METHOD AND SYSTEM FOR USE OF GPS DISCIPLINED OSCILLATORS FOR COHERENT TIMING REFERENCE IN DISTRIBUTED RADAR SYSTEMS
First Claim
1. A method of providing a coherent, synchronized timing reference to a plurality of receiver/exciter pairs of a radar array, comprising:
- receiving a global positioning system (GPS) carrier signal, the GPS carrier signal including phase and timing information;
generating a local clock signal using a local oscillator;
phase synchronizing the local clock signal to the received GPS carrier signal to produce a reference clock signal; and
generating a stable timing reference signal based on the local clock signal and the reference clock signal, the stable timing reference signal being phase synchronized to the received GPS carrier signal.
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Accused Products
Abstract
An active electronically scanned array radar system and method uses a coherent, stable timing reference to transmit phase synchronized radar signals from a plurality of receiver/exciter elements. A global positioning system (GPS) carrier phase disciplined oscillator receives the GPS carrier signal at a GPS receiver. The GPS carrier contains phase and timing information to phase synchronize the local clock with the GPS carrier to produce a reference clock signal. The reference clock signal is used to synchronize a frequency synthesizer oscillator clock and generate a stable timing reference signal at a frequency significantly greater than the reference clock frequency. The stable timing reference is used to transmit radar signals in a receiver/exciter pair, the radar signals phase synchronized with the GPS carrier signal. Each receiver/exciter element generates its own stable timing reference based on a common GPS carrier. The radar signals from the plurality of receiver/exciter elements use a common clock without need of a physical distribution mechanism.
49 Citations
28 Claims
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1. A method of providing a coherent, synchronized timing reference to a plurality of receiver/exciter pairs of a radar array, comprising:
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receiving a global positioning system (GPS) carrier signal, the GPS carrier signal including phase and timing information; generating a local clock signal using a local oscillator; phase synchronizing the local clock signal to the received GPS carrier signal to produce a reference clock signal; and generating a stable timing reference signal based on the local clock signal and the reference clock signal, the stable timing reference signal being phase synchronized to the received GPS carrier signal. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A radar system having a plurality of exciter/receiver elements for transmitting or receiving phase synchronized radar signals, wherein each exciter/receiver element includes:
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a global positioning system (GPS) carrier phase disciplined oscillator (GCPDO) apparatus comprising; a GPS receiver configured to receive a GPS carrier signal from a GPS satellite; a local oscillator operatively coupled to said GPS receiver; and a timing processor responsive to the output of the GPS receiver and to the local oscillator for providing a common clock reference based on the GPS carrier; wherein each said clock reference is coherent with respect to all other receiver/exciter element clock references. - View Dependent Claims (12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23)
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24. A distributed active electronically scanned array (AESA) radar system comprising a plurality of AESA radar arrays, each AESA radar array remotely positioned relative to the other said AESA radar arrays, each said AESA radar array comprising a plurality of receiver/exciter elements, the distributed AESA radar system comprising:
for each receiver/exciter element; a global positioning system (GPS) carrier phase disciplined oscillator (GCPDO) configured to generate a stable timing reference, the stable timing reference phase synchronized to all other receiver exciter elements and a received GPS carrier signal; and wherein said receiver/exciter element is configured to transmit or receive radar signals based on the stable timing reference. - View Dependent Claims (25, 26, 27, 28)
Specification