Reading of 3.0 kHz on the Monitor at each frequency step between 300 andģ,000 Hz you are using, noting the adjustment necessary in the generator Would at least give you an idea of your repeater system’s audioĭoes not read a consistent 3.0 kHz during the audio sweep test, thenĪdjust your Generator where necessary to achieve the desired deviation The sweep test in 100 Hz steps it is best, however even 500 Hz steps Monitor’s readings should remain at 3.0 kHz through the entire audio Generator, and note the Monitor’s deviation readings during the sweep Sweep the 1000 Hz audio test tone, from 300 Hz to 3000 Hz on your Made in the Generator in order to achieve that 3.0 kHz reading on the
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KHz deviation, noting the adjustment level differential necessary to be Monitor, to be certain the Monitor is reading 3.0 kHz deviation, andĪdjust the output level of the Generator to make the Monitor display 3.0 This is a critical step in measuring the performance of yourĭiscrepancy between the instruments, the priority is given to the Be certain that both Instruments agree on the deviation level. KHz deviation from the Generator into the Monitor. Input and generate a full-quieting (must not containġ000 uv or more) on-frequency signal with a 1000 Hz audio tone at 3.0 Connect your Signal Generator output to your Service Monitor Verify the test gear you are using for accuracy. Going to your Repeater TX, or pin 2 on GE exciters, the CG Input. TS-64 you should disconnect the YEL audio output wire If your Repeater TX uses CTCSS encode, you should disable it. Our base measurements are made without using CTCSSĪffect the noise floor of our adjustments. If your Repeater RX uses CTCSS decode, you should disable it. RBC-700 Controller, which has an internal 1064 Hz notch filter through WIN System Standards above are based upon the following assumptions:Īll measurements are made using a 1000 Hz audio tone as a reference To make regularly scheduled trips to our repeater sites to maintain Repeater and/or link and out the TX output. Variance of +/- 0.5 dB (about +/- 10%) from the RX input through the
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To maintain an audio frequency response curve through our repeaters and To achieve a 1:1 audio through-put on all WIN System Repeaters and To have as our goal maintaining the following Standards: On the WIN System, in order to achieve the best possible audio, strive Repeaters and links, and may be useful to others who want good, clean We use it because so few people monitor it.Paper describes the proper audio alignment procedure for WIN System The 220 repeater is currently always linked, and it also gets all error messages the controller sends out (they are blocked on other ports). The codes for the HM site controller (#1) have and additional character, A or B for the half of the controller pair, and a third character for the port number.
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Misc Functions (from VE6HM or a linked repeater)Įdmonton International Airport Weather 92ĮchoIRLP Node Status (Connected/Disconnected) 03Ĭommands use a final " *" to ensure "noise" doesn't cause linking or unlinking. VE6HM (6M) 1B20* unlinks and 1B21* links (note: only works from the 6 meter side)ĬC* repeats your voice call so you can tell your signal strength into the repeater.
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VE6LRN 60* unlinks and 61* links / 6A* Date time Controller #1 - VE6HM (actually a controller pair noted as 1A and 1B)