Optical black pixel readout for image sensor data correction
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H01L-027/00
H04N-005/361
H04N-005/365
H04N-005/378
출원번호
US-0558988
(2012-07-26)
등록번호
US-9124829
(2015-09-01)
발명자
/ 주소
Patel, Gaurang
출원인 / 주소
AltaSens, Inc.
대리인 / 주소
Amin, Turocy & Watson, LLP
인용정보
피인용 횟수 :
0인용 특허 :
2
초록▼
Providing for analog averaging of optical black pixels of an image sensor is described herein. By way of example, optical black pixel signals can be output by a row of pixels and provided in a parallel manner to a readout circuit. The readout circuit can include an averaging circuit that, when activ
Providing for analog averaging of optical black pixels of an image sensor is described herein. By way of example, optical black pixel signals can be output by a row of pixels and provided in a parallel manner to a readout circuit. The readout circuit can include an averaging circuit that, when activated, generates an analog average of signals received at the readout circuit. The analog average can be sampled at any suitable signal output of the readout circuit, or multiple samples can be acquired to mitigate temporal noise, improve yield, and so on. By utilizing analog averaging, optical black pixel information can be obtained much more quickly than with digital counterparts, and optical black pixels can be fully utilized, as well as utilized more flexibly, in generating the black pixel output. Further sensor die size can be reduced, by replacing digital adders, dividers or shifters with the averaging circuit.
대표청구항▼
1. An optical sensor, comprising: an optical pixel array comprising rows and columns of optical pixels, a subset of the columns of optical pixels comprising respective pluralities of optically black pixels;a readout circuit for extracting information from the optical pixel array, the readout circuit
1. An optical sensor, comprising: an optical pixel array comprising rows and columns of optical pixels, a subset of the columns of optical pixels comprising respective pluralities of optically black pixels;a readout circuit for extracting information from the optical pixel array, the readout circuit extracts signals from a set of optically black pixels of the subset of the columns of optical pixels, and generates an analog average of the signals; wherein: the readout circuit outputs the analog average to a digital circuit configured to employ the analog average for a digital data correction of optical pixel array data. 2. The optical sensor of claim 1, wherein the digital circuit comprises a correction circuit that digitizes the analog average of the pixel signals in conjunction with implementing a data correction for active pixel data extracted from the subset of the columns of pixels. 3. The optical sensor of claim 1, wherein the readout circuit comprises a set of column buffers for extracting the information from respective ones of the columns of optical pixels, and further wherein a substantially similar value of the analog average is available for output at a plurality of the set of column buffers. 4. The optical sensor of claim 3, wherein the readout circuit is configured to extract the analog average from a subset of the set of column buffers that is less than the entire set of the column buffers. 5. The optical sensor of claim 3, wherein respective ones of the set of optically black pixels are located within respective ones of the subset of the columns of optical pixels. 6. The optical sensor of claim 3, wherein the column buffers are connected to respective sampling capacitors at respective outputs of the column buffers. 7. The optical sensor of claim 6, further comprising a set of switches configured to electrically connect or electrically isolate respective subsets of the sampling capacitors. 8. The optical sensor of claim 7, wherein the set of switches comprise T switches. 9. The optical sensor of claim 7, wherein a subset of the set of switches are configured to generate an average of a subset of the signals from the set of optically black pixels by electrically connecting the sampling capacitors. 10. The optical sensor of claim 7, wherein the set of switches is configured to electrically connect the sampling capacitors in parallel to generate an analog average of the signals. 11. The optical sensor of claim 7, wherein the set of switches is configured to electrically isolate the sampling capacitors to facilitate the readout circuit extracting respective signals from active pixels of the optical pixel array. 12. The optical sensor of claim 1, further comprising a comparator that compares one of the extracted signals from one of the set of optically black pixels to a low-power reference signal. 13. The optical sensor of claim 12, further comprising a bypass switch configured to: remove the one of the extracted signals from the analog average of the signals in response to a value of the one of the extracted signals satisfying a rejection function related to the low-power reference signal; andinclude the one of the extracted signals within the analog average of the signals in response to the value of the one of the extracted signals satisfying an acceptance function related to the low-power reference signal. 14. A method of reading data from an optical sensor, comprising: reading out a set of signals from pixels of a pixel array;generating an analog average of optically black pixel signals from a subset of the set of signals;multiplexing output of active pixel data from a second subset of the set of signals received from active pixels of the pixel array;digitizing the analog average and the active data; andemploying the digitized analog average for correcting the active data. 15. The method of claim 14, further comprising comparing the optically black pixel signals to a zero reference signal, and identifying whether one or more of the optically black pixel signals is outside a predetermined range of the zero reference signal. 16. The method of claim 15, further comprising excluding from the subset of the set of signals one or more of the optically black pixel signals identified to be outside the predetermined range. 17. The method of claim 14, wherein generating the analog average from the subset of the set of signals further comprises activating a set of switches for establishing a parallel electrical connection between column buffer output capacitors. 18. The method of claim 17, further comprising outputting a value of the analog average from a subset of the column buffer output capacitors for the digitizing the analog average. 19. An apparatus that provides line correction for image information generated by an optical sensor, comprising: a data readout circuit comprising column buffers connected to respective column output lines of an optical pixel array, and respective sampling capacitors connected to respective column buffers;a set of switches configurable to electrically connect or electrically isolate a variable subset of the respective sampling capacitors;an analog to digital converter; anda digital correction circuit, wherein: the set of switches are configured to electrically connect a selected subset of the respective sampling capacitors to generate an analog average of signals output by optically black pixels of the optical pixel array, further wherein the set of switches are configured to electrically isolate the respective sampling capacitors in response to the data readout circuit receiving optical image signals output by active pixels of the optical pixel array, the analog to digital converter digitizes the analog average and the optical image signals, and the digital correction circuit utilizes the digitized analog average for correcting the digitized optical image signals. 20. The apparatus of claim 19, further comprising: a set of comparators connected to respective column buffers that compare respective ones of the signals output by optically black pixels to a reference signal; anda set of bypass circuits configured to exclude respective ones of the signals from the generated analog average that are determined by one or more of the set of comparators to satisfy a rejection function with respect to the reference signal.
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이 특허에 인용된 특허 (2)
Mo, Yaowu; Xu, Chen, Analog row black level calibration for CMOS image sensor.
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