低直流功率高增益带宽产品InAlAs/InGaAs-InP HBT直接耦合放大器

GaAs IC Symposium IEEE Gallium Arsenide Integrated Circuit Symposium. 18th Annual Technical Digest 1996 Pub Date : 1996-11-03 DOI:10.1109/GAAS.1996.567829

K. Kobayashi, L. Tran, T. Block, A. Oki, D. Streit

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引用次数: 21

摘要

在这里，我们报告了一种低直流功率和电压工作的InAlAs/InGaAs-InP HBT直接耦合放大器，该放大器实现了3.66 GHz/mW的每直流功率优值(GBP/P/sub dc/)的增益带宽积。它比以前基于InP, GaAs或Si-Ge材料的最先进的HBT和BJT放大器改进了44%。该放大器由基于低带隙InAlAs/InGaAs hbt的两级直接耦合设计组成，f/sub T/ s和f/sub max/ s分别为80 GHz和200 GHz。在3v电源的自偏置下，放大器获得15.1 dB增益和22 GHz带宽，同时仅消耗34.2 mW直流功率。在5v和23.4 mA偏置时，增益为19.3 dB，带宽为25 GHz，相应的开路通阻为59.5 dB-/spl Omega/ (944 /spl Omega/)和25 GHz。50 /spl ω /输出负载的有效通阻为52.7 dB-/spl ω /，带宽为GHz。有效跨阻带宽积为10.3 THz-/spl ω /，比之前消耗两倍以上直流功率的AlGaAs/GaAs HBT的8.5 THz-/spl ω /高21%。这项工作说明了InAlAs/InGaAs hbt可以用很少的直流功率实现高增益带宽和速度性能，并表明未来高数据速率IC应用(如光电子通信)的巨大潜力。

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Low dc power high-gain bandwidth product InAlAs/InGaAs-InP HBT direct-coupled amplifiers

Here we report on a low dc power and voltage operated InAlAs/InGaAs-InP HBT direct-coupled amplifier which achieves a record Gain-Bandwidth-Product per dc power figure-of-merit (GBP/P/sub dc/) of 3.66 GHz/mW. It is a 44% improvement over previous state-of-the-art HBT and BJT amplifiers based on InP, GaAs, or Si-Ge materials. The amplifier consists of a 2-stage direct-coupled design based on low bandgap InAlAs/InGaAs HBTs with f/sub T/'s and f/sub max/'s of 80 GHz and 200 GHz, respectively. Self-biased from a 3 V supply, the amplifier obtains 15.1 dB gain with a 22 GHz bandwidth while consuming only 34.2 mW of dc power. Biased at 5 V and 23.4 mA, a gain of 19.3 dB and a bandwidth of 25 GHz was achieved with a corresponding open circuit transimpedance of 59.5 dB-/spl Omega/ (944 /spl Omega/) and 25 GHz. Effective 50 /spl Omega/ output loaded transimpedance is 52.7 dB-/spl Omega/ with a GHz bandwidth. The effective transimpedance bandwidth-product is 10.3 THz-/spl Omega/ and is 21% higher than the previous record of 8.5 THz-/spl Omega/ for an AlGaAs/GaAs HBT which consumes more than twice the dc power. This work illustrates the high gain-bandwidth and speed performance which InAlAs/InGaAs HBTs can achieve with very little dc power and suggests great potential for future high data rate IC applications such as optical-electronic communications.

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GaAs IC Symposium IEEE Gallium Arsenide Integrated Circuit Symposium. 18th Annual Technical Digest 1996

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