Peter Baltus
Peter Baltus
Professor of Electrical Engineering, Eindhoven University of Technology
Verified email at
Cited by
Cited by
Data transmission system and apparatus providing multi-level differential signal transmission
PG Baltus, PS van der Meulen
US Patent 5,166,956, 1992
An 8-bit 100-MHz full-Nyquist analog-to-digital converter
RJ Van De Plassche, P Baltus
IEEE Journal of Solid-State Circuits 23 (6), 1334-1344, 1988
A 60 GHz phase shifter integrated with LNA and PA in 65 nm CMOS for phased array systems
Y Yu, PGM Baltus, A de Graauw, E van der Heijden, CS Vaucher, ...
IEEE Journal of Solid-State Circuits 45 (9), 1697-1709, 2010
Substrate transfer for RF technologies
R Dekker, PGM Baltus, HGR Maas
IEEE Transactions on Electron Devices 50 (3), 747-757, 2003
An ultra low-power RF bipolar technology on glass
R Dekker, P Baltus, M Van Deurzen, WVD Einden, H Maas, A Wagemans
International Electron Devices Meeting. IEDM Technical Digest, 921-923, 1997
A 60GHz digitally controlled phase shifter in CMOS
Y Yu, P Baltus, A van Roermund, D Jeurissen, A de Graauw, ...
ESSCIRC 2008-34th European Solid-State Circuits Conference, 250-253, 2008
Multistaged frequency conversion with single local oscillator
PG Baltus
US Patent 6,282,413, 2001
Integrated 60GHz RF beamforming in CMOS
Y Yu, PGM Baltus, AHM Van Roermund
Springer Science & Business Media, 2011
Optimizing RF front ends for low power
PGM Baltus, R Dekker
Proceedings of the IEEE 88 (10), 1546-1559, 2000
Co-integration of an RF energy harvester into a 2.4 GHz transceiver
J Masuch, M Delgado-Restituto, D Milosevic, P Baltus
IEEE Journal of Solid-State Circuits 48 (7), 1565-1574, 2013
Radio transmission system and a radio apparatus for use therein
PGM Baltus, L Leyten, HA Visser, AMH Tombeur, AG Wagemans, ...
US Patent 5,887,247, 1999
Silicon-based true-time-delay phased-array front-ends at Ka-band
Q Ma, DMW Leenaerts, PGM Baltus
IEEE Transactions on Microwave Theory and Techniques 63 (9), 2942-2952, 2015
A 71GHz RF energy harvesting tag with 8% efficiency for wireless temperature sensors in 65nm CMOS
H Gao, MK Matters-Kammerer, P Harpe, D Milosevic, U Johannsen, ...
Radio Frequency Integrated Circuits Symposium (RFIC), 2013 IEEE, 403-406, 2013
A 60GHz digitally controlled RF-beamforming receiver front-end in 65nm CMOS
Y Yu, P Baltus, A van Roermund, A de Graauw, E van der Heijden, ...
2009 IEEE Radio Frequency Integrated Circuits Symposium, 211-214, 2009
A 1.2 V, Inductorless, Broadband LNA in 90 nm CMOS LP
M Vidojkovic, M Sanduleanu, J van der Tang, P Baltus, A van Roermund
2007 IEEE Radio Frequency Integrated Circuits (RFIC) Symposium, 53-56, 2007
A 3.5-mW, 2.5-GHz diversity receiver and a 1.2-mW, 3.6-GHz VCO in silicon on anything
PGM Baltus, AG Wagemans, R Dekker, A Hoogstraate, H Maas, ...
IEEE Journal of Solid-State Circuits 33 (12), 2074-2079, 1998
A 48–61 GHz LNA in 40-nm CMOS with 3.6 dB minimum NF employing a metal slotting method
H Gao, K Ying, MK Matters-Kammerer, P Harpe, Q Ma, A van Roermund, ...
2016 IEEE Radio Frequency Integrated Circuits Symposium (RFIC), 154-157, 2016
Minimum power design of RF front ends.
PGM Baltus
Full MIMO spatial filtering approach for dynamic range reduction in wideband cognitive radios
JHC Van den Heuvel, JPMG Linnartz, PGM Baltus, D Cabric
IEEE Transactions on Circuits and Systems I: Regular Papers 59 (11), 2761-2773, 2012
Analytical models for the wake-up receiver power budget for wireless sensor networks
M Lont, D Milosevic, PGM Baltus, AHM Van Roermund, G Dolmans
GLOBECOM 2009-2009 IEEE Global Telecommunications Conference, 1-6, 2009
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