• P.O.Box 513, Department of Electrical Engineering

    5600 MB Eindhoven

    Nederland

Organisatieprofiel

Introductie / missie

Wired and wireless communication both comprise an analog front-end which can receive and transmit information. In this research area, we mainly focus on wireless communication at mmwave frequencies, both for high-data-rate and for ultra-low-power communication.

Over de organisatie

The main technological challenges are in the high frequencies involved (from tens of GHz, up to the maximum frequencies that can be handled in advanced IC technology nodes), the ultra-low power performance, and high power efficiency.

In this RF and mmWave Frontend research area we are exploring amongst others:
• High-frequency frontend modules, comprising LNAs, VCOs, mixers, amplifiers, filters, matching circuits, and power amplifiers
• Frontends comprising on-chip antennas and matching networks
• Power-efficient and linearized power amplifiers for non-constant envelope signals
• Distributed amplifiers
• Phased-array frontends
• Adaptive, programmable and smart frontends
• Distributed frontends
• Opto-electronic high-data-rate systems
• Ultra-low power frontend systems, up to protocols, and down to wake-up receivers

Vingerafdruk Duik in de onderzoeksthema's waar RF actief is. Deze onderwerplabels komen voort uit het werk van deze leden van de organisatie. Samen vormen ze een unieke vingerafdruk.

Electric power utilization Engineering en materiaalwetenschappen
Antennas Engineering en materiaalwetenschappen
Networks (circuits) Engineering en materiaalwetenschappen
Noise figure Engineering en materiaalwetenschappen
Interference suppression Engineering en materiaalwetenschappen
Transceivers Engineering en materiaalwetenschappen
Low noise amplifiers Engineering en materiaalwetenschappen
CMOS Fysica en Astronomie

Netwerk Recente externe samenwerking op landenniveau. Duik in de details door op de stippen te klikken.

Onderzoeksoutput 2002 2019

125 kHz wireless energy and 25 kbps data transfer for wearable device

Gao, D., Zhai, R., Baltus, P., Visser, H. & Gao, H., 2019, (Geaccepteerd/In druk) IEEE MTT-S Wireless Power Transfer Conference (WPTC). Institute of Electrical and Electronics Engineers

Onderzoeksoutput: Hoofdstuk in Boek/Rapport/CongresprocedureHoofdstukAcademicpeer review

36 Gb/s operation of a BiCMOS driver and InP EAM using foundry platforms

Trajkovic, M., Zhang, X., Blache, F., Mekhazni, K., Matters-Kammerer, M. K., Debregeas, H., Leijtens, X. & Williams, K., 26 sep 2019. 3 blz.

Onderzoeksoutput: Bijdrage aan congresPaperAcademic

Open Access
Bestand
foundries
modulators
platforms
direct current
photonics
1 Downloads (Pure)

60-GHz low-noise VGA and interpolation-based gain cell in a 40-nm CMOS technology

Wang, B., Gao, H., van Dommele, A. R., Matters-Kammerer, M. K. & Baltus, P. G. M., feb 2019, In : IEEE Transactions on Microwave Theory and Techniques. 67, 2, blz. 518-532 15 blz., 8605520.

Onderzoeksoutput: Bijdrage aan tijdschriftTijdschriftartikelAcademicpeer review

Noise figure
low noise
interpolation
CMOS
Interpolation

Pers/media

World’s smallest temperature sensor draws power from radio waves

Peter G.M. Baltus & Hao Gao

12/01/16

1 item van Media-aandacht

Pers / media: Vakinhoudelijk commentaar

The world’s tiniest temperature sensor is powered wirelessly ...

Hao Gao

18/12/15

1 item van Media-aandacht

Pers / media: Vakinhoudelijk commentaar

The world's tiniest temperature sensor is powered by radio waves

Peter G.M. Baltus & Hao Gao

7/12/1515/12/15

6 items van Media-aandacht

Pers / media: Vakinhoudelijk commentaar