Rosslare AYCQ6X55 User Manual

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AYC-x6355 Series

CSN SELECT Smart Card Readers/Controllers

Installation and User Manual

Models:

AYC-H6355 AYC-M6355 AYC-Q6355

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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 DOCUMENT ARE SUBJECT TO THE PROTECTION OF COPYRIGHT LAWS AND OTHER LEGAL RIGHTS WORLDWIDE. THEIR USE, REPRODUCTION, AND TRANSMITTAL TO THIRD PARTIES WITHOUT EXPRESS WRITTEN PERMISSION MAY 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.

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Table of Contents

1. Introduction ................................................................ 9

1.1 Installation Kit ....................................................................... 10

1.2 Ancillary Equipment .............................................................. 10

1.2.1 Function as a Reader ..................................................................... 10

1.2.2 Function as a Controller ................................................................ 10

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

3. Mounting ................................................................... 13

4. Wiring Instructions ................................................... 15

4.1 Wiring the Unit as a Reader ................................................... 15

4.2 Wiring the Unit as a Controller ............................................... 16

5. OSDP Operation ......................................................... 19

6. Reader Functionality ................................................. 21

6.1 Transmit Mode ..................................................................... 21

6.2 Programming as a Reader ...................................................... 21

6.2.1 Entering Programming Mode ........................................................ 23

6.2.2 Exiting Programming Mode .......................................................... 23

6.2.3 Selecting Keypad Transmission Format ......................................... 24

6.2.4 Selecting Proximity Card Transmission Format .............................. 29

6.2.5 Changing the Programming Code ................................................ 33

6.2.6 Changing the Facility Code ........................................................... 34

6.3 Setting the Backlight ............................................................. 34

6.4 Return to Factory Default Settings .......................................... 35

6.5 Replacing a Lost Programming Code ...................................... 35

7. Controller Functionality............................................ 36

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Table of Contents

7.1 Normal, Secure, and Master Users .......................................... 36

7.2 Modes of Operation .............................................................. 37

7.2.1 Normal Mode ............................................................................... 37

7.2.2 Bypass Mode ................................................................................ 37

7.2.3 Secure Mode ................................................................................ 38

7.2.4 Changing the Modes of Operation ............................................... 38

7.3 Auxiliary Input and Output..................................................... 39

7.4 Door Alarms ......................................................................... 39

7.5 Internal Case and Back Tamper .............................................. 40

7.6 Lockout Feature (Keypad/Card Tamper) .................................. 40

7.7 REX Function ........................................................................ 40

7.8 Secured Intelligent Power Supply ........................................... 41

7.9 Programming as a Controller ................................................. 41

7.9.1 Entering Programming Mode ........................................................ 43

7.9.2 Exiting Programming Mode .......................................................... 43

7.9.3 Changing Lock Strike Code .......................................................... 44

7.9.4 Changing Auxiliary Code .............................................................. 45

7.9.5 Changing the Programming Code ................................................ 46

7.9.6 Changing the Normal/Secure Code .............................................. 46

7.9.7 Changing the Normal/Bypass Code and Door Chime Settings ...... 47

7.9.8 Setting Fail Safe/Secure Operation, Tamper Siren and Lock Strike

Release Time ................................................................................. 48

7.9.9 Defining the Auxiliary Input and Output ....................................... 49

7.9.10 Auxiliary Mode Reference Guide ................................................... 50

7.9.11 Setting the Lockout Feature .......................................................... 53

7.9.12 Setting the Backlight Behavior ...................................................... 54

7.9.13 Setting the Bell Button (*) Behavior .............................................. 54

7.9.14 Enrolling Primary and Secondary Codes ........................................ 55

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Table of Contents

7.9.15 Deleting Primary and Secondary Codes ......................................... 58

7.9.16 Relay Codes Assignment ............................................................... 61

7.9.17 Relay Code Assignment using Standard Method .......................... 61

7.9.18 Relay Code Assignment using Search Method .............................. 62

7.9.19 PIN Code Length/Factory Default Settings ..................................... 63

7.9.20 Replacing a Lost Programming Code ............................................ 64

7.9.21 Exiting Secure Mode if Normal/Secure Code was Lost................... 65

A. Declaration of Conformity........................................ 66

B. Limited Warranty ...................................................... 67

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List of Figures

Figure 1: Removing the Top Cover .................................................................. 13

Figure 2: Controller Application Wiring Diagram ............................................. 17

Figure 3: Auxiliary Output Connection with Internal Power ............................. 18

Figure 4: Auxiliary Output Connection with External Power............................. 18

Figure 5: DIP Switch Compartment .................................................................. 19

Figure 6: DIP Switch Settings ........................................................................... 20

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List of Tables

Table 1: Wiring the Unit as a Reader to a Control Panel .................................. 15

Table 2: Wiring the Unit as a Controller........................................................... 16

Table 3: Reader Programming Menus .............................................................. 22

Table 4: Keypad Transmission Format Option Number .................................... 25

Table 5: Proximity Card Transmission Format Option Number ......................... 30

Table 6: Controller Programming Menu .......................................................... 42

Table 7: Quick Reference Guide for Auxiliary Mode Setting ............................. 50

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Introduction

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.

EFORE 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 noncompliance, 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).

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Introduction

1. Introduction

The CSN SELECT AYC-x6355 is a series of multi-credential technology contactless smart card readers with keypad for use in access control system solutions and includes Rosslare’s convertible technology.

CSN SELECT readers have the capability to read the Card Serial Number (CSN) from many smart card RFID Standards implementations. The following list shows the credential technologies for which we have confirmed compatibility:

 ISO14443A – MIFARE® Ultralight® Nano / EV1/ C, MIFARE

Classic® / Classic EV1, MIFARE Plus® S / SE / X / EV1, MIFARE DESFire® EV1 / EV2, NFC N-TAG / Card Emulation

 ISO14443B - China National ID

 ISO15693 – HID® iClass®, PicoPass, iCode, LEGIC  ISO18092 – SONY® FeliCa® (Hong Kong Octopus)

This list is continuously updated, for the latest compatibility list contact your sales representative.

The standard readers output the Wiegand CSN data in Wiegand 26-Bit format. Other Wiegand formats are available upon request.

With Rosslare’s convertible technology, the unit automatically determines whether to function as a reader or as a controller. If the unit is connected to a standard access control unit, then it functions as a reader. If the unit is connected to Rosslare's secured intelligent power supply such as the PS-A25T, PS-C25T or PS-C25TU, it functions as a secured controller.

As controllers, the units accept up to 500 users, and allow entry via a personal identification number (PIN) and/or by presenting a proximity card. The PIN code length for the controller has several options. The PIN code length can be a set number of 4, 5, or 6 digits or it can be a 4-8 digits option.

For information on how the unit functions as a reader, see Chapter 6. For information on how the unit functions as a controller, see

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Introduction

Chapter 7.

1.1 Installation Kit

The installation kit consists of the following items to be used during the installation procedure:

 1 self-adhesive mounting label template

 2 mounting screws and 2 screw anchors  1 pin Torx key tool

 1 pin Torx security screw

1.2 Ancillary Equipment

The following equipment is required to complete your installation:

1.2.1 Function as a Reader

 Compatible host controller (not supplied)

1.2.2 Function as a Controller

 Secured intelligent power supply (such as the PS-A25T, PS-C25T

or PS-C25TU) The controller connects to the following:

 Electric lock strike mechanism or a magnetic lock device,

which implements fail safe (power to lock) or fail secure (power to open) functions.

 REX button – Normally open type, switch is closed when

pressed.

 Door monitor switch

Rosslare accessories can be found on www.rosslaresecurity.com

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Technical Specifications

2. Technical Specifications

Electrical Characteristics

Power Supply Type

Operating Voltage Range

Current @ 12 V

Read Range*

Green LED Control**

Red LED Control**

Buzzer Control**

Tamper Output**

Maximum Cable Distance to Controller

Environmental Characteristics

Operating Temp. Range

Operating Humidity Range

Outdoor Usage

* Measured using a Rosslare MIFARE Classic EV1 (ISO Card). Read range with

other credential technologies may vary. Range also depends on electrical environment and proximity to metal.

** Control Lines are factory programmable and can be custom configured upon

request.

Regulated

8 to 16 VDC

AYC-H/M6355: Standby: 120 mA, max: 160 mA

AYC-Q6355: Standby: 145 mA, max: 200 mA

AYC-H/M6355: 9 cm (3.5 in.)

AYC-Q6355: 5 cm (2.5 in.)

Dry Contact, N.O.

Open collector, active low, max. sink current 16 mA

Wiegand: 150 m (500 ft) with 18-AWG cable OSDP (RS-485): 1,200 m (4,000 ft) with 2x2 18-

AWG twisted shielded cable

-35°C to 66°C (-31°F to 150°F)

0 to 95% (non-condensing)

Weather-resistant, UV-resistant, epoxy-potted, suitable for indoor and outdoor use

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Technical Specifications

Physical Characteristics

Dimensions (H x W x D)

Weight

AYC-H6355: 110.7 × 75.0 × 18.2 mm (4.4 x 3.0 x 0.7 in.)

AYC-M6355: 89.5 × 88.9 × 18.3 mm (3.5 x 3.5 x 0.7 in.)

AYC-Q6355: 120.0 × 76.0 × 21.5 mm (4.7 x 3.0 x 0.9 in.)

AYC-H6355: 185 g (6.5 oz)

AYC-M6355: 169 g (5.9 oz)

AYC-Q6355: 430 g (15.2 oz)

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Mounting

To mount the units:

3. Mounting

Before mounting, you should determine the best location for the reader.

1. Peel off the back of the self-adhesive mounting label template and place it at the required mounting location.

2. Using the template as a guide, drill two holes (sizes indicated on the template) used for mounting the back plate onto the surface.

3. Insert a suitable wall plug into each screw hole.

4. Drill a 10-mm (7/16”) hole for the cable. If mounting on metal, place a grommet or electrical tape around the edge of the hole.

5. Wire the reader as described in Chapter 4. A linear type power supply is recommended.

6. Remove the reader's snap-off front cover to reveal the two screw holes (see Figure 1).

Figure 1: Removing the Top Cover

The location of the screws varies depending on the model number of the reader.

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Mounting

7. Align the two holes of the reader with those drilled in the wall and firmly attach the reader to the wall with two screws, whose size is indicated on the template.

8. Relocate the front cover onto the reader.

The reader can also be moun ted using strong epoxy glue. After application, the reader should be firmly held in place until the glue dries

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Wiring Instructions

To connect the unit as a reader to an access control unit:

4. Wiring Instructions

An AYC-x6355 unit is supplied with a 10-conductor 22” (56-cm) pigtail.

4.1 Wiring the Unit as a Reader

If you connect the unit to a standard access control unit, it automatically functions as a reader.

1. Prepare the reader cable by cutting its jacket back about 3 cm (1¼”) and strip the insulation from the wires about 1.3 cm (½").

2. Prepare the controller cable by cutting its jacket back about 3 cm (1¼") and strip the insulation from the wires about 1.3 cm (½").

3. Splice the reader’s pigtail wires to the corresponding controller wires (as indicated in Table 1) and cover each joint with insulating tape.

Table 1: Wiring the Unit as a Reader to a Control Panel

Wire Color Output

Red Power

Black Ground

Green Data 0 / Data / C2

White Data 1 / Clock / C1

Orange Green LED control

Brown Red LED control

Purple Tamper Output

Yellow Buzzer control

Blue RS-485 - A / OSDP*

Gray RS-485 - B / OSDP*

* RS-485 is used for firmware update.

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Wiring Instructions

To connect the unit as a controller:

4. Trim and cover all unused conductors.

• The individual wires from the reader are color coded according the Wiegand standard.

• When using a separate power supply for the reader, this supply and that of the controller must have a common ground.

• The reader’s cable shield wire should be preferably attached to an earth ground, or a signal ground connection at the panel, or the power supply end of the cable. This configuration is best for shielding the reader cable from external interference.

4.2 Wiring the Unit as a Controller

If you connect the unit to a Rosslare PS-x25 secured power supply, it automatically functions as a controller.

1. Prepare the reader cable by cutting its jacket back about 3 cm (1¼”) and strip the insulation from the wires about 1.3 cm (½").

2. Prepare the PS-x25 secured power supply’s cable by cutting its jacket back about 3 cm (1¼") and strip the insulation from the wires about 1.3 cm (½").

3. Splice the controller pigtail wires to the corresponding PS-x25 secured power supply’s wires (as indicated in Table 2) and cover each joint with insulating tape.

Table 2: Wiring the Unit as a Controller

Controller Color Functionalit y Note

12 VDC Red +DC Input Wired to the PS-x25

Shield/ Ground Black Ground Wired to the PS-x25

C 1 White Communication Wired to the PS-x25

C 2 Green Communication Wired to the PS-x25

AUX. IN Yellow Auxiliary Input Wired to input

4. Trim and cover all unused conductors.

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Wiring Instructions

To connect the unit to the desired power supply option, refer to the following wiring diagrams.

Figure 2 shows the wiring for the Controller Application using a dual relay secured intelligent power supply.

Figure 2: Controller Application Wiring Diagram

This wiring diagram is for reference only. Please wire according to actual PS- x25 samples.

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Wiring Instructions

Figure 3 shows the auxiliary output connection using the internal power.

Figure 3: Auxiliary Output Connection with Internal Power

Figure 4 shows the auxiliary output connection using external power.

Figure 4: Auxiliary Output Connection with Exter nal Power

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OSDP Operation

5. OSDP Operation

• In OSDP mode, all control lines (Inputs/Outputs) are disabled.

• In OSDP mode, if a connection is not established or lost with the

controller, the LED flashes orange continuously.

CSN SELECT readers that support OSDP operation are compatible with all reader-related OSDP commands. The reader address is set using DIP switches on the back of the reader.

Release the screw on the back of the reader to remove the door to access the DIP switches (Figure 5).

Figure 5: DIP Switch Compartment

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OSDP Operation

Figure 6 shows the DIP switch settings, which are also described below.

Figure 6: DIP Switch Settings

DIP Switch 1

This switch is used to select the reader output (Wiegand or OSDP):

 Off = Wiegand  On = OSDP

DIP Switch 2

This switch is reserved for future use.

DIP Switch 3

This switch is reserved for future use.

DIP Switches 4 to 8

These switches set the address of the reader for OSDP protocol. DIP Switch 4 is MSB and DIP Switch 8 is LSB. The address is the DIP

switch state +1. Examples:

 All the DIP switches in Off position, address = 1

 All the DIP switches in On position, address = 32

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Reader Functionality

Red

Green

6. Reader Functionality

Upon power on, the unit flashes red, then green, and then orange, each for 1 second and a beep is heard for each color. The unit searches for the presence of Rosslare's secured intelligent power supply. If a secured intelligent power supply is not detected, the unit is automatically configured as a reader.

6.1 Transmit Mode

The default mode of the reader is Transmit mode. In Transmit mode, the unit is ready to receive data from a presented proximity card or an entered PIN code.

When the reader is in Transmit mode, the left LED is red and the right LED is off.

When a proximity card is presented or a keypad entry is being transmitted, the left LED flashes green.

Keypad data can be sent via one of eight different Keypad Transmission Formats (see Section 6.2.3).

Proximity cards presented to the reader are sent in either various Wiegand formats or Clock & Data format (see Section 6.2.4).

6.2 Programming as a Reader

Programming is done solely via the unit's keypad driven Programming Menu System. During the manufacturing process, certain codes and settings are pre-programmed. These settings are called the default factory settings.

Table 3 shows the names of all the reader menus. Default factory settings are marked by a "*" sign.

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Reader Functionality

Table 3: Reader Pr ogramming Menus

Menu Description Default

1 Selecting Keypad Transmission Format

Single Key, 6-Bit Wiegand (Rosslare Format) Single Key, 6-Bit Wiegand with Nibble + Parity Bits Single Key, 8-Bit Wiegand, Nibbles Complemented 4 Keys Binary + Facility Code, Wiegand 26-Bit 1 to 5 Keys + Facility Code, Wiegand 26-Bit 6 Keys BCD and Parity Bits, Wiegand 26-Bit 1 to 8 Keys BCD, Clock & Data Single Key, Wiegand 4-Bit

2 Selecting Card Transmission Format

Wiegand 26-Bit Clock & Data Wiegand 32-Bit Wiegand 32-Bit Reversed Byte Wiegand 34-Bit Wiegand 40-Bit Wiegand 56-Bit Wiegand 64-Bit

3 Changing the Programming Code 1234

4 Changing the Facility Code 0

6 Backlight Options

Off On (Default) Off until key press when on for 10 seconds Dimmed until key press when on for 10 seconds

0 Return to Factory Default Settings

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Reader Functionality

To enter Programming mode:

To exit Programming mode:

Wrong entries may reset the reader back to Transmit mode. If no

Red

Green

Red

6.2.1 Entering Programming Mode

To reach the Programming Menu System, the unit must first be placed into Programming mode.

• The factory 4-digit Programming code is 1234.

• If a Programming code is not entered within 20 seconds, the unit

returns to Transmit mode.

1. Press # four times.

The left LED turns off and the right LED turns red.

2. Enter your 4-digit Programming code.

If the Programming code is valid, the right LED turns green.

If the Programming code is invalid, you hear a long beep and the reader returns to Transmit mode.

6.2.2 Exiting Programming Mode

1. Press # to exit Programming mode at any time.

 You hear a beep.  The left LED turns red and the right LED

turns off.

This indicates that the unit has returned to Transmit mode.

key is pressed for 20 seconds while in Programming mode, the unit exits Programming mode and returns to Transmit mode.

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Reader Functionality

To select the appropriate keypad transmission format:

Green

Red

Green

Red

6.2.3 Selecting Keypad Transmission Format

The AYC-x6355 has nine different keypad transmission formats.

See Table 4 in Section 6.2.3.1 for more information on keypad transmission formats.

• Only one keypad transmission format can be active at any one time.

• When using the keypad transmission format "1 to 8 keys BCD, Clock & Data" (Option 8), an additional input is required to specify the number of keys in the PIN code.

1. Enter Programming mode.

2. Press 1 to enter Menu 1.

The left LED turns red.

3. Enter the appropriate option number for the keypad transmission format that you wish to select.

You hear three beeps. The system returns to Transmit mode.

If an incorrect option number is entered, the reader returns to Transmit mode and the keypad transmission format remains unchanged.

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Reader Functionality

6.2.3.1 Keypad Transmission Format Option Number

Table 4 presents the eight different keypad transmission formats.

Table 4: Keypad Transmission Format Option Number

Keypad Transmission Format Option Number

Single Key, Wiegand 6-Bit (Rosslare Format) 1*

Single Key, Wiegand 6-Bit with Nibble + Parity Bits 2

Single Key, Wiegand 8-Bit, Nibbles Complemented 3

4 Keys Binary + Facility Code, Wiegand 26-Bit 4

1 to 5 Keys + Facility Code, Wiegand 26-Bit 5

6 Keys BCD and Parity Bits, Wiegand 26-Bit 6

1 to 8 Keys BCD, Clock & Data Single Key 8

Single Key, Wiegand 4-Bit 9

* Option 1 is the default factory setting.

More information on each of the different keypad transmission formats is available below and on the following pages.

Option 1: Single Key, Wiegand 6-Bit (Rosslare Format)

Each key press immediately sends 4 bits with 2 parity bits added – even parity for the first 3 bits and odd parity for the last 3 bits.

0 = 1 1010 0 ="A" in Hexadecimal 6 = 1 0110 0 1 = 0 0001 0 7 = 1 0111 1 2 = 0 0010 0 8 = 1 1000 1 3 = 0 0011 1 9 = 1 1001 0 4 = 1 0100 1 5 = 1 0101 0 # = 0 1100 1 ="C" in Hexadecimal

= 1 1011 1 ="B" in Hexadecimal

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Reader Functionality

Option 2: Single Key, Wiegand 6-Bit Nibble and Parities

Each key press immediately sends 4 bits with 2 parity bits added – even parity for the first 3 bits and odd parity for the last 3 bits.

0 = 0 0000 1 6 = 1 0110 0 1 = 0 0001 0 7 = 1 0111 1 2 = 0 0010 0 8 = 1 1000 1 3 = 0 0011 1 9 = 1 1001 0

4 = 1 0100 1 * = 1 1010 0 = "A" in Hexadecimal 5 = 1 0101 0 * = 1 1011 1 = "B" in Hexadecimal

Option 3: Single Key, Wiegand 8-Bit Nibbles Complemented

This option inverts the most significant bits in the message leaving the least 4 significant bits as a Binary Coded Decimal (BCD) representation of the key. The host system receives an 8-bit message.

0 = 11110000 6 = 10010110 1 = 11100001 7 = 10000111 2 = 11010010 8 = 01111000 3 = 11000011 9 = 01101001

4 = 10110100 * = 01011010 = "A" in Hexadecimal 5 = 10100101 # = 01001011 = "B" in Hexadecimal

Option 4: 4 Keys Binary + Facility Code, Wiegand 26-Bit

This option buffers 4 keys and outputs keypad data with a 3-digit Facility code like a standard 26-Bit card output.

The Facility code is set in Programming Menu number four and can be in the range 000 to 255. The factory default setting for the Facility code is 000 (see Section 6.2.6).

The keypad PIN code is 4-digit long and can range between 0000 and

9999. On the fourth key press of the 4-digit PIN code, the data is sent

across the Wiegand Data lines as binary data in the same format as a 26-Bit Card.

If * or # are pressed are pressed during PIN code entry, the keypad clears the PIN code entry buffer, generate a beep and is ready to receive a new 4-digit keypad PIN code.

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Reader Functionality

If the entry of the 4-digit keypad PIN code is disrupted and no number key is pressed within 5 seconds, the keypad clears the PIN code entry buffer, generates a beep and is ready to receive a new 4-digit keypad PIN code.

(EP) FFFF FFFF AAAA AAAA AAAA AAAA (OP) Where: EP = Even parity for first 12 bits

OP = Odd parity for last 12 bits F = 8-bit Facility code

A = 16-bit code generated from keypad

Option 5: 1 to 5 Keys + Facility Code, Wiegand 26-Bit

Option 5 buffers up to 5 keys and outputs keypad data with a Facility code like a 26-Bit card output.

The Facility code is set in Programming Menu number four and can be in the range 000 to 255. The factory default setting for the Facility code is 000 (see Section 6.2.6).

The keypad PIN code can be one to five digits in length and can range between 1 and 65,535. When entering a keypad PIN code that is less than 5 digits in length, # must be pressed to signify the end of PIN code entry. For keypad PIN codes that are 5 digits in length, on the fifth key press of the 5-digit PIN code, the data is sent across the Wiegand Data lines as binary data in the same format as a 26-Bit Card.

If * is pressed during PIN code entry or a PIN code greater than 65,535 is entered, the keypad clears the PIN code entry buffer, generates a beep and is ready to receive a new 5-digit keypad PIN code.

If the entry of the 1- to 5-digit keypad PIN code is disrupted and a number key or # is not pressed within 5 seconds, the keypad clears the PIN code entry buffer, generates a medium length beep and is ready to receive a new 1- to 5-digit keypad PIN code.

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Reader Functionality

(EP) FFFF FFFF AAAA AAAA AAAA AAAA (OP) Where:

EP = Even parity for first 12 bits OP = Odd parity for last 12 bits

F = 8-bit Facility code A = 16-bit code generated from keypad

Option 6: 6 Keys BCD and Parity Bits, Wiegand 26-Bit

Option 6 sends buffer of 6 keys, adds parity and sends a 26-Bit Binary BCD message. Each key is a four bit equivalent of the decimal number.

The keypad PIN code must be 6 key presses long. On the sixth key press of the 6-digit PIN code, the data is sent across the Wiegand Data lines as a BCD message.

If the entry of the 6-digit keypad PIN code is disrupted and no number key is pressed within 5 seconds, the keypad clears the PIN code entry buffer, generates a medium length beep and is ready to receive a new 6-digit keypad PIN code.

(EP) AAAA BBBB CCCC DDDD EEEE FFFF (OP) Where: EP = Even parity for first 12 bits

OP = Odd parity for last 12 bits

A = The first key entered D = Fourth key entered

B = Second key entered E = Fifth key entered

C = Third key entered F = Sixth key entered

Option 8: 1 to 8 Keys BCD, Clock & Data

Buffers up to 8 keys and outputs keypad data without a Facility code like standard Clock and Data card output.

The keypad PIN code can be one to eight digits in length. The PIN code length is selected while programming the reader for Option 8. The reader transmits the data when it receives the last key press of

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To select the Proximity Card Transmission format:

Green

Red

Green

the PIN code. The data is sent across the two data output lines as binary data in Clock & Data format.

If * or # key is pressed during PIN code entry, the keypad clears the PIN code entry buffer, generates a beep, and is ready to receive a new keypad PIN code.

If the entry of the digit keypad PIN code is disrupted and a number key or # is not pressed within 5 seconds, the keypad clears the PIN code entry buffer, generates a medium length beep, and is ready to receive a new keypad PIN code.

When using the keypad transmission format "1 to 8 keys BCD, Clock & Data" (Option 8) an additional input is required to specify the number of keys in the PIN code.

Option 9: Single Key, Wiegand 4-Bit

Each key press immediately sends 4 bits of data, with no parity bits added.

0 = 0000 6 = 0110 1 = 0001 7 = 0111 2 = 0010 8 = 1000 3 = 0011 9 = 1001 4 = 0100 * = 1010 ="A" in Hexadecimal 5 = 0101 # =1011 ="B" in Hexadecimal

6.2.4 Selecting Proximity Card Transmission Format

There are eight different proximity card transmission formats.

See Table 4 in Section 6.2.3.1 for more information on keypad transmission formats.

1. Enter Programming mode.

2. Press 2 to enter Menu 2.

The left LED turns red.

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Red

3. Enter the appropriate option number for the proxy card transmission format that you wish to select:

 Option 1: Wiegand 26-Bit  Option 2: Clock & Data

 Option 3: Wiegand 32-Bit  Option 4: Wiegand 32-Bit Reversed Byte  Option 5: Wiegand 34-Bit

 Option 6: Wiegand 40-Bit  Option 7: Wiegand 56-Bit

 Option 8: Wiegand 64-Bit

You hear three beeps. The system returns to Transmit mode.

6.2.4.1 Proximity Card Transmission Format Option Number

Table 5 presents the nine different keypad transmission formats.

Table 5: Proximity Card Transmission Format Option Number

Proximity Card Transmission Format Option Number

Wiegand 26-Bit 1*

Clock & Data 2

Wiegand 32-Bit 3

Wiegand 32-Bit Reversed Byte 4

Wiegand 34-Bit 5

Wiegand 40-Bit 6

Wiegand 56-Bit 7

Wiegand 64-Bit 8

* Option 1 is the default factory setting.

More information on each of the different keypad transmission formats is available below and on the following pages.

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Option 1: Wiegand 26-Bit

In this mode, 3 LSB bytes from the card serial number (UID) are transmitted in Wiegand 26-Bit format. Two parity bits are added. An even parity bit is sent first, followed by three bytes of card data, and by an odd parity bit.

(EP) AAAA AAAA AAAA AAAA AAAA AAAA (OP)

Where: EP = Even parity for first 12 bits

OP = Odd parity for last 12 bits A = 3 bytes code generated from card data

Option 2: Clock and Data

In this mode, up to 6 bytes of the card serial number are transmitted in Clock & Data format.

Option 3: Wiegand 32-Bit

In this mode, 4 LSB bytes from the card serial number are transmitted in Wiegand 32-Bit format. No parity bits are added.

AAAA AAAA BBBB BBBB CCCC CCCC DDDD DDDD

Where: A = 4

Option 4: Wiegand 32-Bit Reversed Byte

In this mode, 4 LSB bytes from card serial number are transmitted in Wiegand 32-bit format. Bytes are sent in reversed order. The LSB part of the card serial number is sent first and the MSB byte is sent last. No parity bits are added.

(MSB) byte of card serial number

B = 3

byte of card serial number

C = 2

byte of card serial number

D = 1

(LSB) byte of card serial number

DDDD DDDD BBBB BBBB CCCC CCCC AAAA AAAA

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Where: D = 1st (LSB) byte of card serial number

C = 2

byte of card serial number

B = 3

byte of card serial number

A = 4

(MSB) byte of card serial number

Option 5: Wiegand 34-Bit

In this mode, 4 LSB bytes of card serial number are transmitted in Wiegand 34-Bit format. Bytes are sent in reversed order. The LSB part of the card serial number is sent first and the MSB byte is sent last. An even parity is sent first, followed by 32-Bit data and an odd parity bit.

(EP) AAAA AAAA BBBB BBBB CCCC CCCC DDDD DDDD (OP)

Where: EP = Even parity for first 16 data bits

OP = Odd parity for last 16 data bits

A = 4

(MSB) byte of card serial number

B = 3

byte of card serial number

C = 2

byte of card serial number

D = 1

(LSB) byte of card serial number

Option 6: Wiegand 40-Bit

In this mode, 4 LSB bytes of card serial number are transmitted in Wiegand 40-Bit format. Bytes are sent in reversed order. The LSB part of card serial number is sent first. The last byte sent is a Checksum byte generated by adding 4 data bytes and discarding the remainder beyond 8 bytes.

AAAA AAAA BBBB BBBB CCCC CCCC DDDD DDDD (CSUM)

Where: A = 4

(MSB) byte of card serial number

B = 3

byte of card serial number

C = 2

byte of card serial number

D = 1

(LSB) byte of card serial number

CSUM = Checksum value, 1 byte (A+B+C+D)

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To change the Programming code:

Green

Red

Green

Red

Option 7: Wiegand 56-Bit

In this mode, 7 bytes of card serial number are transmitted in Wiegand 56-Bit format. No parity bits are added.

AAAA AAAA BBBBBBBB CCCCCCCC DDDDDDDD EEEEEEEE FFFFFFFF GGGGGGGG

Option 8: Wiegand 64-Bit

In this mode, 8 bytes of card serial number are transmitted in Wiegand 64-Bit format. No parity bits are added.

AAAA AAAA BBBBBBBB CCCCCCCC DDDDDDDD EEEEEEEE FFFFFFFF GGGGGGGG HHHHHHHH

6.2.5 Changing the Programming Code

• The Programming code cannot be erased, meaning the code 0000 is invalid and does not erase the Programming code.

• The factory default 4-digit Programming code is 1234.

1. Enter Programming mode.

2. Press 3 to enter Menu 3.

The left LED turns red.

3. Enter the new 4-digit code you wish to set as the Programming code.

You hear three beeps.

The system returns to Transmit mode.

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To set the backlight behavior:

Green

Red

Green

Red

Green

Red

Green

Red

6.2.6 Changing the Facility Code

• The Facility code can be in the range of 000 to 255.

• The default Facility code is 0.

1. Enter Programming mode.

2. Press 4 to enter Menu 4.

The left LED turns red.

3. Enter the new 3-digit code you wish to set as the Facility code.

You hear three beeps. The system returns to Transmit mode.

6.3 Setting the Backlight

1. Enter Programming mode.

2. Press 6 to enter Menu 6.

The Transmit LED turns red.

3. Enter the appropriate option number for the backlight option that you wish to select:

 0 for always off

 1 for always on

 2 for 10 sec. backlight after a key is pressed otherwise off

 3 for 10 sec. backlight after a key is pressed otherwise

dimmed

You hear three beeps.

The system returns to Transmit mode.

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To return to factory default settings:

Green

Red Red

6.4 Return to Factory Default Settings

You must be very careful before using this command! This erases the entire memory and return all codes to their factory default setting.

1. Enter Programming mode.

2. Press 0 to enter Menu 0.

Both LEDs flash red.

3. Enter your 4-digit Programming code.

If the Programming code is valid, all memory is erased. You hear three beeps and the reader returns to Transmit mode.

If the Programming code is invalid, you hear a long beep and the reader returns to Transmit mode without erasing the memory of the reader.

6.5 Replacing a Lost Programming Code

In the event that the Programming code is forgotten, the AYC-x6355 can be reprogrammed in the field using the following instructions:

1. Remove power from the reader.

2. Activate tamper by removing the reader from the wall or removing the reader's case.

3. Apply power to the reader.

4. You now have 10 seconds to enter Programming mode using the factory default Programming code 1234.

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7. Controller Functionality

Upon power on or reset, the unit flashes red, then green, and then orange, each for 1 second and a beep is heard for each color. The unit searches for the presence of Rosslare's secured intelligent power supply. If a secured intelligent power supply is detected, the buzzer emits 2 short beeps and the unit is automatically configured as a secure access control unit. The LED returns to its idle state – either green (Normal mode), red (Secure mode), or orange (Bypass mode).

The Lock Strike and Auxiliary outputs, as well as the REX input, are not located on the unit, eliminating the possibility of unauthorized entry to the restricted area.

7.1 Normal, Secure, and Master Users

The unit accepts up to 500 users and provides entry via the use of PIN codes and/or proximity cards. Each user is provided with two code memory slots, Memory Slot 1 (Primary code) and Memory Slot 2 (Secondary code).

The PIN code length has several options. The PIN code length can be a set number of 4, 5 or 6 digits or it can be a 4–8 digits option. When choosing the 4- to 8-digit option, please note that you should either enter zeros before the code, or press pound at the end (for example, if your code is 12345, enter either 00012345 or 12345#).

Entering a code refers to either PIN or proximity card.

The way in which the two memory slots are programmed determines a user’s access level and also determines the way in which the unit grants access in its three modes of operation. There are three user levels:

 Normal

A Normal user only has a Primary code and is only granted access when the unit is in Normal or Bypass mode.

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Green

Orange

 Secure

A Secure user must have a Primary and Secondary code programmed; the two codes cannot be the same. The Secure user can gain access when the unit is in any of its three modes of operation. In Normal mode, the Secure user must use the Primary code to gain entry. In Secure mode, the Secure user must present both the Primary and Secondary codes to gain entry.

 Master

A Master user must have both Primary and Secondary codes programmed with the same PIN code. The Master User can gain access during any mode of operation by presenting the PIN code and/or proximity card one time to the controller. (The Master user is convenient but is less secure than a Secure user.)

7.2 Modes of Operation

There are three modes of operation:

7.2.1 Normal Mode

The left LED is green.

Normal mode is the default mode. In Normal mode, the door is locked until a Primary code is presented to the controller. Special codes such as Lock Strike code and Auxiliary code are active in Normal mode. See Sections 7.9.3 and 7.9.4 for more information on the Lock Strike and Auxiliary codes.

7.2.2 Bypass Mode

The left LED is orange.

In Bypass mode, access to the premises is dependent on whether the controller's Lock Strike Relay is programmed for Fail Safe Operation or Fail Secure Operation. When the Lock Strike is programmed for Fail Secure Operation, the door is locked until * is pressed. When the Lock Strike is programmed for Fail Safe Operation, the door is constantly unlocked. In Bypass mode, programmed user codes still function.

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To change from Normal to Secure mode:

To change from Secure to Normal mode:

Red

Green

Red

Green

7.2.3 Secure Mode

The left LED is red.

Only Secure and Master users can access the premises during the Secured mode.

A Secure user must enter the Primary and Secondary codes to gain entry. After entering their Primary code, the Door LED flashes green for 10 seconds, during which the Secondary code must be entered. A Master user only needs to present the code once to gain entry.

7.2.4 Changing the Modes of Operation

7.2.4.1 Changing from Normal Mode to Secure Mode

The default factory setting for the Normal/Secure code is 3838.

1. Enter the Normal/Secure code.

The left LED flashes red.

2. Press # to confirm the mode change.

The left LED stops flashing.

7.2.4.2 Changing from Secure Mode to Normal Mode

The default factory setting for the Normal/Secure code is 3838.

1. Enter the Normal/Secure code.

The left LED flashes green.

2. Press # to confirm the mode change.

The left LED stops flashing.

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To change from Normal to Bypass mode:

To change from Bypass to Normal mode:

Green

Orange

Green

7.2.4.3 Changing from Normal Mode to Bypass Mode

See Section 7.9.7 to create/modify the Normal/Bypass code.

1. Enter the Normal/Secure code.

The left LED flashes orange.

2. Press # to confirm the mode change.

The left LED stops flashing.

7.2.4.4 Changing from Bypass Mode to Normal Mode

See Section 7.9.7 to create/modify the Normal/Bypass code.

1. Enter the Normal/Secure code.

The left LED flashes green.

2. Press # to confirm the mode change.

The left LED stops flashing.

7.3 Auxiliary Input and Output

For optimum usability in different applications, the controller’s auxiliary input and output can be configured in ten different modes of operation.

7.4 Door Alarms

Door alarms can be generated by connecting the Auxiliary Input to a Door Position Switch. Either Door-Forced or Door-Ajar conditions are supported, as well as, a configurable delay timer for each alarm type. Only one door alarm is enabled at any one time. Door alarms may activate auxiliary output and siren depending on the auxiliary settings.

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7.5 Internal Case and Back Tamper

If the unit is forcibly opened or it is removed from the wall, a tamper event is triggered. A tamper output opens sending a to the connected Alarm system (purple wire) the event closes when the tamper is closed (case is re-closed or re-attached to the wall).

The tamper event can also activate the auxiliary output if the controller is in Auxiliary Mode 3 (see Table 7).

7.6 Lockout Feature (Keypad/Card Tamper)

If the controller is presented with wrong codes (PIN or card) consecutively several times, the unit goes into Lockout mode.

When a lockout occurs, the controller’s reader and keypad are deactivated so no codes can be entered until the set lockout period expires.

During Lockout mode, the left LED is Off, the right LED flashes red, and the controller beeps every two seconds.

7.7 24BREX Function

The REX button is connected to Rosslare’s secured intelligent power supply. The REX button must be located inside the premises to be secured and is used to open the door without the use of a code. It is usually located in a convenient location, such as inside the door or at a receptionist's desk. The function of the REX button depends on whether the Lock Strike Relay is programmed for Fail Safe Operation or Fail Secure Operation.

 Fail Secure Operation – From the moment the REX button is

pressed, the door is unlocked until the Lock Strike Release Time passes. After this time, the door is locked even if the REX button is not released.

 Fail Safe Operation – From the moment the REX button is

pressed, the door is unlocked until the REX button is released, plus the Lock Strike Release Time. In this case, the Lock Strike Relay only begins its count down once the REX button is released.

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7.8 Secured Intelligent Power Supply

Rosslare’s secured intelligent power supplies are designed for use with Rosslare's secured standalone access control units, including the AYC-x6355 series. The AYC-x6355 units are designed to operate indoors and are installed within the secured premises. The units must be used with one of Rosslare’s secured intelligent power supplies, which provides Lock Strike output and REX input. The AYC-x6355 and the power supply communicate through a proprietary Rosslare protocol, which provides a secure link between them. This in turn activates the door lock.

Each power supply unit contains a speaker connection for all sounder abilities. The sounder provides audible indications for the bell button (*), door chime, and siren. The functionality of these audible indications is programmable.

For more information, see the

PS-x25T Installation Manual

7.9 Programming as a Controller

Programming is done solely via the unit's keypad driven Programming Menu System. To reach the Programming Menu System, the unit must first be put into Programming mode (see Section 7.9.1).

During the manufacturing process, certain codes and settings are preprogrammed. These settings are the called the default factory settings.

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Table 6 shows the names of all Controller menus. It also shows of all the default factory codes and settings for the units.

Table 6: Controller Programming Menu

Menu Description Default

No.

1 Changing Lock Strike Code 2580 25802 258025 25802580

2 Change Auxiliary Code 0852 08520 085208 08520852

3 Changing Program Code 1234 12341 123412 12341234

4 Changing Normal/Secure Code 3838 38383 383838 38383838

5 Changing Normal/Bypass Code N/A

6 Changing Door Release Time 0004

Define auxiliary inputs/outputs 2004

Set Lockout 4000

Backlight Behavior 5100

Bell Button Behavior 7100

7 Enrolling PIN Code

8 Deleting PIN Code

9 Code Assignment with

Strike/Auxiliary

0 Return to Factory Defaults or

Change PIN Code Length

digits 5 digits

digits

4–8

digits

You will find a complete description and instructions for each of the above menu items on the following subsections.

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If a Programming Code is not entered within five seconds, the unit

To enter Programming mode:

To exit Programming mode:

Red

Green

7.9.1 Entering Programming Mode

• The unit must be in Normal mode to enter the Programming mode.

• The factory four digit Programming Code is 1234.

•

returns to Normal mode.

1. Press # twice.

The left LED turns off and the right LED turns red.

2. Enter your 4-digit Programming code.

The right LED turns green.

7.9.2 Exiting Programming Mode

1. Press # twice to exit Programming mode at any time.

You hear 3 beeps.

The left LED turns green and the right LED turns off.

Wrong entries reset the controller back to Normal mode.

While in Programming mode, if no key is pressed for one minute, the unit exits Programming mode and returns to Normal mode.

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To change the Lock Strike code:

Green

Red

Green

7.9.3 Changing Lock Strike Code

The Lock Strike code is mainly used as a method to quickly test the Lock Strike Relay during installation.

When the first user is added to the controller, the default Lock Strike code is automatically deleted. Once the code is programmed again, it is not deleted with the entry of additional user codes.

• Lock Strike Code 1 does not work in the Secure mode.

• Wrong entries returns the controller to Normal mode.

• Code 0000 erases the Lock Strike Code 1.

• The factory default 4-digit Lock Strike code is 2580.

1. Enter Programming mode.

2. Press 1 to enter Menu 1.

The left LED turns red.

3. Enter the new code you wish to set as Lock Strike Code 1.

You hear three beeps. The system returns to Normal mode.

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To change the Auxiliary code:

Green

Orange

Green

7.9.4 Changing Auxiliary Code

The Auxiliary code is mainly used as a method to quickly test the Auxiliary Relay during installation.

When the first user is added to the controller, the default Auxiliary code is automatically deleted. Once the code is programmed again, it is not deleted with the entry of additional user codes.

• Auxiliary code does not work in the Secure mode.

• Wrong entries return the controller to Normal mode.

• Code 0000 erases the Auxiliary code.

• The factory default 4-digit Auxiliary code is 0852.

1. Enter Programming mode.

2. Press 2 to enter Menu 2.

The left LED turns orange.

3. Enter the new code you wish to set as the Auxiliary code.

You hear three beeps.

The system returns to Normal mode.

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To change the Programming code:

To change the Normal/Secure code:

Green

Red

Green

7.9.5 Changing the Programming Code

• Programming code cannot be erased, meaning the code 0000 is not valid and does not erase the Programming code.

• The factory four-digit programming code is 1234.

1. Enter Programming mode.

2. Press 3 to enter Menu 3.

The left LED turns green.

3. Enter the new code you wish to set as the Programming code.

You hear three beeps. The system returns to Normal mode.

7.9.6 Changing the Normal/Secure Code

• Code 0000 erases the Normal/Secure code.

• This code is disabled if the Auxiliary Input is set to toggle between

Normal and Secure access modes.

• Default Normal/Secure code is 3838.

1. Enter Programming mode.

2. Press 4 to enter Menu 4.

The left LED flashes red.

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To change the Normal/Bypass code and door chime settings:

are four different ways to program the Normal/Bypass code

nable

Green

Orange

Green

3. Enter the new code you wish to set as Normal/Secure code.

You hear three beeps. The system returns to Normal mode.

7.9.7 Changing the Normal/Bypass Code and Door

Chime Settings

1. Enter Programming mode.

2. Press 5 to enter Menu 5.

The left LED flashes orange.

3. Enter the new code you wish to set as Normal/Secure code.

There and door chime.

 Enter the code 0000 to disable both

Bypass code and the door chime.

 Enter the code 0001 to disable the

Bypass code and enable the door chime.

 Enter any code ending with 0 to enable

the Bypass code and disable the door chime.

 Enter a code not ending with 0 to e

the Bypass code and enable the door chime.

You hear three beeps. The system returns to Normal mode.

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To set the Fail Safe/Secure Operation, Tamper Siren and Lock Strike Release Time:

Green

7.9.8 Setting Fail Safe/Secure Operation, Tamper Siren

and Lock Strike Release Time

• The default value is 0004, which corresponds to Fail Secure operation, no siren, and 4-seconds Lock Strike release time.

• When the siren is sounding, entering a valid Lock Strike code deactivates the siren until the next siren event.

1. Enter Programming mode.

2. Press 6 to enter Menu 6.

The left LED flashes green.

3. Construct a code using the following instructions:

 First digit

For Fail Secure Operation, the first digit should be 0.

For Fail Safe Operation the first digit should be 1.

 Second digit

Siren Time in minutes (1–9, 0 – disabled)

 Third and fourth digits

Enter the number of seconds (from 1 to 99) that you want the Lock Strike to be released.

For example, 0312 means a Fail Secure Operation consisting of a 3-minute siren and a 12-second Lock Strike release time.

You hear three beeps.

The system returns to Normal mode.

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To define the auxiliary input and output:

Green

7.9.9 Defining the Auxiliary Input and Output

1. Enter Programming mode.

2. Press 6 to enter Menu 6.

The left LED flashes green.

3. Construct a code using the following instructions:

 Second digit (Auxiliary Mode)

In addition to the Lock Strike Relay and Lock Strike REX, the unit features an Auxiliary Input. The Auxiliary mode defines the function of the Auxiliary Input.

 Third and fourth digits (Auxiliary Setting)

Each of the Auxiliary modes has a 2-digit setting that affects how the Auxiliary mode functions (Table 7).

You hear three beeps. The system returns to Normal mode.

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Table 7: Quick Reference Guide for Auxiliary Mode Setting

Aux. Mode

0 AUX REX Valid code or AUX

1 Normal/Secure

2 Normal/Secure

3 Normal/Secure

6 Door Monitor Forced door N.C. 01 to 99 Forced

7 Door Monitor Door ajar N.C.

Aux. Input Function

switch

Aux. Output Activated by

REX

Valid code N.O. 01 to 99 Aux. relay

Star button (*) N.O. 01 to 99 Aux. relay

Tamper event N.C. 01 to 99 Aux. relay

Aux.

Aux. Settings

Relay

(in seconds)

N.O. 01 to 99 Aux. relay

release time

delay

01 to 99 Ajar delay

7.9.10 Auxiliary Mode Reference Guide

The following are brief descriptions of each auxiliary mode. To implement the features of each mode, refer to Section 7.9.9.

7.9.10.1 Auxiliary Mode 0

Auxiliary input function: Activates the auxiliary output

Auxiliary output activated by: Valid user code, Auxiliary code, and

Auxiliary input For example, in Auxiliary Mode 0, the controller can function as a

2-door controller. The auxiliary relay is to be attached to the lock on the second door. The auxiliary setting defines the door open time for the second door. The auxiliary input is to be attached to the REX pushbutton for the second door. The Door Monitor input feature for the second door is not enabled when using this mode.

7.9.10.2 Auxiliary Mode 1

Auxiliary input function: Toggles Normal/Secure modes

Auxiliary output activated by: Valid user code, Auxiliary code

For example, in Auxiliary Mode 1, the controller can function as a 2-door controller. The auxiliary relay is to be attached to the lock on

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the second door. The REX feature for the second door is not enabled when using this mode.

The auxiliary setting defines the door open time for the second door. The auxiliary input can switch the mode of operation of the controller between Normal and Secure modes. By connecting a switch timer or alarm system output to the auxiliary input, the controller can be automatically switched from Normal mode (during office hours) to Secure mode (after office hours).

7.9.10.3 Auxiliary Mode 2

Auxiliary input function: Toggles Normal/Secure modes

Auxiliary output activated by: * Button

For example, in Auxiliary Mode 2, the auxiliary relay can function as a general purpose time switch that can be activated when * is pressed. The auxiliary setting establishes for how long the auxiliary relay is to be activated. The auxiliary input can switch the mode of operation of the controller between Normal and Secure modes. By connecting a switch timer or alarm system output to the auxiliary input, the controller can be automatically switched from Normal mode (during office hours) to Secure mode (after office hours).

7.9.10.4 Auxiliary Mode 3

Auxiliary input function: Toggles Normal/Secure modes

Auxiliary output activated by: Alarms

For example, in Auxiliary Mode 3, the auxiliary output is activated if the controller is tampered; that is, if the case is forcibly opened or removed from the wall. The auxiliary input can switch the mode of operation of the controller between Normal and Secure modes. By connecting a switch timer or alarm system output to the auxiliary input, the controller can be automatically switched from Normal mode (during office hours) to Secure mode (after office hours).

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7.9.10.5 Auxiliary Mode 6

Auxiliary input function: Door Monitor

Auxiliary output activated by: Forced entry

For example, in Auxiliary Mode 6, the controller can trigger the auxiliary relay if the door has been forced. If the siren settings are enabled, the siren is activated.

In this mode, the auxiliary input functions as a door monitor switch and is wired to the magnetic contact switch on the door. The auxiliary relay is to be wired to the alarm system. If the door is forced open, the controller waits for the period of the forced door delay time to elapse and then it activates the auxiliary relay. The auxiliary setting sets the forced door delay period.

7.9.10.6 Auxiliary Mode 7

Auxiliary input function: Door Monitor

Auxiliary output activated by: Door Ajar (door held open)

For example, in Auxiliary Mode 7, the controller can trigger the auxiliary relay if it detects that the door has been held open (ajar) too long. In this mode, the auxiliary input functions as a door monitor switch and is wired to the magnetic contact switch on the door. The auxiliary relay is to be wired to the alarm system. If the door is opened, the controller waits for the Door Ajar Delay time to elapse and if the door does not close prior to the end of this period, the controller activates the auxiliary relay. The auxiliary setting defines the Door Ajar Delay time.

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To set the lockout feature:

Green

7.9.11 Setting the Lockout Feature

If the controller is presented with wrong codes several times consecutively, the unit goes into Lockout mode.

When a lockout occurs, the controller keypad and reader are locked so no codes can be entered until the set lockout period expires. During Lockout, the left LED is Off, the right LED flashes red, and the controller beeps every two seconds.

The default setting for the Lockout Feature is 4000 (Lockout Disabled).

Using the lockout feature is highly recommended, especially when selecting to use short PIN code length (4 or 5 digits).

1. Enter Programming mode.

2. Press 6 to enter Menu 6.

The left LED flashes green.

3. Construct a code using the following instructions:

 Second digit

Set the number of wrong code attempts, which causes a Lockout between 0 and 9 attempts.

 Third and fourth digits

Sets the Duration of the lockout, between 00 and 99; the value is multiplied by ten, resulting in 0 to 990 seconds.

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Controller Functionality

To set the backlight behavior:

To set the bell button behavior:

Green

7.9.12 Setting the Backlight Behavior

The controller allows you to define the way the unit’s backlight works.

1. Enter Programming mode.

2. Press 6 to enter Menu 6.

The left LED flashes green.

3. Enter one of the following codes:

 5000 – Backlight off

 5100 – Backlight on (default)

 5200 – Backlight is off, activates for 10 seconds when a key

is pressed, after which it dims until off

 5300 – Backlight is dimmed, activates for 10 seconds when a

key is pressed, after which it returns to a dimmed level

7.9.13 Setting the Bell Button (*) Behavior

The controller allows you to enable or disable the bell button.

1. Enter Programming mode.

2. Press 6 to enter Menu 6.

The Mode LED flashes green.

3. Construct a code using the following instructions:

 7000 – Bell button Off

 7100 – Bell button On (default)

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7.9.14 Enrolling Primary and Secondary Codes

7.9.14.1 Primary Codes

 Primary codes can only be enrolled to an empty user slot,

meaning a slot where there is no existing Primary code.

 Primary codes must be unique, meaning one user’s Primary code

may not be the same as other user’s Primary code.

 Primary codes cannot be the same as any system codes, such as

the Normal/Secure code or Lock Strike code.

 Users who hold a Primary code can gain entry only during Normal

mode.

 Primary codes consisting of only zeros (such as ‘0000’) are not

allowed.

7.9.14.2 Secondary Codes

 Secondary codes can only be enrolled to a user slot that already

has a Primary code enrolled but has no Secondary code.

 Secondary codes do not have to be unique, meaning multiple

users can all hold the same Secondary code.

 Secondary codes cannot be the same as any system codes, such

as the Normal/Secure or Lock Strike codes.

 Users who hold Secondary codes can gain entry even in Secure

mode.

 Secondary codes consisting of only zeros (such as ‘0000’) are not

allowed.

7.9.14.3 Methods

There are two methods to enroll Primary and Secondary codes:

 Standard Method

The Standard Method is mainly used when the user slot number for the user you wish to program is known. You can program both Primary and Secondary codes using the Standard method (see Section 7.9.14.4).

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Controller Functionality

To enroll primary and secondary codes using the Standard method:

If the selected slot already has a Primary and

Green

Orange

Green

Orange

Red

Orange

Green

 Code Search Method

The Code Search Method is mainly used when enrolling a user’s Secondary code and the user slot code is unknown.

The Code Search method only works if a user’s Primary code is already enrolled but the Secondary code is not (see Section 7.9.14.5).

7.9.14.4 Enrolling Primary and Secondary Codes using

Standard Method

1. Enter Programming mode.

2. Press 7 to enter Menu 7.

The right LED turns orange.

3. Enter the 3-digit user slot number between 001 and 500 that you wish to enroll a Primary or Secondary code to.

For example, User Slot 003 represents User #3.

If the selected slot has no Primary code, the left LED flashes green, indicating that the controller is ready to accept a Primary code.

If the selected slot already has a Primary code but no Secondary code, the left LED flashes red, indicating that the controller is ready to accept a Secondary code.

Secondary code, you hear a long beep and the controller returns to Normal mode.

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Controller Functionality

To enroll secondary codes using the Code Search method:

Green

Orange

4. Perform one of the following:

 Enter the 4- to 8-digit PIN code that you

want to assign as the Primary or Secondary code for this slot number.

 Present your user card that you want to assign as the Primary

or Secondary code for this slot number.

If the PIN or user card presented is valid, the left LED stops flashing and the controller is ready for you to enter the next 3-digit slot number (refer to Step 3) for the slot to which you want to assign a code.

5. Do one of the following:

 Press # to move to the next available user slot number.

 Enter another 3-digit user slot number.

 If you do not wish to continue enrolling codes, press # twice

and the controller returns to Normal mode.

7.9.14.5 Enrolling Secondary Codes using Search Method

The Code Search feature enables you to quickly enroll a Secondary code to a user who already has a Primary code.

1. Enter Programming mode.

2. Press 7 to enter Menu 7.

The right LED turns orange.

Orange

3. Enter 000 as the 3-digit user slot number.

The right LED flashes orange.

The controller is now waiting for the Primary code of the user to whom you want to add a Secondary code.

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Controller Functionality

belonging to the user for whom you wish

to be used as

Red Orange

4. Perform one of the following:

 Enter the 4- to 8-digit PIN code

to add a Secondary code.

 Present the user card belonging to the user for whom you

wish to add a Secondary code.

The left LED flashes red.

If the Primary code entered is not valid, you hear a long beep and the unit continues to wait for a valid Primary code.

5. Perform one of the following:

 Enter the 4- to 8-digit code

the Secondary code.

 Present the user card to be used as the Secondary code.

If the Secondary code is valid, the controller beeps three times and returns to Normal mode.

If the Secondary code is invalid, the controller sounds a long beep, and the unit continues to wait for a valid Secondary code to be entered.

7.9.15 53BDeleting Primary and Secondary Codes

There are two methods to delete Primary and Secondary codes: the Standard Method and the Code Search Method.

When deleting a user slot, both the Primary code and the Secondary code are erased.

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To delete the Primary and Secondary codes using the Standard Method:

is empty, you hear a long beep

Green

Red

7.9.15.1 Deleting Primary and Secondary Codes using Standard

Method

It is recommended that a record be kept of added and deleted users so that it is easier to keep track of which user slots are empty and which user slots are not.

1. Enter Programming mode.

2. Press 8 to enter Menu 8.

The left LED turns red and the right LED turns orange.

Orange

3. Enter the 3-digit User Slot code you wish to delete.

The left LED flashes red indicating the controller is waiting for the Programming code to confirm the deletion.

If the user slot

Orange

and the unit returns to Normal mode.

4. Enter your 4-digit Programming code to confirm the deletion.

If the Programming code is valid, three beeps are heard and the controller returns to Normal mode.

If the Programming code is invalid, a long beep is heard and the controller returns to Normal mode.

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To delete the Primary and Secondary codes using the Code Search Method:

The controller is now waiting for the Primary code of the user you

Green

Red

Orange Red

Orange

7.9.15.2 Deleting Primary and Secondary Codes using Search

Method

It is recommended that a record be kept of added and deleted users so that it is easier to keep track of which user slots are empty and which user slots are not.

1. Enter Programming mode.

2. Press 8 to enter Menu 8.

The left LED turns red and the right LED turns orange.

Orange

3. Enter 000 as the 3-digit user slot number.

The right LED flashes orange.

want to delete.

4. Perform one of the following:

 Enter the 4- to 8-digit PIN code of the

Primary code belonging to the user you want to delete.

 Present the user card of the Primary code belonging to the

user you want to delete.

The left LED flashes red.

5. Enter your 4-digit Programming code to confirm the deletion.

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To assign relay code using the Standard method:

Green

Orange

Green

Orange

If the Programming code is valid, you hear three beeps and the unit returns to Normal mode.

If the Programming code is invalid, you hear a long beep and the unit returns to Normal mode.

7.9.16 Relay Codes Assignment

When a primary code is enrolled for any user, the user is authorized to activate the Lock Strike relay. However, different user codes may be set to operate the auxiliary relay instead or operate both the Lock strike and auxiliary relay. Assignment of such codes is achievable for any valid user code entered in the controller.

There are two methods to assign relay codes to users: a standard method and a search method.

7.9.17 Relay Code Assignment using Standard Method

1. Enter Programming mode.

2. Press 9 to enter Menu 9.

The left LED turns green and the right LED turns orange.

3. Enter the 3-digit user slot for code assignment.

The left LED flashes green.

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To assign relay code using the Search method:

Green

Orange

Green

Orange

4. Enter the assignment digit for the current user slot:

 1 activates the Lock Strike relay only default

 2 activates the Auxiliary relay only

 3 activates the Lock Strike and Auxiliary relays

If the assignment code is valid, the mode indicator stops flashing.

The controller is now waiting for another slot number.

5. Do one of the following:

 Press # to move to the next available user slot number.

 Enter another 3-digit user slot number.

 If you do not wish to continue enrolling codes, press # twice

and the controller returns to Normal mode.

7.9.18 Relay Code Assignment using Search Method

1. Enter Programming mode.

2. Press 9 to enter Menu 9.

The left LED turns green and the right LED turns orange.

3. Enter 000 for user slot access.

The right LED flashes orange.

The controller is now waiting for the primary code of the user.

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To change the PIN code length:

Green Orange

Green

4. Perform one of the following:

 Enter the 4- to 8-digit PIN code of the

Primary code belonging to the user you want to delete.

 Present the user card of the Primary code belonging to the

user you want to delete.

The left LED flashes green.

5. Enter the assignment digit for the current user slot:

 1 activates the Lock Strike relay only default

 2 activates the Auxiliary relay only

 3 activates the Lock Strike and Auxiliary relays

If the assignment digit is valid, three beeps are heard and the controller returns to Normal mode.

If the assignment digit is invalid, a long beep sounds and the controller waits for another assignment digit to be entered.

7.9.19 PIN Code Length/Factory Default Settings

You must be very careful before using this command! Changing the PIN code length also erases the entire memory contents, including all user and special codes, and return all codes to their factory default settings.

1. Enter Programming mode.

2. Select the desired PIN code length as follows:

 00 – Returns to factory defaults and sets a 4-digit code.

 05 – Returns to factory defaults and sets a 5-digit code.

 06 – Returns to factory defaults and sets a 6-digit code.

 08 – Returns to factory defaults and sets a 4- to 8-digit code

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To replace a lost Programming code:

Red Red

Both LEDs flash red.

3. Enter your 4-digit Programming code

If the Programming code is valid, all memory is erased. You hear three beeps and the controller returns to Normal mode.

If the Programming code is invalid, you hear a long beep and the controller returns to Normal mode without erasing the memory contents.

7.9.20 Replacing a Lost Programming Code

The unit must be in Normal mode; otherwise, this does not work. Make sure that the left LED is green before proceeding.

1. Remove power from the power supply unit.

2. Press the REX button on the power supply unit.

3. Apply power to the unit with REX button pressed.

4. Release the REX button.

5. You now have 10 seconds to program a new Programming code into the access control unit using the initial default code 1234, before the controller reverts to the existing code.

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To exit Secure mode if Normal/Secure Code was lost:

7.9.21 Exiting Secure Mode if Normal/Secure Code was

Lost

1. Remove power from the power supply unit.

2. Press the REX button on the power supply unit.

3. Apply power to the unit with the REX button pressed.

4. Release the REX button.

5. You now have 10 seconds to exit Secure mode using the initial default Normal/Secure code 3838.

6. Program a new normal/secure code as described in Section 7.9.6.

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Declaration of Conformity

A. Declaration of Conformity

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.

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Limited Warranty

B. 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.

AYC-x6355 (Rev. A) Installation and User Manual 67

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0706-0960600+02

Asia Pacific, Middle East, Africa

Rosslare Enterprises Ltd. Kowloon Ba y, 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. Rosh HaAyin, Israel Tel: +972-3-938-6838 Fax: +972-3-938-6830 support.eu@rosslaresecurity.com

AYC-x6355

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 -997576 8824 sales.in@rosslaresecurity.com