Readout integrated circuit is one of the crucial components of infrared focal plane arrays.
读出电路是红外焦平面阵列的关键组成部分之一。
Nonuniformity of infrared focal plane arrays is a key problem that must be solved in its applications.
红外焦平面阵列的非均匀性是其应用中必须解决的技术难题之一。
In hybrid focal plane arrays, the coupling between detector and readout circuit is realized by input circuit.
在混合式焦平面阵列中,探测器和读出电路的耦合通过输入级电路实现。
A new design of driving pulse circuit for Infrared Focal Plane Arrays (IRFPA) with CPLD is presented in this paper.
提出了一种红外焦平面器件驱动电路的设计方法。
The infrared focal plane arrays (IRFPA) can be classified into the cooled focal plane arrays and uncooled focal plane arrays (UFPA).
红外焦平面包括制冷型焦平面和非制冷型焦平面两种。
In this paper, the disadvantages of the traditional nonuniformity correction methods for infrared focal plane arrays are analyzed firstly.
首先分析了传统的非均匀性校正方法的缺点,指出自适应校正红外焦平面器件非均匀性的必要性。
PST thin films are excellent materials for preparing ferroelectric miniature refrigerator and uncooled pyroelectric infrared focal plane arrays.
该薄膜是研制铁电微型致冷器和非致冷热释电红外焦平面阵列的优选材料。
In order to improve the real-time correction speed of infrared focal plane arrays (IRFPA), a new way of two-point compression correction is presented.
为了提高红外焦平面阵列两点实时非均匀性校正速度,提出两点压缩校正的新方法。
Compensating for temporal drift of fixed-pattern noise is an important problem in the techniques for nonuniformity correction of infrared focal plane arrays.
补偿固定噪声的时间漂移是红外焦平面非均匀校正技术中面临的一个重要问题。
In order to solve the problem of motion estimation for nonuniformity correction of infrared focal plane arrays, a new fast algorithm for image registration is presented.
为了解决红外焦平面非均匀算法中出现的运动估值问题,提出了一种新的快速图像配准算法。
The technology of staring uncooled infrared focal plane arrays (UFPA) with high-density and low-cost is the third breakthrough in the developing of infrared imaging technology.
高密度、低成本的非致冷凝视焦平面阵列的出现使红外热成像技术发生了第三次变革。
In order to reduce power consumption of uncooled infrared focal plane arrays, the readout circuit of temperature stabilizer eliminated thermoelectric coolers (TEC) was studied.
为了降低非制冷红外焦平面阵列的功耗,研究了去除热电制冷器(TEC)等温度稳定装置的读出电路。
In traditional cameras the focal plane was a piece of film; modern ones use arrays of digital sensors.
在传统相机上以胶卷作为焦平面;现代相机使用数字传感器列阵的方式。
In traditional cameras the focal plane was a piece of film; modern ones use arrays of digital sensors.
在传统相机上以胶卷作为焦平面;现代相机使用数字传感器列阵的方式。
应用推荐