Apparatus and method for synchronizing base sites individually in a communication system
First Claim
1. A method for generating a timing signal of a base site in a communication system including a plurality of base sites, each base site receiving an external high accuracy signal for using as a first reference signal for a primary clock signal generator, the method comprising the steps of:
- comparing a primary clock signal from the primary clock signal generator with a secondary clock signal from a secondary clock signal generator;
producing an adjustment signal which is proportional to a difference between said clock signals;
adjusting, as a response to said adjustment signal, the phase and frequency of the secondary clock signal so that the secondary clock signal locks to the primary clock signal;
storing an adjustment signal information in a memory;
in the presence of the external high accuracy signal, selecting the primary clock signal as the timing signal; and
in the absence of the external high accuracy signal, selecting the secondary clock signal as the timing signal and generating new adjustment signals based on the adjustment signal information stored in the memory.
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Accused Products
Abstract
A communication system utilizes an external signal of high accuracy to maintain a good degree of accuracy of synchronization of base sites. A good example of such a signal is the signal transmitted by the global positioning system (GPS) or, a high accuracy PCM (pulse code modulation) or other high accuracy signal provided by a terrestrial transmission network including the base sites. When the synchronization to the GPS signal on one or more base sites cannot be achieved, the communication system employs an alternate synchronization source on those base sites that are missing the synchronization to the GPS signal. The alternate synchronization source is a separate local oscillator of the base site. To achieve the degree of synchronization accuracy provided by the GPS signal, the communication system learns the behavior of each and every local oscillator. This characterization is performed on each base site, and is done by utilizing the GPS signal when the GPS signal is present. When the synchronization to the GPS signal is lost, the characterized local oscillator is then employed such that synchronization of the base sites is transparent to the base sites. Use of the GPS signal to characterize the local oscillators allows the characterized oscillator to provide the same degree of accuracy as that of the GPS signal. The method of characterizing the alternate synchronization source on a site basis makes it possible to take the local oscillators'"'"' individual characteristics, as well as the site specific conditions, into account.
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Citations
12 Claims
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1. A method for generating a timing signal of a base site in a communication system including a plurality of base sites, each base site receiving an external high accuracy signal for using as a first reference signal for a primary clock signal generator, the method comprising the steps of:
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comparing a primary clock signal from the primary clock signal generator with a secondary clock signal from a secondary clock signal generator; producing an adjustment signal which is proportional to a difference between said clock signals; adjusting, as a response to said adjustment signal, the phase and frequency of the secondary clock signal so that the secondary clock signal locks to the primary clock signal; storing an adjustment signal information in a memory; in the presence of the external high accuracy signal, selecting the primary clock signal as the timing signal; and in the absence of the external high accuracy signal, selecting the secondary clock signal as the timing signal and generating new adjustment signals based on the adjustment signal information stored in the memory. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A timing unit for generating a timing signal of a base site in a communication system, the base site being capable of providing a primary synchronization signal which is locked to an external high accuracy signal, said timing unit comprising:
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a comparator for comparing the primary synchronization signal with a secondary synchronization signal and for providing an adjustment signal which is proportional to a difference between said synchronization signals; a secondary clock signal generating means connected to the comparator for providing the secondary synchronization signal, the phase and frequency of said signal being adjustable with said adjustment signal; a controller for selecting the primary synchronization signal as the timing signal when the external high accuracy signal is present, and for selecting the secondary synchronization signal as the timing signal when the external high accuracy signal is lacking; said controller also learning characteristics of the secondary clock generator means and storing said characteristics as an adjustment signal information in a memory and, in failure of the external high accuracy signal, generating new adjustment signals based on the adjustment signal information previously stored in the memory. - View Dependent Claims (10, 11, 12)
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Specification