FCC ID: JQ6-SE3200 iCLASS SE Reader Module

15370 Barranca Parkway Irvine, CA 92618 iCLASS SE Reader Module HARDWARE DEVELOPER GUIDE SE3200-902, Rev B.0 October 2012 2012 HID Global Corporation. All rights reserved. HID GLOBAL CONFIDENTIAL AND PROPRIETARY INFORMATION. Use and disclosure of this information is strictly restricted by the terms of the end user license agreement with HID Global Corporation. If you have received this information and are not an intended recipient or are not subject to or do not agree to be bound by the terms of the non-disclosure agreement, please immediately return this document to HID Global Corporation, 15370 Barranca Pkwy, Irvine, CA 92618-3106. Contents 1 2 3 4 5 Introduction ..................................................................................................................................... 6 Product Description ............................................................................................................. 6 1.1 Key Features ....................................................................................................................... 6 1.1.1 iCLASS SE Reader Module Products ................................................................................. 7 1.1.2 1.1.3 Product Guide ..................................................................................................................... 8 Scope/Purpose .................................................................................................................... 8 Terms and Abbreviations ..................................................................................................... 8 1.2 1.3 2.4 Overview ........................................................................................................................................ 10 Features............................................................................................................................. 10 2.1 Block Diagram ................................................................................................................... 11 2.2 Theory of Operation ........................................................................................................... 12 2.3 2.3.1 Power Modes .................................................................................................................... 12 2.3.2 Module Transponder Interaction .................................................................................... 12 Peripheral Circuits ............................................................................................................. 13 External Pull-up Resistors ................................................................................................. 13 2.4.1 2.4.2 External Noise Filter .......................................................................................................... 13 2.4.3 Adding External LEDs and Beeper .................................................................................... 13 Transitioning from the OEM50, OEM75 and eProxL Modules .......................................... 13 2.5.1 OEM50 .............................................................................................................................. 13 2.5.2 OEM75 .............................................................................................................................. 14 eProx Lock Module ........................................................................................................... 14 2.5.3 2.5 Connector Configuration ............................................................................................................. 15 3.1 SE3200Axx Connectors .................................................................................................... 15 SE3210Axx Connectors .................................................................................................... 15 3.2 Pin Configuration ............................................................................................................... 16 3.3 P301 Host Interface Connector ......................................................................................... 16 3.3.1 3.3.2 P701 Power and I/O Connector ........................................................................................ 16 P702 Board to Board Connector ....................................................................................... 17 3.3.3 P401 HF Antenna Connector ............................................................................................ 17 3.3.4 3.3.5 E501/E502 Prox Antenna Connector ................................................................................ 18 Mechanical Specifications ........................................................................................................... 19 SE3200Axx ........................................................................................................................ 19 4.1 SE3210Axx ........................................................................................................................ 20 4.2 4.3 Connector Types ............................................................................................................... 21 SE3210Axx Connector Types ........................................................................................... 21 4.3.1 4.3.2 SE3200Axx Interconnect ................................................................................................... 21 Electrical Specifications .............................................................................................................. 22 5.1 Maximum Ratings .............................................................................................................. 22 Current Draw ..................................................................................................................... 22 5.2 Power Supply .................................................................................................................... 23 5.3 5.4 Host Interfaces .................................................................................................................. 23 5.5 5.6 5.7 5.8 5.9 iCLASS SE Reader Module Hardware Developer Guide, SE3200-902, Rev B.0 Wiegand............................................................................................................................. 23 I/O ...................................................................................................................................... 24 Regulated Voltage Outputs ............................................................................................... 24 RF Interface (13.56 MHz) .................................................................................................. 24 RF Interface (125 kHz/Prox) .............................................................................................. 24 RF Interfaces ................................................................................................................................. 25 HF Interface (13.56 MHz) .................................................................................................. 25 6.1 6.1.1 Ultra Low Power Mode ...................................................................................................... 27 Prox Interface (125 kHz; SE32x0APx only) ....................................................................... 28 6.2 7.3 7.2 Antennas ....................................................................................................................................... 29 Basic Antenna Operation................................................................................................... 29 7.1 7.1.1 Inductive Coupling ............................................................................................................. 30 7.1.2 Load Modulation................................................................................................................ 31 Antenna Integration ........................................................................................................... 31 Steps to Integration ........................................................................................................... 31 7.2.1 Antenna Interconnect Cable .............................................................................................. 31 7.2.2 7.2.3 Training and Assistance .................................................................................................... 31 4090A10 HF Antenna ........................................................................................................ 32 7.3.1 Mechanical Data ............................................................................................................... 32 Typical Read Ranges with Standard Transponders .......................................................... 33 7.3.2 7.3.3 Typical Read Ranges with HID Multi Technology Cards ................................................... 34 ULPM Card Detection Range ............................................................................................ 34 7.3.4 RF Properties .................................................................................................................... 35 7.3.5 7.3.6 Power Considerations ....................................................................................................... 37 6500-101-03 Prox Antenna ............................................................................................... 38 7.4.1 Mechanical Data ............................................................................................................... 38 Electrical Characteristics ................................................................................................... 38 7.4.2 7.4.3 Typical Read Ranges ........................................................................................................ 39 7.4 Regulatory ..................................................................................................................................... 40 RoHS ................................................................................................................................. 40 8.1 REACH .............................................................................................................................. 40 8.2 Safety ................................................................................................................................. 40 8.3 8.4 Product Radio Certifications .............................................................................................. 40 FCC ................................................................................................................................... 41 8.5 Canada Radio Certification ..................................................................................... 41 8.6 CE Marking .................................................................................................................... 41 8.7 6 7 8 October 2012 Page 3 of 42 HID GLOBAL CONFIDENTIAL AND PROPRIETARY INFORMATION. Use and disclosure of this information is strictly restricted by the terms of the end user license agreement with HID Global Corporation. If you have received this information and are not an intended recipient or are not subject to or do not agree to be bound by the terms of the non-disclosure agreement, please immediately return this document to HID Global Corporation, 15370 Barranca Pkwy, Irvine, CA 92618-3106. List of Figures Figure 1: iCLASS SE Reader Module Block Diagram ................................................................................. 11 Figure 2: SE3200Axx Connector Configuration .......................................................................................... 15 Figure 3: SE3210Axx Connector Configuration .......................................................................................... 15 Figure 4: SE3200 Mechanical Drawing ....................................................................................................... 19 Figure 5: SE3210Axx Mechanical Drawing ................................................................................................. 20 Figure 6: Output Circuit Wiegand Interface ................................................................................................. 23 Figure 7: HF Interface .................................................................................................................................. 25 Figure 8: HF Interface with Coax Cable ...................................................................................................... 25 Figure 9: Basic Antenna Tuning Network .................................................................................................... 26 Figure 10: Tuning Network with ULPM Support .......................................................................................... 27 Figure 11: iCLASS SE Reader Module Prox Interface with Antenna .......................................................... 28 Figure 12: Inductive Coupling Principle ....................................................................................................... 30 Figure 13: Mutual Inductance between Reader and Transponder Antenna ............................................... 30 Figure 14: Load Modulation Principle .......................................................................................................... 31 Figure 15: 4090A10 HF Antenna ................................................................................................................. 32 Figure 16: 6500-101-03 Prox Antenna ........................................................................................................ 38 Figure 17: 6500-101-03 Mechanical Drawing ............................................................................................. 38 List of Tables Table 1: Feature Overview .......................................................................................................................... 10 Table 2: P301 Pin Configuration.................................................................................................................. 16 Table 3: P701 Pin Configuration.................................................................................................................. 16 Table 4: P702 Pin Configuration.................................................................................................................. 17 Table 5: P401 Pin Configuration.................................................................................................................. 18 Table 6: E501/E502 Pin Configuration ........................................................................................................ 18 Table 7: SE3210 Connector Types ............................................................................................................. 21 Table 8: Maximum Ratings .......................................................................................................................... 22 Table 9: Power Considerations ................................................................................................................... 22 Table 10: Power Supply Electrical Characteristics ...................................................................................... 23 Table 11: Host Interface Electrical Characteristics ...................................................................................... 23 Table 12: Wiegand Electrical Characteristics Host Interface ................................................................... 24 Table 13: I/O Electrical Characteristics Host Interface ............................................................................. 24 Table 14: Regulated Voltage Output Electrical Characteristics .................................................................. 24 Table 15: 13.56 MHz RF Interface - Electrical Characteristics Power Supply ............................................ 24 Table 16: 125 kHz RF Interface - Electrical Characteristics Power Supply ................................................ 24 Table 17: 4090A10 HF Antenna with Standard ID1 Transponders Read Ranges ...................................... 33 Table 18: Typical Read Ranges 4090A10 HF Antenna - HID Multi Technology Cards .............................. 34 Table 19: ULPM Card Detection Ranges 4090A10 HF Antenna ................................................................ 35 Table 20: ISO/IEC14443 Type A Modulation Waveforms ........................................................................... 35 Table 21: ISO/IEC14443 Type B Modulation Waveforms ........................................................................... 36 Table 22: FeliCa Waveforms ....................................................................................................................... 36 Table 23: Power Considerations ................................................................................................................. 37 Table 24: Electrical Characteristics 6500-101-03 ........................................................................................ 39 Table 25: Typical Read Ranges 6500-101-03 Prox Antenna ...................................................................... 39 iCLASS SE Reader Module Hardware Developer Guide, SE3200-902, Rev B.0 Copyright 2012 HID Global Corporation. All rights reserved. Trademarks HID GLOBAL, HID, the HID logo, iCLASS, iCLASS SE and SIO are the trademarks or registered trademarks of HID Global Corporation, or its licensors, in the U.S. and other countries. Revision History Date Author Oct 2012 HP & IRC July 2012 H. Pirch Contacts North America 15370 Barranca Parkway Irvine, CA 92618 USA Connect_Americas@HIDGlobal.com Description Changed contacts for HID Connect 1.3 Product guide removed table & inserted ref to micro-site 1.1.3 Remove product guide table Initial Version for internal Beta Document Version B.0 A Europe, Middle East and Africa Phoenix Road Haverhill, Suffolk CB9 7AE England Connect_Europe@HIDGlobal.com Asia Pacific 19/F 625 Kings Road North Point, Island East Hong Kong Connect_APAC@HIDGlobal.com October 2012 Page 5 of 42 HID GLOBAL CONFIDENTIAL AND PROPRIETARY INFORMATION. Use and disclosure of this information is strictly restricted by the terms of the end user license agreement with HID Global Corporation. If you have received this information and are not an intended recipient or are not subject to or do not agree to be bound by the terms of the non-disclosure agreement, please immediately return this document to HID Global Corporation, 15370 Barranca Pkwy, Irvine, CA 92618-3106. 1 1.1 Introduction Product Description The iCLASS SE Reader is part of HID Globals next generation platform. The iCLASS SE Reader goes beyond the traditional smart card model offering secure and standards based independent technology and flexible identity data structure based on Secure Identity Object

(SIO). SIO is a portable and open credential methodology. Building on the success of the existing OEM modules (including the OEM50 and OEM75) the iCLASS SE Reader enhances existing functionality with new SIO features. The new features include supporting NFC smartphones and other devices for mobile access while also providing increased levels of security. The iCLASS SE Reader allows integrators to design third party solutions supporting a full range of contactless card technologies, including iCLASS, MIFARE and HID Prox. It also provides PIV II compliance/ FIPS 201 certification and appears on the GSA Approved Products List (APL) allowing straightforward integration into U.S. Government applications. The iCLASS SE Readers dual frequency capability allows the use of both high and low frequency credentials with the same reader, providing a solution for mixed credential and credential migration applications. Another key feature of the iCLASS SE Reader is the straightforward field upgrade support that allows firmware changes and feature upgrades for installed readers to extend the lifecycle of customer installations. For quick and easy integration, HID Global also provides an iCLASS SE Reader Developer Tool Kit (DTK). The DTK provides the necessary tools, documentation and developer resources material to shorten integration cycles and speed time to market with finished products. 1.1.1 Key Features Single platform supporting o Secure Identity Object Multi Layer security that extends beyond the card technology, providing additional protection to identity data o Dual Frequency and NFC Capability Allows straightforward migration by supporting low and high frequency credentials (including iCLASS, HID Prox, Indala Prox, FeliCa MIFARE Classic and MIFARE DESFire EV1) and NFC enabled smartphones. o Field upgradeability giving the installer the flexibility to implement new features in the field and extending product lifecycle A complete flexible product line of reader boards, antennas and accessories. Developer tools and support. iCLASS SE Reader provides a fully featured Development Tool Kit (DTK) providing web / desktop based tools and documentation. Development support from HID Global Support Services Product pre-certification for industry standard bodies such as modular-FCC and CE FIPS 201 PIV II compliance with inclusion on the GSA APL iCLASS SE Reader Module Hardware Developer Guide, SE3200-902, Rev B.0 Ultra low power mode for battery- operated devices EAL5+ certified secure element hardware for protection of keys and cryptographic operations to guard against security threats 1.1.2 iCLASS SE Reader Module Products The iCLASS SE Reader Module comes in two form factors. 3200 iCLASS SE Reader Module Same form factor as OEM50 28mm x 30.5mm (1.10" x 1.20") 3210 iCLASS SE Reader Module Same form factor as eProx-Lock module 33mm x 43mm (1.3" x 1.7") Development Tool Kit Development Board 3200 and 3210 iCLASS SE Reader Modules HF and LF Antennas and cables Sample Credentials Memory Stick containing development tools and documentation October 2012 Page 7 of 42 HID GLOBAL CONFIDENTIAL AND PROPRIETARY INFORMATION. Use and disclosure of this information is strictly restricted by the terms of the end user license agreement with HID Global Corporation. If you have received this information and are not an intended recipient or are not subject to or do not agree to be bound by the terms of the non-disclosure agreement, please immediately return this document to HID Global Corporation, 15370 Barranca Pkwy, Irvine, CA 92618-3106. 1.1.3 Product Guide The iCLASS SE reader module comes in two form factors. It can also be configured for high frequency card reading only or High & low frequency (prox). In addition there are two different levels of security provided. Key Security Notes:

Standard V1 Security: Standard Security (Version 1) Keyset coupled with the Standard 13.56 MHz interpreter provides compatibility with iCLASS SE, iCLASS SR, standard iCLASS, SE for MIFARE Classic and SE for MIFARE DESFire EV1 credentials. Standard V2 Security: Standard Security (Version 2) Keyset coupled with the SIO (Only) 13.56 MHz interpreter provides compatibility with iCLASS SE, MIFARE Classic SE and MIFARE DESFire EV1 SE credentials Elite Security: Elite reads only SE Elite credentials with unique matching keys. Works with iCLASS SE, iCLASS SR, standard iCLASS, SE for MIFARE Classic and SE for MIFARE DESFire EV1 with matching Elite keys. Requires ICE reference number. Prox Reading Notes:

Standard Prox: HID Prox, AWID, EM4102 and Indala (10022 26-bit) Custom Prox: HID Prox, AWID, EM4102 and Indala Custom format For full ordering information including options, see the Embedded Technology Solutions How to Order Guide: http://www.hidglobal.com/documents/embedded_htog_en.pdf. Scope/Purpose This document describes the hardware features of the iCLASS SE Reader Module. The product is available in two form factors with various different configurations. Form factor and host connectors are backward compatible to the OEM75 module. Terms and Abbreviations Abbreviation ANT ARM CSN DNC EMC FSK FCC HF LED NPM PICC Description Antenna Advanced RISK Machine Card Serial Number Do Not Connect Electro Magnetic Compatibility Frequency Shift Keying Federal Communication Commission High Frequency (13.56 MHz) Light Emitting Diode Normal Power Mode Proximity IC Card 1.2 1.3 iCLASS SE Reader Module Hardware Developer Guide, SE3200-902, Rev B.0 Abbreviation FeliCa IC I/O LF Optimized RF RFID R&TTE SIO SPI Ta TTL UART UID UL USB ULPM Description Felicity Card Industry Canada (Industrie Canada) Input / Output Low Frequency (125 kHz) Configured/Developed to operate at the best performance level Radio Frequency Radio Frequency Identification Radio and Telecommunications Terminal Equipment Secure Identity Object Serial Peripheral Interface Ambient Temperature Transistor Transistor Logic Universal Asynchronous Receiver Transmitter Unique Identifier Underwriters Laboratories Universal Serial Bus Ultra Low Power Mode October 2012 Page 9 of 42 HID GLOBAL CONFIDENTIAL AND PROPRIETARY INFORMATION. Use and disclosure of this information is strictly restricted by the terms of the end user license agreement with HID Global Corporation. If you have received this information and are not an intended recipient or are not subject to or do not agree to be bound by the terms of the non-disclosure agreement, please immediately return this document to HID Global Corporation, 15370 Barranca Pkwy, Irvine, CA 92618-3106. 2 Overview 2.1 Features Table 1: Feature Overview Type Feature ISO/IEC14443 ISO/IEC15693 Pico15693 Pico14443B HID iCLASS FeliCa HID Prox Indala Prox SPI UART Wiegand Operating Temperature Storage Temperature Humidity FCC & IC CE Marking RoHS & REACH UL Recognized Component GSA RF Interface Host Interfaces Environmental Properties Certifications Comment ISO/IEC14443 Type A&B up to 848kbps, MIFARE Classic, MIFARE DESFire 0.6 & EV1 CSN only ISO/IEC15693 with proprietary protocol ISO/IEC14443 Type B with proprietary protocol ISO/IEC14443 and ISO/IEC15693 mode CSN only SE32x0APx only Suggested host interface Output only binary interface

-25C to 65C

-45C to 85C 0-90% non condensing FCC and Industry Canada Modular Approval R&TTE Directive (Emissions, Indirect ESD, RF Immunity) UL 294 (in process) SE32x0Axx-G3.0 only (in process) iCLASS SE Reader Module Hardware Developer Guide, SE3200-902, Rev B.0 2.2 Block Diagram Figure 1: iCLASS SE Reader Module Block Diagram October 2012 Page 11 of 42 HID GLOBAL CONFIDENTIAL AND PROPRIETARY INFORMATION. Use and disclosure of this information is strictly restricted by the terms of the end user license agreement with HID Global Corporation. If you have received this information and are not an intended recipient or are not subject to or do not agree to be bound by the terms of the non-disclosure agreement, please immediately return this document to HID Global Corporation, 15370 Barranca Pkwy, Irvine, CA 92618-3106. Theory of Operation 2.3 2.3.1 Power Modes Normal Power Mode (NPM) The module is constantly powered on and polling for cards. The module is never asleep in this mode. Use this mode with an external power supply. The module is always ready to receive a command from the host. Ultra Low Power Mode (ULPM) This power mode was designed for fixed location battery powered applications (for example, door or cabinet lock). The module is constantly monitoring the antenna for an impedance shift to detect a card presented to the antenna. Once detecting an impedance shift on the HF antenna, the module wakes up and polls for cards in the field. If a card is detected in the RF field, the module reads the card data, pulses the Card Present line, outputs the card data, and goes back to sleep within a configured period of time to conserve power. Note: If developing a handheld unit, operate the iCLASS SE Reader Module in Normal Power Mode and disable the power when not in use. Power NPM ULPM Autonomous Mode Autonomous & API Mode after autonomous output 2.3.2 Module Transponder Interaction Autonomous Mode The iCLASS SE Reader Module is intended to automatically access and report the secure payload or the serial number (UID/CSN) of a transponder. Thereby it acts on its protocols and applications configuration to automatically report the payload on its Wiegand, UART and/or SPI ports. Advanced Protocol Interface Mode (API) The host communicates with the transponder in the field through the iCLASS SE Reader Modules serial protocol.

(UART or SPI is required) Note: API calls are available in ULPM after the module outputs its autonomous data

(configuration dependant). 2.4 2.4.1 2.4.2 iCLASS SE Reader Module Hardware Developer Guide, SE3200-902, Rev B.0 Peripheral Circuits The following section details recommended peripheral circuitry. External Pull-up Resistors External pull-up resistors may be required on the UART Tx and MOSI lines to prevent floating I/O anomalies. External Noise Filter If false card detections occur in Ultra Low Power mode, or the host has spectral noise, a line filter designed to block frequencies in the 10 KHz to 50 KHz range is beneficial when inline with the power line. 2.4.3 Adding External LEDs and Beeper The Cathodes are connected through an external resistor to the RED or GREEN LED connector port signals. The OEM supplies current limiting resistors for modules. The value of these resistors depends on how much current is provided for the LEDs. Consider the combined voltage drop of the resistor and OEM75 output low voltage on these signal lines when selecting the LED brightness. Transitioning from the OEM50, OEM75 and eProxL Modules Provided are suggestions for transitioning from the HID OEM50 and eProx Lock modules to the OEM75. 2.5 2.5.1 OEM50 If you are transitioning from an OEM50 here are the differences. The OEM50 connector is a 2 X 6 0.1" space pin header or PWB hole pattern. The OEM50 has a two-wire interface to the antenna and the iCLASS SE Reader has a 2-wire interface for NPM and a 5-wire interface for ULPM applications. Therefore, it is possible that the OEM50 antenna will work with the SIO Processor Board in NPM. The harness and signal changes to adapt the signals from the OEM50 2 X 6 pattern to an OEM75 1 x 9 1.25mm pattern are the following. Note: The additional P2 for HSI and SPI interfaces are 1 x 8 1.25mm pattern. OEM50 P2 Connector Pin 1 Pin 2 Pin 3 Pin 4 Pin 5 Exc Supply Exc Return is not used Serial Transmit Serial Receive Vdd Return SE32XX No signal on the SE32XX No signal on the SE32XX Same as P301 pin 8 - UART Transmit Same as P301 pin 7 - UART Receive Same as P701 pin 2 - Battery Minus Same as P701 pin 1 - Battery Positive and 5VDC is a good supply voltage Pin 6 Vdd +5VDC October 2012 Page 13 of 42 HID GLOBAL CONFIDENTIAL AND PROPRIETARY INFORMATION. Use and disclosure of this information is strictly restricted by the terms of the end user license agreement with HID Global Corporation. If you have received this information and are not an intended recipient or are not subject to or do not agree to be bound by the terms of the non-disclosure agreement, please immediately return this document to HID Global Corporation, 15370 Barranca Pkwy, Irvine, CA 92618-3106. OEM50 P1 Connector Pin 1 Pin 2 Open Output Ground Pin 3 Wiegand Data1 Pin 4 Pin 5 Pin 6 Wiegand Data0 Power On Reset Hold 2.5.2 OEM75 SE32XX SE32XX does not have a similar signal Same as P301 pin 2, signal Ground Wiegand data output is per the SIA AC-01

(1996.10) specification, except Voh is 3.3VDC max, and not 4.0 to 5.5 VDC OEM50 is inverted logic Wiegand data output is per the SIA AC-01

(1996.10) specification, except Voh is 3.3VDC max, and not 4.0 to 5.5 VDC OEM50 is inverted logic Same as P701 pin 3 /Reset function Similar to P701 pin 4, however /Hold is low active 2.5.3 The SE32XX module I/O is directly pin-for-pin compatible with the OEM75. The OEM75 antennas are incompatible with the SE32XX module. ULPM average current remains the same while peak current is higher for the SE32XX module. eProx Lock Module The eProx Lock connector is the same as the SE32XX connector P701. CAUTION: The connections between the SE32XX and the eProx Lock modules are reversed. A straight-thru cable will not work. Twist the cable 180 degrees to ensure that Pin 1 on one module correctly mates with Pin 1 on the other module. The two-wire 125 kHz antenna for the eProx Lock may not be interchangeable with an SE32XX Prox antenna. iCLASS SE Reader Module Hardware Developer Guide, SE3200-902, Rev B.0 3 Connector Configuration 3.1 SE3200Axx Connectors Figure 2: SE3200Axx Connector Configuration SE3210Axx Connectors 3.2 Figure 3: SE3210Axx Connector Configuration October 2012 Page 15 of 42 HID GLOBAL CONFIDENTIAL AND PROPRIETARY INFORMATION. Use and disclosure of this information is strictly restricted by the terms of the end user license agreement with HID Global Corporation. If you have received this information and are not an intended recipient or are not subject to or do not agree to be bound by the terms of the non-disclosure agreement, please immediately return this document to HID Global Corporation, 15370 Barranca Pkwy, Irvine, CA 92618-3106. Pin Configuration 3.3 3.3.1 P301 Host Interface Connector This connector is compatible with P1 of the OEM75 module. Table 2: P301 Pin Configuration Pin 1 2 3 4 5 6 7 8 Signal Name

+3.3 VDC GND SPI_CLK SPI_nCS SPI_MOSI SPI_MISO URX UTX Type Output Reference Input Input Input Output Input Output Function 0.1W maximum power sourced output Logic level reference SPI clock signal SPI chip select (active low) SPI data in SPI data out UART data in UART data out 3.3.2 P701 Power and I/O Connector This connector is compatible with P2 of the OEM75 module. Table 3: P701 Pin Configuration Pin 1 2 3 Signal Name VIN VRTN nReset Type Supply Supply Input Function Supply Voltage Positive Supply Voltage Negative Reset (active low) Signal that holds off the presentation of the card data. When asserted, this line either buffers a card or disables a card read until released, as configured (active low) The signal on this pin reflects the recognition of a card near the antenna. The autonomous read and buffered data from the credential is output on the configured host interface. Wiegand Data 0 Wiegand Data 1 Signal which enables off board signaling Signal which can be used to enable an off board LED nHold nGLED_CPRES WG_DATA0 WG_DATA1 nBEEPER nRLED 4 5 6 7 8 9 Input Output Output Output Output Output iCLASS SE Reader Module Hardware Developer Guide, SE3200-902, Rev B.0 3.3.3 P702 Board to Board Connector This connector is an alternative interconnection method to P301 and P701. Table 4: P702 Pin Configuration Pin Signal Name Type nHold VIN NC VIN NC VRTN URX SPI_MISO UTX SPI_MOSI WG_DATA1 VRTN WG_DATA0 DNC DNC DNC DNC nReset

+3.3VDC VRTN nGLED_CPRES SPI_CLK nBeeper SPI_nCS NC VRTN DNC nRLED DNC NC 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 Input Supply Supply Supply Input Output Output Input Output Supply Output Input Output Supply Output Input Output Input Supply Output Function Signal that holds off the presentation of the card data. When asserted, this line either buffers a card or disables a card read until released, as configured (active low) Supply Voltage Positive Not Connected Supply Voltage Positive Supply Voltage Negative UART data in SPI data out UART data out SPI data in Wiegand Data 1 Supply Voltage Negative Wiegand Data 0 Do Not Connect Do Not Connect Do Not Connect Do Not Connect Reset (active low) 0.1W maximum power sourced output Supply Voltage Negative The signal on this pin reflects the recognition of a card near the antenna. The autonomous read and buffered data from the credential is output on the configured host interface. SPI clock signal Signal which enables off board signaling SPI chip select (active low) Not Connected Supply Voltage Negative Do Not Connect Signal which can be used to enable an off board LED Do Not Connect Not Connected 3.3.4 P401 HF Antenna Connector October 2012 Page 17 of 42 HID GLOBAL CONFIDENTIAL AND PROPRIETARY INFORMATION. Use and disclosure of this information is strictly restricted by the terms of the end user license agreement with HID Global Corporation. If you have received this information and are not an intended recipient or are not subject to or do not agree to be bound by the terms of the non-disclosure agreement, please immediately return this document to HID Global Corporation, 15370 Barranca Pkwy, Irvine, CA 92618-3106. This antenna connection IS NOT compatible with an OEM75 antenna. Table 5: P401 Pin Configuration Pin 1 2 3 4 5 Signal Name ATX GND PING_LVL PING_SIG PING_EN Type Output Reference Input Output Output Function 13.56 MHz antenna driving signal Antenna ground reference Signals for low power card detection in ULPM 3.3.5 E501/E502 Prox Antenna Connector Table 6: E501/E502 Pin Configuration Type Pin E501 PROX_TX1 Output Output E502 PROX_TX2 Signal Name Function 125 kHz antenna driving signal iCLASS SE Reader Module Hardware Developer Guide, SE3200-902, Rev B.0 4 4.1 Mechanical Specifications The following section details the mechanical specifications for the iCLASS SE Reader Module and its connectors. Detailed drawings are also available at the iCLASS SE Reader Module micro-site. SE3200Axx This form factor is compatible with OEM75 model 3141ADx. Figure 4: SE3200 Mechanical Drawing October 2012 Page 19 of 42 HID GLOBAL CONFIDENTIAL AND PROPRIETARY INFORMATION. Use and disclosure of this information is strictly restricted by the terms of the end user license agreement with HID Global Corporation. If you have received this information and are not an intended recipient or are not subject to or do not agree to be bound by the terms of the non-disclosure agreement, please immediately return this document to HID Global Corporation, 15370 Barranca Pkwy, Irvine, CA 92618-3106. 4.2 SE3210Axx This form factor is compatible with OEM75 modules 3141AAx, 3141AEx and 3141ACx. Figure 5: SE3210Axx Mechanical Drawing iCLASS SE Reader Module Hardware Developer Guide, SE3200-902, Rev B.0 Connector Types 4.3 4.3.1 SE3210Axx Connector Types The following connectors are used for interconnection with host and antenna. Table 7: SE3210 Connector Types Connector Function P301 Power supply and host interfaces P701 Wiegand and I/Os P702 Alternative connection to P301 and P702 P401 HF Antenna E501 / E502 Prox Antenna 4.3.2 SE3200Axx Interconnect Molex PicoBlade 53048-0810 Molex 05102 series Molex PicoBlade 53048-0910 Molex 05102 series Hirose Electric Board to Board DF12D(5.0)-30DP-

0.5 VDC DF12-DS series Molex PicoBlade 53048-0510 Molex 05102 series Type / Counterpart Manufacturer:

Type:

Part Number:

Mates with:

Manufacturer:

Type:

Part Number:

Mates with:

Manufacturer:

Type:

Part Number:

Mates with:

Manufacturer:

Type:

Part Number:

Mates with:

Direct connect solder to module - no connector (It is recommended that the Prox antenna also be strain relieved by applying epoxy to adhere the antenna leads to the module for non potted integrations) The SE3200Axx is designed as the smallest form factor possible. This module offering was designed to be header mounted on a host board utilizing the P301 and P701 through-hole connections. Use P702 as an alternative board-to-board connection if preferred. Some header sources are:

Cherng Weei HLCO Each companys part drawings are located on the DTK micro-site. October 2012 Page 21 of 42 HID GLOBAL CONFIDENTIAL AND PROPRIETARY INFORMATION. Use and disclosure of this information is strictly restricted by the terms of the end user license agreement with HID Global Corporation. If you have received this information and are not an intended recipient or are not subject to or do not agree to be bound by the terms of the non-disclosure agreement, please immediately return this document to HID Global Corporation, 15370 Barranca Pkwy, Irvine, CA 92618-3106. 5 Electrical Specifications 5.1 Maximum Ratings 5.2

-25C to 65C

-45C to 85C 10 VDC Stresses beyond those listed may cause permanent damage to the device. This is a stress rating and functional operation of the device at these or other conditions (beyond those indicated in the operational sections) is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability. Table 8: Maximum Ratings Operating Temperature Storage Temperature Maximum Operating Voltage Current Draw The following measurements were performed with a 50 Ohm load connected to the HF interface. In the case a real antenna is connected to the iCLASS SE Reader Modules power, consumption changes depending on the presence of a transponder and its relative position to the antenna. For that reason, find guidance for changing power consumption for particular antennas in section 6 RF Interfaces. The power consumption is independent of the supply voltage, as the iCLASS SE Reader Module uses a linear regulation system. Table 9: Power Considerations Mode Normal Power Mode Polling for HF transponders in autonomous mode 1 No Prox Normal Power Mode Polling for Prox Credentials

(HF deactivated) Peak Current 2 at 20C Average DC current at 20C Peak Current 2 at 20C Average DC current at 20C Parameter mA mA 81 50 Max Unit Typ Min mA mA 40 80 Ultra Low Power Mode Average DC current at 20C Peak Current 2 at 20C 8.5 24 A A 1 Polling cycle includes ISO/IEC14443 Type A and Pico15693. Adding additional protocols to the polling cycle may vary the power consumption. 2 When the carrier is turned on, the current consumption of the module may build to create the required magnetic field. The peak currents are also considered in the average current measurement. 5.3 iCLASS SE Reader Module Hardware Developer Guide, SE3200-902, Rev B.0 Power Supply Table 10: Power Supply Electrical Characteristics Signal Parameter VIN Input Voltage SE32x0A0x Input Voltage SE32x0APx Current Consumption Normal Operation Current Consumption Ultra Low Power Mode Min 3.60 4.95 Typ 4.00 5.25 Max 10.00 10.00 Unit VDC VDC mA A Note: The power consumption depends on the operation mode and the connected antenna /

tuning. See section 4 Mechanical Specifications. 5.4 Host Interfaces The host interface signals are backward compatible with the OEM75 product. Table 11: Host Interface Electrical Characteristics Signal SPI_nCS SPI_CLK, SPI_MOSI URX Typ 0.1 Parameter Input Voltage High-level Input Voltage Low-level Input Voltage Input Leakage Current High-level Output Voltage Low-level Output Voltage Output Current Baudrate Baudrate Min

-0.5 2.31 2.9 2 Max 7 0.99 0.4 576k 300k Unit VDC VDC VDC A VDC VDC mA Baud Baud SPI_MISO UTX UART SPI 5.5 Wiegand The Wiegand interface signals are backward compatible with the OEM75 product. Figure 6: Output Circuit Wiegand Interface October 2012 Page 23 of 42 HID GLOBAL CONFIDENTIAL AND PROPRIETARY INFORMATION. Use and disclosure of this information is strictly restricted by the terms of the end user license agreement with HID Global Corporation. If you have received this information and are not an intended recipient or are not subject to or do not agree to be bound by the terms of the non-disclosure agreement, please immediately return this document to HID Global Corporation, 15370 Barranca Pkwy, Irvine, CA 92618-3106. 5.6 Typ 2.6 Min Parameter Current Draw (into 1K +

10ohms) High Level Output Voltage Table 12: Wiegand Electrical Characteristics Host Interface Signal WG_DATA0 WG_DATA1 WG_DATA0 WG_DATA1 I/O The I/O signals are backward compatible to the OEM75 product. Table 13: I/O Electrical Characteristics Host Interface Signal nGLED_CPRES nBEEPER nRLED Current Draw

(Open Collector) Parameter Min nReset Low-level Input Voltage High-level Input Voltage Low-level Input Voltage High-level Input Voltage 5.7 Regulated Voltage Outputs nHold 1.6 1.6 Table 14: Regulated Voltage Output Electrical Characteristics Signal

+3V3 Parameter Output Voltage Output Current Min 3.168 Max 2.6(*) Unit mA VDC Typ Max Unit 60 0.2 5.5 0.2 5.5 mA VDC VDC VDC VDC Typ 3.3 Max 3.432 30 Unit VDC mA Note: The regulated voltage output is deactivated if the module is in Ultra Low Power mode. 5.8 RF Interface (13.56 MHz) Parameter Output Power Table 15: 13.56 MHz RF Interface - Electrical Characteristics Power Supply Signal Max ATX 1000 PING_LVL PING_SIG PING_EN Note: The output power depends on the connected antenna and its impedance. For optimum performance, a 50 tuned antenna is recommended. Connect according to 6.1.1 Ultra Low Power Mode. Unit mW Typ 750 Min 5.9 RF Interface (125 kHz/Prox) Table 16: 125 kHz RF Interface - Electrical Characteristics Power Supply Signal PROX_TX1 PROX_TX2 Output Peak Current Parameter Typ Min Max 200 Unit mA iCLASS SE Reader Module Hardware Developer Guide, SE3200-902, Rev B.0 6 RF Interfaces Depending on the configuration, the iCLASS SE Reader Module offers up to two different RF interfaces. HF interface for 13.56 MHz transponders Prox interface for 125 kHz transponders (SE32x0APx only) 6.1 HF Interface (13.56 MHz) The HF interface is optimized for operation with 50 tuned antennas. Figure 7: HF Interface The impedance of 50 allows for integrated antennas, as well as remote antennas connected through a coax cable. Use a coaxial connection whenever operating the module in Normal Power Mode, if possible. SIO Reader Board P401 Pin1-ATX Coax Cable Pin2-GND 50 Ohm Figure 8: HF Interface with Coax Cable Antenna Tuning Network October 2012 Page 25 of 42 HID GLOBAL CONFIDENTIAL AND PROPRIETARY INFORMATION. Use and disclosure of this information is strictly restricted by the terms of the end user license agreement with HID Global Corporation. If you have received this information and are not an intended recipient or are not subject to or do not agree to be bound by the terms of the non-disclosure agreement, please immediately return this document to HID Global Corporation, 15370 Barranca Pkwy, Irvine, CA 92618-3106. Realize a simple tuning network by using two capacitors, one serial and one parallel. Figure 9: Basic Antenna Tuning Network Za Antenna impedance Cs Serial Capacitor Cp Parallel Capacitor Rp Parallel damping resistor for Q-factor control Ra Serial antenna resistance La For the capacitors C0G or NP0, dielectrics with a voltage rating larger than 50 VDC are recommended. In practice, Cs and Cp may consist of several parallel capacitors to get better granularity. Be aware that HID is offering further documents, support and services in terms of antenna design and support. These might require special or service level agreements. Contact your sales manager for details about this offering. Antenna inductance iCLASS SE Reader Module Hardware Developer Guide, SE3200-902, Rev B.0 6.1.1 Ultra Low Power Mode To allow for the ULPM, take additional measures at the antenna circuit. A transistor, as well as two additional measurement lines, is introduced to enable the low power card detection circuit on the iCLASS SE Reader Module. Figure 10: Tuning Network with ULPM Support For Transistor Q1, a ZXM61N02F type or similar is recommended. Note: Only the HF interface is capable of detecting transponders in ULPM. However, Prox transponders may be recognized by the HF interface. If supporting Prox credentials in the ULPM, concentrically rearrange the Prox and HF antenna. October 2012 Page 27 of 42 HID GLOBAL CONFIDENTIAL AND PROPRIETARY INFORMATION. Use and disclosure of this information is strictly restricted by the terms of the end user license agreement with HID Global Corporation. If you have received this information and are not an intended recipient or are not subject to or do not agree to be bound by the terms of the non-disclosure agreement, please immediately return this document to HID Global Corporation, 15370 Barranca Pkwy, Irvine, CA 92618-3106. 6.2 Prox Interface (125 kHz; SE32x0APx only) The Prox interface is optimized for connection to the HID Prox antenna 6500-101-03. If this antenna or one with equal electrical characteristics is used, no additional components are required. Figure 11: iCLASS SE Reader Module Prox Interface with Antenna The onboard capacitor of 2nF and the external antenna coil build a serial resonator. Choose approximately 125 kHz for the resonance frequency. An additional 33 resistor is used to control the quality factor of the antenna. If the used antenna has a different electrical characteristic than the HID 6500-101-03 Prox antenna, external components may be necessary to adjust resonance frequency and quality factor to the desired value. The desired quality factor of the system is between 5 and 15 depending on antenna size. HID provides additional documents, support and services for antenna design and support. These documents may require service level agreements. Contact your sales manager for more details. iCLASS SE Reader Module Hardware Developer Guide, SE3200-902, Rev B.0 Antennas 7 All antennas offered for the iCLASS SE Reader Module are optimized for a free air environment. A free air environment is one in which there are no external effects on the field produced by the antenna and which might degrade its performance (for example, metal or stray capacitance). When an air-tuned antenna is placed near metal, its tuning is affected causing a degradation of read performance. All air-tuned antennas are optimized for a 50mm interconnect cable length. Different cable lengths may also lead to performance degradation and optimization may be required. Environment deviations (from free air, as well as antenna interconnect cable length and routing the HF antenna interconnect cable along metal) require performing antenna optimization to ensure that the RF interface operates optimally within the integrated environment. It is suggested that the antenna and antenna interconnect cable be integrated into the end product to mirror a free air environment. Basic Antenna Operation Credentials obtain their power from the magnetic field generated by the antenna of the reader. At the operating frequency of the reader, this interaction is similar to the operation of an air core transformer. When an antenna is energized by an alternating current, the induced magnetic field is directly proportional to the area enclosed by the antenna loop. The larger the loop, the more excitation current is required to produce the same level of magnetic flux. That flux covers a larger area and so the read range is extended. Other external factors affect the magnitude of this induced magnetic field. Magnetic lines of flux when generated by a loop antenna are oriented perpendicular to the plane of the loop. This is known as the right-hand rule, the magnetic field wraps around the wire in the direction of current flow. 7.1 October 2012 Page 29 of 42 HID GLOBAL CONFIDENTIAL AND PROPRIETARY INFORMATION. Use and disclosure of this information is strictly restricted by the terms of the end user license agreement with HID Global Corporation. If you have received this information and are not an intended recipient or are not subject to or do not agree to be bound by the terms of the non-disclosure agreement, please immediately return this document to HID Global Corporation, 15370 Barranca Pkwy, Irvine, CA 92618-3106. 7.1.1 Inductive Coupling An inductively coupled transponder usually consists of a single chip and an attached coil, which is used as an antenna. Most inductively coupled transponders are passive, meaning that power is supplied by the reader. To this end, the reader produces a magnetic field that the transponder uses for power. Figure 12: Inductive Coupling Principle Mathematically, treat the coupling as a simple alternating magnetic field. The wavelength at the frequencies of interest is much higher than the distance between the tag and reader (22.1 m at 13.56 MHz). Both antenna coils (transponder and reader) have a parallel capacitor, creating a parallel resonant circuit. The capacitor is chosen to achieve a resonance frequency near the working / carrier frequency of 13.56 MHz. Interpret the arrangement of the two coils as a loosely coupled transformer, with a coupling factor that varies with position and geometry. Figure 13: Mutual Inductance between Reader and Transponder Antenna 7.1.2 iCLASS SE Reader Module Hardware Developer Guide, SE3200-902, Rev B.0 Load Modulation As previously mentioned, interpret the inductively coupled system as a transformer. Putting a transponder (with a SRF around 13.56 MHz) into the magnetic field of a reader absorbs energy from the field. This loading of the readers antenna, caused by the transponder, is represented as transformed impedance at the antenna. To communicate with the reader, the transponder switches an additional load resistor across its own antenna. This results in a further impedance / voltage change at the readers antenna. Therefore, the credential does not actually transmit. Figure 14: Load Modulation Principle 7.2 Antenna Integration Magnetic field antennas operate optimally within a free-air environment because the magnetic field propagates perpendicularly with equal magnitude to the back and front of the antenna. Antenna performance degradation due to Eddy Current loss begins at the point where a metallic plate begins to enter the periphery of the magnetic flux lines of the magnetic field. Note: Magnetic field losses due to Eddy Currents are not recoverable. Magnetic field loss is extremely important. As loss increases, the available magnetic field to power a credential and for the credential to load modulate is reduced, thus, affecting RF performance of the system. 7.2.1 Steps to Integration Due to antenna parasitic shift and eddy current losses, RF implementation should be fully planned out prior to an industrial/mechanical design. This requires experimentation to be completed including the proximity of metal obstructions in the proximity of the antenna

(including the LF antenna for HF+LF applications). 7.2.2 Antenna Interconnect Cable The antenna interconnect cable is also designed to be routed in a free air environment. Routing the antenna interconnect cable across metal structures shifts the antenna characteristics and requires optimization. 7.2.3 Training and Assistance October 2012 Page 31 of 42 HID GLOBAL CONFIDENTIAL AND PROPRIETARY INFORMATION. Use and disclosure of this information is strictly restricted by the terms of the end user license agreement with HID Global Corporation. If you have received this information and are not an intended recipient or are not subject to or do not agree to be bound by the terms of the non-disclosure agreement, please immediately return this document to HID Global Corporation, 15370 Barranca Pkwy, Irvine, CA 92618-3106. HID Connect Applications Engineering staff will provide RF integration review and conceptual training for integrators. In addition, HID provides antenna optimization and design services through a Customer Product Opportunity Program. 7.3 4090A10 HF Antenna Figure 15: 4090A10 HF Antenna The 4090A10 HF antenna has an impedance of 50 and is optimized for operation with a 50mm ribbon cable. The antenna is tuned for a free air environment. 7.3.1 Mechanical Data Detailed drawings are available at the iCLASS SE Reader micro-site. 7.3.2 iCLASS SE Reader Module Hardware Developer Guide, SE3200-902, Rev B.0 Typical Read Ranges with Standard Transponders The following read ranges are for indication only. The read range of a transponder may vary significantly depending on antenna size and quality factor. Table 17: 4090A10 HF Antenna with Standard ID1 Transponders shows tested card self-resonance frequency to provide an indication for the antenna design difference. For these read range tests, the transponder serial number was read. No cryptographic operations were performed. Table 17: 4090A10 HF Antenna with Standard ID1 Transponders Read Ranges Transponder /

IC Type Manufacturer Form Factor Standard /

Modulation Scheme SRF

[MHz]

MIFARE Ultralight

(MF0ICU1) NXP Semiconductors MIFARE Ultralight C

(MF0ICU2) NXP Semiconductors MIFARE Classic

(MF1S50) NXP Semiconductors MIFARE Classic

(MF1S70) MIFARE Classic

(SLE66CL160S) MIFARE Plus X

(MF1PLUSx0) NXP Semiconductors Infineon Technologies NXP Semiconductors MIFARE DESFire

(MF3ICD40) NXP Semiconductors MIFARE DESFire EV1 (MF3ICD21) SLE55R16 SmartMX

(P5CD072) SmartMX

(P5CD081) CD21 ITSO NXP Semiconductors Infineon Technologies NXP Semiconductors NXP Semiconductors Oberthur Card Systems iCLASS 32k HID Global iCLASS 16k HID Global ID1 Card ID1 Card ID1 Card ID1 Card ID1 Card ID1 Card ID1 Card ID1 Card ID1 Card ID1 Card ID1 Card ID1 Card ID1 Card ID1 Card October 2012 ISO/IEC14443 (Type A) 14.51 14.64 15.17 ISO/IEC14443 (Type A) 14.12 ISO/IEC14443 (Type A) 14.04 14.81 15.83 ISO/IEC14443 (Type A) 15.22 ISO/IEC14443 (Type A) 15.28 15.34 ISO/IEC14443 (Type A) 15.58 ISO/IEC14443 (Type A) ISO/IEC14443 (Type A) ISO/IEC14443 (Type A) ISO/IEC14443 (Type A) 14.94 15.37 15.50 15.00 15.73 15.05 15.68 16.07 16.34 ISO/IEC14443 (Type A) 16.85 Typical Read Range

[mm]

55 50 50 40 55 50 40 45 50 40 45 40 45 40 45 40 40 35 40 35 20 ISO/IEC14443 (Type B) ISO/IEC15693 ISO/IEC15693 15.21 15.34 13.63 13.86 14.14 13.67 20 20 100 80 70 95 Page 33 of 42 HID GLOBAL CONFIDENTIAL AND PROPRIETARY INFORMATION. Use and disclosure of this information is strictly restricted by the terms of the end user license agreement with HID Global Corporation. If you have received this information and are not an intended recipient or are not subject to or do not agree to be bound by the terms of the non-disclosure agreement, please immediately return this document to HID Global Corporation, 15370 Barranca Pkwy, Irvine, CA 92618-3106. Manufacturer Form Factor Transponder /

IC Type iCLASS 2k My-d vicinity plain

(SRF55V02P) My-d vicinity secure

(SRF55V10S) Tag-it HF-I Plus ICODE SLI

(SL2ICS20) ICODE SLI-S

(SL2ICS53) LRi2K HID Global Infineon Technologies Infineon Technologies Texas Instruments NXP Semiconductors NXP Semiconductors ST Microelectronics FeliCa RC-S962 Sony Corporation FeliCa RC-S915 Sony Corporation ID1 Card ID1 Card ID1 Card ID1 Card ID1 Card ID1 Card ID1 Card ID1 Card ID1 Card Standard /

Modulation Scheme ISO/IEC15693 ISO/IEC15693 SRF

[MHz]

13.48 Typical Read Range

[mm]

95 13.93 90 ISO/IEC15693 14.44 75 ISO/IEC15693 13.74 70 ISO/IEC15693 13.38 80 ISO/IEC15693 13.68 120 ISO/IEC15693 FeliCa FeliCa 13.68 13.89 13.52 14.15 13.57 13.58 110 90 65 50 35 35 7.3.3 Typical Read Ranges with HID Multi Technology Cards For this read range tests the serial number of each individual HF chip inside the multi technology card was read. For Prox read ranges, see Section 7.4 6500-101-03 Prox Antenna. Note: Read range varies depending on the transponders antenna size, design, SRF and Quality. Table 18: Typical Read Ranges 4090A10 HF Antenna - HID Multi Technology Cards Card Type Manufacturer Standard /

Chip Modulation Scheme ISO/IEC14443 (Type A) MIFARE ISO/IEC14443 (Type A) DESFire ISO/IEC14443 (Type A) MIFARE ISO/IEC15693 iCLASS ISO/IEC14443 (Type A) DESFire iCLASS ISO/IEC15693 Typical Read Range[mm]

40 35 45 60 40 50 MIFARE / Prox HID Global DESFire / Prox HID Global iCLASS /

MIFARE / Prox HID Global iCLASS /

DESFire / Prox HID Global 7.3.4 ULPM Card Detection Range The card detection range in Ultra Low Power Mode depends on the loading effect the transponder imposes on the iCLASS SE Reader Modules antenna. That means that cards with lower loading effect will generally have a shorter detection range. iCLASS SE Reader Module Hardware Developer Guide, SE3200-902, Rev B.0 Manufacturer The following table provides an overview of typical detection ranges with some transponders. Table 19: ULPM Card Detection Ranges 4090A10 HF Antenna Transponder /

IC Type MIFARE Ultralight (MF0ICU1) MIFARE Classic (MF1S50) MIFARE DESFire (MF3ICD40) iCLASS 32k FeliCa RC-S962 Note: If the card detection range exceeds the actual read range, the reader may wake up but not read the transponder successfully at this distance. NXP Semiconductors NXP Semiconductors NXP Semiconductors HID Global Sony Corporation Range[mm]

55 55 45 90 85 14.51 14.04 15.37 13.63 13.52 SRF[MHz] Typical Detection 7.3.5 RF Properties Provided is an overview on the RF properties of the 4090A10 HF antenna in combination with the iCLASS SE Reader Module. The modulation waveforms were measured at a distance of 10mm. Parameters may vary per unit due to component tolerances. The compliance of the modulation waveforms is essential to ensure the interoperability with various transponders in the field. All measurements were performed in accordance to the ISO/IEC10373-6 standard. Note: The following graph shows that at distances smaller than 12mm, the detuning of the Reference PICC used for the measurement causes the field strength to decrease. Observe similar behavior with transponders that introduce a loading effect of similar magnitude. 4090A10 Magnetic Field Strength H

m

A

H 3.5 3 2.5 2 1.5 1 0.5 0 2 4 6 8 10 12 14 16 18 20 d[mm]

H Table 20: ISO/IEC14443 Type A Modulation Waveforms T1 Pause Length 2.52s October 2012 Page 35 of 42 HID GLOBAL CONFIDENTIAL AND PROPRIETARY INFORMATION. Use and disclosure of this information is strictly restricted by the terms of the end user license agreement with HID Global Corporation. If you have received this information and are not an intended recipient or are not subject to or do not agree to be bound by the terms of the non-disclosure agreement, please immediately return this document to HID Global Corporation, 15370 Barranca Pkwy, Irvine, CA 92618-3106. Table 21: ISO/IEC14443 Type B Modulation Waveforms T2 Low Time 520ns T3 Rise Time to 90%

325ns T4 Rise Time to 60%

98ns Overshoot 8.53%

Tr Rise Time Tf Fall Time 720ns 510ns Modulation Index 10.13%

Overshoot 1.2%

Table 22: FeliCa Waveforms Undershoot 0.9%

Tr Rise Time 730ns iCLASS SE Reader Module Hardware Developer Guide, SE3200-902, Rev B.0 Tf Fall Time 610ns Modulation Index 12.50%

Overshoot 0.2 %

Undershoot 0.1%

7.3.6 Power Considerations If a transponder is presented to the 4090A10 HF antenna, the impedance of the antenna is bound to change. The magnitude of the impedance change depends on various factors like Geometrical relationship between the antennas (coupling) Impedance/power consumption of transponder This leads to a change in power consumption of the reader. The following table provides an overview on power consumptions recorded with different transponders. Table 23: Power Considerations Parameter Max Typ Min Unit Mode

iCLASS card in 10mm distance

- Polling for HF transponders in autonomous mode*1

- No Prox

iCLASS card in 50mm distance iCLASS card in 70mm distance

Average DC current at 20C 120 90 45 mA mA mA October 2012 Page 37 of 42 HID GLOBAL CONFIDENTIAL AND PROPRIETARY INFORMATION. Use and disclosure of this information is strictly restricted by the terms of the end user license agreement with HID Global Corporation. If you have received this information and are not an intended recipient or are not subject to or do not agree to be bound by the terms of the non-disclosure agreement, please immediately return this document to HID Global Corporation, 15370 Barranca Pkwy, Irvine, CA 92618-3106. 7.4 6500-101-03 Prox Antenna The iCLASS SE Reader Module is optimized for operation with this Prox antenna. No external components are required. Figure 16: 6500-101-03 Prox Antenna 7.4.1 Mechanical Data Detailed drawings are available at the iCLASS SE Reader Module micro-site. The antenna has two 76.2mm 28AWG mag wire leads for interconnection to the iCLASS SE Reader Module. For soldering, a strip end with 3.81mm is included. Figure 17: 6500-101-03 Mechanical Drawing 7.4.2 Electrical Characteristics iCLASS SE Reader Module Hardware Developer Guide, SE3200-902, Rev B.0 Table 24: Electrical Characteristics 6500-101-03 Parameter Measurement Frequency Number of turns DC Resistance SRF Inductance Impedance 1kHz 50kHz 100kHz 500kHz Typ 89 33 1 800 29+j248 31+j489 50+j2674 Unit

MHz H 7.4.3 Typical Read Ranges The measured read ranges are indications only. Read range varies due to transponder antenna size and quality, as well as environmental effects. Table 25: Typical Read Ranges 6500-101-03 Prox Antenna Transponder HID Prox HID DuoProx II MIFARE / HID Prox Combo Card Indala Prox Modulation Scheme FSK FSK FSK PSK Typical Read Range [mm]

40 60 60 55 October 2012 Page 39 of 42 HID GLOBAL CONFIDENTIAL AND PROPRIETARY INFORMATION. Use and disclosure of this information is strictly restricted by the terms of the end user license agreement with HID Global Corporation. If you have received this information and are not an intended recipient or are not subject to or do not agree to be bound by the terms of the non-disclosure agreement, please immediately return this document to HID Global Corporation, 15370 Barranca Pkwy, Irvine, CA 92618-3106. 8 Regulatory 8.1 RoHS The SE32XX RoHS Declaration is located from the iCLASS SE Reader micro-site. 8.2 REACH 8.3 The SE32XX REACH Letter is located from the iCLASS SE Reader micro-site. Safety The following describes HID iCLASS SE Reader module regulatory guidelines. UL Recognition (Recognized Component) to UL294 for the USA and CSA C22.2 No. 205 for Canada. The mark is cRUus where the R is backwards. OEM Final Product UL Listing Because HID OEM Modules are cRUus recognized, UL treats them as a recognized component and therefore must be evaluated by UL in the final product for UL Listing. Transient surge protection (transorbs) is not provided for the SE32XX module. The iCLASS SE Reader module is intended to be part of a reader. The reader in which the iCLASS SE Reader module is used must translate the 3 VDC module Voh signalling to 4 to 5.5 VDC Voh SIA AC-01 (1996.10) signalling requirements. 8.4 The UL File for the iCLASS SE Reader Module is BP6568, Category Code ALVY2. View from the public UL Directory at http://database.ul.com/cgi-

bin/XYV/template/LISEXT/1FRAME/index.htm. Product Radio Certifications The iCLASS SE Reader Module was tested under the FCC rules and Industry Canada rules for a Modular Approval and therefore the following shall apply: (reference below FCC/IC ID) Provided that the Antenna, Antenna to module cable and tuning network have not been changed in any way, the Final Product label may contain the FCC ID. Provided no other radio devices exist within the final assembly. The End User/Manufacturer, will not need to repeat the intentional emissions testing

(actual radio certification), however the un-intentional emissions testing will need to meet the FCC and IC requirements with the module installed into the final assembly or product. This also applies to CE Marking as defined by the R&TTE Directive. However, in many cases, the module may need to be retuned, due to the affects of the product enclosure and assemblies within this enclosure, and the de-tuning affect that this may have on the radio circuitry. In this case and if other radios exist, C2PC is required In the event that the HID OEM modules Kit is modified in any way, the radio transmitter operating at either 125 kHz or 13.56 MHz and the module is integrated into the OEMs final product, Radio Certification is required for the final product. Obtain FCC Certification by submitting the final product to a Telecommunications Certified Body (TCB) laboratory that performs the testing and issue the FCC Grant. Standard: Part 15, Subpart C. FCC ID: JQ6-SE3200 IC ID: 2236B-SE3200 iCLASS SE Reader Module Hardware Developer Guide, SE3200-902, Rev B.0 Often the same TCB tests to Canada requirements and grants certification as a Certification Body (CB). Standard: RSS-210, RSS-GEN and RSS-310, where applicable. The same laboratory may also be an EU Communications Assessment Body (CAB) that is accredited to test to R&TTE Directive requirements for CE Marking. Standards: EN 300 330, EN 301 489-3, EN 50130-4, and IEC60950. A laboratory that is a CAB testing to R&TTE Directive requirements will also be testing to Australia and New Zealand requirements because of a common test standard. Standard: AS/NZS 4268. Asian country certifications are obtained on an individual country basis. OEM Final Product US Dept. of Commerce Bureau of Industry and Security (BIS) approval is required for USA based companies who export and re-export products using encryption. Regulatory Compliance Assistance - HID Global provides technical assistance and laboratory recommendations, as required. CAUTION: Any changes or modifications to this devise not explicitly approved by the manufacturer could void your authority to operate this equipment. 8.5 FCC This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. 8.6 Canada Radio Certification 8.7 This device complies with Industry Canada license-exempt RSS standard(s). Operation is subject to the following two conditions: (1) this device may not cause interference, and (2) this device must accept any interference, including interference that may cause undesired operation of the device. Le prsent appareil est conforme aux CNR dIndustrie Canada applicables aux appareils radio exempts de licence. Lexploitation est autorise aux deux conditions suivantes : (1) lappareil ne doit pas produire de brouillage, et (2) lutilisateur de lappareil doit accepter tout brouillage radiolectrique subi, mme si le brouillage est susceptible den compromettre le fonctionnement. CE Marking HID Global hereby declares that these proximity readers are in compliance with the essential requirements and other relevant provisions of Directive 1999/5/EC and 2006/95/EC. Por el presente, HID Global declara que estos lectores de proximidad cumplen con los requisitos esenciales y otras disposiciones relevantes de la Directiva 1999/5/EC and 2006/95/EC. HID Global dclare par la prsente que ces lecteurs proximit sont conformes aux exigences essentielles et aux autres stipulations pertinentes de la Directive 1999/5/CE and 2006/95/EC. October 2012 Page 41 of 42 HID GLOBAL CONFIDENTIAL AND PROPRIETARY INFORMATION. Use and disclosure of this information is strictly restricted by the terms of the end user license agreement with HID Global Corporation. If you have received this information and are not an intended recipient or are not subject to or do not agree to be bound by the terms of the non-disclosure agreement, please immediately return this document to HID Global Corporation, 15370 Barranca Pkwy, Irvine, CA 92618-3106. A HID Global, por meio deste, declara que estes leitores de proximidade esto em conformidade com as exigncias essenciais e outras condies da diretiva 1999/5/EC and 2006/95/EC. HID Global besttigt hiermit, dass die Leser die wesentlichen Anforderungen und anderen relevanten Bestimmungen der Richtlinie 1999/5/EG erfllen and 2006/95/EC. HID Global dichiara che i lettori di prossimit sono conformi ai requisiti essenziali e ad altre misure rilevanti come previsto dalla Direttiva europea 1999/5/EC and 2006/95/EC. Download copies of the R&TTE Declaration of Conformity (DoC) at http://certifications.hidglobal.com. HID Global Headquarters:

North America: +1 949 732 2000 Toll Free: 1 800 237 7769 Europe, Middle East, Africa: +49 6123 791 0 Asia Pacific: +852 3160 9800 Latin America: +52 477 779 1492 support.hidglobal.com hidglobal.com