出版社:The Institute of Image Information and Television Engineers
摘要:Conventional CCD registers for full frame or frame transfer scheme image sensors have disadvantages such as low light sensitivity due to light absorption in electrodes, high dark current generated at Si-Si02 interfaces, and small charge handling capability that results from the surface pinning mode of operation. To solve these problems, we proposed CCD register driven through a barrier in February 2000. The register cell was an inverted version of the photo-diode with a vertical overflow drain that is used as the driving electrode. In simulating the register's characteristics in back illumination mode, we found that all the above-disadvantages disappeared, but the characteristics were rather sensitive to the height, width, and location of SiO2 film required to isolate electrodes. Therefore, some difficulty remains in fabrication processes. This paper proposes a new version of DTB-CCD where a specific-feature SiO2 layer covers a part of the barrier surface. This layer not only helps to minimize the structure sensitiveness of performance but also makes it possible to employ the conventional overlapping poly-Silicon electrode process. A thin SiO2 layer between electrodes and optimized width and thickness of the Si02 layer on the barrier minimizes potential barrier height in channels and thus improve transfer efficiency. The simulated charge handling capability of the improved DTB-CCD was 3-4 times greater than that of a two-phase CCD register driven by surface pinning mode.
关键词:CCD;Image Sensor;Signal Charge;Transfer Inefficiency;Dark Current;Drive through Barrier
