用于数字蜂窝系统的大功率DPDT天线开关MMIC

GaAs IC Symposium IEEE Gallium Arsenide Integrated Circuit Symposium 17th Annual Technical Digest 1995 Pub Date : 1995-10-29 DOI:10.1109/GAAS.1995.528965

K. Kohama, T. Ohgihara, Y. Murakami

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引用次数: 33

摘要

在本文中，我们提出了两种用于数字蜂窝手机的新型DPDT开关GaAs JFET mmic。这些集成电路通过叠加三个浅Vp的jfet并使用新型偏置电路，即使在低控制电压下也具有低插入损耗和高功率处理能力的优异性能。一个DPDT开关IC有两个分路FET块，无需外部部件即可获得高隔离。插入损耗小于0.6 dB，隔离度超过25 dB，最高可达2 GHz。即使控制电压为0/3 V, P1 dB也约为35 dBm。另一种DPDT开关IC利用外部电感的并联谐振和OFF状态场效应管漏极和源极之间的寄生电容。例如，通过附加15个nH电感，IC在1.5 GHz时的插入损耗低至0.4 dB，隔离度优于40 dB，并且在0/3 V控制下P1 dB约为34 dBm。

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High power DPDT antenna switch MMIC for digital cellular systems

In this paper, we propose two types of new DPDT switch GaAs JFET MMICs for digital cellular handsets. These ICs have excellent performances of low insertion loss and high power handling capability even with a low control voltage by stacking three JFETs with shallow Vp and using a novel bias circuit. One DPDT switch IC has two shunt FET blocks and can obtain high isolation without external parts. Insertion loss smaller than 0.6 dB and isolation over 25 dB up to 2 GHz were achieved. P1 dB was about 35 dBm even with the control voltage of 0/3 V. Another DPDT switch IC utilizes a parallel resonance of external inductor and parasitic capacitance between drain and source of OFF state FETs. By attaching 15 nH inductors, for example, the IC exhibited insertion loss as low as 0.4 dB and isolation of better than 40 dB at 1.5 GHz, and P1 dB was about 34 dBm with the 0/3 V control.

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来源期刊

GaAs IC Symposium IEEE Gallium Arsenide Integrated Circuit Symposium 17th Annual Technical Digest 1995

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