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KAI-2020-ABA-CD-AE Datasheet(PDF) 6 Page - ON Semiconductor |
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KAI-2020-ABA-CD-AE Datasheet(HTML) 6 Page - ON Semiconductor |
6 / 37 page KAI−2020 www.onsemi.com 6 Horizontal Register to Floating Diffusion Figure 5. Horizontal Register to Floating Diffusion Architecture R OG H2B H1B H2S H2B H1S H1B RD H1S n+ Floating Diffusion n (burried channel) n n+ p (GND) n (SUB) n− n− n− n− The HCCD has a total of 1648 pixels. The 1640 vertical shift registers (columns) are shifted into the center 1640 pixels of the HCCD. There are 4 pixels at both ends of the HCCD, which receive no charge from a vertical shift register. The first 4 clock cycles of the HCCD will be empty pixels (containing no electrons). The next 16 clock cycles will contain only electrons generated by dark current in the VCCD and photodiodes. The next 1608 clock cycles will contain photo−electrons (image data). Finally, the last 16 clock cycles will contain only electrons generated by dark current in the VCCD and photodiodes. Of the 16 dark columns, the first and last dark columns should not be used for determining the zero signal level. Some light does leak into the first and last dark columns. Only use the center 14 columns of the 16 column dark reference. When the HCCD is shifting valid image data, the timing inputs to the electronic shutter (SUB), VCCD (V1, V2), and fast line dump (FD) should be not be pulsed. This prevents unwanted noise from being introduced. The HCCD is a type of charge coupled device known as a pseudo−two phase CCD. This type of CCD has the ability to shift charge in two directions. This allows the entire image to be shifted out to the video L output, or to the video R output (left/right image reversal). The HCCD is split into two equal halves of 824 pixels each. When operating the sensor in single output mode the two halves of the HCCD are shifted in the same direction. When operating the sensor in dual output mode the two halves of the HCCD are shifted in opposite directions. The direction of charge transfer in each half is controlled by the H1BL, H2BL, H1BR, and H2BR timing inputs. |
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