Simulcast system and channel unit
First Claim
1. In a simulcast transmission system having a central station, a plurality of remote transmit stations for substantially simultaneously transmitting a radio frequency signal modulated by a signal for broadcast, said simulcast transmission system having a plurality of transmission paths between said central station and said remote transmit stations, each transmission path having a first end at said central station and a second end at one of said remote transmit stations, each transmission path capable of having varying amplitude and time delay characteristics and carrying said signal for broadcast to said remote transmit stations, an improvement comprising:
- first means for digitally processing said signal for broadcast at said first ends of said transmission paths into digital signal values, said first means for digitally processing said signal for broadcast, digitally compensating said signal for broadcast to compensate said signal for variations in at least amplitude and time delay characteristics in said transmission paths and for transmitting processed signal values over said transmission paths;
second means for digitally processing the transmitted processed signals at the second ends of said transmission paths, to provide a recovered signal for broadcast to transmitters at said remote transmit stations such that said transmitters are each provided with substantially identical modulating signals digitally compensated for variations in amplitude and time delay in said transmission paths.
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Accused Products
Abstract
A simulcast broadcast uses digital signal processing techniques to scale pulse coded modulation samples of a signal for broadcast. Samples are adjusted to fully utilize all quantization levels representable by an 8-bit word. Time delay is adjustable using digital techniques by writing and reading data into and out of a RAM. Signal amplitude is adjustable by multiplying samples by a numeric factor. A computer can be used to adjust processing, delay and amplification of the digital signal processor.
26 Citations
27 Claims
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1. In a simulcast transmission system having a central station, a plurality of remote transmit stations for substantially simultaneously transmitting a radio frequency signal modulated by a signal for broadcast, said simulcast transmission system having a plurality of transmission paths between said central station and said remote transmit stations, each transmission path having a first end at said central station and a second end at one of said remote transmit stations, each transmission path capable of having varying amplitude and time delay characteristics and carrying said signal for broadcast to said remote transmit stations, an improvement comprising:
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first means for digitally processing said signal for broadcast at said first ends of said transmission paths into digital signal values, said first means for digitally processing said signal for broadcast, digitally compensating said signal for broadcast to compensate said signal for variations in at least amplitude and time delay characteristics in said transmission paths and for transmitting processed signal values over said transmission paths; second means for digitally processing the transmitted processed signals at the second ends of said transmission paths, to provide a recovered signal for broadcast to transmitters at said remote transmit stations such that said transmitters are each provided with substantially identical modulating signals digitally compensated for variations in amplitude and time delay in said transmission paths. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22)
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23. In a simulcast transmission system having a central station where a signal for broadcast originates, a plurality of remote transmit stations for substantially simultaneously transmitting a radio frequency signal modulated by said signal for broadcast, transmission paths between said central station and said transmit stations, each transmission path having a first end at said central station and a second end at one of said transmit stations and carrying said signal for broadcast, a method of improving transmission from said remote transmit stations comprising the steps of:
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converting said signal for broadcast into N-bit digital words representing at least the magnitude and polarity of said signal at discrete time intervals; adjusting the magnitude of said N-bit digital words by shifting M times, a portion of said N-bit words representing substantially the largest signal possible with N-1 bits; transmitting magnitude adjusted N-bit digital words to said transmit stations; at the transmit stations, receiving said adjusted N-bit words and re-adjusting the magnitude of said N-bit digital words by shifting M times said N-bit words; and reconstructing said signal for broadcast from said re-adjusted N-bit words. - View Dependent Claims (24, 25, 26, 27)
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Specification