Electrical Merna Luisa x daa rar rra
152. nable 01h Do Not Convert UPC E To UPC A Disable 00h 10 44 Parameter Menus Convert UPC E1 to UPC A Parameter 26h Enable this parameter to convert UPC E1 zero suppressed decoded data to UPC A format before transmission After conversion data follows UPC A format and is affected by UPC A programming selections e g Preamble Check Digit Scan DO NOT CONVERT UPC E TO UPC A to transmit UPC E1 zero suppressed decoded data Convert UPC E1 To UPC A Enable 01h Do Not Convert UPC E1 To UPC A Disable 00h 10 45 A LA MS XX07 Series Integration Guide EAN Zero Extend Parameter 27h When this parameter is enabled five leading zeros are added to decoded EAN 8 symbols to make them compatible in format to EAN 13 symbols Disable this parameter to transmit EAN 8 symbols as is Enable EAN Zero Extend 01h Disable EAN Zero Extend 00h 10 46 Parameter Menus UPC EAN Security Level Parameter 4Dh MiniScan scanners offer four levels of decode security for UPC EAN bar codes Select higher levels of security for decreasing levels of bar code quality Increasing security decreases the scanner s aggressiveness so choose only that level of security necessary for the ap
153. ndex or block index and 172511201343 is the file ID Enable Macro PDF Control Header Transmit 01h Disable Macro PDF Control Header Transmit 00h 10 130 Parameter Menus Last Blocker Marker Parameter B9h Enable Last Block Marker marks the last block in the set by the codeword 1922 Enable Last Block Marker 01h Disable Last Block Marker 00h 10 131 LZ MS XX07 Series Integration Guide Numeric Bar Codes For parameters requiring specific numeric values scan the appropriately numbered bar code s 0 1 2 3 10 132 Parameter Menus Numeric Bar Codes continued 4 5 6 7 10 133 LZ MS XX07 Series Integration Guide Numeric Bar Codes continued 8 9 Cancel To change a selection or cancel an incorrect entry scan the bar code below Cancel 10 134 Za Chapter 11 RS 232 Interface Introduction This chapter provides RS 232 host information for setting up the MiniScan XX07 Series scanner The RS 232 interface is used to attach the MiniScan scanner to point of sale devices host computers or other devices with an available RS 232 port e g com port If your host is not listed in Table 11 2 set the co
154. nds the rest of the data message The scanner waits indefinitely for the XON XON XOFF 11 18 RS 232 Interface Host Serial Response Time out This parameter specifies how long the scanner waits for an ACK NAK or CTS before determining that a transmission error has occurred This only applies when an ACK NAK Software Handshaking mode or RTS CTS Hardware Handshaking is enabled Kans Minimum 2 Sec Low 2 5 Sec Medium 5 Sec High 7 5 Sec Maximum 9 9 Sec 11 19 LZ MS XX07 Series Integration Guide RTS Line State This parameter sets the idle state of the Serial Host RTS line Scan a bar code below to select Low RTS or High RTS line state Host Low RTS Host High RTS Beep on lt BEL gt When this parameter is enabled the scanner issues a beep when a lt BEL gt character is detected on the RS 232 serial line lt BEL gt is issued to gain a user s attention to an illegal entry or other important event Beep On BEL Character Enable Do Not Beep On lt BEL gt Character Disable 11 20 RS 232 Interface Intercharacter Delay This parameter specifies the intercharacter delay inserted between character transmissions Fano Minimum 0 msec Low 25 msec Medium 50 msec High 75 msec Maximum 99 msec 11 21 A MS XX07 Series Integration Guide Nixdorf
155. nologies Inc One Symbol Plaza M S B 4 Holtsville NY 11742 1300 Attention Technical Publications Manager IMPORTANT If you need product support please call the appropriate customer 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 O Very familiar 7 Slightly familiar 7 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 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 MS XX07 Series Integration Guide 72 67135 02 Revision A June 2004 Symbol Technologies Inc One Symbol Plaza Holtsville N Y 11742 1300 http www symbol com manuals
156. ntering Rules 13 10 Advanced Data Formatting Disable Rule Set Use these bar codes to disable rule sets Disable Rule Set 1 Disable Rule Set 2 Disable Rule Set 3 Disable Rule Set 4 Disable All Rule Sets 13 11 LZ MS XX07 Series Integration Guide Criteria Code Types Select any number of code types to be affected Scan all selected codes in succession prior to selecting other criteria f you don t select a code type all code types are affected Code 39 Codabar RSS 14 RSS Limited RSS Expanded Code 128 13 12 Advanced Data Formatting Scan the bar codes for all code types desired before selecting other criteria D2OF5 I20F5 UPC A EAN 8 IATA 2 OF 5 Code 93 UPC E EAN 13 13 13 A LA MS XX07 Series Integration Guide Code Types continued MSI UPC E1 Trioptic Code 39 13 14 UCC EAN 128
157. ol density is the width in mils of the narrowest element bar or space in the symbol The maximum usable length of a symbol at any given range is shown below To calculate this distance see Calculating the Usable Scan Length Method on page 2 11 Omnidirectional Decode Distances Note Typical performance at 68 F 20 C on high quality symbols in normal room light Vcc 5V in cm Ww 5 dew 4 E d C t F 25 635 h L o MiniScan a o O AN 0 0 f F I 25 635 j 6 mil L 25 gt 3 25 E e S l iplc SUPE es L 5 127 d 15 k ee 12 5 1 75 20 mil gt 12 5 Depth of Field TT T vr Tp 34 In O 2 5 5 7 5 10 12 5 em 0 12 7 25 4 38 1 50 8 63 5 Depth of Field Minimum distance determined by symbol length and scan angle Figure 8 5 MS 3207 Omnidirectional Decode Zone Typical 8 9 P A MS XX07 Series Integration Guide E Table 8 3 MS 3207 Omnidirectional Decode Distances Symbol Density Bar Code Typical Working Guaranteed Working Symbol p n Content Ranges Ranges Bar Code Type Contrast Near Far Near Far 6 0 mil 123 0 25 in 3 25 in 0 75 in 2 25 in 60 01755 01 80 MRD 0 64 cm 8 3 cm 1 9 cm 5 7 cm Code 39 64 06629 01 0080015 1 0 in 6 5 in 1 5 in 4 5 in 80 UPC 85 MRD 2 5 cm 16 5 cm 3 8 cm 11 4 cm 13 mil 012345678905 1 5 in 12 5 in Note 2 9 5 in 64 05303 01 80 MRD 3 8 cm 31 2 cm 24 1 cm 100 UPC 20 mil 1D 123 1 75 in 12 5
158. on page 2 11 IN cm E 35 88 9 so 76 2 25 63 5 Note Typical performance at 68 F 20 C F 20 sos on high quality symbols E w 15 381 i E d 10 25 4 t E h L5 12 7 E o MS 120XFZY o o f 5mil Es LN 3 25 h gt 7 00 i sy o 10 25 4 3 00 Em Hosp E e E l 13 mil m 15 38 1 2 20 E F 100 UPC E d 20 50 8 20 mil 80 MRD E 1 00 20 mil 25 MRD Eee 822 i mil 25 MRD 197 95 E E so 76 2 40 mil E 2 20 186 75 35 88 9 4 00 Som 75 00 TTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTT TTTT TT TT FTTTTTTTTT TTTTTTTTTTTT In O 5 10 15 20 25 30 35 40 45 50 55 60 65 7O 75 cm 0 127 254 38 1 508 635 76 2 889 1016 1143 127 0 1397 1524 165 1 177 8 1905 Depth of Field Minimum distance determined by symbol length and scan angle Figure 4 5 MS 1207FZY Typical Decode Zone 42 Scan Angle 4 8 MS 1207FZY Specifications Table 4 3 MS 1207FZY Decode Distances 42 Scan Angle Symbol Density Bar Code Typical Working Guaranteed Working 3 Symbol p n Content Ranges Ranges Bar Code Type 1 W N Ratio Contrast Near Far Near Far 5 0 mil ABCDEFGH 3 25 in 7 00 in 4 75 in 5 25 in 64 17453 01 80 MRD 8 26cm 17 78cm 12 07cm 13 34 cm Code 39 2 5 1 7 5 mil ABCDEF 3 00 in 12 50 in 4 75 in 9 00 in 64 17452 01 80 MRD 7 62cm 31 75cm 12 07cm_ 22 86 cm Code 39 2 5 1 13 mil 012345
159. ooper valime Mp TET 10 11 Beers O 10 12 Beeper Frequency AQUEIMIBM 22 c 2c2ctc cade aes ERR AR RUE E Gb CR CRGA acd 10 13 E On WMG avis osu D E EEUU 10 14 nes JA E osos Did est aks SERRE RAE Des Dee ENSE Edd iqq pau Rad 10 15 al Moor said daran da as dede deena 10 16 TIRA BOUE ol ceed riada 10 17 Socanmwig Mode corrorrr erre iE 10 18 PANNE cs oe pss Edessa Fe ERE EE Nd ques NR Ne GEHE Pd Mea dd 10 19 Programmable Raster Height and Raster Expansion Speed lilius 10 20 Timeout Between Decodes co noawosedureher eber shERG Ph RERESRGTRNe EA Saeed 10 21 Beep Alter Good Decode ssc istos ve Ex Vue ue ee rREEPeRReRSEEESCAq 10 22 Transmit No Read Messages scoaicaia ads dodi Ed e RE dd Rd Rd dde ss 10 23 Parasite Scanning uus cuasuaci ees QE RIE Aqu d Wade ead 10 24 Lingar Code Type Securty Level ons uw enews ak ee bee ew Kex e 10 25 Ebdirsctonal Radudsipy iuda IUE dee RR SA AR PARE E a k EE ERNA 10 27 UPCEAN iiie sas ze dd dada iia 10 28 Enable Disable UPC Lau carci karducxe A AE x pie ae obw wos 10 28 Enable Disable PGE o i6 ced ten eo ber Y ce Y ee Y o e Re FOTO ETE DENT REED 10 29 Enabte Disaue DUPC ET causas Eme GO RE RUE E PPRERERR Gea RA RS D BARES CEE 10 30 Enable Disable EAN B Losses Rer RE P REE Rak AR 10 31 Enable Disable EAN I3 I Lu RERERPRRRERRUSERPRIC DERI RePPEREUPRGSRE TER ESEREENE 10 32 Enable Disable Bookland EAN 53620002 cs E Rr RR xx ERE RE ener venues 10 33 UPCIBAN COUDOH OB uL setas canes owes seen se ER
160. ormation for MiniScan Series scanners MiniScan Family of Scanners Quick Reference Guide p n 72 58809 xx Service Information If you have a problem with your equipment contact the Symbol Support Center 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 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 Canada Symbol Technologies Inc Symbol Technologies Canada Inc One Symbol Plaza 2540 Matheson Boulevard East Holtsville New York 11742 1300 Mississauga Ontario Canada LAW 472 1 800 653 5350 905 629 7226 xiii E Unit
161. otice on the licensed programs delivered hereunder and to include 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 Za Contents About This Manual Chapter Descnplipig isvcese rubet bto PH vue vwedteeereeerebReerebeweireseq e Re wes xi NOONE CONVENIOS s upspexqEtexxdve Fe add dig eee e debe era dee xii Peeled Decr IS iiu aca d sc dick oe d IER d eco ded lobor ibo e dodo a3 B EO OC da aed doe odd xiii SMA SUbpOrt Rar Jeatierg
162. pace between words scan this bar code This also removes all leading and trailing spaces Stop Space Removal Scan this bar code to disable space removal Remove Leading Zeros Scan this bar code to remove all leading zeros Stop Zero Removal Scan this bar code to disable the removal of zeros 13 32 Use the bar codes below to modify data Remove All Spaces Stop Space Removal Stop Zero Removal Advanced Data Formatting Crunch All Spaces Remove Leading Zeros 13 33 LZ MS XX07 Series Integration Guide Pad Data with Spaces To pad data to the left scan the bar code containing the desired number of spaces This parameter is activated by Send commands Pad Spaces To Length 1 Pad Spaces To Length 3 Pad Spaces To Length 5 Pad Spaces To Length 7 13 34 Pad Spaces To Length 2 Pad Spaces To Length 4 Pad Spaces To Length 6 Pad Spaces To Length 8 Pad Data with Spaces continued Pad Spaces To Length 9 Pad Spaces To L
163. pendicular axes for a period of 1 hr per axis over a frequency range of 5 Hz to 2000Hz ESD 20kV air discharge 8kV indirect discharge Sealing IP54 Note Environmental and or tolerance parameters are not cumulative 5 6 MS 1207WA Specifications Table 5 2 MS 1207WA Technical Specifications 23 C Continued Item Description Operating Temperature 32 to 104 F 0 to 40 C Storage Temperature 40 to 140 F 40 to 60 C Humidity 5 to 95 non condensing Laser Class CDRH Class Il IEC Class 2 Height 1 60 in 4 06 cm Width 2 28 in 5 79 cm Depth 2 94 in 7 47 cm Weight 4 45 oz 126 gm Note Environmental and or tolerance parameters are not cumulative 5 7 RN Ld A MS XX07 Series Integration Guide Skew Pitch 65 from normal 55 from normal Pitch Angle A Skew Angle Scan Beam Scan Beam Note Tolerances are reduced at extreme ends of the working range Scan Beam Figure 5 4 Skew Pitch and Roll 5 8 MS 1207WA Specifications MS 1207WA Decode Zone The MS 1207WA Wide Angle decodes symbols as shown in Figure 5 5 Typical values are shown Table 5 3 on page 5 10 lists the typical and guaranteed distances for selected bar code densities The minimum element width or symbol density is the width in mils of the narrowest element bar or space in the symbol The maximum usable lengt
164. plication UPC EAN Security Level 0 This default setting allows the scanner to operate in its most aggressive state while providing sufficient security in decoding in spec UPC EAN bar codes UPC EAN Security Level 0 00h UPC EAN Security Level 1 Select this option if misdecodes occur This security level eliminates most misdecodes UPC EAN Security Level 1 01h 10 47 LZ MS XX07 Series Integration Guide UPC EAN Security Level 2 Select this option if Security level 1 fails to eliminate misdecodes UPC EAN Security Level 2 02h UPC EAN Security Level 3 If misdecodes still occur after selecting Security Level 2 select this security level Be advised selecting this option is an extreme measure against misdecoding severely out of spec bar codes Selecting this level of security significantly impairs the decoding ability of the scanner If this level of security is necessary try to improve the quality of the bar codes UPC EAN Security Level 3 03h 10 48 Parameter Menus Linear UPC EAN Decode Parameter 44h This option applies to code types containing two adjacent blocks e g UPC A EAN 8 EAN 13 When enabled a bar code is transmitted only when both the left and right blocks are successfully decoded within one laser scan Enable this option when bar codes are in proximity to each other Enable Linear UPC EAN Decode 01h
165. power up Input O 7 Output 8 3 P LZ MS XX07 Series Integration Guide MS 3207 Mechanical Drawings 08 TYP COLLECTION FIELD RONT OF SCAN ENGINE NOMINAL DB9 CONNECTOR SCAN AXIS NOMINAL SCAN ANGLE 34 0 43 0 VERTICAL SCANNING FIELD 100x UPC 381 OMNI MODE Notes Unless otherwise specified CO o Dimensions are in inches dimensions in are mm User mounting tolerances are not included 2 29 58 Figure 8 2 MS 3207 Mechanical Drawing 8 4 MS 3207 Specifications 44 0 HORIZONTAL SCANNING FIELD 34 0 10 HOR I ZONTAL COLLECTION FIELD 13 HOR 1 ZONTAL COLLECTION FIELD NOMI NAL SCAN ANGLE z TL DNE 1 37 351 56 14 MFG LABEL FRONT OF SCAN ENGINE 40 10 3X M3 3 6 MM LG MAX MOUNTING SCREW HOLES Notes Unless otherwise specified Dimensions are in inches dimensions in are mm User mounting tolerances are not included Figure 8 3 MS 3207 Mechanical Drawing A A MS XX07 Series Integration Guide MS 3207 Technical Specifications Table 8 2 MS 3207 Technical Specifications 23 C Item Description Power Requirements Input Voltage Scanning Current Standby Current Vec Noise Level 5 0 VDC 10 250 30 mA typical 45 10 mA typical 200 mV peak to peak max Laser Power 0 7 mW typical 0 8 mW maximum 650 nm Scan Ra
166. ps Lock state Disable Simulated Caps Lock Enable Simulated Caps Lock 12 12 USB Interface 7 SS Convert Case When enabled the scanner converts all bar code data to the selected case No Case Conversion Convert All to Upper Case Convert All to Lower Case 12 13 LA MS XX07 Series Integration Guide 12 14 Za Chapter 13 Advanced Data Formatting Introduction Advanced Data Formatting ADF is a means of customizing data before transmission to a host device Scan data can be edited to suit particular requirements ADF can be implemented in the scanner through scanning a related series of bar codes which begin on page 13 8 Rules Criteria Linked to Actions In ADF data is customized through rules These rules perform detailed actions when the data meets certain criteria One rule can consist of single or multiple criteria applied to single or multiple actions For instance a data formatting rule can be Criteria When scan data is Code 39 length 12 and data at the start position is the string 129 Actions pad all sends with zeros to length 8 send all data up to X send a space If a Code 39 bar code of 1299X1559828 is scanned the scanner transmits 00001299 lt space gt If a Code 39 bar code of 1299X15598 is scanned this rule is ignored because the length criteria is not met 13 1
167. ption is supported by the MS 2207 MS 2207 VHD and MS 3207 only 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 when scanning very long and or truncated bar codes Increased levels reduce decode security If you enable this option you can select a Decode Performance level from the next page to suit performance needs Enable Code 128 Decode Performance 01h Disable Code 128 Decode Performance 00h 10 54 Parameter Menus Code 128 Decode Performance Level Parameter 49h Note This option is supported by the MS 2207 MS 2207VHD and MS 3207 only Select a level of decode performance Code 128 Decode Performance Level 1 03h Code 128 Decode Performance Level 2 02h Code 128 Decode Performance Level 3 01h 10 55 LZ MS XX07 Series Integration Guide Code 39 Enable Disable Code 39 Parameter 00h To enable or disable Code 39 scan the appropriate bar code below Enable Code 39 01h Disable Code 39 00h 10 56 Parameter
168. r Code 39 12h Length within Range 10 60 13h MS 120X 2 55 MS 220X MS 3207 1 55 Code 39 Check Digit Verification 30h Disable 10 62 Transmit Code 39 Check Digit 2Bh Disable 10 63 Code 39 Full ASCII Conversion 11h Disable 10 64 Code 39 Decode Performance 46h Enable 10 65 MS 2207 MS 2207VHD and MS 3207 only Code 39 Decode Performance Level 47h Level 3 10 66 MS 2207 MS 2207VHD and MS 3207 only Code 93 Code 93 09h Disable 10 67 Set Length s for Code 93 1Ah Length within Range 10 68 1Bh 04 55 Code 11 Code 11 OAh Disable 10 70 Set Length s for Code 11 1Ch 1Dh Length within Range 10 71 04 55 Code 11 Check Digit Verification 34h Disable 10 73 Transmit Code 11 Check Digits 2Fh Disable 10 74 10 5 A A MS XX07 Series Integration Guide Table 10 1 Default Table Continued Parameter Page Parameter Number Default Number Interleaved 2 of 5 Interleaved 2 of 5 06h MS 120X Enable 10 75 MS 220X MS 3207 Disable Set Length s for 2 of 5 16h 1 Discrete Length 14 10 76 17h 1 2 of 5 Check Digit Verification 31h Disable 10 78 Transmit 2 of 5 Check Digit 2Ch Disable 10 79 Convert 2 of 5 to EAN 13 52h Disable 10 80 Discrete 2 of 5 Discrete 2 of 5 05h Disable 10 81 Set Length s for D 2 of 5 14h 1 Discrete Length 12 10 82 15h Codabar Codabar 07h Disable 10 84 Set Lengths for Codabar 18h Length within Range 10 85 19h 05 55 CLSI Editing 36h Disable 10 87
169. rameter sets the maximum time decode processing continues during a scan attempt It is programmable in 0 1 second increments from 0 5 to 9 9 seconds To set a Laser On Time scan the bar code below Next scan two numeric bar codes beginning on page 10 132 that correspond to the desired on time Times less than 1 0 second must have a leading zero For example to set an on time of 0 5 seconds scan the bar code below then scan the 0 and 5 bar codes To change the selection or to cancel an incorrect entry scan the Cancel bar code on page 10 134 Laser On Time 10 14 Parameter Menus Scan Angle Parameter BFh Note This option is supported by the MS 1207FZY only This parameter sets the scan angle to the default or alternate angle Default Angle 06h Alternate Angle 05h 10 15 LZ MS XX07 Series Integration Guide Power Mode Parameter 80h This parameter determines whether or not power remains on after a decode attempt In Low Power mode the scanner enters into a low power consumption mode when possible provided all WAKEUP signals are released In Continuous On mode power remains on after each decode attempt Continuous On 00h Low Power 01h 10 16 Parameter Menus Trigger Mode Parameter 8Ah e Level A trigger pull activates the laser and decode processing The laser remains on and decode processing
170. ransmission of the addressee field The field character tag is 9231004 For example the field may be 923 004AIM USA Enable Addressee Transmit 01h Disable Addressee Transmit 00h 10 127 LZ MS XX07 Series Integration Guide Transmit Checksum Parameter B6h Transmit Checksum activates transmission of the checksum field The field character tag is 9231006 For example the field may be 1923100663823 Enable Checksum Transmit 01h Disable Checksum Transmit 00h 10 128 Parameter Menus Transmit File Size Parameter B5h Transmit File Size activates transmission of the file size field The field character tag is 19231005 For example the field may be 9231005179234 Enable File Size Transmit 01h Disable File Size Transmit 00h 10 129 LZ MS XX07 Series Integration Guide Transmit Macro PDF Control Header Parameter B7h Transmit Macro PDF Control Header activates transmission of the control header which contains the segment index and the file ID For example the field can be 192800000V725M 201343 The five digits after the 1928 are the segment i
171. rate at which bar codes are presented Continuous Note This option is not recommended during scanner programming via bar code menus Level Trigger The laser is enabled and decode processing begins when the trigger line is activated Decode processing continues until a good decode occurs the trigger is released or the Laser On Time expires The laser is disabled once decode processing is complete The next decode attempt will not occur until the trigger line is released and then reactivated Pulse Trigger Level The laser is enabled and decode processing begins when the trigger line is activated Decode processing continues regardless of the trigger line until a good decode occurs or until the Laser On Time expires The laser is disabled once decode processing is complete The next decode attempt will not occur until the trigger line is released and then reactivated Pulse 3 6 Scanning Blink Note This option is supported by the MS 1207FZY and MS 1207WA only The laser blinks at a 25 duty cycle reduced to 10 after 30 seconds of inactivity until a bar code is presented When a bar code is presented the laser remains on until either the bar code is decoded or removed or the session timeout expires Once the bar code is decoded the scanner will not decode it again
172. ration Guide Keyboard Characters continued Send x Sendz Send Send 13 58 Send y Send Send Send ALT Characters Advanced Data Formatting Scan the bar code representing the Alt character you want to send Send Alt 2 Send AIt B Send AIt D Send AIt F Send Alt A Send Alt C Send Alt E Send Alt G 13 59 A LZ MS XX07 Series Integration Guide Send ALT Characters continued Send Alt H Send Alt J Send Alt L Send Alt N 13 60 Send Alt I Send Alt K Send Alt M Send Alt O Send ALT Characters continued Send AIt P Send Alt R Send Alt T Send Alt V Advanced Data Formatting Send Alt Q Send Alt S Send Alt U Send Alt W 13 61 A LZ MS XX07 Series Integration Guide Send ALT Characte
173. refix Suffix Values Continued Prefix Suffix Value Code 39 Days EN ASCII Character 1090 Z Z 1091 9oK 1092 L 1093 M 1094 9oN d 1095 960 A 1096 YW 1097 A a 1098 B b 1099 C C 1100 D d 1101 E e 1102 F f 1103 G g 1104 H h 1105 l i 1106 J j 1107 K k 1108 L l 1109 M m 1110 N n 1111 O O 1112 P p 1113 Q q 1114 R r 1115 S S E RE P LZ MS XX07 Series Integration Guide Table A 1 Prefix Suffix Values Continued Prefix Suffix Value Code 39 Pon M ASCII Character 1116 T t 1117 U u 1118 V V 1119 W w 1120 X x 1121 Y y 1122 Z z 1123 P 1124 Q 1125 R 1126 S B 1127 Undefined 7013 ENTER USB ASCII Character Set ASCII Character Sets The values in Table A 2 can be used for ASCII character data transmission in a USB environment Table A 2 USB ASCII Character Set Prefix Suffix Value Code iie Char Keystroke 1000 U CTRL 2 1001 A CTRL A 1002 B CTRL B 1003 C CTRL C 1004 D CTRL D 1005 E CTRL E 1006 F CTRL F 1007 G CTRL G 1008 H CTRL H BACKSPACE 1009 CTRL I HORIZONTAL TAB 1010 J CTRL J 1011 K CTRL K 1012 L CTRLL 1013 M CTRL M ENTER 1014 N CTRL N 1015 0 CTRL O 1016 P CTRL P 1017 Q CTRL Q 1018 R CTRL R 1019 S CTRL S 1
174. retail Generic term for a bar or space Total linear dimension occupied by all characters of a code pattern including start stop characters and data A computer that serves other terminals in a network providing such services as computation database access supervisory programs and network control International Electrotechnical Commission This international agency regulates laser safety by specifying various laser operation classes based on power output during operation This is the lowest power IEC laser classification IEC Class 1 devices are safe under reasonably foreseeable conditions of operation Software and other controls to limit exposure to laser light may be required to achieve IEC Class 1 operation The IEC time base for Class 1 devices is 100 seconds if intentional viewing of laser light is not required in the design or function of the device The IEC time base for Class 1 devices is 30 000 seconds where intentional viewing of laser light is inherent in the design or function of the device IEC Class 2 devices may not emit more than 1 milliwatt average radiant power Eye protection for IEC Class 2 devices is normally afforded by aversion responses including the blink reflex The space between two adjacent bar code characters in a discrete code A bar code in which characters are paired together using bars to represent the first character and the intervening spaces to represent the second A binary bar code symbo
175. rew mount holes Double sided tape areas 3 places dimensions 1 x 2 Figure 2 4 Mounting the Stand 2 5 A A MS XX07 Series Integration Guide Mounting the Scanner on the Optional Mounting Bracket The optional mounting bracket kit consists of a scanner bracket a mounting bracket and the hardware required to mount the scanner The bracket kit accommodates adjustable angles for optimal positioning of the scanner To mount the MiniScan scanner on the bracket first secure the scanner to the scanner bracket then attach the mounting bracket to the wall see Figure 2 5 on page 2 7 1 2 6 Tiltthe scanner bracket forward to access the center scanner mounting hole on the bracket Place the bottom of the scanner on the scanner bracket aligning the scanner s center threaded insert beneath the scan window with the center mounting hole on the scanner bracket Insert one of the screws provided through the mounting hole and into the scanner s center threaded insert For the MS 1207FZY MS 1207WA MS 2207 and MS 2207VHD use a 0 Phillips screwdriver for the MS 3207 use a 1 Phillips screwdriver Tilt the scanner bracket in the opposite direction to access the rear scanner mounting holes which are aligned with the rear inserts on the bottom of the scanner then insert the remaining two screws provided through the two rear mounting holes and into the scanner s threaded inserts Secure the mounting brac
176. rpreted correctly by the majority of standard RS 232 hosts over cable distances of six feet or less even in extreme conditions Multi interface Miniscan products fall into the TTL RS 232 device category All standard RS 232 cables available from Symbol for the Miniscan family measure six feet or less and should not present a problem If a particular host does not support TTL levels a separate conversion cable is available 25 62186 xx which contains electronics to adapt the TTL levels of a multi interface Miniscan into standard RS 232 levels USB Warning Potential Host Side Issues The Universal Serial Bus provides a smart plug and play interface for easy integration In USB communication the root hub located on the host controls all traffic USB hosts in general react poorly in certain harsh environments compared to traditional host interfaces such as RS 232 These environments include areas with high ESD levels or situations in which the system is subject to Electrical Fast Transients EFT Typical symptoms of these environments are Frequent scanner resets e Scanner occasionally loses power due to host initiated shutdown Occasional host lockups Because multi interface Miniscan products are often exposed to these environments due to the nature of scanner placement they have been safeguarded as much as possible to prevent physical damage Despite design precautions testing has shown that some USB hosts cannot tolerate these env
177. rs continued Send Alt X Send Alt Z Send Alt 1 Send Alt 6 13 62 Send Alt Y Send Alt Send Alt Send Alt Advanced Data Formatting Send Keypad Characters Scan the bar code representing the keypad character you want to send Send Keypad Send Keypad Send Keypad Send Keypad 1 Send Keypad 3 Send Keypad Send Keypad Send Keypad 0 Send Keypad 2 Send Keypad 4 13 63 A LA MS XX07 Series Integration Guide Send Keypad Characters continued Send Keypad 5 Send Keypad 7 Send Keypad 9 Send Keypad Numlock 13 64 Send Keypad 6 Send Keypad 8 Send Keypad Enter Send Keypad Characters continued Send Break Key Sen
178. s 13 24 Send Data Up To Character Send Next Character Send Next 3 Characters Send Next 5 Characters Send Data continued Send Next 6 Characters Send Next 8 Characters Send Next 10 Characters Send Next 12 Characters Send Next 14 Characters Advanced Data Formatting Send Next 7 Characters Send Next 9 Characters Send Next 11 Characters Send Next 13 Characters Send Next 15 Characters 13 25 A LA MS XX07 Series Integration Guide Send Data continued Send Next Send Next 16 Characters 17 Characters Send Next Send Next 18 Characters 19 Characters Send Next 20 Characters 13 26 Setup Field s Advanced Data Formatting Table 13 1 Setup Field s Definitions Parameter Description Page Move Cursor Move Cursor To a Character Scan the Move Cursor To Character bar code on pag
179. s eio dos dua 5 6 BIS Z2 caulk dud See eu bd us 6 6 MS 2207VHD spa daa 7 5 Mo 3Z F avaro reas 8 6 print contrast MS 1Z07FZY a ctonirirr eee 4 5 MS 1207WA esposrsrorrrrares ds 5 6 MS 2207 asorer eerkoegduedebe ds 6 6 MS 2207 VM corria 7 5 IE PUT ara 8 6 programming bar codes ilg MOJE oc sca saccus sad 10 19 beep after good decode 10 22 beeper frequency adjustment 10 13 beeper ton 0c ek eese e ee 10 12 beepervolume om 10 11 bi directional redundancy 10 27 CANCE wire EE reiRReEENegs 10 134 COBDS 6h ei ie bees ee e 10 84 CLS CHING oxciteeedacee as 10 87 enable disable 10 84 SHOUT cosa 10 85 NOTIS Sai ag iua kde 10 88 Code 11 ses iia Sey ded tok 10 70 check digit verification 10 73 lentis sisse zac ne 10 71 transmit check digit 10 74 Gode 128 c ooss eos a eee es 10 51 decode performance 10 54 lengllis iss cer Rees 10 53 DUOGCIEAN 128 i i cesses 10 52 Code 128 emulation 10 98 Index 4 COJE JU Llokwppah ere eme RES 10 56 check digit verification 10 62 Code 39 full ASCI i 10 64 decode performance 10 65 BONS auxex e REP EAR REG 10 60 transmit check digit 10 63 T aoptic Code 39 isso 10 57 Code 93 lengths pce ite ku ere bees 10 68 composite CC A B 10 103 composite CC C 10 103 convert RSS to UPC EAN 10 102 delete character set ECls 10 121 Dis
180. sed only in conjunction with the CTS line Optionally used by the scanner to signal another device that data is available to send 9 Beeper I O During normal operation this signal functions as an external beeper Download drive line This signal can sink 50 mA of current to drive an external beeper and is normally pulled up This signal is also used to begin Flash Download operation when grounded externally during power up Input O Output 4 2 MS 1207FZY Specifications MS 1207FZY Mechanical Drawings FRONT OF SCAN ENGINE SCANNING FIELD NOMINAL DB9 CONNECTOR SCAN LINE Notes Unless otherwise specified Dimensions are in inches dimensions in are mm User mounting tolerances 2 28 are not included y 58 Figure 4 2 MS 1207FZY Mechanical Drawing 4 3 P A MS XX07 Series Integration Guide E 51 0 NOMINAL SCAN ANGLE 20 TYPICAL Ed COLLECTION FIELD 3 SCANNING FIELD 97 25 1 12 28 MFG LABEL FRONT OF SCAN ENGINE 3X M3 3 6 MM LG MAX MOUNTING SCREW HOLES 39 10 Notes Unless otherwise specified Dimensions are in inches dimensions in are mm User mounting tolerances are not included Figure 4 3 MS 1207FZY Mechanical Drawing 4 4 MS 1207FZY Specifications MS 1207WA Technical Specifications Table 4 2 provides the MS 1207FZY technical specifications Table 4 2 MS 1207FZY Technical Specifications 23 C It
181. sponse Sec lg9sec 2Sec 99Sec 9 9Sec 9 9 Sec 9 9 Sec Time out Stop Bit Select One One One One One One One ASCII Format 8 Bit 8 Bit 8 Bit 8 Bit 8 Bit 7 Bit 8 Bit Beep On BEL _ Disable Disable Disable Disable Disable Disable Disable Low No RTS Line State Low High Low Low data to send Low High Prefix None None None None None STX 1002 None In the Nixdorf Mode B if CTS is Low scanning is disabled When CTS is High the user can scan bar codes If Nixdorf Mode B is scanned without the scanner connected to the proper host the scanner may not be able to scan If this happens scan a different RS 232 host type within 5 seconds of cycling power to the scanner 11 4 RS 232 Interface RS 232 Host Parameters continued Selecting the ICL Fujitsu Wincor Nixdorf Mode A Wincor Nixdorf Mode B OPOS Olivetti or Omron terminal enables the transmission of code ID characters listed in Table 11 3 These code ID characters are not programmable and are separate from the Transmit Code ID feature Do not enable the Transmit Code ID feature for these terminals Table 11 3 Terminal Specific Code ID Characters Wincor Wincor Parameter ICL Fujitsu Nixdorf Nixdorf Olivetti Omron ModeA Mode B OPOS UPC A A A A A A A UPC E C C C EAN 8 JAN 8 FF FF B B B FF EAN 13 JAN 13 F F A A A F Code 39 C len None M M M len C len Codabar N len None N N N len N len Co
182. st whenever power is applied When disabled no message is sent Enable 01h Disable 00h 10 115 A LZ MS XX07 Series Integration Guide Parameter Event Parameter FOh 03h When enabled the scanner sends a message to the host when one of the events specified in Table 10 3 on page 10 113 occurs When disabled no message is sent Enable 01h Disable 00h 10 116 Parameter Menus Macro PDF Features Note These options are supported by the MS 2207 MS 2207 VHD and MS 3207 only Transmit Symbols in Codeword Format Parameter Afh Enable this to transmit each PDF symbol as directly decoded data codewords whether or not that symbol is part of a macro PDF sequence Note that data is output as codeword values not as interpreted data Codeword values is an ASCII representation of a number from 000 to 928 for each codeword preceded by an escape character This escape character is a backslash by default but you can change this value For example the codeword value 005 is sent to the host in the form of X005 for GLls and 1C005C for ECIs This output format is based on the AIM USA Uniform Symbology Specification for PDF417 1994 All output codewords are exactly 4 characters for GLIs and 6 characters for ECIs However there can be non decodable characters in the PDF symbol such as a GLI sequence This special codeword sequence activates a certain kind of int
183. ster Slab Pattern 03h 04h Omnidirectional Pattern Semi Omni Pattern 06h 07h 10 18 Aiming Mode Parameter Menus Parameter FOh 7Eh For handheld mode only select an aiming dot to appear for a normal or extended period of time No Aiming Dot 00h Aiming Dot Normal 200 ms Timeout 01h Aiming Dot Extended 400 ms Timeout 02h 10 19 A LZ MS XX07 Series Integration Guide Programmable Raster Height and Raster Expansion Speed Parameter E4h E5h Note These options are supported by the MS 2207 MS 2207 VHD and MS 3207 only This parameter selects the laser pattern s height and rate of expansion and is only used when Programmable Raster or Always Raster is enabled This parameter is intended for very specific applications and is usually not necessary To select the laser pattern s height and or rate of expansion 1 Scan the bar code for either Raster Height or Raster Expansion Speed below 2 Scan two numeric bar codes beginning on page 10 132 that represent a two digit value Valid values are between 01 and 15 To change the selection or to cancel an incorrect entry scan the Cancel bar code on page 10 134 Raster Height Default 15
184. symbol MiniScan MS XX07 Series The Enterprise Mobility Company EN ri Integration Guide MiniScan MS XX07 Series Integration Guide 72 67135 02 Revision A June 2004 symbol The Enterprise Mobility Company 2004 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 n
185. t decode well when placed in the center of the depth of field especially higher density codes The scan beam has a minimum width in the central area and when the scanner tries to read all symbol imperfections in this area it may not decode After a preliminary spot is determined using good quality symbols test several reduced quality symbols and adjust the spot for the best overall symbol position 3 Locate the scanner so the symbol is near the middle of the near far range 2 12 Installation 4 Center the symbol left to right in the scan line whenever possible 5 Position the symbol so that the scan line is as near as possible to perpendicular to the bars and spaces in the symbol 6 Avoid specular reflection glare off the symbol by tilting the top or bottom of the symbol away from the scanner The exact angle is not critical but it must be large enough so that if a mirror were inserted in the symbol location the reflected scan line would miss the front surface of the scanner For the maximum allowable angles refer to the Skew Pitch and Roll angles listed in each MiniScan Technical Specifications table 7 If an additional window is to be placed between the scanner and the symbol determine the optimum symbol location using a representative window in the desired window position 8 Givethe scanner time to dwell on the symbol for several scans When first enabled the MiniScan may take two or three scans before it reaches
186. t require fast accurate scanning such as kiosks ATMs listening stations lottery machines and vending machines MS XX07 Series Features Stand alone or OEM applications Quick and easy integration for OEM devices Excellent scanning performance on all types of bar codes MS 1207FZY and MS 1207WA support 1D bar codes only Rugged IP54 sealed housing with integrated beeper Multi interface USB Synapse TTL RS 232 Easy programming and configuration Flexible mounting options LEDs and an integrated beeper indicating scanner power status and successful decodes Typical Applications MiniScan is the perfect solution for the following applications Fixed Mount Standalone Applications e e Manufacturing warehouse Conveyer belts Security ID verification POS Library tracking Document control OEM Applications e Kiosks ATMs Music listening stations Security ID verification Lottery terminals gaming 1 3 P LA MS XX07 Series Integration Guide Block Diagram The MiniScan block diagram illustrates the functional relationship of the MiniScan components A detailed description of each component in the block diagram is also provided Interface Board Beeper External Beeper Decoded DB9 flexi Interface Circuit 4 Scan TTL RS232 Synapse USB Interface Engine Red Green LED External Trigger Figure 1 2 MiniSca
187. t Lengths for MSI Plessey Parameter L1 1Eh L2 1Fh The length of a code refers to the number of characters i e human readable characters the code contains and includes check digits Lengths for MSI Plessey can be set for any length one or two discrete lengths or lengths within a specific range One Discrete Length Select this option to decode only those codes containing a selected length For example select MSI Plessey One Discrete Length then scan 1 4 to decode only MSI Plessey symbols containing 14 characters Numeric bar codes begin on page 10 132 To change the selection or cancel an incorrect entry scan the Cancel bar code on page 10 134 MSI Plessey One Discrete Length Two Discrete Lengths Select this option to decode only those codes containing two selected lengths For example select MSI Plessey Two Discrete Lengths then scan 0 2 1 4 to decode only MSI Plessey symbols containing 2 or 14 characters Numeric bar codes begin on page 10 132 To change the selection or cancel an incorrect entry scan the Cancel bar code on page 10 134 MSI Plessey Two Discrete Lengths 10 90 Parameter Menus Length Within Range Select this option to decode codes within a specified range For example to decode MSI Plessey symbols containing between 4 and 12 characters first scan MSI Plessey Length Within Range then scan 0 4 1 and 2 single digit numbers must
188. te 640 scans second Scan Frequency Horizontal 320 Hz 5 Hz Scan Frequency Vertical 282 Hz 5 Hz Frame Rate 24 frames sec 12 Hz 1 Hz vertical Print Contrast Minimum 35 absolute dark light reflectance differential PDF 35 absolute dark light reflectance differential 1 D Scan Angle Horizontal 34 1 5 Vertical 34 1 5 Scan Pattern Omnidirectional semi omnidirectional smart raster high density single scan line Start Time 0 065 sec to 75 of steady state horizontal amplitude Skew Tolerance 15 from normal see Figure 8 4 on page 8 8 Pitch Angle 30 from normal see Figure 8 4 on page 8 8 Roll 4 from vertical see Figure 8 4 on page 8 8 For scanning benchmark label assuming 3 1 codeword aspect ratio Note that this is dependent on the decoder Decode Depth of Field See Figure 8 5 on page 8 9 and Figure 8 6 on page 8 11 Beam Deviation offset from the nominal Horizontal 3 0 Vertical 3 0 Horizontal tilt 2 Additional Post Shock Beam Deviation 2000G Shock Horizontal 3 0 max Vertical 6 0 max 8 6 MS 3207 Specifications Table 8 2 MS 3207 Technical Specifications 23 C Continued Item Description Ambient Light Immunity Sunlight Artificial Light 8 000 ft candles 86 112 lux 450 ft candles 4 844 lux Drop 30 inch drop Vibration Unpowered scanner withstands a random
189. the scanner sounds a transmit error and discards the data When data transmission is complete the scanner negates RTS 10 msec after sending the last character The host responds by negating CTS The scanner checks for a negated CTS upon the next transmission of data During data transmission the CTS line should be asserted If CTS is deasserted for more than 50 ms between characters the transmission is aborted the scanner sounds a transmission error and the data is discarded If this communications sequence fails the scanner issues an error indication In this case the data is lost and must be rescanned If Hardware Handshaking and Software Handshaking are both enabled Hardware Handshaking takes precedence Note The DTR signal is jumpered to the active state 11 14 RS 232 Interface None Scan the bar code below if no Hardware Handshaking is desired None Standard RTS CTS Scan the bar code below to select Standard RTS CTS Hardware Handshaking RTS CTS Option 1 Standard RTS CTS When RTS CTS Option 1 is selected the scanner asserts RTS before transmitting and ignores the state of CTS The scanner de asserts RTS when the transmission is complete RTS CTS Option 2 RTS CTS Option 1 When Option 2 is selected RTS is always high or low user programmed logic level However the scanner waits for CTS to be asserted before transmitting data If CTS is not asserted within the Host Serial Response Time out de
190. tion Guide Scan Data Transmission Format continued lt DATA gt lt SUFFIX gt lt PREFIX gt lt DATA gt lt PREFIX gt lt DATA gt lt SUFFIX gt Enter Data Format Cancel 10 112 Parameter Menus Event Reporting The host can request the decoder to provide certain information events relative to the decoder s behavior Enable or disable the events listed in Table 10 3 by scanning the appropriate bar codes on the following pages Parameter number format for these parameters follows those shown in the Simple Serial Interface SSI Programmer s Guide for parameters numbered 256 or higher Table 10 3 Event Codes Event Class Event Code Reported Decode Event Non parameter decode 01h Boot Up Event System power up 03h Parameter Event Parameter entry error 07h Parameter stored 08h Defaults set and parameter event is enabled by default OAh Number expected OFh 10 113 A LA MS XX07 Series Integration Guide Decode Event Parameter FOh 00h When enabled the scanner sends a message to the host whenever a bar code is successfully decoded When disabled no message is sent Enable 01h Disable 00h 10 114 Parameter Menus Boot Up Event Parameter FOh 02h When enabled the sends a message a message to the ho
191. ts distribution center wants to encode manufacturer ID part number and destination code into their own Code 128 bar codes The distribution center also has products that carry UPC bar codes applied by the manufacturer The Code 128 bar codes are in the format MMMMMPPPPPDD Where M Manufacturer ID P Part Number D Destination Code The distribution center uses a PC with dedicated control characters for manufacturer ID CTRL M gt part number CTRL P gt and destination code CTRL D gt At this center the UPC data is treated as a manufacturer ID code The following rules need to be entered When scanning data of code type Code 128 send the next 5 characters send the manufacturer ID key CTRL M gt send the next 5 characters send the part number key CTRL P gt send the next 2 characters send the destination code key CTRL D gt When scanning data of code type UPC EAN send all data send the manufacturer ID key CTRL M gt To enter these rules use the following steps 13 3 A LZ MS XX07 Series Integration Guide Rule 1 The Code 128 Scanning Rule Step Bar Code On Page Beep Indication 1 Begin New Rule 13 8 High High 2 Code 128 13 12 High High 3 Send next 5 characters 13 24 High High 4 Send CTRL M 13 44 High High 5 Send next 5 characters 13 24 High High 6 Send CTRL P 13 45 High High 7 Send next 2 characters 13 24 High High 8 Send CTRL D 13 43 High High 9 Save Rule 13 9 High Low High Lo
192. ug scanner from USB host Present Continuous trigger mode bar code on page 3 6 and plug unit in Upon power up the scanner scans briefly decodes and switches to continuous trigger mode Note f after performing these checks the symbol still does not scan contact the distributor or call the Symbol Support Center at the telephone number listed on page xiii 9 2 Za Chapter 10 Parameter Menus This chapter describes the programmable parameters and provides bar codes for programming and hexadecimal equivalents for host download programming Throughout the programming bar code menus default values are indicated with asterisks C d Low di ee Indicates Default Feature Option Operational Parameters MiniScan scanners are shipped with the default settings shown in Table 10 1 on page 10 2 These default values are stored in non volatile memory and are preserved even when the scanner is powered down To change the default values scan the appropriate bar codes in this chapter These new values replace the standard default values in memory To recall the default parameter values scan the Set All Defaults bar code on page 10 10 Default Table Table 10 1 lists the defaults for all parameters and the page number each parameter appears on To change any option scan the appropriate bar code s 10 1 A A MS XX07 Series Integration Guide Table 10 1 Default Table
193. until the bar code is removed Host Trigger Blink A host command issues the triggering signal The scanner interprets an actual trigger pull as a Level triggering option Decode processing continues until a good decode occurs or the Laser On Time expires The laser is disabled once decode processing is complete Host 3 7 A LZ MS XX07 Series Integration Guide Beeper and LED Definitions Table 3 1 provides standard beeper definitions and Table 3 2 provides LED definitions Table 3 1 Standard Beeper Definitions Beeper Sequence Indication Standard Use 1 Beep short high tone A bar code symbol was decoded if decode beeper is enabled 1 Beep long high tone Thermal shutdown 3 Beeps short high tone MS 2207 2207VHD 3207 only Power on or reset Occurs immediately after the scanner is turned on indicating that the system software is working properly If three beeps occur during normal operation it is due to a reset and any work in progress is lost If this occurs often contact the Symbol Support Center Parameter Menu Scanning 2 Beeps short high tone Correct entry scanned or correct menu sequence performed 1 Beep hi lo hi lo tone Successful program exit with change in the parameter setting 2 Beeps lo hi tone Input error incorrect bar code or Cancel scanned wrong
194. w Rule 2 The UPC Scanning Rule Step Bar Code On Page Beep Indication 1 Begin New Rule 13 8 High High 2 UPC EAN 13 13 High High 3 Send all remaining data 13 24 High High 4 Send CTRL M 13 44 High High 5 Save Rule 13 9 High Low High Low If you make a mistake while entering this rule scan the Quit Entering Rules bar code on page 13 10 If you already saved the rule scan the Erase Previously Saved Rule bar code on page 13 9 Alternate Rule Sets ADF rules can be grouped into one of four alternate sets which can be turned on and off when needed This is useful to format the same message in different ways For example a Code 128 bar code contains the following information Class 2 digits Stock Number 8 digits Price 5 digits This bar code might look like 245671243701500 13 4 Advanced Data Formatting where Class 24 Stock Number 56712437 Price 01500 Ordinarily you would send this data as follows 24 class key 56712437 stock key 01500 enter key But when there is a sale you may want to send only the following 24 class key 56712437 stock key and the cashier keys the price manually To implement this first enter an ADF rule that applies to the normal situation such as When scanning a bar code of length 15 send the next 2 characters send the class key send the next 8 characters send the stock key send the data that remains send the Enter key Then enter the sale rule such as
195. ymbol p n 1 g g Contrast Bar Code Type Near Far Near Far 6 6 mil ABCDEF 1 5 in 6 00 in 4 75 in 64 14035 01 80 MRD 3 81 cm 15 24cm Note 2 12 07 cm PDF417 10 mil 012345678905 3 5 in 8 0 in 5 0 in 64 14937 01 35 MRD 8 89 cm 20 32cm Note 2 12 7 cm PDF417 10 mil 80 MRD 3 5 in 9 0 in 7 5 in 64 14037 01 8 89 cm 22 86 cm Note 2 19 05 cm PDF417 15 mil 80 MRD 5 6 in 15 0 in 13 0 in 64 14038 01 14 22 cm 38 10cm Note 2 33 02 cm PDF417 Notes 1 Contrast measured as Mean Reflective Difference MRD at 650 nm 2 Near ranges on lower densities largely depend on the width of the bar code and the scan angle 3 Working range specifications Photographic quality symbols pitch 10 skew 0 roll 0 ambient light lt 150 ft candles and temperature 23 C Note Not optimized for omnidirectional mode Usable Scan Length The decode zone is a function of various symbol characteristics including density print contrast wide to narrow ratio and edge acuity Consider width of decode zone at any given distance when designing a system Calculating the Usable Scan Length Method on page 2 11 describes how to calculate the usable scan length 6 12 Za Chapter 7 MS 2207VHD Specifications Overview This chapter provides the technical specifications for the MS 2207VHD scanner 7 1 A A MS XX07 Series Integration Guide MS 2207VHD Electrical Interface Figure 7 1 MiniScan Connector
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