Liu Dan, Tang Ju, Lu Wengao, Chen Zhongjian, Zhao Baoying, Ji Lijiu
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引用次数: 7
摘要
提出了一种用于红外读出集成电路(ROIC)的柱式读出结构。当读出速率为5M Hz时,采用主从列放大器和分输出总线技术,使列读出级功率从47mw以上降低到6.74mw,降低幅度达85%以上。在主从读出结构中,主放大器将电荷转换为电压,时间限制放宽。从放大器驱动输出总线,保证读出速率,采用低功耗待机工作模式。分输出总线技术是将320对开关分成20组,减少连接在输出总线上的开关,这样有助于降低从放大器的功耗。基于CSMC 0.5μm DPDM n阱CMOS工艺,设计了像素尺寸为30x30 μm2的320X288 IR ROIC。
Low Power Design of Column Readout Stage for 320x288 Snapshot Infrared ROIC
A novel column readout architecture for infrared (IR) readout integrated circuit (ROIC) is proposed in this paper. When the readout rate is 5M Hz, by applying master-slave column amplifier and the technology of divided-output-bus, the power of the column readout stage has been reduced from more than 47mw to 6.74mw, which reduced more than 85%. In the master-slave readout structure, master amplifiers convert the charge to voltage, which have relaxed time limit. Slave amplifiers drive the output bus and ensure the readout rate, which adopts low power standby work mode. The technology of divided-output-bus is to divide the 320 pairs of switches to 20 groups and reduces the switches connected to the output bus, which does help to reduce power dissipation of slave amplifiers. A 320X288 IR ROIC with pixel size of 30X30μm2has been designed with this architecture which based on CSMC 0.5μm DPDM n-well CMOS process.
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