OEM 200 Developer guide
• Schlage • OEM 200 Developer guide
Contents iv v vi vi FCC Statements IC Statements Contact information Warnings and cautions 7 Introduction 7 8 General Description Specifications 15 Operational Behavior 15 15 15 16 17 18 Powering Up the OEM 200 Communication RF Field Diagnostic LEDs General Output Reader Configuration 19 Design Considerations 19 20 22 22 22 Cable Mounting Consideration Environmental Electrostatic Discharge (ESD) Precautionary Statement EMI Design Consideration 23 Troubleshooting 25 Appendix A: Terms and Abbreviati
Contents | FCC Statements FCC Statements FCC Compliance Statements • 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. • Changes or modifications not expressly approved by Schlage Lock Company could void the user's authority to operate the equipment.
Contents | IC Statements IC Statements IC Compliance Statements • • This device contains license-exempt transmitter(s)/receiver(s) that comply with Innovation, Science and Economic Development Canada’s licence-exempt RSS(s). Operation is subject to the following two conditions: 6. This device may not cause interference. 7. This device must accept any interference, including interference that may cause undesired operation of the device.
Contents | Contact information Contact information Should a system design engineer or developer need assistance, they should contact technical support at: Phone: 1-877-671-7011 www.allegion.com/us MIFARE® and DESFire™ are registered trademarks of NXP B.V. Warnings and cautions WARNING Warnings indicate potentially hazardous conditions, which if not avoided or corrected, may cause death or serious injury.
Introduction General Description The OEM 200 module is an embeddable RFID reader component useful for manufacturers creating custom RFID products. The OEM 200 module contains both 125 kHz proximity, 13.56 MHz contactless smart card capability and supports ISO Standard 14443 technologies. The OEM 200 module provides compatibility with certain HID® proximity protocols, GE/CASI ProxLite®, AWID®, Lenel®, and many 13.56 MHz technologies including Schlage™ smart cards using MIFARE DESFire™ EV1 and MIFARE®.
Introduction | Specifications Specifications OEM 200 Main Board All mounting holes are 3.175+/- 0.08 mm (0.125”) diameter. Dimensions shown below are in mm (inches). Mounting holes 0.20 A B Board shape C A 0.20 B C 55.00 (2.165) 22.00 (0.866) 25.00 (0.984) B 3.00 (0.118) 3.00 (0.118) 40.00 (1.575) C Figure 1.2: OEM 200 Main board area and mounting hole locations mm (inches). 6.00 (0.236) 6.10 (0.240) 3.15 (0.124) A Figure 1.
Introduction | Specifications 80mm Antenna All mounting holes are 3.175 mm (0.125”) diameter. The 80mm antenna also has 4 mounting square cutouts which can accept a custom bracket to ease the installation process. Dimensions shown below are in mm (inches). Mounting hardware including any bracketing used should be made of non-metallic materials. See Mounting Consideration on page 20. Mounting holes 0.20 A B Board shape C 32.77 (1.290) 79.38 (3.125) 0.20 A B C B 12.95 (0.510) 18.67 10.57 (0.
Introduction | Specifications 90mm Antenna All mounting holes are 3.175 mm (0.125”) diameter. Dimensions shown below are in mm (inches). Mounting hardware including any bracketing used should be made of non-metallic materials. See Mounting Consideration on page 20. Mounting holes 0.20 A B C Board shape 91.44 (3.600) C 16.13 (0.635) 0.20 A B C 20.32 (0.800) B 10.87 (0.428) 3.56 (0.140) 34.29 (1.350) 23.42 (0.922) 17.15 (0.675) 8.99 (0.354) 11.33 (0.446) 50.80 (2.000) 10.41 (0.410) 11.
Introduction | Specifications Electrical Specifications Symbol Parameter Min Typical Max Units T Operating Temperature -35 0 65 oC F Frequency Vin DC Voltage Input IAVG Average Current at 12V IMAX Max Current at 12V WOL Wiegand Output Logic Low WOH Wiegand Output Logic High TTLOL TTL Interface Logic Low 0 TTLOH TTL Interface Logic High 2.65 OI General Output Current OOL General Output Logic Low 0 OOH General Output Logic High 2.
Introduction | Specifications Credential Specifications Card Technologies Supported 125 kHz Technologies 13.
Introduction | Specifications Antenna Connection A four-inch flat flexible cable (FFC) is included with the OEM 200 to connect the main board to the antenna board. Verify that the antenna cable connection at the main board and antenna board are connected correctly. To do this, very gently tug the ribbon at each connector, being very careful not to dislodge the ribbon from the connector.
• Schlage • OEM 200 Developer guide
Operational Behavior Powering Up the OEM 200 The input voltage applied to J1 should be between 5V and 16V*. When power is applied to the OEM 200 Main Board, the red power LED1 will be on. See Diagnostic LEDs on page 12 for visual location of LED1. * Caution: Application of more that 16V may damage the device. Communication The OEM 200 Module can communicate to the host device with either Wiegand output or a TTL serial interface using the OSDP protocol. Wiegand is the default communication interface.
Operational Behavior | Diagnostic LEDs Diagnostic LEDs The OEM 200 Module has three LEDs used for debugging and diagnostics. LED behavior is described in the sections below.
Operational Behavior | General Output Start-up sequence: Upon power up, LED1 lights to signify that the OEM 200 is receiving power. Immediately following, the OEM 200 flashes both LED2 and LED3 for 1 second, then flashes LED2 for 0.5 seconds, then flashes both LED2 and LED3 for 1 second, then turns LED2 solid on to indicate the OEM 200 is ready for operation.
Operational Behavior | Reader Configuration Reader Configuration The OEM 200 has the following default configuration parameters set when it leaves the factory. Parameter Default Value Options Units of Measure General Output 1 = Enabled 0=Disabled None Secure Application 1 MSA On, HID On, AWID On, MFP On All 16 permutations None Prox Report Delay 0= No delay 0.0 – 1.6s, in 0.
Design Considerations Allegion will require acceptable OEM 200 performance in the final integration.
Design Considerations | Mounting Consideration Mounting Consideration The OEM 200 Main board and Antenna board include 0.125 inch mounting holes that can be used to install the OEM 200 into the host device with standoffs, screws, or snap-in bracket (not supplied by Allegion). It is recommended to mount PCBs to a non-conductive dry surface using non-metallic fasteners.
Design Considerations | Mounting Consideration Design the antenna board mounting location such that the user presents the card maximizing alignment of the antenna board. This will help to maximize the read range of the system. Often equipment manufacturers will provide some decal or feature that helps users to see how card orientation is expected to be presented. Figure 3.
Design Considerations | Environmental Environmental The OEM 200, like nearly all electronics, is susceptible to damage by environment factors. The end product must provide environmental protection from moisture and contamination.
Troubleshooting Issue Potential Causes Action Cannot read smart or prox card or degraded smart or prox card read range Antenna cable is disconnected Make sure Antenna cable is fully engaged with connectors on the Main Board and Antenna Board Verify LEDs flash when a smart or prox card is presented Antenna Board is near metal object Separate Antenna Board from metal object and verify read range performance.
• Schlage • OEM 200 Developer guide
Appendix A: Terms and Abbreviations 125 kHz: Radio waves operating at 125 thousand cycles per second. This technology has historically been the standard in proximity card/reader but is beginning to be replaced by faster, more secure 13.56 MHz technology. 13.56 MHz: Radio waves operating at 13.56 million cycles per second allowing read/write and secure, encrypted card and reader communication.
Appendix B: OSDP Communication OSPD is a master-slave half-duplex protocol where a Control Panel (CP) sends commands to a Peripheral Device (PD) and the PD generates a response. The OEM 200 always behaves as a Peripheral Device The OEM 200 conforms to rev 2.1.7 of the OSDP standard. The OEM 200 supports secure and non-secure OSDP communication. All responses from the OEM 200 are preceded by 0xFFFF. Please refer to the OSDP protocol standard maintained by the Security Industry Association: https://www.
• Schlage • OEM 200 Developer guide
Appendix C: System Performance Requirements Measurements Required per Integration Agreement Successful integration of the OEM 200 into the host system is important to Allegion. Information about physical mounting of the OEM 200, read range performance, and environmental protection should be shared with Allegion to help ensure the successful operation of the OEM 200. Allegion requires that all integrated OEM 200 systems adhere to the below minimum functional performance requirement.
• Schlage • OEM 200 Developer guide
About Allegion Allegion (NYSE: ALLE) is a global pioneer in seamless access, with leading brands like CISA®, Interflex®, LCN®, Schlage®, SimonsVoss® and Von Duprin®. Focusing on security around the door and adjacent areas, Allegion secures people and assets with a range of solutions for homes, businesses, schools and institutions. Allegion had $2.7 billion in revenue in 2018, and sells products in almost 130 countries. For more, visit www.allegion.com. © 2020 Allegion 111850, Rev. 06/20 www.allegion.