Rosslare AC-425x-B Series, AC-425-DIN, AC-425-B, AC-425IP-B, AC-425IP-DIN Installation And User Manual

AC-425x-B Series

Expandable 4-Reader Networked
Access Control Panel

Hardware Installation and User Guide

Models:

AC-425-B
AC-425-DIN
AC-425IP-B
AC-425IP-DIN

Copyright © 2018 by Rosslare. All rights reserved.

This manual and the information contained herein are proprietary to ROSSLARE

ENTERPRISES LIMITED and/or its related companies and/or subsidiaries’ (hereafter:

"ROSSLARE"). Only ROSSLARE and its customers have the right to use the

information.

No part of this manual may be re-produced or transmitted in any form or by any

means, electronic or mechanical, for any purpose, without the express written

permission of ROSSLARE.

ROSSLARE owns patents and patent applications, trademarks, copyrights, or other

intellectual property rights covering the subject matter in this manual.

TEXTS, IMAGES, AND ILLUSTRATIONS INCLUDING THEIR ARRANGEMENT IN THIS

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OTHER LEGAL RIGHTS WORLDWIDE. THEIR USE, REPRODUCTION, AND

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RESULT IN LEGAL PROCEEDINGS.

The furnishing of this manual to any party does not give that party or any third

party any license to these patents, trademarks, copyrights or other intellectual

property rights, except as expressly provided in any written agreement of

ROSSLARE.

ROSSLARE reserves the right to revise and change this document at any time,

without being obliged to announce such revisions or changes beforehand or after

the fact.

Table of Contents

AC-425x-B Hardware Installation and User Manual iii

Table of Contents

1. Introduction ........................................................................................ 8

1.1 AxTraxNG ......................................................................................................................................................... 9

1.1.1 Client-Server Structure ....................................................................................................................................................... 10

1.1.2 Configurable Links ............................................................................................................................................................... 10

1.1.3 Fingerprint Recognition ..................................................................................................................................................... 10

2. Technical Specifications ..................................................................... 11

2.1 AC-425x-DIN ................................................................................................................................................ 11

2.2 AC-425x-B Installed in ME-1015 .......................................................................................................... 12

3. AC-425x-B Panel Setup ..................................................................... 14

3.1 Inputs Wiring – Non-Supervised Inputs ........................................................................................... 15

3.2 Inputs Wiring – Supervised Inputs ...................................................................................................... 16

3.3 Outputs Wiring ............................................................................................................................................ 16

3.4 Power Supply ............................................................................................................................................... 17

3.5 AC-425x-B Wiring Communications ................................................................................................... 19

3.6 Readers ........................................................................................................................................................... 19

3.7 MD-IO84B ...................................................................................................................................................... 20

3.8 MD-D04B ....................................................................................................................................................... 20

4. Input and Output Connections ........................................................... 21

4.1 Input Types ................................................................................................................................................... 21

4.1.1 Normally Open Input Connection ................................................................................................................................. 21

4.1.2 Normally Closed Input Connection .............................................................................................................................. 22

4.1.3 Normally Open Supervised Single EOL Resistor Input Connection ............................................................... 22

4.1.4 Normally Open Supervised Double EOL Resistor Input Connection ............................................................. 23

4.1.5 Normally Closed Supervised Single EOL Resistor Input Connection............................................................. 24

4.1.6 Normally Closed Supervised Double EOL Resistor Input Connection .......................................................... 24

4.2 Inputs Description ...................................................................................................................................... 25

Table of Contents

iv AC-425x-B Hardware Installation and User Manual

4.2.1 Request-to-Exit Button (REX) Input .............................................................................................................................. 25

4.2.2 Door Monitor Input ............................................................................................................................................................. 26

4.2.3 General Purpose Inputs ..................................................................................................................................................... 26

4.3 Outputs ........................................................................................................................................................... 27

4.3.1 Door Lock ................................................................................................................................................................................ 27

4.4 Card Readers and Keypads .................................................................................................................... 28

5. AC-425x-B Hardware Settings ........................................................... 30

5.1 DIP Switch Configuration ........................................................................................................................ 30

5.2 AC-425x-B Panel Baud Rate................................................................................................................... 31

5.3 AC-425x-B Panel Type .............................................................................................................................. 31

5.4 AC-425x-B Panel Address ....................................................................................................................... 34

6. Communications ............................................................................... 37

6.1 Serial Network Connection ..................................................................................................................... 37

6.1.1 RS-232 Connection to the Computer .......................................................................................................................... 37

6.1.2 RS-485 Connection to the Computer .......................................................................................................................... 38

6.1.3 Daisy Chaining ....................................................................................................................................................................... 39

6.2 TCP/IP Network Connection .................................................................................................................. 40

6.2.1 LAN and WAN Requirements ......................................................................................................................................... 40

6.2.2 LAN and WAN Requirements ......................................................................................................................................... 41

A. Declaration of Conformity .................................................................. 42

B. Radio Equipment Directive (RED) ........................................................ 43

C. RoHS Directive .................................................................................. 44

D. Limited Warranty ............................................................................... 45

List of Figures

AC-425x-B Hardware Installation and User Manual v

List of Figures

Figure 1: AC-425x-B Panel Layout ........................................................................................................................... 9

Figure 2: Sample AC-425x-B Configuration ....................................................................................................... 14

Figure 3: Inputs Wiring – Non-supervised Inputs ........................................................................................... 15

Figure 4: Door Lock – Failed Close ....................................................................................................................... 16

Figure 5: Door Lock – Failed Open ....................................................................................................................... 17

Figure 6: Wiring Between PM-10 and AC-425x-B ........................................................................................... 18

Figure 7: AC-425x-B Wiring Communications .................................................................................................. 19

Figure 8: Reader Wiring ............................................................................................................................................. 20

Figure 9: Connector Location for MD-IO84B or MD-D04B Expansions ................................................. 20

Figure 10: Normally Open Input Connection .................................................................................................... 22

Figure 11: Normally Closed Input Connection ................................................................................................. 22

Figure 12: Normally Open Supervised Input (Single Resistor) ................................................................... 23

Figure 13: Normally Open Supervised Input (Double Resistor) ................................................................ 23

Figure 14: Normally Closed Supervised Input (Single Resistor) ................................................................ 24

Figure 15: Normally Closed Supervised Input (Double Resistor) .............................................................. 25

Figure 16: DIP Switches .............................................................................................................................................. 30

Figure 17: RS-232 Panel Connection to PC ....................................................................................................... 37

Figure 18: RS-485 Panel Connection to PC ....................................................................................................... 38

Figure 19: Daisy Chaining .......................................................................................................................................... 39

Figure 20: MD-N32 Configuration Connecting a Single Panel .................................................................. 40

Figure 21: Connecting a Single Control Panel with MD-N32 .................................................................... 41

Figure 22: Connecting Multiple Access Control Panels with MD-N32 ................................................... 41

List of Tables

vi AC-425x-B Hardware Installation and User Manual

List of Tables

Table 1: DIP Switches and Their Functions ........................................................................................................ 30

Table 2: Switch Baud Rates ....................................................................................................................................... 31

Table 3: Possible Hardware Settings ..................................................................................................................... 31

Table 4: Available Panel Addresses ....................................................................................................................... 35

Table 5: RS-232 Connection ..................................................................................................................................... 38

Notice and Disclaimer

AC-425x-B Hardware Installation and User Manual vii

Notice and Disclaimer

This manual’s sole purpose is to assist installers and/or users in the safe and efficient installation and usage of
the system and/or product, and/or software described herein.

BEFORE ATTEMPTING TO INSTALL AND/OR USE THE SYSTEM, THE INSTALLER AND THE USER MUST READ THIS

MANUAL AND BECOME FAMILIAR WITH ALL SAFETY REQUIREMENTS AND OPERATING PROCEDURES.

 The system must not be used for purposes other than those for which it was designed.
 The use of the software associated with the system and/or product, if applicable, is

subject to the terms of the license provided as part of the purchase documents.

 ROSSLARE exclusive warranty and liability is limited to the warranty and liability

statement provided in an appendix at the end of this document.

 This manual describes the maximum configuration of the system with the maximum

number of functions, including future options. Therefore, not all functions described in
this manual may be available in the specific system and/or product configuration you
purchased.

 Incorrect operation or installation, or failure of the user to effectively maintain the

system, relieves the manufacturer (and seller) from all or any responsibility for
consequent non-compliance, damage, or injury.

 The text, images and graphics contained in the manual are for the purpose of illustration

and reference only.

 All data contained herein subject to change without prior notice.
 In no event shall manufacturer be liable for any special, direct, indirect, incidental,

consequential, exemplary, or punitive damages (including, without limitation, any and all
damages from business interruption, loss of profits or revenue, cost of capital or loss of
use of any property or capital or injury).

 All graphics in this manual are for reference only, some deviation between the image(s)

and the actual product may occur.

 All wiring diagrams are intended for reference only, the photograph or graphic of the

PCB(s) are intended for clearer illustration and understanding of the product and may
differ from the actual PCB(s).

Introduction

8 AC-425x-B Hardware Installation and User Manual

1. Introduction

In this manual, unless otherwise stated, “AC-425x-B” refers to both the regular AC-425-B and the
AC-425IP-B moels.

The AC-425x-B access control panel is a state-of-the-art networked access controller,
employing the latest technology to meet the requirements of the market.

The state-of-the-art dual/quad door AC-425x-B networked access controller is the backbone
of medium scale security systems handling up to 30,000 users and 8184 doors.

Each AC-425x-B access control unit (ACU) supports four readers (In/Out) of various formats
including standard Wiegand 26-bit. Installations can also have one reader per door.

The AC-425x-B comes in two models:

 AC-425-B – standard model
 AC-425IP-B – supports TCP/IP connection

Driven by Rosslare’s powerful, flexible and easy-to-use AxTraxNG™ software, the system
provides an ideal, modular and expandable solution for commercial and institutional needs. It
provides seamless integration with Rosslare's range of RFID proximity, PIN, Proximity & PIN,
smartcard and biometric readers with Rosslare’s selection of RFID credentials.

The AC-425x-B is ready for installation with a mountable & lockable metal enclosure
integrated with transformer, power supply/charger, sounder and control board.

Using onboard RS-232/485, Ethernet TCP/IP (AC-425IP-B model only), multiple local or remote
sites, door sub-networks can connect to the AxTraxNG Client/Server PC software running on
Microsoft® Windows® 98/ME & NT/2000/XP/7 operating systems.

The AC-425x-B consists of the following components:

 AC-425x-B controller board
 Panel enclosure
 PM-10 management board
 Power transformer
 4 x 2.2 kΩ and 4 x 8.2 kΩ resistors for the supervised inputs

Introduction

AC-425x-B Hardware Installation and User Manual 9

Figure 1 shows the layout of the AC-425x-B panel.

Figure 1: AC-425x-B Panel Layout

1.1 AxTraxNG

The AxTraxNG software system is custom designed to set up, manage, and supervise all
aspects of an access panel network.

It offers the following capabilities:

Parameter

Value

Users capacity

30,000

Unauthorized users

30,000

Access groups

30,000

Number of panels in system

1023

Number of doors in system

8184

These options are software and firmware dependent, and may change in later releases or
revisions.

Introduction

10 AC-425x-B Hardware Installation and User Manual

1.1.1 Client-Server Structure

AxTraxNG operates through a dedicated AxTraxNG server computer, which communicates with
the access control panels and can serve an unlimited number of network clients.

The server also runs the system's SQL database, which contains settings and definitions for
access control across the entire facility. System users can define new cards holders and users,
and control access permissions. The system includes tools for database backup, input, and
export of previous configurations and automatic backup on a periodic basis.

AxTraxNG supports all panel types and offers scalability and flexibility in addition to a range of
advanced control features.

1.1.2 Configurable Links

The system's configurable links model makes it possible to trigger any chosen output
automatically or report a configurable alarm, based on a selected input. This allows easy
integration with other access systems such as intruder alarms, CCTV systems, and elevator
controls.

AxTraxNG can also define a selected set of operations, which are defined in configurable links,
when a panel registers a specified user or group of users. This can be useful, for example, in
elevator control systems. The system can assign users with counters, allowing a limited
number of entries to each panel.

1.1.3 Fingerprint Recognition

AxTraxNG can share user details with Rosslare's BioTrax software system. The BioTrax system
can then download all selected user information to an AYC-W6500 fingerprint reader.

Fingerprint recognition was not evaluated by UL.

Technical Specifications

AC-425x-B Hardware Installation and User Manual 11

2. Technical Specifications

2.1 AC-425x-DIN

Technical Specifications

12 AC-425x-B Hardware Installation and User Manual

Electrical Characteristics

Operating Voltage

12 VDC, 1.5 A from a regulated power supply

Maximum Input Current

AC-425

Standby: 80 mA

Maximum: 325 mA

AC-425IP

Standby: 120 mA

Maximum: 370 mA

General Inputs

 4 supervised high impedance inputs
 8 or 12 supervised inputs when using MD-D02B or MD-

IO84B expansion boards

 Maximum voltage: 5 VDC

Relay Outputs

 4 Form C 5 Amp relay outputs
 8 outputs when using MD-D02B or MD-IO84B expansion

boards

Reader Ports

 2 reader ports, 4 reader ports when using MD-D02B
 Communication: Wiegand (D0, D1) or Clock & Data (C, D)
 Output voltage to reader: 12 VDC
 Max. current to reader: 245 mA
 LED control output and Tamper Input

Visual Indicators

11 LEDs for outputs and communication status

Audio

Sounder output for use with compatible speakers provide
chime, bell and siren signals

Battery Standby Time

3 hours with a 12 V, 7 Ah lead acid battery

Communication Characteristics

RS-485 / RS-232

 RS-485 or optional RS-232
 RS-485 connection by terminal block or MD-14U connector
 RS-232 connection by terminal block

RS-232

Terminal Block

RS-485

Molex and Terminal Block

TCP/IP

On-board RJ-45 connector

(functional on AC-425IP models only)

Selectable Communication Speed

9600, 19200, 57600, 115200 bps

Environmental Characteristics

Operating Temperature Range

0°C to 49°C (32°F to 120°F)

Operating Humidity Range

0 to 85% (non-condensing)

Dimensions

Height x Width x Depth

193 x 136.5 x 39 mm (7.6 x 5.4 x 1.5 in.)

Weight

0.36 kg (12.7 oz)

2.2 AC-425x-B Installed in ME-1015

Technical Specifications

AC-425x-B Hardware Installation and User Manual 13

Electrical Characteristics – Switch Mode Power Supply

Operating Voltage

90 ~ 265 VAC, 50 ~ 60 Hz from mains power

Maximum Input Current

1.5 A

Output Power

15 VDC, 4 A (60 Watts) to the power management board

Electrical Characteristics – Power Management Board (PM-10)

Input Power

15 VDC, 4 A to the power management board

Output Power

Two PTC fused outputs, each provides 13.8 VDC, 2 A

One output for controller and readers

One output for locks

Battery Charger

13.8 VDC, 300 mA for 12 VDC, 7 Ah Lead Acid Battery

Speaker

0.5 Watt, 8 Ohm

Light Bar

0.3 Watt for LED light

Environmental Characteristics

Operating Temperature Range

0°C to 49°C (32°F to 120°F)

Operating Humidity Range

0 to 85% (non-condensing)

Dimensions

Height x Width x Depth

365 x 264 x 97 mm (14.4 x 10.4 x 3.8 in.)

Weight

3.4 kg (7.5 lb)

AC-425x-B Panel Setup

14 AC-425x-B Hardware Installation and User Manual

3. AC-425x-B Panel Setup

Each AC-425x-B panel controls 2 or 4 doors (up to 8 doors with MD-D04B). The panels
connect together in a network and are controlled by a central server computer, running the
AxTraxNG software system.

Figure 2 shows an example setup for a network of AC-425x-B access control panels.

Figure 2: Sample AC-425x-B Configuration

Bushings are needed for any conductors leaving the enclosure through the provided openings.

AC-425x-B Panel Setup

AC-425x-B Hardware Installation and User Manual 15

3.1 Inputs Wiring – Non-Supervised Inputs

Figure 3 presents a detailed view of the non-supervised inputs and their connection options.

Figure 3: Inputs Wiring – Non-supervised Inputs

AC-425x-B Panel Setup

16 AC-425x-B Hardware Installation and User Manual

3.2 Inputs Wiring – Supervised Inputs

When wiring the AC-425x-B for supervised inputs, resistors should be placed on the input
switch and not on the terminal block.

For more details, refer to Chapter 4.

3.3 Outputs Wiring

Figure 4 and Figure 5 illustrate wiring for two main types of 12 VDC electrical release
mechanisms. Other electrical devices can be switched using the voltage free relay contacts.

Figure 4: Door Lock – Failed Close

AC-425x-B Panel Setup

AC-425x-B Hardware Installation and User Manual 17

Figure 5: Door Lock – Failed Open

3.4 Power Supply

Figure 6 illustrates wiring between the PM-10 power management board and the AC-425x-B.
Make sure the connection polarity is correct, (+) to (+) and (-) to (-). Connect the power to
the input power terminals of the control panel. It is recommended to add a 12 VDC lead acid
backup battery (requires the ME-1015 Power Management Enclosure) to have uninterrupted
operation in case main power supply fails. A 12 V, 7 AH battery provides 3 hours of backup
operation.

AC-425x-B Panel Setup

18 AC-425x-B Hardware Installation and User Manual

Figure 6: Wiring Between PM-10 and AC-425x-B

AC-425x-B Panel Setup

AC-425x-B Hardware Installation and User Manual 19

3.5 AC-425x-B Wiring Communications

Figure 7 presents a detailed view of the access control panel with all it wiring communications.

Figure 7: AC-425x-B Wiring Communications

3.6 Readers

Proximity and keypad readers are supplied with a limited cable. The color of the cable cover
represents the cable’s function according to Wiegand standards (Figure 8).

When extending the cable distance, be careful with the color of the cable cover.

Refer to the reader specifications for the maximum cable length (typically 150 m with an 18
AWG cable).

AC-425x-B Panel Setup

20 AC-425x-B Hardware Installation and User Manual

Figure 8: Reader Wiring

3.7 MD-IO84B

The MD-IO84B is an optional I/O expansion board that adds 4 relay outputs and 8 supervised
inputs to the Access Control Panel. Attach the MD-IO84B to the AC-425x-B's expansion slot,
as marked in red in Figure 9).

Figure 9: Connector Location for MD-IO84B or MD-D04B Expansions

For more information, see the

MD-IO84B Installation and User Guide

.

3.8 MD-D04B

The MD-D04B is an optional reader expansion board that adds 4 readers, 4 relay outputs and
4 supervised inputs to the access control panel. Attach the MD-D04B to the AC-425x-B's
expansion slot, as marked in red in Figure 9.

For more information, see the

MD-D04B Installation and User Guide

.

Input and Output Connections

AC-425x-B Hardware Installation and User Manual 21

4. Input and Output Connections

This chapter describes the AC-425x-B access control panel's input and output connections.

4.1 Input Types

There are four input types:

 Normally Closed (N.C.)
 Normally Open (N.O.)
 Single EOL resistor
 Double EOL resistor

Inputs IN1, IN2, IN3, and IN4 may be configured individually as either supervised or non­supervised inputs. Use the AxTraxNG system to configure each input separately.

Non-supervised inputs have two states:

 Normal
 Abnormal

Supervised inputs have three states:

 Normal
 Abnormal
 Trouble

The Trouble state is caused by either tampering with the input circuit or by faulty hardware
installation. Once an input is configured as a supervised input, add a resistor of 2.2 kΩ, of 8.2
kΩ, or both on the input circuit. See the following diagrams.

4.1.1 Normally Open Input Connection

A Normally Open Input has 2 states:

 Switch Open – Normal State:

Loop resistance = Infinite (open circuit)

 Switch Closed – Abnormal State:

Loop resistance = 0 (short circuit)

Input and Output Connections

22 AC-425x-B Hardware Installation and User Manual

Figure 10: Normally Open Input Connection

4.1.2 Normally Closed Input Connection

A Normally Closed Input has two states:

 Switch Closed – Normal State:

Loop resistance = 0 (short circuit)

 Switch Open – Abnormal State:

Loop resistance = Infinite (open circuit)

Figure 11: Normally Closed Input Connection

4.1.3 Normally Open Supervised Single EOL Resistor Input Connection

Connect an 8.2 kΩ resistor in parallel to the input switch contacts.

A Normally Open Supervised Input has 3 states:

 Switch Open – Normal State:

Loop resistance = 8.2 kΩ

 Switch Closed – Abnormal State:

Input and Output Connections

AC-425x-B Hardware Installation and User Manual 23

Loop resistance = 0 (short circuit)

 Open circuit across input terminals – Trouble State:

Loop resistance = Infinite (open circuit).

Figure 12: Normally Open Supervised Input (Single Resistor)

4.1.4 Normally Open Supervised Double EOL Resistor Input Connection

Connect a 2.2 kΩ resistor in series to the input switch contacts.

Connect an 8.2 kΩ resistor parallel to the input switch contacts.

A Normally Open Supervised Input has 3 states:

 Switch Open – Normal State:

Loop resistance = 10.4 kΩ

 Switch Closed – Abnormal State:

Loop resistance = 2.2 kΩ

 Open circuit (infinite loop resistance) or short circuit (0 resistance) across input terminals

– Trouble State

Figure 13: Normally Open Supervised Input (Double Resistor)

Input and Output Connections

24 AC-425x-B Hardware Installation and User Manual

4.1.5 Normally Closed Supervised Single EOL Resistor Input Connection

Connect a 2.2 kΩ resistor in series to the input switch contacts.

A Normally Closed Supervised Input has 3 states:

 Switch Closed – Normal State:

Loop resistance = 2.2 kΩ

 Switch Open – Abnormal State:

Loop resistance = Infinite (open circuit)

 Short circuit across input terminals – Trouble State:

Loop resistance = 0 (short circuit)

Figure 14: Normally Closed Supervised Input (Single Resistor)

4.1.6 Normally Closed Supervised Double EOL Resistor Input Connection

Connect a 2.2 kΩ resistor in series to the input switch contacts.

Connect an 8.2 kΩ resistor parallel to the input switch contacts.

A Normally Closed Supervised Input has 3 states:

 Switch Closed – Normal State:

Loop resistance = 2.2 kΩ

 Switch Open – Abnormal State:

Loop resistance = 10.4 kΩ

 Open circuit (infinite loop resistance) or short circuit (0 resistance) across input terminals

– Trouble State

Input and Output Connections

AC-425x-B Hardware Installation and User Manual 25

Figure 15: Normally Closed Supervised Input (Double Resistor)

4.2 Inputs Description

4.2.1 Request-to-Exit Button (REX) Input

Use the REX input to open a door directly. Typically, the REX input is connected to a Normally
Open push button that is located inside the premises. The push button is generally located in
an easy-to-access position and opens a door without reading a proximity card or PIN code.

Scenario

Setting

Two readers per door

Door 1 – IN 1

Door 2 – IN 2

One reader per door

Door 1 – IN 1

Door 2 – IN 2

Door 3 – IN 3

Door 4 – IN 4

REX input functions when using MD-D04B:

Scenario

Setting

Two readers per door

Door 1 – IN1

Door 2 – IN2

Door 5 – IN5

Door 6 – IN6

One reader per door

Door 1 – IN1

Door 2 – IN2

Door 3 – IN3

Door 4 – IN4

Door 5 – IN5

Door 6 – IN6

Door 7 – IN7

Input and Output Connections

26 AC-425x-B Hardware Installation and User Manual

Door 8 – IN8

4.2.2 Door Monitor Input

The Door Monitor input typically connects to a Normally Closed door sensing micro-switch for
door status monitoring. Using Door Monitor enables many advanced options such as door
forced alarm, door held open warnings, interlocking doors and more. Door monitor feature is
only available when the system is defined as a two reader per door. The following should be
defined:

Scenario

Setting

Two readers per door

Door 1 – IN3

Door 1 – IN4

Dedicated Input functions when using MD-D04B:

Scenario

Setting

Two readers per door

Door 1 – IN3

Door 2 – IN4

Door 3 – IN7

Door 4 – IN8

4.2.3 General Purpose Inputs

These are free inputs that can be used for various functions. This function is only available
with the MD-IO84B expansion. The following should be defined:

Scenario

Setting

Single door controller

Door 1 – IN 2

Door 1 – IN 2A

Double door controller

(no general purpose inputs available)

General purpose inputs are suitable for most uses. For example, they might be used to detect
tampering, to activate alarm sensors, or to monitor a power supply failure.

General purpose input functions when using MD-IO84B or MD-D04B:

Unit

Expansions

MD-IO84B

IN5 to IN12

MD-D04B

IN5 to IN8 except the dedicated inputs

Input and Output Connections

AC-425x-B Hardware Installation and User Manual 27

4.3 Outputs

Rosslare Security recommends the use of suppression diodes for all outputs that activate an
inductive load.

4.3.1 Door Lock

There are two types of door locking devices:

 Fail open (fail secure)
 Fail close (fail safe)

The following should be defined:

Scenario

Setting

Two readers per door

Door 1 – OUT 1

Door 2 – OUT 2

One reader per door

Door 1 – OUT 1

Door 2 – OUT 2

Door 3 – OUT 3

Door 4 – OUT 4

Door outputs when using MD-D04B:

Scenario

Setting

Two readers per door

Door 1 – OUT 1

Door 2 – OUT 2

Door 3 – OUT 5

Door 4 – OUT 6

One reader per door

Door 1 – OUT 1

Door 2 – OUT 2

Door 3 – OUT 3

Door 4 – OUT 4

Door 5 – OUT 5

Door 6 – OUT 6

Door 7 – OUT 7

Door 8 – OUT 8

The output can sink current from any power supply (see Section 3.4).

For UL installations, the installer must configure the system as fail-safe to comply with NFPA
(National Fire Protection Association) regulations.

Input and Output Connections

28 AC-425x-B Hardware Installation and User Manual

4.4 Card Readers and Keypads

Each access control panel can be connected to a maximum of four readers or 8 readers when
using MD-D04B. There are three available types of reader:

 Card readers
 Keypads
 Dual keypad card readers

A keypad is required for any reader mode that requires PIN code entries, such as "Card or
PIN", "PIN Only" or "Card and PIN (Secured mode)".

When connecting a reader, the following should be defined:

Scenario

Setting

Two readers per door

Door 1 – Reader 1 IN/OUT

Door 1 – Reader 3 IN/OUT

Door 2 – Reader 2 IN/OUT

Door 2 – Reader 4 IN/OUT

One readers per door

Door 1 – Reader 1 IN/OUT

Door 2 – Reader 2 IN/OUT

Door 3 – Reader 3 IN/OUT

Door 4 – Reader 4 IN/OUT

When using the MD-D04B, the following should be defined:

Scenario

Setting

Two readers per door:

Door 1 – Reader 1 IN/OUT

Door 1 – Reader 3 IN/OUT

Door 2 – Reader 2 IN/OUT

Door 2 – Reader 4 IN/OUT

Door 3 – Reader 5 IN/OUT

Door 3 – Reader 7 IN/OUT

Door 4 – Reader 6 IN/OUT

Door 4 – Reader 8 IN/OUT

One readers per door:

Door 1 – Reader 1 IN/OUT

Door 2 – Reader 2 IN/OUT

Door 3 – Reader 3 IN/OUT

Door 4 – Reader 4 IN/OUT

Door 5 – Reader 5 IN/OUT

Door 6 – Reader 6 IN/OUT

Door 7 – Reader 7 IN/OUT

Input and Output Connections

AC-425x-B Hardware Installation and User Manual 29

Scenario

Setting

Door 8 – Reader 8 IN/OUT

Use the AxTraxNG software to set the readers for IN or OUT use and to set the data
transmission format for each reader.

The reader’s tamper output connects to the access control panel's Reader-Tamper input. If the
reader is interfered with, an alarm can be generated.

The panel's Reader G.LED output activates the reader’s green LED input when operating in

"Card and PIN" secure mode. While this mode is in force, users must enter a PIN on the
keypad immediately after entering the card.

The controller activates the LED control for 2 seconds when an access granted event occurs.

AC-425x-B Hardware Settings

30 AC-425x-B Hardware Installation and User Manual

5. AC-425x-B Hardware Settings

5.1 DIP Switch Configuration

The DIP switches in the access control panel determine the baud rates for serial
communication, control panel type, and the device address, as summarized in Table 1.

Table 1: DIP Switches and Their Functions

DIP Switch

Function

1

The panel's communication baud rate

2

3

The panel type defines the number of readers for each door – one or
two readers per door. This also affects the number of doors
controlled by the panel.

4

The access control panel's RS-485 network address

5

6

7

8

Power down the access control panel before changing the DIP switch settings.

After changes have been made, restart the panel. The new settings are automatically defined after
power up.

In general, the up position is ON and the down position is OFF as demonstrated in Figure 16.

Figure 16: DIP Switches

1 2 3 4 5 6 7

8

AC-425x-B Hardware Settings

AC-425x-B Hardware Installation and User Manual 31

5.2 AC-425x-B Panel Baud Rate

The AC-425x-B panel serial port baud rate, set in DIP switches 1 and 2, defines the
communication speed for connecting with a PC in a network connection.

The default baud rate is set to 9600 bits per second.

Table 2 lists the status of Switches 1 and 2 and the baud rate:

Table 2: Switch Baud Rates

Switch 1

Switch 2

Baud Rate

Off

Off

9600

Off

On

19200

On

Off

115200

On

On

57600

The access control panel baud rate must be identical to the AxTraxNG Network configuration of
baud rate.

5.3 AC-425x-B Panel Type

The AC-425x-B panel type is defined using the third DIP switch. There are two panel types: a
panel with one reader per each door or a panel with two readers per each door. This DIP
switch setting influences the number of readers per door in the panel.

The default AC-425x-B panel setting is for two readers per each door.

 Off – Defines using two readers for each door. Panel controls two or four doors when

MD-D04B is installed.

 On – Using one reader for each door. Panel controls four doors or eight doors when

MD-D04B installed.

Select the appropriate DIP switch setting to operate the panel as either a single door, a
double door, or four doors (see Section 5.3).

Access control panels, configured as either single door or double door controllers, have two
readers, IN or OUT. Access control panels configured with the MD-D04B expansion as either
double door or four-door controllers have four readers.

Table 3: Possible Hardware Settings

Connectors

Description

Setup

Two readers per door:

Outputs

Door 1 Lock output

(OUT 1)

Door 2 Lock output

(OUT 2)

General purpose output

(OUT 3)

AC-425x-B Hardware Settings

32 AC-425x-B Hardware Installation and User Manual

Connectors

Description

Setup

General purpose output

(OUT 4)

Inputs

Door 1: Request to exit

(IN 1)

Door monitor input

(IN 3)

Door 2: Request to exit

(IN 2)

Door monitor input

(IN 4)

Readers

Reader1 – Door1

Door Entry or Exit

Reader2 – Door2

Door Exit or Entry

Reader3 – Door1

Door Entry or Exit

Reader4 – Door2

Door Exit or Entry

One reader per door:

Outputs

Door1 Lock output

(OUT 1)

Door2 Lock output

(OUT 2)

Door3 Lock output

(OUT 3)

Door4 Lock output

(OUT 4)

Inputs

Door1 Request to exit

(IN 1)

Door2 Request to exit

(IN 2)

Door3 Request to exit

(IN 3)

Door4 Request to exit

(IN 4)

Readers

Reader1

(Door1 IN/OUT)

Reader2

(Door2 IN/OUT)

Reader3

(Door3 IN/OUT)

Reader4

(Door4 IN/OUT)

Two readers per door with 8 readers (MD-D04B):

Outputs

Door1 Lock output

(OUT 1)

Door2 Lock output

(OUT 2)

Door3 Lock output

(OUT 5)

Door4 Lock output

(OUT 6)

Inputs

Door1 Request to exit

(IN 1)

Door1 monitor input

(IN 3)

Door2 Request to exit

(IN 2)

Door2 monitor input

(IN 4)

Door3 Request to exit

(IN 5)

Door3 monitor input

(IN 7)

Door4 Request to exit

(IN 6)

Door4 monitor input

(IN 8)

AC-425x-B Hardware Settings

AC-425x-B Hardware Installation and User Manual 33

Connectors

Description

Setup

Readers

Reader1

(Door1 IN/OUT)

Reader2

(Door2 OUT/IN)

Reader3

(Door1 IN/OUT)

Reader4

(Door2 OUT/IN)

Reader5

(Door3 IN/OUT)

Reader6

(Door4 OUT/IN)

Reader7

(Door3 IN/OUT)

Reader8

(Door4 OUT/IN)

One reader per door with 8 readers (MD-D04B)

Outputs

Door1 Lock output

(OUT 1)

Door2 Lock output

(OUT 2)

Door3 Lock output

(OUT 3)

Door4 Lock output

(OUT 4)

Door5 Lock output

(OUT 5)

Door6 Lock output

(OUT 6)

Door7 Lock output

(OUT 7)

Door8 Lock output

(OUT 8)

Inputs

Door1 Request to exit

(IN 1)

Door2 Request to exit

(IN 2)

Door3 Request to exit

(IN 3)

Door4 Request to exit

(IN 4)

Door5 Request to exit

(IN 5)

Door6 Request to exit

(IN 6)

Door7 Request to exit

(IN 7)

Door8 Request to exit

(IN 8)

Readers

Reader1

(Door1 IN/OUT)

Reader2

(Door2 OUT /IN)

Reader3

(Door3 IN/OUT)

Reader4

(Door4 OUT /IN)

Reader5

(Door5 IN/OUT)

Reader6

(Door6 OUT /IN)

Reader7

(Door7 IN/OUT)

Reader8

(Door8 OUT /IN)

AC-425x-B Hardware Settings

34 AC-425x-B Hardware Installation and User Manual

5.4 AC-425x-B Panel Address

The last five DIP switches are used to set the binary code of the access control panel internal
network address. The default access control panel address is “1”.

For successful communications, the DIP switch must match the address set in the AxTraxNG
software.

Table 4 displays the 32 address settings available:

AC-425x-B Hardware Settings

AC-425x-B Hardware Installation and User Manual 35

Table 4: Available Panel Addresses

Address

Switch 4

Switch 5

Switch 6

Switch 7

Switch 8

1

OFF

OFF

OFF

OFF

OFF 2 OFF

OFF

OFF

OFF

ON 3 OFF

OFF

OFF

ON

OFF 4 OFF

OFF

OFF

ON

ON 5 OFF

OFF

ON

OFF

OFF 6 OFF

OFF

ON

OFF

ON

7

OFF

OFF

ON

ON

OFF

8

OFF

OFF

ON

ON

ON

9

OFF

ON

OFF

OFF

OFF

10

OFF

ON

OFF

OFF

ON

11

OFF

ON

OFF

ON

OFF

12

OFF

ON

OFF

ON

ON

13

OFF

ON

ON

OFF

OFF

14

OFF

ON

ON

OFF

ON

15

OFF

ON

ON

ON

OFF

16

OFF

ON

ON

ON

ON

17

ON

OFF

OFF

OFF

OFF

18

ON

OFF

OFF

OFF

ON

19

ON

OFF

OFF

ON

OFF

20

ON

OFF

OFF

ON

ON

21

ON

OFF

ON

OFF

OFF

22

ON

OFF

ON

OFF

ON

23

ON

OFF

ON

ON

OFF

24

ON

OFF

ON

ON

ON

25

ON

ON

OFF

OFF

OFF

26

ON

ON

OFF

OFF

ON

27

ON

ON

OFF

ON

OFF

28

ON

ON

OFF

ON

ON

29

ON

ON

ON

OFF

OFF

30

ON

ON

ON

OFF

ON

31

ON

ON

ON

ON

OFF

32

ON

ON

ON

ON

ON

AC-425x-B Hardware Settings

36 AC-425x-B Hardware Installation and User Manual

The AC-425x-B panel address is defined in the AxTraxNG software.

The DIP switch and the software must be set to the same address.

Communications

AC-425x-B Hardware Installation and User Manual 37

6. Communications

Communication lines are used to upload and download information between the AC-425x-B
panel and the AxTraxNG server. When the access control panel and the computer are
communicating, the system’s two LEDs flash accordingly.

 The RX LED flashes when the controller receives data
 The TX LED flashes when the controller transmits data

The access control panel address is defined in the AxTraxNG software.

It is important that the DIP switch and the software are set to the same address.

There are three connection modes:

 Serial Network with RS-232
 Serial Network with RS-485
 TCP/IP Network (AC-425IP-B model only)

6.1 Serial Network Connection

The computer serial port controlling the access control panel is set from within the AxTraxNG
server. The default bitrate is 9600 bps for direct connection to the computer.

When using an RS-232 connector, only one access control panel can be linked to each
communication port on the computer. Use an RS-485 connection if you wish to connect
additional panels to the primary control panel already connected to the COM port.

The J1 switch must be set to the correct position to select the RS-232 communication.

6.1.1 RS-232 Connection to the Computer

Set the J1 switch to the RS-232 position.

The RS-232 connection can only connect a single access control panel to the computer (Figure

17).

Figure 17: RS-232 Panel Connection to PC

Communications

38 AC-425x-B Hardware Installation and User Manual

The distance between the computer and the access control panel must be no more than 150
feet (50 meters).

If the baud rate is increased to 57600 or beyond, the distance must be no more than 30 feet
(10 meters).

Table 5: RS-232 Connection

Access Control Panel

DB9 Connector

DB25 Connector

GND

Pin 5

Pin 7

Tx

Pin 2

Pin 3

Rx

Pin 3

Pin 2

6.1.2 RS-485 Connection to the Computer

Set the J1 switch to the RS-485 position.

Using the RS-485, up to 32 access control panels can be linked together and connected to a
single communication port on the computer (Figure 18).

Figure 18: RS-485 Panel Connection to PC

Use the RS-485 interface for situations where there are multiple controllers connected. The
serial port used to control the access control panel is assigned within the AxTraxNG software.

The AC-425x-B supports the 2-wire RS-485 interface, which can significantly increase the
distance between the server and the last panel. To use the RS-485 interface, the panels must
be connected in a daisy-chain formation with an MD-14U RS-485 to RS-232 adapter
(Section 6.1.3).

Communications

AC-425x-B Hardware Installation and User Manual 39

The recommended cable type to be used is STP cat5 (shielded twisted pair category 5). We
recommend using a 20-24-AWG cable.

6.1.3 Daisy Chaining

You can connect up to 32 panels to a single serial line using a daisy-chain formation, which is
done by drop-down RS-485 wiring (Figure 19).

Figure 19: Daisy Chaining

This can increase the maximum distance from the PC to the last panel in the chain to 4,000 ft
(1,219.2 m).

The first panel is connected directly to the server using an MD-14U converter, while the
second panel connects to the first panel. Additional panels are connected in the same way,
one after another. The server identifies each panel on the RS-485 network by its address.

At each end of the data line, both where the panel connects to the computer and on the last
panel in the network, a termination resistor of 100–120 Ω may be required. Apply the resistor
across the L1 and L2 connections.

These termination resistors are especially important in long cable runs.

Communications

40 AC-425x-B Hardware Installation and User Manual

6.2 TCP/IP Network Connection

This section applies to the AC-425IP-B model only.

The computer running the AxTraxNG software can communicate with the access control
panels via a TCP/IP network. The connection settings are controlled within the AxTraxNG
software.

AC-425x-B panels connect to the TCP/IP network (LAN or WAN) directly, using an onboard
network module. When an access control panel network is connected using RS-485, up to 32
panels can be connected on each TCP/IP network.

6.2.1 LAN and WAN Requirements

The devices can be connected to a TCP/IP network using any valid network address.

The AC-425IP-B panels connect to the TCP/IP network (LAN or WAN) directly, using an
onboard network module. For each AC-425IP-B panel connected on a TCP/IP port, up to 31
subnetworked panels can be connected via an RS-485 bus, which means that one IP port can
support up to 32 AC-425IP-B panels (Figure 20).

Figure 20: MD-N32 Configuration Connecting a Single Panel

To connect to a TCP/IP network using AC-425 non-IP models, add Rosslare's MD-N32 TCP/IP
to RS-232 gateway converter.

For more information on operating an MD-N32, refer to the

MD-N32 User Manual

.

Communications

AC-425x-B Hardware Installation and User Manual 41

6.2.2 LAN and WAN Requirements

The devices can be connected to a TCP/IP network using any valid network address.

Use a TCP/IP connection when a LAN network already exists. Figure 21 illustrates the
connection of a single AC-425IP-B to a computer via a LAN network.

Figure 21: Connecting a Single Control Panel with MD-N32

The maximum distance from the Ethernet port of the panel to the LAN/WAN connection is
100 m (330 ft).

When the TCP/IP connection is implemented over a WAN, it becomes possible to connect
through the Internet. This makes it possible to control multiple access control panels
worldwide, all from a single computer.

Before connecting a panel by TCP/IP connection for the first time, the AxTraxNG software
must configure the device. Settings then remain stored in non-volatile memory on the device
(see the AxTraxNG Software Manual).

When using an MD-N32, for a single panel, either an RS-232 cable or Rosslare's MD-14U RS­485 to RS-232 converter can be used.

To connect an MD-N32 to more than one panel (up to 32 panels), Rosslare's MD-14U RS-485
to RS-232 converter must be used. Connect the MD-14U between the RS-485 access control
panel network and the MD-N32 converter (Figure 22).

Figure 22: Connecting Multiple Access Control Panels with MD-N32

Declaration of Conformity

42 AC-425x-B Hardware Installation and User Manual

A. Declaration of Conformity

FCC ID = GCD-AC215x xxxx

 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.

 Changes or modifications not expressly approved by the party responsible for

compliance could void the user's authority to operate the equipment.

This equipment has been tested and found to comply with the limits for a Class B 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:

 Reorient or relocate the receiving antenna.
 Increase the separation between the equipment and receiver.
 Connect the equipment into an outlet on a circuit different from that to which the

receiver is connected.

 Consult the dealer or an experienced radio/TV technician for help.

Radio Equipment Directive (RED)

AC-425x-B Hardware Installation and User Manual 43

B. Radio Equipment Directive (RED)

Under our sole responsibility that the following labeled AC-425-Bx, AC-425-DIN, AC-4215IP-Bx,
and AC-425IP-DIN are tested to conform to the EU Radio Equipment Directive – RED
2014/53/EU – in electrical and electronic equipment.

RoHS Directive

44 AC-425x-B Hardware Installation and User Manual

C. RoHS Directive

Under our sole responsibility that the following labeled AC-425-Bx, AC-4215-DIN, AC-425IP-Bx,
and AC-425IP-DIN are tested to conform to the Restriction of Hazardous Substances (RoHS)
directive – 2011/65/EU – in electrical and electronic equipment

Limited Warranty

AC-425x-B Hardware Installation and User Manual 45

D. Limited Warranty

The full ROSSLARE Limited Warranty Statement is available in the Quick Links section on the
ROSSLARE website at www.rosslaresecurity.com.

Rosslare considers any use of this product as agreement to the Warranty Terms even if you do
not review them.

0706-0960668+00

Product

No.

Asia Pacific, Middle East,

Africa

Rosslare Enterprises Ltd.

Kowloon Bay, Hong Kong

Tel: +852 2795-5630

Fax: +852 2795-1508

support.apac@rosslaresecurity.com

United States and Canada

Rosslare Security Products, Inc.

Southlake, TX, USA

Toll Free: +1-866-632-1101

Local: +1-817-305-0006

Fax: +1-817-305-0069

support.na@rosslaresecurity.com

Europe

Rosslare Israel Ltd.

22 Ha'Melacha St., P.O.B. 11407

Rosh HaAyin, Israel

Tel: +972 3 938-6838

Fax: +972 3 938-6830

support.eu@rosslaresecurity.com

Latin America

Rosslare Latin America

Buenos Aires, Argentina

Tel: +54-11-4001-3104

support.la@rosslaresecurity.com

China

Rosslare Electronics (Shenzhen) Ltd.

Shenzhen, China

Tel: +86 755 8610 6842

Fax: +86 755 8610 6101

support.cn@rosslaresecurity.com

India

Rosslare Electronics India Pvt Ltd.

Tel/Fax: +91 20 40147830

Mobile: +91 9975768824

sales.in@rosslaresecurity.com

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