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TSL Reader Range TSL Multi-Technology Card Reader Installation Manual The specifications and descriptions of products and services contained in this document were correct at the time of printing. Integrated Control Technology Limited reserves the right to change specifications or withdraw products without notice. No part of this document may be reproduced, photocopied, or transmitted in any form or by any means (electronic or mechanical), for any purpose, without the express written permission of Integrated Control Technology Limited. Designed and manufactured by Integrated Control Technology Limited, Protege and the Protege Logo are registered trademarks of Integrated Control Technology Limited. All other brand or product names are trademarks or registered trademarks of their respective holders. Copyright Integrated Control Technology Limited 2003-2022. All rights reserved. Last Published: 06-Sep-22 5:43 PM TSL Multi-Technology Card Reader | Installation Manual 2 Contents Introduction About This Module Reader Editions Reader Accessories Faceplates Vandal Resistant Cover Surface Mount Box Pigtail Cables Ferrite Shield MIFARE Technology About MIFARE Secured MIFARE Card Format About MIFARE DESFire EV1 About MIFARE DESFire EV2 About MIFARE DESFire EV3 MIFARE/DESFire Products Installation Requirements Mounting Mounting Instructions Mounting with Vandal Resistant Cover Accessory Mounting with Surface Mount Box Accessory Reader Connection Reader Pigtail Shield Connection RS-485 Reader Connection RS-485 Reader Connection (Entry/Exit) RS-485Reader Location OSDP Reader Connection OSDP Reader Location OSDPBaud Rate Requirement OSDPReader Addressing Wiegand Reader Connection Wiegand Reader Connection (Entry / Exit) Connecting 4 Wiegand Readers TSL Multi-Technology Card Reader | Installation Manual 5 5 6 8 8 9 9 10 10 11 11 11 11 11 12 12 13 14 14 16 18 20 20 21 22 23 24 25 25 26 26 27 28 29 3 Enabling Wiegand Mode Programming the Card Reader Protege Config App Technical Diagrams TSL Standard Reader TSL Extra Reader TSL Mini Reader TSL Standard Reader Vandal Resistant Cover TSL Extra Reader Vandal Resistant Cover Technical Specifications New Zealand and Australia European Standards UK Conformity Assessment Mark UL and ULC Installation Requirements CAN/ULC-S319 UL 294 FCC Compliance Statements Industry Canada Statement Disclaimer and Warranty 29 30 30 31 31 32 33 34 35 36 39 40 41 42 42 42 43 44 45 TSL Multi-Technology Card Reader | Installation Manual 4 Introduction This installation manual provides instructions and technical specifications for physical installation of the ICT TSL Multi-Technology Card Reader. For programming information, see the ICT Card Reader Configuration Guide, available from the ICT website. About This Module The TSL Multi-Technology Card Reader is an advanced-technology, high-frequency smart card radio frequency identification device (RFID), specifically designed to enhance the functionality of security, building automation and access control by providing multiple format compatibility, high-speed data transmission and sabotage protection. The TSL card reader can operate using intelligent RS-485, OSDP or Wiegand communications, and can be programmed to read and output different card formats. Before installing this product we highly recommend you read this manual carefully and ensure that the data formats you intend to program will operate with the configured access control or security product. Current features of the TSL reader range include:
Multi-card technology provides support for 125KHz, MIFARE and DESFire cards Encrypted RS-485, un-encrypted configurable RS-485, OSDP or standard Wiegand connection Bluetooth Wireless Technology for reading mobile credentials NFC credential reading Configurable LED strip: 2 color control via external LED wiring, 16 color selectable for Protege GX function codes and other features Keep alive transmission every 30 seconds for intelligent tamper management Keypad output on RS-485, OSDP and Wiegand data lines (keypad versions only) Programmable via the Protege Config App Fully encapsulated design with environmental IP rating of IP65 for outdoor and indoor operation Note: TSL readers are shipped in RS-485 configuration by default. TSL Multi-Technology Card Reader | Installation Manual 5 Reader Editions The TSL Multi-Technology Card Reader comes in multiple sizes and with a range of optional features. Standard 117 x 43 x 9.5mm (4.61 x 1.69 x 0.37") Keypad 125kHz MIFARE/
DESFire/
NFC Bluetooth Technology TSL-STD-RR-HL TSL Standard Multi-Technology Card Reader with Bluetooth Wireless Technology TSL-STD-RK-HL TSL Standard Multi-Technology Card Reader with Bluetooth Wireless Technology and Keypad TSL-STD-RR-H TSL Standard 13.56MHz Card Reader with Bluetooth Wireless Technology TSL-STD-RK-H TSL Standard 13.56MHz Card Reader with Bluetooth Wireless Technology and Keypad TSL-STD-RR-L TSL Standard 125hHz Card Reader with Bluetooth Wireless Technology Extra 117 x 75 x 9.5mm (4.61 x 2.95 x 0.37) Keypad 125kHz MIFARE/
DESFire/
NFC Bluetooth Technology TSL-EXTRA-RR-HL TSL Extra Multi-Technology Card Reader with Bluetooth Wireless Technology TSL-EXTRA-RK-HL TSL Extra Multi-Technology Card Reader with Bluetooth Wireless Technology and Keypad TSL-EXTRA-RR-H TSL Extra 13.56MHz Card Reader with Bluetooth Wireless Technology TSL-EXTRA-RK-H TSL Extra 13.56MHz Card Reader with Bluetooth Wireless Technology and Keypad TSL-EXTRA-RR-L TSL Extra 125kHz Card Reader with Bluetooth Wireless Technology TSL Multi-Technology Card Reader | Installation Manual 6 Mini 87 x 43 x 9.5mm (3.43 x 1.69 x 0.37) Keypad 125kHz MIFARE/
DESFire/
NFC Bluetooth Technology TSL-MINI-RR-HL TSL Mini Multi-Technology Card Reader with Bluetooth Wireless Technology TSL-MINI-RR-H TSL Mini 13.56MHz Card Reader with Bluetooth Wireless Technology TSL-MINI-RR-L TSL Mini 125kHz Card Reader with Bluetooth Wireless Technology TSL Multi-Technology Card Reader | Installation Manual 7 Reader Accessories A number of optional accessories are available to complement your TSL reader installation. Faceplates All TSL readers are shipped with a black faceplate. To switch to a white reader simply order a white faceplate. Whether you're looking for a color change or need to replace a damaged cover, replacement white and black faceplates are available to suit all TSL reader sizes and configurations. Ordering Codes Standard Reader Faceplates TSL Standard Reader Faceplate - Black TSL Standard Reader Faceplate - White TSL Standard Reader with Keypad Faceplate - Black TSL Standard Reader with Keypad Faceplate - White Extra Reader Faceplates TSL Extra Reader Faceplate - Black TSL Extra Reader Faceplate - White TSL Extra Reader with Keypad Faceplate - Black TSL Extra Reader with Keypad Faceplate - White Mini Reader Faceplates TSL Mini Reader Faceplate - Black TSL Mini Reader Faceplate - White Fitting Instructions TSL-FP-STD-B TSL-FP-STD-W TSL-FP-STD-KP-B TSL-FP-STD-KP-W TSL-FP-EXTRA-B TSL-FP-EXTRA-W TSL-FP-EXTRA-KP-B TSL-FP-EXTRA-KP-W TSL-FP-MINI-B TSL-FP-MINI-W 1. To replace the faceplate, first remove the screw from the hole at the bottom of the reader. 2. Lift the front cover out and up from the reader body. 3. Position the new faceplate over the reader body, ensuring the top clip snaps into place. 4. Using the M3(G4)x4 Plastite self-tapping screw removed earlier, secure the cover via the hole at the bottom. TSL Multi-Technology Card Reader | Installation Manual 8 Vandal Resistant Cover The vandal resistant cover (VRC) accessory is ideal for locations where a card reader may be exposed to damage, including corridors, parking buildings, correctional facilities, and other public places. Highly resistant to impact, such as from the swing of a hammer or baseball bat, its robust construction provides greater durability and protection against vandalism and malicious damage. The flush design also serves as an anti-ligature measure for an additional level of safety. The vandal resistant cover accessory has not been evaluated for UL/ULC applications. Ordering Codes Accessory TSL Standard Reader VRC TSL Standard Reader with Keypad VRC TSL Extra Reader VRC Ordering Code TSL-VRC-STD-B TSL-VRC-STD-KP-B TSL-VRC-EXTRA-B TSL Extra Reader with Keypad VRC TSL-VRC-EXTRA-KP-B For installation instructions, see Mounting with Vandal Resistant Cover Accessory (see page16). Surface Mount Box The surface mount box (SMB) accessory is ideal for locations where cables cannot run inside the wall and must instead be run through external conduits. The surface mount box allows you to mount the card reader projected from the wall and provides a protected cavity where external cabling can be securely connected to the reader. The surface mount box accessory has not been evaluated for UL/ULC applications. Ordering Codes Accessory TSL Standard Reader SMB - Black TSL Standard Reader SMB - White TSL Extra Reader SMB - Black TSL Extra Reader SMB - White Ordering Code TSL-SMB-STD-B TSL-SMB-STD-W TSL-SMB-EXTRA-B TSL-SMB-EXTRA-W For installation instructions, see Mounting with Surface Mount Box Accessory (see page18). TSL Multi-Technology Card Reader | Installation Manual 9 PULULCPULULC Pigtail Cables TSL readers use a shielded 8-wire pigtail wiring loom with a Hirose socket plug for connection to the reader. A standard 34cm cable is supplied with the reader, while a 3.5m long cable option is also available. The 3.5m pigtail cable is not compliant for UL/ULC installations. Ordering Codes Accessory Standard 34cm TSL Reader Pigtail Cable 3.5m TSL Reader Pigtail Cable Ferrite Shield Ordering Code TSL-CABLE-34CM TSL-CABLE-3.5M A ferrite shield, also known as a noise suppression sheet, is designed to reduce electromagnetic interference and may help to improve read range for readers mounted on a metal surface. The shield is placed between the reader and the mounting surface to suppress interference caused by the reader's proximity to the metal surface. The effectiveness of using a ferrite shield to improve read range is determined by many factors, including the mounting surface material and installation environment, and may not necessarily produce the desired result. Testing should be performed to assess effectiveness before planning installation on multiple readers. A surface mount box is recommended as the preferred solution for interference caused by metal mounting surfaces. A surface mount box is generally more effective at reducing interference and improving read range as it distances the reader from direct contact with the mounting surface, breaking the 'path of transfer'. Ordering Codes Accessory TSL Standard Reader Ferrite Shield 10pk TSL Extra Reader Ferrite Shield 10pk TSL Mini Reader Ferrite Shield 10pk Ordering Code TSL-FS-STD TSL-FS-EXTRA TSL-FS-MINI TSL Multi-Technology Card Reader | Installation Manual 10 PULULC MIFARE Technology About MIFARE Based on the international standard ISO/IEC 14443 Type A, MIFARE is a technology used for contactless RFID smart card systems consisting of card and reader components. Fully compliant with the international standard ISO/IEC 14443 Type A Multi-application memory to store several services on the same card, allowing for many integration possibilities Fast transaction speed High security and fraud protection Secured MIFARE Card Format Secured MIFARE is the compromise between secured cards and cost. Card data is protected with a diversified authentication key and encrypted with an AES256 algorithm. These cards are not as secure as DESFire EV1 but still provide high security against cloning. This card mode can be used on all MIFARE 1K (S50) cards and tags. About MIFARE DESFire EV1 MIFARE DESFire EV1 is an ideal solution for multi-application smart cards in transport schemes, e-government or identity applications. It complies fully with the requirements for fast and highly secure data transmission, flexible memory organization, and interoperability with existing infrastructure. Fully compliant with the international standard ISO/IEC 14443 Type A 1-4 Common Criteria EAL4+ security certified Secure, high speed command set Unique 7-byte serial number Open DES/3DES crypto algorithm in hardware Open AES 128 bits crypto algorithm in hardware About MIFARE DESFire EV2 MIFARE DESFire EV2 delivers the perfect balance of speed, performance and cost-efficiency. For a truly convenient touch-and-go experience, MIFARE DESFire EV2 offers increased operating distance. Based on global open standards for both air interface and cryptographic methods, it complies with all requirements for fast and highly secure data transmission and flexible application management. Fully compliant with all levels of the international standard ISO/IEC 14443A Common Criteria EAL5+ security certified Secure, high speed command set Unique 7-byte serial number Open DES/3DES crypto algorithm in hardware Open AES 128 bits crypto algorithm in hardware Fully interoperable with existing NFC reader infrastructure Backwards compatible with all previous MIFARE DESFire generations TSL Multi-Technology Card Reader | Installation Manual 11 About MIFARE DESFire EV3 The latest addition to the MIFARE DESFire product family, MIFARE DESFire EV3 offers even more advanced hardware and software implementation on a brand new internal chip, and combines enhanced performance with a greater operating distance and improved transaction speed compared to its predecessors. Based on global open standards for both air interface and cryptographic methods, it uses the same security certification level as IC products used for banking cards and electronic passports. Featuring an on-chip backup management system and mutual three-pass authentication, EV3 supports confidential and integrity-protected communication with secure dynamic messaging and mirroring. Fully compliant with the international standard ISO/IEC 14443 Type A 1-4 and ISO/IEC 7816-4 Common Criteria EAL5+ security certified for IChardware and software NFC Forum Tag Type 4 certified Secure, high speed command set Unique 7-byte serial number Choice of open DES/2K3DES/3K3DES/AES crypto algorithms Open AES 128 bits crypto algorithm in hardware Fully interoperable with existing NFC reader infrastructure Transaction timer mitigates risk of man-in-the-middle attacks Backwards compatible with all previous MIFARE DESFire generations MIFARE/DESFire Products The MIFARE/DESFire products can be expanded to accommodate large numbers of modules using the encrypted RS-485 Network. ICT provides a number of reader and physical credential options in the MIFARE/DESFire range, including MIFAREClassic and MIFAREDESFire EV1, EV2 and EV3. Physical Credentials Proximity clamshell card Proximity ISOcard Proximity ISOdual technology card Proximity standard key tag Proximity adhesive disc Proximity silicone wristband Physical credentials are available in an extensive range of technology and EEPROM size configurations. Visit the ICT website to view the full range of proximity products. For more information on configuration options and ordering, contact ICT Customer Services. TSL Multi-Technology Card Reader | Installation Manual 12 Installation Requirements This equipment is to be installed in accordance with:
The product installation instructions UL 681 - Installation and Classification of Burglar and Holdup Systems UL 827 - Central-Station Alarm Services CAN/ULC-S301, Central and Monitoring Station Burglar Alarm Systems CAN/ULC-S302, Installation and Classification of Burglar Alarm Systems for Financial and Commercial Premises, Safes and Vaults CAN/ULC-S561, Installation and Services for Fire Signal Receiving Centres and Systems The National Electrical Code, ANSI/NFPA 70 The Canadian Electrical Code, Part I, CSA C22.1 The Local Authority Having Jurisdiction (AHJ) TSL Multi-Technology Card Reader | Installation Manual 13 Mounting The card reader provides the reading component of access control, time and attendance and alarm systems. It is intended to be mounted on a wall with adequate air flow around and through it. Mounting Instructions Cables are intended to be run inside the wall. If cables are to be run through external conduits you must use the surface mount box accessory (see page18). 1. Select where to mount the card reader, ensuring it is mounted a minimum of 1.1m (3.5ft) away from other wiring, such as ACM power, computer data wiring, telephone wiring and wiring to electric locking devices. 2. Use the drill template sticker provided with the card reader as a guide to correctly position the unit and drill the necessary holes as instructed. The drill template is also available from the ICT website. 3. The reader's cable connection socket should align with the 'connector' hole cut through the wall. Cables are intended to be run inside the wall. 4. If using cavity anchors, affix the anchors (not supplied) into the wall. 5. Run the module network wiring and connect to the reader wiring loom provided. Refer to the Connections section (see page20) for the electrical connections. 6. Connect the wiring loom Hirose socket plug to the connection socket on the back of the reader. 7. Use appropriate screws (not supplied) to securely fasten the reader body to the wall or cavity anchors. It is strongly recommended to fasten screws by hand to avoid potential damage to the reader. 8. To complete the installation, position the cover over the reader body, ensuring the top clip snaps into place. 9. Using the M3(G4)x4 Plastite self-tapping screw provided, secure the cover via the hole at the bottom. Important Notes It is not advisable to use countersunk screws as they may embed into the body and damage the reader. Screws must be firmly fastened to ensure the reader is mounted flush and securely against the wall. It is strongly recommended to tighten screws by hand, as excess force from an electric driver may embed the screw head into the reader or crack the reader body if the mounting holes are not properly aligned. Screw heads must not protrude above the mounting hole cavity, otherwise the reader cover will not fit correctly over the reader body. Cheese head (Fillister head)screws are recommended. TSL Multi-Technology Card Reader | Installation Manual 14 Screw heads must not protrude above the mounting hole cavity Accessories Provided 1 x shielded 8-wire wiring loom with waterproof Hirose socket plug 1 x M3(G4)x4 PanPozi Plastite SS316 stainless steel self-tapping screw Accessories Not Included Cavity anchors. 4M fixings are recommended. Fastening screws. 6g screws should be used when fixing the reader directly to the wall. Cheese head screws are recommended. Countersunk screws are not advised. TSL Multi-Technology Card Reader | Installation Manual 15 Mounng screwsConnecon socket Mounting with Vandal Resistant Cover Accessory The optional vandal resistant cover (VRC) accessory provides durability and protection against vandalism and malicious damage. The flush design also serves as an anti-ligature measure for an additional level of safety. The vandal resistant cover accessory has not been evaluated for UL/ULC applications. Sealing Gasket The gasket included with the VRCprovides a sealing layer between the mounting surface and the reader/cover to help ensure a sealed vandal-proof installation. The gasket is provided in two distinct pieces, allowing for easy alignment with the hardware and mounting holes. The smaller inner piece is shaped to fit the reader, while the larger outer piece is shaped to fit the vandal resistant cover. The adhesive side of the gasket may be applied to either the mounting surface or the hardware, to suit installation conditions and preference. Mounting the Reader with Vandal Resistant Cover 1. Select where to mount the card reader, ensuring it is mounted a minimum of 1.1m (3.5ft) away from other wiring, such as ACM power, computer data wiring, telephone wiring and wiring to electric locking devices. 2. Use the drill template sticker provided with the card reader as a guide to correctly position the unit and drill the necessary holes as instructed. The drill template is also available from the ICT website. 3. The reader's cable connection socket should align with the 'connector' hole cut through the wall. Cables are intended to be run inside the wall. 4. If using cavity anchors, affix the anchors (not supplied) into the wall. 5. Remove the backing tape from the smaller (reader) gasket and place it carefully in position with the mounting holes and cable entry aligned, then apply pressure to ensure the gasket is securely adhered in place. It may be preferable to adhere the gasket to the back of the reader case, aligned with the mounting holes and cable entry, and affix the reader case to the wall with the gasket attached. 6. Run the module network wiring and connect to the reader wiring loom provided. Refer to the Connections section (see page20) for the electrical connections. 7. Connect the wiring loom Hirose socket plug to the connection socket on the back of the reader. 8. Use appropriate screws (not supplied) to securely fasten the reader body to the wall or cavity anchors, aligned over the gasket. It is strongly recommended to fasten screws by hand to avoid potential damage to the reader. 9. Position the cover over the reader body, ensuring the top clip snaps into place. 10. Using the M3(G4)x4 Plastite self-tapping screw provided, secure and fasten the front case to the rear mounted case via the hole at the bottom. 11. Apply a silicone seal around the top and sides of the reader (see below). 12. Remove the backing tape from the larger (VRC) gasket and place it carefully in position around the reader, then apply pressure to ensure the gasket is securely adhered in place. It may be preferable to adhere the gasket to the back of the vandal resistant cover, aligned with the mounting holes, and affix the cover to the wall with the gasket attached. 13. Use appropriate screws (not supplied) to affix the vandal resistant cover to the wall, aligned over the gasket. TSL Multi-Technology Card Reader | Installation Manual 16 PULULC Vandal-proof Silicone Seal Before installing the vandal resistant cover, silicone is applied along the top and side edges of the card reader to ensure a sealed vandal-proof installation and maintain the impact protection rating. The silicone is applied after the reader has been mounted, forming an exact fit at the mounting location. Ensure that the bottom of the reader is not sealed, so that the faceplate can still be removed. Be careful not to leave excess silicone which may impede the VRC mounting. To ensure an exact seal, the VRCshould ideally be mounted before the silicone sets. The diagram below demonstrates the placement of the silicone seal. TSL Multi-Technology Card Reader | Installation Manual 17 ReaderSilicone Mounting with Surface Mount Box Accessory The optional surface mount box (SMB)accessory enables you to mount the card reader projected from the wall, allowing space for cabling from external conduits. The surface mount box is the same height and width as the card reader rear case, with a protected cavity to allow external cabling to be securely connected to the reader. The processes for mounting Standard and Extra readers with the surface mount box are slightly different. The surface mount box accessory has not been evaluated for UL/ULC applications. Mounting the Standard Reader with Surface Mount Box 1. Select where to mount the card reader, ensuring it is mounted a minimum of 1.1m (3.5ft) away from other wiring, such as ACM power, computer data wiring, telephone wiring and wiring to electric lock devices. Use the template sticker provided with the card reader as a guide to correctly position the unit. 2. Hold the surface mount box against the wall and mark the mounting holes. 3. Mark the intended entry point for the external conduit on the top, bottom or side of the surface mount box. This must be aligned in the center of the box side wall. Drill a hole to accommodate cable entry. Warning: Do not drill a hole with a diameter greater than 20mm (0.8") in the surface mount box. Do not drill off-center. Drilling too close to the edge of the surface mount box may cause structural damage. 4. Use appropriate screws (not supplied) to affix the surface mount box to the wall. 5. Connect the wiring to the reader electronics through the conduit hole. Refer to later sections of this manual for the wiring connections. 6. Clip the upper rim of the front case over the upper rim of the surface mount box, then press gently on the front case until the lower rim slots over the lower rim of the surface mount box, lining up the screw hole at the bottom. 7. To complete the installation, use the M3 x 8mm Plastite screw provided with the card reader to secure and fasten the front case to the surface mount box. Mounting the Extra Reader with Surface Mount Box 1. Select where to mount the card reader, ensuring it is mounted a minimum of 1.1m (3.5ft) away from other wiring, such as ACM power, computer data wiring, telephone wiring and wiring to electric lock devices. Use the template sticker provided with the card reader as a guide to correctly position the unit. 2. Hold the surface mount box against the wall and mark the mounting holes. 3. Mark the intended entry point for the external conduit on the top, bottom or side of the surface mount box. This must be aligned in the center of the box side wall. Drill a hole to accommodate cable entry. Warning: Do not drill a hole with a diameter greater than 20mm (0.8") in the surface mount box. Do not drill off-center. Drilling too close to the edge of the surface mount box may cause structural damage. 4. Use appropriate screws (not supplied) to affix the surface mount box to the wall. Important: Ensure that you mount the surface mount box in the correct orientation, positioned with the embossed arrow at the top, pointing up. The mounting holes are offset from the reader case center, so if the surface mount box is upside down the edge of the reader will not align with the edge of the mounting box. TSL Multi-Technology Card Reader | Installation Manual 18 PULULC 5. Hold the rear case of the card reader against the surface mount box in the correct orientation. Line up the holes on the rear case with the threaded inserts closest to the center of the surface mount box, as shown in the image below. 6. Affix the rear case to the surface mount box using the two M4 x 10mm screws provided. 7. Connect the wiring to the reader electronics through the conduit hole. Refer to later sections of this manual for the wiring connections. 8. Clip the upper rim of the front case over the upper rim of the rear case, then press gently on the front case until the lower rim slots over the lower rim of the rear case, lining up the screw hole at the bottom. 9. To complete the installation, use the M3 x 8mm Plastite screw provided with the card reader to secure and fasten the front case to the rear mounted case. TSL Multi-Technology Card Reader | Installation Manual 19 Reader Connection Using the recommended cables, splice the cable together with the pigtail of the reader and seal the splice. Route the cable from the reader to the host module. Connect the cable to the module port according to the required operation, as shown in the connection diagrams that follow. The recommended cable types for RS-485 are:
Belden 9842 or equivalent 24 AWG twisted pair with characteristic impedance of 120ohm The recommended cable types for Wiegand are:
22 AWG alpha 5196, 5198, 18 AWG alpha 5386, 5388 Warning: The reader outputs D0 (green wire) and D1 (white wire) can switch to a maximum capacity of 50mA. Exceeding this amount will damage the output. Reader Pigtail TSL readers have a shielded 8-wire pigtail wiring loom with a Hirose socket plug for connection to the reader. Color Wire Description Red Black Green White 12VDC+ positive 12VDC- negative Wiegand D0 (Data 0) Wiegand D1 (Data 1) Brown Wiegand LEDcontrol Blue Wiegand beeper control Yellow RS-485 A Violet Shield RS-485 B Shield (drain) wire TSL Multi-Technology Card Reader | Installation Manual 20 1234567890X Shield Connection 1. Connect the reader pigtail shield and cable shield wires together at the reader pigtail splice. 2. Connect the cable shield to a suitable earth point. Do not connect the shield to a ground or AUX connection. The reader pigtail shield wire is not terminated inside the reader. Important:
The card reader must be connected to the module port using a shielded cable. The shield must only be connected at one end of the cable in the metallic enclosure (frame grounded). Do not connect the cable shield to an AUX-, 0V or V- connection on the module. Do not connect the cable shield to any shield used for isolated communication. The reader pigtail shield and cable shield wires should be joined at the reader pigtail splice. Do not terminate the reader shield wire inside the reader. TSL Multi-Technology Card Reader | Installation Manual 21 1234567890X RS-485 Reader Connection The connection of a single RS-485 reader to a reader expander. Reader Connections Color Wire Connection Red Black V+ 12VDC positive V- 12VDC negative Yellow D0/NA RS-485 A Violet Shield D1/NB RS-485 B Shield (drain) wire. Frame grounded at one point only TSL Multi-Technology Card Reader | Installation Manual 22 1234567890XL1L2BZCD0/D1/NANBV+V-RS-485 Reader Connection (Entry/Exit) The connection of two RS-485 readers to a reader expander providing an entry/exit configuration. A 330 ohm EOL (End of Line) resistor may be required, inserted between the yellow and violet wires after the join. When connecting two TSL readers for RS-485 entry/exit configuration, the reader address determines which is the entry reader and which is the exit reader, so it does not matter which reader is the 'secondary' connection. Primary Reader Connections Color Wire Connection Red Black V+ 12VDC positive V- 12VDC negative Yellow D0/NA RS-485 A Violet Shield D1/NB RS-485 B Join the shield (drain) wires together. Frame grounded at one point only TSL Multi-Technology Card Reader | Installation Manual 23 1234567890XL1L2BZCD0/D1/NANBV+V-Secondary Reader Connections Color Wire Connection Red Black Join to primary reader red wire ( 12VDC positive) Join to primary reader black wire ( 12VDC negative) Yellow Join to primary reader yellow wire (RS-485 A) Violet Shield Join to primary reader violet wire (RS-485 B) Join the shield (drain) wires together. Frame grounded at one point only RS-485Reader Location As two RS-485 readers can be connected to the same RS-485 reader port, the reader address uniquely identifies each reader, and determines which is the entry reader and which is the exit reader. Configuration Reader address = 0 Reader address = 1 Location Entry Exit All readers are configured as an entry reader by default, unless programmed otherwise. The address of TSL card readers can be programmed using a mobile device running the Protege Config App. The ConfigApp Reader Configuration will need a config with the Reader Address TLV selected, with the address set as required for the reader's location. For programming information, see the ICT Card Reader Configuration Guide, available from the ICT website. The address and addressing options of TSL card readers is not determined by the reader's wiring configuration. TSL Multi-Technology Card Reader | Installation Manual 24 OSDP Reader Connection Connecting TSL readers in OSDP mode is the same as the connection for standard RS-485 configuration. Reader Connections Color Wire Connection Red Black V+ 12VDC positive V- 12VDC negative Yellow D0/NA RS-485 A Violet Shield D1/NB RS-485 B Shield (drain) wire. Frame grounded at one point only Readers must also be programmed to operate in OSDP mode. For information on programming readers, see the ICT Card Reader Configuration Guide, available from the ICT website. Connecting OSDPreaders to Protege modules requires additional hardware configuration and system programming. For more information, see Application Note 254: Configuring OSDP Readers in Protege. For more information about OSDP support on ICT card readers, including configuring readers for secure channel communications, see Application Note 321: Configuring ICT Readers for OSDP Communication. OSDP Reader Location As two OSDP readers can be connected to the same Protege module reader port, each OSDPreader is configured as either an Entry or Exit reader in the Reader location setting of the associated smart reader record. OSDPreader location is not determined by the reader address. TSL Multi-Technology Card Reader | Installation Manual 25 1234567890XL1L2BZCD0/D1/NANBV+V-OSDPBaud Rate Requirement For a card reader operating in OSDPmode to communicate with an OSDP server, the reader must have the same baud rate setting as the reader port it is connected to. The default reader baud rate is 38400. ICT card readers support the following baud rates:
Supported Baud Rates 4800 baud 9600 baud 19200 baud 38400 baud (default) 57600 baud 115200 baud The card reader baud rate can be programmed using a mobile device running the Protege Config App. The ConfigApp Reader Configuration will need a config with the Uart Configuration TLV selected, with the Baud set to match the connected reader port. For detailed information on programming ICT card readers, see the ICT Card Reader Configuration Guide, available from the ICT website. OSDPReader Addressing For a card reader operating in OSDPmode to be recognized on a third-party system, the reader address may need to be configured to meet the third-party system's addressing requirements. The address of TSL card readers can be programmed using a mobile device running the Protege Config App. The ConfigApp Reader Configuration will need a config with the Reader Address TLV selected, with the address set as required for the third-party system. TSL Multi-Technology Card Reader | Installation Manual 26 Wiegand Reader Connection When connected using the Wiegand interface, TSL readers operate in single LED mode, which allows a single LED line to control the two reader LED colors. TSL readers do not support dual LEDoperation for Wiegand interfaces. Reader Connections Color Wire Connection Red Black Green White V+ 12VDC positive V- 12VDC negative D0/NA Wiegand Data 0 D1/NB Wiegand Data 1 Brown L1 LEDcontrol Blue Shield BZ beeper control Shield (drain) wire. Frame grounded at one point only Compatible access control card reader communication formats are: 26-, 34-, and 37-bit Wiegand. TSL Multi-Technology Card Reader | Installation Manual 27 1234567890XL1L2BZCD0/D1/NANBV+V-PULULC Wiegand Reader Connection (Entry / Exit) In multiple reader mode, the secondary card reader has all connections wired to the same reader port as the primary reader, except the Data 1 connection which is wired to the Data 1 input on the alternate reader port. The normal primary reader connection operates as the entry reader, and the secondary reader that is multiplexed into the alternate reader port will operate as the exit reader. Entry Reader Connections Color Wire Connection Red Black Green White V+ 12VDC positive V- 12VDC negative D0/NA Wiegand Data 0 D1/NB Wiegand Data 1 Brown L1 LEDcontrol Blue Shield BZ beeper control Join the shield (drain) wires together. Frame grounded at one point only TSL Multi-Technology Card Reader | Installation Manual 28 1234567890XL1L2BZCD0/D1/NANBV+V-L1L2BZCD0/D1/NANBV+V-Exit Reader Connections Color Wire Connection Red Black Green White Join to entry reader red wire ( 12VDC positive) Join to entry reader black wire ( 12VDC negative) Join to entry reader green wire (Wiegand Data 0) D1/NB Wiegand Data 1 (alternate reader port to entry reader) Brown Join to entry reader brown wire (LEDcontrol) Blue Shield Join to entry reader blue wire (beeper control) Join the shield (drain) wires together. Frame grounded at one point only Connecting 4 Wiegand Readers Multiple reader mode allows the connection of 4 Wiegand readers controlling 2 doors, each with entry/exit readers. To connect 4 Wiegand reading devices to a Protege module:
Door 1 entry reader is connected to reader port 1 Door 1 exit reader has its Wiegand Data 1 wire connected to the reader port 2 D1 connection Door 2 entry reader is connected to reader port 2 Door 2 exit reader has its Wiegand Data 1 wire connected to the reader port 1 D1 connection The Multiple reader input port 1 option is enabled in the reader expander programming (General | Options) The Multiple reader input port 2 option is enabled in the reader expander programming (General | Options) To connect two Wiegand readers to a reader port the Multiple reader input port 1/2 option must be enabled in the reader expander programming. When this option is disabled the reader port will only process a single reader. Enabling Wiegand Mode TSL readers are shipped in RS-485 configuration by default. To change a reader to Wiegand mode it must be enabled using a mobile device running the Protege Config App. The ConfigApp's Reader Configuration will need a config with the Output Mode set to Wiegand Output. For programming instructions, see the ICT Card Reader Configuration Guide, available from the ICT website. TSL Multi-Technology Card Reader | Installation Manual 29 Programming the Card Reader ICT readers can be programmed for a wide range of functionality to suit your site's requirements. Programming options are dependent on hardware compatibility and firmware versions. Card reader programming is configured by applying specific TLV (Type Length Value) settings to the reader to enable, disable and configure reader options. Reader configuration can be programmed using a mobile device running the Protege Config App. TSL card readers cannot be programmed using config cards. Important: Card readers can only be programmed within 2 minutes of startup. In order to program the reader you will need to disconnect power and apply the programming within 2 minutes of powering up. For detailed programming instructions, see the ICT Card Reader Configuration Guide, available from the ICT website. Protege Config App The Protege Config App provides a secure, convenient and flexible method for programming a Bluetooth enabled ICT card reader. To use the Config App you will need:
An app account A mobile credential Programming Summary To program a card reader using the Config App:
1. Log in to the app using your app account. 2. Select your Credential Profile. Your credential profile is automatically assigned to your app account with your mobile credential, and is based on the credential issuer and the site the credential was allocated to. 3. Create a Reader Configuration (config) comprising the required TLVsettings. 4. Activate Bluetooth on your device (if not already activated). 5. Power cycle the reader you want to program. 6. Select the config to program the reader with. 7. Apply the configuration to the reader, within two minutes of startup. Hold your mobile device close to the reader and tap Scan Closest to apply the configuration. When programming is successful the reader will beep 4 times quickly, then restart. For information on using the Config App, see the Protege Config App User Guide, available from the ICT website. TSL Multi-Technology Card Reader | Installation Manual 30 Technical Diagrams TSL Standard Reader The dimensions shown below outline the essential details needed to help ensure the correct installation of the ICT TSL Standard Reader. All measurements are shown in millimeters. TSL Multi-Technology Card Reader | Installation Manual 31 117.036.4 47.621.5 21.543.084.051.9 47.6 4.5mm Screw Hole 4.5mm Screw Hole 18mmConnector Hole (Min) TSL Extra Reader The dimensions shown below outline the essential details needed to help ensure the correct installation of the ICT TSL Extra Reader. All measurements are shown in millimeters. TSL Multi-Technology Card Reader | Installation Manual 32 75.037.5 37.5117.060.0 57.044.5 39.584.0 4.5mm Screw Hole 18mmConnector Hole (Min) 4.5mm Screw Hole TSL Mini Reader The dimensions shown below outline the essential details needed to help ensure the correct installation of the ICT TSL Mini Reader. All measurements are shown in millimeters. TSL Multi-Technology Card Reader | Installation Manual 33 26.1 33.960.039.6 47.487.021.5 21.543.0 4.5mm Screw Hole 18mmConnector Hole (Min) 4.5mm Screw Hole TSL Standard Reader Vandal Resistant Cover The dimensions shown below outline the essential details needed to help ensure the correct installation of the ICT TSL Standard Reader Vandal Resistant Cover. All measurements are shown in millimeters. TSL Multi-Technology Card Reader | Installation Manual 34 89.00mm3.504in162.00mm6.378in29.00mm1.142in41.50mm1.634in41.50mm1.634in29.00mm1.142in5.3mm0.207inMounting Holes11.70mm0.461in TSL Extra Reader Vandal Resistant Cover The dimensions shown below outline the essential details needed to help ensure the correct installation of the ICT TSL Extra Reader Vandal Resistant Cover. All measurements are shown in millimeters. TSL Multi-Technology Card Reader | Installation Manual 35 121.00mm4.764in162.00mm6.378in60.50mm2.382in60.50mm2.382in29.00mm1.142in41.50mm1.634in41.50mm1.634in29.00mm1.142in5.3mm0.207inMounting Holes11.70mm0.461in Technical Specifications The following specifications are important and vital to the correct operation of this product. Failure to adhere to the specifications will result in any warranty or guarantee that was provided becoming null and void. Ordering Information Order Codes Power Supply See Reader Editions. Operating Voltage 12VDC (9.5 to 14VDC) Operating Current 120mA (Peak, Reading) Communications Card Read Range Tag Read Range MIFARE: 50mm (1.97") DESFire EV1 ISO: 5mm (0.2") DESFire EV2 ISO: 25mm (0.98") DESFire EV3 ISO: 20mm (0.79") 125kHz Clamshell: 45mm (1.78) *
MIFARE: 25mm (0.98") DESFire EV1: 5mm (0.2") DESFire EV2: 5mm (0.2") DESFire EV3: 10mm (0.39") 125kHz: 25mm (0.98) *
Wiegand Interface Multiple format 26, 34 or 37, customizable; Bit data 0 and data 1 sent at 1kHz. Frequency Multi Conductor Cable 13.56 MHz ISO/IEC 14443 Type A 125KHz carrier. Several modulation formats are supported. *
Module comms / RS-485: Belden 9842 or equivalent. Max distance 900m (3000ft) Wiegand: 22Awg alpha 5196, 5198, 18Awg alpha 5386, 5388. Max Distance 150m (492ft) OSDPCommunication OSDP standard 2.2 with Secure Channel Protocol Bluetooth Wireless Technology Bluetooth Read Range Proximity mode: up to 0.5m (1.6ft) configurable Action unlock (shake): up to 5m (16.4ft) configurable Bluetooth Electronic Credential Transmission Technology Proprietary data exchange protocol. AES-128 encrypted Reader App Version: 1.04.175 and above Bluetooth version 5.1 compliant Credentials can be distinguished by unique site code and card number Bluetooth Wireless Device Protege Mobile 1.0.x NFC NFC Read Range Up to 60mm TSL Multi-Technology Card Reader | Installation Manual 36 NFC (Near-field communication) electronic credential transmission technology Android 4.4 or above, with phones which support ISO7816-4 Proprietary Secured DESFire credential Credential is AES-256 (NIST certified AES algorithm) Credentials can be distinguished by unique site code and card number NFC Wireless Device Protege Mobile 1.0.x Operating Conditions Environment IP Rating IP65 Operating Temperature UL/ULC -35 to 66C (-31 to 151F) : EU EN -40 to 70C (-40 to 158F) Storage Temperature
-10 to 85C (14 to 185F) Mean Time Between Failures
(MTBF) Dimensions (H x W x D) 520,834 hours (calculated using RFD 2000 (UTE C 80-810) Standard) Standard Reader 117 x 43 x 9.5mm (4.61 x 1.69 x 0.37") Extra Reader Mini Reader 117 x 75 x 11.5mm (4.61 x 2.95 x 0.45) 87 x 43 x 9.5mm (3.43 x 1.69 x 0.37) Vandal Resistant Cover Dimensions Standard Reader VRC 162 x 89 x 11.7mm (6.38 x 3.50 x 0.46") Extra Reader VRC 162 x 121 x 11.7mm (6.38 x 4.76 x 0.46") TBC TBC Surface Mount Box Dimensions Standard Reader SMB Extra Reader SMB Weights Standard Reader Extra Reader Mini Reader Vandal Resistant Cover Weights Standard Reader VRC Extra Reader VRC Surface Mount Box Weights Standard Reader SMB Extra Reader SMB Faceplate Weights Standard Reader Faceplate Extra Reader Faceplate Mini Reader Faceplate Pigtail Cable Weights Standard 34cm Pigtail Cable Net Weight 60g (2.1oz) 120g (4.2oz) 40g (1.4oz) Net Weight TBC TBC Net Weight 50g (1.8oz) 70g (2.5oz) Net Weight 10g (0.4oz) 30g (1.1oz) 10g (0.4oz) Net Weight TBC Gross Weight 100g (3.5oz) 130g (4.6oz) 90g (3.2oz) Gross Weight TBC TBC Gross Weight 70g (2.5oz) 100g (3.5oz) Gross Weight 20g (0.7oz) 40g (1.4oz) 20g (0.7oz) Gross Weight TBC TSL Multi-Technology Card Reader | Installation Manual 37 3.5m Pigtail Cable TBC TBC
* Applies to multi technology models only The size of conductor used for the supply of power to the unit should be adequate to prevent voltage drop at the terminals of no more than 5% of the rated supply voltage. The Bluetooth word mark and logos are registered trademarks owned by Bluetooth SIG, Inc. and any use of such marks by Integrated Control Technology is under license. Other trademarks and trade names are those of their respective owners. Integrated Control Technology continually strives to increase the performance of its products. As a result these specifications may change without notice. We recommend consulting our website (www.ict.co) for the latest documentation and product information. TSL Multi-Technology Card Reader | Installation Manual 38 New Zealand and Australia Intentional Transmitter Product Statement The R-NZ compliance label indicates that the supplier of the device asserts that it complies with all applicable standards. TSL Multi-Technology Card Reader | Installation Manual 39 European Standards CE Statement Conforms where applicable to European Union (EU) Low Voltage Directive (LVD) 2014/35/EU, Electromagnetic Compatibility (EMC) Directive 2014/30/EU, Radio Equipment Directive (RED)2014/53/EU and RoHS Recast
(RoHS2) Directive: 2011/65/EU + Amendment Directive (EU) 2015/863. This equipment complies with the rules, of the Official Journal of the European Union, for governing the Self Declaration of the CE Marking for the European Union as specified in the above directive(s). WEEE Information on Disposal for Users of Waste Electrical & Electronic Equipment This symbol on the product(s) and / or accompanying documents means that used electrical and electronic products should not be mixed with general household waste. For proper treatment, recovery and recycling, please take this product(s) to designated collection points where it will be accepted free of charge. Alternatively, in some countries you may be able to return your products to your local retailer upon purchase of an equivalent new product. Disposing of this product correctly will help save valuable resources and prevent any potential negative effects on human health and the environment, which could otherwise arise from inappropriate waste handling. Please contact your local authority for further details of your nearest designated collection point. Penalties may be applicable for incorrect disposal of this waste, in accordance with your national legislation. For business users in the European Union If you wish to discard electrical and electronic equipment, please contact your dealer or supplier for further information. Information on Disposal in other Countries outside the European Union This symbol is only valid in the European Union. If you wish to discard this product please contact your local authorities or dealer and ask for the correct method of disposal. EN50131 Standards This component meets the requirements and conditions for full compliance with EN50131 series of standards for equipment classification. EN 50131-1:2006+A2:2017, EN 50131-3:2009, EN 50131-6:2008+A1:2014, EN 50131-10:2014, EN 50136-1:2012, EN 50136-2:2013, EN 60839-11-1:2013 Security Grade 4 Environmental Class II Equipment Class: Fixed Readers Environmental Class: IVA, IK07 SP1 (PSTN voice protocol) SP2 (PSTN digital protocol) SP6 (LAN Ethernet) and DP1 (LAN Ethernet + PSTN) SP6 (LAN Ethernet) and DP1 (LAN Ethernet + USB-4G modem) Tests EMC (operational) according to EN 55032:2015 Radiated disturbance EN 55032:2015 Power frequency magnetic field immunity tests (EN 61000-4-8) TSL Multi-Technology Card Reader | Installation Manual 40 UK Conformity Assessment Mark General Product Statement The UKCA Compliance Label indicates that the supplier of the device asserts that it complies with all applicable standards. TSL Multi-Technology Card Reader | Installation Manual 41 UL and ULC Installation Requirements Only UL / ULC listed compatible products are intended to be connected to a UL / ULC listed control system. CAN/ULC-S319 This card reader is CAN/ULC-S319 Listed for Class I applications only. Exit devices and wiring must be installed within the protected area. The card reader must be connected with shielded, grounded cable. Fail secure locking mechanism shall only be installed where allowed by the local authority having jurisdiction
(AHJ) and shall not impair the operation of panic hardware and emergency egress. If fire resistance is required for door assembly, portal locking device(s) must be evaluated to ULC-S533 and CAN/ULC-S104. Must be installed with CAN/ULC-S319 Listed portal locking device(s) for ULC installations. Input power must be supplied by a Class 2 or power limited device. UL 294 This card reader is UL 294 Listed for Class 1 applications only. Exit devices and wiring must be installed within the protected area. The card reader must be connected with shielded, grounded cable. Fail secure locking mechanism shall only be installed where allowed by the local authority having jurisdiction
(AHJ) and shall not impair the operation of panic hardware and emergency egress. If fire resistance is required for door assembly, portal locking device(s) must be evaluated to UL10B or UL10C. Must be installed with UL 1034 Listed electronic locks for UL installations. Input power must be supplied by a Class 2 or power limited device. A means of verification shall be employed by the user to enable access to the wireless electronic device such as a PIN or biometric feature, which subsequently provides access to the credential application software present on the wireless electronic device. The access control system shall have the means to distinguish between the type of credential used via code or description (e.g. authentication/digital signature keys received from a physical card vs. authentication/digital signature keys received from a wireless electronic credential.) Performance Levels Destructive Attack Line Security Endurance Standby Power ICT Standard Reader Level I ICT Mini Reader Level I ICT Extra Reader Level I Level I when wired with Wiegand Level IV when wired with RS485 Level I when wired with Wiegand Level IV when wired with RS485 Level I when wired with Wiegand Level IV when wired with RS485 Level IV Level I Level IV Level I Level IV Level I TSL Multi-Technology Card Reader | Installation Manual 42 FCC Compliance Statements FCC PART 15, WARNINGS: INFORMATION TO USER This equipment complies with the limits for a Class A digital device, 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 frequency 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 cause harmful interference to radio or television reception, which can be determined 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:
Increase the separation between the equipment and receiver. Re-orient the receiving antenna. Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. Changes or modifications not authorized by the party responsible for compliance could void the user's authority to operate this product. This device complies with Part 15 of the FCC rules. Operation is subject to the following two conditions:
This device may not cause harmful interference. This device must accept any interference received, including interference that may cause undesired operation. NOTE: THE GRANTEE IS NOT RESPONSIBLE FOR ANY CHANGES OR MODIFICATIONS NOT EXPRESSLY APPROVED BY THE PARTY RESPONSIBLE FOR COMPLIANCE. SUCH MODIFICATIONS COULD VOID THE USERS AUTHORITY TO OPERATE THE EQUIPMENT. TSL Multi-Technology Card Reader | Installation Manual 43 Industry Canada Statement This class A digital apparatus complies with Canadian ICES-003. Cet appareil numrique de la classe A est conforme la norme NMB-003 du Canada. CAN ICES-3 (A)/NMB-3(A) TSL Multi-Technology Card Reader | Installation Manual 44 Disclaimer and Warranty Disclaimer: Whilst every effort has been made to ensure accuracy in the representation of this product, neither Integrated Control Technology Ltd nor its employees shall be liable under any circumstances to any party in respect of decisions or actions they may make as a result of using this information. In accordance with the ICT policy of enhanced development, design and specifications are subject to change without notice. For warranty information, see our Standard Product Warranty. TSL Multi-Technology Card Reader | Installation Manual 45 Designers & manufacturers of integrated electronic access control, security and automation products. Designed & manufactured by Integrated Control Technology Ltd. Copyright Integrated Control Technology Limited 2003-2022. All rights reserved. Disclaimer: Whilst every effort has been made to ensure accuracy in the representation of this product, neither Integrated Control Technology Ltd nor its employees shall be liable under any circumstances to any party in respect of decisions or actions they may make as a result of using this information. In accordance with the ICT policy of enhanced development, design and specifications are subject to change without notice. www.ict.co 06-Sep-22
1 | Label Details | ID Label/Location Info | 305.38 KiB | October 11 2022 |
Date 01 Sept 2022 Federal Communications Commission Equipment Authorization Branch 7435 Oakland Mills Road Columbia, MD 21046 United States of America Subject: FCC Labelling Requirements; Compliance Statement on TSL Reader Products. To Whom it May Concern. Due to the lack of available space on the TSL range of readers, ICT is unable to label the reader devices with the following FCC Compliance Statement:
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. Integrated Control Technology has labelled each TSL Reader with the FCC ID Number associated with the device and the FCC logo and QR code which directs the purchaser to the product manual for the device. As required by FCC part 15 requirements. Within the product manual the full text of the FCC part 15 compliance statement is displayed for compliance purposes. Yours sincerely Hayden Burr. Chief Executive Officer Integrated Control Technology Labelonproduct Laserprintoflabeltobeapplied
1 | Authorization to Act | Cover Letter(s) | 18.01 KiB | October 11 2022 |
Integrated Control Technology Limited 4 John Glenn Ave, Rosedale, Auckland 0632 P.O. Box 302-340, North Harbour, Auckland 0751 , New Zealand Toll Free: (0800) 428 111 Phone: +64 (9) 476 7124 Email:
sales@incontrol.co.nz www.ict.co EMC Technologies NZ Ltd 47 Mackelvie Street Grey Lynn Auckland NEW ZEALAND 1st September 2022 SUBJECT: Authorization to Act. FCC ID: UAUSLM To whom it may concern, I hereby authorize Andrew Cutler, General Manager of EMC Technologies NZ Ltd to act on behalf of Integrated Control Technology Ltd regarding the FCC Certification of the integrated Control Technology Ltd - TSL Mini Slimline Proximity Readers. Yours sincerely Hayden Burr. Chief Executive Officer Integrated Control Technology
1 | Confidentiality Request | Cover Letter(s) | 18.28 KiB | October 11 2022 |
Integrated Control Technology Limited 4 John Glenn Ave, Rosedale, Auckland 0632 P.O. Box 302-340, North Harbour, Auckland 0751 , New Zealand Toll Free: (0800) 428 111 Phone: +64 (9) 476 7124 Email:
sales@incontrol.co.nz www.ict.co Date 01 Sept 2022 Federal Communications Commission Equipment Authorization Branch 7435 Oakland Mills Road Columbia, MD 21046 United States of America To whom it may concern CONFIDENTIALITY REQUEST - FCC ID: UAUSLM Reference rule sections 0.457 (d) (ii) and pursuant to rule section 0.459 (a) confidentiality is requested as follows. Specific Information: Schematics, Block Diagram, Operational Description The schematics contain trade secret information which is not made routinely available to the public or to our competitors. Disclosure of this information could result in an unfair advantage to our competitors. It should be treated as confidential for the duration of the Grant of Authorisation. Yours Faithfully Hayden Burr. Chief Executive Officer Integrated Control Technology
frequency | equipment class | purpose | ||
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1 | 2022-10-11 | 2402 ~ 2480 | DXX - Part 15 Low Power Communication Device Transmitter | Original Equipment |
app s | Applicant Information | |||||
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1 | Effective |
2022-10-11
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1 | Applicant's complete, legal business name |
Integrated Control Technology
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1 | FCC Registration Number (FRN) |
0015106453
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1 | Physical Address |
4 John Glenn Ave. Albany
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1 |
4 John Glenn Ave.
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1 |
Auckland, N/A
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1 |
New Zealand
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app s | TCB Information | |||||
1 | TCB Application Email Address |
t******@timcoengr.com
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1 | TCB Scope |
A2: Low Power Transmitters (except Spread Spectrum) and radar detectors operating above 1 GHz
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app s | FCC ID | |||||
1 | Grantee Code |
UAU
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1 | Equipment Product Code |
SLM
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app s | Person at the applicant's address to receive grant or for contact | |||||
1 | Name |
H******** M******** B****
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1 | Title |
Director
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1 | Telephone Number |
94767******** Extension:
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1 | Fax Number |
94767********
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1 |
h******@incontrol.co.nz
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app s | Technical Contact | |||||
n/a | ||||||
app s | Non Technical Contact | |||||
n/a | ||||||
app s | Confidentiality (long or short term) | |||||
1 | Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
1 | Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | No | ||||
if no date is supplied, the release date will be set to 45 calendar days past the date of grant. | ||||||
app s | Cognitive Radio & Software Defined Radio, Class, etc | |||||
1 | Is this application for software defined/cognitive radio authorization? | No | ||||
1 | Equipment Class | DXX - Part 15 Low Power Communication Device Transmitter | ||||
1 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | Proximity Card Reader with Bluetooth. | ||||
1 | Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application? | No | ||||
1 | Modular Equipment Type | Does not apply | ||||
1 | Purpose / Application is for | Original Equipment | ||||
1 | Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization? | No | ||||
1 | Related Equipment: Is the equipment in this application part of a system that operates with, or is marketed with, another device that requires an equipment authorization? | No | ||||
1 | Is there an equipment authorization waiver associated with this application? | No | ||||
1 | If there is an equipment authorization waiver associated with this application, has the associated waiver been approved and all information uploaded? | No | ||||
app s | Test Firm Name and Contact Information | |||||
1 | Firm Name |
EMC Technologies (NZ) Ltd
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||||
1 | Name |
A****** C******
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1 | Telephone Number |
+64 9********
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1 | Fax Number |
+64 9********
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1 |
a******@emctech.co.nz
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Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
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Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 15C | 2402.00000000 | 2480.00000000 |
some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details
This product uses the FCC Data API but is not endorsed or certified by the FCC