A low power readout circuit approach for uncooled resistive microbolometer FPAs

Murat Tepegoz, Alperen Toprak, T. Akin
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引用次数: 1

Abstract

This paper presents a new, low power readout circuit approach for uncooled resistive microbolometer FPAs. The readout circuits of the microbolometer detectors contain parallel readout channels whose outputs are driven and multiplexed on large bus capacitances in order to form the output of the readout circuit. High number of opamps used in the readout channel array and large output capacitances that these opamps should drive necessitates the use of high output current capacity structures, which results in large power dissipation. This paper proposes two new methods in order to decrease the power dissipation of the readout circuits for uncooled thermal FPAs. The first method is called the readout channel group concept, where the readout channel array is separated into groups in order to decrease the load capacitance seen by the readout channel output. The second method utilizes a special opamp architecture where the output current driving capacity can be digitally controlled. This method enables efficient use of power by activating the high output current driving capacity only during the output multiplexing. The simulations show that using these methods results in a power dissipation reduction of 80% and 91% for the readout channels optimized for a single output 384x288 FPA operating at 25 fps and for a two-output 640x480 FPA operating at 30 fps, respectively.
非制冷电阻式微热计fpga的低功耗读出电路方法
本文提出了一种用于非制冷电阻式微热计fpga的低功耗读出电路。微测辐射热计探测器的读出电路包含并联读出通道,其输出在大的母线电容上驱动和复用,以形成读出电路的输出。读出通道阵列中使用的大量运放大器和这些运放大器驱动的大输出电容需要使用高输出电流容量结构,这导致了大功耗。本文提出了两种降低非冷却型热fpga读出电路功耗的新方法。第一种方法被称为读出通道组概念,其中读出通道阵列被分成组,以减少读出通道输出所看到的负载电容。第二种方法采用一种特殊的运放架构,其中输出电流驱动能力可以进行数字控制。该方法通过仅在输出多路复用期间激活高输出电流驱动能力来实现功率的有效利用。仿真结果表明,对于单输出384x288 FPA和双输出640x480 FPA分别以25fps和30fps优化的读出通道,使用这些方法可使功耗降低80%和91%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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