DOCUMENT REVISIONS Desktop Reader and Wall Reader Adaptor
Contents
1. inspired access 98 10 2010 Printable ASCII value BCD codes ALPHA codes characters 1 byte 4 bits parity 6 bits parity 6 0x36 06 16 7 0x37 07 17 8 0x38 08 18 9 0x39 09 19 Ox3A 0A 1A F 0x3B OB SS 1B lt Ox3C oc 1C 0x3D OD FS 1D gt Ox3E OE 1E Ox3F OF ES 1F ES 0x40 20 A 0x41 21 letters Z Ox5A 3A Ox5B 3B N Ox5C 3C Ox5D 3D Ox5E 3E FS B Ox5F 3F SS Start Sentinel FS Field Separator ES End Sentinel 11 4 Non ISO cards Not all the cards follow exactly the ISO standards in the tracks Some cards do not limit the use of BCD codes to Track2 and 3 or ALPHA codes to Track1 some others do not use the standard Sentinels or Field Separators 11 5 LRC The LRC Longitudinal Redundancy Code is the exclusive OR XOR including the Start and End Sentinels SS and ES in both formats BCD and ALPHA Its parity is also odd 11 6 Salto Software PMS Track Commands The PMS commands for Tracks sends the data in ASCII format They never add the LRC because the XOR of the characters can give a non ASCII character and be equal to a control character of the link PMS HAMS producing a malfunction The Desktop Reader and the Wall Reader Adaptor will calculate and 11 12 S A L T O Desktop Reader Manual V2 31 Y 08 10 2010 inspired access add the LRC in OMRON and WIEGAND interfaces if the data of the Track string fi2. Emulates de Wiegand code of access control cards 7 1 ROM code The Salto ROM code is a 7 byte code different for each card Normally each byte is expressed as a double hexadecimal character so the total ROM code will be 14 ASCII characters called ROM14 If the bytes are represented by their 8 bits the total 56 bits representation is called ROM56 Example Format ROMs ROMs ROM ROMs ROM ROM ROMo Bytes 0x11 0x22 0x33 0x44 0x55 0x66 0x77 ROM14 11223344556677 ROM56 00010001001000100011001101000100010101010110011001110111 6 12 S A L T Q Desktop Reader Manual V2 31 Y 08 10 2010 inspired access 7 1 1 ROM code and Serial Number The relation between the ROM code and the card Serial Number depends on the technology of the card This table shows the ROM6 ROM5 ROM4 ROM3 ROM2 ROM1 ROMO iButton FamilyCode SN5 SN4 SN3 SN2 SN1 SNO Smart Card SLE4442 ICCF2 ICCF3 ICCF4 ICCSNO ICCSN1 ICCSN2 ICCSN3 SLE5542 Smart Card AT88SC153 IDNO IDN1 IDN2 IDN3 IDN4 IDN5 IDN6 AT88SC1608 Legic 0x01 MCD MSN MSN MSN MCC 0x00 Mifare UIDO UID1 UID2 UID3 0x00 0x00 0x00 Desfire UIDO UID1 UID2 UID3 UID4 UID5 UID6 Vicinity IButton Salto ROM code is the laser programmed Dallas ROM code including at the beginning the FamilyCode followed by the Serial Number MSB and excluding the 8 byte that is a checksum These 7 bytes are engraved on t
3. manner to an external device usually a Time and Attendance T amp A terminal The Wall Reader Adaptor is connected by one side to any Salto Wall Reader WR2000 WR1000 is not accepted WR5000 WR8000 WR7000 WR9000 and by the other side to the external device There is only one model of Wall Reader Adaptor WRADAP because it is compatible with Wall Readers of different technologies Note The minimum version of wall readers WR2000 iButton and WR5000 Smart is V2 20 manufactured from 22 10 2003 Previous versions do not work with Track and Wiegand data Minimum version to read ROM code from iButtonROM of the WR2000 is V2 41 manufactured from 25 03 2004 Proximity readers WR7000 WR8000 WR90000 are compatible from the beginning 3 12 S A L T Q Desktop Reader Manual V2 31 Y 08 10 2010 inspired access 3 1 Wall Reader Connection The Wall Reader is connected to the Adaptor through a 5 pins block connector identical to the CU5000 The functions of the 5 pins are 1 5 volts power supply from Adaptor to Wall Reader 2 PPD connection not used 3 Ground 4 Data input output 5 Card Present 3 2 External Device Connection The interface with the external device can be RS232 OMRON and WIEGAND The connection is made through a 4 pins block terminal The functions of the 4 pins connector are different depending on the selected type of interface Interface Connector Rx DO Tx D1 GND T
4. and Wiegand Code e In Legic cards the systems can only read the ROM code of cards with a Salto segment 11 BCD and ALPHA ISO Standards The data of tracks 1 2 and 3 of magnetic stripe cards can be encoded in two ways BCD and ALPHA formats 11 1 BCD Data Format ANSI ISO It is used in Track 2 and Track 3 9 12 S A L T O Desktop Reader Manual V2 31 Y 08 10 2010 inspired access Set of characters 16 characters of 5 bits 4 bits odd parity LSB first Least Significant Bit first and Parity Bit last BCD Value ASCII value 0x30 11 2 ALPHA Data Format ANSI ISO It is used by Track 1 Set of characters 64 characters of 7 bits 6 bits odd parity LSB first Least Significant Bit first and Parity Bit last ALPHA value ASCII value 0x20 11 3 BCD and ALPHA table This table shows the symbols of the BCD and ALPHA formats and the equivalences with their representation as printable characters and ASCII values Printable ASCII value BCD codes ALPHA codes characters 1 byte 4 bits parity 6 bits 4 parity Space 0x20 00 0x21 01 E 0x22 02 0x23 03 0x24 04 0x25 05 SS amp 0x26 06 0x27 07 0x28 08 0x29 09 Ox2A 0A id Ox2B 0B 0x2C oc 7 0x2D OD Ox2E OE Ox2F OF 0 0x30 00 10 1 0x31 01 11 2 0x32 02 12 3 0x33 03 13 4 0x34 04 14 5 0x35 05 15 10 12 SALTO Desktop Reader Manual V2 31
5. earn rx Rx re takue exa ARR EAR Ra ARR na rA Rr Rate cdbs basan Don FRENAR VR KATE NK A RR 9 BCD and ALPHA ISO Standards eeeee eee eee re enhn hern ra nu aXX RRNx ENEKEN SEENEN PEENEST XR AR AR ETEEN 9 1121 BCD Data Format ANSI ISQ s norae aaia a tira taedehasthdecadeneihlendudesa tase taanden 9 11 2 ALPHA Data Format ANSI ISQ is secisendeceveddeistetcseaesivctencterststetsbsbitecdesdevevencdedesssienehd 10 11 3 BCD and ALPHA tables rere aE ETETE EEE inania EEE RR 10 EP XE LnBeRKcu rcm 11 11 5 IRGC iiisiveemantvin E veles Me vel Seta Het a uenia tr dinde n ive a 11 11 6 Salto Software PMS Track Commandis ssssssssssseeeneneeemeen nemen nennen nnn 11 2 12 S A L T Q Desktop Reader Manual V2 31 Y 08 10 2010 inspired access 1 Object of this document This document is the User Manual of two devices e Desktop Reader EcxxDR e Wall Reader Adaptor WRADAPT It covers the functions of the firmware version 02 01 It is intended to help the PMS and T amp A developers to connect their systems to the SALTO access control system 2 Desktop Reader ECxxDR The purpose of the Desktop Reader is to read some data from the cards and give them in a simple manner to an external device usually a Point Of Sale POS terminal The Desktop Reader has the same aspect of the RS232 Encoder It has a 9 pins D type connector female to be connected to the RS232 port of the POS terminal There are as many Desktop Reade
6. ieueldn a aa ERA NERIS 4 3 2 External Device Connection cccceeceeeeeeseee seen nennen nane na renun na nena ena k usan kara rre nina nana 4 3 3 Power SUDDply 15 252 93 2 23329 200 0 8 9 x1 32 502 E IXAIT E RIREREIRIRIATIRIRId AMEN SUMUNTUR ERREUR RS 4 CER zu M 4 SAM programming pEOCGSS see pens purse aitniaii nEn NEN RRRRRERRENERENERENEREFEREFER WEO SOUEEN aa EE NER EREENEFYNE FERE 5 MODE Gip SWitches tabl8a zii iiiaxeei rie ERR ike t RR re E E Saa Unt Kara a adidas uaa D ER EK aa RE inde 5 D taaccveaadird a Eser rE EErEE V Ya Y PE LR Y PERS ERR EYE REF SE a eve ates Cr a P cre es 6 Zal ROM COG ig sisieic icin ata wine itntin anaana NEEE EEEE EAEE O E EEEE ENEA 6 7 2 Traks e AAA AEE aA ET 7 7 3 Wiegand Cod Esirak LEER 7 Iarrle c s rasa aa A a Sa aa E aa aE E ERa aS 7 8 1 acpPADDII O 8 8 2 OMRON interface nranasan EREE EEE pts eet alea er tuli ER ERN UR 8 8 3 WIEGAND interface m ECT EUIEHRAEDIUEUUUSBBEREIEMT 8 xeldnpteit zt e pP EEPEEEELETITET 8 9 1 RS232 format with STX ETX and Checksum esses nemen nennen nnn nn nnns 8 9 2 RS232 Plain Format essere essdunepesnnenccex re red ed rb ka dad ia utr rk Tad E Pare AP dag 9 9 3 OMRON Formats BCD and ALPHA sssssssssssnneeemene nemen nemen nemen nemen nene nenne 9 9 4 WIEGAND fOnmMats 2252151 ta tha anrasan AEE FRI TIIARITIRIIITRNENNUN NI NUES aE 9 Card Technologies
7. logical level giving a 0 volts pulse 0 4 volts through 47 ohms resistor The width of the pulse is 90 us and the interval between pulses is 1 ms 9 Formats The data can be sent using different encoding tables and adding in some cases control characters and checksums Some formats are specific for only one interface others are common to various interfaces 9 1 RS232 format with STX ETX and Checksum The transmitted characters are all printable ASCII characters except 2 control characters that helps to determine where the message starts and finishes STX 0x02 Start of message ETX 0x03 End of message The frame of the message is STX DATA ETX Checksum 0x02 N characters 0x03 1 byte The Checksum is calculated as the OR Exclusive of all the previous bytes including the STX and ETX If the manufacturer of the external device wants to simplify the software can skip the Checksum testing Depending on the source of data the N characters of the DATA are e Tracki Track2 Track3 exactly the same string of ASCII characters given by the PMS to the HAMS through the Track command e ROM14 ROM code of the key expressed as 14 hexadecimal ASCII characters Each byte of the ROM Code is expressed with two ASCII hex characters A Start Sentinel 96 and End Sentinel are added 8 12 S A L T Q Desktop Reader Manual V2 31 Y 08 10 2010 inspired access 9 2 RS232 Plain Format It
8. transmits the ASCII characters of Data without STX ETX and Checksum 9 3 OMRON Formats BCD and ALPHA The ASCII characters of Data have to be translated to BCD or ALPHA codes see BCD and ALPHA ISO before be sent through the OMRON interface This format is also available for Wiegand 9 3 1 BCD or ALPHA format The standard specifies BCD encoding for Track2 and Track3 and ALPHA encoding for Track1 but it is usual that applications do not follow this rule To permit these exceptions the encoding is not selected depending on the Track but on the data carried by the Track The rule to determine which encoding to be used BCD or ALPHA with the Tracks is e If all the ASCII characters of the Track are included in the BCD symbol set 0123456789 lt gt it uses the BCD encoding 4 bits parity e Otherwise it uses the ALPHA encoding 6 bits parity And if the data finishes with the End Sentinel the Reader calculates and adds the LRC Warning If the system expects ALPHA encoding care has to be taken to avoid the possibility that the information of the Track would have only digits because in this particular case the Adaptor would encode it in BCD For instance a Track carries the room number some rooms have letters SUITE1 301A but other rooms have only digits 101 102 To avoid encode the later in BCD the information in the Track should always include some fixed character not included in the BCD symbol set for instance th
9. S A L T Q Desktop Reader Manual V2 31 Y 08 10 2010 inspired access Desktop Reader and Wall Reader Adaptor USER MANUAL Version 2 31 Distribution SALTO customers DOCUMENT REVISIONS Version Date Modifications 1 2 5 03 2004 1 3 11 03 2004 Note on Wall Reader Adaptor about minimum wall reader versions 1 4 12 03 2004 Fixes mistake on Desktop Reader Connector 1 5 25 03 2004 Minimum WR2000 firmware version to read ROM code from iButtonROM 1 6 11 08 2005 NEW ROM code configuration BCD Data Format ANSI ISO It is used in Track 2 and Track 3 New Card Technologies Mifare Desfire 2 1 26 02 2007 New Firmware Version 02 01 New RS232 Plain Text Format New Wiegand formats 2 2 13 03 2008 New Firmware Version 02 03 New Wiegand format 2 3 06 06 2008 New Firmware version 02 04 New OMRON format 1 12 S A L T Q Desktop Reader Manual V2 31 Y 08 10 2010 inspired access N Oo Ui A 10 11 CONTENTS Object of this dOCUMENE t ada tad in ne aaa 3 D sktop Reader ECXXDR eee Ter en ieee ees ESENS 3 2 1 Desktop Reader Setups kun pa a a Ea EEE aaa a Saa Faa RE 3 2 2 Desktop Reader Connector scene oonan nn eek nene XXE ERERYNRE ERN NKE SOdRE MOUSE MUTO NFR E AKEV AK EAM EE 3 Wall Reader Adaptor WRADAP emen eee e nest e seme e sene ensure nn sere nnne nnn 3 3 1 Wall Reader Connection iii icaika oaks Feuer sei thes RiniRerk a A
10. V RS232 RX TX GND V OMRON CLOCK DATA GND V WIEGAND DO D1 GND V The Wall Reader Adaptor is powered from the external device through pins V and GND Optionally can be powered through the jack connector The Wall Reader Adaptor is continuously looking for a card and when one is presented it sends the data to the external device giving simultaneously a valid signal green led and beep 3 3 Power Supply Desktop Reader and Wall Reader Adaptor needs a DC power supply with a voltage between 7 and 15 volt The typical current consumption is 15 mA maximum 30 mA plus the current consumption of the reader that depends on the technology Reader Consumption mA Total Consumption mA Reader Technology Typical Maximum Typical Maximum WR2000 iButton 15 30 30 60 WR5000 Smart Card 20 80 35 110 WR8000 Legic 30 50 45 80 WR9000 Mifare 40 120 55 150 WR7000 Picopass 20 60 35 90 4 CLR Button The CLR Button permits to make a quick diagnosis of the reader When pressing the CLR button the Led beside the button lights and the Reader gives an orange light as long as the CLR button remains pressed 4 12 SALTO inspired access Desktop Reader Manual V2 31 08 10 2010 The CLR Led lights for a moment each time a card is read with the proper data according to the MODE dipswitches setting 5 SAM programming process Some installations working with Mifare Desfire Picopa
11. e letter R for ROOM or just a space before or after every room number ROM14 code is always ALPHA encoded adding the Start Sentinel 96 End Sentinel and final LRC 9 3 2 Syncronization zeros Before and after the data the adaptor appends 25 leading and 25 trailing zeros emulating a standard magnetic card reader This feature was disabled in one of the two availables OMRON modes for track2 9 4 WIEGAND formats Byte and bit order Wiegand interface sends the data always Most Significant Byte First and Most Significant Bit First Parity bits The two parity bits are one Even parity bit of the first half bits at the beginning and one Odd parity bit of the last half bits at the end Data for Wiegand is usually ROM code and Serial Number notice that they are not exactly the same please find in ROM code and Serial Number the relation between them In some configurations Wiegand uses the same formats BCD and ALPHA of the OMRON interface It sends the bits in the same order they would be sent through the OMRON Clock and Data interface but without adding leading and trailing zeros 10 Card Technologies The Desktop Reader and Wall Reader Adaptor are available for all RW technologies iButton Smart Cards and Proximity There are some few exceptions e ArenaCards NAGRA are not included because they cannot carry Tracks or Wiegand Code neither do have ROM code I2C smart cards have no ROM Code but can have Track 1 2 and 3
12. he iButton case FamilyCode on the right and below it the other 6 bytes Smart Card SLE4442 SLE5542 The first three bytes are part of the IC Card Manufacturer Code Next four bytes are the IC Card Serial Number Smart Card AT88SC153 and AT88SC1608 The seven bytes of the Identification Number starting by the LSB Legic First byte is 0x01 inexistent iButton FamilyCode 5 bytes of the Serial Number starting by the MDC Manufacture Code and finishing by the MCC Manufacture Check Character and a final null byte 0x00 Mifare The first four bytes are the Unique Identifier UID also called Serial Number SN of the Mifare card starting by the LSB Followed by three null bytes 0x00 Desfire The seven bytes of the card UID or Serial Number SN starting by the LSB ISO15693 Vicinity Cards The seven lower bytes of the UID or Serial Number SN starting by the LSB and removing the UID7 that is always OxEO in I8015693 cards PicoPass cards are included in this type 7 2 Tracks They emulate the tracks of the magnetic stripe cards There are three Tracks available TRACK1 TRACK2 and TRACK3 The information in the emulated tracks are ASCII characters However in the magnetic stripe cards TRACK1 carries alphanumeric data and TRACK2 and TRACK3 only carry numeric data 7 3 Wiegand code It is a special track in the cards called WiegandCode that carries information of the Wiegand code 8 Interfaces There are three types of electrical
13. interface to the terminal e RS232 with different baud rates e OMRON Clock and Data e Wiegand DO and D1 7 12 S A L T Q Desktop Reader Manual V2 31 Y 08 10 2010 inspired access 8 1 RS232 interface The RS232 voltage levels do not follow the standard because they do not give negative voltage but work properly with the modern RS232 interface chips They use only Rx and Tx without hardware and software handshake Logical Data Rx volts Tx volts Zero 0 gt 1 2 5 One 1 lt 1 0 4 The baud rate the number of bits 7 or 8 and the parity N E O are selected in the MODE dipswitch 8 2 OMRON interface The OMRON interface emulates the magnetic card readers The OMRON interface has two outputs Clock and Data The Clock and Data outputs in standby are 5 volts The Data line is negated 5 volts for a logical Zero and 0 volts for a logical One The bit time is 150 us The Clock remains in the low state 50 us The Data line has the valid level 50 us before the falling edge of the Clock and is kept valid 50 us after the rising edge of the Clock So the terminals can read the Data with the falling or with the rising edge of the Clock as they prefer The speed is comparable with magnetic card readers reading tracks of 75 and 210 bpi 8 3 WIEGAND interface The Wiegand interface has two outputs Data0 and Data1 In standby they have 5 volts through 1 Kohms resistor They represent the corresponding
14. nishes with the End Sentinel 12 12
15. r ALPHA 11000101 Track2 WIEGAND BCD or ALPHA 11000110 Track3 WIEGAND BCD or ALPHA 11000111 ROM14 WIEGAND ALPHA 11001000 ROM WIEGAND 56 bit 5 12 SALTO Desktop Reader Manual V2 31 08 10 2010 inspired access MODE Notes Data Interface Format 11001001 ROM WIEGAND 56 bit 2 parity bits 11001010 1 WIEGAND CODE WIEGAND Format defined in ProAccess software 11001011 1 4 Facility Code zero 8 WIEGAND Standard 26 bit bits plus the two lower bytes of the Serial Number 16 bits plus two parity bits 11001100 1 4 Three lower bytes of WIEGAND Standard 26 bit the Serial Number 24 bits plus two parity bits 11001101 2 4 Four lower bytes of the WIEGAND 32 bit 2 parity Serial Number 32 bits bits plus two parity bits 11001110 3 5 6 Track2 OMRON BCD or ALPHA 1 Only available from firmware version 02 01 2 Only available from firmware version 02 03 3 Only available from firmware version 02 04 4 Only valid for Mifare Desfire and Vicinity cards 5 Used not very often Kept only for backward compatibility purpouses 6 The leading and trailing zeros are not appended 7 Data There are three types of data to be read by the Desktop Reader or Wall Reader Adaptor ROM code or Serial Number This is a factory programmed code particular for each card TRACKS Emulates the Tracks 1 2 and 3 of the magnetic stripe cards WIEGAND CODE
16. rs as technologies Dallas Smart Card Legic Proximity with references EC20DR ECS5ODR and ECSODR The interface can be also OMRON and WIEGAND depending on the dipswitch settings 2 1 Desktop Reader Setup The Desktop Reader comes from factory prepared to read Tracki and to give the data through RS232 interface at 19200 bauds 8 bits and no parity If other configuration is desired the case has to be opened removing the bottom 4 screws to have access to the Configuration Dipswitches Also the reader part of the Desktop Reader has been connected and tested in the factory so it is no necessary to use the CLR button except in Proximity readers when you need to enter a new SAM card The CLR button is only accessible opening the case of the Desktop Reader 2 2 Desktop Reader Connector The functions of the 9 pins D type connector are different depending on the selected type of interface Interface D Type connector pins 2 3 5 RS232 TX RX GND OMRON DATA CLOCK GND WIEGAND D1 DO GND The Desktop Reader is powered from a plug in 12V power supply though the jack connector Central pin is the positive The Desktop Reader is continuously looking for a card and when one is presented it sends the data to the external device giving simultaneously a valid signal green led and beep 3 Wall Reader Adaptor WRADAP The purpose of the Wall Reader Adaptor is to read some data from the cards and give them in a simple
17. ss or Legic cards need to program all the readers with the SAM card that carries the Custom Code To do that follow the corresponding process e DeskTop Reader the CLR button has to be kept pressed until the Encoder accepts the SAM card If the CLR button is released before finishing the launching process it will be stopped e Wall Reader Adaptor press and release the CLR button of the WRADAP and the reader will start a 60 seconds period to enter the SAM card SAM cards are accepted in one or two seconds except Legic SAM that lasts around 15 seconds 6 MODE dip switches table MODE Notes Data Interface Format 00000001 Tracki RS232 19200 8 N STX ETX LRC 00000010 Track2 RS232 19200 8 N STX ETX LRC 00000011 Track3 RS232 19200 8 N STX ETX LRC 00000100 ROM14 RS232 19200 8 N STX ETX LRC 00000101 Track1 RS232 9600 8 N STX ETX LRC 00000110 Track2 RS232 9600 8 N STX ETX LRC 00000111 Track3 RS232 9600 8 N STX ETX LRC 00001000 ROM14 RS232 9600 8 N STX ETX LRC 00001001 1 Tracki RS232 19200 8 N PLAIN 00001010 1 Track2 RS232 19200 8 N PLAIN 00001011 1 Track3 RS232 19200 8 N PLAIN 00001100 1 ROM14 RS232 19200 8 N PLAIN 11000000 5 Tracki OMRON BCD or ALPHA 11000001 5 Track2 OMRON BCD or ALPHA 11000010 5 Track3 OMRON BCD or ALPHA 11000011 5 9 o ROM14 OMRON ALPHA 11000100 Tracki WIEGAND BCD o
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