Difference between revisions of "Radio Connections"

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(Updated stuff about Quantar)
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==Quantar==
 
==Quantar==
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The Quantar can be tricky to interface as it's extremely programmable and you will need a wireline card for I/O connections.  By default the I/O will not work unless the "wildcard" table is programed.  This wildcard table is Boolean logic of interrupt states in the radio, is extremely flexible and frustrating to debug.  It's a base station in it's own class.
 
The Quantar can be tricky to interface as it's extremely programmable and you will need a wireline card for I/O connections.  By default the I/O will not work unless the "wildcard" table is programed.  This wildcard table is Boolean logic of interrupt states in the radio, is extremely flexible and frustrating to debug.  It's a base station in it's own class.
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[[File:Front of quantar and controller.jpg|thumb|500px|right|Front of Quantar and controller]]
  
 
* [[Media:QUANTAR-RTCM INTERFACE CABLE.pdf|Quantar/RTCM Interface Cable]]
 
* [[Media:QUANTAR-RTCM INTERFACE CABLE.pdf|Quantar/RTCM Interface Cable]]

Revision as of 19:08, 26 October 2017

Instructions for connecting radios, repeaters AllStarLink interfaces including the RTCM, GPS', URI/URI X and like devices.

GPS

Motorola

CDM

MTR-2000

Quantar

The Quantar can be tricky to interface as it's extremely programmable and you will need a wireline card for I/O connections. By default the I/O will not work unless the "wildcard" table is programed. This wildcard table is Boolean logic of interrupt states in the radio, is extremely flexible and frustrating to debug. It's a base station in it's own class.

Front of Quantar and controller

Note you will want to use BEW mode on the RTCM if using the RTCM do squelch.

VRM-850

Kenwood

Repeater Controler

An example of using RTCMs to replace 420 links

Tait

Vertex