Iolan Systems LA-WIWPROXKEYM Security Badge Reader User Manual ISIBR
Iolan Systems Inc. Security Badge Reader ISIBR
Contents
- 1. ISI Technical Brochure
- 2. Badge Reader info
Badge Reader info
Iolan Systems, Inc. 1200 Barton Hills Dr. Suite 233 Austin, Texas 78704 Tel: (512) 443-4369 Fax: (512) 443-3615 SALES SPECIFICATIONS LA-WIW-PROXKEY-M Gerard Verkaart President Email: gverkaart@austintx.com September 21, 1998 www.iolan.com Page: 1 LA WIW Proxkey M 1. Contents 1. CONTENTS ..........................................................................................................................................................2 2. PURPOSE OF THIS DOCUMENT....................................................................................................................3 3. DESCRIPTION OF THE READER...................................................................................................................3 4. DATA AND RELATION WITH TC NETWORK ............................................................................................3 5. TECHNICAL DATA............................................................................................................................................4 6. PARAMETERS OF THE MODULE .................................................................................................................5 7. DIMENSIONS OF THE MODULE: ..................................................................................................................5 8. CONNECTING.....................................................................................................................................................6 9. THE WIEGAND INTERFACE ..........................................................................................................................7 10. THE LED INTERFACE ..................................................................................................................................7 11. WIEGAND PROTOCOL ................................................................................................................................8 12. CHARACTER COMPOSITION ....................................................................................................................8 13. METHOD OF SENDING AND TIMING ......................................................................................................9 ISIBR.doc www.iolan.com Page: 2 LA WIW Proxkey M 2. Purpose of this document This document gives a full explanation of the possibilities of the LA-WIW-PROXKEY-M. This information can be used, for example, in sales documentation. 3. Description of the reader The LA-WIW-PROXKEY-M is a ‘wallmount-module,’ a reader for MIFARE® tags. The module is designed for identification purposes. It uses a Wiegand data-interface to read a card number, or any other kind of data, and to send it to the connecting unit. There are three indicators: red, green and yellow. The yellow lamp blinks when the card is successfully read. A buzzer is available to give signals as programmed 4. Data and Relation with TC Network The reader can be connected to a network as shown in this scheme: BEHEER PC MET IOLAN_TC ITEM : NETWORK LA-WIW-PROXKEY-B PC-LAN NETWERK SERVER MET DATABASE EENVOUDIGSTE OPSTELLING PC MET IOLAN_TC SYSTEEM MET MEERDERE MODULEN SPANT 4 KANAALNUMMERS DIENEN ALS VOORBEELD LA-TCR-RSOMZ-B SPANT 3 SPANT 2 PC MET IOLAN_TC LA-TCR-RSOMZ-B SPANT 1 RS232-KABEL K8 220Vac LA-TCB-2WI-2I-2R K9 LA-TCK-2WI-4I-2Y K10 K11 LA-TCB-PANEL 220Vac LA-TCK-2WI-4I-2Y LA-TCI-RSOMZ-A LA-WIW-PROXKEY-B 2X LA-WIW-PROXKEY-B LA-WIX-PROXKEY-M IOLAN ISIBR.doc DISPLAY MODULE ANALOGE INPUTS LA-CHP-8A-8S-H LA-CHP-8A-8S-V LA-CHP-8A-8S-R LA-CHP-8A-8S-G LA-CHR-8I-8Y DIGITALE INPUT EN OUTPUT PROJECTNAAM : STANDAARDISERING IOLAN NETWERK ONDERWERP : LA-TCB-8AN LA-CHR-16I-16Q LA-WIW-PROXKEY-B GEBOUWAUTOMATISERING K12 LA-TCX-DISPLAY LA-WIW-PROXKEY-B DEEL : NETWERKSYMBOLIEK www.iolan.com GET. E.LEMM GEW. GEW. GEW. 13-10-1997 PROJECTNR. TEKENING NR. R086 E003 Page: 3 LA WIW Proxkey M 5. Technical data Input Input Technical data WI interface Reading distance Operating frequency Data-transport transmitting speed Security Possibilities Transponders Indicators Mechanical aspects Material housing Connection to wall Cable connectors Protection Temperature Installation Connectors Mounting place Ordering information Type Order number ISIBR.doc • 5..0 Volt. The power input is included in the 6 pins connector. In cooperation with IOLAN-modules the power is supplied. • 50..80mA. • • • • • • 6 pins connector with: 2x power supply 2x lamp switcher 2x data. Wiegand ‘clock-data’ Data structure according to ISO 7811/2-1986 TRACK 2 20mm typical, min 10mm max 30mm met transponder types : MF1S50, MF1-P60 en MF1-L10 • 13,56mhz. • 106kBd • Data encrypted, protected against recording and ‘replay-attack’. • Can read from MIFARE® card types 1, 2, and 3. • Reader can hold one key (A or B) and one read location for transponder-identification. • Flexible transponder-code length. • Yellow LED-lamp and buzzer for successful reading action • Red LED-lamp and green LED-lamp for logistic matters. E.g.: red: no access; green: access allowed. • Typical W-housing • Black plastic housing, ABS plastic house. • Dimensions (without connectors; HxBxL mm ) 21x71x71mm. See drawing R086EF02. • 2x 3mm opening on 60mm distance. See drawing R086EF02. • Max. diameter 1.5 mm • Connectors 1x6 pins • When connector-protected IP66. • Stock -10..70 Celsius • Operating temp 0..50 Celsius • 6 pins. Thus maximum of 6 connecting wires • When mounting, outside connector must be protected with lacquer, or the edges must be made watertight. LA WIW Proxkey M LA 0110 01 www.iolan.com Page: 4 LA WIW Proxkey M 6. Parameters of the module There are no switches on the module; however, according to the MIFARE protocol the readers must be personalized. There is a procedure available which accomplishes this. During this personalization-procedure, the key and pointers are downloaded. The key is necessary to gain access to an application on the transponder. The pointers determine where the information is located. The reader is constructed in such a way that downloaded keys can never be read from the reader; reading from the reader is physically impossible; encryption also negates this possibility. 7. Dimensions of the module: ISIBR.doc www.iolan.com Page: 5 LA WIW Proxkey M 8. Connecting 1 : - Power 2 : Data 2 Clock 3 : Data 1 Data 4 : Switch Green LED 5 : Switch Red LED 6 : + Power ISIBR.doc www.iolan.com Page: 6 LA WIW Proxkey M 9. The Wiegand Interface The data interface is a ‘clock-data’ interface. The following scheme shows the hardware of the lines: 330ohm max 30mA conn. 2/3 max 10v conn. 1 • • • • Connector 1, the negative is the reference for the data lines. The circuit is similar for clock and data. Maximum current through the transistor is 30mA The maximum open power is 10 volt. For ESD protection a zenerdiode (12V) is applied parallel over the emitter en collector. • There is no pull-up resistance. 10. The LED interface Two LED’s are externally controlled, the red and the green LED. The yellow LED lights up when a card is being read. Red yellow green The controller can steer the LED’s. Typical use is showing: red = no access, green = access. In case of using IOLAN modules the controller would be of type LA-TCK-2WI-4I-2Y. The hardware from the two connections is shown in the next scheme: ISIBR.doc www.iolan.com Page: 7 LA WIW Proxkey M +5v 4,7kohm 330ohm 330ohm max 30mA Conn. 4/5 Uon < 1,5v Uoff >3,5v 5,1v Conn. 1 The circuits for the green and red LED are similar. The maximum current is ±30mA. Typical use is pulling the dataline to 0 volt. 11. Wiegand protocol This version of the IOLAN mifare readers sends out data according to the Wiegand protocol. Sending a string of digits with a maximum length of 16 is possible. 12. Character composition Immediately after reading a card the reader sends out a string. This string is composed according to ISO 1711/2 track 2: ISIBR.doc www.iolan.com Page: 8 LA WIW Proxkey M ITEM : CONFIDENTIAL CHARACTER DEFINITION * ALL CHARACTERS ACCORDING TO ISO 7811/2-1986 TRACK 2 LIST : CHARACTER TEXT IN DRAWINGS UNUSED START UNUSED FIELD UNUSED STOP FIELD IS THE ABREVIATION FOR 'FIELD SEPARATOR' * EXAMPLE : MESSAGE IS : TWO FIELDS : 00000000000000000 EDGE IOLAN GEBOUWAUTOMATISERING DIGIT DIGIT DIGIT DIGIT DIGIT DIGIT DIGIT DIGIT DIGIT DIGIT UNUSED CHARACTER START SENTINEL UNUSED CHARACTER FIELD SEPARATOR UNUSED CHARACTER END SENTINEL LSB MSB PARITY 1* FIELD 1 = "12" FIELD 2 = "3" 11010 10000<"1"> START SENTINEL PROJECTNAAM : BITSTREAM * INCLUDING PARITY DISCRIPTION 01000 10110 11001 11111 01101 00000000000000000 EDGE <"2"> <"3"> FIELD SEPARATOR END SENTINEL GET. STANDAARDISERING IOLAN NETWERK E.LEMM 28-08-1995 PROJECTNR. GEW. ONDERWERP LA-IOB-PROXKEY DEEL : MAGSTRIPE INTERFACE DATA CHARACTER DEFINITION GEW. GEW. TEKENING NR. S041 E102 The string forwarded by the LA-WIW-PROXKEY-M is default: (edge) (edge) • The length of the string is defined in the EEPROM and is variable. Standard the length is set to 10 digits. • The LRC is the XOR of all data characters. • The ‘edge’ is 2 characters long. • There is no ‘Card-load’ signal. • D0 ..D9 is the card identification - number. 13. Method of sending and timing The to be transmitted data is split up into characters and they are send out one by one Each character gets its own paritybit. The string as a whole gets an extra parity-character. The character structure is explained later in this document. A character consists of 5 bits. 4 databits and 1 paritybit. These are transmitted 1 by 1: ISIBR.doc www.iolan.com Page: 9 LA WIW Proxkey M 1. Dataline setup 2. clockline goes low. 3. clockline goes up This gives the following pattern: file:R086EE01.BMP • • • • • The upper signal line is the clockline. (connector 2) The lower signal line is the dataline. (connector 3) The setuptime for data 3..5 mS. The clock low period is 3..5 mS The timelap the data remains up after going up of the clock is 3mS ISIBR.doc www.iolan.com Page: 10 LA WIW Proxkey M A whole string of 10 characters would look like this: file:R086EE02.BMP In this case card number 0404040400 is send. • The upper signal line is the clockline. (connector 2) • The lower signal line is the data line. (connector 3) ISIBR.doc www.iolan.com Page: 11
Source Exif Data:
File Type : PDF File Type Extension : pdf MIME Type : application/pdf PDF Version : 1.2 Linearized : No Page Count : 11 Creator : Microsoft Word Create Date : Friday, April 16, 1999 4:50:34 PM Title : ISIBR.PDF Author : Robert Devillez Jr. Producer : Acrobat PDFWriter 3.0 for Windows Subject :EXIF Metadata provided by EXIF.tools