Aesa收发器参数校正系统集成温度传感器设计

I. Filippov, D. A. Snegur, V. Vertegel
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引用次数: 2

摘要

有源电子扫描阵列(AESAs)广泛应用于国防工业和电信领域。这种系统在特殊和消费电子(GSM, Wi-Fi, WiMAX, LTE,第五代移动网络通信技术,卫星导航和通信)领域具有发展潜力。与无源相控阵相比,有源相控阵由于在阵列的每个通道中存在有源收发模块而具有额外的信号误差源,由于不稳定因素(温度、电源电压变化等)的影响,其每次的特性都是不同的。因此,需要一个基于集成温度传感器的收发模块参数校正块。给出了以$0.18\ \mu \text{m}$ SiGe BiCMOS技术设计的集成温度传感器的仿真结果。它提供−60-85°C范围内的温度测量,分辨率为5位。测量的绝对误差小于1°C。传感器功耗小于17mw。芯片面积为0,018 mm2。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Design of Integrated Temperature Sensor for Aesa Transceiver Parameters Correction System
Active electronically scanned arrays (AESAs) are widely used in defense industry and telecommunications. Such systems have potential for development in the field of special and consumer electronics (GSM, Wi-Fi, WiMAX, LTE, fifth generation of mobile network communication technology, satellite navigation and communications). In contrast to passive phased arrays, AESA have additional sources of signal errors due to the presence of active transceiver modules in each channel of the array, the characteristics of which are different at each time due to the influence of destabilizing factors (temperature, change in supply voltages etc.). Thus, there is a need for a block of transceiver module parameters correction based on integrated temperature sensor. Simulation results of integrated temperature sensor designed in $0.18\ \mu \text{m}$ SiGe BiCMOS technology are presented. It provides temperature measurement in −60—85°C range with 5-bit resolution. Absolute error of measurements is less than 1°C. Power consumption of the sensor is less than 17 mW. Chip area is 0,018 mm2.
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