Kaba compact reader 91 10 - subterminal Technical Manual 04042573 - 07/2014 EN
© Copyright by Kaba GmbH Albertistraße 3 D-78056 Villingen-Schwenningen Phone +49 7720/603-0 Fax +49 7720/603-102 www.kaba.com/workforce-management All rights reserved. The document and its parts are copyrighted. Only Kaba GmbH has the right to commercialize, market and distribute this document. This document, or any part of it, may not be copied or reproduced, adapted, arranged, reworked or modified without the prior consent of Kaba GmbH.
1 About this manual ............................................................................................................................ 5 2 Grouped safety messages................................................................................................................ 7 2.1 2.2 2.3 2.4 3 Product description .......................................................................................................................... 9 3.1 3.2 3.3 4 4.2 4.3 4.4 4.5 4.6 4.
6.1 6.2 7 System mode .................................................................................................................................. 29 7.1 7.2 7.3 7.4 7.5 8 BPA/9 Subset ..................................................................................................................................................... 37 Addressing..........................................................................................................................................................
Technical Manual 1 About this manual About this manual Validity Addressees This manual describes the Kaba compact reader 91 10 as of Manufacturing date: June 2014 Terminal software: MRCC01_08RA (MIFARE) ARCC01_05RA (LEGIC) Functional type: Subterminal This manual is written exclusively for specialists. The descriptions in this manual are intended for personnel trained by the manufacturer. The information in this manual cannot substitute the product training.
About this manual Technical Manual Contents and purpose Orientation in the manual Danger categories The contents is limited to the assembly, installation, start-up, and basic operation of the hardware. This manual contains the following orientation aids to facilitate finding of specific topics: • The table of contents at the beginning of the manual gives an overview of all topics. • The header always contains the respective main chapter.
Technical Manual 2 Grouped safety messages Grouped safety messages The device has been built in accordance with state-of-the-art standards and the recognized safety rules. Nevertheless, its use may constitute a risk to persons and cause damage to material property. Read and observe the following safety instructions, before using the product. 2.1 Use as directed The device or system is only intended for usage as described in chapter ”Product description.
Grouped safety messages 2.4 Technical Manual ESD (electrostatic discharge) protective measures NOTICE! Danger for electronic components due to electrostatic discharge. Improper handling of printed circuit boards or components can cause damages that lead to complete failures or sporadic errors. • During installation and repair of the device, the ESD protective measures must be considered. The following rules must be considered: • Wear an ESD wristband when handling electronic components.
Technical Manual 3 Product description Product description The Kaba compact reader 91 10 is designed as a subterminal to be used on a time and attendance terminal or for access control unit. The Kaba compact reader 91 10 is installed in an ergonomically suitable position in secured indoor areas, e.g. in the access area (door). The rear panel of the contact reader is installed using a socket for flush mounting or cavity wall mounting.
Product description 3.1 Technical data 3.1.1 Interfaces Technical Manual RS-485 RS-485 2-wire subpartyline for communication with the superior access control system unit or a time and attendance terminal. • Protocol: BPA/9 Subset. • Automatic baud rate detection; 9600 / 19200 Baud. • 7 data bits, even parity, 1 stop bit. Programming interface For terminal software update. 3.1.2 3.1.3 Power supply • Voltage range: 12 – 27 V AC; 10 – 34 V DC • Power consumption: Typically 1.2 W; max. 2.
Technical Manual 3.1.5 Product description Environmental conditions • • Ingress protection according to IEC 60529: IP54 (flush cable mounting with sealing pad) IP40 (surface cable mounting) Relative humidity: • 3.1.6 0% to 95%, non-condensing Ambient temperature: -25 °C – +70 °C (operation) -40 °C – +85 °C (storage) Dimensions Width x Depth x Height, dimensions in mm • Compact reader for flush cable mounting: 88.5 x 88.5 / 19.
Product description Technical Manual Konf 3.2 Conformity This device complies with the following standards: EN 60950-1:2006 + A11:2009 EN 301 489-1 V1.6.1 EN 301 489-3 V1.4.1 EN 300 330-1 V1.3.1 EN 300 330-2 V1.3.
Technical Manual 3.3 Product description Labeling The identification plate is located on the rear of the device. Specified on the identification plate: • Device name • Product number • Serial number • Power data • CE identification • WEEE labeling acc.
Design and Function Technical Manual 4 Design and Function 4.1 Device variants 4.1.1 RFID reader The Kaba compact reader 91 10 is available with the following reader types: 4.2 • MIFARE • LEGIC Design The housing of the compact reader is available in two versions: 4.3 • for flush cable mounting with flat rear panel. • for surface cable mounting with deep rear panel (spacer frame). Terminal software The hardware of the compact reader is used in various Kaba system solutions.
Technical Manual 4.4 Design and Function System connection Customer application B-COMM communications software Time and attendance terminal Access control unit Compact reader The compact reader operates as a subterminal of a superior time and attendance terminal or an access control system, which is called control system in the following text. Data exchange takes place via the RS-485 interface (subpartyline). Communication is realized via the transmission protocol BPA/9 subset.
Design and Function 4.5 Technical Manual System requirements Communication software • B-COMM version 2.10 and higher Control 4.6 • Terminal of the B-web 93 00 series with B-Client HR10 terminal software version 754-00-X-K02 and higher. • B-Net 92 50 access control manager with B-Client AC2 terminal software version 664-03-X-K03 and higher. • B-Net 92 90 access control manager with B-Client AC3 terminal software version 666-03-X-K03 and higher.
Technical Manual 4.7 Design and Function Operating sequence The exact operating sequence on the subterminal is defined by the parameters set for the superior control unit. The operating sequences described below correspond to the default settings. 4.7.1 Badge input The luminous ring is green while the reader is idle state. A booking operation is started by a badge input. The contactless media are simply held in front of the terminal. 4.7.
Installation Technical Manual Installation 5 Installation 5.1 Installation conditions 5.1.1 General An accurate installation of all components is a basic requirement for a properly functioning device. The following installation instructions must be adhered to. 5.1.2 Installation site The compact reader is installed in an ergonomically suitable position, e.g. in the access area (door). It is mounted to a socket for flush mounting or cavity wall mounting with a screw distance of 60 mm.
Technical Manual 5.
Installation 5.3 Installation lines 5.3.1 Power supply cable Technical Manual Power is normally supplied to the subterminal by the superior access control manger and can be tapped easily from there. A separate power supply needs to be provided if the subterminal is connected to a B-web time and attendance terminal. For distances up to 20 meters max., it is permitted to have the power supply for the subterminal and the data line in one single cable.
Technical Manual 5.4 Installation Fastening the compact reader Principle The compact reader consists of a rear panel and the electronic system in the operator panel. The rear panel is surface-mounted. The terminal clamp is on the rear panel. With the quickwire technology, the complete wiring is done on the rear panel, separated from the electronic system. The electronic system is affixed during startup.
Installation 5.5 Technical Manual Connections 12 V A B-web 93 00 B B-Net 92 50 C B-Net 92 90 24 V 1 12 ABC AC DC OUT Terminal Assignment IN Description 1 DC- / AC 2 DC+ / AC 3 NC 4 COM 5 NO 6 GND Digital inputs 7 IN1 8 IN2 The inputs are connected to common ground using a simple switch or relay contact. 9 - 10 A 11 B 12 C Power supply input 12 – 27 V AC; 10 – 34 V DC. Relay output, contact load 30 V AC / DC, max. 2 A The relay can be used to trigger the door opener.
Technical Manual 5.6 Installation Setting the switches Air/Metal 2 6 ON 1 1 3 A slide switch (1), a DIP switch (2), and a rotary switch (3) are located on the rear of the compact reader. 5.6.1 Slide switch The slide switch (1) is used to adjust the RFID reader to a metallic or non-metallic surface in order to optimize the reader's range. Position Meaning Air Metal Positioned to "Air" if the compact reader is installed on a nonmetallic surface (default setting).
Installation 5.6.2 Technical Manual DIP switch Switch 1 Switch 2 RS-485 bus termination ON Terminating resistor 4.7 kOhm (star topology) OFF Open ON Bus terminating resistor 120 Ohm OFF Open Switch 3 Not used Switch 4 Rotary switch settings ON The interface parameters and the GID/DID, set in system mode by means of the LOWPAR command, are active (special applications). OFF The device address DID set by means of the rotary switch is active, the GID group address is always 00.
Technical Manual Installation 5.6.2.1 RS-485 bus termination The RS-485 terminating resistor is set via DIP switches 1 and 2. The selection of the terminating resistors depends on the connection architecture. Bus wiring In the example, the subterminals (2) are connected to the superior control (1) via a bus. 1 1 4 2 5 3 6 7 8 9 C 0 E 2 open open open 120 The last terminal at the bus requires a 120-ohm terminating resistor.
Installation 5.6.3 Technical Manual Rotary switch A device is addressed via the RS-485 subpartyline by means of the group address and device address. The rotary switch is used to set the logical device address (DID) of the subterminal. The GID logical group address is fixed to 00 and cannot be changed.
Technical Manual 5.7 Installation Closing the compact reader Once the coaxial cable has been connected, fasten the front frame with the electronic components to the rear panel. Firmly press the front frame to the rear panel, making sure that they are parallel to each other. The parts are secured by means of a snap lock. 5.8 Opening the compact reader The practical snap-lock connection allows you to quickly remove the front frame from the rear panel.
Start-up Technical Manual 6 Start-up 6.1 Set-up procedure 6.2 1. Switch on the power supply 2. Log the subterminal on to the control unit in B-COMM and put it into operation. 3. Carry out a functional test. Cold start The device is reset to default (factory) settings by means of a cold start. How to perform a cold start: • Turn off the device. • Set DIP switch 6 to ON. • Turn on the device. An acoustic signal can be heard; after approx.
Technical Manual System mode 7 System mode 7.1 Function of the system mode The system mode allows setting additional parameters for the device. Default (factory) parameters can be modified in system mode. However, the parameters need only to be modified via the system mode for special applications. 7.2 Access to the system mode It can be accessed via the data interface of the device. A service PC is connected by means of the parameter setting tool, order number 04036126.
System mode 7.4 Technical Manual Terminating the system mode Terminate the system mode and start the device with terminal software (normal start). 1. Turn off the device. 2. Set DIP switch 5 to OFF (see chapter 5.6.2). 3. Turn on the device. The device starts with the terminal software. The system mode is not terminated automatically with a timeout. 7.5 Commands Commands only contain capital letters and terminate with .
Technical Manual 7.5.1 System mode SETHWC The SETHWC command (Set Hardware Configuration) is used to enter the parameters defining the device hardware. After having changed hardware parameters, a cold start must be performed to enable the parameters.
System mode Technical Manual 7.5.1.
Technical Manual 7.5.2 System mode GETHWC The command GETHWC (Get Hardware Configuration) is used to display the parameters set with the SETHWC command. 7.5.3 GETPRG The command GETPRG (Get Program Number) is used to query the program number of the device. Example: >GETPRG Program Number : '852-01-X-K02' >_ The program number is interpreted as shown below. Example: 852 = MRRC 854 = MRCC 855 = ARRC 856 = ARCC 7.5.4 01 -X- 02 01 .
System mode 7.5.6 Technical Manual COLD The COLD command starts execution of a cold start (see chapter 6.2). Example: >COLD_ The following messages appear: Resetting device with Cold Start Are you sure? After acknowledgement with '1' or 'Y', the cold start is executed and indicated by the following message: >Restarting … In all other cases, there is no action, and the system mode remains active. 7.5.7 ORIGIN The ORIGIN command resets the device to its delivery state.
Technical Manual 7.5.8 System mode LOWPAR The LOWPAR command (Low Level Parameterization) is used to set the parameters of the data interface. The parameters for a protocol will only be queried if a protocol has been logged on with the SETHWC command. These parameters are reset to the default values by a cold start. The default value is always the first value after the parameter name.
System mode 7.5.9 Technical Manual GETDGN The GETDGN command is used to query diagnostics data (possible errors). Query without error messages: >GETDGN_ No Errors found >_ Query with error messages: >GETDGN Errors found Code: 030 : Meaning: 01 Error while allocating memory >_ The following error codes are possible: 7.5.
Technical Manual 8 Description of the subpartyline Description of the subpartyline In the online mode, communication between the subterminal and the superior control unit takes place via the subpartyline with BPA/9 subset protocol. The subpartyline is an RS485 bus operated in 2-wire technology. Normally, transmission takes place at 19,200 baud, with even parity and one stop bit. Alternatively 9,600 baud are also possible. 7 bit ASCII characters are transmitted. 8.
Description of the subpartyline 8.3 Technical Manual Control characters and control sequences Control characters are displayed in angle brackets, e.g. ESC (1Bhex) as . An underline character “_” is used as blank (2Øhex). In the following examples “0” is used as group address (GID) and “1” as device address (DID).
Technical Manual 8.5 Description of the subpartyline Data from subterminal to control unit Transmit poll Control unit Subterminal The subterminal does not respond if the address is different than the own address, or if an error has been recognized, or if the two address characters are different. The control unit repeats the transmit poll after an internal timeout. GID GID DID DID No response In case of the same address the subterminal must respond.
Description of the subpartyline 8.6 Technical Manual Data from the control unit to the subterminal Receive poll Steuerung Subterminal The subterminal will not respond if the address is different from the own address, or if an error has been detected, or if the two address characters are different. The control unit repeats the receive poll after an internal timeout.
Technical Manual 8.7 Description of the subpartyline Escape sequences The subterminal functions are controlled by the following escape sequences. Which ESC sequences are used or supported depends on the particular control unit. 8.7.1 Controlling LED, relay and beeper The following sequences are used to control the relay, the acoustic signal generator (beeper) and the optical signal generator (LED) in the subterminal.
Description of the subpartyline 8.7.2 Technical Manual Reset The following ESC sequence will reset the subterminal. The same settings as after a warm start will then apply to all parameters. Meaning Code Performing reset c After a reset, the subterminal will send the ESC sequence “LOG IN”. 8.7.3 Meaning Code LOG IN [98~ Device configuration The device configuration of the subterminal is requested by means of the following ESC sequence.
Technical Manual 8.7.4 Description of the subpartyline Program number The program number (version of the terminal software) is requested by means of the following ESC sequence. The subterminal will send the ESC sequence “Report program number” in response. Meaning Code Requesting program number [?c Response from the subterminal [?18 OP852-00-X-K00\ 1 2 1) Space = 20Hex 2) O as in Otto = 4FHex 8.7.
Description of the subpartyline 8.7.7 Technical Manual Acoustic acknowledgement for reading Correct reading of a badge can be acknowledged by a short acoustic signal. This acoustic acknowledgement can be switched on/off with the following ESC sequence: Meaning Code for AUX 1 Acoustic acknowledgement ON [?16i Acoustic acknowledgement OFF* [?17i * Default (after a warm start or cold start) 8.7.
Technical Manual Maintenance 9 Maintenance 9.1 Updating terminal software The terminal software can be updated if needed. Update of terminal software requires special equipment which usually is only available to authorized specialist partners and Kaba Service staff. 9.1.1 Equipment The following equipment is needed for terminal software update: 9.1.2 • Current terminal software: • Service PC with Kaba EAC Service Tool. • Kaba Programmer 1460. Procedure Preparation: 1.
Packaging / returns 10 Technical Manual Packaging / returns Not properly packaged components and devices can cause costs due to damages during shipping. Please observe the following information when sending products to Kaba. Kaba GmbH is not liable for products that have been damaged due to negligent packaging. 10.1 Complete devices The original packaging has been specifically designed to fit the device. It offers maximum protection against damage in transit.
Technical Manual 10.3 Packaging / returns Labeling Complete return documents and a correct labeling allow for fast processing. Please make sure that each package includes a delivery note. The delivery note should contain the following information: • Number of devices or components per package. • Product numbers, serial numbers, specifications. • Name and address of your company / contact person. • Reason for return, e.g. repair exchange. • Meaningful and detailed error description.
Disposal 11 Technical Manual Disposal This product complies with the WEEE directive and is, according to DIN EN standard 50419, marked with the “Crossed out garbage can” symbol. See chapter 3.3 Labeling. The symbol refers to separated disposal of electric and electronic devices in EU countries. Please do not dispose of device in your regular garbage. Used devices contain valuable materials that should be recycled. Used devices should therefore be disposed of via your country’s take back system.
Technical Manual 12 Index Index A F Access control manager ........................................................16 Access control unit........................................................... 15, 19 Acoustic acknowledgment...................................................44 Addressing .......................................................................... 26, 37 Ambient temperature ............................................................11 ARIOS ...........................................
Index Technical Manual Relay outputs ............................................................................ 10 Reset ............................................................................................ 42 RFID reader types .................................................................... 14 RoHS............................................................................................. 12 Rotary switch.............................................................................
