TruPortal Dual Door Interface Module Quick Reference

TruPortal Dual Door Interface Module Quick Reference en-us Packing List Introduction The TruPortal Dual Door Interface Module (TP-ADD-2D) can support two complete door configurations, with up to two readers per door. This module provides termination points for door contacts (door position switches) and Request to Exit (RTE) devices, as well as two door strike relays to control power to the controlled access doors. It communicates with the TruPortal System Controller (TP-SYS) via a two-wire RS-485 SNAPP bus. Model Numbers The TruPortal Dual Door Interface Module is available in a boardonly configuration (TP-ADD-2D-BRD) (see Figure 9) or preinstalled in a UL or CE enclosure with or without bundled readers and credentials (TP-ADD-2DR, TP-ADD-2D). The TruPortal Dual Door Interface Module is available in the following configurations: TP-ADD-2D-BRD (board only) TP-ADD-2D (installed in UL enclosure) TP-ADD-2D2R (installed in UL enclosure with two readers) TP-ADD-2D-E (installed in CE enclosure) TP-ADD-4D (installed in UL enclosure with two Dual Door Interface Modules) Note: -E model numbers are Not Evaluated by UL and therefore cannot be used in UL installations. TruPortal Dual Door Interface Module (quantity = 1) Mounting plate (depending on option ordered) UL or CE enclosure with power supply (depending on option ordered) T-100 readers (depending on option ordered; quantity = 2) Installation kit which includes: - Two positional terminal plug-in block (quantity = 5) - Three positional terminal plug-in block (quantity = 4) - Four positional terminal plug-in block (quantity = 4) - Six positional terminal plug-in block (quantity = 2) - 1N4005 diodes (quantity = 2) - End-of-Line (EOL) resistors 1k ohm, 1% (quantity = 8) - Plastic board supports for optional mounting (quantity = 4) Installation Procedure To install the TruPortal Dual Door Interface Module, perform the procedures described in the following sections, in the order in which they are presented. 1. Mount the enclosure. 2. Mount the module in the enclosure. 3. Wire the relay outputs for door strike(s) and AUX. 4. Wire the reader(s). 5. Install the reader voltage jumpers. 6. Wire the alarm inputs. 7. Wire the tamper switch. 8. Wire the power and communications inputs 9. Apply power to the unit and listen for the relays to click. Observe LED indicators to verify correct board operation. 10. Ensure all wires are clear and secure the cover. WARNING: Circuit board components are vulnerable to damage by electrostatic discharge (ESD). ESD can cause immediate or subtle damage to sensitive electronic parts. An electrostatic charge can build up on the human body and then discharge when touching a board. A discharge can be produced when walking across a carpet and touching a board, for example. Before handling any board, make sure to dissipate any charge by touching the ground. This discharges any static electricity build-up. P/N 460802001C REV 01.00 25JUL13 1

Mounting the Enclosure 1. Remove enclosure from shipping container and remove any packing material. 2. Using the template provided (part number 531119001 or 531120001), mark and then drill mounting holes. 3. To mount on dry wall, use 1/8 in. (3.175 mm) hollow wall, expansion anchors. Unscrew the screws from the anchors. Mark the mounting holes. Force a starter hole in each mark with a sharp tool. Hammer the anchors into each hole. Align the box mounting holes over the anchor holes and screw in the anchors until tight. To mount on a concrete surface, hold the enclosure on the mounting surface. Mark the mounting holes. Use a hammer drill with a 3/16 in. (4.76 mm) carb alloy drill bit and make 1 in. (25.4 mm) deep holes in each marking. Insert a # 6-8 plastic anchor in each hole and hammer them in. Use # 8 X 1 in.(25.4 mm), Phillips wood screws to screw into the plastic anchors and mount the enclosure. 4. The enclosure includes standard cable knockouts on each side, including the back. Use the proper size and type of cable strain reliefs to secure cables to the enclosure. See Figure 10 for TP-ADD-2D enclosure dimensions. For TP-ADD-4D dimensions, see Figure 11. Mounting the Module in the Enclosure Use the provided hardware as required to mount the module in the enclosure. Note: Do not over-tighten the mounting screws. To mount the module in the AL400 enclosure using the mounting plate, see Figure 12. To mount the module in the AL600 enclosure using the mounting plate, see Figure 13. To mount the module in AL400 enclosure without the mounting plate, see Figure 14. To mount the module in AL600 enclosure without the mounting plate, see Figure 15. Wiring 17 16 Figure 1: Components and Cable Specifications 18 15 The following table lists the items shown in Figure 1. 1 Reader cable (22 AWG, (0.64 mm / 0.33 mm 2 ) shielded, 3 pairs) 2 Door contact/sensor wiring (22 AWG, 1 pair) 10 Door 1 or 2 (with door closer) 11 Last module 3 Request to Exit (RTE) 12 Transformer 4 RTE button wiring (22 AWG (1.02 mm/.82 mm 2 ), 1 pair) 13 Power supply 5 Door lock 14 Next module 6 Door lock wiring (18 AWG, 1 pair) 14 7 8 1 4 6 9 2 13 * 3 5 12 10 11 15 Module bus (24 AWG (.51 mm/.20 mm 2 ), four shielded wires, 120 ohms) (See Figure 1.) For the Door Unlock Circuit, a diode is provided to protect against voltages induced when a DC strike is de-energized. For an AC strike, or a magnetic-lock with reversing coils (or if unsure), a 27 V Metal Oxide Varistor (MOV) must be used. 7 AUX relay wiring (22 AWG, 1 pair) 8 AUX input wiring (22 AWG, 1 pair) 16 To System Controller (TP-SYS) or previous module 17 12 VDC input power Verify that at least 10.5 VDC is at each device (with relays energized). Use additional power supplies as necessary. 9 AUX input 18 Dual Door Interface Module (TP-ADD) For large current-draw devices with built-in power supplies, connect the incoming and outgoing module bus +12 VDC lines together, but do not connect to the +12 VDC in the enclosure. Terminal Block (TB) 6 can be used to daisy chain the SNAPP bus. Bring the bus wiring through TB1 and continue the wiring out through TB6. 2 TruPortal Dual Door Interface Module Quick Reference

Output Wiring The contact protection circuit must be used. The two circuits shown in Figure 2 and Figure 3 are recommended. Locate the protection circuit as close to the load as possible (within 12 in. [30 cm]), as the effectiveness of the circuit will decrease if it is located further away. Figure 2: Recommended Circuit #1 Magnetic Locks and Other Fail-Safe Door Locks The default door lock wiring is for Fail Secure (powered = unlocked). For magnetic locks and other Fail-Safe door locks (powered = locked), move the Normally Open (NO) wire to Normally Closed (NC) terminal for the specific unlock relay. Note: The System shall not be installed in the Fail Secure mode unless permitted by the local authority having jurisdiction and shall not interfere with the operation of panic hardware. (Not evaluated by UL.) Figure 4: Door Lock Wiring X 1 NC 2 Com 3 NO Reader Wiring Figure 5: Reader Wiring 1 TB11 1 2 3 4 5 6 1 2 5/12 GRN RED/ RXD R1D1 R1D0 R2D1 R2D0 1 12 VDC 3 Diode current rating >1x strike current. Diode breakdown voltage >4x strike voltage for 12 or 24 VDC strike. Diode 1N4002 (100 V/1 A) typical. 2 3 4 5 6 8 7 9 2 DC strike 4 TB5 or TB8 on module. 10 Figure 3: Recommended Circuit #2 11 0 1 2 3 4 5 6 7 8 9 * # 12 13 14 15 The following table lists the items shown in Figure 5 1 Reader (TB2 or TB11 on module) 9 R2 Data 0 2 (+) 5/12 VDC 10 Red (1) 1 AC transformer 3 Clamp voltage >1.5x VAC RMS. For 24 VAC strike, Panasonic ERZ-CO7DK470 is typical. 2 AC strike 4 TB5 or TB8 on module. 3 Green LED 11 Brown (4) 4 Red LED 12 Orange (5) 5 R1 Data 1 13 White (3) 6 R1 Data 0 14 Green (2) 7 (-) 0V Signal Ground 15 Black (6) 8 R2 Data 1 For the second reader of each door, the reader connections are shared (except for the Data 0 and Data 1, which are separate for each reader). TruPortal Dual Door Interface Module Quick Reference 3

Reader Voltage Jumpers For reader power (data line pull-up) voltage selection, refer to the following table and Figure 6: 1 Use J1 pins 1 and 2 for +12 VDC Data Lines. Use J1 pins 2 and 3 for +5 VDC Data Lines 2 Use J2 pins 1 and 2 for +12 VDC Data Lines; Use J1 pins 2 and 3 for +5 VDC Data Lines Communications (SNAPP Bus) and Power Wiring Communication ports TB1 and TB6 are two-wire RS-485 interfaces used to connect RS-485 from the System Controller (TP-SYS) to additional input/output (I/O) modules downstream. The interface allows multidrop communication on a single bus of up to 4000 feet (1200 m). Use twisted pairs (minimum 22 AWG / 0.644 mm / 0.326 mm) with an overall shield for communication. Figure 8: Communications Power Wiring Reader Status LEDs To interpret reader status LEDs, refer to the following table and Figure 6: Indication LED State 3 485-SNAPP bus OK DS1 ON Green 4 Processor OK DS2 Flashing Green 5 Low power DS7 ON Red Figure 6: Reader Jumpers and LEDs Alarm Input Door Contact Detail and Request to Exit Note the following details about the Figure 7: Door contacts (NC & NO) are for reference only, and must match the door state. #1 represents the enclosure tamper switch. Figure 7: Tamper Wiring Note: Door Interface Modules (TP-ADD boards) cannot be powered from the System Controller (TP-SYS). 1 +12 V from TP-ADD power supply, pre-wired at the factory 2 Data A from System Controller (TP-SYS) 3 Data B from System Controller (TP-SYS) 4 0 V from TP-ADD power supply 5 TP-ADD-2D-BRD 6 TP-ADD-2D-BRD (downstream) 7 +12 V and 0 V external power source, pre-wired at the factory 8 To additional TP-ADD-2D or TP-ADD-IN/OUT boards 9 Common ground from System Controller (TP-SYS) 10 Terminate cable shield to ground lug in System Controller 4 TruPortal Dual Door Interface Module Quick Reference

Figure 9: Dual Door Interface Module 1 2 3 4 5 1 2 3 4 DCNT RTMP BUZ 1 2 5/12 GRN RED/ 3 4 5 6 1 2 R1D1 R1D0 R2D1 R2D0 RXD 1 2 3 4 +12V A B 0V 1 2 3 AUX RTE 1 2 1 2 3 NO1 COM1 NC2 COM2 NO2 1 2 3 4 +12V A B 0V 6 13 +12V +5V 12 7 +5V 15 +12V 14 1 2 1 2 3 1 2 3 1 2 3 4 1 2 COM2 NO2 AUX RTE DCNT RTMP BUZ 5/12 GRN RED/ 3 4 5 6 1 2 NO1 COM1 NC2 R1D1 R1D0 R2D1 R2D0 RXD 8 9 10 11 Table 1: Dual Door Interface Module Pinouts 1 TB1 (Module Bus; wired from previous device and to next device) 9 TB9 (Input) Terminal Block Pin Label TB1 +12V (+) 12 V - Red A Data A - Green B Data B - Yellow 2 TB2 (Reader) 10 TB10 (Input) 0V (-) 0V - Black 3 TB3 (Input) 11 TB11 (Reader) 4 TB4 (Input) 12 Door 2 (one or two readers) 5 TB5 (Unlock Relay and Aux Relay, with pins NC2, NO2, and COM2 for Unlock Relay) 13 Door 2 reader voltage 6 TB6 (Module Bus) 14 Door 1 (one or two readers) 7 Tamper 15 Door 2 reader voltage 8 TB8 (Unlock Relay and Aux Relay, with pins NC2, NO2, and COM2 for Unlock Relay) TB2 5/12 (+) 5/12 VDC GRN Green LED RED/RXD Red LED R1D1 R1 Data 1 R1D0 R1 Data 0 (-) 0 V Signal Ground R2D1 R2 Data 1 R2D0 R2 Data 0 TB3 DCNT Door Contact Input COM/Shared RTMP Reader Tamper BUZ BUZ Out (-) TruPortal Dual Door Interface Module Quick Reference 5

Terminal Block Pin Label TB4 AUX Aux Input RTE COM/Shared Request to Exit TB5 NO1 Normally Open COM1 NC2 COM2 NO2 Aux Relay Normally Closed Common Normally Open TB6 +12V (+) 12V - Red A B 0V Data A - Green Data B - Yellow (-) 0V - Black TB8 NO1 Normally Open COM1 NC2 COM2 NO2 Aux Relay Normally Closed Common Normally Open TB9 AUX Aux Input RTE COM/Shared Request to Exit TB10 DCNT Door Contact Input RTMP COM/Shared Reader Tamper BUZ BUZ Out (-) TB11 5/12 (+) 5/12 VDC GRN RED/RXD Green LED Red LED R1D1 R1 Data 1 R1D0 R1 Data 0 (-) 0V Signal Ground R2D1 R2 Data 1 R2D0 R2 Data 0 6 TruPortal Dual Door Interface Module Quick Reference

Figure 10: TP-ADD-2D Enclosure Dimensions Figure 11: TP-ADD-4D Enclosure Dimensions 1 Front view; cover not shown 2 Bottom view; top view the same 3 Side view typical 4 0.20 in. (05 mm) and.38 in. (9.6 mm) double keyhole in 3 holes. 5 Combination 1.124 in. (28.6 mm) and.875 in. (22.2 mm) knockout typical 1 Front view; cover not shown 2 Bottom view; top view the same 3 Side view typical 4 0.20 in. (05 mm) and 38 in. (9.6 mm) double keyhole in 6 holes. 5 Combination 1.125 in. (29 mm) and 1,375 in. (35 mm) knockout typical TruPortal Dual Door Interface Module Quick Reference 7

Figure 12: Mounting in AL400 Enclosure with Mounting Plate Figure 13: Mounting in AL600 Enclosure with Mounting Plate 1 TP-ADD-2D 2 28058B-02 mounting plate 3 TP-ADD (AL400) enclosure 4 #6-32 SEMS nut, 8 holes 5 #6-32 x.38 in. (9.652 mm), 4 holes 1 TP-ADD-2D 2 28058B-02 mounting plate 3 TP-ADD (AL600) enclosure 4 #6-32 SEMS nut, 8 holes 5 #6-32 x.38 in. (9.652 mm), 4 holes 8 TruPortal Dual Door Interface Module Quick Reference

Figure 14: Mounting in AL400 Enclosure without Mounting Plate Figure 15: Mounting in AL600 Enclosure without Mounting Plate 1 TP-ADD-2D 2 TP-ADD (AL400) enclosure 3 #6-32 x 1.00 in. (25.4 mm) plastic standoff, 4 holes 4 #6-32 x.312 in. (7.925 mm), 4 holes 1 TP-ADD-2D 2 TP-ADD (AL600) enclosure 3 #6-32 x 1.00 in. (25.4 mm) plastic standoff, 4 holes 4 #6-32 x.312 in. (7.925 mm), 4 holes TruPortal Dual Door Interface Module Quick Reference 9

Specifications Regulatory Information The TruPortal Dual Door Interface Module is for use in low voltage, Class 2 circuits only. These specifications are subject to change without notice. Specifications Dimensions Operating environment Incoming power ratings Outputs Inputs Reader interface Communication Cable requirements 5.75 x 4.25 x 1 in. (146 x 108 x 25 mm) Temperature: +32 to +120 F (0 to +49 C ) Humidity: 5 to 85% RHNC at 77 F (25 C) BTU Output: 12.3 BTU/hour 12 VDC, 300 ma max Four outputs: Relay type Door strike: 24 VDC/1 A Aux: 24 VDC/0.1 A Eight unsupervised/supervised, standard EOL, 1k/1k ohm, 1% 1/4 watt One unsupervised, dedicated for enclosure tamper Four interfaces Reader power (jumper selectable): 12 VDC + 10% regulated, 125 ma maximum each reader or 5 VDC + 10% regulated, 600 ma maximum each reader SNAPP bus (RS-485) Power: 18 AWG (1.024 mm / 0.823 mm 2 ), one stranded Reader data: six conductors, 18 AWG (1.024 mm / 0.823 mm 2 ), 500 feet (150 m) maximum SNAPP bus (RS-485): 22 AWG (0.644 mm / 0.326 mm 2 ), 100 ohm impedance, twisted pair with shield, 4000 feet (1219 m) maximum Manufacturer Year of manufacture North American standards FCC compliance Certifications European Union directives Interlogix Headquarters and Regulatory responsibility: Interlogix 3211 Progress Dr. Lincolnton, NC 28092 USA EU authorized manufacturing representative: UTC Climate, Controls & Security B.V., Kelvinstraat 7, 6003 DH Weert, The Netherlands The first two digits of the product serial number (located on the product identification label) are the year of manufacture. UL 294 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. RoHS compliant, WEEE We declare under our sole responsibility that this product is in conformity with Directive 1999/5/EC (R&TTE), 2004/ 108/EC (EMC), 2006/95/EC (LVD), and 93/68/EEC (Marking) based on test results using harmonized standards in accordance with the Directives mentioned. Contact Information www.interlogix.com Customer support: www.interlogix.com/support 25JUL13 United Technologies Corporation Interlogix is part of UTC Climate Controls & Security, a unit of United Technologies Corporation. All rights reserved. Document number: 460802001C - July 2013 10 TruPortal Dual Door Interface Module Quick Reference