高分辨率A/D转换器的双异质结构InP HBT技术

Proceedings of 1994 IEEE GaAs IC Symposium Pub Date : 1994-10-16 DOI:10.1109/GAAS.1994.636972

J. Jensen, A. Cosand, W. Stanchina, R. Walden, T. Lui, Y. Brown, M. Montes, K. Elliott, C. Kirkpatrick

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引用次数: 7

摘要

对于高分辨率模拟电路，我们开发了一种双异质结构双极晶体管(DHBT)技术，采用InP作为集电极材料。我们的基准dhbt分别在55、100 V、70 GHz和60 GHz下显示了电流增益/spl beta/、早期电压V/sub A/、f/sub T/和f/sub max/。我们已经实现了一个模拟单元库，用于构建高分辨率/spl Delta//spl Sigma/调制器电路。我们使用单元库来演示一阶调制器并验证这些模拟单元的设计。当采样率为4 GSPS, OSR为32(即输入带宽为62.5 MHz)时，一阶调制器的信噪比为40.3 dB。该一阶调制器使用/spl plusmn/5 V电源运行，功耗为572 mW。

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Double heterostructure InP HBT technology for high resolution A/D converters

For high resolution analog circuits we have developed a double heterostructure bipolar transistor (DHBT) technology using InP as the collector material. Our baseline DHBTs have demonstrated current gain /spl beta/, early voltage V/sub A/, f/sub T/, and f/sub max/ of 55, 100 V, 70 GHz, and 60 GHz, respectively. We have implemented an analog cell library to build high resolution /spl Delta//spl Sigma/ modulator circuits in this technology. We have used the cell library to demonstrate a first order modulator and to verify the design of these analog cells. At a sample rate of 4 GSPS and an OSR equal to 32 (i.e., input bandwidth of 62.5 MHz) the first order modulator demonstrated an SNR of 40.3 dB. This first order modulator operates using /spl plusmn/5 V power supplies and dissipates 572 mW.

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Proceedings of 1994 IEEE GaAs IC Symposium

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