Schindler elevators PCR2TWN4 Card reader module PCR2-TWN4 User Manual Users manual
Schindler elevators Ltd Card reader module PCR2-TWN4 Users manual
Users manual
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| Document ID | 4110203 |
| Application ID | tllR2KyCm0l5wnOK/viPlQ== |
| Document Description | Users manual |
| Short Term Confidential | No |
| Permanent Confidential | No |
| Supercede | Yes |
| Document Type | User Manual |
| Display Format | Adobe Acrobat PDF - pdf |
| Filesize | 34.44kB (430462 bits) |
| Date Submitted | 2018-12-17 00:00:00 |
| Date Available | 2018-12-19 00:00:00 |
| Creation Date | 2018-12-19 15:21:45 |
| Producing Software | Adobe PDF Library 15.0 |
| Document Lastmod | 2018-12-19 15:21:50 |
| Document Title | Microsoft Word - PCR2 for PORT with Elatec TWN4-002.docx |
| Document Creator | Acrobat PDFMaker 15 for Word |
| Document Author: | schwarse |
RFID Reader for PORT PCR2-TWN4 Contents 1 Introduction .................................................................................................................................... 2 1.1 Scope ................................................................................................................................. 2 1.2 Compatibility ...................................................................................................................... 2 1.3 References......................................................................................................................... 2 2 General board implementation ..................................................................................................... 3 2.1 USB.................................................................................................................................... 4 2.2 RADAR .............................................................................................................................. 4 2.3 IO-Extension Connector X1 and X2.................................................................................. 5 2.3.1 X1 - USB .................................................................................................................... 5 2.3.2 X1/X2 - Power Supply ............................................................................................... 5 2.3.3 X2 - Ext. reset button ................................................................................................. 5 2.3.4 X2 - IOs ...................................................................................................................... 6 2.3.5 X1 - aux interfaces - wiegand output and UART ...................................................... 7 2.3.6 X2 - External radar..................................................................................................... 8 2.3.7 X1 - Hardware detection ............................................................................................ 9 2.3.8 X2 - I2c serial interface .............................................................................................. 9 2.3.9 X1 - LED driver reset output ...................................................................................... 9 2.3.10 X1/X2 – Debug interface ......................................................................................... 10 2.4 on-boad RGB LEDs......................................................................................................... 10 2.5 TWN4 module.................................................................................................................. 11 radio ......................................................................................................................................... 11 HF antenna ................................................................................................................................. 11 2.7 SAM sockets .................................................................................................................... 12 2.8 Status leds ........................................................................................................................ 12 3 Mechanics ................................................................................................................................... 13 4 Reliability ..................................................................................................................................... 14 Certifications ............................................................................................................................... 14 5 Document History........................................................................................................................ 15 © PORT Technology by Schindler Ltd - Mai 30, 2017 1 Introduction PCR2-TWN4 is the successor of PCR-TWN4 resp. PCR-TWN4-mini adapted to the next generation PORT design. The major difference is the arrangement of camera and RFID reader within the fancy RGB LED circle. The target devices for PCR2-TWN4 are: PORT1 1.1 PORT4 PORT5 Scope The PCR2-TWN4 board implements the following main parts and functions: • • • • • • ’ USB connector to PORT5 Connector for NJR radar Fancy RGB LED circle: on-board and off-board (PCRI, RLEB) Interface to external ios: - Wiegand output - RS232 interfaces - RF beam radar interface hole for camera 1.2 Compatibility The PCR2-TWN4 is hardware compatible with the PCR2 PCB and software compatible with PCR-TWN4 resp. PCR-TWN4-mini. 1.3 REF[1] REF[2] REF[3] REF[4] REF[5] REF[6] References PCRI2.Q + PCR2.Q + RLEB1.Q, technical description Q xx xxx xxx Ae 0 PCR-TWN4, Reader for PORT July 2 2015 PCR-TWN4-mini, Reader for PORT Feb 4 2016 data sheet TWN4 MultiTech Nano module www.elatec-rfid.com blank board PCR2.Q, mechanical drawing Q xx xxx xxx Ae 0 PCRI2 camera support + support cap, mechanical drawing Z 419 06623 Ae 0 © PORT Technology by Schindler Ltd - Mai 30, 2017 2 General board implementation Block Schematic © PORT Technology by Schindler Ltd - Mai 30, 2017 2.1 USB signals on connector USB according REF[1], chapter 3.3.2: - VDD - VCC1 - USB_DM - USB_DP - M0 power supply according REF[1], chapter 2.4 implementation on PCR2: 2.2 RADAR As a standard, NJR radar is connected. However, with an extension board (analog filter) it is also possible to connect a radar by RF Beam. signals on connector RADAR according REF[1], chapter 3.4.2: - 3V3 - RADAR_APPROACHING (NJR or RF Beam) - GND © PORT Technology by Schindler Ltd - Mai 30, 2017 2.3 IO-Extension Connector X1 and X2 implementation on PCR: 2.3.1 X1 - USB signals on connector X1 according REF[1], chapter 3.5.2.1: - USB_DM - USB_DP 2.3.2 X1/X2 - Power Supply signals on connector X1 and X2 according REF[1], chapter 3.5.2.1 and 3.5.2.2: - GND - VCC - 3V3 power supply according REF[1], chapter 2.4 2.3.3 X2 - Ext. reset button signals according REF[1], chapter 3.5.2.2: - RESET~ implementation on PCR (on-board reset button not required): © PORT Technology by Schindler Ltd - Mai 30, 2017 2.3.4 X2 - IOs signals on connector X2 according REF[1], chapter 3.5.2.2: - O2_uC - O1_uC - I2_uC - I1_uC external circuit on PCRI2: © PORT Technology by Schindler Ltd - Mai 30, 2017 2.3.5 X1 - aux interfaces - wiegand output and UART signals on connector X1 according REF[1], chapter 3.5.2.1: - D1_OUT_uC - D0_OUT_uC - UART1_RX - UART1_TX external circuit on PCRI2: © PORT Technology by Schindler Ltd - Mai 30, 2017 2.3.6 X2 - External radar The RADAR interface designed for both: NJR and RF Beam. When NJR is used the UART can be used to set the sensitivity (however the default value on the NJR is supposed to be ok for our application). signals on connector X2 according REF[1], chapter 3.5.2.2: - RADAR_APPROACH (NJR and RF Beam) - RADAR_LEAVING (NJR only) - UART2_RX (NJR only) - UART2_TX (NJR only) Circuit on external PCRI board: © PORT Technology by Schindler Ltd - Mai 30, 2017 2.3.7 X1 - Hardware detection signals on connector X1 according REF[1], chapter 3.5.2.1: - PCRI_DET - RLEB_DET hardware detection according REF[1], chapter 2.8 2.3.8 X2 - I2c serial interface signals on connector X2 according REF[1], chapter 3.5.2.2: - SDA_1 - SCL_1 external circuit on PCRI2: 2.3.9 X1 - LED driver reset output signal on connector X1 according REF[1], chapter 3.5.2.1: - PCRI_RGB_RESET~ © PORT Technology by Schindler Ltd - Mai 30, 2017 2.3.10 X1/X2 – Debug interface signals on connector X1 according REF[1], chapter 3.5.2.1: (to be used for Arm Cortex M0?) - JTDO - JTCK - JTMS - JTDI - JNTRST - RESET~ signals on connector X2 according REF[1], chapter 3.5.2.2: - UART2_TX - UART2_RX External circuit on PCRI2: 2.4 on-boad RGB LEDs implementation on PCR2: The RGB LED controllers (internal and external) are coordinated by an additional Cortex M0 processor. © PORT Technology by Schindler Ltd - Mai 30, 2017 10 2.5 TWN4 module TWN4-nano module is required to be used. Default hardware option with Elatec’s TWN4 MultiTech Nano module with PI taglist. PI taglist should always be activated independent if TWN4 SIO card (HID iClass) is present in SAM socket. See also REF[4] 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 with metal backplate of PORT1 and PORT4 device must be taken in account. Reading distance of min 2 cm is requested. HF antenna integrated into the PCB with the following features: © PORT Technology by Schindler Ltd - Mai 30, 2017 11 2.7 SAM sockets prepared for HID iClass SE Processor (socket 1), customized SAM (socket 2). Socket of HID iClass SE processor might be on the front side of the PCB. Connector: Silkscreen: 2.8 see picture above SAM1 resp. SAM Status leds LEDs according REF[1], chapter 2.13.2 © PORT Technology by Schindler Ltd - Mai 30, 2017 12 3 Mechanics according REF[1], chapter 4 PCB size: PCB thickness: 59 mm x 39 mm 1.0 mm extraxt from REF[5]: Camera hole X1 and X2 connector to PCRI or RLEB: RGB LEDs USB connector to PORT5 host RADAR connector to NJR radar © PORT Technology by Schindler Ltd - Mai 30, 2017 positioning according mechanical drawing beware of camera support (REF[6]) positioning according mechanical drawing positioning according mechanical drawing positioning free positioning free 13 4 Reliability see REF[1], chapter 5 Certifications The PCR2-TWN4 comply from 15.19 / 15.21 and RSS-Gen clause 8.4. The PCR2-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: XFIPCR2TWN4 IC ID: 9114A-PCR2TWN4 © PORT Technology by Schindler Ltd - Mai 30, 2017 14 Label example of the final product 5 Document History 2017 Mai 29 2017 Juni 2 2018 Nov 16 Scs Scs Bua 1st draft Adapted to feedback from A. Buetti Version 2 chapter 2. General Board Implementation: - subchapter radio introduced with description of modulation schemes - subchapter HF and LF antenna introduced with description of physical antenna dimension chapter 4. Reliability - subchapter Certifications introduced © PORT Technology by Schindler Ltd - Mai 30, 2017 15
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