Model SWH-2100 Contactless Smart Card 13.56 MHz Credential Reader Installation Guide Version A1 Part Number UM-092 February 2005 L TI A N E FI D N O T y c o C 1 CONTENTS Introduction . 3 Features . 4 Mounting . 5 Installation Considerations. 6 Wiring . 8 Installation Notes . 9 Troubleshooting . 10 Model SWH-2100 Technical Specifications . 11 FCC Digital Device Limitations . 13 UL Standards Compliance . 14 CE Marking . 15 L TI A N E FI D N O T y c o C 2 INTRODUCTION The SWH-2100 Contactless Smart Card reader will read Smart Cards at a frequency of 13.56 MHz. The reading capability includes, for Smart Cards, both serial numbers and programmed sectors along with both encrypted and unencrypted ID data. Compatible standards include ISO 15693, ISO 14443A and MIFARE sector. Refer to Table 1 for a complete list of compatible standards and data. TABLE 1. Compatible Credential Formats - Model SWH-2100 ISO 14443A (MIFARE) Serial Number ISO 14443B Serial Number ISO 15693 Serial Number MIFARE Sector SmartFrame MIFARE Sector Pass Through DESFire Serial Number iCLASS Serial Number Others - Future Expansion T y c o C N O FI D L TI A N E 3 FEATURES
Universal compatibility with all ISO 15693 and ISO 14443A credentials
(badges, disk tags and key fobs). Reads most 13.56 MHz credentials in the same reader.
Electrical protection (reverse polarity diode protection on power lines)
Data lines: high-speed transient voltage suppressor diodes
IP65-rated sealed electronics for deployment in both interior and exterior environments
Integrated reader tamper protection L TI A N E FI D N O T y c o C 4 MOUNTING Mount the single-gang backplate (with tamper magnet installed) onto the wall. L TI A N E FI D N O FIGURE 1. Model SWH-2100 Reader Backplate
(includes tamper switch magnet) NOTE T y c o C Mounting holes fit standard U.S. single-width electrical box and standard European (EMEA) electrical box hole patterns. 5 Mount the reader module directly to the backplate and then snap the front cover in place as indicated in Figure 2. L TI A N E FI D N O T y c o C FIGURE 2. Mounting Assembly
(including 1 optional isolation spacer) INSTALLATION CONSIDERATIONS An isolation spacer (available from Software House, part number SWH-ISOSPC) may be used to improve the read range distance when mounting the reader to a metal surface. To optimize reader range, use the number of backplates as indicated in Table 2. Use of Isolation Spacers is optional and not required for non-metal mounting surfaces. 6 TABLE 2. Isolation spacer recommendation for mounting the SWH-2100 reader on metal. Distance No metal plate 4.5 cm 2.7 cm (3 tamper plates) 1.8 cm (2 tamper plates) 0.9 cm (1 tamper plate) 0 cm Reading Distance 100%
100%
85%
70%
50%
10%
L TI A N E FI D N O Installation of two SWH-2100 readers side-by-side and back-to-back T y c o C Read range is not affected if the center-to-center distance between two readers is greater than or equal to four (4) inches (101.6 mm). If the distance between the two readers is less than four inches, field interference between the two readers may result in a double-badge read. Two readers can simultaneously read the same badge or tag if the distance between the two readers is less than 4 inches, center-to-center. NOTE If two readers are being placed back-to-back on a wall less than 4 inches thick, maximum performance can be achieved by using a metal separation plate and then using isolation spacers as necessary. 7 WIRING The Model SWH-2100 has twelve terminals as noted in Table 3. The terminal strip is removable for easy installation and wiring. When attaching wires to the connector, strip off only the minimum insulation required
(approx. 1/8'') and push the wire into the connector until the insulation is flush or inside the connector body. This is particularly critical for outdoor readers. While the reader itself is designed and protected to IP65 standards, the cable wires can potentially corrode and short together if not carefully mounted and tightly fastened in the connector body. TABLE 3. Connector Pins for Model SWH-2100 L TI A N O N E FI D T y c o C Description External Beeper Control Ground Power (8 to 16 VDC) D1 Wiegand D0 Wiegand Reserved for Future Use External Green LED Control External Red LED Control A - RS485 - used for Flash upgrade B - RS485 - used for Flash upgrade Tamper (Normally Closed) Tamper (Normally Closed) PIN #
1 2 3 4 5 6 7 8 9 10 11 12 8 Table 4 indicates maximum wiring distances per Wiegand standard with the three most common gauges of cable. TABLE 4. Maximum cable distance for 18, 20, or 22 AWG wire Wire Gauge Cable Distance 18 AWG 500 feet
(152 meters) 22 AWG 200 feet
(61 meters) 20AWG 300 feet
(91 meters) INSTALLATION NOTES Unless otherwise specified in this manual, please follow these guidelines:
1. Shielded cable is recommended in electrically noisy environments. 2. You can use a local power supply for the reader. If so, dont connect the L power supply from the controller to the reader. The ground line of the local power supply must be connected to the power supply of the controller. TI A FI D E N 3. The unit needs to be operated with a power source with limited power consumption according to EN 60950-1 (2003) paragraph 2.5. N O 4. Use of a pull-up resistor may be required by some controllers. Consult T y c o C your controller manual. 5. For tamper wiring, connect Pins 11 and 12 to a normally closed supervised input, as shown in Figure 3. FIGURE 3. Normally Closed Wiring for Reader Tamper 9 TROUBLESHOOTING If the operation of a component is in doubt, substitute a known good component and retry the system. Always verify wiring against the provided wiring information before powering up the reader. TABLE 5. Error Conditions and Possible Solutions Possible Solutions Check the following:
Power connections to the reader.
Reader supply voltage at connector pin 3 and that the ground connection pin 2 is secure and well connected. L Verify that the door strike and the green LED are wired correctly. Verify that the access credential has been entered and that the reader has been properly configured in the host system. FI D N TI A N E O T y c o C Verify that the door strike is wired correctly. Refer to the appropriate wiring diagram in your controller manual. Disconnect the wire from pin 7
(green LED) and connect pin 7 to pin 2 (ground). If the green LED is now on, the reader is good and the connection to the reader is defective. If the green LED does not light, replace the reader. Condition None of the LEDs are on. The door does not open and the green LED does not light when a qualified credential is presented. The green LED does not light but the door strike unlocks the door when a valid credential is presented. 10 MODEL SWH-2100 TECHNICAL SPECIFICATIONS Cable Recommendations:
Connectors:
Certifications:
Open Standards Compliance:
Standard Color:
Dimensions with backplate
(height/width/depth):
Power Supply T y c o C Environments:
Humidity:
Operating Temperature:
L 4 core (minimum), shielded, 22 AWG
(minimum) cable. 12 position, 3.5 mm Screw Terminals -
Plug-In FCC Part 15, CE and UL 294 (pending) ISO 14443A ISO 14443B (depending on specific implementation) ISO 15693 (including some partially compliant credentials) Black (other colors available; contact your Software House representative) 4.37" 3.31" 1.10" (110.99 84.07 27.94 mm) 8-16 VDC 125 mA maximum current @
12 VDC Meets UL 294 standards for Outdoor Use. 5 to 100% (non-condensing)
-31 F to 151 F (-35 to 67 C) FI D TI A E N N O 11 Index of Protection:
Read Range:
Standard Wiegand Output including:
Upgrade RS485 Output Option T y c o C IP 65 (IEC 529) 1 to 5 inches depending on credential technology and environment. Note: Read range for credentials of identical technologies may vary greatly depending on the tuning and antenna structure of each individual credential. Sector Pass-through Serial Number Read Fixed Wiegand bit stream option SmartFrame encrypted MIFARE Sector read and conversion to Wiegand. Consult your Software House representative for available reconfiguration cards for your reader. Complete upgrade capability using RS485 port for reflashing of internal ROM Available for compatible controllers FI D TI A L E N N O 12 FCC DIGITAL DEVICE LIMITATIONS Radio and Television Interference This equipment has been tested and found to comply with the limits for a digital device, pursuant to Part 15 of the FCC rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference, in which case the user will be required to correct the interference at his own expense. L 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, and (2) this device must accept any interference received, including interference that may cause undesired operation. N O TI A N E FI D In order to maintain compliance with FCC regulations, shielded cables must be used with this equipment. Operation with non-approved equipment or unshielded cables is likely to result in interference to radio and television reception. T y c o C Caution: Changes or modifications not expressly approved by the manufacturer could void the users authority to operate this equipment. 13 CANADIAN RADIO EMISSIONS REQUIREMENTS This digital apparatus does not exceed the Class A limits for radio noise emissions from digital apparatus set out in the Radio Interference Regulations of the Canadian Department of Communications. Le present appareil numerique n'emet pas de bruits radioelectriques depassant les limites applicables aux appareils numeriques de la class A prescrites dans le Reglement sur le brouillage radioelectrique edicte par le ministere des Communications du Canada. TI A UL STANDARDS COMPLIANCE N This reader has been tested by Underwriters Laboratories, Inc. for standard UL 294, Access Control System Units, but has not been tested for compliance with any particular model of controller. N E FI D L O T y c o C 14 SWH-2000 L TI A N E CE MARKING Hereby, Software House declares that this equipment, if used according to the instructions, is in compliance with the essential requirements and other relevant provisions of the RTTE Directive 1999/5/EC. For use in all countries of the EU. A Declaration of Conformity exists for the following Software House Multi-technology readers:
SWH-4100 SWH-5100 SWH-1000 SWH-2100 SWH-4200 SWH-3000 SWH-1100 SWH-3100 SWH-5000 To obtain a copy, contact Software House and request the Declaration of Conformity document for Multi-technology readers. Software House 70 Westview Street Lexington, MA 02421 U.S.A. T y c o C FI D N O In case of alteration of the product, not agreed to by us, this declaration will lose its validity. This symbol indicates proof of conformity to applicable European Economic Community Council directives and harmonized standards published in the official journal of the European Communities. 15 Copyrights and Trademarks This document contains proprietary information of Tyco International, Inc. and is furnished to its customer solely to assist in the installation, testing, operation and maintenance of the equipment described. This document may not be reproduced in whole or in part without the written approval of Tyco International. Copyright 2005 Tyco International All rights reserved. Printed in Germany. Software House is a trademark of Sensormatic Electronics Corporation. MIFARE, SmartFrame, DesFire, and iCLASS are registered trademarks of other companies not affiliated with Sensormatic. L TI A N E FI D N O T y c o C Software House 70 Westview Street Lexington, MA 02421 http://www.swhouse.com Phone: 781-466-6660 Fax: 781-466-9550 16