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Feig Electronic OBID ID ISC.LR1002, Manual

The Feig Electronic OBID ID ISC.LR1002 is a high-quality, state-of-the-art RFID reader that allows for efficient and secure identification and tracking. To fully utilize its capabilities, we provide a comprehensive user manual that you can easily download for free from our website, ensuring you have all the necessary information at your fingertips.

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MANUAL 

 

 

 

 preliminary / public (B) 

2012-09-05 – H20411-0e-ID-B.docx

 

 

ID ISC.LR1002 

Standard Reader 

 

 

Summary of Contents for OBID ID ISC.LR1002

Page 1: ...MANUAL preliminary public B 2012 09 05 H20411 0e ID B docx ID ISC LR1002 Standard Reader ...

Page 2: ...ions given in this manual are based on advantageous boundary conditions FEIG ELECTRONIC GmbH does not give any guarantee promise for perfect function in cross environments and does not give any guaranty for the functionality of the complete system which incorporates the subject of this document FEIG ELECTRONIC call explicit attention that devices which are subject of this document are not designed...

Page 3: ...d with these bit spaces are reserved for future extensions or for internal testing and manufacturing functions These bit spaces must not be changed as this may cause faulty operation of the reader The following figure formats are used 0 9 for decimal figures 0x00 0xFF for hexadecimal figures b0 1 for binary figures The hexadecimal value in brackets marks a control byte command ...

Page 4: ...s and Control Commands 13 3 2 ISO15693 Host Commands 14 3 3 Buffered Read Mode 17 3 4 Notification Mode 18 3 5 Scan Mode 19 4 Interface 21 4 1 Protocol Frames of TCP IP protocol 21 4 2 Serial Data Format and Protocol Frames 22 CRC16 Calculation Algorithm 24 5 Configuration Parameters CFG 25 5 1 CFG0 Passwords 27 5 2 CFG1 Interface 29 5 3 CFG2 Inputs Output 33 5 3 1 Dedicated Input Output Functions...

Page 5: ... 59 5 17 CFG20 RF Parameter 60 5 18 CFG21 Reserved 61 5 19 CFG22 23 Selection mask for ISO18000 3M3 62 5 20 CFG24 39 Reserved 65 5 21 CFG40 LAN Settings Part 1 66 5 22 CFG41 LAN Settings Part 2 67 5 23 CFG49 Notification Channel only for ID ISC LR1002 E 69 5 24 CFG63 Customer Parameter 71 6 Protocols for Reader Configuration 72 6 1 0x80 Read Configuration 72 6 2 0x81 Write Configuration 73 6 3 0x8...

Page 6: ... 94 7 14 0xA0 Reader Login 95 8 Protocols for ISO15693 Host Commands 96 8 1 0xB0 Host commands for ISO15693 Mandatory and Optional Commands 97 8 1 1 0x01 Inventory 98 8 1 2 0x02 Stay Quiet 102 8 1 3 0x22 Lock Multiple Blocks 103 8 1 4 0x23 Read Multiple Blocks 105 8 1 5 0x24 Write Multiple Blocks 108 8 1 6 0x25 Select 111 8 1 7 0x26 Reset to Ready 112 8 1 8 0x27 Write AFI 113 8 1 9 0x28 Lock AFI 1...

Page 7: ...0xE0 133 9 3 7 Infineon My d Light 134 9 3 8 NXP I Code SLI 135 9 3 9 NXP I Code SLI S 136 9 3 10 NXP I Code SLI L 137 9 3 11 NXP I Code SLIX 138 9 3 12 NXP I Code SLIX S 139 9 3 13 NXP I Code SLIX L 140 9 3 14 NXP ICode ILT M ISO18000 3M3 141 9 3 15 STMicroelectronics LRI512 142 9 3 16 STMicroelectronics LRI64 143 9 3 17 STMicroelectronics LRI2k LRIS2k 144 9 3 18 STMicroelectronics M24LR64 R 145 ...

Page 8: ...odes of Identifier Data Types IDDT 158 ANNEX B Time Behavior of the Asynchronous Interface 159 ANNEX C Time Behavior of ISO15693 Host Commands 160 Time Behaviour for 0x01 Inventory and ISO15693 Transponders 161 ANNEX D Index of Status Bytes 162 ANNEX E Codes of Reader Types 166 ANNEX F Examples for Read Data 167 ISO15693 Host Command DB Size of the Transponder 4 bytes 167 ISO15693 Host Command DB ...

Page 9: ... valid for the device The manufacturer shall not be held legally responsible for inaccuracies errors or omissions in the manual or automatically set parameters for a device or for an incorrect application of a device Repairs may only be executed by the manufacturer Installation operation and maintenance procedures should only be carried out by qualified personnel Use of the device and its installa...

Page 10: ...OBID i scan HF System Manual ID ISC LR1002 FEIG ELECTRONIC GmbH Page 10 of 173 H20411 0e ID B docx Revision History of documentation Revision Date Page Description 0e xx 08 12 Initial version ...

Page 11: ...ic FIFO First in First out frq Frequency FSK Frequency Shift Keying h Hour Hz Hertz ID Identification IN Input LEN Length LOC Location LSB Least Significant Byte min Minutes ms Milliseconds MSB Most Significant Byte N Number OUT Output R W Read Write Access RD Read REL Relay RF Radio Frequency RSSI Received Signal Strength Indicator RTC Real Time Clock TAB Table TR Transponder TS Timeslot UID Uniq...

Page 12: ...he reader delivers a DC voltage on the antenna output to source DC powered devices like a LED on the antenna side RF source of the reader meets different national radio regulation up to 60dBμA m according ETSI limits In addition to the ID ISC LR1002 Reader series having a high read range the platform provides configuration possibilities and reader a command set The base set of commands and feature...

Page 13: ...S232 LAN USB Configuration Commands Reader Control Commands Host Commands Buffered Read Mode Scan Mode Notification Mode 3 1 Configuration Commands and Control Commands This method of data transmission is used for Reader configuration and the diagnosis via the asyn chronous interface or Ethernet Interface The Reader configuration parameters will be stored in the Reader memory To store the current ...

Page 14: ...iting data in addressed mode the UID of the Transponder has to be known This is executed by sending the protocol 8 1 1 0x01 Inventory If a Transponder is located within the detection range of the Reader at that time it answers with its UID For all following read write orders the Transponder must be addressed with its correct UID The following chart will show the necessary steps for the communicati...

Page 15: ...l if only one Transponder is located within the range of the Reader The following chart will show the necessary steps for the communication with a Trans ponder in non addressed mode Host Terminal PC Reader read data Transponder in antenna field Yes No status Transponder read data status no Trans ponder in Reader field write data Transponder in antenna field Yes No OK status status no Trans ponder ...

Page 16: ...must include its UID The following chart will show the necessary steps for the communication with a Trans ponder in selected mode Host Terminal PC Reader Inventory to get the UID Transponder in antenna field Yes No status number of Trans ponders UID status no Transponder select Transponder with UID Transponder with the correct UID in antenna field Yes No status Transponder read data status no Tran...

Page 17: ...the 10 3 Transponder Access in the Buffered Read Mode and Notification Mode command This command always reads the first available data sets from the data buffer However already read data has to be deleted with the 10 6 0x32 Clear Data Buffer command before the next data sets in the data buffer can be reached with the read command If the Buffered Read Mode is enabled in the 5 2 CFG1 Interface confi...

Page 18: ...is normally not acknowledged by the host Thus the deletion of the transferred data with the 10 6 0x32 Clear Data Buffer com mand is not necessary As an option this acknowledgement can be enabled to synchronize the notifications with the host to prevent notification overflow in the host application The notification message format depends on the settings for the read mode in 5 9 CFG11 Read Mode Read...

Page 19: ...nt out depending on their configuration according to the following scheme the sequence of which cannot be changed Depending to the configuration and the number of Transponders in the detection range of the Reader the transmitted protocols have a different format Example 1 One Transponder in detection range and UID and data block should be read ts tr protocol block protocol cycle PR UID SC data EC ...

Page 20: ...Note If configuration protocols shall be sent to the Reader while the Scan Mode is active no Transponder should be within the detection range of the Reader during this time Only transponder read operations are available with the Scan Mode Scan Mode is only available if Buffered Read Mode is disabled ...

Page 21: ...e Reader If you use the TCP IP protocol please be aware that the data packaged in the TCP IP frame is transferred with Protocol frame Advanced Protocol Length as describe below LAN and WLAN sockets on the reader side uses the keepalive option for detecting interrupted connections The default parameters for keepalive are initialized as listed in the table Parameter Value Note idle time 5 seconds Th...

Page 22: ...asynchronous interface the Reader supplies the required data or a status byte The reply contains the transmitted control byte There is no reply from the Reader if there is a protocol frame failure Protocol frame Standard Protocol Length up to 255 Byte Protocol frame Advanced Protocol Length Reader Host 1 2 3 4 5 6 n 2 STX 0x02 MSB ALENGTH LSB ALENGTH COM ADR CONTROL BYTE DATA n 1 n ª LSB CRC16 MSB...

Page 23: ...uding LENGTH and CRC16 COM ADR 0 254 address of device in bus mode Note The Reader can be addressed via COM ADR 255 at any time CONTROL BYTE Defines the Command which the Reader should operate STATUS 1 Includes the status message or protocol data from or to the Reader DATA Is a optional data field with variable length The number of DATA byte depends on the command The data will be send always as M...

Page 24: ...ata bits 8 Stop bits 1 Parity even default odd none CRC16 Calculation Algorithm Polynom x16 x12 x5 1 CRC_POLYNOM 0x8408 Start Value 0xFFFF CRC_PRESET 0xFFFF C Example unsigned int crc CRC_PRESET for i 0 i cnt i cnt number of protocol bytes without CRC crc DATA i for j 0 j 8 j if crc 0x0001 crc crc 1 CRC_POLYNOM else crc crc 1 ...

Page 25: ...FGn memory address of the required configuration block LOC specifies the location of the configuration block RAM EEPROM MODE specifies one or all configuration blocks Bit 7 6 5 4 3 2 1 0 Function LOC MODE CFGn address of configuration block The EEPROM configuration blocks are protected by a 16 bit CRC checksum The examination of these checksums is executed after each reset of the Reader If an chec...

Page 26: ...k to RAM marked with 00 these bits or bytes are reserved for future extensions or for internal testing and manufacturing functions These bits or bytes and also any not described bits and bytes must not be changed as this may cause faulty operation of the Reader gray marked Changing of this parame ter only becomes effective after writing saving this configuration block to EEPROM and a Reader reset ...

Page 27: ...Contents 0x00 CFG_ACCESS 0x00 0x00 Default 0x00000000 READER ID AccessProtection Password Defines the password with which the host logs into the Reader for a read write access to the configuration parameter blocks CFG_ACCESS AccessProtection Lock_CFGx Defines the Configuration blocks which are accessible only if the user has had a success ful login to the Reader Byte 8 9 Bit 1 2 3 4 5 6 7 8 1 2 3 ...

Page 28: ... the CFG0 register if all configuration blocks are used The command 7 14 0xA0 Reader Login is used to enable configuration data access It is possible to disable the READER ID with an activation code if the READER ID is unknown The activation code must be ordered by your supplier or FEIG Electronic GmbH Config Protection By means of Config Protection the access to the configuration parameters store...

Page 29: ...R RESPONSE TIME 0x00 0x00 0x00 SCAN INTERFACE INTERFACE READER MODE Default 0x2C 0x02 0x95 0x00 1 5 sec COM ADR HostInterface Serial BusAddress Bus address of the Reader 0 254 for communication via the asynchronous interface especially for applications with the RS485 interface Notes Do not configure address 255 Via the COM Adr 255 in the send protocol the Reader is able to be addressed at any time...

Page 30: ...der sets the baud rate to 38400 baud if the user sets an invalid baudrate TRANS FORM 3 HostInterface Serial By means of this byte several parameters for the data transmission format of the asyn chronous interface can be defined Bit 7 6 5 4 3 2 1 0 Function 0 0 0 0 S D P P HostInterface Serial Parity Kind of Parity b00 non Parity b01 even Parity b10 odd Parity b11 do not use D HostInterface Serial ...

Page 31: ...In this case the current commands between Reader and Transponder are aborted If this time is to short the Interface Status 0x83 RF Communication Error will appear max response duration TR RESPONSE TIME 0 65535 5 ms Note TR RESPONSE TIME has no effect with the protocols for Reader Configuration and the protocols for Reader Control The TR RESPONSE Time must be Block Timeout in the Host COM Port sett...

Page 32: ...unction BRM E NF E 0 0 0 0 0 SCAN E SCAN E By setting of this bit the Scan Mode can be enabled b0 Host Mode see chapter 8 Protocols for ISO15693 Host Commands b1 Scan Mode BRM E By setting of this bit the Buffered Read Mode can be enabled b0 Host Mode or Scan Mode b1 BRM Mode NF E By setting of this bit the Notification Mode can be enabled b0 Off b1 On only together with BRM Mode The following tab...

Page 33: ...leMode DigitalIO Relay Nox IdleMode Defines the status of the signal emitters OUT1 and RELx during the idle mode Bit 15 14 13 12 11 10 9 8 Function REL1 mode 0 0 7 6 5 4 3 2 1 0 ª Mode Function b 0 0 UNCHANGED no effect on the status of the signal emitter b 0 1 ON signal emitter on b 1 0 OFF signal emitter off b 1 1 FLASH signal emitter alternating on FLASH IDLE DigitalIO Output No1 IdleFlashMode ...

Page 34: ... holding time of the digital output REL1 If the Reader receives a valid Trans ponder response the antenna assigned to the Relay by Fehler Verweisquelle konnte nicht gefunden werden is activated for the value in REL1 TIME If REL1 TIME is zero the function is disabled If REL1 is high in idle mode REL1 will low for REL1 TIME If the flash mode is enabled the output goes low Range 0x0000 0xFFFF 100ms 0...

Page 35: ...ror 2 blue 1 The RF interface has an faultless communication with a Trans ponder 3 yellow The interface sends data to the host 4 red 1 The Reader is initializing after power up or a 7 3 0x63 com mand RF Warning mismatch of the antenna tuning See chapter 7 9 0x6E Reader Diagnostic for details 2 Alternately blink with LED1 after an EEPROM error Notes LED1 green and LED4 red are blinking alternately ...

Page 36: ...he Reader Byte 0 1 Bit 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Driver 0 0 0 0 0 0 J 0 0 0 0 0 D 0 0 0 b0 Driver for the Transponder type is inactive b1 Driver for the Transponder type is active D Transponder Driver HF ISO_15693 Driver for ISO15693 J Transponder Driver HF ISO_18000 3M3 Driver for ISO18000 3M3 In principle only those Transponder drivers should be active that are used in the actual app...

Page 37: ... POWER only becomes effective after writing configuration block CFG3 to EEPROM and a CPU reset of the Reader FU COM AirInterface Antenna HF Miscellaneous Enable_DCPower Defines if the Reader itself try to controls a function unit in the RF Line Bit 7 6 5 4 3 2 1 0 Function DC ON OFF 0 0 0 0 0 0 0 DC ON OFF defines whether the Reader provides DC voltage on the antenna output for an external LED e g...

Page 38: ...H IDDIB ISO Blocksize Default 0x00 0x00 0x00 0x04 ISO 15693 MODE Bit 7 6 5 4 3 2 1 0 Function 0 0 AFI NO TS DATA RATE 0 0 0 DATA RATE b0 do not use b1 high NO TS Transponder HF ISO_15693 Anticollision NoOfTimeslots b0 16 timeslots b1 1 timeslot AFI Transponder HF ISO_15693 SelectionMask Enable_AFI b0 Disabled b1 Enabled ISO 15693 AFI1 Transponder HF ISO_15693 SelectionMask AFI1 First Application F...

Page 39: ...3 4 is different to 0x00 a second and a third or fourth Inventory with dif ferent AFI Bytes will be performed TID LENGTH Transponder Miscellaneous TID Length Defines the length of the TID to be expected when IDDIB is EPC and TID 0x00 automatic Mode 0x20 32 Bits 0x40 64 Bits 0x60 96 Bits Notes If TID Length is 0x00 the reader will automatically add the complete content of the TID memory bank IDDIB ...

Page 40: ...e MFR table see 9 3 Supported ISO15693 Host commands for ISO15693 Transponders or if the transponder is used in the non addressed mode Range 0x01 0x1F A value of 0x00 will be automatically set to a block size of 4byte Blocksize Transpond er HF ISO_15693 Miscellaneous ReadOption BlockSizeSelection b0 Automatic If transponder is known b1 Manuel As specified in DB Blocksize Read Mode Transponder HF I...

Page 41: ...ault 0x02 0x04 Anticollision Defines which Transponder will sent to the host Bit 7 6 5 4 3 2 1 0 Function 0 0 0 0 0 ACOLL 0 1 ACOLL Transponder Anticollision Enable This bit activates the Anticollision Mode In Anticollision Mode the Reader auto matically sets Transponder specific communication parameters b0 disabled In this case the Reader doesn t processes any anticollision procedure with the Tra...

Page 42: ...ontents 0x00 0x00 FUJITSU 0x00 0x00 0x00 NXP Default 0x00 0x00 Byte 7 8 9 10 11 12 13 Contents ST 0x00 0x00 0x00 0x00 0x00 0x00 Default 0x00 Note There are application notes available from FEIG ELECTRONIC GmbH for the de scription of the customer commands It is also recommended to read the transponder specification from the according transponder manufacturer ...

Page 43: ...H Page 43 of 173 H20411 0e ID B docx 5 8 CFG7 10 Reserved The configuration blocks CFG7 10 are reserved for future use Byte 0 1 2 3 4 5 6 Contents 0x00 0x00 0x00 0x00 0x00 0x00 0x00 Default Byte 7 8 9 10 11 12 13 Contents 0x00 0x00 0x00 0x00 0x00 0x00 0x00 Default ...

Page 44: ...5 15 CFG17 Antenna Multiplexing II Byte 0 1 2 3 4 5 6 Contents TR DATA 1 TR DATA 2 TR DATA 3 Bank DB ADR 0x00 Default 0x01 0x00 0x00 0x03 0x0000 Byte 7 8 9 10 11 12 13 Contents 0x00 DB N EAS MODE D START D LGT Default 0x0001 0x00 0x00 0x04 TR DATA OperatingMode ScanMode DataSelector Selector OperatingMode NotificationMode DataSelector Selector OperatingMode BufferedReadMode DataSelector Selector S...

Page 45: ...1 LSB first ANT OperatingMode ScanMode DataSelector AntennaNo OperatingMode NotificationMode DataSelector AntennaNo OperatingMode BufferedReadMode DataSelector AntennaNo b0 the number of the antenna will not be stored b1 the number of the antenna 1 8 where the Transponder has been de tected will be stored TIMER OperatingMode ScanMode DataSelector Time OperatingMode NotificationMode DataSelector Ti...

Page 46: ... 7 6 5 4 3 2 1 0 Function READ_ COMPL ETE_ BANK COM PREFIX COM PREFIX Scan Mode only OperatingMode ScanMode DataFormat BusAddressPrefix b0 no COM Prefix is send b1 The Reader will transmit the COM ADR in front of each data set READ_COMPLETE_BANK OperatingMode ScanMode DataSelector Mode Read_Complete_Bank OperatingMode BufferedReadMode DataSelector Mode Read_Complete_Bank OperatingMode Notification...

Page 47: ...nk DB ADR1 OperatingMode ScanMode DataSource FirstDataBlock OperatingMode NotificationMode DataSource FirstDataBlock OperatingMode BufferedReadMode DataSource FirstDataBlock 0x00 0xFF Address of first data block Range 0x00 0xFF See for valid addresses 9 3 Supported ISO15693 Host commands for ISO15693 Trans ponders DB N 6 OperatingMode ScanMode DataSource NoOfDataBlocks OperatingMode NotificationMo...

Page 48: ...gType Defines which tagtype will be supported Bit Tag Type b0000 b0001 b0010 NXP NXP Fujitsu D START OperatingMode ScanMode DataSource FirstByte This parameter defines the first byte in the raw data defined by DB ADR and D LGT which will be transferred in Scan Mode To transfer the whole data block D START must be set to 0 Note The size of one data block depends on the type of Transponder D LGT Ope...

Page 49: ...e Changing of VALID TIME only becomes effective after writing configuration block CFG12 to EEPROM and a CPU Reset TR ID only for Buffered Read Mode and Notification Mode TR ID sets the parameters for Transponder identification If several Transponders have the same content in the addressed data block only one da taset will be generated Byte 2 3 4 5 Function TR ID SOURCE TR ID DB ADR TR ID DB N TR I...

Page 50: ...he Serial Number as data source the ID DBN will be ignored Notes Changing of TR ID only becomes effective after writing configuration block CFG12 to EEPROM and CPU Reset The address TR ID DB ADR must be in the range of the selected data blocks DB ADR 7 TR ID DB ADR DB ADR1 DB N1 1 If the TR ID Source data block is used instead of Serial Number it is also ne cessary to enable and configuring the re...

Page 51: ... OperatingMode ScanMode DataFormat Format b0000 unformatted hex data In this case the data are transferred as they were read by the reader b0010 ASCII formatted hex data In this case the raw data from the Transponder were converted to ASCII Code before transfer For this purpose the data bytes first are sepa rated into their Nibbles and then changed into ASCII signs according the following table ra...

Page 52: ...A CR 0x0D TAB 0x09 0x3B 0x2C 0x20 USER user defined in SEP USR none 0x00 Note Only one option can be selected SEP USR OperatingMode ScanMode DataFormat UserSeparationChar User defined separation character END CHAR OperatingMode ScanMode DataFormat EndChar Selects the end character between two data types for the send data Bit 7 6 5 4 3 2 1 0 Function USER TAB CR LF CR LF ASCII Hex CR LF 0x0D and 0x...

Page 53: ...Mode DataFormat NoOfUserEndChars b0000 END USR1 b0001 END USR1 b0010 END USR1 2 b0011 END USR1 2 3 HEADER LEN OperatingMode ScanMode DataFormat NoOfUserHeaderChars b0000 no HEADER byte b0001 HEADER USR1 b0010 HEADER USR1 2 b0011 HEADER USR1 2 3 b0100 HEADER USR1 2 3 4 Example of scan data Header UID Separation Character Blocks Separation Character Timer USR1 USR2 USR3 USR4 UID SEP CHAR DB SEP CHAR...

Page 54: ...mbH Page 54 of 173 H20411 0e ID B docx 5 12 CFG14 Reserved The configuration block CFG14 is reserved for future use Byte 0 1 2 3 4 5 6 Contents 0x00 0x00 0x00 0x00 0x00 0x00 0x00 Default Byte 7 8 9 10 11 12 13 Contents 0x00 0x00 0x00 0x00 0x00 0x00 0x00 Default ...

Page 55: ...x01 MUX MODE Activates or deactivates multiplexing and determines when the next output is selected Bit 7 6 5 4 3 2 1 0 Function 0 0 0 0 0 0 MUX Switch Condition Multiplexing Multiplexing AirInterface Multiplexer Enable b0 disable b1 enable MUX Switch Condition AirInterface Multiplexer HF External SwitchCondition Specifies when the next output is selected b0 no response when communication on the RF...

Page 56: ...mmunication time on the active antenna exceed the MUX VALID TIME ANT_x the Transponder communication on the active antenna is stopped and the Reader switches to the next antenna If fixed is selected under Switch Condition the switch to the next channel is always made in this time INPUT CHANNELS AirInterface Multiplexer HF External InputChannelMode Specifies the number of inputs b00 b01 1 input Sin...

Page 57: ...nts 0x00 0x00 0x00 0x00 0x00 0x00 0x00 Default PER RESET TIME Transpond er PersistenceReset Antenna No1 PersistenceResetTime The timer value specifies a time which determines the reset of the Transponder select state by a RF reset from the Reader The timer PER RESET TIME starts after the Reader gets a response from any Transponder After this time has expired the Reader generates a RF reset The PER...

Page 58: ...x00 0x00 0x00 0x00 0x00 0x00 Default MUX VALID TIME ANT_x AirInterface Multiplexer HF External Antenna Nox ActiveTime Immediately this time has expired value x 5ms the next antenna output is selected If MUX Switch Condition is no response the Reader switches from the active antenna to the next antenna if there is no response from any Transponder on the active antenna If the Transponder communicati...

Page 59: ... Page 59 of 173 H20411 0e ID B docx 5 16 CFG18 19 Reserved The configuration block CFG18 19 is reserved for future use Byte 0 1 2 3 4 5 6 Contents 0x00 0x00 0x00 0x00 0x00 0x00 0x00 Default Byte 7 8 9 10 11 12 13 Contents 0x00 0x00 0x00 0x00 0x00 0x00 0x00 Default ...

Page 60: ... 0x01 IGNORE ERROR Defines whether a error has valid data or not Bit 7 6 5 4 3 2 1 0 Function 0 0 0 0 0 0 Weak Collision ISO18000 3M3 Weak Collision ISO15693 Weak Collision ISO15693 AirInterface Miscellaneous HF ISO_15693_ICode1 ErrorHandling Weak Collision b1 a weak collision has valid data b0 a weak collision has corrupted data and the data will be ignored Weak Collision ISO18000 3M3 AirInter fa...

Page 61: ...mbH Page 61 of 173 H20411 0e ID B docx 5 18 CFG21 Reserved The configuration block CFG21 is reserved for future use Byte 0 1 2 3 4 5 6 Contents 0x00 0x00 0x00 0x00 0x00 0x00 0x00 Default Byte 7 8 9 10 11 12 13 Contents 0x00 0x00 0x00 0x00 0x00 0x00 0x00 Default ...

Page 62: ... 0x00 0x00 0x00 0x00 0x00 Byte 7 8 9 10 11 12 13 Contents S_MASK Default 0x00 0x00 0x00 0x00 0x00 0x00 0x00 S_MASK_LGT Transponder HF ISO_18000_3M3 SelectionMask No1 MaskLength Defines the length of the mask in Bit If S_MASK_LGT is 0 the selection mask is disabled S_MODE Transponder HF ISO_18000_3M3 SelectionMask Bit 7 6 5 4 3 2 1 0 Function 0 0 0 0 0 0 S_BANK S_BANK Transponder HF ISO_18000_3M3 S...

Page 63: ...ID B docx 18000 3M3 Adr Bit 0 15 16 31 32 47 48 63 64 79 80 3M3 Data CRC16 PC EPC S_MASK S_START_ POINTER S_MASK_LG T Example S_START_ POINTER 16 S_MASK_LGT 64 18000 3M3 Adr Bit 0 15 16 31 32 47 48 63 64 79 80 Transponder Response EPC 1 CRC16 0x3000 0xA02A 0x0510 0x15A0 0x1234 YES EPC 2 CRC16 0x3000 0xA02A 0x0510 0x15A0 0x6789 YES EPC 3 CRC16 0x3000 0xA02A 0x0510 0x15A1 0x6789 NO S_MASK not checke...

Page 64: ...OBID i scan HF System Manual ID ISC LR1002 18000 3M3 Memory specification FEIG ELECTRONIC GmbH Page 64 of 173 H20411 0e ID B docx ...

Page 65: ...Page 65 of 173 H20411 0e ID B docx 5 20 CFG24 39 Reserved The configuration blocks CFG24 39 are reserved for future use Byte 0 1 2 3 4 5 6 Contents 0x00 0x00 0x00 0x00 0x00 0x00 0x00 Default Byte 7 8 9 10 11 12 13 Contents 0x00 0x00 0x00 0x00 0x00 0x00 0x00 Default ...

Page 66: ...0 0x00 0x00 10001 IP_ADDRESS_LAN HostInterface LAN IPv4 IPAddress Defines the IP address for wired LAN connection Changing of this parameter only be comes effective after writing saving this configuration block to EEPROM and a 0x64 Sys tem Reset of the LAN adapter IP_PORT_NUMBER _LAN HostInterface LAN PortNumber Defines the port number for wired LAN connection Changing of this parameter only be co...

Page 67: ...and a 0x64 Sys tem Reset of the RFC GW_ADDRESS_LAN HostInterface LAN IPv4 GatewayAddress Defines the gateway address for TCP IP connection Changing of this parameter only be comes effective after writing saving this configuration block to EEPROM and a 0x64 Sys tem Reset of the RFC LAN OPTIONS Bit 7 6 5 4 3 2 1 0 Function DHCP 0 0 0 0 0 0 KEEP ALIVE KEEP ALIVE HostInterface LAN Keepalive Enable b0 ...

Page 68: ...palive Interval This is the polling frequency used to determine if a keepalive ex change is needed This interval is used when the connection failed The valid range is 1 255 sec Notes The command has no effect on this setting Changing of this parameter only becomes effective after writing saving this configura tion block to EEPROM and a 0x64 System Reset of the RFC ...

Page 69: ...e notification channel Bit 7 6 5 4 3 2 1 0 Function ACK 0 0 0 0 0 0 0 ACK Acknowledge Notification Operating Mode NotificationMode Transmission Enable_Acknowledge b0 Notification must not be acknowledged b1 Notification must be acknowledged with protocol 0x32 Clear Data Buffer KEEP ALIVE Mode for keep alive notification Bit 7 6 5 4 3 2 1 0 Function 0 0 0 0 0 0 0 EN EN OperatingMode NotificationMod...

Page 70: ...otificationMode Transmission Destination IPv4 IPAddress Defines the destination IP address DEST IP PORT NUMBER Operating Mode NotificationMode Transmission Destination PortNumber Defines the destination port number HOLD Time Operating Mode NotificationMode Transmission Destination ConnectionHoldTime Defines the connection hold time ...

Page 71: ...sed for customer parameter Any kind of customer hex data can be stored in this EEPROM or RAM memory area Byte 0 1 2 3 4 5 6 Contents 0x00 0x00 0x00 0x00 0x00 0x00 0x00 Default Byte 7 8 9 10 11 12 13 Contents 0x00 0x00 0x00 0x00 0x00 0x00 0x00 Default Changing of this parameter only becomes effective after writing this configuration block to EEPROM and a CPU Reset ...

Page 72: ...Gn in the byte CFG ADR Host Reader 1 2 3 4 5 6 7 8 STX 0x02 MSB ALENGTH LSB ALENGTH COM ADR 0x82 CFG ADR CRC16 Host Reader 1 2 3 4 5 6 7 20 21 22 STX 0x02 MSB ALENGTH LSB ALENGTH COM ADR 0x82 STATUS 8 CFG REC CRC16 CFG ADR 9 Bit 7 6 5 4 3 2 1 0 Function LOC 0 CFGn Address of Configuration Block CFGn memory address of the required configuration block LOC specifies the location of the configuration ...

Page 73: ...1 22 STX 0x02 MSB ALENGTH LSB ALENGTH COM ADR 0x81 CFG ADR CFG REC CRC16 Host Reader 1 2 3 4 5 6 7 8 STX 0x02 MSB ALENGTH LSB ALENGTH COM ADR 0x81 STATUS 10 CRC16 CFG ADR 11 Bit 7 6 5 4 3 2 1 0 Function LOC 0 CFGn Address of Configuration Block CFGn memory address of the required configuration block LOC specifies the location of the configuration block b0 RAM b1 RAM and EEPROM CFG REC 14 bytes con...

Page 74: ... CFG ADR CRC16 Host Reader 1 2 3 4 5 6 7 8 STX 0x02 MSB ALENGTH LSB ALENGTH COM ADR 0x83 STATUS CRC16 CFG ADR Bit 7 6 5 4 3 2 1 0 Function LOC MODE CFGn Address of Configuration Block CFGn memory address of the required configuration block MODE specifies one or all configuration blocks b0 configuration block specified by CFGn b1 all configuration blocks LOC specifies the location of the configurat...

Page 75: ...e adapted to the conditions found in indi vidual applications Access to the configuration parameters is gained only after a 7 14 0xA0 Reader Login command with the correct READER ID In order to avoid unauthorized data access the Reader is equipped with the following protection mechanism Config Protection Access locking for the configuration parameters stored in the EEPROM of the Reader ...

Page 76: ...y be sent if the inquiry is executed with the baud rate and actual parity of the Reader A USB reader will send status 0x00 OK if reader can be detected 7 2 0x55 Start Flash Loader This protocol starts the Flash Loader inside the Reader Use the windows program OBIDFirmwareUpdateTool to process the firmware update Please refer to the Application Note N30300 pdf for details Host Reader 1 2 3 4 5 6 7 ...

Page 77: ...ws you to perform a reset of Reader CPU Host Reader 1 2 3 4 5 6 7 STX 0x02 MSB ALENGTH LSB ALENGTH COM ADR 0x63 CRC16 Host Reader 1 2 3 4 5 6 7 8 STX 0x02 MSB ALENGTH LSB ALENGTH COM ADR 0x63 STATUS 12 CRC16 Note The RF field will be switched off after a CPU Reset The communication interface will not be reset 12 see ANNEX D Index of Status Bytes ...

Page 78: ...er 1 2 3 4 5 6 7 8 STX 0x02 MSB ALENGTH LSB ALENGTH COM ADR 0x64 Mode CRC16 Host Reader 1 2 3 4 5 6 7 8 STX 0x02 MSB ALENGTH LSB ALENGTH COM ADR 0x64 STATUS 13 CRC16 MODE Defines the controller which will be reset MODE Controller 0x00 RF Controller Note The RF field will be switched off after a CPU Reset The communication interface will be reset 13 see ANNEX D Index of Status Bytes ...

Page 79: ...are options of the Reader Also the Device_ID can be determined Host Reader 1 2 3 4 5 6 7 8 STX 0x02 MSB ALENGTH LSB ALENGTH COM ADR 0x66 MODE CRC16 Host Reader Depending on the MODE Parameter the Reader response has a differing structure with several information s MODE 0x00 Controller Firmware 1 2 3 4 5 6 7 8 9 STX 0x02 MSB ALENGTH LSB ALENGTH COM ADR 0x66 STATUS 14 SW REV D REV 10 11 12 13 14 15 ...

Page 80: ...Info for read and write permission Every bit marks the permission to read write the configuration block The reader must send always complete bytes but no more bytes as necessary The flag fields are inde pendent of configurable password protection 1 2 3 4 5 6 7 8 9 n 2 n 1 n STX 0x02 MSB ALENGTH LSB ALENGTH COM ADR 0x66 STATUS NR_OF_ PAGES PERMISSI ON CRC16 PERMISSION Byte 7 Bit 7 6 5 4 3 2 1 0 CFG...

Page 81: ...ardware information 0x40 CFG Info for read permission 0x41 CFG Info for write permission 0x50 LAN Information MAC 0x51 LAN Information IP Address 0x52 LAN Information Netmask 0x53 LAN Information Gateway Address 0x60 I O Capabilities 0x80 Device ID Information is required for Firmware upgrades 0xFF All reads all available information at once SW REV Revision status of the Firmware Depending on the ...

Page 82: ...ported DISC b0 Discovery not supported b1 Discovery supported RX BUF RX BUF is the maximum receive buffer size of the Reader If a protocol from the host ex ceeds the RX BUF size the Reader responds with 0x81 PROTOCOL LENGTH ERROR TX BUF TX BUF is the maximum transmit buffer size of the Reader The Host has to take in to ac count that a response protocol of the Reader can have this length DEV_ID Ind...

Page 83: ...OBID i scan HF System Manual ID ISC LR1002 FEIG ELECTRONIC GmbH Page 83 of 173 H20411 0e ID B docx FNC_L Indicates which optional functions are licensed on the Reader ...

Page 84: ...set to their base setting Host Reader 1 2 3 4 5 6 7 STX 0x02 MSB ALENGTH LSB ALENGTH COM ADR 0x69 CRC16 Host Reader 1 2 3 4 5 6 7 8 STX 0x02 MSB ALENGTH LSB ALENGTH COM ADR 0x69 STATUS 15 CRC16 Notes After a RF Reset the Reader is not able to receive a new Transponder before expiration of trf After a RF Reset a Transponder which is located within the field has to be re selected The response of thi...

Page 85: ...g the Auto Read Mode the option flag HM must be set Host Reader 1 2 3 4 5 6 7 8 STX 0x02 MSB ALENGTH LSB ALENGTH COM ADR 0x6A RF Output CRC16 Host Reader 1 2 3 4 5 6 7 8 STX 0x02 MSB ALENGTH LSB ALENGTH COM ADR 0x6A STATUS 17 CRC16 RF OUTPUT Set RF and DC power of the antenna output Bit 7 6 5 4 3 2 1 0 Function HM 0 0 0 0 0 0 RF RF Set RF output active or RF Power OFF RF Description b0 RF OFF b1 R...

Page 86: ... actual Noise Levels from the Reader Host Reader 1 2 3 4 5 6 7 STX 0x02 MSB ALENGTH LSB ALENGTH COM ADR 0x6D CRC16 Host Reader 1 2 3 4 5 6 7 12 13 14 STX 0x02 MSB ALENGTH LSB ALENGTH COM ADR 0x6D STATUS 18 NOISE LEVEL CRC16 NOISE LEVEL Byte 7 8 9 10 11 12 NOISE LEVEL min NL avg NL max NL Value min NL avg NL and max NL in mV 18 see ANNEX D Index of Status Bytes ...

Page 87: ...DR 0x6E STATUS DATA CRC16 MODE Reader Diagnostic Modes 0x01 Listing of detail information for STATUS 0x84 Reader and antenna status 0x03 Listing of detail information for Multiplexer status Multiplexer status 0x04 Listing of detail information for STATUS 0x10 EEPROM Failure 0x05 Listing of detail information for Flags A control Z Mux channel impedance status 0xFF All DATA Response for Reader Diagn...

Page 88: ...antenna check cable OFF ON TEMP WARN temp warning level 100 C temp warning level ON decrement ON TEMP ALARM temp alarm level 110 C temp alarm level OFF ON Error Conditions FLAGS B Error Set condition Clear condition RF Power LED 5 MUX Status OK Status OK ON ON DAT Status DAT Tuning necessary after Reader power up Status DAT OK after Reader power up ON ON DC POWER Short circuit DC Power CPU reset O...

Page 89: ... H30701 xde ID B pdf and M30201 xde ID B pdf This mode is only useable in Buffered Read Mode Scan Mode or Notifica tion Mode and if a ID ISC ANT MUX is connected MODE 0x04 7 8 INT_ERROR INT_ERROR Bit 15 14 13 12 11 10 9 8 Function Bit 7 6 5 4 3 2 1 0 Function EE DEV1 EE_DEV1 Error during the communication with EEPROM Dev 1 Note Should be used if status 0x10 EEPROM Failure appears See ANNEX D Index...

Page 90: ...riod of time If the Reader receives a command Set Output all times that have been active until then are being overwritten by the new times included in the protocol if they are 0 Host Reader 1 2 3 4 5 6 7 STX 0x02 MSB ALENGTH LSB ALENGTH COM ADR 0x72 Mode OUT N 8 9 10 11 n 1 n ª OUT NR OUT S OUT TIME CRC16 Repeated OUT N times Host Reader 1 2 3 4 5 6 7 8 STX 0x02 MSB ALENGTH LSB ALENGTH COM ADR 0x7...

Page 91: ...o effect on the status of the output b01 ON output for OUT TIME active b10 OFF output for OUT TIME inactive b11 FLASH output for OUT TIME with OSF alternating OUTx frq b11 1 Hz b10 2 Hz b01 4 Hz b00 8 Hz OUT TIME By the values defined by OUT TIME the outputs can be activated temporary limited or unlimited An exception are the time values 0 and 65535 0xFFFF see following table 0x0001 1 x 100ms 100m...

Page 92: ...Page 92 of 173 H20411 0e ID B docx 7 10 1 Set Output Examples Example No 1 Blue LED on ID ISC ANTS370270OUT1 is alternating with 4 Hz for 500 ms REL1 is activated for 200 ms OUT N OUT NR OUT S OUT TIME 0x0002 0x01 0x07 0x0005 ª OUT NR OUT S OUT TIME 0x81 0x01 0x0002 ...

Page 93: ...f the digital inputs IN1 IN3 can be inquired at any time Host Reader 1 2 3 4 5 6 8 STX 0x02 MSB ALENGTH LSB ALENGTH COM ADR 0x74 CRC16 Host Reader 1 2 3 4 5 6 7 8 9 STX 0x02 MSB ALENGTH LSB ALENGTH COM ADR 0x74 STATUS 19 INPUTS CRC16 INPUTS Bit 7 6 5 4 3 2 1 0 Function IN1 b0 digital input inactive b1 digital input active 19 see ANNEX D Index of Status Bytes ...

Page 94: ...2 MSB ALENGTH LSB ALENGTH COM ADR 0x85 STATUS CRC16 TIMER Byte 6 7 8 9 TIME h min ms 0 23 0 59 0 59999 Note The internal system timer is not a real time clock RTC and the accuracy cannot be guaranteed 7 13 0x86 Get System Timer The Get System Timer command reads the internal system timer of the CPU Host Reader 1 2 3 4 5 6 7 STX 0x02 MSB ALENGTH LSB ALENGTH COM ADR 0x86 CRC16 Host Reader 1 2 3 4 5 ...

Page 95: ...0x02 MSB ALENGTH LSB ALENGTH COM ADR 0xA0 READER ID CRC16 Host Reader 1 2 3 4 5 6 7 8 STX 0x02 MSB ALENGTH LSB ALENGTH COM ADR 0xA0 STATUS 20 CRC16 READER ID The READER ID is a password which protects the configuration parameters from any read and write access The READER ID can be changed in the configuration block 5 1 CFG0 Passwords NOTE A Reader Login with wrong READER ID cause a Logout A Logout...

Page 96: ...ISO18000 3M3 8 1 0xB0 Host commands for ISO15693 Mandatory and Op tional Commands 8 1 1 0x01 Inventory 8 1 2 0x02 Stay Quiet 8 1 3 0x22 Lock Multiple Blocks 8 1 4 0x23 Read Multiple Blocks 8 1 5 0x24 Write Multiple Blocks 8 1 6 0x25 Select 8 1 7 0x26 Reset to Ready 8 1 8 0x27 Write AFI 8 1 9 0x28 Lock AFI 8 1 10 0x29 Write DSFI 8 1 11 0x2A Lock DSFI 8 1 12 0x2B Get System Information 8 1 13 0x2C G...

Page 97: ...ost Reader 1 2 3 4 5 6 n 2 n 1 n STX 0x02 MSB ALENGTH LSB ALENGTH COM ADR 0xB0 REQUEST DATA CRC16 Host Reader 1 2 3 4 5 6 7 n 2 n 1 n STX 0x02 MSB ALENGTH LSB ALENGTH COM ADR 0xB0 STATUS RESPONSE DATA CRC16 REQUEST DATA Command specific request RESPONSE DATA Command specific response Notes Data is only transferred if STATUS 0x00 0x83 0x94 0x95 This commands aren t available if Scan Mode Buffered R...

Page 98: ...der sends back a response every time if the Transponder has left the antenna and reentered the antenna field or if a 7 6 0x69 RF Reset command was send to the Reader or if the Persistence Rest Time is set to 0x00 or has expired see 5 14 CFG16 Persistence Reset REQUEST DATA 6 7 8 0x01 MODE ANT_SEL RESPONSE DATA ISO15693 Transponder RESPONSE DATA if ANT 0 7 8 9 10 17 DATA SETS TR TYPE DSFID IDD UID ...

Page 99: ...ATUS RSSI reserved Repeated ANT_CNT times Repeated DATA SETS times MODE Bit 7 6 5 4 3 2 1 0 Function MORE 0 0 0 0 0 0 0 MORE b0 new Inventory requested b1 more data requested If Status 0x94 appears more data sets are available ANT SEL Is a bit field and defines the corresponding bits of antenna where the reader starts an In ventory ANT SEL will be only transmitted if Bit ANT is set in Mode Byte Bi...

Page 100: ...s the RFID Technology of the present Transponder b00 13 56 MHz Transponder b10 ISO18000 3M3 Transponder TYPE_NO Displays the Transponder type of the present Transponder see ANNEX A Codes of Transponder Types IDDT only ISO18000 3M3 Identifier Data Type Defines the type of Data transmit beginning at Byte 9 Possible Inventory Data Type See ANNEX B Codes of Identifier Data Types IDDT DSFID only ISO156...

Page 101: ...D B docx ANT_NR Number of the antenna 1 ANT_STATUS The ANT_STATUS can be 0x00 OK or 0x83 RF communication error See ANNEX D Index of Status Bytes RSSI Received Signal Strength Identification Note The Anticollision of the ID ISC LR1002 reader can support up to 100 transponder at the same time ...

Page 102: ...1 0e ID B docx 8 1 2 0x02 Stay Quiet This command sets one Transponder to Quiet State REQUEST DATA 6 7 8 15 0x02 MODE UID MODE Bit 7 6 5 4 3 2 1 0 Function 0 0 0 0 0 ADR ADR b001 addressed UID Read only UID of the Transponder Note This command is only available for ISO15693 Transponders ...

Page 103: ...3Transponders REQUEST DATA 6 7 8 9 1 or 2 Bytes def by EXT_ADR 1 Byte 0x23 MODE UID BANK DB ADR DB N RESPONSE DATA STATUS 0x03 7 DB ADR E RESPONSE DATA STATUS 0x95 7 8 ISO15693 ERROR DB ADR E MODE Bit 7 6 5 4 3 2 1 0 Function 0 0 EXT_ADR 0 0 ADR ADR b000 non addressed b001 addressed b010 selected EXT_ADR If this bit is set the command includes extended address fields b0 Transponder memory addressi...

Page 104: ...B ADR First block number to be locked Depending on EXT_ADR First block can be any value between 0 and 255 or 0 and 65535 DB N Number of data blocks to be locked from the Transponder starting at DB ADR The maximum number of DB N depends on the interface transmit buffer size TX BUF The maximum number of DB N is TX BUF 10 DB Size 1 Standard Protocol TX BUF 12 DB Size 1 Advanced Protocol ISO15693 ERRO...

Page 105: ... DATA STATUS 0x95 7 ISO15693 ERROR RESPONSE DATA 7 8 9 10 n DB N DB SIZE SEC STATUS DB Repeated DB N times MODE Bit 7 6 5 4 3 2 1 0 Function 0 0 EXT_ADR UID_LF SEC ADR ADR b000 non addressed b001 addressed b010 selected SEC b0 SEC STATUS always 0x00 b1 security status of followed data block in SEC STATUS UID_LF If this bit is set the parameter UID_LNG must inserted into the protocol b0 The protoco...

Page 106: ...the Transponder which will be accessed by the Reader Bit 7 6 5 4 3 2 1 0 Function A_FLAG 0 0 0 0 0 BANK_NR BANK_NR In case of ISO18000 3M3 Transponder BANK_NR is defined as follows b00 reserved b01 EPC memory bank b10 TID memory bank b11 User memory bank A_FLAG Indicates whether the reader tries to read a ISO18000 3M3 tag in Secured State If A_FLAG is set the protocol contains the access password ...

Page 107: ...on the specification of the Trans ponder SEC STATUS only ISO15693 Transponder Block security status of followed data block If supported by the ISO15693 transponder DB Requested data block The block size is defined by DB SIZE ISO15693 ERROR ISO15693 ERROR code of Transponder response This byte is only available if STATUS 0x95 Notes Only one Transponder can be read in the non addressed mode ISO15693...

Page 108: ...3 7 DB ADR E RESPONSE DATA STATUS 0x95 7 8 ISO15693 ERROR DB ADR E MODE Bit 7 6 5 4 3 2 1 0 Function 0 0 EXT_ADR UID_LF ADR ADR b000 non addressed b001 addressed b010 selected UID_LF If this bit is set the parameter UID_LNG must inserted into the protocol b0 The protocol UID_LNG doesn t include the UID_LNG byte and the UID field has a fixed length of 8 byte from byte 6 to byte 13 b1 The protocol i...

Page 109: ... EPC memory bank b10 TID memory bank b11 User memory bank A_FLAG Indicates whether the reader tries to read a ISO18000 3M3 tag in Secured State If A_FLAG is set the protocol contains the access password A_FLAG b0 no access password in protocol b1 access password and access password length in protocol Reader ex ecute access command A_PW_LNG Length of Access Password A_PW Access password which is us...

Page 110: ...3 Transponder ISO15693 ERROR code of Transponder response This byte is only available if STATUS 0x95 DB ADR E Block number where the error occurred Notes If an error occurred during a write command the number of the block were the error oc curred will be send to host ISO15693 A write to 1 block uses a Write Single Block command to the Transponder This will be managed by the Reader internally If a ...

Page 111: ...nce An already selected Transponder will automatically be set to Ready State REQUEST DATA 6 7 8 15 0x25 MODE UID RESPONSE DATA STATUS 0x95 7 ISO15693 ERROR MODE Bit 7 6 5 4 3 2 1 0 Function 0 0 0 0 0 ADR ADR b001 addressed UID Read only UID of the Transponder ISO15693 ERROR ISO15693 ERROR code of Transponder response This byte is only available if STATUS 0x95 Note This command is only available fo...

Page 112: ...E UID RESPONSE DATA STATUS 0x95 7 ISO15693 ERROR MODE Bit 7 6 5 4 3 2 1 0 Function 0 0 0 0 0 ADR ADR b000 non addressed b001 addressed b010 selected UID Read only serial number of the Transponder The UID is required only in the addressed mode ISO15693 ERROR ISO15693 ERROR code of Transponder response This byte is only available if STATUS 0x95 Note This command is only available for ISO15693 Transp...

Page 113: ...escribed in chapter 9 3 Supported ISO15693 Host commands for ISO15693 Transponders REQUEST DATA 6 7 8 15 8 16 0x27 MODE UID AFI RESPONSE DATA STATUS 0x95 7 ISO15693 ERROR MODE Bit 7 6 5 4 3 2 1 0 Function 0 0 0 0 0 ADR ADR b000 non addressed b001 addressed b010 selected UID Read only serial number of the Transponder The UID is required only in the addressed mode AFI Application Family Identifier o...

Page 114: ...er 9 3 Supported ISO15693 Host commands for ISO15693 Trans ponders REQUEST DATA 6 7 8 15 0x28 MODE UID RESPONSE DATA STATUS 0x95 7 ISO15693 ERROR MODE Bit 7 6 5 4 3 2 1 0 Function 0 0 0 0 0 ADR ADR b000 non addressed b001 addressed b010 selected UID Read only serial number of the Transponder The UID is required only in the addressed mode ISO15693 ERROR ISO15693 ERROR code of Transponder response T...

Page 115: ...cribed in chapter 9 3 Supported ISO15693 Host commands for ISO15693 Trans ponders REQUEST DATA 6 7 8 15 8 16 0x29 MODE UID DSFID RESPONSE DATA STATUS 0x95 7 ISO15693 ERROR MODE Bit 7 6 5 4 3 2 1 0 Function 0 0 0 0 0 ADR ADR b000 non addressed b001 addressed b010 selected UID Read only serial number of the Transponder The UID is required only in the addressed mode DSFID Data Storage Format Identifi...

Page 116: ... 9 3 Supported ISO15693 Host commands for ISO15693 Trans ponders REQUEST DATA 6 7 8 15 0x2A MODE UID RESPONSE DATA STATUS 0x95 7 ISO15693 ERROR MODE Bit 7 6 5 4 3 2 1 0 Function 0 0 0 0 0 ADR ADR b000 non addressed b001 addressed b010 selected UID Read only serial number of the Transponder The UID is required only in the addressed mode ISO15693 ERROR ISO15693 ERROR code of Transponder response Thi...

Page 117: ...tion 0 0 0 0 0 ADR ADR b000 non addressed b001 addressed b010 selected UID Read only serial number of the Transponder The UID is required only in the addressed mode ISO ERROR ISO15693 error code of Transponder response This byte is only available if STATUS 0x95 DSFID Data Storage Format Identifier of the Transponder UID The LSB 32bits from the Read only Serial Number of the Transponder AFI Applica...

Page 118: ...pported by the Transponder this value will re turn 0x0000 Byte 17 18 Bit 7 5 4 0 7 0 content res Block size in Bytes Number of blocks IC REF IC reference version of the Transponder If not supported by the Transponder this value will return 0x00 Chip Version Chip version of the Transponder Note This command is only available for ISO15693 Transponders ...

Page 119: ...nction 0 0 0 0 0 ADR ADR b000 non addressed b001 addressed b010 selected UID Read only serial number of the Transponder The UID is required only in the addressed mode DB ADR First block number from which security status is requested First block number can be any value between 0 and 255 DB N Number of Security data blocks to be read from the Transponder starting at DB ADR The maximum number of DB N...

Page 120: ... This command sends special commands to EPC Transponder Host Reader 1 2 3 4 5 6 n 2 n 1 n 0x02 n COM ADR 0xB3 REQUEST DATA CRC16 Host Reader 1 2 3 4 5 6 7 n 2 n 1 n 0x02 n COM ADR 0xB3 STATUS RESPONSE DATA CRC16 REQUEST DATA EPC specific request RESPONSE DATA EPC specific response Notes Data is only transferred if STATUS 0x00 0x83 0x94 0x95 ...

Page 121: ... EPC_LF EPC 1 Byte K_PW_LNG Bytes ª K_PW_LNG K_PW MODE Bit 7 6 5 4 3 2 1 0 Function 0 0 0 EPC_LF ADR ADR b000 non addressed b001 addressed EPC_LF If this bit is set the parameter EPC_LNG must inserted into the protocol b1 The protocol includes the parameter EPC_LNG The EPC has a variable length as defined in EPC_LNG EPC_LNG Is a optional parameter and depends on the setting of EPC_LF see MODE EPC_...

Page 122: ...D ISC LR1002 FEIG ELECTRONIC GmbH Page 122 of 173 H20411 0e ID B docx Notes ISO18000 3M3 A ISO18000 3M3 Transponder can be killed in addressed mode only Kill password K_PW has to contain the kill code Kill password length K_PW_LGT 1 ...

Page 123: ... is set the parameter EPC_LNG must inserted into the protocol b1 The protocol includes the parameter EPC_LNG The EPC has a variable length as defined in EPC_LNG EPC_LNG Is a optional parameter and depends on the setting of EPC_LF see MODE EPC_LNG defines the length of the following EPC field EPC Read only serial number of the Transponder The EPC is required only in the addressed mode EPC_Type Type...

Page 124: ...LECTRONIC GmbH Page 124 of 173 H20411 0e ID B docx Notes ISO18000 3M3 A ISO18000 3M3 Transponder can be locked in non addressed mode only Lock data LOCK_DATA has to contain the kill code which is written to the Transponder Lock data length Lock_LNG 1 ...

Page 125: ... n 2 n 1 n ª CMD RSP DELAY MULTIPLE 302 GRIDS REQUEST DATA CRC16 Host Reader 1 2 3 4 5 6 7 n 2 n 1 n STX 0x02 MSB ALENGTH LSB ALENGTH COM ADR 0xBF STATUS 21 RESPONSE DATA CRC16 MODE Bit 7 6 5 4 3 2 1 0 Function TxCRCEn 0 0 0 X Options Options Options for request b001 read request Response is sampled corresponding to CMD RES DELAY b010 write request with Option 0 The Reader tries to sample the resp...

Page 126: ...PLE 302us GRIDS If there is no response the command sends back status no Transponder 0x01 The maximum value for MULTIPLE 302us GRIDS is 125 Æ 302 08us 125 37 76ms Depending on the Error Flag in the Transponder response the length of the sample data is 4 Byte if Error Flag is 1 REP LENGTH if Error Flag is 0 b110 read request without any ISO15693 specific data checks and ISO15693 data interpretation...

Page 127: ...e ISO15693 t1 e g ISO15693 maximum value 0x846A 590ns 20ms REQUEST DATA Complete Transponder request without SOF CRC16 and EOF Note The read and write option FLAGS in the REQUEST DATA must correspond to the MODE Byte in the request protocol Reader is always forcing the command in the way specified by MODE Byte in the request protocol RESPONSE DATA Complete Transponder response without SOF and EOF ...

Page 128: ... area 3 11 Block size 4 byte Command Code Function Mode Comment non addressed addressed select 0x01 Inventory 0x02 Stay Quiet 0x22 Lock Multiple Blocks 0x23 Read Multiple Blocks DB Size 4 0x24 Write Multiple Blocks DB Size 4 WR OPTION 0 0x25 Select 0x26 Reset to Ready 0x27 Write AFI 0x28 Lock AFI 0x29 Write DSFID 0x2A Lock DSFID 0x2B Get System Information 0x2C Get Multiple Block Security Status R...

Page 129: ...nt non addressed addressed select 0x01 Inventory 0x02 Stay Quiet 0x22 Lock Multiple Blocks WR OPTION 0 0x23 Read Multiple Blocks DB Size 8 0x24 Write Multiple Blocks DB Size 8 WR OPTION 0 0x25 Select 0x26 Reset to Ready 0x27 Write AFI 0x28 Lock AFI 0x29 Write DSFID 0x2A Lock DSFID 0x2B Get System Information 0x2C Get Multiple Block Security Status The WR OPTION will be set automatically by the FEI...

Page 130: ...0x25 Select 0x26 Reset to Ready 0x27 Write AFI WR OPTION 0 or 1 0x28 Lock AFI WR OPTION 0 or 1 0x29 Write DSFID 0x2A Lock DSFID 0x2B Get System Information 0x2C Get Multiple Block Security Status The Custom Specific Commands Read Multiple Blocks Unlimited 0xA3 will be used automatically by the Reader In non addressed Mode only one or two blocks can be read and the parameter DB Blocksize in CFG4 Tr...

Page 131: ...25 Select 0x26 Reset to Ready 0x27 Write AFI WR OPTION 0 or 1 0x28 Lock AFI WR OPTION 0 or 1 0x29 Write DSFID 0x2A Lock DSFID 0x2B Get System Information 0x2C Get Multiple Block Security Status The Custom Specific Commands Read Multiple Blocks Unlimited 0xA3 will be used automatically by the Reader In non addressed Mode only one or two blocks can be read and the parameter DB Blocksize in CFG4 Tran...

Page 132: ...e Blocks WR OPTION 0 or 1 0x23 Read Multiple Blocks Security Status is always 0x00 0x24 Write Multiple Blocks WR OPTION 0 or 1 0x25 Select 0x26 Reset to Ready 0x27 Write AFI WR OPTION 0 or 1 0x28 Lock AFI WR OPTION 0 or 1 0x29 Write DSFID 0x2A Lock DSFID 0x2B Get System Information 0x2C Get Multiple Block Security Status The WR OPTION will be set automatically by the FEIG Readers if the WR OPTION ...

Page 133: ...Command Code Function Mode Comment non ad dressed addressed select 0x01 Inventory 0x02 Stay Quiet 0x22 Lock Multiple Blocks WR OPTION 0 0x23 Read Multiple Blocks DB Size 4 0x24 Write Multiple Blocks DB Size 4 WR OPTION 0 0x25 Select 0x26 Reset to Ready 0x27 Write AFI WR OPTION 0 0x28 Lock AFI WR OPTION 0 0x29 Write DSFID 0x2A Lock DSFID 0x2B Get System Information 0x2C Get Multiple Block Security ...

Page 134: ...cks WR OPTION 0 0x23 Read Multiple Blocks DB Size 4 0x24 Write Multiple Blocks DB Size 4 WR OPTION 0 0x25 Select 0x26 Reset to Ready 0x27 Write AFI WR OPTION 0 0x28 Lock AFI WR OPTION 0 0x29 Write DSFID 0x2A Lock DSFID 0x2B Get System Information 0x2C Get Multiple Block Security Status The WR OPTION will be set automatically by the FEIG Readers if the WR OPTION parameter in CFG4 Transponder Parame...

Page 135: ...t 0x01 Inventory 0x02 Stay Quiet 0x22 Lock Multiple Blocks WR OPTION 0 0x23 Read Multiple Blocks DB Size 4 0x24 Write Multiple Blocks DB Size 4 WR OPTION 0 0x25 Select 0x26 Reset to Ready 0x27 Write AFI WR OPTION 0 0x28 Lock AFI WR OPTION 0 0x29 Write DSFID WR OPTION 0 0x2A Lock DSFID WR OPTION 0 0x2B Get System Information 0x2C Get Multiple Block Security Status The WR OPTION will be set automati...

Page 136: ...Lock Multiple Blocks WR OPTION 0 0x23 Read Multiple Blocks DB Size 4 0x24 Write Multiple Blocks DB Size 4 WR OPTION 0 0x25 Select 0x26 Reset to Ready 0x27 Write AFI WR OPTION 0 0x28 Lock AFI WR OPTION 0 0x29 Write DSFID WR OPTION 0 0x2A Lock DSFID WR OPTION 0 0x2B Get System Information 0x2C Get Multiple Block Security Status The WR OPTION will be set automatically by the FEIG Readers if the WR OP...

Page 137: ...ock Multiple Blocks WR OPTION 0 0x23 Read Multiple Blocks DB Size 4 0x24 Write Multiple Blocks DB Size 4 WR OPTION 0 0x25 Select 0x26 Reset to Ready 0x27 Write AFI WR OPTION 0 0x28 Lock AFI WR OPTION 0 0x29 Write DSFID WR OPTION 0 0x2A Lock DSFID WR OPTION 0 0x2B Get System Information 0x2C Get Multiple Block Security Status The WR OPTION will be set automatically by the FEIG Readers if the WR OPT...

Page 138: ...Lock Multiple Blocks WR OPTION 0 0x23 Read Multiple Blocks DB Size 4 0x24 Write Multiple Blocks DB Size 4 WR OPTION 0 0x25 Select 0x26 Reset to Ready 0x27 Write AFI WR OPTION 0 0x28 Lock AFI WR OPTION 0 0x29 Write DSFID WR OPTION 0 0x2A Lock DSFID WR OPTION 0 0x2B Get System Information 0x2C Get Multiple Block Security Status The WR OPTION will be set automatically by the FEIG Readers if the WR OP...

Page 139: ... Lock Multiple Blocks WR OPTION 0 0x23 Read Multiple Blocks DB Size 4 0x24 Write Multiple Blocks DB Size 4 WR OPTION 0 0x25 Select 0x26 Reset to Ready 0x27 Write AFI WR OPTION 0 0x28 Lock AFI WR OPTION 0 0x29 Write DSFID WR OPTION 0 0x2A Lock DSFID WR OPTION 0 0x2B Get System Information 0x2C Get Multiple Block Security Status The WR OPTION will be set automatically by the FEIG Readers if the WR O...

Page 140: ...ock Multiple Blocks WR OPTION 0 0x23 Read Multiple Blocks DB Size 4 0x24 Write Multiple Blocks DB Size 4 WR OPTION 0 0x25 Select 0x26 Reset to Ready 0x27 Write AFI WR OPTION 0 0x28 Lock AFI WR OPTION 0 0x29 Write DSFID WR OPTION 0 0x2A Lock DSFID WR OPTION 0 0x2B Get System Information 0x2C Get Multiple Block Security Status The WR OPTION will be set automatically by the FEIG Readers if the WR OPT...

Page 141: ...on Reserved memory 32 bit ACCESS and 32 bit KILL password 64 bit EPC excluding 16 bit CRC 16 and 16 bit PC 240 bit TID including unique 48 bit serial number 96 bit User memory 512 bit Command Code Function Mode Comment non addressed addressed 0xB0 0x01 Inventory 0xB0 0x23 Read Multiple Blocks 0xB0 0x24 Write Multiple Blocks 0xB3 0x18 Kill 0xB3 0x22 Lock ...

Page 142: ...lect 0x01 Inventory 0x02 Stay Quiet 0x22 Lock Multiple Blocks WR OPTION 0 0x23 Read Multiple Blocks In non addressed mode DB N must be 1 0x24 Write Multiple Blocks DB Size 4 WR OPTION 0 0x25 Select 0x26 Reset to Ready 0x27 Write AFI WR OPTION 0 0x28 Lock AFI WR OPTION 0 0x29 Write DSFID 0x2A Lock DSFID 0x2B Get System Information 0x2C Get Multiple Block Security Status The WR OPTION will be set au...

Page 143: ...ect 0x01 Inventory 0x02 Stay Quiet 0x22 Lock Multiple Blocks WR OPTION 0 0x23 Read Multiple Blocks In non addressed mode DB N must be 1 0x24 Write Multiple Blocks DB Size 1 WR OPTION 0 0x25 Select 0x26 Reset to Ready 0x27 Write AFI WR OPTION 0 0x28 Lock AFI WR OPTION 0 0x29 Write DSFID 0x2A Lock DSFID 0x2B Get System Information 0x2C Get Multiple Block Security Status The WR OPTION will be set aut...

Page 144: ...addressed select 0x01 Inventory 0x02 Stay Quiet 0x22 Lock Multiple Blocks WR OPTION 0 0x23 Read Multiple Blocks DB Size 4 0x24 Write Multiple Blocks DB Size 4 WR OPTION 0 0x25 Select 0x26 Reset to Ready 0x27 Write AFI WR OPTION 0 0x28 Lock AFI WR OPTION 0 0x29 Write DSFID 0x2A Lock DSFID 0x2B Get System Information 0x2C Get Multiple Block Security Status The WR OPTION will be set automatically by ...

Page 145: ...ssed addressed select 0x01 Inventory 0x02 Stay Quiet 0x22 Lock Multiple Blocks WR OPTION 0 0x23 Read Multiple Blocks 0x24 Write Multiple Blocks WR OPTION 0 0x25 Select 0x26 Reset to Ready 0x27 Write AFI WR OPTION 0 0x28 Lock AFI WR OPTION 0 0x29 Write DSFID 0x2A Lock DSFID 0x2B Get System Information 0x2C Get Multiple Block Security Status Note The WR OPTION will be set automatically by the FEIG R...

Page 146: ...0 7 Block size 4 byte Pro Product ID 0h 100b Bit 43 41 of UID memory organization 12 x 4 Byte 48Byte 8 4 Byte 256 Bit user data Number of blocks 12 user area 0 7 Block size 4 byte Command Code Function Mode Comment non ad dressed addressed select 0x01 Inventory 0x02 Stay Quiet 0x22 Lock Multiple Blocks WR OPTION 1 0x23 Read Multiple Blocks DB Size 4 0x24 Write Multiple Blocks DB Size 4 WR OPTION 1...

Page 147: ...3 Lock 2 Blocks 0xA4 Kill only Tag it HFI Pro 0xA5 WriteBlockPwd only Tag it HFI Pro Note Reading of more than one block in non addressed mode is only possible if parameter Read Mode in CFG4 is set to 01 Single Read The WR OPTION will be set automatically by the FEIG Readers if the WR OPTION pa rameter in CFG4 Transponder Parameters is set to 00 automatically set When using the non addressed mode ...

Page 148: ...ressed addressed select 0x01 Inventory 0x02 Stay Quiet 0x22 Lock Multiple Blocks WR OPTION 1 0x23 Read Multiple Blocks DB Size 4 0x24 Write Multiple Blocks DB Size 4 WR OPTION 1 0x25 Select 0x26 Reset to Ready 0x27 Write AFI WR OPTION 1 0x28 Lock AFI WR OPTION 1 0x29 Write DSFID WR OPTION 1 0x2A Lock DSFID WR OPTION 1 0x2B Get System Information 0x2C Get Multiple Block Security Status 0xA3 Invento...

Page 149: ...y set When using the non addressed mode the WR OPTION must be set manually to WR OPTION 1 Note The Write_2_Blocks command and Lock_2_Blocks command will be used automati cally by the reader This will only become an effect if the block address starts with an even numbered address In the case of writing locking an odd number of blocks the Write_2_Blocks Lock_2_Blocks command will be combined with th...

Page 150: ...ommands are necessary to read out sampled Transponder data sets The figure below illustrates the Buffered Read Mode procedure Host Reader 0x22 Read Buffer Command to the Reader to read data Ø typ 6 ms Host Reader Status e g 0x92 No Valid Data there are no data sets inside the data buffer Ù Ù Ù Host Reader 0x22 Read Buffer Command to the Reader to read data Ø typ 6 ms Host Reader Status e g OK and ...

Page 151: ... notification trigger is set to continuously or a very short cycle time in time triggered mode is defined To prevent a notification overflow in a host application the acknowledgement option can be set In this case the notification must be acknowledged by the host with an response protocol to synchron ize the notification process with the host application The figure below illustrates this procedure...

Page 152: ... Buffered Read Mode and Notification Mode The Buffered Read Mode only reads data blocks from the Transponders in the antenna field The anticollision procedure can be configured in the configuration block 5 6 CFG5 Anticollision After power up or a 7 4 0x64 System Reset command the buffered read mode starts with trans ponder reading ...

Page 153: ...ll available data sets TR DATA1 Selects the data types for read operation Bit 7 6 5 4 3 2 1 0 Function TIME ANT Byte Order DB IDD IDD Identifier Data UID or EPC DB data block Byte Order b0 MSB first b1 LSB first ANT Antenna number TIME internal system time Notes If the ANT bit in TR_DATA CFG11 is set in Buffer Info Mode When a Transponder is detected by multiple antennas only one data set is store...

Page 154: ...B RecLen Serial Number byte no 1 2 3 3 LEN TR TYP IDDT IDD LEN IDD Data Blocks byte no 1 2 3 4 4 DB N DB SIZE DB N DB SIZE DB Timer byte no 1 4 TIMER Antenna byte no 1 ANT NO Antenna Extended byte no 1 2 3 4 7 ANT CNT ANTx RSSIx reserved Repeated ANT CNT times ANT NO Antenna number ANT is a bit field If the tag is read on more than one antenna and the configura tion option all antenna ports act as...

Page 155: ...escribe the active outputs of the multiplexers on all 3 levels to switch to the antenna ANT CNT Level 2 Mux Channel 10 Level 1 Mux Channel 1 Example Mux on output 2 Level 1 Mux on output 4 Level 2 ANT CNT 4 10 2 1 42 RSSIx Receive signal strength identification Notes This command reads the same data sets until they are cleared with the 10 6 0x32 Clear Data Buffer command This command is only avail...

Page 156: ...DR 0x31 CRC16 Host Reader 1 2 3 4 5 6 STX 0x02 MSB ALENGTH LSB ALENGTH COM ADR 0x31 STATUS 23 7 8 9 10 11 12 13 14 ª TAB SIZE TAB START TAB LEN CRC16 TAB SIZE Maximum count of Transponder data sets in the data buffer TAB START Address of first Data Set in the data buffer TAB LEN Number of Transponder data sets reserved in the data buffer Notes Additional information about the data table status is ...

Page 157: ...COM ADR 0x32 CRC16 Host Reader 1 2 3 4 5 6 7 8 STX 0x02 MSB ALENGTH LSB ALENGTH COM ADR 0x32 STATUS 24 CRC16 10 7 0x33 Initialize Buffer The command Initialize Buffer clears the data buffer to an initial state It does not matter if the data sets in the data buffer were read or not Host Reader 1 2 3 4 5 6 7 STX 0x02 MSB ALENGTH LSB ALENGTH COM ADR 0x33 CRC16 Host Reader 1 2 3 4 5 6 7 8 STX 0x02 MSB...

Page 158: ...Types Value Transponder type 0x03 ISO15693 Tags 0x84 ISO18000 3M3 The Information will be send by performing the 8 1 1 0x01 Inventory command ANNEX B Codes of Identifier Data Types IDDT Value IDDT 0x00 EPC 0x02 EPC and TID UID The Information will be send by performing the 8 1 1 0x01 Inventory command or using the Buffered Reader Mode ...

Page 159: ... to be read or written Type and amount of Transponders supported by the Reader Position of the Transponder at the time of the request Probable local electromagnetic interference present The success or failure of the request min max Unit EE Parameter change 1 Block 16 Bytes all 8 Blocks 5 300 600 ms ms 7 6 15 ms 8 1 0xB0 Host com mands for ISO15693 Man datory and Optional Com mands 5 26 ms 26 as co...

Page 160: ...e execution times for ISO15693 Host Commands depends on Amount of Transponders in the antenna field duration of the anticollision process The extent of the data that needs to be read or written Types of Transponders supported by the Reader Position of the Transponder at the time of the requirement Probable local electromagnetic interferences present ...

Page 161: ... on the reaction time The following diagrams shows the average value of timing behavior dependent on the number of Transponders For certain UID s the real timing can by higher or lower as show below The timing is measured inclusive of the communication time at 38 4Kbaud A modified baud rate will slightly increase the timing but the Inventory timing is mostly determine by the anticollision so you m...

Page 162: ...r is not able to read the Transponder anymore 0x02 Data False CRC16 data error at received data 0x03 Write Error Negative plausibility check of the written data Attempt to write on a read only storing area Too much distance between Transponder and Reader antenna Attempt to write in a noise area 0x04 Address Error The required data are outside of the logical or physical Transponder address area The...

Page 163: ...eserved for future use 0x16 Write Protect The configuration block is reserved for future use 0x17 Firmware activation required The firmware must be activated first using ISOStart demo program and the command Set Firmware Upgrade The update code must be ordered by Feig Electronic 1 Read the Device ID using the command 0x66 Firmware version Mode 0x80 2 Send the Device ID and the serial number of the...

Page 164: ...nd 7 9 0x6E Reader Diagnostic The antenna configuration isn t correct Check the antenna cables and the anten na matching The environment is too noisy The RF power doesn t have the configured value 0x92 No valid Data There is no valid data in the Buffered Read Mode There is no Transponder in the antenna field The VALID TIME 27 hasn t elapsed for Transponders in the antenna field 0x93 Data Buffer Ov...

Page 165: ...ged 0x13 The specified block was not successfully programmed 0x14 The specified block was not successfully locked 0xA0 0xDF Custom command error codes all others reserved for future use Error Code for ISO18000 3M3 Transponder Hex value Response error code definition 0x03 Memory overrun The specified memory location does not exist or the EPC length field is not sup ported by the tag 0x04 Memory loc...

Page 166: ...200 56 ID ISC MRU200 U 60 ID ISC PRH101 61 ID ISC PRH101 U USB Version 62 ID ISC PRHD102 63 ID ISC PRH102 71 ID ISC PRH100 U USB Version 72 ID ISC PRH100 73 ID ISC MR100 U USB Version 74 ID ISC MR100 PR100 75 ID ISC MR200 A E 76 ID ISC MR101 A 77 ID ISC MR102 78 ID ISC MR101 U 80 ID CPR M02 81 ID CPR 02 82 ID CPR40 30 Ux 83 ID CPR40 0x Ax Cx 84 ID CPR M03 586 85 ID CPR 03 584 86 ID CPR30 87 ID CPR...

Page 167: ... Read Data The setting LSB first and MSB first gives the direction of the received data bytes ISO15693 Host Command DB Size of the Transponder 4 bytes ISO15693 Host Command DB Size of the Transponder 8 bytes FEIG ELECTRONIC GmbH Page 167 of 173 H20411 0e ID B docx ...

Page 168: ...0 9 1 4 1 CFG_ACCESS AccessProtection Lock_CFG13 Expert 0 9 1 5 1 CFG_ACCESS AccessProtection Lock_CFG14 Expert 0 9 1 6 1 CFG_ACCESS AccessProtection Lock_CFG15 Expert 0 9 1 7 1 CFG_ACCESS AccessProtection Lock_CFG16 Expert 0 10 1 0 1 CFG_ACCESS AccessProtection Lock_CFG17 Expert 0 10 1 1 1 CFG_ACCESS AccessProtection Lock_CFG18 Expert 0 10 1 2 1 CFG_ACCESS AccessProtection Lock_CFG19 Expert 0 10 ...

Page 169: ... Expert 4 12 1 ISO Blocksize DB Blocksize Transponder HF ISO_15693 Miscellaneous ReadOption BlockSize Expert 4 13 1 0 5 ISO Blocksize Blocksize Transponder HF ISO_15693 Miscellaneous ReadOption BlockSizeSelection Expert 4 13 1 5 1 ISO Blocksize Read Mode Transponder HF ISO_15693 Miscellaneous ReadOption ReadMode Expert 4 13 1 6 2 Anticollision Transponder Anticollision Enable 5 11 1 2 1 FUJITSU FA...

Page 170: ...MER OperatingMode ScanMode DataSelector Time 11 0 1 5 1 TR DATA1 TIMER OperatingMode BufferedReadMode DataSelector Time 11 0 1 5 1 TR DATA1 TIMER OperatingMode NotificationMode DataSelector Time 11 0 1 5 1 TR DATA2 RSSI OperatingMode BufferedReadMode DataSelector RSSI 11 1 1 4 1 TR DATA2 RSSI OperatingMode NotificationMode DataSelector RSSI 11 1 1 4 1 TR DATA 3 COM Prefix OperatingMode ScanMode Da...

Page 171: ...Miscellaneous TransponderIdentification DataBlockNo Expert 12 3 2 TR_ID TR ID DB N OperatingMode Miscellaneous TransponderIdentification NoOfDataBlocks Expert 12 5 1 DB USE DB FORMAT OperatingMode ScanMode DataFormat Format 13 0 1 0 4 DB USE SEP CHAR OperatingMode ScanMode DataFormat SeparationChar 13 1 1 DB USE SEP USR OperatingMode ScanMode DataFormat UserSeparationChar 13 2 1 DB USE END CHAR Op...

Page 172: ...F ISO_15693_ICode1 ErrorHandling WeakCollision Expert 20 7 1 0 1 IGNORE ERROR ISO18000 3M3 AirInterface Miscellaneous HF ISO_18000_3M3 ErrorHandling WeakCollision Expert 20 7 1 1 1 S_MASK_LGT Transponder HF ISO_18000_3M3 SelectionMask No1 MaskLength 22 0 1 S_MODE Transponder HF ISO_18000_3M3 SelectionMask No1 Bank 22 1 1 0 2 S_START_POINTER Transponder HF ISO_18000_3M3 SelectionMask No1 FirstBit 2...

Page 173: ...FEIG ELECTRONIC GmbH Page 173 of 173 H20411 0e ID B docx DEST IP PORT NUMBER OperatingMode NotificationMode Transmission Destination PortNumber 49 11 2 HOLD Time OperatingMode NotificationMode Transmission Destination ConnectionHoldTime 49 13 1 ...

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