ESSCIRC 2019 - IEEE 45th European Solid State Circuits Conference (ESSCIRC) 2019
DOI: 10.1109/esscirc.2019.8902864
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A Delay-Based LO Phase-Shifting Generator for a 2-5GHz Beamsteering Receiver in 28nm CMOS

Abstract: This paper proposes a wideband 2-5GHz LO phaseshifting generator based on two digitally controlled delay lines. The concept is verified on a two-channel beamsteering directconversion receiver prototype implemented in 28nm CMOS. The novel generator provides both tunable phase-shifting and generation of I/Q components, achieving picosecond time resolution. The generator consumes 4.5-11.2mW and occupies 0.021mm 2 .

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Cited by 4 publications
(8 citation statements)
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References 13 publications
(9 reference statements)
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“…The resolution of the tunable delay ∆τ , which dictates the beam direction resolution, is directly set by the used DDL. As an example, [3] presents a beamformer based on LO phase shifting implemented with DDLs. The DDL achieves picosecond delay resolution, which maps to a beam resolution of 2.4 degrees at 5 GHz, with a power consumption of 11 mW.…”
Section: Delay Resolutionmentioning
confidence: 99%
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“…The resolution of the tunable delay ∆τ , which dictates the beam direction resolution, is directly set by the used DDL. As an example, [3] presents a beamformer based on LO phase shifting implemented with DDLs. The DDL achieves picosecond delay resolution, which maps to a beam resolution of 2.4 degrees at 5 GHz, with a power consumption of 11 mW.…”
Section: Delay Resolutionmentioning
confidence: 99%
“…The proposed solution realizes beamforming delays by re-sampling the discrete-time output signal from the passive mixer of a direct conversion receiver during its hold period. Inclusion of a re-sampling stage extends the local oscillator (LO) phase shifting, like the one implemented in [3], to a true-time-delay beamformer. The beamforming delays are controlled by tuning the relative delay between the LO and the re-sampler clock.…”
mentioning
confidence: 99%
“…Any of the four antennas can be connected to either of the sensing ADCs through a switch matrix amplifier. Delay characterization with the FFT units provides delay information for digitally-controlled beamsteering implemented with digitally-controlled delay lines [16], [17]. The proposed tuning structure provides wide frequency band for LO phase-shifting architecture.…”
Section: Receiver Implementationmentioning
confidence: 99%
“…The four distinct delays are combined using AND gates to generate four 25% duty cycle nonoverlapping LO waveforms. The branched structure reduces the power consumption in comparison to architectures with frequency divider that require four fully independent signal paths, and imbalances between IQ signals [16].…”
Section: Lo Phase Tuningmentioning
confidence: 99%
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