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Feig Electronic OBID i-scan ID ISC.MR102 Manual
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Feig Electronic OBID i-scan ID ISC.MR102 Manual

Standard reader
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MANUAL
ID ISC.MR102
Standard Reader
from Firmware-Version 2.10 or higher
final – public (B)
2018-07-24 – H01113-4e-ID-B.docx

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Summary of Contents for Feig Electronic OBID i-scan ID ISC.MR102

  • Page 1 MANUAL ID ISC.MR102 Standard Reader from Firmware-Version 2.10 or higher final – public (B) 2018-07-24 – H01113-4e-ID-B.docx...
  • Page 2 FEIG ELECTRONIC call explicit attention that devices which are subject of this document are not designed with components and testing methods for a level of reliability suitable for use in or in connection with surgical implants or as critical components in any life support systems whose failure to perform can reasonably be expected to cause significant injury to a human.
  • Page 3  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). FEIG ELECTRONIC GmbH Page 3 of 153 H01113-4e-ID-B.docx...
  • Page 4 4.8. CFG7 - 10: Reserved ....................... 39 4.9. CFG11 Read Mode Data ....................40 4.10. CFG12: Read Mode - Filter .................... 44 4.11. CFG13 Scan Mode ......................45 4.12. CFG14-15: Reserved...................... 48 4.13. CFG16: Persistence Reset .................... 49 FEIG ELECTRONIC GmbH Page 4 of 153 H01113-4e-ID-B.docx...
  • Page 5 6.10. [0x6E] Reader Diagnostic ..................... 76 6.11. [0x72] Set Output ......................78 6.12. [0x85] Set System Timer ....................80 6.13. [0x86] Get System Timer ....................80 6.14. [0xA0] Reader-Login ...................... 81 7. Protocols for ISO15693 Host Commands FEIG ELECTRONIC GmbH Page 5 of 153 H01113-4e-ID-B.docx...
  • Page 6 8.3.6. Infineon (My-d Light) ....................120 8.3.7. NXP (I-Code SLI) ..................... 121 8.3.8. NXP (I-Code SLI-S)....................122 8.3.9. NXP (I-Code SLI-L) ....................123 8.3.10. NXP (I-Code SLIX) ....................124 8.3.11. NXP (I-Code SLIX-S) .................... 125 FEIG ELECTRONIC GmbH Page 6 of 153 H01113-4e-ID-B.docx...
  • Page 7 ANNEX H: Examples for Read Data ................... 149 ISO15693 Host Command (DB-Size of the Transponder = 4 bytes)........149 ISO15693 Host Command (DB-Size of the Transponder = 8 bytes)........149 ANNEX I: Labeling of configuration parameter ..............150 FEIG ELECTRONIC GmbH Page 7 of 153 H01113-4e-ID-B.docx...
  • Page 8 Although this device doesn't exceed the valid limits for electromagnetic fields you should keep a minimum distance of 25 cm between the device and your cardiac pacemaker and not stay in an immediate proximity of the device respective the antenna for some time. FEIG ELECTRONIC GmbH Page 8 of 153 H01113-4e-ID-B.docx...
  • Page 9 Get Reader Info, new Hardware Version 16.02.18 ST25 Transponder implemented CFG1: HID Delay 06.07.18 CFG20: RF-ON Holdtime 06.07.18 Reader Diagnostic Mode 0x01: Temperature 06.07.18 Extended Get System Information 06.07.18 Extended Get Multiple Block Security Status 06.07.18 FEIG ELECTRONIC GmbH Page 9 of 153 H01113-4e-ID-B.docx...
  • Page 10 Most Significant Byte Number Output Read / Write Access Read Relay Radio Frequency RSSI Received Signal Strength Indicator Real Time Clock Table Transponder Timeslot Unique Identifier (read only Serial Number) Write Only Access Write FEIG ELECTRONIC GmbH Page 10 of 153 H01113-4e-ID-B.docx...
  • Page 11 Host (Terminal / PC / ..) Reader  parameter- / control command parameter received and stored / control command processed  status / error status data  FEIG ELECTRONIC GmbH Page 11 of 153 H01113-4e-ID-B.docx...
  • Page 12 Transponder data in Reader field   write data to Transponder with UID Transponder with correct UID in antenna field ?  OK status status = no Transponder in Reader field  FEIG ELECTRONIC GmbH Page 12 of 153 H01113-4e-ID-B.docx...
  • Page 13 = no Tran- Transponder read sponder data in Reader field   write data Transponder in antenna field ?  OK status status = no Tran- sponder in Reader field  FEIG ELECTRONIC GmbH Page 13 of 153 H01113-4e-ID-B.docx...
  • Page 14 / status = Transponder read no Transponder data in Reader field   write data selected Transponder in antenna field ?  OK status status = no Transponder in Reader field  FEIG ELECTRONIC GmbH Page 14 of 153 H01113-4e-ID-B.docx...
  • Page 15 2 Transponder in detection range UID and data block should be read: UID1 data1 UID2 data2 Com-Prefix (optional) SCAN-LOCK-TIME UID: Serial-Number. (fix) time to the next new Transponder reading data: data blocks (free programmable) Separation character (optional) End character (optional) FEIG ELECTRONIC GmbH Page 15 of 153 H01113-4e-ID-B.docx...
  • Page 16 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 read operations are available with the Scan Mode or Notification Mode. FEIG ELECTRONIC GmbH Page 16 of 153 H01113-4e-ID-B.docx...
  • Page 17 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. FEIG ELECTRONIC GmbH Page 17 of 153 H01113-4e-ID-B.docx...
  • Page 18 2 Byte Parameter ALENGTH. ALENGTH (n = 8...65535): Number of protocol bytes including STX, ALENGTH and CRC16 LENGTH (n = 6...255): Standard Protocol-Length (up to 255 Byte) Number of protocol bytes including LENGTH and CRC16. FEIG ELECTRONIC GmbH Page 18 of 153 H01113-4e-ID-B.docx...
  • Page 19 CRC16: Cyclic redundancy check of the protocol bytes from 1 to n-2, as specified by CCITT-CRC16 Polynom: + 1 (0x8408) Start Value: 0xFFFF Direction: Backward see ANNEX E: Index of Status Bytes FEIG ELECTRONIC GmbH Page 19 of 153 H01113-4e-ID-B.docx...
  • Page 20 /* 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); FEIG ELECTRONIC GmbH Page 20 of 153 H01113-4e-ID-B.docx...
  • Page 21 Malfunctions may occur if parameters are configured outside their described range or if unspecified parameters have been changed!  A firmware update resets the EEPROM to default settings and the Reader goes into the error status “EE-Init-mode”. FEIG ELECTRONIC GmbH Page 21 of 153 H01113-4e-ID-B.docx...
  • Page 22 Changing of this parame- ter only becomes effective this may cause faulty operation of the Reader. after writing / saving this configuration block EEPROM and a Reader reset FEIG ELECTRONIC GmbH Page 22 of 153 H01113-4e-ID-B.docx...
  • Page 23 The Bit in CFG_NO defines if the access to the configuration block is free or if the use should login to the Reader to get access to the configuration block. b0  Access if free b1  Access need a login FEIG ELECTRONIC GmbH Page 23 of 153 H01113-4e-ID-B.docx...
  • Page 24 32-bit password, the "READER-ID". This means that only after a "Login" with a valid READER-ID with the command 6.14. [0xA0] Reader-Login can configuration parameters in the EEPROM of the Reader may be read and changed in the EEPROM of the Reader. FEIG ELECTRONIC GmbH Page 24 of 153 H01113-4e-ID-B.docx...
  • Page 25  The baud rate is used for both interface port’s (RS232 and RS484) of the ID ISC.MR102. A reasonableness check is performed by writing this parameter to the Reader. If an error occurs the Read- er answers with STATUS = 0x11. FEIG ELECTRONIC GmbH Page 25 of 153 H01113-4e-ID-B.docx...
  • Page 26 TR-RESPONSE-TIME 0...65535 * 5 ms A reasonableness check is performed by writing this parameter to the Reader. If an error occurs the Read- er answers with STATUS = 0x11. FEIG ELECTRONIC GmbH Page 26 of 153 H01113-4e-ID-B.docx...
  • Page 27 HID_DELAY: By means of this parameter the data output in Scan-Mode (HID) can be delayed if used with slow host systems. HID_DELAY Delay 1 ms 5 ms 10 ms 30 ms FEIG ELECTRONIC GmbH Page 27 of 153 H01113-4e-ID-B.docx...
  • Page 28 Scan Mode NF-E: By setting of this bit the Notification Mode can be enabled b00: b11: The following table lists the bit combinations for the reader modes: Host-Mode Scan Mode Notification Mode FEIG ELECTRONIC GmbH Page 28 of 153 H01113-4e-ID-B.docx...
  • Page 29 The Readers ID ISC.MR102 dispose of a two colored LED (red / green). The color or- ange can be obtained by combining both basic colors red and green. Colors green Color: green orange FEIG ELECTRONIC GmbH Page 29 of 153 H01113-4e-ID-B.docx...
  • Page 30 By means of the two bytes "IDLE-FLASH" and "ACTIV-FLASH" the signal transmitter may be provided with a flashing frequency for idle and active position. Bit: Function: Bit combination flashing frequency 1 Hz 2 Hz 4 Hz 8 Hz FEIG ELECTRONIC GmbH Page 30 of 153 H01113-4e-ID-B.docx...
  • Page 31 If a Transponder was detected, the transmitter and the duration can be set by the bytes ACTIV- STATE and ACTIV-FLASH. Each signal transmitter (LED) may be activated temporarily limited. Signal transmitter time range ACTIV-GRN-TIME 0...255 x 100 ms ACTIV-RED-TIME 0...255 x 100 ms FEIG ELECTRONIC GmbH Page 31 of 153 H01113-4e-ID-B.docx...
  • Page 32 - ISO15693 + I-Code1 + ISO18000-3M3(Upgrade Code required) A reasonableness check is performed by writing this parameter to the Reader. If an error occurs the Read- er answers with STATUS = [0x11]. FEIG ELECTRONIC GmbH Page 32 of 153 H01113-4e-ID-B.docx...
  • Page 33 Reader provides a tag detect signal on the antenna output for an external LED, e.g. for ID ISC.ANTS370/270-A. (See also Mounting Instruc- tion) disabled enabled flashing of blue LED if a tag is detected FEIG ELECTRONIC GmbH Page 33 of 153 H01113-4e-ID-B.docx...
  • Page 34 DATACODING - do not use - Fast Mode (1 / 4) - do not use - SUB-CARRIER ASK (one sub-carrier) - do not use - DATA-RATE - do not use - high FEIG ELECTRONIC GmbH Page 34 of 153 H01113-4e-ID-B.docx...
  • Page 35 If WR-OPTION is automatically set, the Reader sets the WR-OPTION to 0, if the ISO15693 Host Command is in non-addressed mode ISO-CMD-OPTION: (only ISO15693 Transponder driver) Bit: Function BREAK BREAK (Transponder.HF.ISO_15693.Miscellaneous.CommandBreak) Complete timeslot length at “NO Transponder” FEIG ELECTRONIC GmbH Page 35 of 153 H01113-4e-ID-B.docx...
  • Page 36 A value of 0x00 will be automatically set to a block size of 4byte. Blocksize:…( Transponder.HF.ISO_15693.Miscellaneous.ReadOption.) Automatic (If transponder is known) Manuel (As specified in DB-Blocksize) Read Mode:…( Transponder.HF.ISO_15693.Miscellaneous.ReadOption.ReadMode) b00: Automatic Mode (If transponder is known) Single Read Multiple Read FEIG ELECTRONIC GmbH Page 36 of 153 H01113-4e-ID-B.docx...
  • Page 37 Anticollison: (ISO15693 / I-Code 1 Transponders)( Transponder.Anticollision.Enable) anticollision disabled anticollision enabled A reasonableness check is performed by writing this parameter to the Reader. If an error occurs the Read- er answers with STATUS = 0x11. FEIG ELECTRONIC GmbH Page 37 of 153 H01113-4e-ID-B.docx...
  • Page 38 0x00 0x00 0x00 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. FEIG ELECTRONIC GmbH Page 38 of 153...
  • Page 39 4.8. CFG7 - 10: Reserved The configuration block CFG7-10 are reserved for future use. Byte Contents 0x00 0x00 0x00 0x00 0x00 0x00 0x00 Default Byte Contents 0x00 0x00 0x00 0x00 0x00 0x00 0x00 Default FEIG ELECTRONIC GmbH Page 39 of 153 H01113-4e-ID-B.docx...
  • Page 40 Byte Order DB (OperatingMode.NotificationMode.DataSource.ByteOrderOfData) (OperatingMode.ScanMode.DataSource.ByteOrderOfData) MSB first LSB first TIMER (OperatingMode.NotificationMode.DataSelector.Time) (OperatingMode.ScanMode.DataSelector.Time) no internal system timer internal system timer will be active see chapter 6.12. [0x85] Set System Timer for details). FEIG ELECTRONIC GmbH Page 40 of 153 H01113-4e-ID-B.docx...
  • Page 41 If this bit is set the reader will read out all memory blocks from the selected Memory BANK. Reader reads out the memory blocks according to the settings in DB-ADR, DB-N, D-Start and D-LGT. Reader reads out all blocks of the selected memory bank FEIG ELECTRONIC GmbH Page 41 of 153 H01113-4e-ID-B.docx...
  • Page 42 The maximum number of data block bytes is limited to 64bytes A plausibility check is performed by writing this parameter to the Reader. If an error occurs the Reader answers with STATUS = [0x11]. FEIG ELECTRONIC GmbH Page 42 of 153 H01113-4e-ID-B.docx...
  • Page 43 Identification Manual ID ISC.MR102 Example: data block Byte Data 0x01 0x23 0x45 0x67 0x89 0xAB 0xCD 0xEF D-START = 1 D-LGT = 4 Output Data 0x23 0x45 0x67 0x89 FEIG ELECTRONIC GmbH Page 43 of 153 H01113-4e-ID-B.docx...
  • Page 44 Serial Number as data source, the ID-DB-ADR will be ignored. TR-ID-DB-N (OperatingMode.Miscellaneous.TransponderIdentification. NoOfDataBlocks) Sets the number of data blocks to be read for Transponder identification. If ID- SOURCE selects the Serial Number as data source, the ID-DBN will be ignored. FEIG ELECTRONIC GmbH Page 44 of 153 H01113-4e-ID-B.docx...
  • Page 45 0x30 b0001 0x31 b0010 0x32 b0011 0x33 b0100 0x34 b0101 0x35 b0110 0x36 b0111 0x37 b1000 0x38 b1001 0x39 b1010 0x41 b1011 0x42 b1100 0x43 b1101 0x44 b1110 0x45 b1111 0x46 FEIG ELECTRONIC GmbH Page 45 of 153 H01113-4e-ID-B.docx...
  • Page 46 Function USER CR+LF ASCII CR+LF 0x0D and 0x0A 0x0A 0x0D 0x09 ‘;’ 0x3B ‘,’ 0x2C ‘ ‘ 0x20 USER user defined in SEP-USR none 0x00 Note: Only one option could be selected. FEIG ELECTRONIC GmbH Page 46 of 153 H01113-4e-ID-B.docx...
  • Page 47 HEADER-USR1 + 2 + 3 + 4 Example of scan data: Separation Separation Separation Timer COM-ADR Header Blocks Character Character Character COM-ADR SEP-CHAR USR1 USR2 USR3 USR4 SEP-CHAR SEP-CHAR Timer END Character USR1 USR2 USR3 FEIG ELECTRONIC GmbH Page 47 of 153 H01113-4e-ID-B.docx...
  • Page 48 4.12. CFG14-15: Reserved The configuration block CFG14-15 is reserved for future use. Byte Contents 0x00 0x00 0x00 0x00 0x00 0x00 0x00 Default Byte Contents 0x00 0x00 0x00 0x00 0x00 0x00 0x00 Default FEIG ELECTRONIC GmbH Page 48 of 153 H01113-4e-ID-B.docx...
  • Page 49 Transponders at the antenna port. Timer ticks = 5ms Maximum timer value = 5ms x 65534[0xFFFE] = 5,46125 min. The value 65535 [0xFFFF] indicates that no persistence reset is performed by the Reader FEIG ELECTRONIC GmbH Page 49 of 153 H01113-4e-ID-B.docx...
  • Page 50 4.14. CFG17-19: Reserved The configuration blocks CFG17-19 are reserved for future use. Byte Contents 0x00 0x00 0x00 0x00 0x00 0x00 0x00 Default Byte Contents 0x00 0x00 0x00 0x00 0x00 0x00 0x00 Default FEIG ELECTRONIC GmbH Page 50 of 153 H01113-4e-ID-B.docx...
  • Page 51 RF-ON HOLDTIME: Defines the time after the RF-Field will switch off automatically after tag communication. Unit: 100ms 0x00: RF-Field will not switch off FEIG ELECTRONIC GmbH Page 51 of 153 H01113-4e-ID-B.docx...
  • Page 52 4.16. CFG21: Reserved The configuration blocks CFG21 are reserved for future use. Byte Contents 0x00 0x00 0x00 0x00 0x00 0x00 0x00 Default Byte Contents 0x00 0x00 0x00 0x00 0x00 0x00 0x00 Default FEIG ELECTRONIC GmbH Page 52 of 153 H01113-4e-ID-B.docx...
  • Page 53 If S_MASK_LGT is 0 the selection mask is disabled S_MODE: (Transponder.HF.ISO_18000_3M3.SelectionMask…… Bit: Function S_BANK S_BANK: (Transponder.HF.ISO_18000_3M3.SelectionMask.No1.Bank) Defines whether mask applies to EPC, TID, User memory reserved EPC memory bank TID memory bank User memory bank FEIG ELECTRONIC GmbH Page 53 of 153 H01113-4e-ID-B.docx...
  • Page 54 0xA02A 0x0510 0x15A0 0x1234 ..--> EPC 2 CRC16 0x3000 0xA02A 0x0510 0x15A0 0x6789 ..--> EPC 3 CRC16 0x3000 0xA02A 0x0510 0x15A1 0x6789 ..S_MASK 0x3000 0xA02A 0x0510 0x15A0 checked checked FEIG ELECTRONIC GmbH Page 54 of 153 H01113-4e-ID-B.docx...
  • Page 55 Identification Manual ID ISC.MR102 18000-3M3 Memory specification: FEIG ELECTRONIC GmbH Page 55 of 153 H01113-4e-ID-B.docx...
  • Page 56 4.18. CFG24-32: Reserved The configuration blocks CFG24-32 are reserved for future use. Byte Contents 0x00 0x00 0x00 0x00 0x00 0x00 0x00 Default Byte Contents 0x00 0x00 0x00 0x00 0x00 0x00 0x00 Default FEIG ELECTRONIC GmbH Page 56 of 153 H01113-4e-ID-B.docx...
  • Page 57 Defines the length of the LAN-Hostname 0x00 disabled 0x01 1 Byte 0x02 2 Bytes … 0x1B 27 Bytes NOTE: The LAN-Hostname can have a maximum length of 27 Bytes. LAN-HOSTNAME: (HostInterface.LAN.Hostname.Name) Defines the LAN-Hostname FEIG ELECTRONIC GmbH Page 57 of 153 H01113-4e-ID-B.docx...
  • Page 58 4.20. CFG35-39: Reserved The configuration blocks CFG35-39 are reserved for future use. Byte Contents 0x00 0x00 0x00 0x00 0x00 0x00 0x00 Default Byte Contents 0x00 0x00 0x00 0x00 0x00 0x00 0x00 Default FEIG ELECTRONIC GmbH Page 58 of 153 H01113-4e-ID-B.docx...
  • Page 59 Defines the port number 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. FEIG ELECTRONIC GmbH Page 59 of 153 H01113-4e-ID-B.docx...
  • Page 60 LAN-OPTIONS: Bit: Host- Auto KEEP- Function: DHCP Speed Duplex name Negotiation ALIVE KEEP-ALIVE: (HostInterface.LAN.Keepalive.Enable) Keep-Alive option disabled. Keep-Alive option enabled. AUTO-NEGOTIATION: ((HostInterface.LAN.Autonegotiation.Disable) enabled disabled HOST-NAME: ((HostInterface.LAN.Hostname.Enable) disabled enabled DUPLEX: (HostInterface.LAN.Autonegotiation.Duplex) half full FEIG ELECTRONIC GmbH Page 60 of 153 H01113-4e-ID-B.docx...
  • Page 61  Changing of this parameter only becomes effective after writing / saving this configura- tion block to EEPROM and a [0x64] System Reset of the RFC. FEIG ELECTRONIC GmbH Page 61 of 153 H01113-4e-ID-B.docx...
  • Page 62 (OperatingMode.NotificationMode.Transmission.Enable_Acknowledge) Notification must not be acknowledged Notification must be acknowledged with protocol [0x32] Clear Data Buffer TIME-TRIGGERED-TIME: (OperatingMode.NotificationMode.Transmission.TimeTriggeredTime) Defines the cycle time in time-triggered mode. max. time period TIME-TRIGGERED-TIME 0...255 * 1s FEIG ELECTRONIC GmbH Page 62 of 153 H01113-4e-ID-B.docx...
  • Page 63 Defines the cycle time for keep alive notification. max. time period KEEP-ALIVE-TIME 0...65535 * 1s DEST-IP-ADDRESS: (OperatingMode.NotificationMode.Transmission.Destination.IPv4.IPAddress) Defines the destination IP address. DEST-IP-PORT-NUMBER: (OperatingMode.NotificationMode.Transmission.Destination.PortNumber) Defines the destination port number. HOLD-Time: (OperatingMode.NotificationMode.Transmission.Destination.ConnectionHoldTime) Defines the connection hold time. FEIG ELECTRONIC GmbH Page 63 of 153 H01113-4e-ID-B.docx...
  • Page 64 4.24. CFG63: Customer Parameter The configuration block CFG63 is used for customer parameter. Byte Contents 0x00 0x00 0x00 0x00 0x00 0x00 0x00 Default Byte Contents 0x00 0x00 0x00 0x00 0x00 0x00 0x00 Default FEIG ELECTRONIC GmbH Page 64 of 153 H01113-4e-ID-B.docx...
  • Page 65 14 bytes configuration block read from address CFGn in CFG-ADR. Note: A read configuration from EEPROM with reserved configuration blocks will cause an 0x15 error code. see ANNEX E: Index of Status Bytes see Chapter 4. Configuration Parameters (CFG) FEIG ELECTRONIC GmbH Page 65 of 153 H01113-4e-ID-B.docx...
  • Page 66 14 bytes configuration block stored in the configuration memory of the Reader at address CFGn. Note: A write configuration to EEPROM with reserved configuration blocks will cause an 0x16 error code. see ANNEX E: Index of Status Bytes see chapter 4. Configuration Parameters (CFG) FEIG ELECTRONIC GmbH Page 66 of 153 H01113-4e-ID-B.docx...
  • Page 67 RAM and EEPROM Notes:  A set default configuration with reserved configuration blocks will cause an error code.  It is not possible to reset the TCP/IP setting in CFG40-49 to default. FEIG ELECTRONIC GmbH Page 67 of 153 H01113-4e-ID-B.docx...
  • Page 68 This command is only available if the correct COM-ADR of the Reader is used. (Do not use 0xFF)  Do not flash the DSP-Revision G or greater with Firmwareversion’s less than 1.09. 6.5. [0x65] Get Software Version FEIG ELECTRONIC GmbH Page 68 of 153 H01113-4e-ID-B.docx...
  • Page 69  The RF-field will be switched off after a “CPU Reset”  The communication interface will be reset. see ANNEX E: Index of Status Bytes see ANNEX E: Index of Status Bytes FEIG ELECTRONIC GmbH Page 69 of 153 H01113-4e-ID-B.docx...
  • Page 70 HW-TYPE: Displays options which are supported by the Reader Hardware Bit: Function: reserved reserved reserved reserved reserved A-Power USB: non USB A-Power: reserved 1,2 Watt see ANNEX E: Index of Status Bytes FEIG ELECTRONIC GmbH Page 70 of 153 H01113-4e-ID-B.docx...
  • Page 71 Only ID ISC.MR102-E can support all three transponder types with the same firmware  Firmware for ID ISC.MR102-A/-B/-U can support ISO15693 and I-Code1 or ISO15693 and 18000-3M3. Different firmware versions are available. FEIG ELECTRONIC GmbH Page 71 of 153 H01113-4e-ID-B.docx...
  • Page 72 General hard- and firmware information's 0x80: Device-ID This Information's are necessary for some firmware updates or firmware up- grades. see ANNEX E: Index of Status Bytes see ANNEX E: Index of Status Bytes FEIG ELECTRONIC GmbH Page 72 of 153 H01113-4e-ID-B.docx...
  • Page 73 Indicates which customer firmware is licensed on the Reader. FW_L: Indicates which Firmware version is licensed on the Reader. TR_DRV_L: Indicates which Transponder drivers are licensed on the Reader. FNC_L Indicates which optional functions are licensed on the Reader. FEIG ELECTRONIC GmbH Page 73 of 153 H01113-4e-ID-B.docx...
  • Page 74 STATUS (0x02) ALENGTH ALENGTH 0x00 RF-Field of Reader antenna is OFF 0x01 RF-Field of Reader antenna is ON see ANNEX E: Index of Status Bytes see ANNEX E: Index of Status Bytes FEIG ELECTRONIC GmbH Page 74 of 153 H01113-4e-ID-B.docx...
  • Page 75 [0x6D] CRC16 STATUS (0x02) ALENGTH ALENGTH LEVEL NOISE-LEVEL: Byte 9,10 11,12 NOISE-LEVEL min. NL avg. NL max. NL Value min.NL, avg.NL and max.NL in mV. see ANNEX E: Index of Status Bytes FEIG ELECTRONIC GmbH Page 75 of 153 H01113-4e-ID-B.docx...
  • Page 76 Listing of detail information for STATUS = 0x84. DATA: Response for Reader Diagnostic Modes MODE = 0x01: FLAGS A FLAGS B FLAGS A: Bit: Function: TEMP False < |Z| > NOISE ALARM Power FLAGS B: Bit: Function: Power Error FEIG ELECTRONIC GmbH Page 76 of 153 H01113-4e-ID-B.docx...
  • Page 77 Noise to high antenna, cable Short circuit on antenna output Check cable and DC Power Error and DC < 1V antenna temp  alarm level TEMP ALARM temp < alarm level 100°C FEIG ELECTRONIC GmbH Page 77 of 153 H01113-4e-ID-B.docx...
  • Page 78 Function: OUT-Typ OUT-Number OUT-Typ: b001 b000 Output (blue LED on ID ISC.SPAD or ID ISC.ANTS370270) OUT-Number: b0001 LED green or Output (blue LED on ID ISC.SPAD or ID ISC.ANTS370270) b0010 LED red FEIG ELECTRONIC GmbH Page 78 of 153 H01113-4e-ID-B.docx...
  • Page 79 In order to reset a continuously active time, OUT-TIME = 1 has to be sent to the Reader, which effects a change to the idle status after 100 ms.  The continuous activation is being set back after a reset or a power failure. FEIG ELECTRONIC GmbH Page 79 of 153 H01113-4e-ID-B.docx...
  • Page 80 [0x86] STATUS TIMER CRC16 (0x02) ALENGTH ALENGTH TIMER: Byte 9,10 TIMER 0...23 0...59 0...59999 Note: The internal system timer is not a real-time clock (RTC) and the accuracy cannot be guaran- teed. FEIG ELECTRONIC GmbH Page 80 of 153 H01113-4e-ID-B.docx...
  • Page 81 4.1. CFG0: Passwords. NOTE:  A Reader-Login with wrong READER-ID cause a "Logout".  A "Logout" can be effected via the command 6.4. [0x64] System Reset. see ANNEX E: Index of Status Bytes FEIG ELECTRONIC GmbH Page 81 of 153 H01113-4e-ID-B.docx...
  • Page 82 7.1.11. [0x2A] Lock DSFI  7.1.12. [0x2B] Get System Information  7.1.13. [0x2C] Get Multiple Block Security Status  [0xB3] EPC Commands  8.1.1. [0xB3] [0x18] Kill  8.1.2. [0xB3] [0x22] Lock FEIG ELECTRONIC GmbH Page 82 of 153 H01113-4e-ID-B.docx...
  • Page 83 Command specific request RESPONSE-DATA: Command specific response Notes:  Data is only transferred if STATUS = 0x00, 0x83, 0x94, 0x95.  These commands aren’t available if Scan-Mode, or Notification Mode is active. FEIG ELECTRONIC GmbH Page 83 of 153 H01113-4e-ID-B.docx...
  • Page 84 Bit: Function MORE MORE: new Inventory requested more data requested (IF Status 0x94 appears-> more data sets are available) DATA-SETS: Number of Transponder data sets to be transferred in this Reader response. FEIG ELECTRONIC GmbH Page 84 of 153 H01113-4e-ID-B.docx...
  • Page 85 Reader with MORE = b1.  STATUS Byte 0x94 (More Data) is displayed dependence on the Tag Typ: Tr-Type ISO15693 ISO18000-3M3 amount of Transponder setting status 0x94 > 49 >29 (with Advanced Protocol Length) FEIG ELECTRONIC GmbH Page 85 of 153 H01113-4e-ID-B.docx...
  • Page 86 This command sets one Transponder to Quiet State. REQUEST-DATA 8-15 0x02 MODE MODE: Bit: Function ADR: b001 addressed UID: Read only UID of the Transponder. Note:  This command is only available for ISO15693Transponders. FEIG ELECTRONIC GmbH Page 86 of 153 H01113-4e-ID-B.docx...
  • Page 87 Transponder memory addressing is done by the 1 byte DB-ADR Field. Transponder memory addressing is done by BANK and 2 byte DB-ADR Field UID: Read-only serial number of the Transponder. The UID is required only in the addressed mode. FEIG ELECTRONIC GmbH Page 87 of 153 H01113-4e-ID-B.docx...
  • Page 88 (TX-BUF - 10 )/(DB-Size+1)  Standard Protocol (TX-BUF - 12 )/(DB-Size+1)  Advanced Protocol ISO15693 ERROR: ISO15693 ERROR code of Transponder response. This byte is only available if STATUS = 0x95. DB-ADR-E: Block number where the error occurred. FEIG ELECTRONIC GmbH Page 88 of 153 H01113-4e-ID-B.docx...
  • Page 89 SEC-STATUS Repeated DB-N times MODE: Bit: READ_ Function COMPLETE EXT_ADR UID_LF _BANK ADR: b000 non-addressed b001 addressed b010 selected SEC: SEC-STATUS always = 0x00 security status of followed data block in SEC-STATUS FEIG ELECTRONIC GmbH Page 89 of 153 H01113-4e-ID-B.docx...
  • Page 90 Memory bank of the Transponder which will be accessed by the Reader Bit: Function A_FLAG BANK_NR BANK_NR: In case of ISO18000-3M3 Transponder BANK_NR is defined as follows: reserved EPC memory bank TID memory bank User memory bank FEIG ELECTRONIC GmbH Page 90 of 153 H01113-4e-ID-B.docx...
  • Page 91 - A read from 1 block uses a Read Single Block command to the ISO15693 Transponder. - If a ISO15693 Transponder does not support Read Multiple Blocks commands several Read Single Block commands are used for this Transponder. FEIG ELECTRONIC GmbH Page 91 of 153 H01113-4e-ID-B.docx...
  • Page 92 UID field has a fixed length of 8 byte, from byte 6 to byte 13. The protocol includes the parameter UID_LNG. The UID has a variable length as defined in UID_LNG. used in extended address mode FEIG ELECTRONIC GmbH Page 92 of 153 H01113-4e-ID-B.docx...
  • Page 93 Access password which is used to access to the secured state of the Tag. DB-ADR: First block number to be read. Depending on EXT_ADR First block can be any value be- tween 0 and 255 or 0 and 65535. FEIG ELECTRONIC GmbH Page 93 of 153 H01113-4e-ID-B.docx...
  • Page 94 – If a Transponder does not support Write Multiple Blocks commands several Write Single Block commands are used for this Transponder.  I-Code1: A write command on I-Code1 Transponders can only be performed in the addressed mode. FEIG ELECTRONIC GmbH Page 94 of 153 H01113-4e-ID-B.docx...
  • Page 95 ISO15693 ERROR: ISO15693 ERROR code of Transponder response. This byte is only available if STATUS = 0x95. See: ANNEX F: Transponder Error Codes Note:  This command is only available for ISO15693 Transponders. FEIG ELECTRONIC GmbH Page 95 of 153 H01113-4e-ID-B.docx...
  • Page 96 ISO15693 ERROR: ISO15693 ERROR code of Transponder response. This byte is only available if STATUS = 0x95. See: ANNEX F: Transponder Error Codes Note:  This command is only available for ISO15693 Transponders. FEIG ELECTRONIC GmbH Page 96 of 153 H01113-4e-ID-B.docx...
  • Page 97 ISO15693 ERROR: ISO15693 ERROR code of Transponder response. This byte is only available if STATUS = 0x95. See: ANNEX F: Transponder Error Codes Note: This command is only available for ISO15693 Transponders. FEIG ELECTRONIC GmbH Page 97 of 153 H01113-4e-ID-B.docx...
  • Page 98 ISO15693 ERROR: ISO15693 ERROR code of Transponder response. This byte is only available if STATUS = 0x95. See: ANNEX F: Transponder Error Codes Note: This command is only available for ISO15693 Transponders. FEIG ELECTRONIC GmbH Page 98 of 153 H01113-4e-ID-B.docx...
  • Page 99 ISO15693 ERROR: ISO15693 ERROR code of Transponder response. This byte is only available if STATUS = 0x95. See: ANNEX F: Transponder Error Codes Note: This command is only available for ISO15693 Transponders. FEIG ELECTRONIC GmbH Page 99 of 153 H01113-4e-ID-B.docx...
  • Page 100 ISO15693 ERROR: ISO15693 ERROR code of Transponder response. This byte is only available if STATUS = 0x95. See: ANNEX F: Transponder Error Codes Note: This command is only available for ISO15693 Transponders. FEIG ELECTRONIC GmbH Page 100 of 153 H01113-4e-ID-B.docx...
  • Page 101 0: AFI field is not present 1: AFI field is present VICC memory size 0: Data field on VICC memory size is not present 1: Data field on VICC memory size is present FEIG ELECTRONIC GmbH Page 101 of 153 H01113-4e-ID-B.docx...
  • Page 102 The LSB (32bits) from the Read only Serial Number of the Transponder. AFI: Application Family Identifier. If not supported by the Transponder, this value will return 0x00. Manufacturer Code: Manufacturer specific code (see: ANNEX A: Codes of Transponder Types) FEIG ELECTRONIC GmbH Page 102 of 153 H01113-4e-ID-B.docx...
  • Page 103 Including Select state Reset to Ready is supported Get multiple block security status is supported CL Byte 2 Meaning Comment Write AFI is supported Lock AFI is supported Write DSFID is supported FEIG ELECTRONIC GmbH Page 103 of 153 H01113-4e-ID-B.docx...
  • Page 104 SecureComm crypto format is supported KeyUpdate is supported Challenge is supported If set to 1 a further Byte is transmitted 0 shall be returned Note: This command is only available for ISO15693 Transponders. FEIG ELECTRONIC GmbH Page 104 of 153 H01113-4e-ID-B.docx...
  • Page 105 UID: Read-only serial number of the Transponder. The UID is required only in the addressed mode. BANK: Memory bank of the Transponder which will be accessed by the Reader Bit: Function BANK_NR FEIG ELECTRONIC GmbH Page 105 of 153 H01113-4e-ID-B.docx...
  • Page 106 ISO15693 ERROR code of Transponder response. This byte is only available if STATUS = 0x95. See: ANNEX F: Transponder Error Codes SEC-STATUS: Block security status . Note: This command is only available for ISO15693 Transponders FEIG ELECTRONIC GmbH Page 106 of 153 H01113-4e-ID-B.docx...
  • Page 107 Host  Reader 7...n-2 n-1,n 0x02 COM-ADR [0xB3] STATUS RESPONSE CRC16 -DATA REQUEST-DATA: EPC specific request RESPONSE-DATA: EPC specific response Notes:  Data is only transferred if STATUS = 0x00, 0x83, 0x94, 0x95. FEIG ELECTRONIC GmbH Page 107 of 153 H01113-4e-ID-B.docx...
  • Page 108 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: EPC of the Transponder. The EPC is required only in the addressed mode. FEIG ELECTRONIC GmbH Page 108 of 153 H01113-4e-ID-B.docx...
  • Page 109 Bit: Asserted Function 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 FEIG ELECTRONIC GmbH Page 109 of 153 H01113-4e-ID-B.docx...
  • Page 110 Length of LOCK_DATA Field LOCK_DATA: Lock data which will be written to the Tag. A_PW_LNG: Length of Access Password. A_PW: Access password which is used to access to the secured state of the Tag. FEIG ELECTRONIC GmbH Page 110 of 153 H01113-4e-ID-B.docx...
  • Page 111 – 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 FEIG ELECTRONIC GmbH Page 111 of 153 H01113-4e-ID-B.docx...
  • Page 112 302s. If there is no response within 20ms the command sends back Status “no Transponder” 0x01 b011 = write request with Option “1” The Reader tries to sample the response after CMD-RES-DELAY. If see ANNEX E: Index of Status Bytes FEIG ELECTRONIC GmbH Page 112 of 153 H01113-4e-ID-B.docx...
  • Page 113 Reader should code the data in the RF forward link and decode the data in the RF return link. TxCRCEn: A CRC is calculated over the transmitted data and the CRC byte(s) are appended to the data stream No CRC is inserted/transmitted FEIG ELECTRONIC GmbH Page 113 of 153 H01113-4e-ID-B.docx...
  • Page 114 The response data ever contains the in RSP-LENGTH defined number of data bytes. Note: This command is only available for ISO15693 Transponders. This command is not available if the Scan Mode is switched on. FEIG ELECTRONIC GmbH Page 114 of 153 H01113-4e-ID-B.docx...
  • Page 115 The WR-OPTION will be set automatically by the FEIG Readers if the WR-OPTION parameter is set to “00: automatically set”. Up to two blocks of data can be written for one request. 8.3.2. Fujitsu (MB89R118) FEIG ELECTRONIC GmbH Page 115 of 153 H01113-4e-ID-B.docx...
  • Page 116 The WR-OPTION will be set automatically by the FEIG Readers if the WR-OPTION parameter is set to “00: automatically set”. Up to two blocks of data can be written for one request. FEIG ELECTRONIC GmbH Page 116 of 153 H01113-4e-ID-B.docx...
  • Page 117 “CFG4 Transponder Parameters”. Up to two blocks of data can be written for one re- quest.  10% Modulation and ASK SUB-CARRIER and Datacoding 1 of 4 must be configured in the reader. FEIG ELECTRONIC GmbH Page 117 of 153 H01113-4e-ID-B.docx...
  • Page 118 The WR-OPTION will be set automatically by the FEIG Readers if the WR-OPTION parameter is set to “00: automatically set”. Up to two blocks of data can be written for one request. FEIG ELECTRONIC GmbH Page 118 of 153 H01113-4e-ID-B.docx...
  • Page 119     0x2C Status  The WR-OPTION will be set automatically by the FEIG Readers if the WR-OPTION parameter in “CFG4 Tran- sponder Parameters” is set to “00: automatically set”. FEIG ELECTRONIC GmbH Page 119 of 153 H01113-4e-ID-B.docx...
  • Page 120 Parameters” is set to “00: automatically set”. 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“. FEIG ELECTRONIC GmbH Page 120 of 153 H01113-4e-ID-B.docx...
  • Page 121 0x2C Get Multiple Block Security Status  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”. FEIG ELECTRONIC GmbH Page 121 of 153 H01113-4e-ID-B.docx...
  • Page 122 “CFG4 Transponder Parameters” is set to “00: automatically set”. 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“. FEIG ELECTRONIC GmbH Page 122 of 153 H01113-4e-ID-B.docx...
  • Page 123 “ CFG4 Transponder Parameters” is set to “00: automatically set”. 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“. FEIG ELECTRONIC GmbH Page 123 of 153 H01113-4e-ID-B.docx...
  • Page 124 “ CFG4 Transponder Parameters ” is set to “00: automatically set”. Reading of one block in non addressed mode is only possible, if parameter “Read Mode” in “CFG4 Transponder Parameters” is set to “b01: Single Read“. FEIG ELECTRONIC GmbH Page 124 of 153 H01113-4e-ID-B.docx...
  • Page 125 “ CFG4 Transponder Parameters ” is set to “00: automatically set”. Reading of one block in non addressed mode is only possible, if parameter “Read Mode” in “CFG4 Transponder Parameters” is set to “b01: Single Read“. FEIG ELECTRONIC GmbH Page 125 of 153 H01113-4e-ID-B.docx...
  • Page 126 “ CFG4 Transponder Parameters ” is set to “00: automatically set”. Reading of one block in non addressed mode is only possible, if parameter “Read Mode” in “CFG4 Transponder Parameters” is set to “b01: Single Read“. FEIG ELECTRONIC GmbH Page 126 of 153 H01113-4e-ID-B.docx...
  • Page 127 Get Multiple Block Security Status  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”. FEIG ELECTRONIC GmbH Page 127 of 153 H01113-4e-ID-B.docx...
  • Page 128 0xB0 0x01 Inventory    0xB0 0x23 Read Multiple Blocks    0xB0 0x24 Write Multiple Blocks   0xB3 0x18 Kill   0xB3 0x22 Lock 18000-3M3 Memory specification: FEIG ELECTRONIC GmbH Page 128 of 153 H01113-4e-ID-B.docx...
  • Page 129 ”CFG4 Transponder Parameter” is set to “00: automatically set”. Reading of LRIS2k in non addressed mode is only possible, if parameter “Read  Mode” is set to “01”: Single Read“ in CFG4.  FEIG ELECTRONIC GmbH Page 129 of 153 H01113-4e-ID-B.docx...
  • Page 130 ”CFG4 Transponder Parameter” is set to “00: automatically set”. Reading of LRIS2k in non addressed mode is only possible, if parameter “Read Mode” is set to “01”: Single Read“ in CFG4. FEIG ELECTRONIC GmbH Page 130 of 153 H01113-4e-ID-B.docx...
  • Page 131 ISC.LR2000/2500) is set to “00: automatically set” (see the according System Manual).  Each sector (32 blocks) must be read separately. For reading data from different sectors a Read Multiple Block command for each sector must be used. FEIG ELECTRONIC GmbH Page 131 of 153 H01113-4e-ID-B.docx...
  • Page 132 Number of blocks 512 (user area: 0...511) Block size 4 byte memory organization for ST25DV04K: 4 x 32 x 4 Byte = 4kBit Number of blocks 128 (user area: 0...127) Block size 4 byte FEIG ELECTRONIC GmbH Page 132 of 153 H01113-4e-ID-B.docx...
  • Page 133 “CFG4 Transponder Parameter” is set to “00: automatically set” (see the according System Manual). Note: Reading / Writing of more than 255 data blocks is currently not supported with this reader type FEIG ELECTRONIC GmbH Page 133 of 153 H01113-4e-ID-B.docx...
  • Page 134 Single Read     0x24 Write Multiple Blocks 0x25 Select 0x26 Reset to Ready 0x27 Write AFI 0x28 Lock AFI 0x29 Write DSFID 0x2A Lock DSFID 0x2B Get System Information FEIG ELECTRONIC GmbH Page 134 of 153 H01113-4e-ID-B.docx...
  • Page 135 The WR-OPTION will be set automatically by the FEIG Readers if the WR-OPTION pa- rameter in “CFG4 General” is set to “00: automatically set”. When using the “non-addressed” mode the WR-OPTION must be set manually to “WR- OPTION = 1”. FEIG ELECTRONIC GmbH Page 135 of 153 H01113-4e-ID-B.docx...
  • Page 136 Inventory Read Multiple Blocks 0xAB Inventory Get System Infor- mation 0xAC Inventory Get Multiple Block Security Status     0xA2 Write 2 Blocks     0xA3 Lock 2 Blocks FEIG ELECTRONIC GmbH Page 136 of 153 H01113-4e-ID-B.docx...
  • Page 137 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 the “write single Block”/ “Lock single Block” command. FEIG ELECTRONIC GmbH Page 137 of 153 H01113-4e-ID-B.docx...
  • Page 138 As an additional option Keepalive messages can be sent periodically to a host. Keepalive notifica- tions are never acknowledged. The information sent by a Keepalive notification is identical with the command 6.10. [0x6E] Reader Diagnostic with mode = 0x01. FEIG ELECTRONIC GmbH Page 138 of 153 H01113-4e-ID-B.docx...
  • Page 139 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. see ANNEX E: Index of Status Bytes FEIG ELECTRONIC GmbH Page 139 of 153 H01113-4e-ID-B.docx...
  • Page 140 Host  Reader 6...7 COM-ADR [0x33] CRC16 (0x02) ALENGTH ALENGTH Host  Reader 7...8 COM-ADR [0x33] STATUS CRC16 (0x02) ALENGTH ALENGTH see ANNEX E: Index of Status Bytes FEIG ELECTRONIC GmbH Page 140 of 153 H01113-4e-ID-B.docx...
  • Page 141 EE-Parameter change 1 Block (16 Bytes) all ( 8 ) Blocks 6.7. [0x69] RF Reset 7.1. [0xB0] Host commands for ISO15693 Mandatory and Option- al Commands as configured in 4.2. CFG1: Interface TR-RESPONSE-TIME FEIG ELECTRONIC GmbH Page 141 of 153 H01113-4e-ID-B.docx...
  • Page 142 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 may neglect the communication time. Execution time Communication time FEIG ELECTRONIC GmbH Page 142 of 153 H01113-4e-ID-B.docx...
  • Page 143 Identification Manual ID ISC.MR102 FEIG ELECTRONIC GmbH Page 143 of 153 H01113-4e-ID-B.docx...
  • Page 144 The address is beyond the configured address space of the Transponder. 0x05 Wrong Transponder-type: This command is not applicable at the Transponder: Attempt to write on or read from a Transponder. A special command is not applicable to the Transponder. FEIG ELECTRONIC GmbH Page 144 of 153 H01113-4e-ID-B.docx...
  • Page 145 1. Read the Device-ID using the command [0x66] Firmware version (Mode 0x80) 2. Send the Device-ID and the serial number of the reader to Feig Electronic 3. Write the upgrade code into the reader using the command [0x5F] Set Firmware Update...
  • Page 146 A Tag error code was sent from the transponder. The Tag error code is shown in the following byte. Tag Errors for ISO15693 and ISO18000-3M3 Transponder are listed below. 4.10. CFG12: Read Mode - Filter FEIG ELECTRONIC GmbH Page 146 of 153 H01113-4e-ID-B.docx...
  • Page 147 The tag has insufficient power to perform the memory-write operation 0x0F Non-specific error: The tag does not support error-specific codes 0x00 Other error: "Catch-all" for errors not covered by other codes all others reserved for future use FEIG ELECTRONIC GmbH Page 147 of 153 H01113-4e-ID-B.docx...
  • Page 148 ID ISC.MR101-U ID CPR.M02 ID CPR.02 ID CPR40.30-Ux ID CPR40.0x-Ax / -Cx ID CPR.M03 (586/#) ID CPR.03 (584/#) ID CPR30 ID CPR.52 ID CPR.04-U ID ISC.LRU1000 ID ISC.LRU2000 ID ISC.LRU3000 ID MAX50 FEIG ELECTRONIC GmbH Page 148 of 153 H01113-4e-ID-B.docx...
  • Page 149 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 149 of 153 H01113-4e-ID-B.docx...
  • Page 150 HostInterface.Serial.Baudrate TRANS-FORM (P) HostInterface.Serial.Parity TRANS-FORM (D) HostInterface.Serial.Databits TRANS-FORM (S) HostInterface.Serial.Stopbits TR-RESPONSE-TIME AirInterface.TimeLimit Protocol Mode HostInterface.Miscellaneous.ProtocolSelection Expert INTERFACE OperatingMode.ScanMode.Interface READER-MODE OperatingMode.Mode IDLE-STATE DigitalIO.Signaler.LED.Green.IdleState GRN / RED /Output IDLE-STATE DigitalIO.Signaler.LED.Red.IdleState GRN / RED /Output FEIG ELECTRONIC GmbH Page 150 of 153 H01113-4e-ID-B.docx...
  • Page 151 Transponder.HF.CustomerCommandOptions.Fujitsu. Expert FastCommands Infineon Transponder.HF.CustomerCommandOptions.Infineon. Expert (RDWR_CMDS) ReadWrite_Commands ST (FCmds) Transponder.HF.CustomerCommandOptions. Expert STMicroelectronics. FastCommands TR-DATA1 (SNR) OperatingMode.NotificationMode.DataSelector.UID TR-DATA1 (SNR) OperatingMode.ScanMode.DataSelector.UID TR-DATA1 (DB) OperatingMode.NotificationMode.DataSelector.Data TR-DATA1 (DB) OperatingMode.ScanMode.DataSelector.Data TR-DATA1 OperatingMode.NotificationMode.DataSource. (Byte Order DB) ByteOrderOfData FEIG ELECTRONIC GmbH Page 151 of 153 H01113-4e-ID-B.docx...
  • Page 152 DB-USE (END-USR3) OperatingMode.ScanMode.DataFormat.UserEndChar3 DB-USE (HEADER-USR1) OperatingMode.ScanMode.DataFormat.UserHeaderChar1 DB-USE (HEADER-USR2) OperatingMode.ScanMode.DataFormat.UserHeaderChar2 DB-USE (HEADER-USR3) OperatingMode.ScanMode.DataFormat.UserHeaderChar3 DB-USE (HEADER-USR4) OperatingMode.ScanMode.DataFormat.UserHeaderChar4 LEN-USR (END-LEN) OperatingMode.ScanMode.DataFormat.NoOfUserEndChars LEN-USR (HEADER-LEN) OperatingMode.ScanMode.DataFormat.NoOfUser HeaderChars PER-RESET-TIME Transponder.PersistenceReset.Antenna.No1.Persistence Expert ResetTime IGNORE-ERROR AirInterface.Miscellaneous.HF.ISO_18000_3M3. Expert ISO18000-3M3 ErrorHandling. WeakCollision FEIG ELECTRONIC GmbH Page 152 of 153 H01113-4e-ID-B.docx...
  • Page 153 SPEED HostInterface.LAN.Autonegotiation.Speed LAN Option (DHCP) HostInterface.LAN.IPv4.Enable_DHCP KEEP-CNT HostInterface.LAN.Keepalive.RetransmissionCount GW-ADDRESS-LAN HostInterface.LAN.IPv4.GatewayAddress KEEP-INTERVAL HostInterface.LAN.Keepalive.IntervalTime OperatingMode.NotificationMode.Transmission.Enable_ MODE (ACK) Acknowledge OperatingMode.NotificationMode.Transmission.KeepAlive. KEEP-ALIVE (EN) Enable OperatingMode.NotificationMode.Transmission.KeepAlive. KEEP-ALIVE-TIME IntervalTime OperatingMode.NotificationMode.Transmission.Destination. DEST-IP-ADDRESS IPv4.IPAddress OperatingMode.NotificationMode.Transmission.Destination. DEST-IP-PORT-NUMBER PortNumber OperatingMode.NotificationMode.Transmission.Destination. HOLD-Time ConnectionHoldTime FEIG ELECTRONIC GmbH Page 153 of 153 H01113-4e-ID-B.docx...