This paper presents a dynamic range (DR) enhanced readout technique with a two-step time-to-digital converter (TDC) for high speed linear CMOS image sensors. A multi-capacitor and self-regulated capacitive trans-impedance amplifier (CTIA) structure is employed to extend the dynamic range. The gain of the CTIA is auto adjusted by switching different capacitors to the integration node asynchronously according to the output voltage. A column-parallel ADC based on a two-step TDC is utilized to improve the conversion rate. The conversion is divided into coarse phase and fine phase. An error calibration scheme is also proposed to correct quantization errors caused by propagation delay skew within ?Tclk~+Tclk. A linear CMOS image sensor pixel array is designed in the 0.13 μm CMOS process to verify this DR-enhanced high speed readout technique. The post simulation results indicate that the dynamic range of readout circuit is 99.02 dB and the ADC achieves 60.22 dB SNDR and 9.71 bit ENOB at a conversion rate of 2 MS/s after calibration, with 14.04 dB and 2.4 bit improvement, compared with SNDR and ENOB of that without calibration.
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机译:本文提出了一种动态范围(DR)增强型读出技术,该技术具有两步时间数字转换器(TDC),用于高速线性CMOS图像传感器。采用多电容器自调节电容互阻放大器(CTIA)结构来扩展动态范围。通过根据输出电压异步将不同的电容器切换到积分节点,可自动调节CTIA的增益。利用基于两步TDC的列并行ADC来提高转换率。转化分为粗相和细相。还提出了一种误差校正方案,以校正由ΔT clk 〜+ T clk 内的传播延迟偏斜引起的量化误差。在0.13μmCMOS工艺中设计了线性CMOS图像传感器像素阵列,以验证这种DR增强的高速读取技术。后仿真结果表明,读出电路的动态范围为99.02 dB,ADC在校准后以2 MS / s的转换速率实现60.22 dB SNDR和9.71位ENOB,与SNDR和ENOB无需校准。
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