SR-430
Contents
1. 1234567 8 910111213 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 1011101001 0000800000100 1000001000 4000 00 0000 000000000008 2100100010000 0 0000 000 000000010000 2100000000000 0000 0000 000000080001 10000 0100000000000 0000000010000 2110000000 01000000000 0000000000 of 00000008 0 9 100 01000000000 1008 01 0080000000001 40 o 1000 0000800 0050808000900 20008 010000080100 101000 1 00 1 0 o 0001 j90800080808000080001090 01101110011 0000000001 010000000000 0000000000 0002000010 L11111111111111111111111111111 672. JINOX1S YW 45 MarK reaver OR 4 3 Operating manual BuneJedo SEKONIC CORPORATION Head Office 7 24 14 Oizumi Gakuen cho Nerima ku Tokyo 178 8686 Japan Telephone 03 3978 2335 Fax 03 3978 5229 Introduction Introduction Thank you very much for purchasing our product Before using this product be sure to thoroughly read this manual so that you can use it properly Notice Microsoft Visual Basic is a registered trademark of Microsoft Corporation This product must not be reproduced or modified without permission from SEKONIC Before Usage Before Usage Make sure that the following are contained in the package immediately after unpacking the product 1 Main unit 2 Power code 3 Operation manual 4 Stopper plate 5 Cards 1 12 line standard sized check cards 5 2 15 line postcard sized check cards 5 3 Paper feeding roller protection card 1 6 CD ROM Warranty Warranty This product will be warranted without any charge for one year after delivery In case of a failure occurring during this period we repair it for free if it is judged to be related to our responsibility In this case we temporarily keep the failed product to repair it For details contact the shop at which you have purchased it In case that the free warranty period has expired or the failure is related to
3. iier 52 Cleaning and Time of change Of parts eese reta ted 53 Table of Contents 12 External VAC WS endi cata ire Rene rh Eee rte e Pere P CREE EE 55 13 Appendix canon eri antera ai iE ra eet ree o IEEE UE 56 13 A Reference Tor Card creation o a ci oet rh P ER HRS 56 13B Code 62 13 C Typical sample program sce iter e err 64 13D Check cardine 67 7 Precautions on Usage 1 Precautions on Usage Handle the device with the following in mind so as to enable the functions of it to be fully utilized 1 2 3 4 5 6 7 8 Before usage make sure that the power connector is firmly connected to an outlet Avoid connecting or disconnecting the connector during operation or while the power switch is turned on It may result in a failure Since the card reading part is equipped with an optical lens never insert a screwdriver or the like Otherwise reading may be disabled If card feeding is disabled due to clogged dust or the like in the card feeder open the top cover to remove it Refer to 11 Cleaning Allow an interval of at least 5 seconds between turning the power switch on and off Otherwise a failure may result Be sure to ground the device so as to prevent noise or static electricity from damagin
4. refers to the default setting Reference detection density data of each level differs between the SR 430 SR 410 com patible and SR 307 SR 305 SR 305S compatible modes SW2 Adjusts sensitivity Paper ream weight 213141516 70190 1107135116010 Baud level Setting F a LL 26 9 Control Commands 9 Control Commands This device operates according to command signals sent from the host computer Control commands and data are all sent and received in ASCII codes 9 A Initialize Commands The following commands are used to change the status of the device immediately after the power is turned on 1 Kinds of Initialize Commands Command Format Explanation DL DLE DLO Sets the reading density Sets the difference in the reading DD DC3 DDO DLE Sets the timing formet the 12 line or 15 line output 003 n Specifies the lines to be read in the E EA ED or ES mode DC4 DCA Sets separator codes and others CAN CAN CR Resets the device 2 DLE DL Command Reading Sensitivity Setting Command Explanation This command is for setting the reading sensitivity level 16 levels corresponding to density levels 1 to 16 can be set For example a mark of density level 2 or more is read when 02 is set The setting of the rotary switch is enabled when the power is turned on while software is prioritized when a DL
5. Do not put a heavy substance on the device Otherwise it may fall resulting in an injury Table of Contents Tope ge uo 10 11 Table of Contents Usage 1 01 Part ev 2 Nucleo E 5 Installing the USB DEIVEE 6n oerte tnb et ettet ee E EUER HEISE 6 4 Before installation eee recited et 6 4 B Installation 26 YE FUERTE 7 4 Checking the Assigned port 10 4 D Troubleshooting for Communication Errors 2 45 Uninstall Procedure 1o ettet eoo e a HO PEE ER eS 12 E A E 13 HA rea AE E EEE TE EOIR E IEE EE 13 5 B Functions and Operating Method of Operation Panel sess 14 2 uA M E MN 15 5 D Power Connection and Operation 1 19 DAE Test Mode 19 3 P Troubleshooting 20 Connection to Computer o ceto fetis ebat ea D PERS 22 How to Enter Mark ino herir eti tere Le Y eee PER ee ERE 23 Adjusting Reading Sensitivity itas ereit ire reor ePi
6. 63 13 Appendix 13 C Typical sample program Sample program using Microsoft Visual Basic Sample program is contained in the accessony CD ROM This sample program is designed to open and close a communication line transmit data and control how to receive data of a fixed or variable length Refer to this program for programming Before executing a program attach Command Button Text Box and MSComm to your form Note Please use MScomm compornent which upon Microsoft Visual Basic 6 0 We do not apply communication of custom control software whidh made by other third party Design screen screen SR 430 Sample 1 SR 430 Sample Proeram 1 Timing mark count 080 Mode AAASSSAAASSSAAASSSAAASSSAAASSSAAASSSAA ASSAY ode 001 Column 97531X 002 Column 86420Y 003 Column 97531 004 Column 86420 005 97531X 006 Column 86420Y 007 Column 97531X 008 Column 86420 009 Column 97531X 010 Column 86420Y 011 Column 97531X 012 Column 86420 lt OMR Read T OMR Read Command Button lt Typical program gt Private Sub Form_Load Screen MousePointer 11 Change mouse pointer to sandglass gt gt gt gt gt Initialize communication line lt lt lt lt lt MSComml Handshaking comRTS Set handshake method RS CS control MSComml RTSEnable True RS
7. 1 Timing mark direct under type standard sized card 6 35 T 6 35x 11 Tolerance not accumulated 3x 0 1 6 35 gt gt 1 0 0 05 Timing mark 9 0 82 55 Mark entry column General tolerance 0 20 Unit mm Allowable range of overall dimensions 82 47 82 73 13 2 Timing mark direct under type 1 6 35x Line 10 Tolerance not accumulated 6 35 5 0 2 5 E Card length 0 80 1 5 1 0 0 05 Standard Mark entry column 9 0 a at Card width General tolerance 0 20 Unit mm 59 13 Appendix 3 Timing mark control type 6 35x 10 9 0 Tolerance not accumulated 6 35 4 23 0 89 0 05 Card length L Lj 9 0 Timing mark LJ Lj Card width Mark entry column lt General tolerance 0 20 Unit mm
8. CR CR Data of X L bytes a column x M1M2M3 columns X 1 1 byte variable length data of number of marks CR 1 2 3 3 byteASCII code indicating read start column number Example Fromthe 3rd column 003 30H 30H 33H 1 2 3 3 byte ASCII code indicating number of columns to be read Example 50 columns 050 30H 35H 30H Note NIN2N3 and M1M2M3 cannot be omitted as 6 byte fixed length data Example 9 8 7 6 Mark position oue 10 2 6 7 lt Reading density When reading sensitivity 3 and density difference 4 Marks of reading sensitivity 3 or less are cancelled and the set density of 4 is subtracted from the maximum density In this example the density setting of 4 is subtracted from the maximum reading density of 10 Accordingly marks of reading density 6 10 4 6 or less are cancelled This outputs data at mark positions 9 and 6 44 10 Data Transfer Mode 10 5 ED Mode Variable Length Output Command with Density Data Explanation The data format is the same as the one in the E mode One byte indicating density data is added after each mark data to output it in two byte units Separators like STX and ETX can be added using the DC4 command Format Host Corrputer This device DLE E D NI1N2N3 M1M2M3 CR gt Receive 10H 45H 44H ODH Receive lt 1 Data output CR 00 CR Data of number
9. 1 2 Specifies a certain colum 48 10 Data Transfer Mode 10 M Other Commands 1 ENQ Command Error Status Output Command Explanation This command is for outputting the status after card feeding The data are of 1 byte fixed length ASCII codes Separators like STX and ETX can be added using the DC4 command Format Host Computer This device ENQ CR gt gt Receive 05H Receive Data output L Error status For error statuses see 8 B 2 49 40 Data Transfer Mode 2 Timing Mark Count Check Commands ENQ T Command Read Area Count Output Command Explanation This command is for retuming the number of read timing marks Whether a certain record has different ti mi ng mark count or not can be checked by checking the number of timing marks after the card feed command command is issued The data are of 3 byte fixed length ASCII codes Separators like STX and ETX be added using the command Format Host Computer This device ENQ T CR Receive 05H 54H Receive Data output Number of timing marks Example When the number of timing marks is 64 064 data is output Note In the case of the mark to mark type the contents of data vary for each mode SR 430 SR 410 compatible mode Number of read areas SR 307 compatible mode Number of timing marks 50 10 Data Transfer Mode 3 Sensor Status Check Commands
10. 60 13 4 Timing mark to mark type a 635 21 6 35x Line 10 Tolerance not accumulated 6 35 9 0 2 5 Card length 1 0 0 05 0 8 1 5 s entry column Timing mark de cat Card width 0 2 General tolerance 0 20 102 A Unit mm 61 13 13 Code Tables 1 ASCII code Upper bit 0 1 2 3 4 5 6 7 Lowe bit 000 001 010 011 100 101 110 111 0 0000 NUL DLE SP 0 1 0001 SOH DC1 1 q 2 0010 STX DC2 2 R b r 3 0011 ETX DC3 3 C S C S 4 0100 EOT DC4 4 D T d t 5 0101 ENQ NAK 5 U e 6 0110 SYN 6 F V f 7 0111 BEL ETB 7 g 8 1000 5 8 X h X 9 1001 HT EM 9 Y i y A 1010 LF SUB 1 Z j 7 B 1011 VT ESC K k C 1100 FF FS L D 1101 CR GS 1110 SO RS N T n F 1111 Sl US c DEL 2 ASCII decimal notation correspondence table ASCII ASCII Code hexadecimal Decimal notation Code hexadecimal Decimal notatio number number ENQ
11. Adds the code specified by S2 as the ETX code S3 is not necessary 51 3 Adds the STX code This value adds the code specified by S2 as the STX code CR is added as ETX S3 is not necessary 51 4 Addsthe STX and ETX codes This value adds the code specified by S2 as the ETX code and the code specified by S3 as the STX code 51 5 device neglects the codes specified by S2 or 53 as data at the time of reception 53 can be omitted Codes which are used in commands are not neglected Codes up to 6 bytes can repeatedly be specified 2 byte codes only in the 307 compatible mode settable character codes are shown on the next page All other codes cause command errors 51 6 Not used 51 7 Stores the set STX and ETX codes set values remain even after the power is turned on or the CAN command is executed S2 and S3 are not necessary Note Only S120 1 2 and 5 are effective in the SR 307 mode 34 9 Control Commands Contents of separators added for each mode SR 430 SR 410 compatible mode Command 0 CR CR SI X CR CR CR CR CR CR CR CR 2 ETX ETX ETX ETX CR ETX CR ETX 3 STX CR STX CR STX CR STX CR STX CR CR STX CR CR 4 5 ETX STX E
12. Connection status USB RS 232C Only USB is connected Available N A Only RS 232C is connected N A Available USB amp RS 232C are connected Available N A Connect the device to a computer by referring to the following procedure 1 Connection to Interface cable This deveice is able to connect USB interface or RS 232C interface Please choose a cable which much as interface connector RS 232C is needed to straight cable for connect between SR 430 and Computer Please set the following settings even if you use either USB initerface or RS232 C initerface 2 Setting data transfer rate Set the same data transfer rate baud rate to this device and the computer The device is set at 9 600bps by default Before switching turning SW1 be sure to turn the power of the device off When setting the baud rate of the computer refer to its operation manual The baud rate is set using 0 to 4 of SWI refers to the default setting Switch position Baud rate 0 2 400 1 4 800 2 9 600 3 19 200 4 38 400 5 to 9 not used SW1 Sets baud rate Paper ream weigh Baud Density level Setting 2 3 12345678 22 6 Connection to Computer 3 Setting data format Set the same data format to this device and the computer The DIP switches are set as shown in the table below by default Before changing the settings of the DIP
13. Example 50 columns 050 30H 35H 30H Note N1N2N3 and M1M2M3 cannot be omitted as 6 byte fixed length data 42 10 Data Transfer Mode 10 Mode Variable Length Output Command Explanation This command is for returning ASCII codes corresponding to marked line positions Data areof a variable length corresponding to the number of marks CR codes are added at break points between columns When no mark is detected in a column a space CR is output The correspondence between line positions and ASCII codes can be set in two ways as shown in the tables bdow by turning DIP SW6 on and off Separators like STX and ETX can be added using the DC4 command DIP SW6 OFF Line 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 Code 9 8 7 6 5 4 3 2 1 0 X Y BC DIP SW6 ON Line 1 2 3 4 5 6 7 8 9 10 11 22 13 14 15 Code O 1 21031415167 UB 10 Format Host Corrputer This device DLE E NIN2N3 MIM2M3 CR Reeve 10H 45H Receive lt 1 Data output CR ZCR J CR CR Data of X 1 bytes a column x M1M2M3 columns X 1 Variable length data of number of marks 1 byte CR N1N2N3 3 byte ASCII code indicating read start column number Example From the 3rd column 003 30H 30H 33H 1 2 3 3 byte ASCII code indicating number of columms to be
14. 24 Control Commands rino o eee eene e Pre re HERE 27 9 A Initialize Commands rrt ttr a ran aineas a S Ei 27 9 Feed Commands cs 37 9 C Device Control Setting 5 2 0 38 Data Transfer 25 39 gt Data Transfer Commands isani nana Nean 39 10 Mode 1 byte Fixed Output Command eee 40 10 C Mode Fixed Length Output Command eee 41 10 0 Mode Fixed Length Output Command for Automatic Density Distinction 42 10 Mode Variable Length Output Command eee 43 10 EA Mode Variable Length Output Command for Automatic Density Distinction 44 10 G ED Mode Variable Length Output Command with Density Data 45 10 H ES Mode Variable Length Output Command by Density and Mark Data 46 10 I Mode EBCDIC Code Convert and Output Command 47 10 nore tette tie pne e d n e ea 48 MOAI TD MGC oie Eie ER Pr ORE 48 10 1 Mode E tenete D 48 10 M Other Commands retirer rtr 49 10 N SR 305 Compatible Command
15. 2 3 M1M2M3 CR gt Receive 10H 45H 53H ODH Receive lt 1 Data output 1 l CR CRUD CR Data of number of marks CR nunber of marks CR a column x M 1M 2M3 columns mark data density data N1N2NX3 3 byte ASCII code indicating read start column number Example Fromthe 3rd column 003 30H 30H 33H M1M2M3 3 byte ASCII code indicating number of columns to be read Example 50 columns 050 30H 35H 30H Note N1N2N3 and M1M2M3 cannot be omitted as 6 byte fixed length data A column without a murk is handled as space CR space CR 20H ODH 20H and OD Example When there are a mark of density level 2 at position 9 and one of density leve at position 1 data of one column to be sent fromthe device is as follows HEX code 39H 32H 33H Data 9 1 CR 2 3 CR Mark data Density data Density information output data Density lwd 1 2 000 10 11 12 13 14 15 16 Output data 1 2 000 0 ASCII code 0 0 32H 3CH 0 O 0 O 4090 n the order of ASCII code In the SR 307 compatible mode the density leves of 1 to 8 are output 46 10 Data Transfer Mode 10 1 Mode EBCDIC Code Convert and Output Command Explanation This command is for reading EBCDI C based punched hole codes of one column and converti ng the codes into 1 byte ASCII codes to ou
16. 232C based asynchronous half duplex data transfer rate 2 400 to 38 400bps variable variable data format USB 2 0 full speed Virtual COM Port Device same specification as 11 Serial interface Supply voltage AC 115V Frequency 60Hz Current Approx 0 6A during motor rotation Approx in standby mode Supply voltage AC 220V Frequency 50 60Hz Current Approx 0 3A during motor rotation Approx 0 1 in standby mode Room temperature 5 to 35C Relative humidity 40 to 80 RH no dew condensation 360 L x 222 W x 171 H mm Length in operation 695 mm Main unit Approx 6kg 4 Installing the USB Driver 4 Installing the USB Driver The USB driver must be installed to use this product over a USB interface connection If using this product over a RS 232C connection the driver does not need to be installed and the procedures in this chapter are not necessary 4 A Before Installation To use a USB interface connection load the supplied CD ROM and install the driver by following the installation procedure in this chapter Be sure to install the USB driver before inserting the SR 430 into the computer s USB port The driver cannot be installed properly if the SR 430 is inserted into the USB port first Notes If you accidentally connect the SR 430 before performing the installation delete the falsely identified driver from Add or Remove Programs To install the
17. After reading the card the device outputs an error status code and waits for a command from the host computer Separators like STX and ETX can be added using the DC4 command Format Host Computer This device CR gt Receive Error status output E E 1 byte error status for the meaning refer to the error status code table 2 Error Status Code Table 2 1 SR 430 SR 410 compatible mode Code HEX Explanation 0 30H 1 31H Internal jam error during card feeding 2 32H Cards remain inside the device 3 33H Card feed error S2 cannot be turned on 4 Not used 5 35H used 6 36 only when a DF check is set Double feeding has occurred e ee S marks detected A 41H Not used B 42H Card empty 43H Not used D 44H Cover open P 50H invalid command or parameter has been input Q 51H Communication error p 70H Hardware error of the main unit 5 73H If a hardware error should occur turn the power off once t and reboot the device 75H If the device is not restored contact the sales shop v 76H 37 9 Control Commands 2 2 SR 307 compatible mode Code HEX Explanation 0 30H Cards have been sent normally 1 Not used 2 32H Jam error cards have not been sent no
18. ENQ S Command Sensor Status Inquiry Command Explanation This command is for retuming the present status of the card sensor The existence of a card at each sensor position can be detected using this command The data is of aformof 1 byteASCII numeric code CR 1 is returned when card is detected or 0 when no card is detected Format Host Corrputer This device ENQ S N CR gt gt Receive 05 53 Receive Data output T 1 byte status data N isa 1 byte ASCII code indicating the sensor number 1 byte data indicating the status of each sensor by bit is returned when N is 0 or the status of a specified sensor when N is not 0 When 0 716 54 3 2 1 0 Bit Signal Status control 0 Sensor S1 1 SensorS2 2 Sensor S3 0 Card available 1 Card not available 3 Sensor 54 4 DF sensor 5 Cove open 0 CLOSE 1 OPEN 6 Not used 1 aways 1 7 Not used 0 aways 0 When 0 The sensor is turned on when status data 1 or off when status data 0 1 31H Sensor 51 2 32H Sensor S2 3 33H Sensor S3 4 34H Sensor S4 5 35H DF sensor 6 36H Cover open 0 Close 1 Open 51 40 Data Transfer Mode Roles of sensors Sensor 51 Located at the card hopper and detects that cards have been set Sensor S2 Located at the card feed
19. Publish this file to the Web E mail this file Delete this Double click 3 Click the Install button 45 SEKONIC SR 430 Driver Installer SEKONIC SEKONIC SR 430 Installation Location Driver Version 5 3 C Program Files SEKONIC SR 430 Change Install Location 4 Click Continue Anyway After installation is completed the program will ask you to restart the computer for certain environments Click Yes to restart the computer Software Installation The software you are installing has not passed Windows Logo 2 testing to verify its compatibility with Windows Tell me why this testing is important Change Regional Options Continuing your installation of this software may impair p You must restart your computer before the new settings will take effect or destabilize the correct operation of your system either immediately in the future Microsoft strongly recommends that you stop this installation now and contact the software vendor for software that has passed Windows Logo testing Do you want to restart your computer now 4 Installing the USB Driver 5 After the computer is restarted turn on the power for the SR 430 and connect it to the computer s USB port 1 Turn on the power 2 Connect to the PC using a USB cable 6 The Found New Hardware Wizard is started In response to Can Windows connect to Windows Update to search for software s
20. Until MSComml InBufferCount 3 Val TMCount Keep looping until 3 timing mark count is received since one column corresponds to 3 bytes CMode MSComml Input Receive C mode data Textl Text Textl Text C CMode Chr amp HD Chr amp HA gt Display C mode data gt gt gt gt gt Read E mode read variable length data lt lt lt lt lt ReDim EMode Val TMCount As String Secure area Dim DataLength As Integer Textl Text Textl Text E Mode Chr amp HD Chr amp HA MSComm1 Output Chr amp H10 E001 TMCount Chr amp HD Send E mode read command ReciveCnt 0 Response gt Wait until E mode data is received DoEvents Response Response MSComml Input Receive E mode data DataLength InStr Response Chr amp HD Extract received data for each column If DataLength lt gt 0 Then EMode ReciveCnt Left Response DataLength Text1 Text Text1 Text Format ReciveCnt 1 000 Column EMode ReciveCnt Chr amp HA Response Mid Response DataLength 1 ReciveCnt ReciveCnt 1 End If Loop Until ReciveCnt Val TMCount Screen MousePointer 0 Initialize mouse pointer End Sub Private Sub Form Unload Cancel As Integer MSComml PortOpen False Close communication line End Finish program End Sub 66 13 13 0 Check card 12 line standard sized check card
21. above parts depends on condition of the device Ss 0 Separation pad Paper feeding roller Lo LJ Mylar ET Double feeding prevention 72 External Views 12 External Views 55 0000000 13 13 Appendix 13 Reference for card creation 1 Overall dimensions of card Width Length Standard sized card 82 55bmm 187 32 Postcard sized card 105mm 148mm Long sized card 82 55mm 304 8vmm Card of other size 82 55 110 0mm 1500 304 8mm For details of dimensions of cards refer to the reference drawing in 12 A 6 Width Direction of fiber Timing mark p L Length longer side Note When using carbon paper design the device so as not to allow the pasting position to overlap the end of the card feeding direction 2 Print ink Be sure to use print ink satisfying the following reflectance characteristics 1 Timing mark Non reflectance ink black of PCS 0 9 0 05 2 Unreadable information in marked area Drop out color 1 of PCS 0 15 or lower 3 Direction of fiber Parallels the longer side of paper direction of card feeding 4 PCS measurement wavelength 940nm for the near infrared light specifications 660nm for the infrared visible light specifications
22. between 1and 6 The deveice will not work correctly In case of set other position from following Set position and paper ream weight standard Please set additional one step more larger volume when DF 2 72kg 83 8g m error occurred in a paper feed ing Position Paper ream weight basis weight 90kg 104 7g m 110kg 127 9g m UA 135kg 157 0g m 6 160kg Rotary switch SW3 Sets paper ream weight 16 5 7 Handling cards 1 Do not use any card in one of the following states Soiled or damaged card card to which dust or a foreign matter adheres curled card or folded card folded in two four etc 2 Storage of cards Avoid storing cards in a place subject to sudden environmental change Pay sufficient atten tion to moisture and keep them in a cabinet or the like Do not leave them in a dusty place like near a window 3 Before using new cards to test card feeding be sure to loosen each card apart as shown in the figure below so as to prevent double feeding due to cards not completely separated 219 5 Operation 5 D Power Connection and Operation Test 1 Connect the power code after turning the power switch off 2 Turning the power switch on turns the POWER LED orange on to sound a buzzer This turns the device in the ready status for commands from the host computer I
23. read Example 50 columns 050 30H 35H 30H Note N1N2N3 and M1M2M3 cannot be omitted as 6 byte fixed length data 43 40 Data Transfer Mode 10 F EA Mode Variable Length Output Command for Automatic Density Distinction Explanation The data format is the same as the one in the E mode This command is for automatically distinguishing mark density for one column When there are several marks it cancels light colored marks of larger density difference than the set difference and outputs marks of smaller density difference than the set difference Since the density difference is set at 01 by default the darkest mark data is output in this case Density difference between a dark mark and the next darker mark to be canceled can be set using the DC3 DD command Separators like STX and ETX can be added using the DC4 command Note Relationship with sensitivity level setting When there is only one mark the existence of a mark is distinguished according to the preset sensitivity level When there are several marks density differences are compared among marks of density more than the preset sensitivity level Marks of density less than the preset sensitivity level are canceled Note When there are several marks of the same density level data is also output in a plural form Format Host Computer This device DLE E N1N2N3 1 2 CR Receive 10H 45H 41H Receive lt Data output 1 1 CR
24. settable onto the hopper refer to the side guide index Note that setting too many cards on it may result in a paper feeding error or misreading 5 When using long sized cards raise the side guide toward the external side of the guide wire Pressing once Locks the hopper twice Unlocks the hopper How to move side guide P MEE Slide it right and left while pressing the guide lock lever green Guide wire Side guide index 15 5 Operation Notes 1 6 Carefully handle cards so that they will not be bent or damaged Otherwise a paper feeding or reading error may occur When adding cards lower the hopper and be sure to reset cards Otherwise a paper feeding error may occur Setting double feeding detection function device is equipped with a function to issue a double feeding DF error A transmission type sensor is used for detection and double feeding is judged based on a differ ence in the amounts of light transmitted due to a difference in card thickness Before using the device match the thickness of cards to be used and the paper ream weight setting of SW3 settings of SW3 are as follows If DF is detected in the SR 307 or SR 305 lt SR 305S gt mode it is assumed to be a jam error outputting an error code Position 1 2 3 Op DF sensitivity DF not judged Thin Thick refers to the initial setting Note Please set position
25. signal High receivable MSComm1 CommPort 4 gt Set communication port COM4 lt lt Change to using port MSComm1 Settings 38400 n 7 2 gt Set communication conditions MSComm1 PortOpen True Open communication line MSComm1 InBufferCount 0 gt Clear receive buffer MSComm1 OutBufferCount 0 gt Clear send buffer Screen MousePointer 0 Initialize mouse pointer End Sub Private Sub Command 1_Click Dim Response As String Dim TMCount As String Dim CMode As String Dim EMode As String Dim ReciveCnt As Integer 64 13 gt gt gt gt gt Check device communication lt lt lt lt lt If MSComm1 DSRHolding False Then gt Check communication MsgBox device is not turned on Chr amp HD _ or no communication cable is connected 16 SR 430 Sample Program 1 Screen MousePointer 0 Exit Sub End If If MSComm1 CTSHolding False Then Check device communication state MsgBox device is not in the receivable state 16 SR 430 Sample Program 1 Screen MousePointer 0 Exit Sub End If gt gt gt gt gt Initialize lt lt lt lt lt MSComm1 Output Chr amp H18 Chr amp HD Send initialize command Do gt Wait until 1 byte is received DoEvents Loop Until MSComm1 InBufferCount 1 Response MSComml Input Receive initialize response If Response lt gt Chr amp H6 Then MsgBox Initialization fails Screen MousePointe
26. switches be sure to turn the power of the device off When setting the data format of the computer refer to its operation manual oF i ON 123 4 5 67 8 1 DIP switch function Set the device as follows refers to the default settings DIP SW No Meaning ON OFF 1 Sets Communicator Data bit length 8 Data bit length 2 7 format 2 Sets Communication data Parity check disabled Parity check enabled format Sets Communication data 3 format Odd parity Even parity 4 Stop bit length 1 Stop bit length 22 format 5 Read timing Mark to mark type Direct under type Changes line compatible code Eois 0123 lt gt 987 6 Lines to read 15 12 Tm ue Gard used ia Postcard sized timing Card sized timing control type direct under type Operation mode 7 8 SR 430 SR 410 compatible MEE OFF 18 SR 307 compatible ON OFF note SR 305 compatible SR 305S compatible ON Not used ON ON Note Note that the reading sensitivity is graded in eight levels in the compatible mode 23 6 Connection to Computer 4 Communication control method This device has the following two unreceivable states In these states set the communication timing by the host computer 1 Due to half duplex communication d
27. your responsibility or has resulted from a worn part we will repair it with charge The scope of this warranty is limited to this product and its accessories Note that SEKONIC will not be responsible for any financial damage lost profit or claim from a third party resulting from operation of this product Safety Precautions A Safety Precautions This Safety Precautions page lists various symbols for ensuring safety operation of this product so as to prevent users other people or properties from being damaged Thoroughly read these precautions and understand the meanings of the symbols before proceeding to the A Warning Improper operation by neglecting this instruction may result in death or serious injury main text of this manual A Caution Improper operation by neglecting this instruction may result in personal or property damage Neglecting this instruction may generate smoke or a fire Neglecting this instruction may cause an electric shock Indicates a prohibited action Indicates that disassembly or modification is prohibited Instructs that the power code must be removed from the outlet for safety opera tion Instructs that the part must be grounded for safety operation Warning A fire or an electric shock may result if this product continues to be used with strange smell or sound In this case immediately turn the power switch off and then remove the
28. 05H 5 E 45H 69 CR ODH 13 F 46H 70 DEL 10H 16 G 47H 71 DC1 11H 17 H 48H 72 DC2 12H 18 49H 73 DC3 13H 19 1 74 DC4 14H 20 K 4BH 75 Space 20H 32 L 4CH 76 0 30H 48 M 4DH 77 1 49 78 2 32H 50 4FH 79 3 33H 51 50H 80 4 34H 52 Q 51H 81 5 35H 53 R 52H 82 6 36H 54 S 53H 83 7 37H 55 T 54H 84 8 38H 56 U 55H 85 9 39H 57 V 56H 86 A 41H 65 57 87 42H 66 X 58H 88 C 43H 67 89 D 44H 68 Z 5AH 90 62 13 3 EBCDIC punch code ASCII code correspondence table Character Punchedhole code Character Punchedhole code position position Space None 20H 816 2BH J Y 26H 8161 3BH x 2DH D 81610 J xp Y 5EH 817 2 J 110 2FH D 8171 0 0 30H D 30 0n Y 2BH 1 1 31H A 2 32H B 20 Y 42H 3 3 33H C 30 Y 43H 4 4 34H D 41 44H 5 5 35H E 51 dod 6 6 36H F oY 46H 7 7 37H G 4n 8 8 38H H al Y 48H 9 9 39H 49H 1 716 26H J 10 X AAt 812 K 0 eii J 8 20 Y 24H L 30 X 4 J amp 20 X 21H M 40 X 4DH J 813 23H N 50 X TEN a 30 2 x 4FH J 97 30 X 24H P 7 X 50H 81310 2CH Q 8 x nd J 814 40H R 91 52H J 8 41 Y 3CH S 210 23H J 87 40 X 2AH T 310 54H J 81410 25 U 4 0 55 815 27H V 510 56H J 9 50 Y 28H W 610 57H 97 50 X 29H X 710 58H 81510 Y 810 59H J 816 3DH 2 910
29. 1 Types of data transfer commands Mode Explanation Outputs the number at a mark when the merk is detected on the 9 to 0 lines in one colunn or outputs a space when no mark or more than 2 rrerks are detected data is output as an ASCII code The X and Y lines are neglected B Outputs data in one specified column in the A mode format Divides one colum in units of 4 lines and outputs the ASCII codes of 0 to F regarding the data as hexadecimal numbers Outputs the darkest mark in the C mode only as data D Outputs data of one specified column in the C mode format E Outputs ASCII codes corresponding to marked line positions Outputs the darkest mark in the E mode only as data ED Adds 1 byte density data after mark data the E mode Outputs mark and density data separately in the ED mode F Outputs data of one specified column in the E mode format Reads EBCDIC based punched hole codes of one column and converts the codes into ASCII codes to output them Outputs data of one specified column in the G mode format Modes marked are for density related commands x o Note The A B CA D F G and H modes are available in the 307 compatible mode only 39 10 Data Transfer Mode 10 B Mode 1 byte Fixed Output Command Explanation This command is for outputting the number at a mark when a mark is detected on the 9 to 0 lines in one colun
30. 5 CR 4 5 ETX ETX 5 ETX STX ETX STX ETX STXD ETX K L CAN 0 1 2 3 STXICR STXH CR ACK 4 5 ETX STX ETX ACK 35 9 Commands Character codes settable when 1 5 8 Upper 4 bit z 0 1 2 3 4 5 0 WA 5 4 1 SH 2 D2 3 EX 4 ET 5 NK 6 SN f 7 BL EB 8 BS LF SB B HM EC oO 50 1 WA CAN Command Reset Command Explanation This command is used as the reset command This command initializes the device After this command is executed the device is reset internally and returns the ACK code 06H At the time the READY LED green and ERROR LED red blink The host computer must be designed to transmit the next command after receiving this code Separators like STX and ETX can be added by the DC4 command only in the SR 430 SR 410 compatible mode Format Host Computer This device CAN Receive 18H 06 9 Control Commands 9 Card Feed Commands 1 Command Card Feed Command Explanation When this command is transmitted the device sends one card only and reads it
31. 5H ODH Specifies the timing control type N is the 1 byte ASCII numerical code indicating the reading method 1 9 Commands Descriptions of each read timing format R refers to the read area Descriptions of each control type 1 Timing control type PEE R dxm m Specified multiple fixed at 3 d Timing mark width 2 Direct under type 3 Mark to mark type front end or blank space to be read Approx 2 5mm 1st column 2nd column mE Y tc Y ry tc Y z 32 9 Control Commands 5 DC3 Command Read Line Specify Command Explanation This command is for specifying the number of lines of data to be read When the DC3 command is executed the set value remains until the device is reset or the power is turned off When the power is turned on or the device is reset the number of lines will become the value set to the DIP switch and when the DC3 command is executed the priority will be given to the software Format DC3 N1 N2 CR 13H 0DH The value of N1N2 determines the number of lines of data to be read NIN2 z 12 Data is read assuming the number of lines as 12 NIN2 15 Data is read assuming the number of lines as 15 The modes in which the 15 line format is available are C CA D E EA ED ES and F modes DC3 L Command Read Line Area Setting Command Explanation This command is execute
32. Note 1 Drop out color Refers to a color which is not read by optical mark read elements due to being converted to the same signals as blank parts although visible as various colors to human eyes 56 13 3 Printing of timing mark Direct under type Control type Mark to rerk type Standerd size Card of other size card Timing mark width W 1 0 0 05 10 10mm 0 89 0 05mm 1 0 0 05 Timing mark length L 3 0 0 1mm Timing mark pitch P 2 21mm 2 5bmm 4 23nmm min 2 5mm min Blank between timing Timing mark width ks D 1 5mm 1 5mmmin x ox emn mH 1 5 30 0mm Number of timing marks Four points min Reference drawing in 12 6 For postcard sized cards use the timing mark control type 4 Mark entry frame fixed value for standard sized card a Dimensions rectangle Height V 0 8 to 1 5mm Should be less however than the timing mark width W Length H 3 5 to 4 3mm Use a drop out color and set the PCS value at 0 15 or lower b Print color 0 1 Mark entry frame Timing mark Left end of card 5 Corner cut When cutting one corner of cards for reference to align cards cut the opposite side from the paper feed reference surface timing mark side by 5mm or less 257 13 6 Reference Drawings
33. Specitications 3 Specifications 1 10 11 12 13 14 15 16 Available cards Mark line number Mark column Reading method Marking Reading wavelength Card feeding rate Hopper capacity Error check Self check Serial Interface USB interface Power supply Operating environments Overall dimensions Weight is option Card size Standard sized card postcard sized card long sized card Paper type OCR paper Paper ream weight 70 90kg to 135kg basic weight 83 8g n 104 7g m to 157 0g n thickness 0 11mm 0 13mm to 0 19mm The 70kg paper is available to standard size only Standard sized card Data 12 lines timing 1 line Postcard sized card Data 15 lines timing 1 line 140 columns max specified by program Direct under type timing control type mark to mark type Near infrared light specifications Pencil mark HB OCR marker infrared visible light specifications The above ball point pen Near infrared light specifications 940nm infrared visible light specifications 660nm Approx 256 sheets min AC 115V 50Hz machine feeding rate using standard sized cards at room temperature 200 sheets max paper of ream weight of 110kg basis weight of 127 9g m standard sized card Four types of errors can be judged jam timing mark card empty and double feeding errors card detection sensor is to be checked Serial EIA RS
34. TX STX ETX STX ETX STX CR ETX STX CR ETX ED ES CAN 0 CR CR CR ACK 1 CR CR CR CR CR ACK 2 DcRETX CRO CR ETX ACK 3 STX STXH CR CR Data output from the device 4 STX CR ETX STX CRO CR ETX ACK 58 307 compatible mode 5 0 1 CR CR 2 3 SIXICR STXHCR 5 STXHCR STXD CR STX CR 4 5 5 ETX STXHETX STXI ETX 5 5 ETX C CA D E EA ED 0 1 CR CR 2 ETX ETX ETX ETX ETX 3 SIXICR STXHCR STXD CR STXHCR STXD CR STXD CR 4 5 ETX ETX STXH ETX STX ETX 5 5 ETX ES F G H 0 CR 1 CR CR CR CR 2 ETX ETX ETX ETX ETX ETX ETX 3 STIXICRHCR STXICR STXHCR STXD CR STXHCR
35. ata reception is disabled while the device is sending data 2 Data reception is disabled while the device is executing a command or the internal communica tion buffer is full The device notifies this state using an RS signal 5 Control line level CS The device sends data when this signal is at the high level RS The device outputs low level RSs in the unreceivable state DR The device outputs high level DRs while the power is turned on Signal level High 3V to 12V Low 3V to 12V The following signals are only available to use RS 232C connection 6 Signal name and pin connection External computer This device Signal Signal direction Signal Pin Pin Signal GND FG 1 1 Data to send SD 2 gt 2 Data to receive RD 3 3 SD Request to Send RS 4 gt 4 CS Clear to Send CS 5 lt 5 RS Data set Ready DR 6 6 DR Signal GND GND 7 7 GND 24 7 How to Enter Mark 7 How to Enter Mark 1 Dimensions of mark Width 3 5 to 5 0mm Thickness 0 4mm or moe 2 Writing implements Pencil of HB or softer OCR marker mechanical pencil infrared visible light specifications The above ball point pen 3 Density PCS 0 7 min 1 4 Typical entries w e NG Ux Note When using a mechanical pencil be sure to enter a ma
36. ate 13 5 Operation 5 Functions and Operating Method of Operation Panel The operation panel is equipped with the following two switches and four LEDs lamps 1 Functions of switches FEED Pressing this switch feeds one card CLEAR Clears an error if any The hardware or cover open error however cannot be cleared 2 Meanings of LED display TEST yellow Comes on in the test mode ERROR red Comes on when an error occurs READY green Comes on when communication is enabled POWER orange Comes on when the power is turned on 14 5 Operation 5 Setting Cards 1 Pressing the PUSH button on the left of the hopper generates a clicking sound to lock the hopper at the card setting position Pressing the PUSH button again unlocks the hopper to raise it Do not unlock it by pressing the card 2 Set cards while the hopper is lowered at the setting position Set them with the marked surfaces facing upward and the timing mark sides facing left At this time well align the cards Pay particular attention to the ends of the cards since a paper feeding error may occur unless they are well aligned 3 Press the side guide hard to the cards so that no clearance is allowed between them Otherwise a reading error may occur When moving the side guide keep pressing the guide lock lever green The side guide is fixed when the lever is released 4 For the maximum card number
37. be read N values determine the mark read areas in the formats shown in the table below Setting method of timing control type Specifying the timing control type with N 1 when specifying the T command sets the read area at three times of the timing mark Format DLE T CR STX 1 CR 10H 55H 0 02H 31H 29 9 Commands Descriptions of each control type 1 Timing control type 14 R dxm m Specified multiple fixed at 3 Timing mark width 2 Direct under type 3 Mark to mark type front end or blank space not to be read 1st column 30 Descriptions of each read timing format R refers to the read area 4 Mark to mark type front end or blank space to be read y Approx 2 5mm 1stcolumn 1 2nd column 9 Control Commands 4 2 SR 307 compatible mode Format Host Computer This device DLE T CR N CR Receive 10H 55H ODH N is the 1 byte ASCII numerical code indicating the reading method N values determine the mark read areas in the formats shown in the table below N Mark read timing format 0 Mark to mark type 1 Timing mark direct under type Timing control type read multiple 3 times 4 3 SR 305 SR 305S compatible mode Format Host Computer This device DLE T CR N CR Receive 10H 5
38. command is used This setting is not stored after the power is turned off This applies to when the CAN command is executed In the SR 307 compatible mode the density levels are to 8 Format DLE D L N1 N2 CR 10H 44H 4CH 0DH NIN2 2 byte ASCII code 27 9 Commands 3 DC3 D D Command Reading Density Difference Setting Command Explanation This command is for setting the density difference allowable from the darkest mark in the CA and EA modes After setting the difference marks thinner than the setting are cancelled and those in the allowable range are all output The density difference is set at 01 by default In this case mark data of the darkest density are output This setting is not stored after the power is turned off This applies to when the CAN command is executed Notes 1 Relationship with the sensitivity level setting When there is one mark the existence is judged according to the set sensitivity level When there are more than one mark the density differences are compared among those at the set level or more and marks under the set level are cancelled When there are more than one mark at the same density level more than one pieces of data are also output e g 1 When the density level is set at 2 and there are marks of density 6 4 and 3 If the density difference of 3 is specified the mark under the density level of 3 6 3 3 is ca
39. d together with any of data read commands such as E EA ED and ES This command is for specifying the read area of each line and the range of line whose density is compared setting of this command is not stored The initial value after the power is turned on is set for each column as 12 lines or 15 lines When executed together with any of the E EA ED or ES command this command can specify square areas Format DC3 L N1 N2 1 M2 CR 13H 4CH 0DH The values of NIN2 and M1M2 determine the range of lines to be read NIN2 Read starting line counted from the timing mark side 2 Number of lines to be read Note Although the E EA ED or ES command also follows the DC3 command it does not follow the DC3 command once the DC3 L command is used 33 2 Control Commands 7 4 Command STX ETX Setting Command Explanation This command is for determining the ETX code following data output from the device and the recog nizing method of received data When the DC4 command is executed the set value remains until the device is reset or the power is turned off Format DC4 51 52 53 CR 14H 0DH The values of S1 determine the statuses of the ETX code etc 51 0 Initializes the device This value erases 51 7 data stored in the memory Does not add the ETX CR code S2 and S3 are not necessary 51 1 Adds CR as the CR code S2 and 53 not necessary 51 2
40. dates Sort by Name BE E 15 SEKONIC 58 430 Driver Removal Add New Programs To change this program or remove it From your computer click Change Remove Add Remove Windows 1 Click Change Remove Components Set Program Access and Defaults X SEKONIC SR 430 Driver Uninstaller SEKONIC SEKONIC SR 430 Installation Location Driver Version 5 3 C Program Files SSEKONIC SR 430 Cancel 2 Click Uninstall f 2 5 5 Operation 5 Preparation Install the device and open the stacker Set the card stopper at appropriate position for the card size to be used and raise the side guard at the specified position Make sure that the card stopper has not been set inside out During this operation be careful not to allow bright light to directly enter the card ejector or hopper Open the stacker in Set the card stopper like this Card stopper and card size Position A Long sized card Position B Standard sized card Position C Postcard sized card When using long sized cards it is recommended to use the stopper plate so as to prevent paper from coming out of the stacker Setting method Engage the angled hole on the stopper plate with the protrusion at the center of the top cover and firmly set it so that it is not disengaged even after you take off the hands Be careful that the front and rear surfaces are set properly Stopper pl
41. ding error 33H Remove cards by referring to 5 2 More than one card are fed at a time Timing mark read fails DF error 36H Timing mark error 40H Check the card conditions Available timing marks are three or less or no timing mark is detected Check cards Communication line error between host computer and device Overrun error Parity error Framing error Communication error 51H Make sure that the communication related settings are proper Invalid command or parameter is entered Command or parameter error 50H Enter a valid command or parameter No card available in hopper Card empty 42H Set cards in the hopper Reset the error by pressing the Clear switch to reboot the device Top cover is open Cover open 44H Close the top cover 20 5 Operation 2 Action when a card jam or feeding error occurs Follow the procedure below when a card jam or feeding error occurs Procedure 1 2 3 4 5 6 Lower the hopper to open the top cover Manually remove the jammed card s After removing make sure that no torn piece of paper is left Slowly lower the top cover toward you until it is locked Make sure it is locked otherwise a feeding error may occur This turns the ERROR LED red off If the ERROR LED red is still on repeat steps 3 and 4 again Correct the error appropriately by
42. driver you must log in as a user with administrator privileges Operating Environment Software USB driver Windows2000 1 OS WindowsXP 2 WindowsvVista 3 PC Computer with USB interface in standard configuration 4 Professional Edition SP4 or later 2 Home Professional Edition SP2 or later 3 Home Basic Home Premium Business Ultimate 4 e The OS must be preinstalled software may not work for certain computer models and configurations Operation is not guaranteed for systems with an upgraded OS add on USB interface self built computers built to order computers and in emulator environments such as VirtualPC Operation is not guaranteed for connections that pass through a USB hub A drive capable of reading CD ROMs is required for installing the software 4 Installing the USB Driver 4 B Installation Procedure The screens in the explanations below use Windows XP 1 Check that the SR 430 is not connected 2 Start Windows load the driver CD and run the installer program sr430usbInstaller exe on the CD onr File Edit View Favorites Tools r Bak 57 27 Search gt Folders Address E English Driver M amp Files Currently on the CD CD Writing Tasks g Write these Files to CD LJ LJ E E x64 x86 setup ini sr43Dusb inf File and Folder Tasks wi Rename this A By Move this file bInstal Copy this file SHEE
43. elect No not this time 7 In response to What do you want the wizard to do select Install from a list or specific loca tion Advanced Found New Hardware Wizard This wizard helps you install software for SR 430 If your hardware came with an installation CD or floppy disk insert it now What do you want the wizard to do Click Next to continue lt Back Next gt Cancel 4 Installing the USB Driver 8 Select Search for the best driver in these locations insert a check mark for Include this location in the search and click the Browse button and select the C Program FileNSEKONIC NSR 430 folder Found New Hardware Wizard Please choose your search and installation options en for the best driver in these locations Use the check boxes below to limit or expand the default search which includes local paths and removable media The best driver found will be installed 1 Select Search removable media floppy CD ROM C Program FilesSSEKONICNSR 430 iclude this location in the search search will choose the driver to install 2 check mark this option to select the device driver from a list Windows imei guarantee that the driver you choose will be the best match for your hardware 3 Select the folder lt Back J Next gt 9 Click Contin
44. f the ERROR LED red comes on or a buzzer continuously sounds turn the power switch off and refer to 5 F Troubleshooting 3 Pressing the Feed switch once feeds one card Keep pressing it continuously feeds cards 5 E Test Mode Test mode Checks reading For checking use a specified check card 1 Turning the power switch on while pressing the Feed switch sounds a buzzer and calls the test mode turning all LEDs on 2 Pressing the Feed switch once continuously feeds cards During this continuous feeding a buzzer goes off if a reading error occurs 3 Keep pressing the Feed switch stops card feeding 4 In order to exit from the test mode turn the power off and on again Note The check card to be used must be changed as follows depending on the setting of DIP SW6 DIP SW6 OFF Timing direct under type 12 line standard sized card ON Timing control type 15 line postcard sized card With this setting the mark to mark type or direct under type selected by DIP SWS5 is neglected 19 5 Operation 5 F Troubleshooting 1 Error display Contents of error Error type HEX error code Action Internal error Hardware error 70H to 76H Turn the power off once and on again If the device is not restored contact the sales shop Card jamming Card jam 31H or 32H Card slips to prevent feeding Card is attempted to be fed with the hopper being lowered Card fee
45. g the device Also do not touch the metallic part of the device during card feeding operation If the device is used without being grounded or the metallic part is touched malfunction or an elec tric shock may result Do not place the device in a place subject to direct sunlight or near a heater Also be careful not to allow sudden temperature change moisture dust or excessive shock around the device Otherwise a failure like wrong paper feeding reading or operation may occur When the device is not in use for long periods insert the paper feeding roller protection card between the paper feeding roller and the separation pad to prevent the roller material from deteriorating If the paper feeding roller becomes soiled with powder from card paper or pencil the roller and the card may slip In order to prevent it clean the paper feeding roller at proper intervals Refer to 11 Cleaning If the exterior of the device is soiled slightly wipes with soft cloth wetted with water or neutral detergent Note that wiping with cloth wetted with volatile chemicals like benzine or thinner may cause deforming or decoloring 2 of Each Fart 2 Names of Each Part 2 of Each Part Rotary switch SW2 Rotary switch SW1 DIP switch DIPSW Rotary switch SW3 Separation pad Card detection sensor Paper feeding roller 1 A 1 3
46. ing port and detects that card feeding has started Sensor 53 Located at the reader and reads data Sensor 54 Located at the card ejector and detects that cards have been ejected DF sensor Located between 51 and 52 and detects double feedi ng Cover open Detects whether the top cover is open or not 2 Sensor position Paper Ha roller Um S2 si Hopper DF MUS e Lo open Direction of card 10 SR 305 Compatible Command Explanation The SR 305 SR 305S typeis equipped with data transfer modes of A B C D E F G andH which are also available for this device For details refer to the SR 305 operation manual 52 77 Cleaning and Time of change of parts 11 Cleaning and Time of change of parts 11 A Cleaning Clean the rollers reading lens and sensors since various malfunctions are caused if they are stained 1 Cleaning of rollers After feeding 5 000 sheets or paper or a large amount of cards or using carbon paper wipe the rollers by softly pressing clean cloth slightly wetted with disinfectant alcohol ethanol to them If the rollers are stained the stains may rub off to cards or malfunction may occur 2 Cleaning of read lens Wipe the lens on the reader by softly pressing clean cloth slightly wetted with disinfectant alcohol ethanol to it once a month or in every 5 000 sheet feeding If the read lens is stained a reading error may occur 3 Cleaning of various sensors Wipe the sen
47. n or outputs a space when no mark or more than two marks are detected This device neglects marks and prints on the X and Y lines and outputs data as a 1 byte fixed length ASCII code for one column Separators like STX and ETX can be added using the DC4 command Note This mode is enabled only with the 12 line format setting Example ASCII output data for the following marks L3 KK lt lt O OND Ui IS X X 00 U1 DS KK lt lt lt ls column 2ndcolum 3rdcolum 4th colum Output data ASCII code 0 1 SP 2 Se EM HEX code 30H 31H 20H 32H Format Host Compute This device DLE NIN2N3 M1M2M3 CR Receive 10H 41H ODH Reve Data output IUD Fixed length of 1 byte a colurm x M 1M 2M3 colunns N1N2N3 3 byte ASCII code indicating read start column number Example Fromthe 3rd colum 003 30H 30H 33H M1M2M3 3 byte ASCII code indicating number of columns to be read Example 50 columns 050 30H 35H 30H Note N1N2N3 and 1 2 38 cannot be omitted as 6 byte fixed length data 40 10 Data Transfer Mode 10 C Mode Fixed Length Output Command Explanation Onecolumnis divided in units of four lines Existence of a mark on each lineis indicated by 1 and non existence is indica
48. ncelled and two pieces of data of density 6 and 4 are judged to exist and output e g 2 When the density level is set at 4 and there are marks of density 8 5 4 and 3 If the density difference of 3 is specified the mark under the density level of 4 namely the mark of density 3 is first cancelled due to the sensitivity level setting and then the marks under the density level of 5 8 3 25 are cancelled Thus data of density 8 is judged to exist and output Format DC3 D D 1 CR 13H 44H 44H ODH NIN2 2 byte ASCII code 28 9 Control Commands 4 4 1 DLE T Command Timing Format Setting Command Explanation This command is for setting mark read timing timing mark type If the DIP switch setting has not been changed the setting by this command is not required when the power is turned on When the T command is executed the set value remains unchanged unless the device is reset or the power is turned off When using the timing control type be sure to set the read timing by this command In SR 430 SR 410 compatible mode Format Host Computer This device DLE T CR STX N CR gt Receive 10H 55H 0DH 02H 0DH N Specifies the format 1 byte ASCII numerical code between 1 and 5 N Mark read timing format 1 Timing control type 2 Direct under type 3 Not used 4 Mark to mark type end or blank space not to be read 5 Mark to mark type end or blank space to
49. nt to use a specific port The procedure for changing the port is de scribed below 1 Right click the SR 430 entry from the Device Manager screen see section 4 C and then click Properties from the pop up menu 1 Right click Ports COM amp LPT Communications A isable Sound video an amp System devices Uninstall Universal Seriall scan for hardware changes Opens property sheet For SR 430 COM3 Properties Port Settings Details Bits per second Data bits Parity 1 Select Stop bits Flow control Advanced Defaults 3 At COM Port Number select the port number that you want to change to Advanced Settings for Use FIFO butlers requires 16850 compatible UART Select lower settings to correct connection problems Select higher settings for faster performance Receive Buffer Low 1 J Hinas COM Port Number Transmit Buffer Low 1 2 COM1 use COM2 COM3 COM Port Number COM3 1 Select the port 4 Installing the USB Driver 4 E Uninstall Procedure From the Control Panel go to Add or Remove Programs click the Change Remove button and uninstall by following the instructions 6 Add or Remove Programs Change or Remove Programs Currently installed programs iB cma DR Cn jB oe pape Show up
50. of marks x 2 bytes CR a column x M 1M 2M3 columns N1N2NX3 3 byte ASCII code indicating read start column number Example From the 3rd column 003 33H M1M2M3 3 byte ASCII code indicating number of colums to be read Example 50 columns 050 30H 35H 30H Note N1N2N3 and M1M2M3 cannot be omitted as 6 byte fixed length data A column without a mark is handled as space CR 20H ODH Example When there are a mark of density level 2 at position 9 and one of density levd at position 1 data of one column to be sent from the device is as follows code 39H 32H 31H 33H Data 9 2 1 3 CR Density Density Density information output data Densitylvd 1 2000 10 11 12 15 14 15 16 Output data 1 2000 ASCII code 32H 0 O O 4090 Inthe order of ASCII code In the SR 307 compatible mode the density levels of 1 to 8 are output 45 40 Data Transfer Mode 10 H ES Mode Variable Length Output Command by Density and Mark Data Explanation The data format is the same as the one in the E mode This command is for outputting mark and density data separately The density data format is also the same as the one in the ED mode Separators like STX and ETX can be added using the DC4 command Format Host Computer This device DLE E 5 1
51. ornet is the same as the one in the C mode This command is for automatically distinguishing mark density for one column When there are several marks it cancels light colored marks of larger density difference than the set difference and outputs marks of smaller density difference than the set difference Since the density difference is set at 01 by default the darkest mark data is output in this case Density difference between a dark mark and the next darker mark to be canceled can be set using the DC3 DD command Separators like STX and ETX can be added using the DC4 command Note Relationship with sensitivity level setting When there is only one mark the existence of a mark is distinguished according to the preset sensi tivity levd When there are several marks density differences are compared among marks of density more than the preset sensitivity levd Marks of density less than the preset sensitivity level are canceled Note When there are several marks of the same density level data is also output a plural form Format Host Computer This device DLE C A 1 2 3 M1M2M3 CR gt Receive 10H 43H 41H Recdve Data output 00000 Fixed length of 4 bytes colunn x 1 2 3 columns N1N2N3 3 byte ASCII code indicating read start column number Example Fromthe 3rd column 003 30H 30H 33H 1 2 3 3 byte ASCII code indicating number of columns to be read
52. power code from the outlet After making sure that smoke generation has stopped ask the sales shop for repair Never attempt to repair by yourself since it may cause serious danger Do not modify or disassemble this device Otherwise it may cause a fire or an electric shock Do not remove the cover from this device Otherwise it may cause an electric shock Ask the sales shop for internal check adjustment or repair Pay enough attention to the above instructions Otherwise a fire or an electric shock may occur Precautions on device Do not use it with other supply voltage than the specified one not install it in a place subject to liquid like water or oil steam moisture or dust Do not insert or drop any metal foreign matter like combustibles etc from the port Do not place a container with chemicals or water or a small metal piece near the device Do not cover the vent hole Otherwise heat is contained inside resulting in a fire If the device should be dropped or the cover broken immediately turn the power Switch off and remove the power code from the outlet Then contact the sales shop If a foreign matter should enter inside immediately turn the power switch off and remove the power code from the outlet Then contact the sales shop If the device continues to be used with a foreign matter inside a fire or an electric shock may occur If water or other foreign matter
53. r 0 Exit Sub End If MSComm1 Output Chr amp H13 12 Chr amp HD Send read line specify command 12 lines MSComm1 Output Chr amp H10 T Chr amp HD Send timing format specify command direct under type MSComm1 Output Chr amp H2 2 Chr amp HD gt gt gt gt gt Read card lt lt lt lt lt MSComm1 Output Chr amp HD Send card read command ReciveCnt 1 Set number of bytes of read status to re ceive Do gt Wait until read status is received DoEvents Loop Until MSComml InBufferCount ReciveCnt Response MSComml Input Receive read status If Response lt gt 0 Then Check read status MsgBox Error occurs Chr amp HD Read status Response Screen MousePointer 0 Exit Sub End If 65 13 gt gt gt gt gt Read timing mark count lt lt lt lt lt MSComm1 Output Chr amp H5 T Chr amp HD Send timing mark count read command Do gt Wait until timing mark count is received DoEvents Loop Until MSComml InBufferCount 3 TMCount MSComml Input Receive timing mark count Text1 Text Timing mark count TMCount Chr amp HD Chr amp HA Display timing mark count 2 Read C mode read fixed length data lt lt lt lt lt MSComm1 Output Chr amp H10 C001 TMCount Chr amp HD gt Send C mode read command Do gt Wait until C mode data is received DoEvents Loop
54. referring to the following causes for a card jam or feeding error Cause Reference section for troubleshooting matter adhered Card deforming or breaking foreign 1 and 2 in 7 Handling cards in 5 Soiled roller 1 Cleaning of in 11 Cleaning 3 Action when the device does not function If the device should malfunction correct it by referring to the following actions for each symp tom Symptom The power cannot be turned on Action Make sure that the power code is properly connected The ERROR LED red comes on after turning the power on Reading is disabled The program malfunctions Refer to 5 F 1 Make sure that the side guide is properly set If the clearance between the side guide and cards is wide cards are not fed properly resulting in a reading error Aren t cards deformed Aren t cards set in the opposite direction left side right upside down etc e Check operation of the device through self check using the attached check card Make sure that the cable is not disconnected Make sure that the communication related settings are proper 22 6 Connection to Computer 6 Connection to Computer SR 430 is available to connect either RS 232C or USB to the Computer The Computer is recognized USB interface In case of both of cable connected to Computer
55. rk with enough density 1 PCS Printed Contrast Signal It refers to the contrast in reflectance of a printed mark symbol or letter against the non printed part of paper It is calculated as follows PCS white reflectance black reflectance white reflectance 25 8 Aqjusting Reading Sensitivity 8 Adjusting Reading Sensitivity Although the mark reading sensitivity of this device is set at level 4 by default it can be changed so as not to read stains as marks when particularly stained cards are read 1 Open the top cover of the device to turn SW2 In SR 430 SR 410 compatible mode Turn SW2 to level 1 to maximize the reading sensitivity Turn SW2 to level 0 to minimize the reading sensitivity IN SR 307 SR 305 SR 305S compatible mode Turn SW2 to level 1 to maximize the reading sensitivity Turn SW2 to level 8 to minimize the reading sensitivity For SW2 use level 1 to 8 and do not use level 0 9 to F 2 When adjusting the sensitivity enter marks with different densities line width or thickness on mark cards to test reading Then check and adjust entered marks and the reading sensitivity level using SW2 3 Functions of SW2 SR 430 SR 410 compatible mode SR 307 SR 305 compatible mode Position 2 234256789 ABCDEFO Sensitivity High lt Reading sensitivity gt Low Note 1 2 3 4 5 6 7 8 Position Sensitivity High lt Reading sensitivity gt Low
56. rmally 3 33H Not used 4 34H Timing mark error only 3 or less timing marks detected 5 35H Card empty There is no card in the card hopper A jam error 32H is assumed for the DF error 9 C Device Control Setting Commands 1 DC3 B Command Buzzer Control Command Explanation This command is for setting whether to sound a buzzer when no card exists or an error occurs The initial value after the power is turned on is set to flash the red LED three times and then turn the light off without sounding a buzzer when no card exists N 0 Format Host Computer DC3 B N CR 13H 42H 0DH The value of N determines the setting 0 The red LED flashes three times without sounding a buzzer when card exists 1 The red LED does not come on but a buzzer goes off when no card exists 2 The red LED flashes three times without sounding a buzzer for all types of errors When no card exists 0 1 2 Buzzer Not goes off Goes off Not goes off Comes off after Comes off after FED flashing 3 times flashing 3 times When an error occurs N20 1 N 2 Buzzer Goes off Goes off Not goes off LED Comes on Comes on Flashes 3 times 38 10 Data Transfer Mode 10 Data Transfer Mode 10 Data Transfer Commands The following commands are used to transfer data read from one card to the host computer
57. should enter inside immediately turn the power Switch off and remove the power code from the outlet Then contact the sales shop If the device continues to be used with water or other foreign matter inside a fire or an electric shock may occur SPO APOP EPO Ab Be sure to ground the main unit with a ground cable Otherwise an electric shock may occur When connecting or disconnecting the ground cable be sure to remove the power code from the outlet Otherwise an electric shock may occur Do not place the device in an unstable location Otherwise it may fall resulting in an injury When opening or closing the upper part of the main unit do not place your hand on the paper feeding surface Otherwise the finger may be caught resulting in an injury When placing your hand on the paper feeding surface of the main unit be careful not to allow your finger to be caught or hit When maintaining the device be sure to remove the power code from the outlet for your safety When the device is not in use for long periods remove the power code from the outlet for safety Before moving the device be sure to remove the power code from the outlet If the cable is damaged a fire or an electric shock may result Do not connect or disconnect the power code or connection plug with a wet hand Otherwise a fire or an electric shock may result
58. sors by softly pressing clean cloth slightly wetted with disinfectant alcohol etha nol to it once a month or in every 5 000 sheet feeding If the sensors are stained with paper power etc a detection error may occur DF sensor1 Paper feeding roller Paper feeding sensor DF sensor 2 Feeding rollers Paper ejecting sensor Slave rollers 53 71 Cleaning and Time of change of parts 4 Cleaning procedure 1 Turn the power off and remove the power code from the outlet 2 Lower the hopper and open the top cover Opening method 1 Raise the lock lever toward you to unlock the cover 2 Pressing up the top cover away from you automatically holds the cover 3 Clean the internal parts 4 Close the top cover Closing method Slowly lower the cover toward you until it is locked Lock lever 5 When the device is not in use for long periods insert the paper feeding roller protection card between the paper feeding roller and the separation pad to prevent the roller material from deteriorating 11 B Time of change of parts Spare or consumption parts are required to be regularly changed in order to use this device safely and comfortably Please make contact with the dealer or distributor when they will become a time to be changed Part name ue P uum Paper feeding roller 200 000 Separation pad 200 000 Mylar two kinds 100 000 Double feeding prevention pad 200 000 A change of the
59. ted by 0 The 4 bit unit is regarded as 4 digit hexadecimal number and theASCII codes fromO to F are output Data are of fixed length of bytes a colum A 15 line postcard sized card is a fixed length of 4 bytes a column The 16th line however is always as a dumny line Separators like STX and ETX can be added using the DC4 command Example ASCII output data for the following marks in one colum NoU A fW O lt gt lt lt EEKO lt lt lt Number of lines 1 2 3 4 5 6 7 8 9 101112 One colum 000000010010 Output data ASCII code 0 1 2 HEX code 30H 31H 32H Format Host Corrputer This device DLE C NIN2N3 M1M2M3 CR Receive 10H 43H Recdve e Data output 1 THEE Fixed length of 3 4 bytes colunn x M1M2M3 columns N1N2NX3 3 byte ASCII code indicating read start column number Example From the 3rd column 003 33H 1 2 3 3 byte ASCII code indicating number of columms to be read Example 50 columns 050 30H 35H 30H Note N1N2N3 and M1M2M3 cannot be omitted as 6 byte fixed length data 41 40 Data Transfer Mode 10 D CA Mode Fixed Length Output Command for Automatic Density Distinction Explanation The data f
60. tput them This device outputs a space when a mark position does not agree with the EBCDI C code or when no merk is detected Separators like STX and ETX can be added using the command Format Host Corrputer This device DLE NIN2N3 MIM2M3 CR gt Receive 10H 47H ODH Data output T TETERETETETERERE Fixed length of 1 byte a column x M 1M 2M3 columns N1N2N3 3 byte ASCII code indicati ng read start column number Example From the 3rd column 003 30H 30H 33H M1M2M3 3 byte ASCII code indicating number of columns to be read Example 50 columns 050 30H 35H 30H Note N1N2N3 and M1M2M3 cannot be omitted as 6 byte fixed length data 47 40 Data Transfer Mode 10 Mode Explanation This command is for outputting data in one specified colum in the A mode format after indicating certain column Format DLE CR NI N2 CR 10H 42H 1 2 Specifies a certain colum 10 K D Mode Explanation This command is for outputting data in one specified colum in the C mode format after indicating a certain column Format DLE D CR NI N2 CR 10H 44H 1 2 Specifies a certain colum 10 bL F Mode Explanation This command is for outputting data in one specified column in the E mode format after indicating certain column Format DLE F CR NI N2 CR 10H 46H
61. ue Anyway Hardware Installation The software you are installing for this hardware 59 430 has not passed Windows Logo testing to verify its compatibility with Windows XP Tell me why this testing is important Continuing your installation of this software may impair or destabilize the correct operation of your system either immediately or in the future Microsoft strongly recommends that you stop this installation now and contact the hardware vendor for software that has passed Windows Logo testing E Continue Anyway Installation 10 Click Finish to complete the installation Found New Hardware Wizard Completing the Found New Hardware Wizard The wizard has finished installing the software for F SR 430 Click Finish to close the wizard 4 Installing the USB Driver 4 C Checking the Assigned Port The COM port must be designated when using this software After installing the USB driver follow the procedure below to check the port number assigned when using the USB interface 1 2 3 Right click My Computer on the Desktop to open a pop up menu and click Properties A Open Explore Search Manage Map Network Drive Disconnect Network Drive Create Shortcut Delete Rename Select the Hardware tab and click the Device Manager System Properties Remote The Deg nager lists all the hard
62. ware devices installed Bmputer Use the Device Manager to change the System Restore Auto General Computer Device Manager 1 Select Drivers EX Driver Signing lets you make sure that installed drivers are compatible with Windows Windows Update lets you set up how Windows connects to Windows Update for drivers Driver Signing LL Windows Update Hardware Profiles lt gt Hardware profiles provide a way for you to set up and store 400 diferent hardware configurations Hardware Profiles Click Ports and check the assigned port in parentheses for the SR 430 entry Device Manager File Action View Help Ge 2 reems 2 Computer lt Disk drives Display adapters 1 DVD CD ROM drives Floppy disk controllers ld Floppy disk drives 8 Human Interface Devices IDE controllers amp IEEE 1394 Bus host controllers gt Keyboards 7 Mice and other pointing devices 1 Monitors COM amp LPT 9 cons 7 Communications Port COMI Processors Sound video and game controllers 7 Printer Port LPT1 47 SR 430 COM3 10 4 Installing the USB Driver 4 D Troubleshooting for Communication Errors 1 Changing the Assigned Port The assigned port can be changed if the port number assigned to the SR 430 cannot be recognized by the software or when you wa
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