Phase error reduction of a digitally controlled phase shifter utilizing a variable phase and gain amplifier
Authors: 
Emre Ozeren, Can Çalışkan, Ilker Kalyoncu, Huseyin Kayahan, Yasar GurbuzAuthors Info & Claims
Abstract
This paper presents a variable phase and gain amplifier (VPGA), featured in a 4-bit digitally controlled phase shifter, that enables significant phase error reduction. The functionality of the VPGA is demonstrated by utilizing it between the third and fourth bits of a digitally controlled phase shifter. The first three bits are implemented using distributed active switches based on HBTs and the fourth bit is realized in a final amplification stage based on switching between common-base (CB) and common-emitter (CE) topologies. By the use of the VPGA, RMS phase error is reduced from 22° to 11° with the cost of reduced gain (0.1-2.5dB) and increased RMS gain error (1.0-2.2dB). A total of 360° phase shift is achieved in 4bit resolution with an RMS phase error of 0.1° at 10.5GHz, and a maximum 11° phase error in 4.5GHz bandwidth. The chip area is 2.150mm 1.040mm including pads, and the VPGA consumes only 0.32mm 0.410mm area. The chip is implemented in a 0.25-źm SiGe BiCMOS process. These performance parameters are attributed to the adjustment method by the VPGA applied in this work, which enables superior performance than the-state-of-the-art utilizing similar technologies.
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- Phase error reduction of a digitally controlled phase shifter utilizing a variable phase and gain amplifier
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Elsevier Science Publishers B. V.
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Published: 01 August 2016
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