Nedap N V MACESMART Reader for 13.56 MHz NFC cards and also BT User Manual 267006X
N. V. Nederlandsche Apparatenfabriek NEDAP Reader for 13.56 MHz NFC cards and also BT 267006X
User Manual
MACE Smart installation guide 2018-01-30 | v1.03 | 5286484 MACE SMART | INSTALLATION GUIDE Content CONTENT 1 INTRODUCTION _______________________________________________________ 3 1.1 MACE __________________________________________________________ 3 1.2 FIRMWARE VERSIONS ____________________________________________ 3 2 INSTALLATION ________________________________________________________ 4 2.1 SAFETY INSTRUCTION ____________________________________________ 4 2.2 MOUNTING INSTRUCTIONS _______________________________________ 4 3 CONNECTIONS ________________________________________________________ 6 3.1 POWER SUPPLY _________________________________________________ 6 3.2 COMMUNICATION _______________________________________________ 6 3.2.1 RS485 ___________________________________________________ 6 3.2.2 WIEGAND ________________________________________________ 7 3.2.3 MAGSTRIPE ISO7811/2 ____________________________________ 8 3.3 LED CONTROL __________________________________________________ 9 3.4 INPUTS _______________________________________________________ 10 3.5 OUTPUTS______________________________________________________ 11 3.6 TAMPER SWITCH _______________________________________________ 12 3.7 NEDAP ANTENNA INTERFACE _____________________________________ 12 4 READER CONFIGURATION ______________________________________________ 4.1 CONFIG SOFTWARE _____________________________________________ 4.2 OPTIONS ______________________________________________________ 4.2.1 USER MODE _____________________________________________ 4.2.2 SEND CONFIG ___________________________________________ 4.2.3 READ CONFIG ___________________________________________ 4.2.4 SETUP BAUDRATE ________________________________________ 4.2.5 SETUP OSDP DEVICE ADDRESS _____________________________ 4.2.6 RESET CONFIG ___________________________________________ 4.3 SETTINGS _____________________________________________________ 4.3.1 GENERAL _______________________________________________ 4.3.2 LED/BUZZER ____________________________________________ 4.4 READER SETTINGS ______________________________________________ 4.4.1 BLE ____________________________________________________ 4.4.2 NFC ____________________________________________________ 4.4.3 QR-CODE _______________________________________________ 4.4.4 DESFIRE ________________________________________________ 4.4.5 MIFARE _________________________________________________ 4.4.6 OTHER ID TYPES _________________________________________ 4.5 COMMUNICATION OUTPUT ______________________________________ 4.5.1 SERIAL__________________________________________________ 4.5.2 WIEGAND/MAGSTRIPE ____________________________________ 4.6 MISCELLANEOUS _______________________________________________ 4.6.1 FIRMWARE UPDATE ______________________________________ 4.6.2 KEY UPDATE _____________________________________________ 13 13 14 14 14 14 14 14 14 15 15 16 17 17 19 19 20 21 22 23 23 25 29 29 29 A TECHNICAL SPECIFICATIONS ___________________________________________ 30 B PART NUMBERS ______________________________________________________ 31 C FCC AND ISED DECLARATIONS__________________________________________ 32 D DISCLAIMER _________________________________________________________ 33 DOCUMENT REVISION _________________________________________________ 34 2/34 MACE SMART | INSTALLATION GUIDE Introduction INTRODUCTION 1.1 MACE MACE is an acronym for Mobile Access Control Enabler. MACE is a platform consisting of readers, apps and a cloud based server that enables the use of smartphones to identify people. The MACE Smart reader supports Bluetooth and NFC to identify virtual credentials from an iPhone or Android smartphone with the NEDAP MACE app installed. MACE can be used in combination with any access control system or any other system that requires the swift identification of people, like parking management systems or registration systems. Please remember to fill out the ‘How to Order Guide’ to prepare your MACE installation and order virtual MACE credentials that will be read by the MACE readers you plan to install. 1.2 FIRMWARE VERSIONS The MACE Smart reader supports different firmware versions. Below an overview of the available firmware versions and their key features. STANDARD firmware (MaceSmart_v1xx.nis): RS485 communication using CR/LF protocol Wiegand communication output Magstripe (clock & data) communication output LED and buzzer control automatic or remote through digital inputs. OSDP firmware (MaceSmartOSDP_v1xx.nis): RS485 communication according to the SIA OSDP v2.1.6 standard Secure Channel Protocol supported LED and buzzer control through OSDP commands Default the STANDARD firmware is installed. Perform a firmware update using the MaceConfigTool software. See chapter 4.6.1. The firmware update also allows to change from STANDARD to OSDP (or vice versa). 3/34 MACE SMART | INSTALLATION GUIDE Installation INSTALLATION 2.1 SAFETY INSTRUCTION The following safety precautions should be observed during normal use, service and repair: 2.2 The MACE Smart reader may only be installed and serviced by qualified service personnel. Disconnect the power supply before (dis)connecting any wires, MACE is NOT hot-swappable, so when making or changing connections, power must be switched OFF. The cable shield shall be connected with safety ground and the metal case of the external device(s). To be sure of safety, do not modify or add anything to the MACE Smart reader other than mentioned in this installation guide or indicated by NEDAP N.V. MOUNTING INSTRUCTIONS The MACE can be mounted to any surface, including directly to metal. See the picture below for details about the dimensions. Figure 1: MACE dimensions (mm) 4/34 MACE SMART | INSTALLATION GUIDE Installation Mount the base-plate on the required location. Make sure that the reader is positioned such that the screw hole is located at the bottom side of the reader. Ensure that it is placed correctly covering the cable entry hole. Properly fix the baseplate into its position using the 2 screws. When mounting on a stone or concrete wall drill 5mm holes for the plugs. When mounting on wood, drill with 2.5mm. Install the MACE Smart reader onto the base-plate: Feed the cable through the cable entry hole and place connectors. Attach the top of the MACE Smart reader onto the base-plate. Fix the assembly using the screw on the bottom. Figure 2: MACE installation 5/34 MACE SMART | INSTALLATION GUIDE Connections CONNECTIONS See below an overview of the connections. Nedap antenna interface Beeper_IN* Led_UL_IN* Led_NA_IN* Ground Power supply 12 - 24VDC 3.1 K1-6 K1-5 K1-4 K1-3 K1-2 K1-1 K2-1 K2-2 K2-3 K2-4 K2-5 K2-6 K2-7 RS485 A (-) RS485 B (+) Ground Data-1 / Data Data-0 / Clock Tamper switch (normally closed) Tamper switch (common) POWER SUPPLY The MACE Smart reader requires DC power supply in the range from 12 – 24V. Maximum current consumption is 0.2A @ 12VDC, 0.1A @ 24VDC. Connections: K1-1 Power supply 12 - 24VDC K1-2 Ground 3.2 COMMUNICATION 3.2.1 RS485 The MACE Smart reader has a RS485 interface for communication with a host system or to configure the reader settings. RS485 is a 2-wire half-duplex serial communication interface using balanced lines. STANDARD and OSDP protocol are available. Connections: K2-1 RS485 A (-) K2-2 RS485 B (+) Balanced RX/TX Balanced RX/TR For details about reader configuration see chapter 4. Standard firmware: Default RS485 communication baud rate is 115200. See chapter 4.2.4. The RS485 output message format is described in chapter 4.5.1 OSDP firmware: The OSDP protocol is implemented according to the SIA OSDP v2.1.6 standard including the Secure Channel Protocol. Default RS485 communication baud rate is 9600. This may be changed using the OSDP_COMSET command. 6/34 MACE SMART | INSTALLATION GUIDE Connections 3.2.2 WIEGAND The Wiegand and Magstripe ISO7811/2 (clock & data) interface share the same connections. This means that only Wiegand or Magstripe can be used and not both simultaneously. Wiegand connections: D0 D1 Ground (0V) K2-5 K2-4 K2-3 Message format: The Wiegand output format is determined by the programming format of the credential. MACE Wiegand credentials will automatically generate a Wiegand message. If the credential is not programmed in Wiegand format, you may configure the message output format as described in chapter 4.5.2. Make sure to order the correct credential programming format if you want to use the Wiegand or Magstripe interface. See also the MACE how to order guide (HTOG) for more information. Wiegand Timing In the figure below the Wiegand protocol timing is specified. Tpw D1 5V 0V Tpw D0 5V 0V Tpi Tpi Figure 3: Wiegand protocol timing Timing constants: Tpi Pulse interval time Tpw Pulse width time 1msec 50μsec OSDP firmware: The OSDP firmware does not support the Wiegand interface!!! 7/34 MACE SMART | INSTALLATION GUIDE Connections 3.2.3 MAGSTRIPE ISO7811/2 The Magstripe ISO78122/2 (clock & data) and Wiegand interface share the same connections. This means that only Wiegand or Magstripe can be used and not both simultaneously. Magstripe connections: CLK DAT Ground (0V) K2-5 K2-4 K2-3 Message format: The Magstripe output format is determined by the programming format of the credential. MACE Magstripe credentials will automatically generate a Magstripe message. If the credential is not programmed in Magstripe format, you may configure the message output format as described in chapter 4.5.2. Make sure to order the correct credential programming format if you want to use the Wiegand or Magstripe interface. See also the MACE how to order guide (HTOG) for more information. Magstripe Timing The figure below shows the timing for one Magstripe character. Each bit consists out of one period low (220μsec) and two periods high (440μsec). The Data-signal is valid and stable on the falling edge of the Clock-signal. 3300μsec 660μsec CLK 5V 0V DAT 5V 0V lsb 220μsec msb odd parity Figure 4: Magstripe protocol timing one character Timing constants: Clock period 660μsec Clock high 440μsec Clock low 220μsec Data pre-amble 16 clock periods Data post-amble 16 clock periods OSDP firmware: The OSDP firmware does not support the Magstripe ISO7811/2 interface!!! 8/34 MACE SMART | INSTALLATION GUIDE Connections 3.3 LED CONTROL The built-in high intensity LED provides visual feedback that the tag has been read or authorized. The LED and buzzer can be controlled by the access control system. Automatic mode: Default the MACE reader will automatically control the LED. During stand-by the LED will be BLUE and upon identification it will be GREEN. These colors can be changed! Remote control: The LED and buzzer can be controlled remotely by a connected access control system by activating digital inputs (active low). See chapter 3 for connection details. Use MaceConfigTool software to setup the LED/buzzer control mode and configure the corresponding LED colors. Color UL LED color when input Led_UL_IN active Color NA LED color when input Led_NA_IN active Color UL+NA LED color when both inputs Led_UL_IN and Led_NA_IN active Color idle LED color when both inputs not active Direct (serial cmd): The LED and buzzer can only be controlled by serial commands. OSDP firmware: Use the OSDP_LED command to control the LED. Automatic mode and Remote control are not supported. 9/34 MACE SMART | INSTALLATION GUIDE Connections 3.4 INPUTS The MACE reader has 3 digital inputs (active low). Connect to ground to active the input. Leave unconnected otherwise. Connections RED/BLU WHITE BLUE BLACK SHIELD Input 0 - Led_UL_IN (active-low) Input 1 - Led_NA_IN (active-low) Input 2 - Beeper_IN (active-low) Ground Shield connected to DC-ground STANDARD firmware: The digital inputs can be used to control the LED and buzzer. See chapter 3.3. OSDP firmware: The digital inputs are general purpose inputs. Upon status change the reader will send input status report message OSDP_ISTATR. The current input status can be requested by sending the input status report request message OSDP_ISTAT. 10/34 MACE SMART | INSTALLATION GUIDE Connections 3.5 OUTPUTS The MACE reader has 2 digital outputs. The function of the digital outputs is dependent upon the installed firmware version. See below. STANDARD firmware: The outputs are used for Wiegand or Magstripe communication. See respectively chapters 3.2.2 and 3.2.3 OSDP firmware: The outputs are general purpose outputs. The outputs are open-collector and can be used to activate an external relay. Mind flyback diode. Use the OSDP_OUT command to control the output state. The outputs allow for direct activation and deactivation plus timed operation (OSDP output control compliance level 3). The permanent command is volatile (does not transcend power cycles). When the status of an output changes the reader will send an output status change report message OSDP_OSTATR. Connections: GRAY PINK BLACK SHIELD Output ratings: Type Max. voltage Max. current Output 0 (D0/CLK) Output 1 (D1/DAT) Ground (0V) Shield connected to DC-ground open collector (internal weak 5V pull-up resistor) +24 VDC 200 mA 11/34 MACE SMART | INSTALLATION GUIDE Connections 3.6 TAMPER SWITCH An internal magnet provides tamper indication when the reader is dismounted. This contact may be connected to an external alarm system. The contacts are normally closed when the reader is in place. Tamper switches of multiple readers can be connected in series. Connections: K2-6 Tamper switch (normally closed) K2-7 Tamper switch (common) Contact ratings: Max. current Max. switching voltage 50 mA (0.5 Volt voltage drop) +24 VDC The tamper contact status is reported through OSDP_LSTATR event messages. 3.7 NEDAP ANTENNA INTERFACE The Nedap antenna interface is used to connect the MACE reader to a TCC270 or to NEDAP AEOS access control hardware (e.g. AP1001) . Connections: K1-6 Nedap antenna interface. Connect to ANT K1-2 Ground. Connect to ANT GND When using this connection the credentials must have the Nedap XS format!!! OSDP firmware: The OSDP firmware does not support the NEDAP antenna interface!!! 12/34 MACE SMART | INSTALLATION GUIDE Reader configuration READER CONFIGURATION The MACE readers can be configured easily using the MaceConfigTool software. This software tool can be downloaded from our partner portal https://portal.nedapidentification.com. Configuration allows to change: General settings. Reader settings; what to read and how. Communication output settings. Some settings require expert knowledge. Leave settings unchanged, when their specific meaning is unclear. It’s always a good practice to save the configuration into a file for future reference or when requesting technical assistance from Nedap or its business partners. 4.1 CONFIG SOFTWARE The MaceConfigTool software allows to configure all settings for the MACE reader. The software can interface with the reader using RS485. Figure 5: MaceConfigTool software Start the MaceConfigTool software and click CONNECT. Select the following communication parameters and click OK. COM-port Baud rate Communication protocol (STANDARD or OSDP) Device address (only for OSDP) When the connection is established, the software checks the MACE firmware version. Check the ID List to see what is identified. Check the Console to see the communication details. For details about the communication protocol refer to the firmware manual. 13/34 MACE SMART | INSTALLATION GUIDE Reader configuration 4.2 OPTIONS The options menu gives access to various MACE reader configuration options. 4.2.1 USER MODE Select user mode Simple or Advanced to adjust the user interface. User mode Nedap is intended to be used only when recommended by Nedap. Password is mace. 4.2.2 SEND CONFIG Send configuration to reader. This option will send all configuration settings to the reader and saves them into non-volatile memory of the reader. A message indicates that the configuration was sent successfully. 4.2.3 READ CONFIG Read configuration from reader. This option will read all* configuration settings from the reader. A message indicates that the configuration was read successfully. * Security keys and passwords cannot be read from the reader. 4.2.4 SETUP BAUDRATE Select the serial communication baud rate. Possible selections are: 1200 2400 9600 (default OSDP) 19200 38400 57600 115200 (default STANDARD) Click OK after changing the baud rate. Upon success the software will show a message and the baud rate in the software and reader have been changed. The new baud rate setting in the reader is saved to non-volatile memory. Note that when using a separate interface converter, it may be required to update the baud rate setting in there as well. 4.2.5 SETUP OSDP DEVICE ADDRESS Select the OSDP device address in range from 0 to 126. Default device address is 0. 4.2.6 RESET CONFIG Reset configuration to factory defaults. All settings will be reset to factory defaults. The reader will restart automatically afterwards. 14/34 MACE SMART | INSTALLATION GUIDE Reader configuration 4.3 SETTINGS 4.3.1 GENERAL Hold time / repeat time Set tag hold time. Default 1 sec. Max. 25 sec. Enable 'repeat using hold-time interval' to repeat the communication output while the tag remains within read range. Configuration password Enter a configuration password to lock the configuration settings in the reader. Without the password you cannot change any configuration settings. Please remember this password very carefully. By default the MACE reader has no configuration password. *** Advanced user mode settings; Nedap customer codes The MACE reader is programmed with a customer code. Nedap tags or credentials may also have a customer code. Enable 'Read only if customer code is correct' to make the reader ignore tags that have an invalid customer code. You may change the customer code(s) in the reader. You can configure up to 20 customer-codes in the MACE reader. Identifiers without customer code Other tags or credentials may not have a customer code. For example MIFARE DESFire cards or the MACE UID64. Enable or disable 'Allow reading ID-numbers without customer code'. Heater This setting is not used because the MACE Smart reader doesn't have a heater unit. ID-source values The MACE reader indicates on which source there was an identification. These IDsource identifier values are configurable by clicking on the link. *** Nedap user mode settings; Antenna modulation This setting is only used for the Nedap antenna interface. See chapter 3.7. The setting defines how often the ID-number is sent on the antenna interface. Default settings is 30 cycles, which corresponds to ± 1 sec. 15/34 MACE SMART | INSTALLATION GUIDE Reader configuration 4.3.2 LED/BUZZER LED and buzzer mode * Automatic MACE reader will automatically set the LED color and optionally beep upon identification. The LED color upon identification and during idle can be configured. Remote (follow digital inputs) The connected access control panel may control the LED and buzzer using the digital inputs. The corresponding LED colors can be configured. See chapter 3.3. Direct (using serial commands) The connected access control panel may control the LED and buzzer using commands on the serial interface. Details are described in the firmware manual. LED brightness Set LED brightness in range from 0 to 100%. Default 50%. Using OSDP the LED and buzzer are controlled using the OSDP_LED and OSDP_BUZ commands. The Automatic mode and Remote control (follow digital inputs) settings are not supported. 16/34 MACE SMART | INSTALLATION GUIDE Reader configuration 4.4 READER SETTINGS 4.4.1 BLE The MACE Bluetooth Low Energy (BLE) reader is a single mode Bluetooth Smart reader that complies with the Bluetooth Core specification 4.1. The Bluetooth reader implements the peripheral role. Enable Enable the MACE BLE module. This automatically starts the Bluetooth advertising. Default bluetooth device name Enable to have the default Bluetooth device name. This is recommended because the MACE app uses the Bluetooth device name for ranging purpose. Ranging profile Select ranging profile: Proximity range (max ± 25 centimeter) Short range (max ± 2 meter) Medium range (max. ± 5 meter) Long range (max ± 15 meter) There is a lot of variation in performance of Bluetooth communication across the wide range of phones that are available today. Please take this into account when planning the commissioning and configuration of your application. *** Advanced user mode settings; Note: Please be aware that, after changing the ranging profile it may take some time before the MACE app recognizes the update. When the ranging profile has been changed it may occur one or two times that the MACE app is still responding based on the prior settings. Reader function Select the reader function. This function is reserved for future use. It might trigger the MACE app to require user confirmation or pin verification. Default M - MACE general purpose. Reader sequence number Used for MACE reader identification. *** Nedap user mode settings; Advertising interval Default advertising interval is 100 msec. TX power Set TX power in dBm (default 8 dBm). Not each TX power setting is possible. The value will be rounded to the nearest possible TX power setting. It is recommended to keep the highest possible TX power setting. This makes range checking more reliable. TX correction The TX correction (default 0 dBm) can be used for readers that are mounted on a location that affect the gain of the Bluetooth antenna. 17/34 MACE SMART | INSTALLATION GUIDE Reader configuration The TX power and TX correction added together are sent within the advertisement data. They are used by the MACE app to implement range checking. Set the TX correction to a positive value when the received signal is higher than expected. In other words; increasing the TX correction will result in a shorter range. Note that smartphone specific corrections will be done by the MACE app. Authentication Bluetooth authentication should always remain enabled. The key will be diversified to ensure a unique security key per identifier. 18/34 MACE SMART | INSTALLATION GUIDE Reader configuration 4.4.2 NFC Near Field Communication (NFC) is a wireless communication technique operating on 13 MHz. Read range is only few centimeters. NFC is currently not supported on Apple iOS. On Android at least version 4.4 (KitKat) is required. Enable Enable the MACE NFC reading. *** Nedap user mode settings; Application ID, file number, data length and offset For MACE the following settings are required: Application ID: A0000007151001 File number: Data length: Data offset: Authentication NFC authentication should always remain enabled. The key will be diversified to ensure a unique security key per identifier. 4.4.3 QR-CODE These settings are not used because the MACE Smart reader does not have a barcode scanner. 19/34 MACE SMART | INSTALLATION GUIDE Reader configuration 4.4.4 DESFIRE The MACE Smart reader features also a universal smartcard reader. It also supports reading MIFARE DESFire (EV1) cards. *** Advanced user mode settings; Enable Enable to read custom MIFARE DESFire cards. Data to read Select to read the CSN (7-bytes) or DESFire file data. Byte order Select byte order normal or reversed. For example CSN normal is = 04 6C 5E A2 BD 24 80 For example CSN reversed is = 80 24 BD A2 5E 6C 04 Application ID Application ID. 6-digit hex. For example F12345. File number File number within range from 0 to 255. Communication mode Select Plain, MACed or Enciphered. Data length and offset Select the data length and offset in nibbles. Set data length and offset both to 0 (zero) to read the whole file. Nibbles are half bytes or digits. For example file data is 0123456789ABCDEF. Set data length to 3 and offset to 7. This will result in the ID-number 789. Encryption Select the authentication/encryption method. None (skip authentication) Native DES/3DES ISO DES/3DES 3Key 3DES AES Select the key number in range from 0 to 13. Enter the read key. The length of the key depends upon the chosen encryption method. Data conversion Optionally select a data conversion option, for example BCD to HEX or HEX to BCD. 20/34 MACE SMART | INSTALLATION GUIDE Reader configuration 4.4.5 MIFARE The MACE Smart reader features also a universal smartcard reader. It also supports reading Mifare Classic, Mifare Ultralight and Mifare Plus cards (SL3) cards. *** Advanced user mode settings; Enable Enable to read custom Mifare cards. Data to read Select what to read from the Mifare card; CSN (can be 4-byte or 7-byte) Mifare Classic sector data Mifare Ultralight data Mifare Plus SL3 Byte order Select byte order normal or reversed. For example CSN normal is = A2 07 6E 43 For example CSN reversed is = 43 6E 07 A2 Sector number Select sector using fixed sector number within range from 0 to 39. MAD (Mifare Application Directory) When using MAD the AID and MAD Key must be given. MAD key for Mifare Classic is normally A0A1A2A3A4A5. MAD key for Mifare Plus is normally A0A1A2A3A4A5A6A7 A0A1A2A3A4A5A6A7. Block number Block number to read data from. The block number must be in range from 0 to 3. For sectors 32 to 39 the block number can range from 0 to 15. Page number Mifare Ultralight page number to read data from. Must be in range from 0 to 15. Read key Select to use KeyA or KeyB for reading. Usually KeyA is used for reading. Enter the read key. For Mifare Classic the key length is 6 bytes (12 hex digits). For Mifare Plus SL3 the key length is 16 bytes (32 hex digits). Data length and offset Select the data length and offset in nibbles. Nibbles are half bytes or digits. Each Mifare classic data block contains 16 bytes data = 32 nibbles. For example sector data contains 12345000000000000000000000000000. Set data length to 5 and offset to 0. This will result in the ID-number 12345. Data conversion Optionally select a data conversion option, for example BCD to HEX or HEX to BCD. 21/34 MACE SMART | INSTALLATION GUIDE Reader configuration 4.4.6 OTHER ID TYPES The MACE Smart reader also support reading different RFID card types based upon 13 MHz. Enable the individual RFID card types as mentioned below. The MACE Smart reader does not support reading PROX-LF (120/125 kHz) cards. *** Advanced user mode settings; MACE Card Enable reading MACE Card. HID iCLASS (UID only) Enable reading HID iCLASS UID. The HID iCLASS UID is the read-only 8-byte unique ID. ISO15693 Enable reading ISO15693. Different RFID cards comply with this standard, for example NXP ICODE SLI(X) and LEGIC Advant MP cards. Reading the UID and/or multiple data blocks is supported. The ISO15693 UID is the read-only 8-byte unique ID. Read multiple blocks is supported for example by NXP ICODE SLI(X) cards. Configure first block and number of blocks to read. Each block is 4 bytes. 22/34 MACE SMART | INSTALLATION GUIDE Reader configuration 4.5 COMMUNICATION OUTPUT 4.5.1 SERIAL The serial communication output defines the format of the message that is transmitted upon identification. This serial output message format is used on the RS485 interface. See for interface connection details chapter 3.2. STANDARD message format:OSDP_RAW message format: byte byte byte byte 2/3 4/N Reader number (fixed value 0 = first reader) Format code (fixed value 0 = raw bit array) Bit count data length Prefix Default prefix is '4005'. Can be any string of max. 10 characters. Add ID-source If enabled, the ID-source will be sent as a 2 digit code that identifies how the IDnumber was read. The ID-source values can be changed. See chapter 4.3.1. '00' PROX-LF (120/125 kHz) '01' BLE '02' NFC '03' Barcode '04' Smartcard (13 MHz) '05' MIFARE '06' DESFIRE '07' ISO15693 '08' HID iCLASS '09' MACE Card Add ID-type If enabled, the ID-type will be sent as a 2 digit code that identifies the programming format. '00' RAW '08' MACE UID64 '10' MACE UUID128 '45' EM4200 '4E' Nedap XS '4F' Nedap RW80 '57' Wiegand ID-number Select to output the ID-number complete, left aligned or right aligned. When left or right aligned specify the id-length and offset in bits. Optionally convert the ID-number from hex to decimal. Suffix Default no prefix is used. Can be any string of max. 10 characters. 23/34 MACE SMART | INSTALLATION GUIDE Reader configuration Example: MACE UID64 on BLE: '40050108B03BF925E6F04D34' '4005' = prefix '01' = id-source BLE '08' = id-type UID64 'B03BF925E6F04D34' = id-number OSDP example: MACE UID64 on BLE: 01, 08, B0, 3B, F9, 25, E6, F0, 4D, 34 01 = id-source BLE 08 = id-type UID64 B0, 3B, F9, 25, E6, F0, 4D, 34 = id-number Prefix and suffix are not used. 24/34 MACE SMART | INSTALLATION GUIDE Reader configuration 4.5.2 WIEGAND/MAGSTRIPE The Wiegand/Magstripe communication output defines the format of the Wiegand/Magstripe message that is transmitted upon identification. Note that if the credential is already programmed in the Wiegand or Magstripe format these settings are not used. The Wiegand/Magstripe output settings are only used for ID-numbers that are not programmed in the Wiegand or Magstripe format. The OSDP firmware does not output any Wiegand or Magstripe messages!!! Unconfigured Select unconfigured if the ID-numbers are already programmed in the Wiegand or Magstripe format or if the Wiegand/Magstripe interface is not used. Wiegand Select Wiegand to manually configure the Wiegand message output format. Wiegand output message format: Parity Enable add parity bits to add a leading and trailing parity bit to the Wiegand message. The leading parity bit (P1) is even calculated on the first half of the data bits. The trailing parity bit (P2) is odd calculated on the second half of the data bits. If the number of data bits used in the parity calculation is odd, then the center bit is used in both parity bit calculations. Prefix Constant prefix value. Max. 65,535 (16 bits). ID-source If enabled, the ID-source will be sent as an 8 bit code that identifies how the IDnumber was read. The ID-source values can be changed. See chapter 4.3.1. 00000000 PROX-LF (120/125 kHz) 00000001 BLE 00000010 NFC 00000011 Barcode 00000100 Smartcard (13 MHz) 00000101 MIFARE 00000110 DESFIRE 00000111 ISO15693 00001000 HID iCLASS 00001001 MACE Card Facility-code Constant facility-code (or site-code) value. Max. 65,535 (16 bits). ID-number Select to output the ID-number complete, left aligned or right aligned. When left or right aligned specify the ID-length and offset in bits. 25/34 MACE SMART | INSTALLATION GUIDE Reader configuration Convert BCD to binary Enable to convert the BCD (decimal) ID-number to a binary value. For example ID-number 987 = hex 3DB = b'11 1101 1011'. Note that the conversion may reduce the amount of ID-number bits. Conversion is only possible if ID-number before conversion is max. 80 bits. When the ID-number is not in decimal, the result may be unexpected. Suffix Constant suffix value. Max. 65,535 (16 bits). Wiegand configuration example: The configuration shown below will generate a Wiegand 26-bit message with facility-code 10. The ID-number uses the 16 least significant bits (right aligned). MACE UID64 B03BF925E6F04D34 ID-number 0x4D34 = 19764. Figure 6: Example Wiegand 26-bit configuration 26/34 MACE SMART | INSTALLATION GUIDE Reader configuration Magstripe Select Magstripe to configure the Magstripe message output format. Magstripe output message format: <0xB> <0xF> Add start, stop-sentinel and LRC According to the Magstripe ISO7811/2 standard the messages should begin with a start-sentinel (0xB) and finish with an stop-sentinel (0xF) and LRC checksum. Add preamble and postamble clocks If enabled the Magstripe output will generate 16 preamble clock cycles before the message and 16 postamble clock cycles afterwards. Prefix Constant prefix value transmitted before the ID-number. Max. 16 digits. ID-number Select to output the ID-number complete, left aligned or right aligned. When left or right aligned specify the ID-length and offset in bits. Convert to decimal Enable to convert the ID-number to a decimal value. Default enabled because hexadecimal characters should be avoided within the ID-number. Hexadecimal characters are according to the ISO7811/2 standard reserved for message control. Suffix Constant suffix value transmitted after the ID-number. Max. 16 digits. 27/34 MACE SMART | INSTALLATION GUIDE Reader configuration Magstripe configuration example: The configuration shown below will generate a Magstripe message. The ID-number uses the 6 least significant hex digits (right aligned) and they are converted to 8 decimal digits. MACE UID64 B03BF925E6F04D34 ID-number 0xF04D34 = 15.748.404. After adding the start, stop-sentinel and LRC this results in message: B15748404FB Figure 7: Example Magstripe configuration 28/34 MACE SMART | INSTALLATION GUIDE Reader configuration 4.6 MISCELLANEOUS 4.6.1 FIRMWARE UPDATE When the MaceConfigTool software is connected to a reader, it automatically checks the firmware version of the MACE Smart reader. If necessary the software recommends to perform a firmware update. A recent firmware version has been installed on your computer together with the software. The firmware update can also be used to change from STANDARD to OSDP firmware (or vice versa). Firmware update procedure: Start MaceConfigTool software. Connect with MACE reader. Go to FIRMWARE UPDATE. Select the firmware file (e.g. MaceSmart_v106.nis). Click Update and wait until completed. When the firmware update is completed, the software will reconnect. Upon reconnect, make sure to select the correct protocol and baud rate setting. This might have been changed due to different firmware. 4.6.2 KEY UPDATE The key update function updates the masterkey in the MACE Smart reader. The MACE authentication keys (for BLE and NFC) are diversified to ensure a unique security key per credential. The diversification is done using a shared masterkey. The key update function updates the masterkey in the reader. Important notice; After the key update the reader will only read updated credentials. Make sure to synchronize the update for readers and credentials (step 2 and 3). Step 1. Start key update: Login to the MACE Admin Portal and start update masterkey. Download the encrypted masterkey update file (.nkey file). Step 2. Key update procedure: Start MaceConfigTool software. Connect with MACE reader. Go to KEY UPDATE. Select the key update file (e.g. default.nkey). Click Update and wait until completed. Step 3. Finish key update; Login to the MACE Admin Portal and finish update masterkey. This will update the credentials. 29/34 MACE SMART | INSTALLATION GUIDE Technical Specifications TECHNICAL SPECIFICATIONS Technical information MACE Smart Operating frequency Bluetooth Low Energy 2.402 – 2.480 GHz NFC & smartcards: 13.56 MHz Dimensions 100 x 50 x 22 mm [ 3.9 x 2 x 0.9 inch ] Weight 75 g [ 0.17 lbs ] Housing Polycarbonate Color RAL7016 Protection IP65 [ approx.NEMA4x ] Detection range Bluetooth Low Energy: configurable up to 25cm (proximity), 2m (short), 5m (medium) or 15m (long). NFC and smartcards: up to 5cm. Supported RFID cards ISO14443-3A, Mifare DESFire (EV1), Mifare Classic, Mifare Ultralight, Mifare Plus (SL3) ISO15693, HID iCLASS (UID only), MACE Card Operating temperature -30...+60°C (-22...+140°F) Power 12 … 24 VDC (from power-limited UL294 or UL603 Listed power source) Current consumption 0.2A@12VDC, 0.1A@24VDC Input 2 TTL digital inputs for LED control (RED/GREEN) 1 TTL digital input for beeper control Tamper indication Yes, magnetic tamper switch Cable length Wiegand 150 m [ 500 ft. ] 22AWG RS485 1200 m [ 3950 ft. ] when installed properly Interfaces RS485 interface. Please consult your representative for additional interfacing options. Output Wiegand, Magstripe (clock & data) Compliance Europe RE Directive 2014/53/EU USA: FCC Title 47 Part 15B and 15C Canada: ISED ICES-003 and RSS210 Certifications Safety: EN60950-1 EMC: EN301489 Telecom: EN330 330 and EN300 328 Human Exposure assessment: ICNIRP Guidelines, EN62369 and EN50364 UL294 UL UL294 6th ed. – outdoor usage 30/34 MACE SMART | INSTALLATION GUIDE Part Numbers PART NUMBERS Readers Part number Description 9565914 MACE Smart 31/34 MACE SMART | INSTALLATION GUIDE FCC AND ISED DECLARATIONS FCC AND ISED DECLARATIONS FCC ID: CGDMACER1 and IC: 1444A-MACER1 FCC (15.19) and ISED Compliance statement This device complies with part 15 of the FCC Rules and to RSS210 of Industry Canada. 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. Warning (15.21) Changes or modifications not expressly approved by the party responsible for compliance could void the user’s authority to operate the equipment. Cet appareil se conforme aux normes RSS 210 exemptés de license du Industry Canada. L’opération est soumis aux deux conditions suivantes: (1) cet appareil ne doit causer aucune interférence, et (2) cet appareil doit accepter n’importe quelle interférence, y inclus interférence qui peut causer une opération non pas voulu de cet appareil. Les changements ou modifications n’ayant pas été expressément approuvés par la partie responsable de la conformité peuvent faire perdre à l’utilisateur l’autorisation de faire fonctionner le matériel. FCC and ISED Radiation Exposure Statement This equipment complies with FCC (OET Bulletin 65) and Canadian radiation exposure limits set forth in RSS-102 for a uncontrolled environment. This equipment should be installed and operated with a minimum distance of 3 mm between the radiator and your body. This transmitter must not be co-located or operating in conjunction with any other antenna or transmitter. Cet équipement est conforme a RSS-102 limites énoncées pour un environnement non contrôlé. Cet équipement doit être installé et utilisé avec une distance minimale de 3 mm entre le radiateur et votre corps. ISED EMC Declaration This Class B digital apparatus complies with Canadian ICES-003. Cet appareil numérique de Classe B est conforme à la norme Canadienne ICES-003. FCC Information to the user (15.106(b)) Note: This equipment has been tested and found to comply with the limits for a class B digital devices, 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 frequent 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 not cause harmful interference to radio or television reception, which can be determine 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. Any changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate the equipment. To ensure compliance with FCC regulations, use only the shielded interface cables provided with the product, or additional specified components or accessories that can be used with the installation of the product. 32/34 MACE SMART | INSTALLATION GUIDE Disclaimer DISCLAIMER This information is furnished for guidance, and with no guarantee as to its accuracy or completeness; its publication conveys no license under any patent or other right, nor does the publisher assume liability for any consequence of its use; specifications and availability of goods mentioned in it are subject to change without notice; it is not to be reproduced in any way, in whole or in part, without the written consent of the publisher. 33/34 MACE SMART | INSTALLATION GUIDE Document revision DOCUMENT REVISION Version Date Comment 1.03 2018-01-30 Updated technical specification and product photos 1.02 2017-12-20 Updated technical specification and tamper contact status report (OSDP) 1.01 2017-10-02 Added ISO15693 read multiple blocks 1.00 2017-09-13 Initial release 34/34 MACE SMART Installation sheet 2018-01-25 | v1.02 | 5286573 50 mm ( 1.97 ) 19.5 mm ( 0.77 ) 25.0 mm ( 0.98 ) 60 mm ( 2.36 ) 5.4 mm ( 0.21 ) 30 mm ( 1.18 ) ADDITIONAL REQUIREMENTS Drill Screwdriver torx T10 Pliers (optionally) RS485-USB converter (optionally) Cable AWG 22-30 shielded (advised) 3.4 mm ( 0.13 ) 100 mm ( 3.94 ) INCLUDED MATERIALS 1 x MACE Smart reader 1 x Installation manual 1 x Plastic bag including: o 1 x Connector block 6P o 1 x Connector block 7P o 2 x Assembly screw M3x8 T10 (1x spare part) o 2 x Plug Nylon o 2 x Mounting screw K30x20 T10 20 mm ( 0.79 ) SAFETY INSTRUCTIONS The following safety precautions should be observed during normal use, service and repair: The MACE Smart reader may only be installed and serviced by qualified service personnel. Disconnect the power supply before (dis)connecting any wires, MACE is NOT hotswappable, so when making or changing connections, power must be switched OFF. The cable shield shall be connected with safety ground and the metal case of the external device(s). To be sure of safety, do not modify or add anything to the MACE Smart reader other than mentioned in this installation guide or indicated by NEDAP N.V. CONFIGURATION The MACE Smart reader can be configured easily using the MaceConfigTool software. This software tool can be downloaded from our partner portal https://portal.nedapidentification.com. Configuration allows to change general settings, reader settings (what to read and how) and communication output settings. It also allows updating or changing the firmware (e.g. STANDARD and OSDP). When your computer does not have an RS485 output, an RS485-USB converter can be used to connect with the MACE Smart reader. Some settings require expert knowledge. Leave settings unchanged, when their specific meaning is unclear. Besides, it is always a good practice to save the configuration into a file for future reference or when requesting technical assistance from Nedap or its business partners. MACE SMART Installation sheet MOUNTING INSTRUCTIONS Please follow the next steps to properly mount the MACE Smart reader to a surface. 1. Position the reader Make sure that the reader is positioned such that it is placed correctly covering the cable entry hole and that the screw hole is located at the bottom side of the reader. 2. Mount the wall-plate on the required location The reader can be mounted to any surface, including directly to metal. The size of the holes that should be drilled depends on the material of your surface. Fix the wall-plate into its position using the two mounting screws attached and a torx T10 screwdriver. Surface material Concrete or stone Wood Size of holes 5.0 mm (0.20 inch) 2.5 mm (0.10 inch) Use of plugs Yes No 3. Feed the cable through the cable entry hole and connect the cable Connect the cable to the connector blocks attached according to the overview below. Nedap antenna interface K1-6 K2-1 RS485 A (-) Beeper_IN* K1-5 K2-2 RS485 B (+) Led_UL_IN* K1-4 K2-3 Ground Led_NA_IN* K1-3 K2-4 Data-1 / Data Ground K1-2 K2-5 Data-0 / Clock Power supply 12 - 24VDC K1-1 K2-6 Tamper switch (normally closed) K2-7 Tamper switch (common) 4. Place the connectors Place the connectors over the pin headers at the backside of the reader. Make sure that the correct connector block is placed on the correct pin header (6P vs. 7P). Place the connectors such that the topside of the connectors (recognizable by the screws) remains visible after it has been placed on the reader. 5. Attach the MACE Smart reader onto the wall-plate Attach the reader onto the wall-plate according to the three steps in the illustration. Finish with fixing the assembly using the assembly screw at the bottom and the torx T10 screwdriver. INSTALL GUIDE More information about the configuration and installation of the MACE Smart reader can be found in the MACE Smart Install Guide, available on our partner portal https://portal.nedapidentification.com. TECHNICAL SUPPORT For technical support, please call: +31 (0)544 471 222 or email support@nedapidentification.com. Reader Mounting screws Wall-plate Assembly screw
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