User's Manual
Table Of Contents
- 1. Introduction
- 2. Technical Specifications
- 3. Mounting
- 4. Wiring Instructions
- 5. OSDP Operation
- 6. Reader Functionality
- 6.1 Transmit Mode
- 6.2 Programming as a Reader
- 6.3 Setting the Backlight
- 6.4 Return to Factory Default Settings
- 6.5 Replacing a Lost Programming Code
- 7. Controller Functionality
- 7.1 Normal, Secure, and Master Users
- 7.2 Modes of Operation
- 7.3 Auxiliary Input and Output
- 7.4 Door Alarms
- 7.5 Internal Case and Back Tamper
- 7.6 Lockout Feature (Keypad/Card Tamper)
- 7.7 REX Function
- 7.8 Secured Intelligent Power Supply
- 7.9 Programming as a Controller
- 7.9.1 Entering Programming Mode
- 7.9.2 Exiting Programming Mode
- 7.9.3 Changing Lock Strike Code
- 7.9.4 Changing Auxiliary Code
- 7.9.5 Changing the Programming Code
- 7.9.6 Changing the Normal/Secure Code
- 7.9.7 Changing the Normal/Bypass Code and Door Chime Settings
- 7.9.8 Setting Fail Safe/Secure Operation, Tamper Siren and Lock Strike Release Time
- 7.9.9 Defining the Auxiliary Input and Output
- 7.9.10 Auxiliary Mode Reference Guide
- 7.9.11 Setting the Lockout Feature
- 7.9.12 Setting the Backlight Behavior
- 7.9.13 Setting the Bell Button (*) Behavior
- 7.9.14 Enrolling Primary and Secondary Codes
- 7.9.15 Deleting Primary and Secondary Codes
- 7.9.16 Relay Codes Assignment
- 7.9.17 Relay Code Assignment using Standard Method
- 7.9.18 Relay Code Assignment using Search Method
- 7.9.19 PIN Code Length/Factory Default Settings
- 7.9.20 Replacing a Lost Programming Code
- 7.9.21 Exiting Secure Mode if Normal/Secure Code was Lost
- A. Declaration of Conformity
- B. Limited Warranty
Reader Functionality
AYC-x6355 (Rev. A) Installation and User Manual 31
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
th
(MSB) byte of card serial number
B = 3
rd
byte of card serial number
C = 2
nd
byte of card serial number
D = 1
st
(LSB) byte of card serial number
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.
DDDD DDDD BBBB BBBB CCCC CCCC AAAA AAAA