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Networked Receiver Controller
NRC-2.0.1
Users’ Guide
th
11 October 2005
DUNS: 826771508
CAGE: 1RKF1
www.aegis-inc.net
Telecom Engineering Services & Products
8610 Washington Blvd. Suite 213 Jessup, MD 20794
240.568.9006 240.568.9008 [fax]
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Proprietary Statement All rights reserved. No part of this publication may be reproduced, stored in a retrieval system, or transmitted, in any form by any means, electronic, mechanical, by photocopying, recording, or otherwise without prior written permission. Disclaimer Information furnished in this manual is believed to accurate and reliable. However, no responsibility is assumed for its use, or for any infringements of patents or other rights of third parties that may resul
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Table of Contents General Information........................................................................................................................ 5 Channel Architecture .................................................................................................................. 6 Audio Data Capture .................................................................................................................... 6 Universal Receiver Translation/Abstraction................
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Connect to NRC Server Dialog............................................................................................. 22 The Main Application Window ............................................................................................ 23 Change Receiver Model Dialog............................................................................................ 31 Change Antenna Model Dialog ............................................................................................ 32
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General Information The Networked Receiver Controller (NRC) is a single node network device capable of simultaneously: • controlling and configuring up to 8 attached receivers for data collection • collecting and digitizing each receiver’s analog audio output signal • formatting and routing the digitized receiver’s signal to an attached network client. A simple diagram of the NRC system is shown below. Networked Receiver Controller R E CONTROL C E NRC
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Channel Architecture A channel defines a virtual connection between a client application and a receiver connected to the NRC. There are two types of channel connections which can be established to a receiver; a Primary connection and a Piggy-back connection. 1. A Primary Connection a. A Primary connection is established with a receiver when the receiver is free of any other client connections. b. A Primary connected client has full access and control of the receiver and its resources
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Universal Receiver Translation/Abstraction The NRC abstracts the user from each receiver’s proprietary low-level communications protocol by presenting a common receiver translation software tasking interface to the user. This common software interface allows the user to task the receivers at a logical level without the need to worry about how to implement this tasking. This allows a wide range of different receivers to be tasked via the NRC in the same manner regardless of the number, model
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Capabilities Summary Receiver Controllable Settings Client Connection Options • Frequency • Up to 64 simultaneous client connections • Detection Mode • Primary - connection to a receiver when it is free • IF Bandwidth o Full control and access to the receiver, the audio data and its configuration options. • AGC mode • Piggyback - connection to a receiver that already has a • BFO Primary client attached • Reset / Reboot o Limited connection privileges • Pass native commands to the
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Specifications System Hardware Supported Receivers • CPU System: • DRS WJ-8723 HF Receiver o PC x86 SBC based system • Ten-Tec RX-331HF Receiver • Operating System • Additional Receivers available upon request o Linux OS, Compact Flash based file system A/D Conversion Physical Inputs/Outputs • Sample Resolution: • Number of controllable receivers: 1 to 8 o 16-bit (14.8 effective bits) • Connections/Receiver • Channel Sampling Rate: 16 KHz o 1x Audio Input Port (DB-15
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Users’ Guide: Networked Receiver Controller - NRC-2.0.1 PAGE 10 th 11 October 2005 Copyright © 2005 Aegis, Inc wwww.aegis-inc.net [ph. 240-568-9006]
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Installation Contents The following is a list of items delivered with the NRC unit. • Networked Receiver Controller unit (1) • Power cable (1) • Receiver Control Cables (8) o For BAE Systems WJ-8723 units - 8x DB25M-RJ45 - grey cables o For TenTec RX331 units - 8x DB25M-RJ45 - black cables • Receiver Audio Cables (8) o For BAE Systems WJ-8723 - 8x DB15M/DB15M audio cables o For TenTec Rx331 units - 8x DB15M/DB15M audio cables • Users’ Guide (1) • Programmers’ Guide (1) • Docum
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Hardware Installation Step 1: Receiver Audio Signal Termination Type The NRC supports both differential and single-end audio signals, with the factory system default being configured to support Differential Mode. If Single-End mode is required, proceed as follows: 1. Ensure the NRC is powered off 2. Remove the top cover of the NRC. 3. Locate the two banks of 4x DIP switches, D1 and D2. 4. Set all switches to the ON position for single-ended operation. a. Conversely, set each switc
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NRC Configuration Prerequisites: In order to successfully configure the NRC for operational use, the installer must have access to: a. a terminal emulation program i. Before using it on the network the NRC must be properly configured, by running a configuration utility on the NRC through a remote terminal session. This requires connecting serially to the NRC from another computer. The operating system of the computer is not important as long as it has a compatible terminal emulation prog
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If this is the first time the NRC has been turned-on, once the NRC has completed its initial system boot-up process, the NRC system LCD graphics files will be uploaded into the LCD display. The NRC’s LCD display will indicate which LCD memory location the current image is being uploaded into and once this image upload process is finished, the LCD display will be activated and display 8 channel status windows above the status 1 message “www.aegis-inc.net”. 7. Once the NRC has reached this s
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Step 3: Configure Network Settings Before the NRC can be accessed from the network, it must be assigned a network address. Select option 2 to configure the network options. Below is a screen sequence example as the IP address settings are configured. Configure network settings: Present settings for device eth0: Local IP address = 192.168.1.159 Netmask = 255.255.255.0 Broadcast address = 192.168.1.255 Network address = 192.168.1.1 Enter the following new values. IP addres
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(mmddhhmmyyyy) : 070615292005 Time and Date set to: Wed Jul 6 15:29:00 UTC 2005 Please note the time/date format - month/day/hour/minute/year (MMDDHHMMYYYY). For the above example, if it was 3:29pm (15:29) on July 6, 2005 If you enter return without entering a new time string the time and date will not be changed. Step 5: Configure the Network Time Daemon (Optional) You can optionally configure the NRC to use the Network Time Protocol daemon (NTPd) to keep the NRC system clock synch
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After the above change sequence is complete set the ntp.conf file contains the following: restrict default ignore restrict 192.168.1.146 nomodify noquery notrap server 192.168.1.146 Once the ntp information has been configured the ntp daemon needs to be started and added to the server startup. Select option 2 from the NTP Configuration Utility. Below is a screen sequence example as the NTPd daemon is enabled. Add ntpd to server startup? (y/N) y Added to startup. Start ntpd now?
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Restart NRC: Halt or Reboot (h/R)? r Reboot system. Do you wish to proceed (y/N)? y Proceeding with shutdown process. Terminated ~ # flushing ide devices: hdd Restarting system. Note: Normal operation is suspended in the NRC when using the remote terminal. Be sure to restart the NRC after using the remote terminal to resume normal operation. Users’ Guide: Networked Receiver Controller - NRC-2.0.1 PAGE 18 th 11 October 2005 Copyright © 2005 Aegis, Inc wwww.aegis-inc.net [p
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Step 8: Configure the NRC for Receivers From a computer, start the NRC Java Client. See the section, Using the NRC Java Client Application for details on requirements and running the NRC Java Client. Configure the signal termination type and DAQ Channel Gain After connecting to the NRC from the NRC Java Client, right click on the NRC node, identified by its machine name or IP address. Click Properties and the “NRC Properties” dialog will 2 appear. Configure the necessary options.
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Operation Using the NRC Starting the NRC After pressing the power button, the NRC may take up to 60 seconds to initialize and be ready for operation. Initially the display will show “Networked Receiver Controller” and NRC version. When initialization is complete, the NRC LCD display will be activated and display 8 channel status windows above the Aegis status message “www.aegis-inc.net”. Power-On Self Test (POST) A Power-On Self Test (POST) is a receiver connection integrity test is an