一种用于微波信号极化精密检测的新型MOSFET器件的研究与建模

Proceedings of the Fifteenth National Radio Science Conference. NRSC '98 (Cat. No.98EX109) Pub Date : 1998-02-24 DOI:10.1109/NRSC.1998.711508

A. El-Hennawy, E. Yousry, A. Ramadan, H. Abd El-Hameed, M. Abd El-Fatah

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引用次数: 0

摘要

许多仪器和装置在使用中，并满足性能要求。然而，大多数既不划算也不可靠。它们笨重、笨重、复杂。此外，它们不能在单个芯片上使用MOSFET技术集成。本文介绍了一种用于精确探测微波信号的新型探测器。新型探测器由一个短沟道MOSFET (L/spl sim/2 /spl mu/m)作为热载流子注入器，四周环绕四个扩散集电极，集电极呈拓扑状排列，用于探测待测或监测磁场的大小并确定其方向。电流交叉耦合技术用于补偿传感器泄漏电流(小60 dB)。引入负反馈，提高了检测器的线性度(大于2%)和稳定性。在宽动态范围(/spl sim/120 dB)的测量范围内，已测量到小至10 nT的磁场。

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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Study and modeling of a new MOSFET device for precision detection of microwave signal polarization

Many instruments and devices are in use and satisfying performance requirements. However, most are neither cost effective nor reliable. They are bulky, heavy and sophisticated. Moreover, they cannot be integrated using MOSFET technology on a single chip. The paper presents a new detector for precise detection of microwave signals. The new detector is composed of a short channel MOSFET (L/spl sim/2 /spl mu/m), acting as a hot carrier injector, surrounded by four diffused collectors, which are topologically, arranged so as to detect the magnitude of the magnetic field to be measured or monitored and determine its orientation. A current cross-coupling technique is used to compensate for the sensor leakage currents (60 dB smaller). A negative feedback is introduced to improve the detector linearity (better than 2%) and stability. Magnetic field as small as 10 nT has been measured over a wide dynamic range (/spl sim/120 dB) of measurement.

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Proceedings of the Fifteenth National Radio Science Conference. NRSC '98 (Cat. No.98EX109)

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