1. A Novel Distributed Amplifier With High Gain, Low Noise, and High Output Power in \0.18- \mu\ m CMOS Technology.
- Author
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Kao, Jui-Chih, Chen, Ping, Huang, Pin-Cheng, and Wang, Huei
- Subjects
COMPLEMENTARY metal oxide semiconductors ,DISTRIBUTED amplifiers ,ENERGY consumption ,ULTRA-wideband radar ,IMAGING systems ,MILITARY electronics - Abstract
A new distributed amplifier (DA) topology is proposed, which is a combination of the conventional DA and the cascaded single-stage DA. This DA topology can provide wide bandwidth with considerations of the gain, noise figure (NF), and output power simultaneously, and requires reasonable dc power consumption. In this paper, two termination methods of this combination are investigated. From the measurements, the first DA proposed by Chen in 2011 has a small-signal gain of 20.5 dB, a 3-dB bandwidth of 35 GHz, and a gain-bandwidth (GBW) product of 371 GHz. The maximum output power at 1-dB output compression point (OP1~{dB}) is 8.6 dBm and the NF is between 6.8–8 dB at frequencies lower than 18 GHz. The chip size, including testing pads, is only \ 0.78 mm^2, and the ratio of the GBW to chip size is \476 GHz/mm^2. The second DA has a small-signal gain of 24 dB, a 3-dB bandwidth of 33 GHz, and a GBW product of 523 GHz. The maximum OP1~{dB} is 9 dBm and the NF is between 6.5–7.5 dB at frequencies lower than 18 GHz. The chip size including testing pads is only \ 0.83 mm^2, and the ratio of the GBW to chip size is \630 GHz/\ mm^2. To the authors' knowledge, the second circuit has the highest ratio of GBW to chip area and the highest figure-of-merit in \0.18- \mu\ m CMOS, and it has a comparable performance with other DAs in advanced process. [ABSTRACT FROM AUTHOR]
- Published
- 2013
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