Schindler elevators PCRTWN4 Card reader module PCR-TWN4 User Manual PCR with Elatec TWN4 006x
Schindler elevators Ltd Card reader module PCR-TWN4 PCR with Elatec TWN4 006x
Users manual
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| Mirror Download [FCC.gov] | |
| Document ID | 4110220 |
| Application ID | amOs/Ive6DkXA1jk92va7Q== |
| Document Description | Users manual |
| Short Term Confidential | No |
| Permanent Confidential | No |
| Supercede | Yes |
| Document Type | User Manual |
| Display Format | Adobe Acrobat PDF - pdf |
| Filesize | 36.98kB (462234 bits) |
| Date Submitted | 2018-12-17 00:00:00 |
| Date Available | 2018-12-19 00:00:00 |
| Creation Date | 2018-12-19 15:24:34 |
| Producing Software | Adobe PDF Library 15.0 |
| Document Lastmod | 2018-12-19 15:24:39 |
| Document Title | Microsoft Word - PCR with Elatec TWN4 - 006.docx |
| Document Creator | Acrobat PDFMaker 15 for Word |
| Document Author: | schwarse |
RFID Reader for PORT PCR-TWN4 Contents 1 Introduction ...................................................................................................................................... 2 Scope ............................................................................................................................................... 3 Compatibility .................................................................................................................................... 3 General overview............................................................................................................................ 3 References ...................................................................................................................................... 3 2 General board implementation ...................................................................................................... 4 Block schematic .............................................................................................................................. 4 Functionality .................................................................................................................................... 4 USB and Power supply .................................................................................................................. 4 TWN4 module ................................................................................................................................. 5 radio .................................................................................................................................................. 6 HF antenna ...................................................................................................................................... 6 Input/Output ..................................................................................................................................... 7 Wiegand output ............................................................................................................................... 8 K-LC1A radar interface .................................................................................................................. 8 JRC radar interface ......................................................................................................................10 RGB LEDs .....................................................................................................................................11 SAM sockets .................................................................................................................................11 3 Mechanics ......................................................................................................................................12 4 Reliability ........................................................................................................................................13 EMC ................................................................................................................................................13 Climatic conditions .......................................................................................................................13 Certifications..................................................................................................................................13 5 Document History..........................................................................................................................14 6 Appendix.........................................................................................................................................15 © PORT Technology by Schindler Ltd - Oct 20, 2017 1 Introduction Currently PORT Technology by Schindler supports a wide range of readers (C0…C10). In order to reduce the variety of card readers, we would like to introduce the TWN4 reader. The target devices for PCR-TWN4 are PORT1 and PORT4. Both devices have a metal housing that has an influence on the RFID readers. PORT1 PORT4 © PORT Technology by Schindler Ltd - Oct 20, 2017 Scope The PCR-TWN4 board implements the following main parts and functions: USB interface to host Radar interface (similar PCRI) I/O interface (similar PCRI): - 2 inputs - 2 outputs Wiegand Output (similar NFCUSB) 4 x RGB LED’s Compatibility The PCR-TWN4 is hardware compatible with PCRI resp. NFCUSB. General overview Elevator Controller PORT USB Host LEP, MLEP, WLEP ... TWN4 PCR-TWN4 HF antenna References REF[1] REF[2] REF[3] data sheet TWN4 reader module (www.elatec-rfid.com) data sheet K-LC1a radar transceiver (www.rfbeam.ch) data sheet JRC radar transceiver © PORT Technology by Schindler Ltd - Oct 20, 2017 2 General board implementation Block schematic PCR-TWN4 USB Wiegand output 4 RGB LEDs IOs TWN4 module K-LC1a radar interface SAM socket (optional) HF antenna JRC radar interface LF antenna (optional) Functionality The main function of the PCR-TWN4 board is a RFID reader to be integrated into Schindler’s PORT1 and PORT4 devices. The communication between the PCR-TWN4 and the host is made through the USB. USB and Power supply The main board power supply is U = 5 VDC ± 5% Imax = 500 mA from the Host The USB communication is 2.0 Full-Speed (12Mbps). USB from the host is connected to the TWN4 board. Connector: Silkscreen: pin SMD 4 poles JST male conn., right angle, 2 mm, Id. Nr. 432841 USB signal name VCC1 USB_DM USB_DP M0 max. voltage 5 VDC 5 VDC 5 VDC 0 VDC © PORT Technology by Schindler Ltd - Oct 20, 2017 Tol. ±5% ±5% ±5% max. current 500 mA 50 mA 50 mA description power USB data ground TWN4 module As a default the Mifare NFC Standard module should be applied. See also REF[1] © PORT Technology by Schindler Ltd - Oct 20, 2017 radio The RF frontend handles the transceiver functionality for contactless communication with a transponder at a frequency of 13.56 MHz with ASK. HF antenna Housing of PORT devices must be taken into account. Reading distance of min. 2 cm is requested, measured from the top of the housing. HF antenna integrated into the PCB with the following features: © PORT Technology by Schindler Ltd - Oct 20, 2017 Input/Output Connector : Silkscreen: pin signal name VCC1 OUT1 OUT2 IN1 IN2 M0 SMD 6 poles JST male conn., right angle, 2 mm, Id. Nr. 208193 I/O max. voltage 5 VDC 24 VDC 24 VDC 0 VDC © PORT Technology by Schindler Ltd - Oct 20, 2017 Tol. ±5% ±20% ±20% max. current 50 mA 1A 1A description power open drain output input ground Wiegand output Connector: Silkscreen: pin SMD 3 poles JST male conn., right angle, 2 mm, Id. Nr. 59902178 W_OUT signal name DATA1 DATA0 GND max. voltage 12 V 12 V Tol. max. current 20 mA 20 mA description Wiegand Data 1 Wiegand Data 0 K-LC1A radar interface Connector: Silkscreen: pin SMD 2x3 poles pass through conn., low profile, 2.54 mm, Id. Nr. 208176 RADAR signal name GND nc RADAR_SIG nc VCC nc max. voltage 0 VDC 5 VDC Tol. ±5% max. current 50 mA description ground Signal direct from the radar see REF [1] power sample cicuit below: © PORT Technology by Schindler Ltd - Oct 20, 2017 © PORT Technology by Schindler Ltd - Oct 20, 2017 JRC radar interface Connector: Silkscreen: pin flex cable connector (SFV6R-1STE9HLF) RADAR signal max. name voltage 3V3 GND UART_RADAR_TX UART_RADAR_RX RADAR_APPROACHING RADAR_LEAVING Tol. max. current description power ground uart uart object approaching signal object leaving signal (optionally connected to micro controller) additional pull-up or pull-down resistors fro the following signals: - UART_RADAR_RX (resp. UART2_RX) - RADAR-APPROACHING - RADAR_LEAVING © PORT Technology by Schindler Ltd - Oct 20, 2017 10 RGB LEDs SAM sockets optionally mounted: prepared for HID SAM (socket 1), customized SAM (socket 2) Connector: Silkscreen: see picture above SAM1 resp. SAM2 © PORT Technology by Schindler Ltd - Oct 20, 2017 11 3 Mechanics PCB size: PCB thickness: 100 mm x 75 mm 1.6 mm cutouts for - radar (top left corner) - camera (at button in the middle) connector for K-LC1 radar positioned as designed in the top left corner (grey area) connector for JRC radar in line with the cutout for the radar (green area) position holes (d = 3mm) in the area where marked © PORT Technology by Schindler Ltd - Oct 20, 2017 12 4 Reliability EMC The board must comply with the requirements of EN12015:2004 and EN12016:2004. Tests are performed at system level. Climatic conditions Operating temperature: Relative humidity: Altitude: ambient temperatures of 0 to 60 °C. yearly average less or equal to 65%, 60 days 85%. up to 2000 m above sea level. Climatic tests are performed at system level. Certifications The PCR-TWN4 comply from 15.19 / 15.21 and RSS-Gen clause 8.4. The PCR-TWN4 complies with the following requirements: • FCC (Federal Communications Commission) Part 15 • IC (Industry Canada) RSS-102 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 2. This device must accept any interference received, including interference that may cause undesired operation This device contains licence-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: • This device may not cause interference. • This device must accept any interference, including interference that may cause undesired operation of the device Changes or modification not expressly approved by the party responsible for compliance could void the user’s authority to operate the equipment. FCC ID: XFIPCRTWN4 IC ID: 9114A-PCRTWN4 © PORT Technology by Schindler Ltd - Oct 20, 2017 13 Label example of the final product 5 Document History 2015 Feb 9 Scs 2015 July 2 Scs 2015 Aug 5 Scs 2017 Oct 20 Scs 2018 Nov 17 Bua Version 2 - radar interface: electrical schematics adapted - input/output: max. current specified Version 3 - additional cutouts on pcb for camera and radar - integration of JRC radar module - positioning of connector for K-LC1 radar module Version 4: - mechanical dimensions updated Version 5: - Input/Output schematic modified for external handicapped button Version 6: chapter 2. General Board Implementation: - subchapter radio introduced with description of modulation schemes - subchapter HF and LF antenna extended with description of physical antenna dimension chapter 4. Reliability - subchapter Certifications introduced © PORT Technology by Schindler Ltd - Oct 20, 2017 14 6 Appendix Sample layout of PCB according chapter 3: © PORT Technology by Schindler Ltd - Oct 20, 2017 15
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