An investigation of the current gain of a drift transistor at frequencies up to 105 Mc/s

Hyde F.J.

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An investigation of the current gain of a drift transistor at frequencies up to 105 Mc/s

机译：在高达105 Mc / s的频率下研究漂移晶体管的电流增益

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The complex internal short-circuit current gain, ????????d, of a type 2N247 plane alloy-junction germanium transistor has been determined from measurements of the external short-circuit current gain, by taking account of the effects of the emitter and collector depletion-layer capacitances and the ohmic base resistance. Measurements have been made up to 105 Mc/s and over a range of emitter current from 50 ????????A to 8 mA. It has been found that the loci of ????????d may be interpreted in terms of Kroemer's theoretical treatment, which is based on the existence of a uniform drift field across the base. The value of ????????V/kT is found to be 5 at room temperature.

机译：考虑到以下因素，根据外部短路电流增益的测量结果确定了2N247型平面合金结锗晶体管的内部短路电流复数增益d。发射极和集电极耗尽层电容和欧姆基极电阻。已经进行了高达105 Mc / s的测量，并且在50 A至8 mA的发射电流范围内进行测量。已经发现，可以根据Kroemer的理论处理来解释Δθd的基因座，该理论处理是基于整个基体上均匀漂移场的存在。在室温下，V / kT的值为5。

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《Proceedings of the IEE - Part B: Electronic and Communication Engineering》 |1959年第28期|共8页
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Hyde F.J.;
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1. An investigation of the current gain of transistors at frequencies up to 105 Mc/s [J] . Hyde F.J., Smith R.W. Proceedings of the IEE - Part B: Radio and Electronic Engineering . 1958,第21期

机译：在高达105 Mc / s的频率下研究晶体管的电流增益
2. A wide-band jig for the measurement of the current gain of transistors in the frequency range 20????????1000 Mc/s [J] . Bassett H.G. Electrical Engineers, Proceedings of the Institution of . 1963,第1期

机译：一种宽带夹具，用于测量频率范围为20 ???????? 1000 Mc / s的晶体管的电流增益
3. An investigation of the dependence of the current gain of a plane-alloy-junction transistor on emitter current and frequency [J] . Hyde F.J. Proceedings of the IEE - Part B: Electronic and Communication Engineering . 1959,第28期

机译：平面合金结晶体管的电流增益对发射极电流和频率的依赖性研究
4. A High Voltage (1,750V) and High Current Gain (p= 24.8) 4H-SiC Bipolar Junction Transistor Using a Thin (12 μm) Drift Layer [C] . J. H. Zhao, J. Zhang, P. Alexandrov, International Conference on Silicon Carbide and Related Materials 2003 pt.2(ICSCRM 2003); 20031005-20031010; Lyon; FR . 2003

机译：使用薄（12μm）漂移层的高电压（1,750V）和高电流增益（p = 24.8）4H-SiC双极结晶体管
5. Improved current -gain cutoff frequency and high gain -bandwidth amplifiers in transferred -substrate HBT technology. [D] . Mensa, Dino Lamonte. 1999

机译：转移衬底HBT技术中改进的电流增益截止频率和高增益带宽放大器。
6. Corrigendum: Improved Drain Current Saturation and Voltage Gain in Graphene–on–Silicon Field Effect Transistors [O] . Seung Min Song, Jae Hoon Bong, Wan Sik Hwang, -1

机译：更正：改善石墨烯-硅-场效应晶体管的漏极电流饱和度和电压增益
7. On-line monitoring of base current and forward emitter current gain of the voltage regulator's serial pnp transistor in a radiation environment [O] . Vukić Vladimir Đ., Osmokrović Predrag V. 2012

机译：在辐射环境中在线监测稳压器串联pnp晶体管的基极电流和正向发射极电流增益
8. Test Circuits for the Measurement of Transistor Current-Gain in the 0.1- To 200-Mc Frequency Range [R] . George N. Kambouris, Erwin Hirschmann 1959

机译：用于测量0.1至200-mc频率范围内的晶体管电流增益的测试电路

An investigation of the current gain of a drift transistor at frequencies up to 105 Mc/s

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