Optimal design of CMOS pseudoactive pixel sensor (PAPS) structure for low-dark-current and large-array-size imager applications

Shih, Yu‐Chuan; Wu, Chung-Yu

doi:10.1109/jsen.2004.841429

Cited by 3 publications

(3 citation statements)

References 22 publications

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“…8. Its fill factor is 59% which is comparable of PAPS in [26] (with pixel size almost 4 times bigger) but larger than 42% of OPAPS in [27].…”

Section: Zero Bias Pixel Sensor (Zbps)mentioning

confidence: 76%

“…Although each leakage current is only a tiny fraction of the photocurrent, its effect becomes pronounced when there is a large number of pixels connected to a column. In [27], it is suggested that one ZCBDI should be shared with only 4 PAPS pixels, called OPAPS. This results is using more than one ZCBDI per column and effectively reduces the fill factor down to 42% for a 352x288 pixel array.…”

Section: Pseudo-active Pixel Sensor (Paps)mentioning

confidence: 99%

“…In particular, 2 types of pixel structure are reviewed. They are active pixel sensor (APS) [6,[13][14][15][16][17][18][19][20][21][22][23][24][25] in Section 2 and pseudo-active pixel sensor (PAPS) [26,27] in Section 3. Then a new sensor called zero bias pixel sensor (ZBPS), that can eliminate dark current, is proposed in Section 4.…”

Section: Introductionmentioning

confidence: 99%

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A Zero Bias Pixel Sensor and its Zero-Bias Column Buffer-Direct-Injection Circuit

Suriyavejwongs¹,

Leelarasmee²,

Pora³

2017

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Abstract. Two pixel sensors, namely active pixel sensor (APS) and pseudo-active pixel sensor (PAPS), are reviewed to show that APS suffers from dark current while PAPS suffers from leakage current. Then a new pixel sensor called zero bias pixel sensor (ZBPS) in which only two MOS switches in addition to the photodiode are used, one for connecting the pixel's photodiode to a column bus and the other for bypassing it. A zero-bias column buffer-direct-injection (ZCBDI) circuit, which is similar to a regulated cascode amplifier, is used to control the voltage at column bus at zero. All ZBPS pixels are guaranteed to work at zero voltage at all times to eliminate the dark current as well as leakage current. A case of a 10µm x 10µm ZBPS pixel designed with standard 0.18µm CMOS process is studied through simulation. This pixel generates a photocurrent within a range from 1pA to 100nA. To handle a large variation of photocurrent while maintaining zero column voltage, the ZCBDI is designed using differential cascode, common source, and buffer stages and then compensated for 50 degree phase margin. Transient simulation shows that the pixel steady state response time is around 1.406ms, leading to at most 5.5 frames per second for an image of 128x128 ZBPS pixels. The fill factor of ZBPS for this case is around 59%.

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“…8. Its fill factor is 59% which is comparable of PAPS in [26] (with pixel size almost 4 times bigger) but larger than 42% of OPAPS in [27].…”

Section: Zero Bias Pixel Sensor (Zbps)mentioning

confidence: 76%

Section: Pseudo-active Pixel Sensor (Paps)mentioning

confidence: 99%

See 1 more Smart Citation

A Zero Bias Pixel Sensor and its Zero-Bias Column Buffer-Direct-Injection Circuit

Suriyavejwongs¹,

Leelarasmee²,

Pora³

2017

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A Programmable Digital Cellular Neural Network Processing On- and Off-Chip Sensory Information

Zeffer

Hidvergi

2006

2006 10th International Workshop on Cellular Neural Networks and Their Applications

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In this paper, the architecture of a mixed-signal CNN visual processor with on board photodetecting sensor array analog RAM and a switching matrix to process off chip sensor signals is proposed In our design, the CMOS sensor array possesses high performance readout circuitry and embedded data storage capability. For further compactness, a new template memory structure is built that requires about quarter of silicon size compared to previous designs. The vision chip comprises most of the modules of a sensory system and keeps tight relationship between the sensors and the processor.

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Foveal model of artificial retina with phototransistors in Darlington configuration in the high-resolution region

Loaiza-Brito

Calzada

Niño-de-Rivera

2005

2005 2nd International Conference on Electrical and Electronics Engineering

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In this article is proposing a structure of foveal artificial retina to use bipolar phototransistors in configuration Darlington within the central zone and bipolar phototransistors in the periphery. These last ones are forming groups of four elements with a size that is growing towards the periphery, this causes an increase of the area of incidence without modifying to a great extent the size of the phototransistors and thus to take advantage of better the area silicon, in addition it occurs to know a new structure in where the analysis of the foveal model with rectangular phototransistors is possible. This a structure new is not necessary that the photodetectors have a specific and complex design, as can be the circular form that has been used in diverse models. An analysis is made on the voltage of operation the two configurations of phototransistors with the objective to present the idea raised in relation cones and canes a biological retina. With the previous, is a simulation in which an image with the proposed model can be observed. The results in Matlab appear with which the degree of resolution in the center of the foveal model is observed.

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Optimal design of CMOS pseudoactive pixel sensor (PAPS) structure for low-dark-current and large-array-size imager applications

Cited by 3 publications

References 22 publications

A Zero Bias Pixel Sensor and its Zero-Bias Column Buffer-Direct-Injection Circuit

A Zero Bias Pixel Sensor and its Zero-Bias Column Buffer-Direct-Injection Circuit

A Programmable Digital Cellular Neural Network Processing On- and Off-Chip Sensory Information

Foveal model of artificial retina with phototransistors in Darlington configuration in the high-resolution region

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