Pusit Suriyavejwongs scite author profile

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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Slew-rate enhanced capacitor-less low drop-out regulator with on-the-fly adjustable output voltage

Suriyavejwongs

Supmonchai

Opasjumruskit³

2015

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Pusit Suriyavejwongs

Inverting amplifier based ultra low power low offset current comparator

A Low Voltage CMOS Current Comparator with Offset Compensation

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

Slew-rate enhanced capacitor-less low drop-out regulator with on-the-fly adjustable output voltage

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