5370 Barranca Parkway Irvine, CA 92618-2215 OMNIKEY ® Multi-ISO (HID5553) RFID Reader USER MANUAL © 2005-2010 HID Global Corporation. All rights reserved. 1508-USM-00-0-04 Firmware Version 1.4 August 2010 Doc Number: 1508-USM-00, Rev D.
1508-USM-00-0-04 HF Multi ISO RFID Reader User Manual, Firmware V1.4 Warning - Read before start-up! The product may only be used for the intended purpose designed by the manufacturer. The operation manual should be conveniently kept available at all times for each user. Unauthorized changes that have not been sold or recommended by the manufacturer may have a negative influence on the system the program has been installed or copied on.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 1508-USM-00-0-04 Contents Scope ......................................................................................................................................................... 7 Overview ...................................................................................................................................................... 8 Definitions ................................................................................................
1508-USM-00-0-04 2.2.25 2.2.26 2.2.27 2.2.28 HF Multi ISO RFID Reader User Manual, Firmware V1.4 Modulation conductance 1 (23h) ..............................................................................................35 Modulation conductance 2 (24h) ..............................................................................................35 Modulation conductance 3 (25h) ..............................................................................................36 User data (80h - EFh).......
HF Multi ISO RFID Reader User Manual, Firmware V1.4 1508-USM-00-0-04 5.6 ICODE UID ............................................................................................................................ 121 5.6.1 5.6.2 5.6.3 Memory organization .............................................................................................................. 121 Read Block .............................................................................................................................
1508-USM-00-0-04 HF Multi ISO RFID Reader User Manual, Firmware V1.4 Figure 24 - 5553 Reader USB Comfort Multi ISO - Bottom View ............................................................. 137 Figure 25 - 5553 Reader USB Comfort Multi ISO - Jumper 5 Pin Out - Top View ................................... 138 List of Tables Table 1 - Pin out – Jumper 1.......................................................................................................................
HF Multi ISO RFID Reader User Manual, Firmware V1.4 1508-USM-00-0-04 Scope The HID HF Multi ISO Reader Module supports a broad range of tags compliant with ISO 14443 type A and B standards, including SR176 tags, tags which belong to the NXP MIFARE family, ISO 15693 tags, ISO 18000-3, EPC and UID tags. An open command structure allows the device to communicate with tags that use an operating system.
1508-USM-00-0-04 HF Multi ISO RFID Reader User Manual, Firmware V1.4 Overview Definitions Anti-collision loop An algorithm used to identify and handle a dialogue between a reader and one or more tags in its antenna field. ASCII notation ASCII characters are listed within apostrophes, i.e. ‘x’ means a single x. Hex notation A hexadecimal value is marked with the suffix ‘h’, i.e. A1h has the value A1 hexadecimal.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 Abbreviation Description R-block Receive ready block REQA Request ISO Type A REQB Request ISO Type B RFU Reserved for Future Use S-block Supervisory block SAM Secure Application Module Sector For the MIFARE Standard one sector contains 4 blocks SID Station ID SFGT Guard time after RATS SN Serial Number of a tag (a 32 bit number) SOF Start of frame TDES Triple DES Value block 32 bit data block format.
1508-USM-00-0-04 HF Multi ISO RFID Reader User Manual, Firmware V1.4 Supported Tags Transfer command Serial number Manufacturer Tag Read/Write operation For tag details see Supported Tags, page 109.
1508-USM-00-0-04 Transfer command Serial number Manufacturer Tag Read/Write operation HF Multi ISO RFID Reader User Manual, Firmware V1.
1508-USM-00-0-04 1 1.1 HF Multi ISO RFID Reader User Manual, Firmware V1.4 5553 Reader Core – Multi ISO Dimensions All dimensions listed in millimeters. 30,48 mm 29,21 mm 1,27 mm J1 1 20 10 11 J2 25,40 mm 1,27 mm 2,54 mm Figure 1 - Reader Core - Top View Page 12 of 144 August 2010 © 2005-2010 HID Global Corporation. All rights reserved.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 1.2 1508-USM-00-0-04 Jumper 1 Details Table 1 - Pin out – Jumper 1 PIN PIN No. Description ARX 1 Antenna RX ATX1 2 Antenna TX1 VDD 3 Supply Voltage GND 4 Ground ATX2 5 Antenna TX2 TGND 6 Antenna Ground SAM CLK 7 SAM clock SAM IO 8 SAM IO SAM RESET 9 SAM Reset RTS 10 Request to Send Table 2 - Electrical characteristics of J1 PINs PIN PIN No. Min ARX 1 ATX1 2 VDD 3 Typ. 1.1V Max. Description 4.
1508-USM-00-0-04 1.3 HF Multi ISO RFID Reader User Manual, Firmware V1.4 Jumper 2 Details Table 3 - Pin out – Jumper 2 PIN PIN No. Description VDD 20 Supply Voltage GND 19 Ground LEDg 18 LED green (reading LED) LEDr 17 LED red EN 16 Enable reader, open or logic high MCLR 15 Master clear USER 14 User Port DIR 13 Direction of RS 485 TX 12 TX to PC RX 11 RX from PC Table 4 - Electrical characteristics of J2 PINs PIN PIN No. Min Typ. Max.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 PIN PIN No. LEDg 18 GND 19 VDD 20 IDD Min 1508-USM-00-0-04 Typ. Max. Description 1.4V @ 11mA VDD @ 0mA LED green (reading LED) with 330 (internal serial) resistor 11mA 15mA GND Ground +4.5V +5.0V +5.5V Supply Voltage 32 mA 150 mA 250 mA Supply Current (Without SAM) 1.4 External Connections 1.4.
1508-USM-00-0-04 HF Multi ISO RFID Reader User Manual, Firmware V1.4 The board can be connected as shown in Figure 3 - Power Supply Option 2. Both alternatives are possible and can be used as they fit best into the layout of the carrier board. The two VCC PINs and the two GND PINs are connected internally. +5V DC OEM Board 3 4 Figure 3 - Power Supply Option 2 1.4.2 Antenna The typical antenna tuning and matching network is shown in Figure 4 - Typical Antenna Tuning.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 1.4.3 1508-USM-00-0-04 Serial Interface The OEM Board can be connected directly with a micro controller. Alternatively the OEM Board also can be connected to most serial interface types by using the right interface converter circuit. In order to optimize the communication quality the specific application note of the interface converter circuit needs to be taken into consideration.
1508-USM-00-0-04 1.4.5 HF Multi ISO RFID Reader User Manual, Firmware V1.4 SAM Connector/Socket Note: The power supply to the SAM must be turned off during the entire SAM insertion/withdrawal period; otherwise damage to the SAM may occur. When using a SAM with the OEM board, it is recommended that a 100nF decoupling capacitor be fitted between Vcc and GND close to the SAM socket to ensure proper operation. The complete circuit diagram is shown in Figure 8 - SAM Connector.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 2 1508-USM-00-0-04 Software In order to offer the widest possible choice of interface, the MultiISO reader offers both ASCII and Binary serial protocols – see Transmission Protocol, page 19. EEPROM registers in the reader hold default settings for Station ID, protocol, serial and air-speed settings, timing parameters and modulation index – listed in Register Set, page 23.
1508-USM-00-0-04 2.1.2 HF Multi ISO RFID Reader User Manual, Firmware V1.4 Binary Protocol This protocol is designed for industrial applications with synchronization and frame checking. An addressing byte for party line (master/slave, multi-drop) is also included. The protocol usually requires a device driver. Data is transmitted in binary mode. The reader uses an internal binary watchdog timer to ensure correct framing.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 2.1.2.5 1508-USM-00-0-04 Data This part contains the command and the data. The command values are the same as in ASCII protocol mode (‘x’, ‘s’, …) whereas data is transmitted in binary mode. The length of the command block depends on the instruction. 2.1.2.6 Block Check Character (BCC) The BCC is used to detect transmission errors. The BCC is calculated XOR-ing each byte of the transmission frame excluding the STX/BCC and ETX characters.
1508-USM-00-0-04 HF Multi ISO RFID Reader User Manual, Firmware V1.4 Protocol Configuration 1 (0Bh), page 25) is used to detect incomplete binary frames. 2.1.2.9 Examples 02h 64h 01h 78h 1Dh 03h STX Station ID Length ‘x’ BCC ETX This instruction frame will reset the reader module with the station ID 64h. Page 22 of 144 August 2010 © 2005-2010 HID Global Corporation. All rights reserved.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 2.2 1508-USM-00-0-04 Register Set The reader has several system registers used for customization purposes. These registers are stored in its non-volatile EEPROM. The reader accepts changes to these settings only during the start-up phase. [See Write EEPROM, page 68] Some of the system registers are organized such that each of the 8 bits is an on-off selection for a feature. These are referred to as Flags.
1508-USM-00-0-04 2.2.2 HF Multi ISO RFID Reader User Manual, Firmware V1.4 Register Description 1Fh Page number 20h Protocol configuration 4 21h CID 22h RxWait 23h Modulation conductance 1 (Type B and SR176) 24h Modulation conductance 2 (Type B and SR176) 25h Modulation conductance 3 (Type B and SR176) 26h - 7Fh RFU 80h … EFh User data Unique Device ID (00h – 04h) The unique device ID identifies a reader module. It is factory programmed and cannot be changed. 2.2.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 2.2.4 1508-USM-00-0-04 Protocol Configuration 1 (0Bh) Default = 41h The protocol configuration register (PCON) specifies general behavior of the reader device, using bit flags. Protocol configuration register 2.2.4.
1508-USM-00-0-04 HF Multi ISO RFID Reader User Manual, Firmware V1.4 Binary Protocol, page 20 for further information on the binary protocol format. Default setting = ASCII protocol (0). 2.2.4.3 Multitag (default 0) The Multitag flag will enable multi-tag recognition in continuous read mode. All tags are detected and displayed. Due to the more complex search algorithm, the continuous read command decreases its detection speed. 2.2.4.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 2.2.4.6 1508-USM-00-0-04 Single Shot (default 0) If Single Shot is set, the reader displays the serial number of a tag in continuous read mode once within a specified time-out. The time-out is defined at EEPROM register 0Fh. The delay time can be adjusted stepwise in 100ms steps. 00h indicates no delay and FFh indicates infinite delay. Note: The delay precision depends on reset off and reset recovery time. 2.2.4.
1508-USM-00-0-04 2.2.5 HF Multi ISO RFID Reader User Manual, Firmware V1.4 BAUD, Baud Rate Control Register (0Ch) Default = 00h The baud rate register defines the communication speed of the reader device. Baud rate register Bit 7 Bit 6 Bit 5 Bit 4 Bit 3 Bit 2 Bit 1 Bit 0 RFU RFU RFU RFU RFU BS2 BS1 BS0 This register defines the baud rate of the device.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 2.2.6 1508-USM-00-0-04 Command Guard Time (0Dh) Default = 20h (1,2ms) The Command Guard Time is used to ensure that commands are not sent to fast consecutively. Following commands are sent after the guard time is elapsed. One time slice is around 37,8us. The longest timeout value is 9,6ms (FFh). 2.2.7 OPMODE - Operating Mode Register (0Eh) Default = FFh (all) The operation mode register defines which tag types the reader supports.
1508-USM-00-0-04 HF Multi ISO RFID Reader User Manual, Firmware V1.4 Protocol Configuration 1 (0Bh), page 25. One time-out slice is around 100ms. Exact timing depends on the protocol used. Value 00h indicates no delay time. 2.2.9 TMR, RF Time-Out Control Register (10h, 11h) Default = 0300h (~230mS) The RF time-out is used as reader card communication time-out. One time slice is around 300µs. The longest time-out value is 19.7 seconds (FFFFh). Value 0000h is not allowed and internally set to 0001h.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 1508-USM-00-0-04 2.2.10 Type B framing Register (12h) Default value is 27h. This register defines the communication settings of ISO 14443 B cards. The user can adjust this register to set up the framing of type B cards individually. The register is applied when the operating mode is set to type b (‘ob’) or toggle mode (‘ot’).
1508-USM-00-0-04 2.2.11.3 HF Multi ISO RFID Reader User Manual, Firmware V1.4 Enable binary frame v2: bit 2 (default 0) If Enable binary frame v2 is set, the reader sends version 2 binary frames. The get station ID command always sends version 1 binary frames! 2.2.11.4 Noisy Environment : bit 3 (default 0) If Noisy Environment is set, the continuous read mode can only be aborted with the '.' character.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 1508-USM-00-0-04 2.2.15 Selection Time-Out ISO 14443A (17h) The default value is 10h. (~4.8mS) The Selection Time-out represents the reader card communication time-out for the select, highspeed select, continuous read, multi-list, multi-select and MIFARE login command with ISO 14443A tags. Use low values for a better reaction time between the card and the reader. One time slice is around 300us. 2.2.
1508-USM-00-0-04 2.2.19.3 HF Multi ISO RFID Reader User Manual, Firmware V1.4 ISO14443 Type B Rx frame COM settings: bits 3-5 (default 00h) The bits 3 - 5 of this register define the communication settings of ISO 14443 B cards for the receiving frame. Protocol Register 3: Bit 3 – 5 Bit 5 Bit 4 Bit 3 NoRxEOF NoRxEGT NoRxSOF Bit Description NoRxSOF If set to 1 a missing SOF of the received data frame will be ignored.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 2.2.22.1 1508-USM-00-0-04 Disable Read after Write: bit 0 (default 0) If set, the reader device will not make a read after write for the block write commands "w", "wb", "wd" and "wv". If the read after write is deactivated, acknowledge from the write commands is a 00h byte instead of the written data. 2.2.22.2 WupA/B: bit 1 (default 0) If set, the reader device will use WupA/B instead of ReqA/B during selection of an ISO 14443 tag.
1508-USM-00-0-04 HF Multi ISO RFID Reader User Manual, Firmware V1.4 2.2.27 Modulation conductance 3 (25h) Default value is 00h. This register is 1 of 4 different modulation conductance registers. The default used modulation conductance register is 0 For more information refer to Modulation Conductance 0 (1Dh), page 34 and Set target modulation conductance register, page 57. 2.2.28 User data (80h - EFh) These registers are for free use. Page 36 of 144 August 2010 © 2005-2010 HID Global Corporation.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 2.3 1508-USM-00-0-04 Command Set The following table describes all the commands of the reader device. Each command returns an answer to the host. Exceptions are mentioned explicitly. If fitted, the green LED acknowledges a successfully executed command and the red LED indicates an error. Table 5 - Common Command Overview Command Description '!' Test continuous read / Check KTT upload status Detail Location 2.3.1.1, page 39 'c' Continuous read 2.
1508-USM-00-0-04 HF Multi ISO RFID Reader User Manual, Firmware V1.4 Table 6 - Card Specific Commands Description Command Detail Location ISO 14443 Type A (MIFARE®) only commands '+' Increment value block (credit) 2.3.2.1, page 70 '-' Decrement value block (debit) 2.3.2.2, page 71 '=' Copy value block (backup) 2.3.2.3, page 71 'l' Login (authenticate tag) 2.3.2.4, page 72 'rv' Read value block 2.3.2.5, page 74 'wv' Write value block 2.3.2.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 2.3.1 1508-USM-00-0-04 Common Command Details 2.3.1.1 Test Continuous Read / Check KTT Upload Status This command tests the state of the continuous read command and the state of the Prepare for KTT 'ut' command. The test continuous read command is only valid in ASCII mode. Command Command Data '!' None Answer Answer Description '!' Continuous read mode is active.
1508-USM-00-0-04 2.3.1.2 HF Multi ISO RFID Reader User Manual, Firmware V1.4 Continuous Read The reader device reads and displays serial numbers continuously while one or more tags remain in the field. This command stops if any character is sent to the reader module. The reader module returns the character ‘S’ (53h). The reader supports different tag types at the same time. To increase the reading performance switch to a single tag mode.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 2.3.1.2.6 1508-USM-00-0-04 LED activity The LED stays green as long as a tag was found and goes dark if the tag is removed from the field. 2.3.1.
1508-USM-00-0-04 2.3.1.4 HF Multi ISO RFID Reader User Manual, Firmware V1.4 Set LED This command controls the LED activity. If the LED flag is set, the automatic LED function is switched off. The user can set the state of the LED manually.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 1508-USM-00-0-04 Key Index If the Key Index is set, the command only needs the key number (1 byte) instead of the key (8/16 bytes). The key number corresponds to the key number used in the key management. Key Length If the Key Length is set, the command uses the TDES algorithm with 16-byte key. If cleared, the command uses the DES algorithm with 8-byte key. If key index is used the key length flag is valid. Encode Setting this flag encodes the data.
1508-USM-00-0-04 2.3.1.6.1 HF Multi ISO RFID Reader User Manual, Firmware V1.4 Time slotted answer In party line mode, more than one reader can be used simultaneously. The time slotted answer allows separating in time the answers from all connected devices. The station ID is used to determine the correct time slot. The reader supports up to 254 unique time slots.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 2.3.1.7 1508-USM-00-0-04 High-speed select This command selects a card in the antenna field (according to the selection criteria) or prepares a multi-select command, switches to high baud rates and enables 256-byte frames. If execution is successful, the command returns the UID of the selected card and the used baud rate. The reader automatically detects the maximum frame size of the card.
1508-USM-00-0-04 Command HF Multi ISO RFID Reader User Manual, Firmware V1.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 Frame Size Description 3x 40 Bytes 4x 48 Bytes 5x 64 Bytes 6x 96 Bytes 7x 128 Bytes 8x 256 Bytes 2.3.1.7.2 1508-USM-00-0-04 Answer from 8xh The lower nibble contains the baud rate used for the air interface. The value for the baud rate is XORed with the used up and downlink speed. Baud Rate Description x1 106kBaud x2 212kBaud x4 424kBaud x8 848kBaud The higher nibble contains the frame size used for the air interface. 2.3.1.7.
1508-USM-00-0-04 2.3.1.7.6 HF Multi ISO RFID Reader User Manual, Firmware V1.4 Multiple tags This command with parameter 1xh prepares the next multi-select command as a high-speed select. Any other command will disable the preparation. 2.3.1.7.7 RATS Guard Time SFGT A high-speed select with parameters 0xh and 1xh automatically waits the SFGT guard time received from the tag before sending the PPS command. 2.3.1.8 High Speed Select Wait There are two command variants – ‘hc’ and ‘hw’.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 1508-USM-00-0-04 Option See High-speed select, page 45 for a full description of this byte. Reset Off The length of time the field is switched off Reset Recovery The time for the field to stabilize after being switched on Wait The length of time in mS * 4 the reader will search for tags (19h = 25 * 4 = 100mS) Note: A zero wait time is not supported by the reader. 2.3.1.9 Lock Block This command locks a block permanently.
1508-USM-00-0-04 2.3.1.10 HF Multi ISO RFID Reader User Manual, Firmware V1.4 Multi-Tag Selection / List This command detects several tags at the same time. It replaces the fast select command ('s') in multiple tag surroundings. The Multi-Tag List command lists all tags with their serial numbers. Use the Multi-Tag Select command to select a single tag. Each tag has to be selected separately.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 2.3.1.10.5 1508-USM-00-0-04 Maximum number of tags The maximum number of tags in the antenna field is limited to 64 and by the physical characteristics of the antenna. 2.3.1.10.6 LED activity The LED stays green as long as a tag was found and goes dark if the command is finished. 2.3.1.11 Switch on/off CTS This command switches on/off the usage of CTS. If switched on, the reader only answers if CTS is low.
1508-USM-00-0-04 2.3.1.13 HF Multi ISO RFID Reader User Manual, Firmware V1.4 Include Tag Type This command includes a specific tag type to those addressed by the reader device. Command Command Data ‘o+’ Tag type (1 byte) Answer Answer Description 'O+' + tag type (1 byte) Command code + String of tag type Tag type character Refer to Set tag type, page 53. Example Command Description o+a Include ISO14443-A to the tag types addressed by the reader 2.3.1.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 2.3.1.15 1508-USM-00-0-04 Set tag type This command sets up the reader for a specific tag type. The continuous read function will speed up because only this type of tag is addressed. After a reset, the reader starts as defined in its start-up configuration. Command Command Data 'o' ISO type (1 byte) 'a' … ISO 14443 Type A 'b' … ISO 14443 Type B 'd' … ICODE UID 'e' … ICODE EPC 'i' … ICODE 's' … SR176 't' … activate all tags 'v' ...
1508-USM-00-0-04 2.3.1.16 HF Multi ISO RFID Reader User Manual, Firmware V1.4 Set Configuration Flags This command allows setting some configuration flags just in time; no reset is needed. The values are not stored in the EEPROM; therefore, the changed values are not available after a reset. Command Command Data of flag type (1 byte) data (1 byte) Answer Answer Description Data (1 byte) Current state of changed flag.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 1508-USM-00-0-04 Flag Types The following table shows the Flag Type with its corresponding flag from the specified Protocol Configuration Register.
1508-USM-00-0-04 2.3.1.17 HF Multi ISO RFID Reader User Manual, Firmware V1.4 Set Configuration Register This command allows setting some configuration registers just in time; no reset is needed. The values are not stored in the EEPROM; therefore the changed values are not available after a reset. Command Command Data Og Register type (1 byte) data (1 byte) Answer Answer Description Data (1 byte) Current state of changed register.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 2.3.1.18 1508-USM-00-0-04 Set target modulation conductance register This command allows switching to a different modulation conductance register. On startup, modulation conductance register 0 is used. When more than one antenna is used, it may be necessary to use different modulation conductance values for different antennas. Switching registers does not require knowledge of the actual values used.
1508-USM-00-0-04 HF Multi ISO RFID Reader User Manual, Firmware V1.4 BAUD, Baud Rate Control Register (0Ch), page 28. Page 58 of 144 August 2010 © 2005-2010 HID Global Corporation. All rights reserved.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 2.3.1.20 1508-USM-00-0-04 Antenna power on/off This command controls the antenna power. It can be used to decrease the power consumption of the reader. Command Command Data 'pon' Switch reader on 'poff' Put reader in standby mode Answer Answer Description 'P' Positive acknowledge Example Command Description Poff Put reader in standby mode 2.3.1.20.1 Power off The reader enters standby mode. Power consumption is decreased.
1508-USM-00-0-04 HF Multi ISO RFID Reader User Manual, Firmware V1.4 Example Command Description Pr Reads user port pw01 Sets user port state to high 2.3.1.21.1 Read port The port read command returns the current state of the USER port. Port state Description 00h USER port is low 01h USER port is high 2.3.1.21.2 Write port If user port is used as an output, a 1k resistor has to be fitted in series with the port pin to limit the current, otherwise the reader device can be damaged.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 1508-USM-00-0-04 After 2ms Guard Time the answer should be received on the User Port otherwise an error is returned. Table 10 - Receiving Serial Data Frame Receive Frame Description Low Start bit Error Bit If set, an error was detected.
1508-USM-00-0-04 2.3.1.23 HF Multi ISO RFID Reader User Manual, Firmware V1.4 Resend Last Answer This command resends the last answer from the internal serial buffer of the reader. Command Command Data 'ra' Resend last answer 2.3.1.24 Read block This command reads a data block on a card. The size of the returned data depends on the tag used. The block address range depends on the tag as well.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 2.3.1.25 1508-USM-00-0-04 Read data (multiple blocks) This command reads multiple data blocks on a card. The size of the returned data depends on the tag used. The block address range depends on the tag as well.
1508-USM-00-0-04 2.3.1.27 HF Multi ISO RFID Reader User Manual, Firmware V1.4 Select This command selects a single card in the antenna field. It can only be used in single tag mode. If successfully executed, the command returns the UID of the selected card. The reader detects the length of the UID automatically.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 1508-USM-00-0-04 Protocol Configuration 1 (0Bh), page 25 for more information on Extended ID. Multiple tags 2.3.1.27.3 This command is designed for fast access of a single tag in the field. If multiple cards are used the 'm' instruction has to be used instead. 2.3.1.28 Get Version This command returns the current version of the reader module. Command Command Data 'v' None Answer Answer Description 'MultiISO 1.
1508-USM-00-0-04 HF Multi ISO RFID Reader User Manual, Firmware V1.4 The presented tag is not ISO14443 type A, SR 176, ICode, ICode-UID and ISO 15693 compliant. For ISO 14443 type A only MIFARE tags are supported. 2.3.1.29.2 Out of range failure 'R' The block address of the 'w' command is higher than 40h. The block address of the 'w' command conflicts with other commands, therefore the block address has to be limited to 40h. Use the 'wb' command instead. 2.3.1.29.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 2.3.1.30 1508-USM-00-0-04 Write data (multiple blocks) This command writes multiple blocks to a card.
1508-USM-00-0-04 2.3.1.31 HF Multi ISO RFID Reader User Manual, Firmware V1.4 Write EEPROM Writes to the internal reader EEPROM. It contains all start-up parameters and the device ID. Changes to the start-up settings will only go into effect after a reset of the device.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 2.3.1.33 1508-USM-00-0-04 Field Reset The field reset switches off the antenna field for the specified duration. All tags need a certain amount of time to initialize before a command can be processed. The second byte specifies the field recovery time.
1508-USM-00-0-04 HF Multi ISO RFID Reader User Manual, Firmware V1.4 ISO 14443 Type A (MIFARE ®) only commands 2.3.2 2.3.2.1 Increment value block (credit) Increments a value block with a defined value. A read is done automatically after a write to verify data integrity. The command fails if the source block is not in value block format. A previous login is needed to access a block.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 2.3.2.2 1508-USM-00-0-04 Decrement value block (debit) Decrements a value block with a defined value. A read is done automatically after the write to verify data integrity. The command fails if the source block is not in value block format. A previous login is needed to access a block.
1508-USM-00-0-04 HF Multi ISO RFID Reader User Manual, Firmware V1.4 Example Command Description =0405 Copy value block 4 to block 5 =0506 Copy value block 5 to block 6 2.3.2.3.1 Target block The target block does not need to be a valid value block. If the source block is not in value format, the command fails. 2.3.2.3.2 No value block 'I' Source value block is not in a valid value block. The value block is corrupted. A backup block can be used to restore the correct value. 2.3.2.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 1508-USM-00-0-04 Example 2.3.2.4.
1508-USM-00-0-04 2.3.2.5 HF Multi ISO RFID Reader User Manual, Firmware V1.4 Read value block Reads a value block. The command checks if data is in value block format. The read value block command needs a successful login.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 1508-USM-00-0-04 Example 2.3.2.6.1 Command Description wv05010055EF Writes value 010055EFh to block 5. Invalid value 'I' The value read back after the write value command is not a value block. The data written was corrupt. 2.3.2.6.2 Writing values The write value block command is designed to create blocks in value format. This command requires write access to the specified block.
1508-USM-00-0-04 2.3.3 HF Multi ISO RFID Reader User Manual, Firmware V1.4 Key Management The Key Management is able to store up to 32 keys and is also able to manage 3 different key types. If no key is available to login into the reader, it is possible to reset the key table without any authentication. Key type Description 01 my-d™ secure key 02 DES key 03 MIFARE key 2.3.3.1 Authenticate to reader This command logs into a reader. Only my-d™ secure and DES keys are allowed to login into reader.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 1508-USM-00-0-04 Option The option byte defines the authentication step and type of authentication. Bit Description 0–1 Authentication Steps 0: Log out 1: Step 1 2: Step 2 2–6 RFU 7 Authentication Algorithm 0: 2 two pass authentications 1: RFU Key index The key index of Step 1 points to a valid key with the access rights to login into the reader. The key index is zero based. Log out It is possible to log out with Authentication Step 0.
1508-USM-00-0-04 HF Multi ISO RFID Reader User Manual, Firmware V1.4 Two-Pass Authentication Flow Diagram Host Reader 1. Start Authentication Step 1 StartAuth 2. Generate Random number RndRdr RndRdr 3. Reply Random number 4. Generate Random number RndH 5. Calculate the MAC of the key management MacH = Enc(RndRdr) 6. Transmit Random number and MAC: RndKm,MacH RndKm,MacH 7. Check the received MacH RndRdr = Dec(MacH) 8. Calculate the MAC of the reader MacRdr = Enc(RndH) MacRdr 9.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 1508-USM-00-0-04 Access Rights Only the default master key has all access rights. New keys got the default value 0000h. Bit Description 0 Allow Add Key 1 Allow Update Key 2 Allow Delete Key 3 Allow Reset Key table 4–7 RFU 8 RFU (Disable Serial Encryption) 9 Disable Authentication Tag 10 Allow Authentication Reader 11 Allow Changing Access rights 12 Allow Key Type changing 13 Allow 'ds' encryption 14 – 15 RFU 2.3.3.
1508-USM-00-0-04 2.3.3.4 HF Multi ISO RFID Reader User Manual, Firmware V1.4 Reset key table The reset key table clears all key entries in the reader. Afterwards the default keys are loaded automatically. It is only allowed to reset the key table after a successful authentication to the reader. If no keys are available to login into the reader, it is possible to reset the key table without an authentication. Command Command Data ‘rt’ None Answer Answer Description ‘RT’ In case of success 2.3.3.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 2.3.3.6 1508-USM-00-0-04 Change key type This command is able to change the key type. Be sure the key information data are suitable to the key type. It is only allowed to change the key type after a successful authentication to the reader with a key permitted to change the key type.
1508-USM-00-0-04 2.3.3.7 HF Multi ISO RFID Reader User Manual, Firmware V1.4 Update key The update key command stores, modifies or deletes a key in the reader key table. A key is identified with its key information data. The key information data has to be unique within the same key type. If a key is erased the key data must be dropped. It is only allowed to update the key type after a successful authentication to the reader with a key permitted the necessary rights.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 1508-USM-00-0-04 my-d™ secure key For more detailed information on key information data refer to Infineon documentation. DES key option byte Bit Description 0 0 … 16 byte key 1 … 8 byte key 1–7 RFU In case of an 8-byte key, the first 8 bytes of the key data are valid. MIFARE key Only the first 6 bytes of key data are valid. Number of stored keys The key management is able to store up to 32 keys.
1508-USM-00-0-04 2.3.4 HF Multi ISO RFID Reader User Manual, Firmware V1.4 my-d™ secure Note that ISO 14443 tags do not support the addressed mode. Bit 5 and 6 of the option byte are not used with ISO 14443 tags. The ISO 14443 tag only works in selected mode. 2.3.4.1 Abort KTT upload This command aborts the Prepare for KTT ‘ut’ command, if the reader is in prepare for KTT awareness mode.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 1508-USM-00-0-04 Key page This byte defines the key page number of the transponder Key index Defines the reader key index. If the index exceeds the key index of the reader the error ‘R’ out of range is thrown. The key index is zero based. Counter page This page number points to the authentication counter page. Lower byte of the page number is sent first. Diversification data This data is used to diversify the key data.
1508-USM-00-0-04 2.3.4.3 HF Multi ISO RFID Reader User Manual, Firmware V1.4 Issue transponder key Writes a diversified key to the transponder. This command uses the write and Reread my-d™ command.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 2.3.4.4 1508-USM-00-0-04 Prepare for KTT This command sets the reader into KTT awareness mode. Command Command Data ‘ut’ Key page (1 byte) Key index (1 byte) Counter page (2 bytes) Diversification data (8 bytes) Answer Use the check KTT upload status ‘!’ command to finish the upload procedure. LED activity The green and red LED indicates the state of the upload process.
1508-USM-00-0-04 HF Multi ISO RFID Reader User Manual, Firmware V1.4 Prepare for KTT triggered 'ut' (no antenna field) no tag found Searching tags Awareness mode tag found other tag found Check for valid KTT valid KTT found Upload all keys from KTT into Key management OK Error during Upload Upload ready get upload result '!' Return Upload result Figure 9 – KTT State Diagram Page 88 of 144 August 2010 © 2005-2010 HID Global Corporation. All rights reserved.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 2.3.4.5 1508-USM-00-0-04 my-d™ command This command sends and receives my-d™ plain and secure commands including my-d™ secure algorithm. Command Command Data ‘z’ Downlink length (1 byte) Option byte (1 byte) [UID (8 bytes)] my-d™ data (n bytes) Answer Answer Description Data Status byte: 00h (1 byte) Data without MAC and CRC (n bytes) Downlink length This byte is mandatory. It will define the length of the my-d™ data frame sent to the reader.
1508-USM-00-0-04 2.3.5 HF Multi ISO RFID Reader User Manual, Firmware V1.4 ‘t’ Command – Data Frame Transfer This command allows card-specific communication. The tag type has to be specified first – see Set tag type, page 53. Then issue a high-speed select command. If successful, the frame waiting time (FWT) is calculated as defined in ISO14443-4, and used instead of the TMR timer if the Extended Protocol flag is set – see Extended Protocol (default 1), page 27.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 1508-USM-00-0-04 Answer Answer Description Uplink length+Data Response of card 'C' Error: Collision 'F' Error: General failure 'N' Error: No tag in field 'O' Error: Overflow 2.3.5.1 [addressed tag not present or not responding] Normal Mode Downlink length The downlink length byte contains only the data length. This byte may not be zero. The CRC is computed automatically and is not included in the downlink length.
1508-USM-00-0-04 HF Multi ISO RFID Reader User Manual, Firmware V1.4 Receiving the answer The reader switches to receiving mode automatically after data is sent. If no data is detected the reader returns the error 'N' no tag in field. If the time-out value (registers 10h and 11h) is too short, the reader will abort the tag detection process before the answer is received. Increase the time-out value and the communication will work.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 2.3.5.2.3 1508-USM-00-0-04 Option Byte This byte contains common transfer options. Bit Description 0, 1, 3 Bit framing. Number of bits of the last byte to transmit. 4–7 RFU 2.3.5.2.4 Transmit Byte This byte contains transmit transfer options. Bit Description 0 If set, the transmission of data is activated.
1508-USM-00-0-04 HF Multi ISO RFID Reader User Manual, Firmware V1.4 Examples for ISO 14443 A, Innovision’s Jewel tag (in Binary mode) Sending the 'RID' command Command 2.3.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 2.3.6.2 1508-USM-00-0-04 ISO-A tag manual activation sequence - Example For single tag applications Command Answer t01 E3 26 02 04 00 (send REQA) t02 03 93 20 05 81635640F4 (81635640F4 denotes SN of tag) For multi-tag applications Command Answer m List of accessible tags.
1508-USM-00-0-04 2.3.6.5 HF Multi ISO RFID Reader User Manual, Firmware V1.4 Using ASK GTML - Example To work with the ASK GTML tag, the NoRxSOF flag has to be set to 1. The following table lists 2 examples: Command Answer t03 0C 00 0B 7F APGEN without ATR t04 0C 00 0B 3F 80 APGEN with ATR 2.3.6.6 Forcing higher baud rates - Example To force higher baud rates use the following sequence.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 2.3.7 1508-USM-00-0-04 ‘e’ command – SAM data frame transfer This command sends a custom data block to a SAM. Refer to ISO/IEC 7816 for more detail. Note: The SAM interface hardware does not support error repetition and does not check the parity bit. Inverse convention cards are also not supported. T=0 is not supported for non-ISO standard speeds. There are two versions of this command. A flag bit in the option byte defines the command version.
1508-USM-00-0-04 HF Multi ISO RFID Reader User Manual, Firmware V1.4 2.3.7.1 Downlink length – Version 1 & Version 2 (LSB) The Downlink length indicates only the data length. It does not include the other header bytes, such as option and transmission factor. For Version 2 this is the LSB byte of the Downlink length. 2.3.7.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 2.3.7.
1508-USM-00-0-04 HF Multi ISO RFID Reader User Manual, Firmware V1.4 Fh T=1 APDU implementation This command performs all of the wrapping for APDU message structures, using the T=1 block transmission protocol as detailed in ISO 7816-3. The ‘data’ field of the ‘e’ command comprises just the APDU Header [CLA, INS, P1, P2] and the Body [Lc, Data, Le] and the response APDU comprises the Body [Data] and Trailer [SW1, SW2] – see ISO 7816-4.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 2.3.7.5 1508-USM-00-0-04 Transmission Factor – Versions 1 & 2 This byte contains the clock rate conversion and baud rate adjustment according to ISO/IEC 7816-3. The default value on start-up is 11h (F/D = 1) The following pairs of F (clock rate conversion factor) and D (baud rate adjustment factor) are supported.
1508-USM-00-0-04 2.3.8 HF Multi ISO RFID Reader User Manual, Firmware V1.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 3 1508-USM-00-0-04 EMVCO Commands For EMVCO processing details, reference the EMV Contactless Communication Protocol Specification. Command Description Response Description ‘_p’ ( Poll Command) No Data This command enters EMV mode and starts polling. The reader scans for the field for ISO 14443 A and B cards until card is found. 1.Card Number Single PICC found 2.’C’ Collision detected 3.’N’ Timeout error 1. 0x01 Polling for PICC 2.
1508-USM-00-0-04 4 HF Multi ISO RFID Reader User Manual, Firmware V1.4 Frequently Asked Questions 4.1 Getting Started Q. How do I get started? A To test and interface the MultiISO Compact or Comfort Module, you do not need a sophisticated µP development system. All you need is a PC, a connection cable and a suitable power supply for the reader. If you are using Microsoft Windows (95/98/NT/XP/...
HF Multi ISO RFID Reader User Manual, Firmware V1.4 1508-USM-00-0-04 Command Set, page 37) with the keyboard. They should be transmitted to the reader and the reader should reply If using an operating system different from Microsoft Windows, you may use any other terminal program that is capable of receiving/transmitting data through the serial port of your PC. 4.2 Personalizing Multi ISO Reader Q.
1508-USM-00-0-04 4.3 HF Multi ISO RFID Reader User Manual, Firmware V1.4 MIFARE Card Type Q. What type of MIFARE card should I use? A The MIFARE standard is designed for multi-application environments. It contains 16 sectors each with 2 individual keys, access conditions, and 3 data or value blocks. Some applications use the 1 Kbytes of the MIFARE Standard Card Memory only as storage area. MIFARE Ultra light has no crypto unit on chip. It only supports 16 blocks.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 1508-USM-00-0-04 The Application can and should provide more barriers: Sector access conditions. It is possible to assign access conditions in a way that only decrementing of values is allowed with the keys used in the field. So even a manipulated field station cannot be used to increment the value on the cards.
1508-USM-00-0-04 4.5 HF Multi ISO RFID Reader User Manual, Firmware V1.4 Using NFC Q. How do I use NFC? A The example shows how to communicate with NFC using the NFC demo-board PN531. The reader is the initiator. The NFC has to be configured as passive target using MIFARE 106kbps (other NFC modes are not supported). As first step place the reader on top of the NFC demo-board antenna in 3 cm distance. Then load the "passive_target_106.cmd" file from the "Scripts\Tama\P2P" subfolder into the SCRTester a
HF Multi ISO RFID Reader User Manual, Firmware V1.4 5 1508-USM-00-0-04 Supported Tags 5.1 MIFARE Transponder Family The MIFARE transponder family consists of various 13.56 MHz transponder ICs, all compliant to the ISO 14443. Infineon My-D tags that support the MIFARE command set are also included here. 5.1.1 MIFARE Standard The MIFARE Standard card consists of 16 sectors. A sector includes four blocks of 16 bytes each. MIFARE Standard Sector 2 Sector 0 (Block: 0...
1508-USM-00-0-04 HF Multi ISO RFID Reader User Manual, Firmware V1.4 All MIFARE cards use the following state diagram. Power Off Reset Reader Instruction Set Idle REQA Select ISO 14443 Commands Ready Halt Wake Up Select Log In Active read/write/... Halt Anticollision Loop Authenticate Authenticated Tag interfacing commands Figure 10 - State Diagram Page 110 of 144 August 2010 © 2005-2010 HID Global Corporation. All rights reserved.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 5.1.2 1508-USM-00-0-04 MIFARE Ultra-light MIFARE Ultra-light cards have no encryption included. They only support plain text data transmission. MIFARE Ultra-light only supports 4 bytes per sector, but the command set uses 16 bytes per sector. Only the 4 least significant bytes are valid when using MIFARE Ultra-light. Ensure that the other bytes match with the tag content when using the write command; otherwise the read back will fail. 5.1.
1508-USM-00-0-04 5.1.5 HF Multi ISO RFID Reader User Manual, Firmware V1.4 MIFARE DESFire This tag supports additional security algorithms (DES, Triple-DES, MAC) for security sensitive applications. 5.1.5.1 Memory organization The memory of a DESFire card can be personalized to specific requirements. The card can be seen as data storage device like a hard disk in a PC. The memory is divided into a maximum of 28 different applications (directories) with 16 files each. An application has up to 14 keys.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 1508-USM-00-0-04 Activate DESFire card Select Application Login to Application Select File with ID Change File Commit / Abort Transaction Figure 12 - DESFire State Diagram August 2010 Page 113 of 144 © 2005-2010 HID Global Corporation. All rights reserved.
1508-USM-00-0-04 5.1.5.2 HF Multi ISO RFID Reader User Manual, Firmware V1.4 Activate PICC Before accessing a DESFire card, the card must be selected. A DESFire card has a 7 byte UID. After activation, the card is powered up and ready to accept a DESFire command. Application 0 is selected automatically. 5.1.5.3 Select application To jump into another application, the application has to be selected. An application can be seen as a directory, which contains up to 16 files.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 5.1.6 1508-USM-00-0-04 my-d™ IC (SLE 55Rxx) my-d™ ICs are specific ICs from Infineon. These labels show a different memory organization. Two different modes of tags are supported: plain and secure mode.
1508-USM-00-0-04 5.2 HF Multi ISO RFID Reader User Manual, Firmware V1.4 ISO 14443 Type B ISO 14443 type B cards are supported. 5.2.1 SR176 The SR176 label contains only 30 bytes of data organized in two bytes per page. 5.2.1.1 Memory organization Block address Byte 1 Byte 0 0Fh Lock byte RFU 0Eh User data … … 04h User data 03h Serial number 02h Serial number 01h Serial number 00h Serial number 5.2.1.2 Chip ID Serial number UID The UID is stored in the first 4 pages.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 5.2.2 1508-USM-00-0-04 SRIX4K The SRIX4K label contains 512 bytes of data organized into four-byte pages. 5.2.2.
1508-USM-00-0-04 5.3.2 HF Multi ISO RFID Reader User Manual, Firmware V1.4 Memory organization An ISO15693 tag is separated into two blocks. An administrative block contains the UID, AFI, DSFID and the lock page state. The user block is free for custom use. The chip manufacturer defines the amount of bytes and number of pages of each tag. As default four bytes are used for several tags. Page address Byte 0 1 3Fh User data … … 00h User data 2 3 Administrative block 5.3.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 5.3.3.2 1508-USM-00-0-04 Security Bit Bit 45 of the UID defines the secure mode of the SRF55Vxx. If set, the tag supports security algorithm. 5.3.4 Bit 45 Description 1 Tag supports crypto security mechanism 0 Chip supports plain mode only EM 4135 The EM4135 is an ISO15693 compliant label of EM Microelectronic-Marin SA. It has eight bytes per page as the same as the my-d™ label. It only supports 36 pages.
1508-USM-00-0-04 5.4 HF Multi ISO RFID Reader User Manual, Firmware V1.4 ICODE ICODE® IC data is stored in a non-volatile EEPROM. Its capacity is 512 bits organized in 16 blocks consisting 4 bytes each (1 block = 32 bits). First 3 blocks contain administrative data. 5.4.1 Memory organization Byte Page address 5.4.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 5.4.4 1508-USM-00-0-04 Special function (EAS,) AFI Special Functions (EAS) and Family Code/Application Identifier are additional features. For more information refer to the ICODE® manual. 5.4.5 User data All other blocks are free for use and can be changed according the state of the write access conditions. 5.5 ICODE EPC ICODE EPC labels data is stored in a OTP memory. Its capacity is 136 bits organized in 17 blocks consisting of 1 bytes each.
1508-USM-00-0-04 5.6.2 HF Multi ISO RFID Reader User Manual, Firmware V1.4 Read Block It is possible to read the user data (12 bytes) with the read block 'rb' command using block address 00h. 5.6.3 Write Block It is possible to write the UD data (12 bytes) with the write block 'wb' command using block address 00h. Additionally it is possible to write the destroy code (3 bytes) with the write block 'wb' command using block address 01h. Page 122 of 144 August 2010 © 2005-2010 HID Global Corporation.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 1508-USM-00-0-04 Appendix A - References [1] ISO/IEC 14443 Part 1-4, Identification Cards – Contact less integrated circuit(s) cards – Proximity cards [2] DESFire Documentation, NXP (formerly Philips), http://www.nxp.
1508-USM-00-0-04 HF Multi ISO RFID Reader User Manual, Firmware V1.4 Appendix B - SAM Socket Details [These details appear in the Hardware Section (1), but are repeated here for convenience] Note: The power supply to the SAM must be turned off during the entire SAM insertion/withdrawal period; otherwise damage to the SAM may occur Communication with the SAM is performed using the ‘e’ command – see ‘e’ command – SAM data frame transfer, page 97.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 1508-USM-00-0-04 Appendix C - Timings tCMD tEXEC tRES Request PC: Response Reader: Table 13 - Timings Command tEXEC [ms] Comments Cont. read (locked tag) 2.8 – 22.6 + Reset Off and Recovery Time Cont. read (worst case) 54 + 3x Reset Off and Recovery Time Common commands DES en/decryption 9.6 – 9.7 TDES en/decryption 28.7 – 28.8 High-speed select 'h08' (locked tag) 8.9 – 14.
1508-USM-00-0-04 Command HF Multi ISO RFID Reader User Manual, Firmware V1.4 tEXEC [ms] Comments ISO 14443 Type A only commands Increment value block 18.4 Decrement value block 18.4 Copy value block 18.5 Read value block 2.3 Write value block 7.9 - 10.5 MIFARE Login 4.9 Power conditions Power on 79 Enable on 85 Does not include rise time of power supply Used was the default Command Guard Time (20h = 1.2ms).
HF Multi ISO RFID Reader User Manual, Firmware V1.4 1508-USM-00-0-04 Appendix D 5553 Reader Board RS232 Compact MultiISO (RDHC-020xN0-02) Features Interface type: RS232 Dimensions: 70x45x12.
1508-USM-00-0-04 HF Multi ISO RFID Reader User Manual, Firmware V1.4 Dimensions All dimensions are listed in millimeters. A 0 2,8 4 1 29,21 mm J3 7 1 1,27 mm 3,00 mm 7,38 mm 41,06 mm 58,26 mm 62,00 mm J2 1 67,00 mm SAM Socket 10 70,00 mm J4 20 11 3,00 mm A' 11,07 mm B' B 9,43 mm 26,31 mm 40,83 mm 42,00 mm 43,00 mm 45,00 mm Figure 13 - 5553 Reader RS232 Compact Multi ISO - Top View Page 128 of 144 August 2010 © 2005-2010 HID Global Corporation. All rights reserved.
9,00 HF Multi ISO RFID Reader User Manual, Firmware V1.4 1508-USM-00-0-04 View A-A' J3 J2 J4 9,00 Figure 14 - 5553 Reader RS232 Compact Multi ISO - Side View View B-B' 1,60 mm 3,10 mm J3 7 1 1 J3 Figure 15 - 5553 Reader RS232 Compact Multi ISO - Front View 20 Figure 16 - Pin Out – Jumper 3 August 2010 Page 129 of 144 © 2005-2010 HID Global Corporation. All rights reserved.
1508-USM-00-0-04 HF Multi ISO RFID Reader User Manual, Firmware V1.4 Table 14 - Pin out – Jumper 3 Detail PIN PIN No. Description RFU 1 RFU +5V 2 Supply Voltage GND 3 Ground RX/RXA 4 RS232 RX / RS422 RXA TX/TXA 5 RS232 TX / RS422 TXA RXB 6 RS422 RXB TXB 7 RS422 TXB Table 15 - J3 pins in RS232 Configuration - Electrical Characteristics PIN PIN No. RFU 1 +5V 2 GND 3 RX/RXA 4 Min Typ. Max. Description Do not connect 4.5V 5V 5.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 1508-USM-00-0-04 Table 16 - J3 pins in RS422 Configuration - Electrical Characteristics PIN PIN No. RFU 1 +5V 2 Min Typ. Max. Description Do not connect 4.5V 5V 5.
1508-USM-00-0-04 HF Multi ISO RFID Reader User Manual, Firmware V1.4 PIN Table 17 - J3 pins in RS485 Configuration - Electrical Characteristics PIN No. Min Typ. Max. Description RFU 1 +5V 2 Do not connect 4.5V 5V 5.5V Supply Voltage 150mA 250mA Supply Current (without SAM) GND 3 RX/RXA 4 -7V +12V RX, connect to PIN 5 TX/TXA 5 -7V +12V TX RXB 6 -7V +12V RX, connect to PIN 7 TXB 7 -7V +12V TX Description GND Ground for Power Supply and Interface PIN No.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 1508-USM-00-0-04 PIN PIN No. Description Read+ 1 Connector for green Read Indicator LED Read- 2 Connector for red Read Error Indicator LED Power- 3 Ground Power+ 4 Connector for Power Indicator LED Table 18 - J4 pins - Electrical Characteristics PIN PIN No. Read+ 1 Read- Min 2 Typ. Max. Description 1.4V @11mA VDDmax 11mA @15mA 1.4V @11mA VDDmax 11mA @15mA Power- 3 GND Power+ 4 1.
1508-USM-00-0-04 HF Multi ISO RFID Reader User Manual, Firmware V1.4 5553 Reader Board USB Comfort Multi ISO (RDHS-0204N0-02) Features Interface type: USB 2.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 1508-USM-00-0-04 Dimensions All dimensions are listed in millimeters. Read LED + Read LED Power LED Power LED + J5 1 10 110,00 12,00 66,40 106,50 J2 88,50 SAM Socket 83,60 ø 00 3, 20 11 USB J3 7,20 4,50 17,78 27,40 39,60 49,18 62,50 67,00 Figure 22 - 5553 Reader USB Comfort Multi ISO - Top View August 2010 Page 135 of 144 © 2005-2010 HID Global Corporation. All rights reserved.
22,07 44,93 3,00 2,00 12,70 HF Multi ISO RFID Reader User Manual, Firmware V1.4 11,00 1508-USM-00-0-04 Figure 23 - 5553 Reader USB Comfort Multi ISO - Front View Page 136 of 144 August 2010 © 2005-2010 HID Global Corporation. All rights reserved.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 Read LED (Option 1) 1508-USM-00-0-04 Power LED (Option 1) J2 Read LED (Option 2) USB Power LED (Option 2) 31,00 106,70 SAM Socket J3 21,00 46,00 Figure 24 - 5553 Reader USB Comfort Multi ISO - Bottom View August 2010 Page 137 of 144 © 2005-2010 HID Global Corporation. All rights reserved.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 Read LED + Read LED Power LED Power LED + 1508-USM-00-0-04 1 J5 4 Figure 25 - 5553 Reader USB Comfort Multi ISO - Jumper 5 Pin Out - Top View Table 19 - Pin Out of Jumper 5 PIN PIN No.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 1508-USM-00-0-04 5553 Desktop Multi ISO (RDHS-0204D0-02) Features Interface type: USB 2.
1508-USM-00-0-04 HF Multi ISO RFID Reader User Manual, Firmware V1.4 4553 Mobile Multi ISO (RDHP-0206P0-02) Features Interface type: CF Card Type II Dimensions: (LxWxH) 86.50x43.0x10.0mm ± 0.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 1508-USM-00-0-04 Appendix E - Version History Date Description Firmware Version Document Revision 07/16/2010 Removed Paypass; added EMVCO. Modified High Speed Select Wait and ‘e’ commands. Version 1.4 Rev D.0 11/30/2009 Corrected sample ‘e’ message Added recommendation for using RAW message type Removed ambiguous description for MCLR pin Version 1.3.1 Unreleased (A.1) 07/23/2009 Version 1.3 Rev C.
1508-USM-00-0-04 HF Multi ISO RFID Reader User Manual, Firmware V1.4 Appendix F - Approvals / Certificates CE Declaration HID Global declares that, in conformity with the European CE requirements specified in the EMC Directive 89/336/EEC, the HID HF Multi ISO Plug & Play Modules, the HID HF Multi ISO Desktop Reader and the Plug-In Reader Module, described in this manual, are CE compliant The relevant documents are available.
HF Multi ISO RFID Reader User Manual, Firmware V1.4 1508-USM-00-0-04 FCC Declaration HID Global declares that, in conformity with the U.S. Directive FCC part 15, HID HF Multi ISO Plug & Play Modules, the HID HF Multi ISO Desktop Reader and the Plug-In Reader Module, described in this manual, are FCC part15 compliant The relevant documents are available.
1508-USM-00-0-04 HF Multi ISO RFID Reader User Manual, Firmware V1.4 RoHS Compliance HID Global declares that, in conformity with the Directive 2002/95/EC about the Restriction of Hazardous Substances (RoHS), its HID HF Multi ISO RFID Reader products, listed in this manual, are RoHS compliant The following substances are contained in accordance with the limits required by the Directive.
