A High-Linearity [Formula Omitted]-Band Four-Element Phased-Array Receiver: CMOS Chip and Packaging

This paper presents the design and chip-on-board packaging of a high-linearity four-element phased-array receiver for 9-10-GHz applications. The phased-array is built using 0.13-[Formula Omitted]m CMOS with a single-ended design, and it results in a measured gain of 10.1 dB, an input [Formula Omitte...

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Veröffentlicht in:IEEE transactions on microwave theory and techniques 2011-08, Vol.59 (8), p.2064
Hauptverfasser: Shin, Donghyup, Rebeiz, Gabriel M
Format: Artikel
Sprache:eng
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Zusammenfassung:This paper presents the design and chip-on-board packaging of a high-linearity four-element phased-array receiver for 9-10-GHz applications. The phased-array is built using 0.13-[Formula Omitted]m CMOS with a single-ended design, and it results in a measured gain of 10.1 dB, an input [Formula Omitted] of [Formula Omitted]12.5 dBm, an input [Formula Omitted] of [Formula Omitted]4 dBm, and a noise figure of 3.4 dB at 9.5 GHz. An rms gain error of [Formula Omitted]0.4 dB and phase error of [Formula Omitted] are obtained at 9-10 GHz using an integrated variable gain amplifier and an 11[Formula Omitted] phase trim bit. The chip occupies an area of 2.5[Formula Omitted]2.9 mm[Formula Omitted] with a power consumption of 36 mW per channel from a 1.8-V supply (144-mW total). The phased array is packaged using chip-on-board techniques and the channel-to-channel coupling is determined either by the chip-to-ground inductance or by coupling between the input bond-wires. Measurements and simulations on channel 1 show that, with well isolated input bond-wires, one can obtain [Formula Omitted]31-dB coupling between the channels, and an rms amplitude and phase error of [Formula Omitted]0.2 dB and [Formula Omitted], respectively, at 9.5 GHz, when the phase of channels 2-4 are changed. To our knowledge, this is the first in-depth study of coupling in a phased-array chip with packaging considerations.
ISSN:0018-9480
1557-9670
DOI:10.1109/TMTT.2011.2156424