INSTALLATION & APPLICATION GUIDEbsds.co.th/wp-content/uploads/2018/06/ADM-2W704-Rev-1.3-Installa… · • 206X iClass Tag HID Smart Card as Tag with Adhesive Back • 205X iClass

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Access Door Module Page 1 of 26

INSTALLATION & APPLICATION GUIDE

Access Door Module ADM-2W704 (Rev 1.3)

Document Edition 1.2

PRODUCT DESCRIPTION The Access Door Module is an intelligent device used for access control of two single direction doors, or one bi-directional door. It is used in conjunction with Delta’s new generation of BACnet Controllers.

When connected to an Access System Manager on the Delta LINKnet network, it provides programmable remote door access control and expanded I/O capabilities.

Access Door Modules can be networked together, to a maximum of 12 Access Door Modules to provide access control of up to 24 doors.

TABLE OF CONTENTS PRODUCT DESCRIPTION ................................................................................................................................................... 1 TABLE OF CONTENTS ........................................................................................................................................................ 1 MODEL NUMBERS .............................................................................................................................................................. 2 UL AUTHORIZED ACCESSORIES ..................................................................................................................................... 2 OTHER ACCESSORIES FOR USE IN NON-UL APPLICATIONS ..................................................................................... 2 PACKAGE CONTENTS ........................................................................................................................................................ 2 REQUIRED TOOLS ............................................................................................................................................................... 2 OTHER RELEVANT DOCUMENTS .................................................................................................................................... 3 PRODUCT SPECIFICATIONS .............................................................................................................................................. 3 UL STANDARDS COMPLIANCE ........................................................................................................................................ 5 BOARD LAYOUT (ACCESS DOOR MODULE) ................................................................................................................. 6 INDICATORS ......................................................................................................................................................................... 7 CONTROLLER ADDRESS DIP SWITCHES ....................................................................................................................... 7 MOUNTING ........................................................................................................................................................................... 7 POWER WIRING ................................................................................................................................................................... 8 BATTERY BACKUP WIRING (NOT TO BE CONNECTED IN UL APPLICATIONS) .................................................... 8 INPUT WIRING ................................................................................................................................................................... 11 OUTPUT WIRING ............................................................................................................................................................... 20 LINKNET NETWORK & CABLING REQUIREMENTS ................................................................................................... 22 NETWORK TOPOLOGY (CONFIGURATION NOT EVALUATED BY UL) .................................................................. 23 COMMUNICATIONS SETUP ............................................................................................................................................. 24 CAUTIONS AND WARNINGS ........................................................................................................................................... 24 COMPLIANCE DECLARATIONS ...................................................................................................................................... 25

Access Door Module ADM-2W704 (Rev 1.3) Installation & Application Guide

Page 2 of 26 Access Door Module

MODEL NUMBERS

Features ADM-2W704 Controller & Enclosure

UL AUTHORIZED ACCESSORIES • AWID, Sentinel-Prox SR-2400 4 to 5.5 inch Read Range, Metal Compensated, Indoor

OTHER ACCESSORIES FOR USE IN NON-UL APPLICATIONS • R10 - 6100 HID iClass Mullion Indoor/Outdoor Smart Card Reader up to 3½” • R30 - 6110 HID iClass European/Asian Indoor/Outdoor Smart Card Reader up to 4” • R40 - 6120 HID iClass Single Gang Indoor/Outdoor Smart Card Reader up to 4¼” • 200X iClass Card HID Smart Card for Direct Image & Thermal Transfer • 206X iClass Tag HID Smart Card as Tag with Adhesive Back • 205X iClass Key HID Smart Card in molded plastic key fob • Sentinel-Prox HP-6840 6 to 8 inch Read Range, Single Gang Box Mount • Sentinel-Prox SR-2400 4 to 5.5 inch Read Range, Metal Compensated, Indoor/Outdoor • Sentinel-Prox MM-6800 6 to 8 inch Read Range, Metal Compensated, Indoor/Outdoor • Sentinel-Prox SP-6820 6 to 8 inch Read Range, Single Gang Box Mount • Sentinel-Prox MR-1824 18 to 24 inch Read Range, Dimensions Only 8”x 8” x 1”, Indoor/Outdoor • Sentinel-Prox MR-1824 MC Metal Compensated Version • Prox-Line – GR Graphics Quality, both sides, ISO Compliant • Prox-Line – CS “Clam Shell” style Prox Badge, Pre-Punched in Portrait Orientation • Prox-Line – KT Proximity Key Tag (Key Fob)

PACKAGE CONTENTS • Access Door Module Board, ADM-2W704 (Rev 1.3) • Stylized Enclosure for quick mounting • Access Door Module ADM-2W704 (Rev 1.3) Installation & Application Guide • Package containing 8-10K Resistors for EOL resistors and 1 pre-wired Battery Connector REQUIRED TOOLS • Terminal flat head screwdriver • Wire cutters and strippers • Screws and screw driver for mounting controller

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OTHER RELEVANT DOCUMENTS • Access Control System Technical Reference Manual • Access Control System V3.30 Release Notes • RS-485 Network Installation Guide (DOC818-11) • ORCAview Operator Guide • V3.30 ORCAview Technical Reference Manual • V3.30 Release Notes • Delta Controls System Description PRODUCT SPECIFICATIONS

Power Requirements

• 24 VAC, 50/60Hz, 75 VA (dedicated transformer) Class 2 Device • 4A Slow Blow Fuse for controller and device power • 7.0 AH Lead Acid Battery Connection (for battery charging and battery back-up of the controller, as

well as all devices connected and powered from the controller) • DC Power out +14 VDC @ 0.25A with a resetable fuse (can supply one Access System Manager

with battery backup) • Card reader power +5 VDC @ 50mA or +12 VDC @ 160mA for each card reader individually fused

with a resetable fuse • Door Lock power +12 VDC @ 350mA for each lock individually fused with a resetable fuse • Auxiliary DC Power out +12 VDC @ 50mA fused with a resetable fuse

Ambient Ratings

• 32º to 131º F (0º to 55º C) • 10 to 90% RH (non-condensing)

Communication Ports

NET1 - Main LAN (LINKnet) • Communications Speed @ 76,800 BPS • Maximum one Access Door Modules per Access System Manager (ASM) • Visual LED status of network activity



Inputs

• 2 Wiegand Devices • 5 Type 1,2,3,4 EOL Supervised Inputs

o 2 Door Contacts o 2 Auxiliary Inputs (i.e. tamper from card reader, motion detector, etc) o 1 Tamper Input for cabinet

• 2 Request to Exit Inputs (internally wired to door strike output to reduce field wiring) • 9 Internal Inputs for controller status

o 2 Door Strike/Magnetic Lock Power Status o 1 Auxiliary Power Status o 1 AC Power Status o 1 Battery Status o 2 Door +5 VDC Power Status o 2 Door +12 VDC Power Status

Outputs

• 2 Door Locks, Form C Relay (rated 24VDC/AC @ 5A) with MOV protection, internally supplied with +12 VDC as above.

• 2 Auxiliary Relays, Form C Relay 24VDC/AC @ 5A with MOV protection (N.O. and N.C. contacts available)

• 4 LED Outputs for control of LEDs on Card readers. Open-collector current sink maximum 24VDC @50mA current limited (LED or Buzzer output)

Technology

• 8 bit Processor c/w internal A/D, Flash, and RAM

Device Addressing

• Set via DIP switch for LINKnet Address (0 to 12 per LINKnet segment)

Size

Controller & Enclosure • 8” x 9.5” x 2.5” (20.3 cm x 24.1 cm x 6.4 cm)

Weight (c/w Enclosure)

• Controller & Enclosure = 1.2 lb. (547 g.)

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UL STANDARDS COMPLIANCE This system has been tested by Underwriters Laboratories, Inc. for UL Indoor requirements per Standard UL 294, Access Control System Units. It has been tested for compliance with Listed Proximity Card Reader Sentinel-Prox SR-2400 only. The only configuration evaluated by UL is a system containing one ASM-24E, one ADM-2W704, an UL Listed Transformer Basic Electric Industrial Cat. No. 7511 CBDH, ENC761 enclosure, and Applied Wireless Listed Proximity Card Reader, Sentinel-Prox SR-2400. The system employs Wiegand 26 communication protocol and was verified in the evaluation. UL has not evaluated the following features of the ADM-2W704 and therefore should not to be connected in UL applications: Battery Backup, Auxiliary Power, Request to Exit, or Auxiliary Relay Outputs. Any items not evaluated by UL shall not be connected to the system in UL applications or installations. All Read Ranges specified in this Manual are nominal and are dependent upon environmental and credential electrical parameters and have not been evaluated by UL. Product has been evaluated for the following levels in accordance with UL294 6th Edition:

• Destructive Attack – Level I • Line Security – Level I • Endurance – Level IV • Standby Power – Level I • Battery capacity for loss of primary power 0 hours



BOARD LAYOUT (ACCESS DOOR MODULE) All Terminal Class 2

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INDICATORS LED Function Description

AC PWR OK AC Power Indicator This green LED is on when the 24 VAC Power is present on the device. If no 24 VAC Power transformer is connected or the fuse (F1) is blown, the LED will be off.

Network (NET1)

RS-485 Communication Status Indicators for NET1 (LINKnet)

Green LEDs flash to indicate when the device is transmitting data through the associated port, and red LEDs flash to indicate when the device is receiving data through the port.

Outputs (OP1 – OP9)

Each green Output LED displays the status of its corresponding output

The green LED is on or off to match the binary status of the associated output.

CONTROLLER ADDRESS DIP SWITCHES Each individual DIP switch represents a pre-defined value (as printed on PCB beside the address block), which added together forms the device address. LINKnet device addresses must be between 1 and 12 for the device to communicate with its’ master device. Each LINKnet device must have a unique device address in this range. MOUNTING The Access Door Module is designed for quick and easy mounting in a number of locations. Normally this should be within a secured enclosure. A tamper switch should always be wired to the Access Door Module, indicating when someone enters the enclosure and tampers with the Access Door Module. Any standard switch that will mount inside the enclosure can be used. The tamper switch can be wired so that the circuit is monitored using an EOL circuit (see Input Wiring below for details).



POWER WIRING All power wiring must be completed by a licensed electrician and conform to the National Electrical Code, ANSI/NFPA 70, and local codes and regulations. The Access Door Module must be powered by the UL listed, 24VAC, 50/60 Hz Basic Electric transformer, Model 7511CBDH, or equivalent. Connect low voltage power (24VAC) from the UL listed transformer to the AC power terminals, marked as 24~.

• The Access Door Module needs to use its own dedicated transformer as its 24 VAC power source. You may not connect several controllers to the same transformer.

• Use 14 AWG minimum for wiring the AC in (i.e.120VAC) side of the UL listed transformer, per NEC requirements.

• Keep adequate spacings between battery, power limited field wiring and AC in. Suggest using UL recognized cable ties. Minimum .25” separation must be provided.

• Use proper strain relief for any flexible wiring. • Use bushings on rough surfaces to protect cabling from abrasion. • Do not wire power cord behind electrical enclosure.

• All terminals are acceptable for Class 2 Circuit connections only • Use copper conductors only • Apply minimum 6.0 lb-in torque for tightening field wires into the terminal blocks

BATTERY BACKUP WIRING (NOT TO BE CONNECTED IN UL APPLICATIONS) The Access Door Module has been designed with a battery circuit to provide the option of both battery charging and battery backup for the controller. The battery backup supplies power to the controller, its output devices (if power from the board), and Auxiliary power connections. Battery backup should be used when using Magnetic Locks on any doors that you would like to keep locked when there is a power failure or having the Access Control System be functional in the event of a power loss. The battery charging circuit has been designed for the following battery specifications: • 7 Amp Hours • Sealed Lead Acid battery only • Capable of both a trickle charge and bulk charge • Use supplied 0.25” Faston Lugs for connecting battery Using a 7 AH Battery, the table below shows approximately how long the battery will last when fully charged. (Not evaluated by UL) Lock Duty (Battery Full Charge) Battery Back-up Time (hours)

No lock activity, with Access System Manager backed-up 8

50% duty lock activity, with Access System Manager backed-up 5

100% duty lock activity, with Access System Manager backed-up 4

No lock activity 12

50% duty lock activity 6

100% duty lock activity 4

Note: Battery back-up times are approximations based on loads specified with a new battery. Old batteries will not perform as well due to normal battery degradation.

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24 VAC Access Door Module Power Connection Wiring Detail

Battery Connection Wiring Detail (Not evaluated by UL)



DC Power Out Used Power and Battery Backup Access System Manager

Auxiliary Power Wiring (Not Evaluated by UL)

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INPUT WIRING There are 2 input types on the Access Door Module: • Wiegand Inputs • Regular Contact/Resistive Inputs (supplied with 10 – 10K ¼ Watt resistors for EOL circuits) Wiegand Inputs are for card readers, keypads, biometric devices, etc, using the standard Wiegand Input signals on WD0 and WD1. See table below for input assignment and numbering. Regular inputs are resistive 10K Ohm pull-up inputs and are used for Door Contact, Request to Exit, etc. Inputs follow the same general wiring connection diagrams as other Delta products, with the exception that you can use EOL circuits to monitor the input wiring for open or short circuits. When EOL circuits are in place the input must be created as a Multistate Input (MI) with the proper Multistate Input Configuration (MIC) for the scale range. For details on the MIC scale range refer to the Technical Reference Manual. See below for wiring details when using EOL circuits. The Request to Exit input is configured based on the type of Door Lock that you are going to use. Placing a jumper in the proper terminals on the board configures the Request to Exit input. Product is shipped configured as a Fail Secure door. See diagram below. The tamper switch input is connected to a standard single contact switch such as the Locknetics Security Model 7766 (either the N.O. or N.C. action can be set-up in the input object) to monitor intrusion of the Access Door Module’s enclosure. Input Table Input Door Function Wiegand Reader A Wiegand Device input Wiegand Reader B Wiegand Device input BI1/MI1 A Door Contact BI2/MI2 A Request to Exit Status AI3/BI3/MI3 A Auxiliary Input (Not to be used in UL applications) BI4 A Door Strike/Magnetic Lock Power Status (Software input) BI5/MI5 B Door Contact BI6/MI6 B Request to Exit Status AI7/BI7/MI7 B Auxiliary Input (Not to be used in UL applications) BI8 B Door Strike/Magnetic Lock Power Status (Software input) AI9/BI9/MI9 N/A Tamper Switch – can be used as an auxiliary input if not used BI10 N/A Auxiliary Power Status (On power Ok) BI11 N/A AC Power Status (On AC Power Ok) BI12 N/A Battery Status (On Battery Ok) BI13 A +5 VDC Card reader Power Status (On +5 VDC Power Ok) BI14 A +12 VDC Card reader Power Status (On +12 VDC Power Ok) BI15 B +5 VDC Card reader Power Status (On +5 VDC Power Ok) BI16 B +12 VDC Card reader Power Status (On +12 VDC Power Ok)

Note: Inputs in Italics are not physical inputs. They are internal inputs on the Access Door Module that report the status of the Access Door Module.



Wiegand Device Wiring (examples using HID and AWID card readers) Wiegand Device wiring details are shown below. The +5 VDC power for card readers is from a switched power supply and is used with Wiegand magnetic stripe readers, etc. It is recommended, when using proximity card readers, that you should use the +12 VDC power supplied by the board for maximum read distance. The Access Door Module +12 VDC is a linear power supply (which is required by most proximity card reader manufacturers). You should follow the wiring and wire type specifications of the card reader manufacturer that you are using. Below is the typical wire type and distance specified by most card reader manufacturers; these are the specifications for the card readers supplied by Delta Controls Inc. Card readers should always be grounded properly to ensure proper operation (refer to the manufacturers installation data). Wire Size #22 AWG (0.6mm Dia.) #18 AWG (1.2mm Dia.)

Wiegand Reader 500 ft (152 meters) 980 ft (300 meters)

RS-232 45 ft (15 meters) 45 ft (15 meters) HID iCLASS Rxx Smart Card Reader Wiring

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AWID/HID Prox Card Reader Wiring



Request to Exit Input (Not Evaluated by UL) The Request to Exit input has 2 components; the first is the Request to Exit Status that is monitored by software, to give the operator the status of the button. The second component is the contact on the Request to Exit button that interrupts the Door Lock signal to allow egress. The Request to Exit push button must have both an N.O. contact and an N.C. contact to retrieve the status and to interrupt the Door Lock for egress. The table and diagram below show how the Request to Exit should be configured and wired for the Door Lock type chosen. When using a Type 3 or Type 4 EOL Circuit and a Request to Exit button that has a single pole switch, make sure that the 10K Ohm resistor is on the input leg of the circuit, not the ground side of the circuit, or the Door Lock and/or Request to Exit status may not work properly, as shown below. Optional EOL Circuit resistors are shown for EOL Circuit Types 3 and 4. RTE Configuration and Wiring The product is shipped configured for Fail Secure doors. Door Lock RTE Status RTE Contact Jumper

Fail Safe N.O. N.C. 2-3

Fail Secure N.C. N.O. 1-2

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If no RTE is being used, you must configure the circuit. If the Door Lock is configured as fail-safe, a jumper needs to be put in place of the RTE Contact. The diagram below shows how the RTE circuit is configured when not using an RTE device. Note: Fail secure only allowed where NFPA 101or local authorities allow.



No RTE Configuration and Wiring Door Lock RTE Status RTE Contact Lock Configure Jumper

Fail Safe N.O. N.C. 2-3 4-5

Fail Secure N.C. N.O. 1-2 N/A

EOL Circuits Any of the inputs, other than the Wiegand Inputs, can be wired to be monitored/supervised circuits able to detect problems or tampering with wiring. The 4 types, Type 1,2,3, and 4, of monitored circuits that Delta Controls supports are described with the diagrams below. Each EOL circuit is based on 10K Ohm (± 5%) resistors. EOL resistors should be installed at the end of the line (at the device), not at the Access Door Module (controller). Placing an EOL at the Access Door Module renders the circuit unmonitored, as it will only monitor to the point of the controller connection. Delta Controls recommends using EOL Types 3 & 4 if input wiring is to be monitored as they provided the most information regarding the condition of the input circuit (wiring). Scale Ranges (MIC objects) have been provided with the release CD-ROM, that should be used for these types of inputs. You must use the MIC Objects provided as the software controlling Door Locks for the values in pre-defined spots.

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Type 1 EOL Circuit (Normally Closed Contact) Used to monitor a Normally Closed contact, this EOL supervised circuit will give you a Trouble signal, in addition to the Normal and Alarm signals, to let you know if the circuit has been shorted (contact bypassed). It does not give Trouble indication of an Open circuit (wires cut), but it will cause an alarm condition.

Type 2 EOL Circuit (Normally Open Contact) This EOL Circuit is used to monitor/supervise a Normally Open contact, to indicate Trouble when there is an Open Circuit (wires cut). A short circuit (contact bypassed) will not indicate Trouble, but will generate an Alarm condition.

Contact Door Contact Voltage Range

Type 1 - Normally Closed Contact

Switch Closed

Switch Open

Circuit Shorted

Door Open

Door Closed

Trouble

1.17 - 3.62

3.63 - 5.00

0.00 - 1.16

10KOhm

N.C.

21 Input

Request to Exit

Door Close

Request to Exit

Trouble


Type 2 - Normally Open Contact

Switch Closed

Switch Open

Circuit Open

Door Closed

Door Open

Trouble

0.00 - 1.16

1.17 - 3.62

3.63 - 5.00

10KOhm 2

1 Input

N.O

.

Request to Exit

Request to Exit

Door Close

Trouble



Type 3 EOL Circuit (Normally Closed Contact) This EOL Circuit is used to monitor/supervise a Normally Closed contact, to indicate Trouble when there is either a Short Circuit (contact bypassed) or Open Circuit (wires cut). This supervised circuit gives the most feedback on the input’s condition, along with Type 4 for Normally Open contacts. When using a Type 3 or Type 4 EOL Circuit and a Request to Exit button that has a single pole switch, make sure that the 10K Ohm resistor is on the input leg of the circuit, not the ground side of the circuit, or the Door Lock and/or Request to Exit status may not work properly, as shown below.


Type 3 - Normally Closed Contact

Switch Closed

Switch Open

Circuit Open

Circuit Short

Door Open

Door Closed

Trouble (open)

Trouble (shorted)

1.17 - 2.89

2.90 - 4.02

4.03 - 5.00

0.00 - 1.16

10KOhm 2

1 Input

10KOhm

N.C

.

Request to Exit

Door Close

Request to Exit

Trouble (open)

Trouble (shorted)

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Type 4 EOL Circuit (Normally Open Contact) This EOL Circuit is used to monitor/supervise a Normally Open contact, to indicate Trouble when there is either a Short Circuit (contact bypassed) or an Open Circuit (wires cut). This supervised circuit gives the most feedback on the input’s condition, along with Type 3 for Normally Closed contacts. When using the Type 3 or Type 4 EOL Circuit and a Request to Exit button that has a single pole switch, make sure that the 10K Ohm resistor is on the input leg of the circuit, not the ground side of the circuit, or the Door Lock and/or Request to Exit status may not work properly, as shown below.


Type 4 - Normally Open Contact

Switch Closed

Switch Open

Cicuit Open

Circuit Short

Door Closed

Door Open

Trouble (open)

Trouble (shorted)

1.17 - 2.89

2.90 - 4.02

4.02 - 5.00

0.00 - 1.16

10KOhm 2

1 Input

10KOhm

N.O

.

Request to Exit

Request to Exit

Door Close

Trouble (open)

Trouble (shorted)



OUTPUT WIRING The Outputs on the Access Door Module, like the inputs, are not general outputs. They typically have specific operations. There is an auxiliary output for each door on the board that gives you an SPDT relay output. Outputs on the Access Door Module follow the same general wiring connection diagrams as other Delta products. Refer to separate documentation for additional details regarding this wiring. Output Table Output Door Function

BO1 A Door Strike

BO2 A Auxiliary Relay Output (SPDT) (Not to be connected in UL applications)

BO3 A LED1

BO4 A LED2

BO5 B Door Strike

BO6 B Auxiliary Relay Output (SPDT) (Not to be connected in UL applications)

BO7 B LED1

BO8 B LED2

BO9 N/A Trouble LED Door Lock Wiring Detail The Door Lock output is wired straight back to the Access Door Module as shown below. The Access Door Module supplies +12VDC @ 350 mA maximum for powering the Door Lock. Therefore only +12VDC Door Locks can be wired directly to the board, as shown below. If the Door Lock draws more than 350mA, then the Door Lock should be wired as shown in the following diagram.

If a voltage other than +12VDC or an AC voltage is needed for the Door Lock, a DC Relay and a separate power supply to control the Door Lock is needed, see wiring detail below. This wiring configuration can also be used when the Door Lock draws more than 500mA.

WARNING

When a Door Lock is connected this way, the Door Lock will not be battery backed-up by the board, but needs to be battery backed-up from it’s own source.

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The Request to Exit contact is hardwired on the controller board to interrupt the door lock signal; this does not go through any software and is effectively hardwired through traces on the board. This was done to make field wiring easier. See Request to Exit details for selection of Request to Exit based on the Door Lock type. Auxiliary Output Wiring Detail (Not evaluated by UL) The Auxiliary output for each door is an SPDT relay and can be wired as N.O. and/or N.C.. It is controlled from a single software output. The contacts are rated at 24VAC/DC @ 5A. Wiring Detail for switching a large load (120VAC Motor) is shown below. (Not evaluated by UL.)

LED1 and LED2 Outputs LED1 and LED2 for each door are meant to be connected to the respective Card reader so we can give visual indication on the Card reader for degraded mode and bad card reads by default. The LED outputs are Open-collector current sink and are rated at a maximum 24VDC @50mA current limited. See the section on Card reader wiring above for an example of using LED1 to control the LED from a Card reader.



LINKNET NETWORK & CABLING REQUIREMENTS To ensure network stability and reliable communications, particularly at high speeds on the LINKnet network for a number of devices, it is imperative that you adhere to the following network and cabling requirements:

Item Description

Cabling For MS/TP and LINKnet networks it is recommended that you use network cabling that matches the following specifications:

• Balanced 100 to 120 Ohm nominal impedance Twisted Shielded Pair (TSP) Cable

• Nominal capacitance of 16 PF/FT or lower

• Nominal velocity of propagation of 66% or higher

Topology Ensure the cable is installed as a daisy chain from one device to the next.

Max. Controllers (Access Door Modules)

The maximum number of controllers per LINKnet network is 12.

Termination Boards

A termination board (TRM-768) must be installed at each end of each MS/TP network segment – or two per MS/TP or LINKnet network. Ensure you do not overlook this in laying out your network architecture and ordering product.

The LINKnet network must be connected to NET1 of the Access Door Module. When connecting the LINKnet network to the Access System Manager it must be connected to NET1 and configured properly in the Access System Manager for the Access Door Module to communicate on LINKnet. For more detailed information, including wiring, refer to the RS-485 Network Installation Guide (DOC818-11).

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NETWORK TOPOLOGY (CONFIGURATION NOT EVALUATED BY UL) With V3.22 firmware the Access Door Module is a LINKnet device that acts as extended I/O to the master controller, the Access System Manager. Up to 12 - Access Door Modules can be connected to a single Access System Manager.



COMMUNICATIONS SETUP The Access Door Modules communicate on a LINKnet network at a default speed of 76,800 BPS. Refer to the V3.30 Technical Reference Manual for further details on configuring the LINKnet network or changing baud rates, etc. See RS-485 Network Installation Guide (DOC818-11) for details on wiring and terminating the LINKnet network and devices.

CAUTIONS AND WARNINGS

WARNING

The Access Door Module is an Electro-statically sensitive device. Proper ESD protection (ground strap) should be used when installing this product so that damage to the product does not occur.

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COMPLIANCE DECLARATIONS

CE – DECLARATION OF CONFORMITY According to ISO/IEC Guide 22 and EN 45014

Manufacturer’s Name: Delta Controls Inc.

Manufacturer’s Address: 17850 56th Avenue Surrey, British Columbia, V3S 1C7 Canada

Declares that the product (s): Product Name: Access Door Module

Model Numbers: ADM-2W704

Product Options: All Conform to the following Product Specifications: EN 61000-6-3:2007 Generic Emission Standard Part 1: Light Industrial/Residential EN 55022:2010 Emission Requirements for Information Technology Equipment EN 55022:2010 Radiated Emissions Class A EN 55022:2010 AC Mains Conducted Emissions Class A EN 61000-3-2:2006+A2:2009 Power Line Harmonics Class A EN 61000-3-3:2008 Power Line Fluctuations Pst < 1, Plt < 0.65 EN 61000-6-1:2007 Generic Immunity Standard Part 1: Light Industrial/Residential EN 55024:2010 Immunity Requirements for Information Technology Equipment EN 61000-4-2 ESD Immunity Criterion A EN 61000-4-3 RF Electromagnetic Field Immunity Criterion A EN 61000-4-4 EFT/Burst Immunity Criterion A EN 61000-4-5 Surge Transient Immunity Criterion A/A EN 61000-4-6 Conducted Immunity Criterion A EN 61000-4-11 Voltage Dips / Interruptions Criterion A/A/C Comply with the requirements of the following Directives: 2004/108/EC The EMC Directive The product was tested in a typical configuration to check conformity with the EMC directive. 2011/65/EU The RoHS Directive To our best knowledge the product complies with the RoHS 2 Directive, which may or may not include

exemptions. Restricted substance amounts, if present, are below the required limits as shown in Table 1, on next page.

Lee Dickson Director of Quality Assurance February 26, 2015



CE – DECLARATION OF CONFORMITY

Table 1. European RoHS 2 Restricted Substances:

Substance Max. Allowable Limit (2011/65/EU – RoHS)

Exceeding (Yes/No)

Lead (Pb) 0.1% (weight) / 1000 ppm No Mercury (Hg) 0.1% (weight) / 1000 ppm No Cadmium (Cd) 0.01% (weight) / 100 ppm No Hexavalent Chromium (Cr6+) 0.1% (weight) / 1000 ppm No Polybrominated Biphenyls (PBB) 0.1% (weight) / 1000 ppm No Polybrominated Diphenyl Ethers (PBDE) 0.1% (weight) / 1000 ppm No

FCC, IC, UL and CSA Compliance Information

FCC Compliance Information: This equipment has been tested and found to comply 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 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/her own expense. Caution: Changes or modifications to this equipment, not expressly approved by the manufacturer could void the user’s authority to operate the equipment. Industry Canada Compliance Statement: ICES-003 This Class A digital apparatus meets all requirements of the Canadian Interference-Causing Equipment

Regulations

Cet appareil numérique de la Classe A Respecte toutes les exigences du Règlement sur le matérial brouiller du Canada.

UL and CSA Compliance Information:

This Product confirms to the following UL requirements: UL 294: UL Standard for Safety Access Control System Units

Documents

INSTALLATION & APPLICATION GUIDEbsds.co.th/wp-content/uploads/2018/06/ADM-2W704-Rev-1.3-Installa… · • 206X iClass Tag HID Smart Card as Tag with Adhesive Back • 205X iClass