Design of a low-insertion-phase-shift MMIC attenuator integrated with a serial-to-parallel converter

Kangrui Wang; Zhiyu Wang; Gang Wang; Hua Chen; Qin Zheng; Faxin Yu

doi:10.1587/elex.14.20170924

This article has now been updated. Please use the final version.

Design of a low-insertion-phase-shift MMIC attenuator integrated with a serial-to-parallel converter

Kangrui Wang, Zhiyu Wang, Gang Wang, Hua Chen, Qin Zheng, Faxin Yu

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Keywords: GaAs E/D pHEMT, serial-to-parallel converter, MMIC, Attenuator

JOURNAL FREE ACCESS Advance online publication

Article ID: 14.20170924

DOI https://doi.org/10.1587/elex.14.20170924

The final version of this article is now available: Vol. 14 (2017), No. 20 pp. 20170924-20170924

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Abstract

This work presents a monolithic DC~4GHz 6-bit digital attenuator with low insertion phase shift and attenuation error. Based on GaAs E/D pHEMT process, a serial-to-parallel converter is introduced to decrease the control pads of the chip. In the 16dB attenuation bit, a switched-path-type topology is employed in order to extend the bandwidth and achieve low insertion phase shift. The attenuator has 0.5dB resolution and 0~31.5dB attenuation range. Measurement shows less-than-2.3dB insertion loss at reference state, and larger-than-14dB return loss at all states. An rms attenuation error of less-than-0.3dB and phase-shift-variations less than 2deg are achieved. The size of the chip is 2.0mm×1.7mm.

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