A 60 GHz 5-bit digital controlled phase shifter in a digital 40-nm CMOS technology without ultra-thick metals

Hao Gao; K. Ying; M.K. Matters-Kammerer; P Harpe; B. Wang; B. Liu; Wouter Serdijn; P.G.M. Baltus

doi:10.1049/el.2016.0949

A 60 GHz 5-bit digital controlled phase shifter in a digital 40-nm CMOS technology without ultra-thick metals

Hao Gao, K. Ying, M.K. Matters-Kammerer, P Harpe, B. Wang, B. Liu, Wouter Serdijn, P.G.M. Baltus

Bio-Electronics

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12 Citations (Scopus)

Abstract

A 5-bit digital controlled switch-type passive phase shifter realised in a 40 nm digital CMOS technology without ultra-thick metals for the 60 GHz Industrial, Scientific and Medical (ISM) band is presented. A patterned shielding with electromagnetic bandgap structure and a stacked metals method to increase the on-chip inductor quality factor are proposed. To reduce the insertion loss from the transistors, the transistor switches are implemented with a body-source connection. For all 32 states, the minimum phase error is 1.5°, and the maximum phase error is 6.8°. The measured insertion loss is -20.9 ± 1 dB including pad loss at 60 GHz and the return loss is >10 dB over 57-64 GHz. The total chip size is 0.24 mm²with 0 mW DC power consumption.

Original language	English
Pages (from-to)	1611-1613
Number of pages	3
Journal	Electronics Letters
Volume	52
Issue number	19
DOIs	https://doi.org/10.1049/el.2016.0949
Publication status	Published - 15 Sept 2016

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title = "A 60 GHz 5-bit digital controlled phase shifter in a digital 40-nm CMOS technology without ultra-thick metals",

abstract = "A 5-bit digital controlled switch-type passive phase shifter realised in a 40 nm digital CMOS technology without ultra-thick metals for the 60 GHz Industrial, Scientific and Medical (ISM) band is presented. A patterned shielding with electromagnetic bandgap structure and a stacked metals method to increase the on-chip inductor quality factor are proposed. To reduce the insertion loss from the transistors, the transistor switches are implemented with a body-source connection. For all 32 states, the minimum phase error is 1.5°, and the maximum phase error is 6.8°. The measured insertion loss is -20.9 ± 1 dB including pad loss at 60 GHz and the return loss is >10 dB over 57-64 GHz. The total chip size is 0.24 mm2with 0 mW DC power consumption.",

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AU - Gao, Hao

AU - Ying, K.

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AU - Harpe, P

AU - Wang, B.

AU - Liu, B.

AU - Serdijn, Wouter

AU - Baltus, P.G.M.

PY - 2016/9/15

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A 60 GHz 5-bit digital controlled phase shifter in a digital 40-nm CMOS technology without ultra-thick metals

Abstract

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