--- In [email protected], "wmhpowell" <w...@...> wrote: "I'm looking for some Quantar "engineering level" help re: an interesting simulcast issue. ...
Thanks, Bill Powell" -------------------------------------------------------------- When you say this system was set up and installed by Motorola - does that mean a 'factory direct' Motorola project or a local dealer? Is the baffled tech a shop tech or a Motorola employee [e.g. S.T.]? You say the system is GPS stabilized - do you mean what Motorola refers to as "GPS Simulcast"? If so, the transmit path would originate at a prime site where voted receive and/or dispatch transmit audio would be routed to a CSCI or USCI, then to an SDA, then to a Premysis TeNSr channel bank into DSM-II cards, then over T-1 paths to each remote site where channel banks with corresponding DSM cards connect to the wideband simulcast Quantar tx inputs. The GPS reference clocks, typically from Trak, provide 5 MHz reference to the Quantar stations and 1PPS timing to the DSM's which automatically time align the transmit audio. This is a proven working product. The hypothesis regarding lack of DC restoration in the modulator would suggest a design issue which is highly unlikely given the number of succcessfully fielded Quantar simulcast systems. If you are going to investigate this issue you should begin with the most current version of the Motorola GPS Simulcast manual: 6881098E65. On the other hand, it this system was implemented by a local dealer using some other form of simulcast distribution such as Harris SynchoCast - there could be any number of issues. In any case - proper Quantar programming, netting, and Mod-comp adjustment are critical. Audio phasing and level optimization is best verified using a DSA [Dynamic Signal Analyzer] such as the Agilent 35670A.
