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20.4 A 300GHz wirelessly locked 2+ù3 array radiating 5.4dBm with 5.1% DC-to-RF efficiency in 65nm CMOS
2016 Edition, January 1, 2016 - IEEE - Institute of Electrical and Electronics Engineers, Inc.

CMOS technology innovations over the last decades opened doors to the possibility of designing fully integrated systems in CMOS at THz frequencies. Small antenna sizes at THz frequencies make CMOS and silicon attractive for steerable 2D transmitter and receiver...

Ultra low consumption UWB pulsed-ILO RF front-end transmitter at 60 GHz in 65-nm CMOS-SOI
2009 Edition, September 1, 2009 - IEEE - Institute of Electrical and Electronics Engineers, Inc.

A super high order sub-harmonic pulsed-ILO at 60 GHz in 65-nm CMOS-SOI has been fully designed and tested. It occupies 0.16 mm2 active area in 65-nm CMOS-SOI. Input digital locking signal modulates the oscillator at 60 GHz from ON to OFF state using...

A low cost 16.2 GHz phase locked oscillator for wireless LAN
1997 Edition, Volume 3, January 1, 1997 - IEEE - Institute of Electrical and Electronics Engineers, Inc.

For wireless LAN applications and the wireless ATM network demonstrator system "Magic WAND", a phase locked oscillator was built with standard, low cost components. Although a simple architecture is chosen, the oscillator has a phase noise of -87...

A 60-GHz Four-Element Beam-Tapering Phased-Array Transmitter With a Phase-Compensated VGA in 65-nm CMOS
Volume PP - IEEE - Institute of Electrical and Electronics Engineers, Inc.

This paper reports a 60-GHz four-element beam-tapering phased-array transmitter with a lower sidelobe level (SLL). The array factor and the error vector magnitude (EVM) were calculated to explain the low sidelobe characteristic of a nonuniform...

A 30-GHz Wideband Low-Power CMOS Injection-Locked Frequency Divider for 60-GHz Wireless-LAN
2008 Edition, Volume 18, February 1, 2008 - IEEE - Institute of Electrical and Electronics Engineers, Inc.

A 30-GHz wide locking-range (25%) injection-locked frequency divider (ILFD) with small power consumption (1.86 mW) is presented. The locking range of the ILFD is extended by reducing the quality factor of resonant tank. Besides, the output power level of second...

A Full X-band Phased-Array Transmit/Receive Module Chip in 65-nm CMOS Technology
Volume PP - IEEE - Institute of Electrical and Electronics Engineers, Inc.

!In this paper, we present a phased-array transceiver chip operating in full X-band (8-12 GHz) in 65-nm CMOS technology. The presented transceiver for the transmit/receive module (TRM) consists of a 6-bit passive phase shifter, a 6-bit...

A 60-GHz Four-Element Beam-Tapering Phased-Array Transmitter With a Phase-Compensated VGA in 65-nm CMOS
2019 Edition, Volume 67, July 1, 2019 - IEEE - Institute of Electrical and Electronics Engineers, Inc.

This paper reports a 60-GHz four-element beam-tapering phased-array transmitter with a lower sidelobe level (SLL). The array factor and the error vector magnitude (EVM) were calculated to explain the low sidelobe characteristic of a nonuniform...

A W-Band 4-GHz Bandwidth Phase-Modulated Pulse Compression Radar Transmitter in 65-nm CMOS
2015 Edition, Volume 63, August 1, 2015 - IEEE - Institute of Electrical and Electronics Engineers, Inc.

This paper presents a fully integrated W-band 4-GHz bandwidth (BW) pseudo-noise (PN)-coded pulse compression radar transmitter (TX) in a CMOS technology. The PN-coded pulse compression scheme is adopted to obtain high spectral density and to lower...

60-GHz Four-Element Phased-Array Transmit/Receive System-in-Package Using Phase Compensation Techniques in 65-nm Flip-Chip CMOS Process
2012 Edition, Volume 60, March 1, 2012 - IEEE - Institute of Electrical and Electronics Engineers, Inc.

AThe 60-GHz four-element phased-array transmit/receive (TX/RX) system-in-package antenna modules with phase-compensated techniques in 65-nm CMOS technology are presented. The design is based on the all-RF architecture with 4-bit RF...

A 60 GHz Antenna-Referenced Frequency-Locked Loop in 0.13 $\mu$ m CMOS for Wireless Sensor Networks
2011 Edition, Volume 46, December 1, 2011 - IEEE - Institute of Electrical and Electronics Engineers, Inc.

This paper presents a 60 GHz frequency-locked loop (FLL) for wireless sensor network applications. The FLL incorporates an on-chip patch antenna as both a radiator and a frequency reference, realizing a compact and low-cost solution for non-coherent energy...

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