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Transmission transistor structure

A technology of transmission transistor and reset transistor, which is applied in semiconductor/solid-state device manufacturing, electrical components, circuits, etc. It can solve the problems of increasing the difficulty of opening, the weakening of the output signal at the signal output terminal, and large power consumption, etc., to meet the requirements of intensive integration, Improve the output strength and meet the effect of miniaturization

Active Publication Date: 2014-07-23
SHANGHAI HUALI MICROELECTRONICS CORP
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  • Application Information

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Problems solved by technology

[0008] 1) The turn-on voltage of the transfer transistor is increased, which increases the difficulty of turning it on, resulting in a delay in the signal transmission of the CMOS image sensor;
[0009] 2) The increase in the length of the conductive channel increases the volume of the CMOS image sensor chip, which consumes a lot of power during use, and does not conform to the development trend of miniaturization and intensive integration of semiconductor devices;
[0011] 4) Although the current method is beneficial to increase the inversion region, there is still the problem of a rapid decrease in the electron input rate of the photodiode, which in turn leads to the problem that the output signal at the signal output terminal is significantly weakened

Method used

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Embodiment

[0034] Such as Figure 4As shown, a transfer transistor structure for enhancing the output signal of a CMOS image sensor includes a photodiode 1, a P-type silicon base 8, a drain 9, an insulating layer 10 and a polysilicon gate 11; the photodiode 1 is used as the source of the transfer transistor 2, The source terminal and the drain terminal 9 form an NPN junction on the P-type silicon base 8, and the photodiode 1, the P-type silicon base 8, the drain terminal 9, the insulating layer 10 and the polysilicon gate 11 are applied in a CMOS image sensor, and the CMOS image sensor also includes Amplifier 5, reset tube 4, capacitor 3, selector 6, V TX power supply, V RX power supply, V DD power supply and V SX power supply, the drain terminal 9 of the transfer transistor 2 is connected to the gate of the amplifier 5 and the source of the reset transistor 4, and the silicon gate of the transfer transistor 2 is connected to the power supply V TX Connected; the photodiode 1 of the t...

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Abstract

A transmission transistor structure capable of enhancing signals output by a CMOS image sensor comprises a photodiode, a P-type silicon substrate, a drain terminal, an insulating layer, a polycrystalline silicon grid, a conductive channel and a heavily-doped region. The photodiode of a transmission transistor serves as a single photo-electric conversion diode and is responsible for converting optical signals to electric signals, and meanwhile, the photodiode of the transmission transistor also serves as the source end of the transmission transition responsible for electron transmission in the structure of the CMOS image sensor and is directly connected with the transmission transistor. The heavily-doped region with the junction depth being 0.12-0.18 micrometer is formed at the position, close to the polycrystalline silicon grid of the transmission transistor, of the photo diode through ion implantation, and the injected doping ion concentration is higher than the originally-injected doping ion concentration of the photodiode. According to the transmission transistor structure, when the CMOS image sensor outputs signals, the phenomenon that the conductive channel is pinched off too early can be avoided, photoelectrons are transmitted out as many as possible, and therefore the output strength of electric signals of the CMOS image sensor is enhanced.

Description

technical field [0001] The invention relates to the technical field of integrated circuit manufacturing, in particular to a transfer transistor structure in a CMOS (complementary metal oxide semiconductor) image sensor chip manufacturing process. Background technique [0002] In the basic structure of a CMOS image sensor chip, it is generally necessary to use a transfer transistor, such as figure 1 , figure 2 and image 3 As shown, among them, 1 is a photodiode, 2 is a transfer transistor, 3 is a capacitor, 4 is a reset transistor, 5 is an amplifier, 6 is a gate, 7 is polysilicon, 8 is a P-type silicon base, 9 is a drain terminal, 10 is an insulating layer, 11 is a polysilicon gate, and 12 is a conductive channel; each CMOS image sensor produces a pixel, and each pixel includes a photodiode and a transfer transistor. The function of the transfer transistor is to increase the sensitivity of the circuit. The photodiode 1 converts photoelectrons, which enter the circuit thr...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01L27/146H01L21/265
Inventor 杜文慧杨荣华王艳生
Owner SHANGHAI HUALI MICROELECTRONICS CORP
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