High dynamic focal plane readout circuit and sampling method thereof

A readout circuit and focal plane technology, applied in the field of detection, can solve the problems that it is difficult to achieve high dynamic range, the number of equivalent noise electrons is large, and cannot be satisfied at the same time, and achieve small readout noise, small noise electron number, The effect of high conversion gain

Active Publication Date: 2017-01-11
GPIXEL
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

But both are closely related to the integral capacitance, the larger the integral capacitance, the larger the full well capacity, but at the same time the greater the number of equivalent noise electrons
For a conventional circuit with a fixed integral capacitance, it is difficult to achieve a high dynamic range because it cannot satisfy both a large full well capacity and a small number of noise electrons

Method used

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  • High dynamic focal plane readout circuit and sampling method thereof
  • High dynamic focal plane readout circuit and sampling method thereof
  • High dynamic focal plane readout circuit and sampling method thereof

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Embodiment 1

[0042] Such as figure 2As shown, the high dynamic range focal plane readout circuit of the present invention includes a capacitive transconductance amplifier CTIA, a sampling circuit CDS, a source follower SF; the capacitive transconductance amplifier CTIA includes an amplifier A and a signal voltage connected in parallel across the amplifier A The amplifier reset switch K1 and the first integration capacitor C1 between the input terminal and the output terminal, the low gain enable switch K2 and the second integration capacitor C2; the low gain enable switch K2 and the second integration capacitor C2 are connected in series across the amplifier A Between the signal voltage input terminal and the output terminal; the sampling circuit CDS is connected to the output terminal of the amplifier A through the isolation switch SW; the switch Sw is used to isolate the capacitive transconductance amplifier CTIA and the sampling circuit CDS, and can realize integration while reading Fu...

Embodiment 2

[0055] Such as Figure 4 As shown, the high dynamic range focal plane readout circuit of the present invention includes a capacitive transconductance amplifier CTIA, a sampling circuit SH, a source follower SF; the capacitive transconductance amplifier CTIA includes an amplifier A and a signal voltage connected in parallel across the amplifier A The amplifier reset switch K1 and the first integration capacitor C1 between the input terminal and the output terminal, the low gain enable switch K2 and the second integration capacitor C2; the low gain enable switch K2 and the second integration capacitor C2 are connected in series across the amplifier A between the input terminal and the output terminal; the sampling circuit SH is connected to the output terminal of the amplifier A through the isolating switch SW; the isolating switch Sw is used to isolate the capacitive transconductance amplifier CTIA and the sampling circuit SH, and can realize the integration function while readi...

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PUM

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Abstract

The invention relates to a high dynamic focal plane readout circuit and a sampling method thereof. The circuit comprises a capacitor transconductance amplifier, a sampling circuit and a source follower, wherein the capacitor transconductance amplifier comprises an amplifier, an amplifier reset switch and a first integrating capacitor which are arranged between a signal voltage input end and a signal voltage output end of the amplifier in parallel in a bridge connection manner, and a low-gain enable switch and a second integrating capacitor; and the low-gain enable switch and the second integrating capacitor are arranged between the signal voltage input end and the signal voltage output end of the amplifier in series. According to the high dynamic focal plane readout circuit provided by the invention, the first integrating capacitor and the second integrating capacitor constitute a low-gain integrating capacitor together, large full-well capacity can be realized, and serving as a high-gain integrating capacitor, the first integrating capacitor can provide small readout noise and a high conversion gain. Therefore, the high dynamic range focal plane readout circuit provided by the invention can meet the large full-well capacity and a small noise electron number at the same time and achieve a relatively high dynamic range.

Description

technical field [0001] The invention belongs to the technical field of detection, and relates to a high dynamic range focal plane readout circuit based on a capacitive transconductance amplifier and a sampling method thereof. Background technique [0002] Today, with the rapid development of microelectronics, photoelectric detection technology plays an important role in military, civilian and other economic fields. As an important part of photodetection, the focal plane readout circuit plays a very important role. [0003] Conventional focal plane readout circuit structure based on capacitive transconductance amplifier (CTIA) see figure 1 , the pixel circuit mainly includes a capacitive transconductance amplifier CTIA, a sampling circuit SH, and a source follower SF. The capacitive transconductance amplifier puts the integrating capacitor in the feedback loop, and the integrating capacitor integrates the photocurrent into a voltage for output during the integration process...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H04N5/378H04N5/357
CPCH04N25/60H04N25/75
Inventor 李扬姜涛马成王欣洋
Owner GPIXEL
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