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OEM 200 Developer guide 2 Schlage OEM 200 Developer guide Contents FCC Statements IC Statements iv v vi Contact information vi Warnings and cautions Introduction 7 7 General Description 8 Specifications 15 Operational Behavior 15 Powering Up the OEM 200 15 Communication 15 RF Field 16 Diagnostic LEDs 17 General Output 18 Reader Configuration 19 Design Considerations 19 Cable 20 Mounting Consideration 22 Environmental 22 Electrostatic Discharge (ESD) Precautionary Statement 22 EMI Design Consideration 23 Troubleshooting 25 Appendix A: Terms and Abbreviations 27 Appendix B: OSDP Communication 29 Appendix C: System Performance Requirements 29 Measurements Required per Integration Agreement 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. This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:
Reorient or relocate the receiving antenna. Increase the separation between the equipment and receiver. Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. Consult the dealer or an experienced radio/TV technician for help FCC Labeling Requirements Exterior of product must include Contains Transmitter Module FCC ID: XPB-OEM 200-XXXXwhere XXXX is the model included in the installation OEM 200 Model FCC Certification Number 80mm Multi-Tech XPB-OEM 200-80MT 80mm Smart Only XPB-OEM 200-80SM 90mm Multi-Tech XPB-OEM 200-90MT 90mm Smart Only XPB-OEM 200-90SM FCC Integration Requirements 1. The FCC/IC Statements contained in this guide must also be included in the final products documentation. 2. Applicable standards are 15.225, 15.209, and RSS-210. 3. For the purposes of compliance testing, it may be necessary to put the OEM 200 Module into a constant read mode. In order to achieve this, present an Anti-Passback configuration card within the first minute of the module being powered. If performed correctly, the module will reboot and presenting a credential will result in constant reading and rereading of a credential as long as it remains in the operating volume of the antenna. This differs from normal operation in that when a credential is polled for a second time under normal operation the credential data is not output as it is seen as redundant. 4. Take care to NOT to place the OEM 200 antenna boards near other wireless antennas as they may cause interference with each other and result in the need for additional RF testing. Preferred distance is three (3) inches from other wireless transceivers. 5. The OEM 200 is only FCC authorized for the specific rule parts listed on the grant (the applicable standards from note
#2). The host product manufacturer is responsible for compliance to any other FCC rules that apply to the host not covered by the modular transmitter grant of certification. iv Schlage OEM 200 Developer guide 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 Canadas 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. Lmetteur/rcepteur exempt de licence contenu dans le prsent appareil est conforme aux CNR dInnovation, Sciences et Dveloppement conomique Canada applicables aux appareils radio exempts de licence. Lexploitation est autorise aux deux conditions suivantes :
1. Lappareil ne doit pas produire de brouillage;
8. Lappareil doit accepter tout brouillage radiolectrique subi, mme si le brouillage est susceptible den compromettre le fonctionnement IC Labelling Requirements The host product shall be properly labelled to identify the modules within the host product. The ISED certification label of a module shall be clearly visible at all times when installed in the host product; otherwise, the host product must be labelled to display the ISED certification number for the module, preceded by the word "contains" or similar wording expressing the same meaning, as follows:
Contains IC: XXXXXX-YYYYYYYYYYY Where XXXXX-YYYYYYYYYY is one of the ISED certification numbers form the following table OEM 200 Model ISED Certification Number 80mm Multi-Tech 8053B-OEM 20080MT 80mm Smart Only 8053B-OEM 20080SM 90mm Multi-Tech 8053B-OEM 20090MT 90mm Smart Only 8053B-OEM 20090SM Schlage OEM 200 Developer guide v 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. CAUTION Cautions indicate potentially hazardous conditions, which if not avoided or corrected, may cause minor or moderate injury. Cautions may also warn against unsafe practices. NOTICE Notices indicate a condition that may cause equipment or property damage only. vi Schlage OEM 200 Developer guide 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. By offering 125 kHz and 13.56 MHz technology in a single compact reader module, the OEM 200 module gives a product the flexibility to be used in many of the most popular credential technology environments The OEM 200 Module architecture consists of 2 PCB boards connected by a flexible ribbon cable - see Figure 1.1. The OEM 200 Main Board interfaces with the host device and provides a diagnostic LED interface. The OEM 200 Antenna connects to the Main Board and has both the 125 kHz and the 13.56 MHz antennas. There are two antenna sizes available; 80mm and 90mm antennas, and both antenna sizes come in multi-tech and smart only versions. 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. Figure 1.1: OEM 200 main board connected to an 80mm antenna board via 4 inch flexible cable (Top View) Schlage OEM 200 Developer guide 7 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 C Board shape 0.20 A B C 55.00
(2.165) 22.00
(0.866) 25.00
(0.984) B 6.10
(0.240) 3.15
(0.124) 3.00
(0.118) 40.00
(1.575) 3.00
(0.118) C Figure 1.2: OEM 200 Main board area and mounting hole locations mm (inches). 6.00
(0.236) A Figure 1.3: Vertical height of tallest component off of the OEM 200 Main board mm (inches). 8 Schlage OEM 200 Developer guide 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 C Board shape 0.20 A B C 79.38
(3.125) 32.77
(1.290) 12.95
(0.510) Introduction | Specifications 80mm Antenna 34.29
(1.350) B 18.67
(0.735) 10.57
(0.416) 15.62
(0.615) 3.56
(0.140) C 46.74
(1.840) 16.13
(0.635) 16.51
(0.650) 32.64
(1.285) Figure 1.4: 80 mm Antenna Board: Dimensional area and mounting hole locations in mm (inches). Figure 1.5: 80 mm Antenna Board: Vertical height of tallest component off of board in mm (inches). 3.43
(0.135) A Schlage OEM 200 Developer guide 9 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 0.20 A B C 91.44
(3.600) 16.13
(0.635) 20.32
(0.800) Introduction | Specifications 90mm Antenna C 10.87
(0.428) 34.29
(1.350) 23.42
(0.922) B 3.56
(0.140) 17.15
(0.675) 8.99
(0.354) 11.33
(0.446) 10.41
(0.410) 11.33
(0.446) 50.80
(2.000) Figure 1.6: 90 mm Antenna Board: Dimensional area and mounting hole locations mm (inches). Figure 1.7: 90 mm Antenna Board: Vertical height of tallest component off of the board mm (inches). 3.43
(0.135) A 10 Schlage OEM 200 Developer guide Introduction | Specifications Electrical Specifications Symbol Parameter T F Vin IAVG IMAX WOL WOH TTLOL TTLOH OI OOL OOH OPW Operating Temperature Frequency DC Voltage Input Average Current at 12V Max Current at 12V Wiegand Output Logic Low Wiegand Output Logic High TTL Interface Logic Low Min
-35 5 0 0 TTL Interface Logic High 2.65 General Output Current General Output Logic Low 0 General Output Logic High 2.65 General Output Pulse Width Typical 0 125kHz and 13.56MHz 50 100 5 3.3 3.3 150 Max 65 16*
0.4 0.495 3.6 25 0.495 3.6 Units oC Hz V mA mA V V V V V V mA ms CAUTION
* Application of more that 16V may damage the device. Interface Descriptions Wiegand Output: Common data interface in an access control system consisting of D0 and D1 Wiegand communication lines. For more information see this basic reference: https://en.wikipedia.org/wiki/Wiegand_interface TTL: Serial interface to enable bi-directional communication between the OEM 200 and the host device. For more information see this basic reference: https://en.wikipedia.org/wiki/Universal_asynchronous_receiver/transmitter. The OEM 200 internally utilizes 1k pull-ups on the TTL interface. General Output: Digital output that is normally low and goes high indicating that the OEM 200 successfully read a card. The Host device can use this signal to sound a buzzer or turn on a light. Read Range Card Read Range in Free Space*
Card Frequency 125kHz 13.56MHz 13.56MHz 13.56MHz 13.56MHz Card Type ASK, FSK ISO 15693 Read Range Up to 2.75 inches Up to 2.75 inches ISO 14443A MIFARE Classic Up to 3.25 inches ISO 14443A MIFARE DESFire EV1 Up to 1.25 inches ISO 14443A MIFARE Plus Up to 1 inch
* Antenna location inside end product and surrounding materials will affect the read range performance. See Mounting Consideration on page 20. Schlage OEM 200 Developer guide 11 Introduction | Specifications Credential Specifications Card Technologies Supported 125 kHz Technologies GE/CASI Proximity HID Proximity (Except Long Format) AWID Proximity LenelProx 13.56 MHz Technologies ISO14443 MIFARE DESFire EV1 with PACSA enabled
(format in the card up to 48 bits) ISO14443 Secure MIFARE Classic:
XceedID MIFARE app enabled (format in the card up to 48 bits) OESM (dormant ready to be enabled by end-user) ISO14443 MIFARE Plus ISO14443 PIV enabled 75-bit format (other formats available) iClass/Inside UID enabled 40-bit format ISO15693 UID enabled 40-bit format ISO14443 UID disabled (can be enabled if PIV, EV1, and MIFARE are all disabled) Felica CSN aptiQmobile CAUTION OEM 200 assemblies are susceptible to damage by Electrostatic Discharge (ESD). Host Connector Specifications Connection to the host device can be installed into the OEM 200s 7-position host connector without tools. The push-in spring connection can accept wire sizes of 20AWG to 26AWG with the insulator stripped 6 mm. To release a wire from the connector insert small screw driver with blade with a tip of 2mm into the slot directly above the wire terminal. This will release the spring clamp and free the wire from the connector. Refer to Phoenix Contact p/n: 1771075 for more details. https://www.phoenixcontact.com/us/products/1771075 The wire length between the OEM 200 and host device is recommended to be 1 meter or less. However, if an application requires longer a cable distance consider the effects of voltage drop and signal integrity across a longer distance. Pin Signal Connector Host Connector J1 Wiegand D0 Wiegand D1 Ground General Output TTL TX TTL RX Vin*
CAUTION
* Incorrect wiring may damage the device. 12 Schlage OEM 200 Developer guide 7 6 5 4 3 2 1 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. The best verification step is to ensure the ribbon is securely fastened into both connectors and verify that card reads are successful. Closed Open Introduction | Specifications Antenna Connection Step 1: Note that the cable locking mechanism on the connector is shipped in the closed position by default. Step 2: Gently pull grey cable locking mechanism away from connector to the open position as shown. Step 3: Insert cable into connector with the blue reinforcement tape facing down. Step 4: Verify the cable is oriented correctly before proceeding. This image shows the ribbon incorrectly inserted into the cable connector. Step 5: While maintaining proper ribbon cable alignment in the connector, firmly push the grey cable locking mechanism to the closed position. Step 6: Following steps 2 5 above, connect the other end of the ribbon cable to the antenna board. 90 mm antenna board shown. Your completed OEM 200 assembly should look similar. OEM 200-TTL Main Board coupled with a 90 mm antenna board shown. Schlage OEM 200 Developer guide 13 14 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. If an OSDP session is initiated over the serial interface, the Wiegand interface will be disabled. Default Serial Communication Parameters Address Baud Rate Data Bits Parity Stop Bits 0x00 9600 8 No Parity 1 Stop Bit See Appendix B: OSPD Communication on page 23 for supported OSPD messages RF Field The OEM 200 module has a 100 ms cycle time for polling for credentials. This cycle turns the 13.56MHz field on for 42 ms, the off for 18 ms. Then the 125 kHz field is turned on for 20 ms, then off for 20 ms. This cycle is continuously repeats while the OEM 200 is operating in a normal operational mode. 13.65 MHz Field 125 kHz Field on off 0 100 200 300 400 500 600 Figure 2.1: High and low frequency field polling cycle, time in milliseconds Schlage OEM 200 Developer guide 15 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. LED1 - Power LED LED2 System Idle LED3 Card Read Successfully 16 Schlage OEM 200 Developer guide 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. During normal operation the LEDs behave as described in the table below Diagnostic LEDs LED Behavior LED1 Power LED: Turns on when unit is powered on LED2 Diagnostic LED: LED2 is typically on. LED2 turns off when a card is being read. LED3 Diagnostic LED: LED3 is typically off. LED3 turns on when a card is successfully read. The diagnostic LEDs provide feedback information during the Power-On-Self-Test (POST). The table below describes the meanings of each flashing sequence. Diagnostic LEDs after power on self-test (POST) LED 2 Solid LED 3 Off Meaning Pass the self-test Idle state 2 short flashes 1 long flash Not valid personality 2 short flashes 2 long flashes SAM communication failure 2 short flashes 3 long flashes RC663 communication failure 4 short flashes 4 long flashes SAM functional failure General Output The General Output is used to notify the host system of OEM 200 activity. A typical use for the General Output is to enable audio or visual user feedback to inform the user of OEM 200 activity. The General Output can be connected directly to a digital input on the host device or connected to an LED and/or buzzer. It is recommended to provide power to an LED or buzzer with a separate power source. At power on start up the General Output sends out a single pulse for 200 ms. After a Power-On-Self-Test (POST) the General Output sends out a pulse simultaneously with each short and long LED flash described in the table above. During normal operation the General Output sends out a single 150 ms pulse when a card is read successfully. on off 0 100 200 300 400 500 600 700 800 900 1000 System Power off on Idle state Card read success Idle state Card read success Idle state Figure 2.2: General output, time in milliseconds Schlage OEM 200 Developer guide 17 Operational Behavior | Reader Configuration Reader Configuration The OEM 200 has the following default configuration parameters set when it leaves the factory. Parameter General Output Default Value 1 = Enabled Options 0=Disabled Units of Measure Secure Application 1 MSA On, HID On, AWID On, MFP On All 16 permutations Prox Report Delay 0= No delay 0.0 1.6s, in 0.2s intervals seconds OSDP Baud Rate 0=9600 Baud 9600 230,400 Baud Bits per second OSDP Address 0 OSDP Secure Only 0 = Not secure only Wiegand Output 0= Enabled 0 - 127 1 = secure only 1 = Disabled Point of Sale Data Format 1=SMS Express Format 2=ID Only, 3=Hexadecimal None None None None None Integer address If necessary, changes to the default configurations can be achieved. Please contact your Allegion representative for more information. 18 Schlage OEM 200 Developer guide Design Considerations Allegion will require acceptable OEM 200 performance in the final integration. Reference legal contract agreement for details Allegion requests the following information about the OEM 200 integration into the host device to ensure optimum performance of the OEM 200:
Physical placement of antenna relative to card read location Demonstration of acceptable read range performance Environmental protection of the OEM 200 from moisture and contaminants Cable The OEM 200 comes with a 4 inch flat flex cable to connect the Main board to the Antenna board. For alternate cable length contact Allegion Avoid creasing, pinching the cable. The cable should be relaxed without tension. Add strain relieve if needed. Figure 3.1: Dimensions of the OEM 200 Board connected to an 80 mm Antenna. Dimensions shown are in mm (inches). 95.05
(3.274) 97.13
(3.824) 133.05
(5.238) 65.96
(2.597) 86.28
(3.397) 120.95
(4.762) Figure 3.2: Dimensions of the OEM 200 Board connected to a 90 mm Antenna. Dimensions shown are in mm (inches). Schlage OEM 200 Developer guide 19 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. Antenna board placement:
To maximize the read range performance of the OEM 200 place the Antenna Board as close as possible to the location where the credential will be presented. We recommend using non-metallic fasteners to mount the Antenna Board to the end product. NOTICE When mounting the Antenna Board we recommend keeping it at least 1 cm away from metal planes. A metal plane within 1 cm from the antenna board can lead to a significant drop in read range performance. 10.00
(0.400) 10.00
(0.400) 10.00
(0.400) 10.00
(0.400) 10.00
(0.400) 10.00
(0.400) Figure 3.3: Front View: Keep antenna board 10 mm from Figure 3.4: Side View: Minimize distance between card metallic objects on all sides. presentation and antenna board. 20 Schlage OEM 200 Developer guide 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 3.5: Read range will be maximized when the center of the card aligns with the center of the antenna board and the long edges of both are kept parallel. Figure 3.6: The above image shows good alignment between the card being presented and antenna board. Schlage OEM 200 Developer guide 21 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. Environmental Factor*
Minimum Temperature Humidity
-35C (-31F) 0 %RH Maximum 65C (149F) 95% RH Nominal 24C (75F) 55% RH
Though not all are listed here, there are other environmental factors which could impact the system performance and long term reliability of the end product. Pay careful consideration to other environmental factors such as shock, vibration, radiation, UV exposure, etc. Electrostatic Discharge (ESD) Precautionary Statement CAUTION OEM 200 assemblies are susceptible to damage by Electrostatic Discharge (ESD). Electrostatic discharge can damage the OEM 200 assembly. Use caution and focus on these areas when handling and installing the OEM 200 assembly into the end product. The OEM 200 must be handled in an ESD safe environment during assembly of the OEM 200 into an end product. It is recommended that best practices for ESD control be followed whenever handling the OEM 200. Refer to JEDEC 625 for best practices for ESD controls. Eliminate static charges from the workplace and ensure proper ESD precautions are used prior to handling electronic assemblies. This is accomplished by grounding operators, equipment, and devices (components and computer boards). It is recommended that the OEM 200 be powered off during handling and installation processes. Ensure that components and assemblies have proper shielding from static fields when installed into the end product. Proper grounding prevents static charge buildup and electrostatic potential differences. The end product must provide proper ESD protection to the OEM 200 system for operation in the field EMI Design Consideration The OEM 200 Module has been pre-scanned and is compliant to FCC part 15 for North America and EN300330 for Europe. Although the OEM 200 Module does meet the EMC regulations for noise emissions as stated above, care must be taken when integrating it into a larger system. A key design tip is to avoid routing the OEM 200 host or antenna cables over or near clock sources, power sources, or high speed signals. A general rule of thumb is to keep the cables routed at least 2 cm away from these types of signals. The further away the better. Allegion has obtained an EMI scan report for the OEM 200 and this report can be made available upon request. Please contact your Allegion representative for more information. Since the OEM 200 Module may be used in a variety of applications, the responsibility to conform to local regulations is left to the customer. For OEM 200 EMI testing guidance please contact your Allegion representative. 22 Schlage OEM 200 Developer guide Troubleshooting Issue Potential Causes Action Cannot read smart or prox card or degraded smart or prox card read range Antenna cable is disconnected Antenna Board is near metal object 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 Separate Antenna Board from metal object and verify read range performance. Move Antenna away from metal object if possible Main Board is not powered on Check that power supply is providing power Verify LED1 on bottom of Main Board is on Card data is not received on hosts Wiegand interface Wiring connection is loose or disconnected Verify Wiegand wiring connection is secure An OSDP session is established (which disables Wiegand output) End the OSDP session or disconnect RS-485 OSDP communication Wiring connection is loose or disconnected Verify communication wiring connection is secure Communication settings do not match between OEM 200 and host Verify host communication settings are the expected settings. Revert OEM 200 back to default communication and re-establish connection General Output signal not received by host device Wiring connection is loose or disconnected Verify General Output wiring connection is secure Improper use of the OSDP protocol. Refer to the OSDP protocol standard. Schlage OEM 200 Developer guide 23 24 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. Because of the faster communication (compared to 125 kHz proximity technology) between a card and reader, this technology is better suited for biometrics and secure, authenticated transactions. ASK: Amplitude Shift Keying or modulation Refers to the process of altering the height of the radio waves to signify the zeros and ones in the binary communication ASK is the most common form of modulation used in RFID. It is used in both ISO 14443 and ISO 15693 specifications for reader to card communication. CSN: Card Serial Number. Also known as the UID or Unique Identifier which is specified in the ISO specifications. DESFire: A flexible, high security, ISO 14443 compliant, contactless smart card technology by NXP. ESD: Electrostatic Discharge Firmware: Software in the form of ROM or EEPROM that does not lose memory when power is not maintained. FSK: Frequency Shift Keying or modulation the process of altering the frequency of radio waves to signify the zeros and ones in the binary communication. ISO 14443: International standard regulating contactless, proximity technology, typically representing a read range distance up to 10 centimeters. The advantage products utilizing ISO 14443 have over those utilizing ISO 15693 is that the transaction speed is faster, making security and transaction speed superior for large packets of information such as biometric templates. ISO 14443 is actually divided into two sub-divisions of the standard, A & B. Without going into great detail, ISO 14443A has grown to be the leading standard for access control and transportation and 14443B for banking. ISO 15693: International standard regulating contactless, vicinity technology, typically representing a distance over 10 centimeters. The advantage ISO 15693 has over ISO 14443 is greater convenience due to longer read ranges and less power consumption. MIFARE: A proprietary contactless and dual interface smart card chip technology produced by NXP. Mifare is a well proven RF communication technology for transmitting data between a card and a reader device and is fully compliant with ISO 14443A. MIFARE Plus: A high security, ISO 14443 compliant, contactless smart card technology by NXP. Modulation: The changing of radio waves in a specific manner in order to represent data. OSDP: Open Supervised Device Protocol is a communication protocol for interfacing one or more Peripheral Devices to a Control Panel. Protocol: How computers talk to each other a communication system. Proximity: A card/credential and reader system utilizing RFID technology in which the credential and reader utilize microprocessors and antennas to communicate without having to come in contact with one another. This technology is usually associated with 125 kHz frequency readers, the historical standard RFID technology in access control. RS485: Standards for serial multipoint communications lines. These standards represent faster, two-way communication lines rather than the standard Wiegand one-way communication lines prevalent in the access control industry. Smart Card: A card or credential that contains a built-in microprocessor and memory used for identification and transactions in a number of applications (security, financial, etc.). The card has read/write capability to transfer data from a reader typically to a panel or computer. UID: See CSN above Wiegand Format: The most common data format in an access control system consisting of 26 bits of information. Schlage OEM 200 Developer guide 25 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.securityindustry. org/Pages/Standards/OSDP.aspx Default Serial Communication Parameters 0x00 9600 8 No Parity 1 Stop Bit Note: OSDP Secure is not recommended for use with this product. This is a single threaded application and with the latency of smart card reads bandwidth limitations could be a concern. Also due to the extended latency of reading smart card technologies, we recommend setting the Control Device parameter of Maximum Response Timeout to 500 ms minimum. OSDP Messages Supported by the OEM 200 Command Number Description 0x60 0x61 0x62 0x64 0x69 0x6A 0x6E 0x75 0x76 0x77 0x40 0x41 0x45 0x46 0x48 0x50 0x54 0x76 0x78 Poll ID Report Request PD Capabilities Request Local Status Report Request Reader Led Control Command Reader Buzzer Control Command PD Communication Configuration Command Encryption Key Set Command Challenge and Secure Session Initialization Rq. Server Cryptogram Command not processed PD ID Report PD Capabilities Report Local Status Report Reader Data Raw bit image of card data PD Communications Configuration Report Client's ID, Random Number, and Cryptogram Initial R-MAC Command Number Description Command accepted, nothing else to report Schlage OEM 200 Developer guide 27 OSDP Address Baud Rate Data Bits Parity Stop Bits COMMANDS Name osdp_POLL osdp_ID osdp_CAP osdp_LSTAT osdp_LED osdp_BUZ osdp_COMSET osdp_KEYSET osdp_CHLNG osdp_SCRYPT REPLIES Name osdp_ACK osdp_NAK osdp_PDID osdp_PDCAP osdp_LSTATR osdp_RAW osdp_COM osdp_CCRYPT osdp_RMAC_I 28 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. Please refer to your Developers Agreement for details. Read Range Performance Minimum Requirement Card Frequency Read Range*
125kHz 13.56MHz 13.56MHz 13.56MHz 13.56MHz Card Type ASK, FSK ISO 15693 0.375 in minimum, preferred 0.5 in or greater 0.375 in minimum, preferred 0.5 in or greater ISO 14443A MIFARE Classic 0.375 in minimum, preferred 0.5 in or greater ISO 14443A MIFARE DESFire EV1 0.375 in minimum, preferred 0.5 in or greater ISO 14443A MIFARE Plus 0.375 in minimum, preferred 0.5 in or greater
* Card Read Range as operated in end product Consideration on page 20. Antenna location inside end product and surrounding materials will affect the read range performance. See Mounting Schlage OEM 200 Developer guide 29 30 Schlage OEM 200 Developer guide 2020 Allegion 111850, Rev. 06/20 www.allegion.com/us
1 | Authorization Letter | Cover Letter(s) | 278.29 KiB | June 15 2020 / June 24 2020 |
4a Schlage Lock Company g a 11819 N Pennsylvania Street 46032 C 1 | United Stat Uwe. Tel +1 aoa sin _ A L L E G | O N" allegion.com 9/19/19 To Whom It May Concern:
We hereby delegate CKC Certification Services, LLC (CKC CS) power of attorney to act on our behalf in matters pertaining to certification of products. The actions of CKC CS shall be considered the same as our own. Sincerely, p . 4 . 4 '
Frank Nardelli Lead Hardware Engineer Schlage Lock Company 11819 North Pennsylvania Street Carmel, IN 46032
@CISA & interflex = LCN Simons=Voss VON DUPRIN technologies Schlage Lock Company Part of the Allegion family of brands allegion.com
1 | Confidentiality Request | Cover Letter(s) | 411.00 KiB | June 15 2020 / June 24 2020 |
4uh Schlage Lock Company ge gs 11819 N Pennsylvania Street 46032 C | | United Stat Wt. Tel +1 aCLHGaTI A L L E G | O N allegion.com 9/19/19 Federal Communications Commission 7435 Oakland Mills Road Columbia, MD 21046 Subject: Request for Permanent Confidentiality To whom it may concern:
In accordance with 47CFR Section 0.457 and Section 0.459 pertaining to confidential material, we hereby request to hold permanently confidential all information contained within the below identified exhibits/document categories submitted pursuant to radio equipment certification requirements for FCC ID: XPB-OEM200-90SM 1. Block Diagram 2. Operational Description 3. Schematics 4. Parts List / Tune-Up Procedure The above material contains trade secrets and proprietary information as specified by 47CFR 0.457(d) and technical data, which would customarily be guarded from competitors. The public disclosure of this information might be harmful to our company and provide unjustified benefits to our competitors. Sincerely, Yu Olde Frank Nardelli Lead Hardware Engineer Schlage Lock Company
@ CISA & interflex = LCN = Simons=Voss = VON DUPRIN technoto: gies Schlage Lock Company Part of the Allegion family of brands allegion.com
1 | Modular Letter | Cover Letter(s) | 957.66 KiB | June 15 2020 / June 24 2020 |
ata Schlage Lock Company gz gg 11819 N Pennsylvania Street way 46032 Carmel | United States Tel +1 317.810.3700 ALLEGION allegion.com 9/19/19 Federal Communications Commission Office of Engineering and Technology 7435 Oakland Mills Road Columbia, MD 21046 To Whom It May Concern:
This letter is to request Single Modular Approval in accordance with under FCC Rule Part 15.212(a)(1) for certification request under FCC ID: XPB-OEM200-90SM. This product is an embeddable RFID reader component and can be used in any device where an access control scheme is necessary. Declaration of conditions. Y/N 15.212(a)(1) Condition
(i) The radio elements of the module have their own shielding. The physical crystal and tuning capacitors may be located external to the shielded radio elements _|
Y (ii) The module has buffered modulation/data inputs (if such inputs are provided) to ensure that the module will comply with part 15 requirements under conditions of excessive data rates or over-
modulation.
(iii) The module has its own power supply regulation.
(iv) The module complies with the antenna and transmission system requirements of 15.203, 15.204(b) and 15.204(c). The antenna(s) are either permanently attached or employ a unique antenna coupler (at all connections between the module and the antenna, including the cable).
(v) The module was tested in a stand-alone configuration, i.e., the module was not inside another device during testing for compliance with part 15 requirements. Unless the transmitter module will be battery powered, it complies with the AC line conducted requirements found in 15.207. AC or DC power lines and data input/output lines connected to the module do not contain ferrites, unless they will be marketed with the module (see 15.27(a)). The length of these lines was the length typical of actual use or, if that length is unknown, at least 10 centimeters was used to insure that there is no coupling between the case of the module and supporting equipment. Any accessories, peripherals, or support equipment connected to the module during testing were unmodified and commercially available (see 15.31(i)).
@cISA & interflex LCN EQSWXT Simons=vVoss = VON DUPRIN technologies Schlage Lock Company Part of the Allegion family of brands allegion.com dite Schlage Lock Company a a 11819 N Pennsylvania Street LIAS 46032 Carmel | United States Tel +1 317.810.3700 ALLEGION alegion.com
(vi) The module is equipped with either a permanently affixed label or is capable of electronically displaying its FCC identification number.
(vii) The module complies with any specific rules or operating requirements that ordinarily apply to a complete transmitter and the applicant has provided adequate instructions along with the module to explain any such requirements.
(viii) The module complies with any applicable RF exposure requirements in its final configuration. The instructions provided with the module adequately explain any usage conditions or restrictions.
| acknowledge on behalf of the applicant that compliance of this module in all final configurations is the responsibility of the applicant under the condition that the integrator follows all provided installation instructions. Sincerely, Frank Nardelli Lead Hardware Engineer Schlage Lock Company
& CISA & interflex = LCN = Simons=Voss = VON DUPRIN technologies Schlage Lock Company Part of the Allegion family of brands allegion.com
frequency | equipment class | purpose | ||
---|---|---|---|---|
1 | 2020-06-24 | 13.56 ~ 13.56 | DXT - Part 15 Low Power Transceiver, Rx Verified | Original Equipment |
app s | Applicant Information | |||||
---|---|---|---|---|---|---|
1 | Effective |
2020-06-24
|
||||
1 | Applicant's complete, legal business name |
Schlage Lock Company
|
||||
1 | FCC Registration Number (FRN) |
0014798201
|
||||
1 | Physical Address |
11819 N. Pennsylvania Street
|
||||
1 |
Carmel, IN
|
|||||
1 |
United States
|
|||||
app s | TCB Information | |||||
1 | TCB Application Email Address |
t******@ckc.com
|
||||
1 | TCB Scope |
A1: Low Power Transmitters below 1 GHz (except Spread Spectrum), Unintentional Radiators, EAS (Part 11) & Consumer ISM devices
|
||||
app s | FCC ID | |||||
1 | Grantee Code |
XPB
|
||||
1 | Equipment Product Code |
OEM200-90SM
|
||||
app s | Person at the applicant's address to receive grant or for contact | |||||
1 | Name |
F****** N********
|
||||
1 | Title |
Lead Hardware Engineer
|
||||
1 | Telephone Number |
317-8********
|
||||
1 | Fax Number |
317-8********
|
||||
1 |
f******@allegion.com
|
|||||
app s | Technical Contact | |||||
n/a | ||||||
app s | Non Technical Contact | |||||
n/a | ||||||
app s | Confidentiality (long or short term) | |||||
1 | Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
1 | Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | No | ||||
if no date is supplied, the release date will be set to 45 calendar days past the date of grant. | ||||||
app s | Cognitive Radio & Software Defined Radio, Class, etc | |||||
1 | Is this application for software defined/cognitive radio authorization? | No | ||||
1 | Equipment Class | DXT - Part 15 Low Power Transceiver, Rx Verified | ||||
1 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | Embedded Smart Reader Module | ||||
1 | Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application? | No | ||||
1 | Modular Equipment Type | Single Modular Approval | ||||
1 | Purpose / Application is for | Original Equipment | ||||
1 | Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization? | No | ||||
1 | Related Equipment: Is the equipment in this application part of a system that operates with, or is marketed with, another device that requires an equipment authorization? | No | ||||
1 | Is there an equipment authorization waiver associated with this application? | No | ||||
1 | If there is an equipment authorization waiver associated with this application, has the associated waiver been approved and all information uploaded? | No | ||||
app s | Test Firm Name and Contact Information | |||||
1 | Firm Name |
CKC Laboratories, Inc.
|
||||
1 | Name |
S**** B********
|
||||
1 | Telephone Number |
209-9******** Extension:
|
||||
1 | Fax Number |
866 7********
|
||||
1 |
q******@ckc.com
|
|||||
Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 15C | 13.56000000 | 13.56000000 |
some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details
This product uses the FCC Data API but is not endorsed or certified by the FCC