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Apollo AAN-1 Hardware Manual

Advanced electronic controller for access control systems
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AAN-1 & AAN-2
Hardware Manual
Revision Date: 19 OCT 2011
This manual contains confidential information and
may only be reproduced or distributed with the
written consent of Apollo Security Sales, Inc.
© 2011 Apollo Security Inc.

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Summary of Contents for Apollo AAN-1

  • Page 1 AAN-1 & AAN-2 Hardware Manual Revision Date: 19 OCT 2011 This manual contains confidential information and may only be reproduced or distributed with the written consent of Apollo Security Sales, Inc. © 2011 Apollo Security Inc.
  • Page 2 Apollo Security, Inc. While every precaution has been taken in the preparation of this document, Apollo Security assumes no responsibility for errors or omissions, or for damages resulting from the use of information contained in this document or from the use of programs and source code that may accompany it.
  • Page 3 IMPORTANT INFORMATION W A R N I N G HIGH VOLTAGE, AC MAIN POWER SHOULD ONLY BE CONNECTED BY QUALIFIED, LICENSED ELECTRICIANS. ALL APPLICABLE LAWS AND CODES MUST BE FOLLOWED. IF THIS PRECAUTION IS NOT OBSERVED, PERSONAL INJURY OR DEATH COULD OCCUR Power should not be applied to the system until after the installation has been completed.

  • Page 4: Table Of Contents

    AAN-1 & AAN-2 Hardware Manual Table of Contents Part I Introduction 1 Overview ........................... 2 2 General Features ........................... 2 3 Modes Of Operation ........................... 3 4 Programming Host ........................... 4 Part II Hardware Layout 1 Terminal Connectors ........................... 7 2 DIP Switches ...........................
  • Page 5 ........................... 49 2 Reader / Keypad ........................... 50 3 Input Zones ........................... 50 4 Output relays ........................... 50 Part VI Specifications Part VII Supplemental Figures Part VIII Table of Figures Part IX Revision History Index © 2011 Apollo Security Inc.

  • Page 6: Part I Introduction

    Part Introduction...

  • Page 7: Overview

    The AAN-1/2 works through connection to a host programming device (PC computer with a database interface application), which defines configuration for the two built-in reader interfaces. The connections between the AAN-1/2 and host can be made via Ethernet TCP/IP (AAN-1/2N) or RS-232 or RS-485 serial connection (AAN-1/2S).

  • Page 8: Modes Of Operation

    Unlocked—Door strike is continuously energized and the door contact input is not monitored. Access is not controlled. o Facility Code—The entire card contents are read by the AAN-1/2, but only the Facility Code is checked, and if it matches a Facility Code downloaded from the programming host, access is granted.

  • Page 9: Programming Host

    AAN-1/2. Once programmed, the AAN-1/2 will continue to function without connection to the host. A record of all actions that happen while there is no connection is stored in the memory of the AAN (limited by the capacity of the memory) for reporting at a later time when connection with the host has been re-established.
  • Page 10 Part Hardware Layout...

  • Page 11: Part Ii Hardware Layout

    Hardware Layout Hardware Layout Figure 2.1 AAN-1/2 Diagram. Terminal connectors, DIP switch, output relays, device port driver connection, and other component locations are shown. © 2011 Apollo Security Inc.

  • Page 12: Terminal Connectors

    AAN-1 & AAN-2 Hardware Manual Terminal Connectors The AAN-1/2 has three terminal blocks for connecting power, reader and alarm inputs, and relay output connections. The AAN-2 is equipped with a fourth terminal block for an additional relay. The connection terminals are factory equipped with removable screw-down quick connectors which are easily removed from the board by firmly grasping the connector and pulling away from the board.

  • Page 13: Dip Switches

    Table 2.1: AAN-1/2 Terminal Connections. DIP Switches The AAN-1/2 has one block of DIP switches, with 8 switches. These switches are used to set various configuration options for the interface. It is recommended to power the board down before making any changes in the DIP switch settings as any changes will not take effect unless the power is cycled.

  • Page 14: Dip Switch Tables

    AAN-1 & AAN-2 Hardware Manual 2.2.1 DIP Switch Tables Communications Address (SW1) Baud Rate Input Monitor Mode 1200 Unsupervised 2400 Supervised 4800 9600 Table 2.2: AAN-1/2 DIP Switch Settings © 2011 Apollo Security Inc.

  • Page 15: Dip Switch Function

    This setting must be specified in the host software in able to identify the device. A maximum of 16 AAN-1/2 devices can be installed on one communication line (RS-485), with each having a unique address (between 0-31). The communications address must also be specified in the host software when the AAN-1/2 is connected though a network.

  • Page 16: Device Port Communication Driver Socket

    Module Installation - The desired module should be installed so the long end extends towards the middle of the board and the mounting holes provided on the AAN-1/2 and ASM or ENI align so a plastic stand-off and screws can be attached to connect the holes. METAL SCREWS AND STANDOFFS SHOULD NOT BE USED TO MOUNT THE ASM/ENI.

  • Page 17: Normal Operation

    Firmware The operating program for the AAN-1/2 is stored in re-programmable flash memory. In the event that the firmware must be re-installed or updated, no chips need to be replaced on the panel. The new program can be loaded from the host via special software.

  • Page 18: Additional Installation Information

    Additional Installation Information 2.7.1 Mounting Holes Four holes are provided for mounting the AAN-1/2. Standoffs should be used when mounting in order to protect the underside of the circuit board. Figure 2.7.1 AAN-1/2 Mounting Holes. Location of mounting holes for the AAN-1/2 is shown in scale.
  • Page 19 Part System Wiring...

  • Page 20: Part Iii System Wiring

    Power Power Connection: TB8 Power is supplied to the AAN-1/2 by the voltage connection in terminal block 8 (see Part 2.1 for exact locations of terminals). The power connection should be 12-24 VDC. Power consumption is 250 mA. The AAN-1/2 is protected from over-current and over-voltage by onboard circuitry.

  • Page 21: Safety (Earth) Ground

    Please check the applicable regulations and legislation in your country prior to installing the AAN-1/2 controller and other Apollo products. In the US, the National Electrical Code, as well as other safety regulations, require that all equipment chassis and/or enclosures be grounded in order to prevent electrical shock hazards.

  • Page 22: Host Communication Connection

    Typically, the communication will be from a standard 16550 UART COM-port on a PC which will be connected directly to the AAN-1/2 in the case of RS-232 or through the use of an adapter or add-on PC card to achieve the RS-485 signal. The communications wiring must cross-over from the PC to the panel as shown in Figure 3.3.1.

  • Page 23: Network

    3.3.2 Network For connection from the host to the AAN-1/2, an ENI-100 Network Interface Module is used. The ENI-100 acts as a standard Ethernet network device and occupies one IP address (see Part 4 for programming instructions). The connection from the ENI to the network is made by a standard RJ-45 jack. A standard UTP network cable should be connected from the ENI-100 to the local network via a network switch, hub or other network connection device.

  • Page 24: Eni-100

    Figure 3.3.2.1: ENI-100 Hardware Layout 3.3.2.1.2.1 Connectors TTL Serial Connector 12-pin connector located on the underside of the ENI used for connection to port J4 on the AAN-1/2N. Communication AND power are supplied through this connector. RJ-485 Jack For communication to the network backbone a standard RJ-45 female connector is provided. The ENI-100/110 communicates at 10 or 100Mbs over standard Ethernet networks.

  • Page 25: 3.3.2.1.3 Communication Configuration

    Do not preface the address with “www”. You should see the following screen where the username and password must be entered. The default username/password is blank, thus if it was not previously modified, simply click on “ENI Configuration”. © 2011 Apollo Security Inc.
  • Page 26 "Program" button to save the settings. Clicking "Reset" will change all parameters on the page to their previous values. ENI-100 Parameters: AAN-1/2 Standard Settings - The italicized settings below will need to be set for standard configuration for use with the AAN-1/2. Other settings may be necessary or desired, according to your configuration:...
  • Page 27 8080 were used, it would be necessary to specify this port in addition to the IP address such as entering in the browser address bar: http://192.168.10.177:8080. Connection: Select either a TCP or UDP connection. TCP communication is used for AAN-1/2 to host communication. Required: TCP...

  • Page 28: Card Reader Wiring

    AAN-1/2 power input. There must be sufficient power to supply the load of all readers as well as for the AAN-1/2 itself (+12 to +24VDC @ 250 mA). If the readers have a greater total power requirement, or if there are other wiring concerns, external power supplies should be used to power the readers.
  • Page 29 Ground Table 3.4.1: AAN-1/2 Reader 1 Wiring. The AAN-1/2 supports up to two card readers which are connected in standard configuration. For each reader connection there is a door contact input, exit push button input and one axillary input which is displayed here connected to a motion sensor. Refer to the Terminal Connectors table and the installation instructions for the reader that will be used for exact wiring positions.

  • Page 30: Reader Input Wiring

    NOTE: ATM-30 end of line resistors (or an equivalent substitute) are designed to work with the AAN-1/2 supervision values on STANDARD AAN-1/2 interfaces. The AAN-1/2 is available by special order with custom resistor values. In the case of improper function of the supervision, verify what type of AAN-1/2 is installed in the system.

  • Page 31: Door Contact Input (Door Position Switch)

    System Wiring Figure 3.5 Input Supervision. The AAN-1/2 reader inputs can be configured for Supervised or Unsupervised. End of line resistors must be used in the supervised configuration in order for the circuits to report the correct state. 3.5.2 Door Contact Input (Door Position Switch) This is a normally closed input and should have a jumper installed if not used! Terminal connectors: DC, DCR;...

  • Page 32: Exit Pushbutton Input (Request To Exit, Rex)

    Output Relay Wiring The AAN-1 has one output relay onboard which is a dedicated strike relay for reader 1 and 2 (paired mode). The AAN-2 has two output relays onboard, with a dedicated strike relay for reader 1 and an additional relay which functions as a strike relay for reader 2 (in Unpaired Reader Mode) or as a Local Alarm Relay (in Paired Reader Mode).

  • Page 33: Strike Wiring, General

    A typical electric door lock (strike) will require approximately 250 mA. (.250 amps) to control. The relay contacts on all Apollo relays are capable of switching up to 24 volts DC at up to 2 amps. If the particular locking device requires more that 2 amps to control, a separate, external relay capable of switching the required amount of current must be installed.

  • Page 34: Strike Wiring, Internal Relay

    A suppression diode is included with the internal relays on the AAN-1/2. This diode will provide the maximum effectiveness if the wires between the AAN-1/2 and the strike are very short. If the wires between the strike relay in the reader and the electric lock itself are longer than 6 inches, a separate, external diode should also be installed.
  • Page 35 Common "C" Strike Normally Open "NO" Figure 3.6.3.1 Strike Wiring Diagram - Fail Secure. A wiring example for Fail Secure wiring. Refer to Table 2.1 for exact locations of strike relay connections for the AAN-1/2 © 2011 Apollo Security Inc.
  • Page 36 Common "C" Strike Normally Closed "NC" Figure 3.6.3.2 Strike Wiring Diagram - Fail Safe. A wiring example for Fail Safe wiring. Refer to Table 2.1 for exact locations of strike relay connections for the AAN-1/2 © 2011 Apollo Security Inc.

  • Page 37: Ada External High Security Relays

    DC Powered Door Strike. The strike is wired Fail-Secure, thus power is supplied to the strike only when the relay is activated. The ADA-10 is wired in a similar fashion but instead of wiring to terminals, wiring must be connected to the special connector of the ADA-10. © 2011 Apollo Security Inc.

  • Page 38: Strike Wiring, External Ada-10/11, High Security Relay

    Strike Wiring, External ADA-10/11, High Security Relay Use of the internal relays provided on the AAN-1/2 reader provides a possible security breach as described above. To prevent the possibility of illegally releasing the door by smashing open the reader and bypassing the internal relay, external, high security relays may be installed.

  • Page 39: Additional Output Relay Wiring

    Additional Output Relay Wiring In Paired Reader Mode, the AAN-1/2 has the capability of controlling 3 ADA output relays in addition to an ADA for the strike relay (for a total of 4). In Unpaired Reader Mode (AAN-2 only), each reader can control 3 ADA modules in addition to the ADA strike relay for each reader, thus a total of 8 ADA modules.
  • Page 40 AAN-1 & AAN-2 Hardware Manual On the ADA-11, addresses are set by simply pushing the switch to the correct ON or OFF position on the device. ADA-11 Reader Setting Reader Paired 1+2/Unpaired 1 NOT USED ON AAN-1/2SL *This group does not function in Paired Mode! Table 3.6.1: ADA-11 Reader Setting...
  • Page 41 NOT CUT NOT CUT NOT CUT NOT USED ON AAN-1/2SL *This group does not function in Paired Mode! Table 3.6.3: ADA-10 Reader Setting Next, the function of the ADA-10 must be defined. This is done by cutting THREE of the four jumpers for Output Select on the ADA-10.

  • Page 42: General Alarm Inputs

    Cabinet Tamper Input: TB1 This input is for connection to a switch located on the cabinet in which the AAN-1/2 is installed to detect unauthorized access to the panel. This is a normally-closed contact. In the event of a tamper condition, the exit push buttons will not function on all reader connections.
  • Page 43 Part Software Configuration Utilities...

  • Page 44: Part Iv Software Configuration Utilities

    Technical Support section of the Apollo Security website. Apollo's website can be found at http://www.apollo-security.com For further questions regarding obtaining these utilities, contact your Apollo support representative. ENI-100 IP Programming The ENI-100 occupies one IP address in order to connect to the network and to the programming host.
  • Page 45 Click "OK" and then confirm the device to be programmed. InitAAN will program the device. d) Confirm programming by accessing the device at the new address using a web browser or Telnet (ENI-100) or using the Ping utility (ENI-100 or ENI-1). © 2011 Apollo Security Inc.
  • Page 46 AAN-1 & AAN-2 Hardware Manual DEVICE SEARCH SELECTION a) Click "Search" to display devices on the local network. If the desired device does not display in the list, it may be possible to program the device using the MAC Address Selection method described previously.

  • Page 47: Web Page

    <enter> to display the login screen (see the Defaults section for default address for all devices): The default user name and password are blank, so unless a username/password was previously specified, simply click on "ENI Configuration" to proceed to the main configuration screen. © 2011 Apollo Security Inc.
  • Page 48 AAN-1 & AAN-2 Hardware Manual The main configuration screen shows a variety of options for the ENI-100. To change the IP address of the devices, type the desired address into the appropriate boxes. Remember that the new IP address should be available from your network in able to be able to access this web page configuration screen again.
  • Page 49 ENI will use the new settings. Note that if the IP address was changed it will be necessary to enter the new address in the browser address bar in order to access the web page configuration again. © 2011 Apollo Security Inc.

  • Page 50: Telnet

    AAN-1 & AAN-2 Hardware Manual 4.1.3 Telnet To configure the ENI using Telnet, connect to the internal Telnet server of the ENI-100 using a Telnet client using port 9999. Using the configuration menus (Menu 0 for Server Settings), change the network setup values to the desired settings.
  • Page 51 Disable TFTP Firmware Update (N) ? - Enable/Disable firmware update by TFTP Disable Port 77FEh (N) ? Enable/Disable detection port for the configuration software. If disabled, the software will not be able to auto-detect the device. © 2011 Apollo Security Inc.
  • Page 52 AAN-1 & AAN-2 Hardware Manual Disable Web Server (N) ? - Enable/Disable web configuration pages. Disable Web Setup (N) ? - Enable/Disable configuration by web pages. Disable ECHO ports (Y) ? - Enable/Disable echo of characters received on the serial port.

  • Page 53: Part V Troubleshooting

    Part Troubleshooting...

  • Page 54: Communications

    The first thing that must be verified at the card reader is the RS-485 communications. If the reader is unable the communicate to the controller, most other functions will not work. Communications should be verified by observing the LED's on the host controller and/or verifying voltages on the RS-485 line. See Apollo's General Troubleshooting guide for more information.

  • Page 55: Reader / Keypad

    Granted” appears on the host. The reader may be set to the “Unlocked” mode at the host to permanently energize the relay for test purposes. Any external, high-security, ADA-10.11 relay modules should also be verified. © 2011 Apollo Security Inc.

  • Page 56: Part Vi Specifications

    Part Specifications...
  • Page 57 2A @ 24Vdc 0.5A @ 125Vac Dimensions: 7.5 in x 4.0 in (19 x 10 cm) Environment: Operating Temperature: 0 to 50° C Storage Temperature: -40 to 85° C Relative Humidity: 0 to 95%, non-condensing © 2011 Apollo Security Inc.
  • Page 58 Part Supplemental Figures...

  • Page 59: Part Vii Supplemental Figures

    Supplemental Figures Supplemental Figures © 2011 Apollo Security Inc.
  • Page 60 AAN-1 & AAN-2 Hardware Manual © 2011 Apollo Security Inc.
  • Page 61 Supplemental Figures © 2011 Apollo Security Inc.
  • Page 62 AAN-1 & AAN-2 Hardware Manual © 2011 Apollo Security Inc.
  • Page 63 Supplemental Figures © 2011 Apollo Security Inc.
  • Page 64 AAN-1 & AAN-2 Hardware Manual © 2011 Apollo Security Inc.

  • Page 65: Part Viii Table Of Figures

    Part VIII Table of Figures...
  • Page 66 Table of Figures Number Description Page Programming Host Logical Diagram AAN-1/2 Diagram 2.7.1 AAN-1/2 Mounting Holes 3.3.1 Host to AAN-1/2 Serial Wiring Pinouts (RS-232) 3.3.2.1 ENI-100 Hardware Layout 3.4.1 AAN-1/2 Reader 1 Wiring Input Supervision 3.6.3.1 Strike Wiring- Fail Secure 3.6.3.2 Strike Wiring- Fail Safe 3.6.4...
  • Page 67 Part Revision History...

  • Page 68: Part Ix Revision History

    AAN-1 & AAN-2 Hardware Manual Revision History REVISION HISTORY Revision Date Description of changes Editor 4 SEP 2010 Initial Release R. Burnside 19 OCT 2011 Update ADA-10 jumper settings. Remove C.Gray host limiting feature for ENI. Higher resolution supplemental figures. Correct 9- pin pinout for serial wiring diagram.

  • Page 69: Index

    - R - - E - Routing RS-232 ENI-100 RS-485 Error codes Device Drivers (ASM-48) - F - Signal Ground - S - Firmware - G - Self Test Specifications Start Up Mode Gateway © 2011 Apollo Security Inc.
  • Page 70 AAN-1 & AAN-2 Hardware Manual Strike Wiring AC Strike Supervision (Input) - T - Terminal Connectors Test sequence © 2011 Apollo Security Inc.

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