时序发生器用于120fps CMOS图像传感器，采用0.13 μm CMOS技术

2017 IEEE Asia Pacific Conference on Postgraduate Research in Microelectronics and Electronics (PrimeAsia) Pub Date : 2017-10-01 DOI:10.1109/PRIMEASIA.2017.8280380

W. C. Yew, S. Shafie, I. Halin, R. Sidek

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引用次数: 1

摘要

图像清晰度是数字成像的一项重要指标。然而，典型的卷帘式互补金属氧化物半导体(CMOS)图像传感器，帧率为30fps，用于相对慢速的图像捕获，在捕获快速运动的物体时存在图像模糊现象。因此，需要集成芯片控制电路来实现高帧率移位寄存器结构的读出控制电路，以克服滚动快门读出方案所带来的图像模糊现象。本文采用0.13μm CMOS技术，设计了一种时序发生器作为120fps CMOS图像传感器的控制电路。利用ModelSim对设计进行了建模和分析，并利用Synopsys EDA工具成功地进行了布局后验证。片上时序发生器设计模块的总功耗为4.0733μW，总设计面积为61.64 χ 60.64 μm2。

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Timing generator for 120fps CMOS image sensors on 0.13 μm CMOS technology

Image clarity is an important criterion in digital imaging. However, typical rolling shutter type complementary metal-oxide semiconductor (CMOS) image sensors with frame rate of 30fps which is used for relatively slow speed image capture suffers from image blur phenomena when capturing the fast-moving objects. Therefore, an integrating chip control circuit is needed for a high frame rate shift registers structure readout control circuit to overcome the image blur phenomena suffered by rolling shutter readout scheme. In this paper, a timing generator acts as the control circuit for 120fps CMOS image sensors on 0.13μm CMOS technology is developed. The design is modeled and analyzed using ModelSim for FPGA verification and post layout validation is successfully demonstrated with Synopsys EDA tool. The on-chip timing generator design block results in total power consumption of 4.0733μW and total design area of 61.64 χ 60.64 μm2.

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2017 IEEE Asia Pacific Conference on Postgraduate Research in Microelectronics and Electronics (PrimeAsia)

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