IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0604477
(2009-10-23)
|
등록번호 |
US-8294801
(2012-10-23)
|
우선권정보 |
JP-2008-279472 (2008-10-30) |
발명자
/ 주소 |
- Ito, Yoshiaki
- Oike, Yusuke
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
3 인용 특허 :
2 |
초록
▼
A solid-state imaging device includes: a pixel array unit having arranged unit pixels, each having a charge generator generating signal charges, and a signal output unit having a charge transfer unit, and generating and outputting a processing-target signal corresponding to the signal charges; a dri
A solid-state imaging device includes: a pixel array unit having arranged unit pixels, each having a charge generator generating signal charges, and a signal output unit having a charge transfer unit, and generating and outputting a processing-target signal corresponding to the signal charges; a driving controller driving the unit pixels, the driving controller sequentially driving the charge transfer unit; and a transfer driving voltage setting unit setting, on the basis of a pixel signal based on a saturated charge amount of the charge generator and a pixel signal based on an intermediate voltage retained charge amount retained in the charge generator after intermediate transfer in which charge transfer is performed at a level between a complete transfer level and an off level, the level of the intermediate voltage such that an actual intermediate voltage retained charge amount becomes the expectation value of the intermediate voltage retained charge amount.
대표청구항
▼
1. A solid-state imaging device comprising: a pixel array unit having arranged unit pixels, each of which has (1) a charge generator that generates signal charges and (2) a signal output unit having a charge transfer unit for (a) transferring the signal charges generated by the charge generator and
1. A solid-state imaging device comprising: a pixel array unit having arranged unit pixels, each of which has (1) a charge generator that generates signal charges and (2) a signal output unit having a charge transfer unit for (a) transferring the signal charges generated by the charge generator and (b) generating and outputting a processing-target signal corresponding to the signal charges generated by the charge generator;a driving controller that drives the unit pixels, the driving controller sequentially driving the charge transfer unit at a plurality of different transfer driving voltage levels; anda transfer driving voltage setting unit that sets, on the basis of (1) a pixel signal based on a saturated charge amount when the charge generator is saturated and (2) a pixel signal based on an intermediate voltage retained charge amount which is retained in the charge generator after an intermediate transfer in which charge transfer is performed in a state where a transfer driving voltage level is at a level between (a) a complete transfer level which enables the saturated charge amount of the charge generator to be completely transferred to the signal output unit and (b) an off level which turns off the charge transfer unit, a level of an intermediate voltage being such that an actual intermediate voltage retained charge amount becomes an expectation value of the intermediate voltage retained charge amount. 2. The solid-state imaging device according to claim 1, further comprising: a signal processor that, on the basis of (1) the pixel signal based on the saturated charge amount when the charge generator is saturated and (2) the pixel signal based on an intermediate voltage retained charge amount which is retained in the charge generator in a state where the transfer driving voltage level is at a level between (a) the complete transfer level which enables the saturated charge amount of the charge generator to be completely transferred to the signal output unit and (b) the off level which turns off the charge transfer unit, calculates an index value such that the transfer driving voltage setting unit sets the level of the intermediate voltage to a suitable value,wherein, the transfer driving voltage setting unit (1) compares the index value calculated by the signal processor with the expectation value of the intermediate voltage retained charge amount and (2) sets the level of the intermediate voltage on the basis of a comparison result. 3. The solid-state imaging device according to claim 1, wherein the transfer driving voltage setting unit is configured to: acquire an index value for a determination from the signal processor, which is externally provided, and calculate the index value for determination on the basis of (1) the pixel signal based on the saturated charge amount when the charge generator is saturated and (2) the pixel signal based on the intermediate voltage retained charge amount which is retained in the charge generator in a state where the transfer driving voltage level is at a level between (a) the complete transfer level which enables the saturated charge amount of the charge generator to be completely transferred to the signal output unit and the (b) off level which turns off the charge transfer unit; andcompare the acquired index value with the expectation value of the intermediate voltage retained charge amount, and sets the level of the intermediate voltage on the basis of the comparison result. 4. The solid-state imaging device according to any one of claims 1 to 3, wherein: with a charge accumulation time of complete transfer being Tlsh, a readout time of the complete transfer being Tl, a charge accumulation time of intermediate transfer being Tssh, a readout time of the intermediate transfer being Ts, the saturated charge amount being Qs, an intermediate retained charge amount of the intermediate transfer being Qm, an intermediate transfer charge amount which is read out by the intermediate transfer being Qn, and a complete transfer charge amount which is read out by the complete transfer being Ql, then, the relationships Ql=(Tl−Tlsh)/(Ts−Tssh)×Qn and Ql=(Tl−Ts)/(Tssh−Tlsh)×Qm+Qm hold true, andthe intermediate voltage retained charge amount Qm which satisfies the relationship Qm≧Tssh−Tlsh)/(Tl−Ts+Tssh−Tlsh)×Qs is the expectation value of the intermediate voltage retained charge amount. 5. The solid-state imaging device according to any one of claims 1 to 3, wherein: a member, which performs charge injection such that the charge generator is saturated, is in the unit pixel of a portion of the pixel array unit; andthe intermediate voltage retained charge amount is the charge amount when the intermediate transfer has been performed on the unit pixel subjected to the charge injection. 6. The solid-state imaging device according to any one of claims 1 to 3, wherein: each unit pixel has a switch unit which comprises a semiconductor device,the driving controller turns on the semiconductor device at a predetermined timing to perform charge injection such that the charge generator is saturated, andthe intermediate voltage retained charge amount is the charge amount when the intermediate transfer has been performed on the unit pixel subjected to the charge injection. 7. An imaging apparatus comprising: a pixel array unit having arranged unit pixels, each of which has (1) a charge generator generating signal charges and (2) a signal output unit having a charge transfer unit for (a) transferring the signal charges generated by the charge generator and (b) generating and outputting a processing-target signal corresponding to the signal charges generated by the charge generator;a driving controller that drives the unit pixels, the driving controller sequentially driving the charge transfer unit at a plurality of different transfer driving voltage levels; anda signal processor that, on the basis of (1) a pixel signal based on a saturated charge amount when the charge generator is saturated and (2) a pixel signal based on an intermediate voltage retained charge amount which is retained in the charge generator in a state where a transfer driving voltage level is at a level between (a) a complete transfer level which enables the saturated charge amount of the charge generator to be completely transferred to the signal output unit and (b) an off level which turns off the charge transfer unit, calculates an index value for determination such that a transfer driving voltage setting unit sets the level of an intermediate voltage to a suitable value,wherein, the transfer driving voltage setting unit that compares the index value for determination calculated by the signal processor with an expectation value of the intermediate voltage retained charge amount, and sets a level of the intermediate voltage such that an actual intermediate voltage retained charge amount becomes an expectation value of the intermediate voltage retained charge amount. 8. A pixel driving voltage adjustment apparatus comprising: a signal processor that (A) acquires, from a solid-state imaging device having arranged unit pixels, each of which has (1) a charge generator generating signal charges and (2) a signal output unit having a charge transfer unit for (a) transferring the signal charges generated by the charge generator and (b) generating and outputting a processing-target signal corresponding to the signal charges generated by the charge generator, (1) a pixel signal based on a saturated charge amount when the charge generator is saturated and (2) a pixel signal based on an intermediate voltage retained charge amount which is retained in the charge generator in a state where a transfer driving voltage level is at a level between (a) a complete transfer level which enables the saturated charge amount of the charge generator to be completely transferred to the signal output unit and (b) an off level which turns off the charge transfer unit, and (B) calculates an index value for determination on the basis of respective pixel signals such that a transfer driving voltage setting unit sets the level of the intermediate voltage to a suitable value,wherein, the transfer driving voltage setting unit that compares the index value for determination calculated by the signal processor with an expectation value of the intermediate voltage retained charge amount, and sets the level of the intermediate voltage such that an actual intermediate voltage retained charge amount becomes an expectation value of the intermediate voltage retained charge amount. 9. A pixel driving voltage adjustment method comprising the steps of: acquiring from a solid-state imaging device having arranged unit pixels, each of which has (1) a charge generator generating signal charges and (2) a signal output unit having a charge transfer unit for (a) transferring the signal charges generated by the charge generator and (b) generating and outputting a processing-target signal corresponding to the signal charges generated by the charge generator, (1) a pixel signal based on a saturated charge amount when the charge generator is saturated and (2) a pixel signal based on an intermediate voltage retained charge amount which is retained in the charge generator in a state where a transfer driving voltage level is at a level between (a) a complete transfer level which enables the saturated charge amount of the charge generator to be completely transferred to the signal output unit and (b) an off level which turns off the charge transfer unit;calculating an index value for determination on the basis of respective pixel signals; andcomparing the index value with an expectation value of the intermediate voltage retained charge amount, and setting a level of an intermediate voltage such that an actual intermediate voltage retained charge amount becomes the expectation value of the intermediate voltage retained charge amount.
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