Method and apparatus for phased array antenna field recalibration
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H01Q-003/00
G01S-007/40
출원번호
US-0499765
(2009-07-08)
등록번호
US-8154452
(2012-04-10)
발명자
/ 주소
Webb, Kenneth M.
출원인 / 주소
Raytheon Company
대리인 / 주소
Christie, Parker & Hale, LLP
인용정보
피인용 횟수 :
20인용 특허 :
44
초록▼
A system and method for calibrating a modular phased array antenna after replacement of a component of the modular phased array antenna including a plurality of sub-arrays, each sub-array including a plurality of antenna elements. A complex correction coefficient is determined for correcting a phase
A system and method for calibrating a modular phased array antenna after replacement of a component of the modular phased array antenna including a plurality of sub-arrays, each sub-array including a plurality of antenna elements. A complex correction coefficient is determined for correcting a phase and amplitude of one antenna element of the antenna elements in a first sub-array of the sub-arrays. This correction coefficient is then applied to a plurality of the antenna elements in the first sub-array. Therefore, automatic calibration of an entire sub-array of an electronically scanned antenna may be accomplished in the field without the requirement for special test equipment, and with a reduced time and energy requirement because calibration of each individual antenna element in the replaced sub-array is not required.
대표청구항▼
1. A method of calibrating a modular phased array antenna, the modular phased array antenna comprising a replaced sub-array, and a plurality of sub-arrays, each sub-array comprising a plurality of antenna elements, the method comprising: determining two or more complex correction coefficients for co
1. A method of calibrating a modular phased array antenna, the modular phased array antenna comprising a replaced sub-array, and a plurality of sub-arrays, each sub-array comprising a plurality of antenna elements, the method comprising: determining two or more complex correction coefficients for correcting respective phases and amplitudes of two or more antenna elements in the replaced sub-array;generating an average correction coefficient of the two or more complex correction coefficients; andapplying the average correction coefficient to a portion of the plurality of the antenna elements in the replaced sub-array to bring the replaced sub-array into calibration with the plurality of sub-arrays. 2. The method of claim 1, wherein each of the two or more antenna elements in the replaced sub-array comprises a time delay unit (TDU) coupled to the replaced sub-array, wherein the TDU is configured to change characteristics of the replaced sub-array. 3. The method of claim 1, wherein: the determining the two or more complex correction coefficient comprises:determining first correction coefficients for a first portion of the antenna elements in the replaced sub-array; andcalculating an average correction coefficient corresponding to the first correction coefficients, and wherein:the applying the average correction coefficient comprises applying the average correction coefficient to a second portion of the antenna elements in the replaced sub-array. 4. The method of claim 1, wherein: a first antenna element of the replaced sub-array has a first receiving phase and gain and a first transmitting phase and gain;a second sub-array of the sub-arrays comprises a second antenna element of the antenna elements, the second antenna element having a second transmitting phase and gain; anda third sub-array of the sub-arrays comprises a third antenna element of the antenna elements, the third antenna element having a third receiving phase and gain, the replaced sub-array being a different sub-array than the second sub-array and the third sub-array, andwherein the determining of the correction coefficients comprises:transmitting a first signal along a first mutual coupling path having a first mutual coupling characteristic from the second antenna element to the third antenna element, and along a second mutual coupling path having a second mutual coupling characteristic from the second antenna element to the first antenna element; anddetermining a receiving correction coefficient for the first antenna element corresponding to a difference between the first signal received by the first antenna element and the first signal received by the third antenna element. 5. The method of claim 4, wherein the first mutual coupling characteristic is substantially identical to the second mutual coupling characteristic. 6. The method of claim 4, wherein the applying of the average correction coefficient comprises applying the average correction coefficient to the first plurality of the antenna elements in the replaced sub-array. 7. The method of claim 4, wherein the second sub-array is a different sub-array other than the third sub-array. 8. The method of claim 4, wherein: the first signal received by the first antenna element corresponds to changes in an amplitude and a phase of the first signal corresponding to a change of phase and a change of gain caused by each of the second transmitting phase and gain, the first mutual coupling characteristic, and the first receiving phase and gain; andthe first signal received by the third antenna element corresponds to changes in an amplitude and a phase of the first signal corresponding to a change of phase and a change of gain caused by each of the second transmitting phase and gain, the second mutual coupling characteristic, and the third receiving phase and gain. 9. The method of claim 8, wherein the first mutual coupling characteristic is substantially identical to the second mutual coupling characteristic. 10. The method of claim 4, wherein: a fourth sub-array of the sub-arrays comprises a fourth antenna element of the antenna elements, the fourth antenna element having a fourth transmitting phase and gain; anda fifth sub-array of the sub-arrays comprises a fifth antenna element of the antenna elements, the fifth antenna element having a fifth receiving phase and gain, the replaced sub-array being a different sub-array other than the fourth sub-array and the fifth sub-array,wherein the determining the correction coefficient further comprises:transmitting a second signal along a third mutual coupling path having a third mutual coupling characteristic from the fourth antenna element to the fifth antenna element;transmitting a third signal along a fourth mutual coupling path having a fourth mutual coupling characteristic from the first antenna element to the fifth antenna element; anddetermining a transmitting correction coefficient for the first antenna element corresponding to a difference between the second signal received by the fifth antenna element and the third signal received by the fifth antenna element. 11. The method of claim 10, wherein: the second signal received by the fifth antenna element corresponds to changes in an amplitude and a phase of the second signal corresponding to a change of phase and a change of gain caused by each of the fourth transmitting phase and gain, the second mutual coupling characteristic, and the fifth receiving phase and gain; andthe third signal received by the fifth antenna element corresponds to changes in an amplitude and a phase of the third signal corresponding to a change of phase and a change of gain caused by each of the first transmitting phase and gain, the third mutual coupling characteristic, and the fifth receiving phase and gain. 12. An electronically scanned array antenna comprising: an antenna array comprising a plurality of sub-arrays and a replaced sub-array, each sub-array comprising a plurality of antenna elements;a feed network for transmitting signals to or from respective ones of the sub-arrays; anda control unit for determining two or more complex correction coefficients for correcting respective phases and amplitudes of two or more antenna elements in the replaced sub-array, the control unit configured to calculate an average correction coefficient of the two or more complex correction coefficients, and apply the average correction coefficient to a portion of the plurality of the antenna elements in the replaced sub-array to bring the replaced sub-array into calibration with the plurality of sub-arrays.
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