Nedap Prox-Booster 2G Installation Manual
Nedap Prox-Booster 2G Installation Manual

Nedap Prox-Booster 2G Installation Manual

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Booster
installation guide
Prox-Booster 2G
Smartcard-Booster 2G
Smartcard-Booster Ultimate
2022-01-19 | v4.9 | Doc. no. 5285399
www.nedapidentification.com

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Summary of Contents for Nedap Prox-Booster 2G

  • Page 1 Booster installation guide Prox-Booster 2G Smartcard-Booster 2G Smartcard-Booster Ultimate 2022-01-19 | v4.9 | Doc. no. 5285399 www.nedapidentification.com...
  • Page 2 Copyright © Nedap N.V. All rights reserved. The information in this document is subject to change without notice, it is not to be reproduced in any way, in whole or in part, without the written consent of Nedap N.V. All trademarks...
  • Page 3: Table Of Contents

    Booster | installation guide Contents Introduction ..................................4 Installation ..................................5 Dimensions ................................5 Temperature considerations ........................... 5 Solar control windscreens ............................5 Identifying the Booster with a TRANSIT ........................... 6 How to use the Booster ............................6 Reader output ................................6 3.2.1 Dual ID mode (Vehicle ID + Driver ID) .......................
  • Page 4: Introduction

    The Booster allows an inserted Proximity or Smartcard driver ID card and embedded vehicle ID to be read from a distance up to 10 meters (33 feet) in combination with NEDAP TRANSIT readers. This solution substantially enhances the level of security when controlling activities of vehicles that are regularly used by different drivers.
  • Page 5: Installation

    (-20°C to 85°C / -4°F to +185°F). However, the personal ID card inserted in the Booster may not be designed to withstand such temperatures and could suffer damage as a result. Nedap recommends to remove the personal identification card when not in use. 2.3 Solar control windscreens From 1997 onwards, several car manufacturers introduced vehicles with solar control windshields.
  • Page 6: Identifying The Booster With A Transit

    Booster | installation guide 3 Identifying the Booster with a TRANSIT 3.1 How to use the Booster Place the Booster on the inside of the windscreen of your vehicle as described in chapter 2. The driver inserts his personal ID card and activates the Booster’s button. A beep should indicate that the card was successfully read.
  • Page 7: Single Id Mode (Only Driver Id)

    Booster | installation guide 3.2.2 Single ID mode (only Driver ID) The Booster is inactive until the driver inserts his personal ID card and pushes the Booster’s button. Once the button is pushed the Booster reads the personal ID card and beeps upon a successful read. The data is transmitted to the reader for 5 seconds.
  • Page 8: Smartcard Configuration

    Booster | installation guide 4 Smartcard configuration The Smartcard-Booster can be configured by means of a configuration card. This configuration card is programmed with the configuration settings. Configuration is only required if the factory default settings are not sufficient. The default settings are described in chapter 4.7.
  • Page 9: How To Create A Configuration Card

    Booster | installation guide 4.3 How to create a configuration card The configuration cards are created using the NEDAP Smartcard-Booster configuration software. This software can be downloaded from our partner portal; https://portal.nedapidentification.com. Figure 2: Smartcard-Booster configuration software 4.3.1 Target device The Smartcard-Booster Configuration software is typically used to configure the Smartcard-Booster.
  • Page 10: Booster Options

    Booster | installation guide 4.3.3 Booster options 4.3.3.1 Operating mode Select Booster operating mode. See available options below. Booster (only Driver-ID) Single ID operation. Up to 16 bytes of data from the personal ID card is read. The Vehicle-ID is omitted. Combi-Booster (Vehicle-ID + Driver-ID) Dual ID operation.
  • Page 11: Card Read Settings

    Booster | installation guide 4.3.4 Card read settings Enable the card types you want the Booster to read. Different contactless smartcard types are supported. Also multiple technologies may enabled in case of card migration scenarios. For example from Mifare Classic to Desfire. Mifare Select one of the following choices: Card serial number (4 or 7 byte).
  • Page 12 Booster | installation guide 4.3.4.1 Mifare Classic sector data The Mifare Classic 1K and 4K cards are fully supported. The memory is organized in sectors with blocks. Every block contains 16 bytes. The Mifare Classic cards are protected by the Crypto1 security. Specify the following parameters;...
  • Page 13 Booster | installation guide 4.3.4.2 Mifare Ultralight data Mifare UltraLight cards have 512-bit EEPROM memory, which is organized in 16 pages with 4 bytes each. These are low-cost contactless smartcards that do not offer any security features. The Mifare Ultralight C authentication is not supported.
  • Page 14 Booster | installation guide 4.3.4.3 Desfire file data Desfire cards are fully supported, including DESFIRE EV1/EV2 cards with 3DES, 3 Key 3DES and AES encryptions. The DESFIRE card's memory is organized using a flexible file system. This file system allows several different applications on a single card.
  • Page 15 Booster | installation guide 4.3.4.4 Calypso For Calypso cards the 4-byte PUPI or information from always accessible files can be read. The Booster does not support the Calypso SAM to fully support the Calypso encrypted file system. Data to read Select one of the following choices: PUPI (pseudo unique PICC identifier) •...
  • Page 16: Program The Configuration Card

    Booster | installation guide 4.4 Program the configuration card 4.4.1 Using a supported programmer The software supports a few different smartcard programming devices. Below a list of tested supported devices are show. Other PC/SC compatible contactless smartcard reader may also be supported. Supported programmers ACS ACR122U •...
  • Page 17: Using Another Programmer

    ‘Show configuration details’ in the ‘Expert’ menu. Figure 3: Configuration data details Sector 0 is reserved for MAD (Mifare Application Directory). If the MAD is programmed, the Nedap configuration sectors should have application id 517F. Copy to clipboard Copy the configuration data to clipboard by clicking ‘Copy to clipboard’...
  • Page 18: Testing The Configuration

    Booster | installation guide 4.5 Testing the configuration The Mifare and Desfire settings can be tested before loading it into the Smartcard-Booster using a supported reader. From the ‘Programmer' menu choose ‘Test configuration’. Place the user card (not the config card) on the reader and click the ‘Read’ button. The reader reads the card according to the current configuration settings.
  • Page 19: Default Configuration

    Booster | installation guide 4.7 Default configuration The table below shows the default Smartcard-Booster configuration. Configuration settings Default value Operating mode Combi-Booster (Vehicle-ID + Driver-ID) Frame length Extended-length (longer Driver-ID) Active mode Switched mode MIFARE/DESFIRE Enabled (CSN) Byte order Normal HID iCLASS CSN Enabled ISO15693 / LEGIC Advant CSN...
  • Page 20: Tacho Booster

    Booster | installation guide 5 Tacho booster The tacho booster function requires the Booster to be wired to the speed pulse generator of your vehicle. The Booster will count the number of pulses generated, which indicate the vehicle’s mileage. Tacho input specifications Input voltage: 6V to 24V (max.
  • Page 21: Buzzer Indications

    Booster | installation guide 6 Buzzer indications The Booster's built-in buzzer gives audible feedback upon various conditions. The table below describes the buzzer indications. Description Buzzer Card read 1 high tone beep Failed to read card (not in configuration) 1 short low tone beep Configuration card accepted 3 beeps increasing frequency ♪...
  • Page 22: Battery Replacement

    Booster | installation guide 7 Battery replacement The Booster contains two replaceable non-rechargeable AAA batteries. The average lifetime of these batteries is approximately 5 years. When replacement becomes necessary follow the procedure below. Open the battery compartment. • Remove both batteries. Follow local environment protection laws / regulations for disposal of used batteries. •...
  • Page 23: A Technical Specifications

    CE, FCC and ISED B Disposal of equipment The products will be disposed of by the end-user and discharge Nedap for any liability or responsibility thereof. The WEEE symbol in Europe indicates that the relevant electrical product or battery should not be disposed of as general household waste in Europe.
  • Page 24: Dfcc / Ised Statement

    Any changes or modifications not expressly approved by the party responsible for compliance could void the user’s authority to operate the equipment. US responsible party: Nedap Inc., 25 Corporate Drive (Suite 101), MA 01803 Burlington, USA, 781 349 6200. 24/25...
  • Page 25: E Document Revision

    Booster | installation guide E Document revision Version Date Comment 2022-01-19 Updated supported RFID cards 2021-01-26 HR update: technical specifications battery information 2020-09-07 Updated REW 2020-09-04 Updated compliance statements 2020-04-29 Updated corporate style 2019-05-28 Added Desfire configuration 2016-03-23 Added document number 2015-05-19 Added smartcard-Booster Ultimate 2014-04-29...

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