高性能焦平面阵列需要与驱动电路和信号波形处理电路结合起来应用。我们评论了不同阵列型式的各种要求,研究了一种适应性强的组件式系统,该系统可以用于前文介绍的所有阵列。而且这种组件式系统可用作研究阵列的应用和阵列性能的工具。它能以它现有的结构形式用于某些应用中,而且也设计了小型化形式以适合受空间限制和大规模阵列的需要。系统设计考虑了最大限度的适应各种工作条件与实现的现实性。为此,大部分参数由台式计算机编成程序,从而简化了信息的存贮和检索。然而,在实际应用中,工作参数可容易地存贮在软件硬件相结合的固件中。除基本的驱动和信号波形处理功能外,电子设备组件还能控制附加的功能,如微扫描,“快速”工作模式以及线性或分块扫描的反射镜扫描转换等功能。 High-performance focal plane array needs to be combined with driving circuits and signal waveform processing circuits. We reviewed various requirements for different array types and investigated a highly adaptable, component-based system that can be used with all of the arrays previously described. And this kind of component system can be used as a tool to study array applications and array performance. It can be used in some applications in its existing form, and it has also been designed in miniaturized form to fit space-constrained and large-scale arrays. System design to consider the maximum to adapt to a variety of working conditions and the reality of realization. For this reason, most of the parameters are programmed by the desktop computer, simplifying the storage and retrieval of information. However, in practical applications, the operating parameters can be easily stored in the firmware combined with the software and hardware. In addition to basic drive and signal waveform processing capabilities, electronics components control additional features such as micro-scanning, “fast” working modes, and mirror scan conversion for linear or block-wise scanning.