MULTI-MODE FREQUENCY COMPENSATION IN MOBILE TERMINALS
First Claim
1. A method of frequency correction in a mobile terminal, the method comprising:
- receiving, by the mobile terminal, a first receive signal from a communication system;
operating the mobile terminal in an acquisition mode, comprising;
processing, by the mobile terminal, the first receive signal to determine a first receive frequency error;
determining a first frequency correction by applying a first correction procedure to the first receive frequency error, wherein the first correction procedure compensates for a first oscillator error within the first receive frequency error due to an oscillator in the mobile terminal;
transmitting a first transmit signal that is frequency-corrected by the first frequency correction;
receiving, by the mobile terminal, a first message from the communication system, the first message indicating a first Doppler shift of the first receive frequency error as determined by the communication system using the first transmit signal;
determining, by the mobile terminal, the first oscillator error based on the first receive frequency error and the first Doppler shift; and
storing the determined first oscillator error as a preceding oscillator error; and
switching operation of the mobile terminal from the acquisition mode to a tracking mode, the tracking mode comprising iteratively performing operations comprising;
processing a second receive signal received from the communication system to determine a second receive frequency error, the second receive frequency error including a second oscillator error due to the oscillator and a second Doppler shift;
determining a second frequency correction by applying a second correction procedure to the second receive frequency error, wherein the second correction procedure compensates for the preceding oscillator error and the second Doppler shift;
transmitting a second transmit signal to the communication system that is frequency-corrected by the second frequency correction; and
updating the stored preceding oscillator error based on a subsequent message received from the communication system, the subsequent message indicating a difference between the second oscillator error and the preceding oscillator error that was determined by the communication system using the second transmit signal.
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Accused Products
Abstract
Systems and methods are described herein for multi-mode compensation of frequency errors within signals transmitted and received by a mobile terminal. The frequency error can be due to Doppler shift and oscillator error, which introduce opposite frequency shifts. In an acquisition mode, the mobile terminal initially compensates for the oscillator error while transmitting a signal to a communication system that contains the Doppler shift. Upon receiving a message from the communication system indicating the Doppler shift contained in the transmit signal, the mobile terminal can then switch to a tracking mode that can compensate for both Doppler shift and oscillator error.
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Citations
18 Claims
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1. A method of frequency correction in a mobile terminal, the method comprising:
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receiving, by the mobile terminal, a first receive signal from a communication system; operating the mobile terminal in an acquisition mode, comprising; processing, by the mobile terminal, the first receive signal to determine a first receive frequency error; determining a first frequency correction by applying a first correction procedure to the first receive frequency error, wherein the first correction procedure compensates for a first oscillator error within the first receive frequency error due to an oscillator in the mobile terminal; transmitting a first transmit signal that is frequency-corrected by the first frequency correction; receiving, by the mobile terminal, a first message from the communication system, the first message indicating a first Doppler shift of the first receive frequency error as determined by the communication system using the first transmit signal; determining, by the mobile terminal, the first oscillator error based on the first receive frequency error and the first Doppler shift; and storing the determined first oscillator error as a preceding oscillator error; and switching operation of the mobile terminal from the acquisition mode to a tracking mode, the tracking mode comprising iteratively performing operations comprising; processing a second receive signal received from the communication system to determine a second receive frequency error, the second receive frequency error including a second oscillator error due to the oscillator and a second Doppler shift; determining a second frequency correction by applying a second correction procedure to the second receive frequency error, wherein the second correction procedure compensates for the preceding oscillator error and the second Doppler shift; transmitting a second transmit signal to the communication system that is frequency-corrected by the second frequency correction; and updating the stored preceding oscillator error based on a subsequent message received from the communication system, the subsequent message indicating a difference between the second oscillator error and the preceding oscillator error that was determined by the communication system using the second transmit signal. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A mobile terminal, comprising:
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an oscillator; a receiver circuit configured to downconvert signals received from a communication system using a frequency signal from the oscillator; a transmit circuit configured to upconvert a baseband signal to a transmission frequency using the frequency signal from the oscillator; a memory; a processor coupled to the receive circuit, the transmit circuit and the memory; and instructions stored in the memory and executable by the processor to; receive from the receiver circuit a downconverted first receive signal received from a communication system; operate in an acquisition mode comprising; processing the first received signal to determine a first receive frequency error; determining a first frequency correction by applying a first correction procedure to the first receive frequency error, wherein the first correction procedure compensates for a first oscillator error within the first receive frequency error due to the oscillator; transmitting to the communication system via the transmit circuit a first transmit signal that is frequency-corrected by the first frequency correction; receiving a first message from the communication system, the first message indicating a first Doppler shift of the first receive frequency error as determined by the communication system using the first transmit signal; determining the first oscillator error based on the first receive frequency error and the first Doppler shift; and storing the determined first oscillator error component as a preceding oscillator error; and switching operation from the acquisition mode to the tracking mode, the tracking mode comprising iteratively performing operations comprising; processing a second receive signal received from the communication system after downconversion by the receiver circuit to determine a second receive frequency error, the second receive frequency error including a second oscillator error due to the oscillator and a second Doppler shift; determining a second frequency correction by applying a second correction procedure to the second receive frequency error, wherein the second correction procedure compensates for the preceding oscillator error and the second Doppler shift; transmitting via the transmit circuit a second transmit signal to the communication system that is frequency-corrected by the second frequency correction; and updating the stored preceding oscillator error based on a subsequent message received from the communication system, the subsequent message indicating a difference between the second oscillator error and the preceding oscillator error that was determined by the communication system using the second transmit signal. - View Dependent Claims (11, 12, 13, 14, 15, 16, 17, 18)
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Specification