| 摘要 |
A single-polysilicon active pixel, methods for operating and making same, and an imaging device employing same are disclosed. The single-polysilicon active pixel comprises a photo site located on a substrate for generating and storing charge carriers, the charge carriers being generated from photonic energy incident upon the photo site and semiconductor substrate, a photo gate, a transfer transistor and output and reset electronics. The gate of the transfer transistor and the photo gate are defined in a single layer of polysilicon disposed on the semiconductor substrate. The source of transfer transistor is a doped region of substrate, referred to as a coupling diffusion, which provides the electrical coupling between the photo gate and the transfer transistor. The coupling diffusion allows for the transfer of a signal stored in a photo site under the photo gate to the output electronics for processing. A plurality of such single-polysilicon active pixels can be arranged to form an imaging system. The single-polysilicon active pixel may be operated by biasing the transfer transistor to the low operating voltage of the pixel, for example, 0 volts. By virtue of the structure of the single-polysilicon active pixel, this mode of operation results in the same timing as if the transfer transistor were clocked, but neither a clock nor the associated driving circuitry arc required. However, there is little no tendency for image lag as occurs in double polysilicon active pixels when they are operated in a manner which avoids clocking the transfer gate.
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