IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
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출원번호 |
US-0492447
(2012-06-08)
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등록번호 |
US-8711035
(2014-04-29)
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발명자
/ 주소 |
- Alexander, Steven B.
- Redhead, Richard
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출원인 / 주소 |
- Interstate Electronics Corporation
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대리인 / 주소 |
Knobbe Martens Olson & Bear LLP
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인용정보 |
피인용 횟수 :
1 인용 특허 :
16 |
초록
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Apparatus and methods determine the rotational position of a spinning object. A satellite positioning system can be used to determine the spatial position of an object, which in turn can be used to guide the object. However, when the object is spinning, such as an artillery shell, then the rotationa
Apparatus and methods determine the rotational position of a spinning object. A satellite positioning system can be used to determine the spatial position of an object, which in turn can be used to guide the object. However, when the object is spinning, such as an artillery shell, then the rotational orientation should be known in order to properly actuate the control surfaces, such as fins, which will also be spinning.
대표청구항
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1. An apparatus comprising: a phase rotator configured to receive a correlated in-phase signal, a correlated quadrature-phase signal, and a selected roll phase estimate as inputs and to generate a rotated correlated in-phase signal and a rotated correlated quadrature-phase signal by rotating the cor
1. An apparatus comprising: a phase rotator configured to receive a correlated in-phase signal, a correlated quadrature-phase signal, and a selected roll phase estimate as inputs and to generate a rotated correlated in-phase signal and a rotated correlated quadrature-phase signal by rotating the correlated in-phase signal and the correlated quadrature-phase signal, respectively, in response to the selected roll phase estimate;a frequency-locked loop (FLL) acquisition loop configured to receive the correlated in-phase signal and the correlated quadrature-phase signal as inputs, to frequency lock to the correlated in-phase signal and the correlated quadrature-phase signal, and to generate a roll rate error and an FLL roll phase as outputs;a phase-locked loop (PLL) tracking loop configured to receive the correlated in-phase signal and the correlated quadrature-phase signal as inputs, to track an amplitude modulation of the correlated in-phase signal and the correlated quadrature-phase signal, and to generate an indication of a phase of the amplitude modulation of the correlated in-phase signal and the correlated quadrature-phase signal as an output;an FLL lock detector configured to receive the roll rate error as an input and to generate an FLL/PLL mode control based at least partly on whether or not the roll rate error is within a pull-in range of the PLL tracking loop; anda mode selector configured to receive the FLL roll phase, the PLL roll phase, and the FLL/PLL mode control as inputs, and to select one of the FLL roll phase or the PLL roll phase as a selected roll phase estimate output based on a state of the FLL/PLL mode control such that the phase rotator and the FLL acquisition loop are configured to frequency lock to the amplitude modulation of the correlated in-phase signal and the correlated quadrature-phase signal when the mode selector is in an FLL mode and such that the phase rotator and the PLL tracking loop are configured to phase lock to the amplitude modulation of the correlated in-phase signal and the correlated quadrature-phase signal when the mode selector is in a PLL mode. 2. The apparatus of claim 1, wherein the phase rotator is configured: to generate a raw magnitude signal from the correlated in-phase signal and the correlated quadrature-phase signal;to remove a DC component from the raw magnitude signal to generate a real input signal;to mix the real input signal with a first signal generated from a roll phase estimate to generate an in-phase signal;to mix the real input signal with a second signal to generate a quadrature phase signal, wherein the first signal and the second signal differ in phase by 90 degrees;to integrate the in-phase signal to generate the rotated correlated in-phase signal; andto integrate the quadrature phase signal to generate the rotated correlated quadrature-phase signal. 3. A method of tracking power modulation, the method comprising: receiving a correlated in-phase signal and a correlated quadrature-phase signal;phase rotating the correlated in-phase signal and the correlated quadrature-phase signal to generate a rotated correlated in-phase signal and a rotated correlated quadrature-phase signal based on a selected roll phase estimate;in a first mode of operation, frequency locking to an amplitude modulation of the correlated in-phase signal and the correlated quadrature-phase signal with a frequency-locked loop acquisition loop to generate a roll rate error and a first roll phase as outputs, wherein the amplitude modulation is caused by a rotation of an object;in a second mode of operation, phase locking to the amplitude modulation of the correlated in-phase signal and the correlated quadrature-phase signal with a phase locked loop (PLL) tracking loop to generate a second roll phase as an output, wherein the second roll phase comprises an indication of a phase of an amplitude modulation of the correlated in-phase signal and the correlated quadrature-phase signal; andselecting between the first mode or the second mode based at least partly on whether or not the roll rate error is within a pull-in range of the PLL tracking loop. 4. The method of claim 3, further comprising: generating a raw magnitude signal from the correlated in-phase signal and the correlated quadrature-phase signal;removing a DC component from the raw magnitude signal to generate a real input signal;mixing the real input signal with a first signal generated from a roll phase estimate to generate an in-phase signal;mixing the real input signal with a second signal to generate a quadrature phase signal, wherein the first signal and the second signal differ in phase by 90 degrees;integrating the in-phase signal to generate the rotated correlated in-phase signal; andintegrating the quadrature phase signal to generate the rotated correlated quadrature-phase signal. 5. An apparatus for tracking power modulation, the apparatus comprising: a means for receiving a correlated in-phase signal and a correlated quadrature-phase signal;a means for phase rotating the correlated in-phase signal and the correlated quadrature-phase signal to generate a rotated correlated in-phase signal and a rotated correlated quadrature-phase signal based on a selected roll phase estimate;a means for locking, wherein in a first mode of operation, the locking means frequency locks to an amplitude modulation of the correlated in-phase signal and the correlated quadrature-phase signal with a frequency-locked loop acquisition loop to generate a roll rate error and a first roll phase as outputs;wherein in a second mode of operation, the locking means phase locks to the amplitude modulation of the correlated in-phase signal and the correlated quadrature-phase signal with a phase locked loop (PLL) tracking loop to generate a second roll phase as an output, wherein the second roll phase comprises an indication of a phase of an amplitude modulation of the correlated in-phase signal and the correlated quadrature-phase signal; anda means for selecting between the first mode or the second mode based at least partly on whether or not the roll rate error is within a pull-in range of the PLL tracking loop. 6. The apparatus of claim 5, further comprising: a means for generating a raw magnitude signal from the correlated in-phase signal and the correlated quadrature-phase signal;a means for removing a DC component from the raw magnitude signal to generate a real input signal;a means for mixing the real input signal with a first signal generated from a roll phase estimate to generate an in-phase signal;a means for mixing the real input signal with a second signal to generate a quadrature phase signal, wherein the first signal and the second signal differ in phase by 90 degrees;a means for integrating the in-phase signal to generate the rotated correlated in-phase signal; anda means for integrating the quadrature phase signal to generate the rotated correlated quadrature-phase signal. 7. An apparatus comprising: a processor; anda computer program executable by the processor, the computer program embodied in a tangible non-transitory computer-readable medium, wherein the computer program comprising: program instructions configured to receive a correlated in-phase signal and a correlated quadrature-phase signal;program instructions configured to rotate the correlated in-phase signal and the correlated quadrature-phase signal to generate a rotated correlated in-phase signal and a rotated correlated quadrature-phase signal based on a selected roll phase estimate;program instructions configured to, in a first mode of operation, frequency lock to an amplitude modulation of the correlated in-phase signal and the correlated quadrature-phase signal with a frequency-locked loop acquisition loop to generate a roll rate error and a first roll phase as outputs;program instructions configured to, in a second mode of operation, phase lock to the amplitude modulation of the correlated in-phase signal and the correlated quadrature-phase signal with a phase locked loop (PLL) tracking loop to generate a second roll phase as an output, wherein the second roll phase comprises an indication of a phase of an amplitude modulation of the correlated in-phase signal and the correlated quadrature-phase signal; andprogram instructions configured to select between the first mode or the second mode based at least partly on whether or not the roll rate error is within a pull-in range of the PLL tracking loop. 8. The apparatus of claim 7, wherein the computer program further comprises: program instructions configured to generate a raw magnitude signal from the correlated in-phase signal and the correlated quadrature-phase signal;program instructions configured to remove a DC component from the raw magnitude signal to generate a real input signal;program instructions configured to mix the real input signal with a first signal generated from a roll phase estimate to generate an in-phase signal;program instructions configured to mix the real input signal with a second signal to generate a quadrature phase signal, wherein the first signal and the second signal differ in phase by 90 degrees;program instructions configured to integrate the in-phase signal to generate the rotated correlated in-phase signal; andprogram instructions configured to integrate the quadrature phase signal to generate the rotated correlated quadrature-phase signal. 9. The apparatus of claim 1, wherein the PLL tracking loop comprises a 4th order PLL. 10. The method of claim 3, wherein the PLL tracking loop comprises a 4th order PLL. 11. The apparatus of claim 5, wherein the PLL tracking loop comprises a 4th order PLL. 12. The apparatus of claim 7, wherein the PLL tracking loop comprises a 4th order PLL.
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