基于载流子复合-偏转效应的三轴磁晶体管仿真

2014 11th International Conference on Electrical Engineering/Electronics, Computer, Telecommunications and Information Technology (ECTI-CON) Pub Date : 2014-05-14 DOI:10.1109/ECTICON.2014.6839815

T. Phetchakul, Samudchad Muangthong, C. Leepattarapongpan, A. Poyai

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引用次数: 0

摘要

本文提出了一种基于载流子复合和偏转效应的三轴磁晶体管，用于检测BX、BY和BZ方向的磁场。该结构由四个沿x轴和y轴的磁晶体管组成，具有一个共同的发射极，而所有集电极和基极都是独立的。输出形式为集电极和基极差电流ΔICB。对于垂直场检测，磁晶体管使用偏差集电极电流和复合基极电流的载流子偏转为ΔICB。对于横向场检测BX和BY，它使用一对晶体管发射垂直于磁场的偏置电流。输出响应是一对晶体管中一个集电极和另一个基极电流的差电流，分别为BX和By的ΔIC(1)B(3)和ΔIC(2)B(4)。经TCAD senaurus仿真，BX、BY和BZ方向在IE 5 mA、0-1 T时的灵敏度分别为-0.0248 mA/T、-0.0248 mA/T和0.0092 mA/T。

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A simulation of 3-axis magnetotransistor based on the carrier recombination — Deflection effect

This article presents 3 axis magnetotransistor based on the carrier recombination and deflection effect for detecting the magnetic field in B_X, B_Y and B_Z direction. The structure composes of four magnetotransistors along with x-axis and y-axis that has a common emitter while all collectors and bases are independent. The output is in the form of difference current of collector and base ΔI_CB. For vertical field detection, the magnetotransistor uses the carrier deflection of the deviation collector current and recombination base current as ΔI_CB. For lateral field detection B_X and B_Y it uses a pair of transistors that emitter biased current perpendicular to magnetic field. The output response is the difference current between collector of one and the base current of the another of a pair transistors as ΔI_C(1)B(3) and ΔI_C(2)B(4) for B_X and B_y, respectively. The sensitivity at I_E 5 mA, 0-1 T of B_X, B_Y and B_Z direction are -0.0248 mA/T, -0.0248 mA/T and 0.0092 mA/T, respectively by TCAD Sentaurus simulation.

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2014 11th International Conference on Electrical Engineering/Electronics, Computer, Telecommunications and Information Technology (ECTI-CON)

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