Digital LDO regulator with analogue‐assisted loop using source follower

This work fits the measured in-pixel source-follower noise in a CMOS Quanta Image Sensor (QIS) prototype chip using physics-based 1/f noise models, rather than the widely-used fitting model for analog designers. This paper discusses the different origins of 1/f noise in QIS devices and includes correlated double sampling (CDS). The modelling results based on the Hooge mobility fluctuation, which uses one adjustable parameter, match the experimental measurements, including the variation in noise from room temperature to –70 °C. This work provides useful information for the implementation of QIS in scientific applications and suggests that even lower read noise is attainable by further cooling and may be applicable to other CMOS analog circuits and CMOS image sensors.

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Low Distortion Analog Front-End for Digital Electret Microphone

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.475-476.1633 ◽

2013 ◽

Vol 475-476 ◽

pp. 1633-1637

Author(s):

Seung Yong Bae ◽

Jong Do Lee ◽

Eun Ju Choe ◽

Gil Cho Ahn

Keyword(s):

Audio Signal ◽

Cmos Technology ◽

Common Mode ◽

Electret Microphone ◽

Front End ◽

Voltage Variation ◽

Analog Front End ◽

Source Follower ◽

Source Voltage ◽

Low Distortion

This paper presents a low distortion analog front-end (AFE) circuit to process electret microphone output signal. A source follower is employed for the input buffer to interface electret microphone directly to the IC with level shifting. A single-ended to differential converter with output common-mode control is presented to compensate the common-mode variation resulted from gate to source voltage variation in the source follower. A replica stage is adopted to control the output bias voltage of the single-ended to differential converter. The prototype AFE circuit fabricated in a 0.35μm CMOS technology achieves 68.2dB peak SNDR and 79.9dB SFDR over an audio signal bandwidth of 20kHz with 2.5V supply while consuming 1.05mW.

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A 0.9V 0.35¿m Adaptively Biased CMOS LDO Regulator with Fast Transient Response

2008 IEEE International Solid-State Circuits Conference - Digest of Technical Papers ◽

10.1109/isscc.2008.4523247 ◽

2008 ◽

Cited By ~ 21

Author(s):

Yat-Hei Lam ◽

Wing-Hung Ki

Keyword(s):

Transient Response ◽

Fast Transient Response ◽

Fast Transient ◽

Ldo Regulator

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Comparison of junction-isolated and soi high-voltage devices operating in the source-follower mode

10.1109/ispsd.1992.991276 ◽

2005 ◽

Cited By ~ 18

Author(s):

E. Arnold ◽

S. Merchant ◽

M. Amato ◽

S. Mukherjee ◽

H. Pein ◽

...

Keyword(s):

High Voltage ◽

Source Follower

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Impulse-Peak Measurement by Means of Pulse-Lengthener Circuit With Source Follower

IEEE Transactions on Instrumentation and Measurement ◽

10.1109/tim.1971.5570715 ◽

1971 ◽

Vol IM-20 (3) ◽

pp. 143-146 ◽

Cited By ~ 2

Author(s):

Masami Uno

Keyword(s):

Source Follower

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A Low Power Low-Pass Fourth-Order Filter for WiMAX/LTE Receiver in CMOS 45nm Technology

Journal of Circuits System and Computers ◽

10.1142/s0218126617500487 ◽

2016 ◽

Vol 26 (03) ◽

pp. 1750048 ◽

Cited By ~ 1

Author(s):

Vida Orduee Niar ◽

Gholamreza Zare Fatin

Keyword(s):

Low Power ◽

Fourth Order ◽

Supply Voltage ◽

Pass Filter ◽

Low Pass Filter ◽

Power Filter ◽

Order Filter ◽

Source Follower ◽

Low Pass ◽

Circuit Technique

In this paper, a [Formula: see text]-[Formula: see text] low-pass and low power filter with tunable in-band attenuation for WiMAX/LTE receiver is presented. The fourth-order filter consists of two cascaded biquad stages. The source-follower (SF) stage is used as a key building block in these biquads. In this paper, we have presented a circuit technique to reduce the nonlinearity of the SF stage resulting from unmatched signal swings at the gate and source terminals of the input transistor. The proposed SF stage, is used for design of a linear biquad which is then utilized in a fourth-order Butterworth low-pass filter. The simulation results of the filter for bandwidth of 10 MHz show that the IIP3 of the filter is equal to 8.22[Formula: see text]dBm, in-band noise density is 100[Formula: see text]nV/[Formula: see text]Hz and power consumption is 5.9[Formula: see text]mW. The supply voltage of the filter is equal to 1[Formula: see text]V.

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