Ronan van der Zee
Ronan van der Zee
Verified email at utwente.nl
Title
Cited by
Cited by
Year
Design of active N-path filters
M Darvishi, R van der Zee, B Nauta
IEEE journal of solid-state circuits 48 (12), 2962-2976, 2013
1262013
Widely Tunable 4th Order Switched G-C Band-Pass Filter Based on N-Path Filters
M Darvishi, R van der Zee, EAM Klumperink, B Nauta
IEEE journal of solid-state circuits 47 (12), 3105-3119, 2012
1102012
A power efficient audio amplifier combining switching and linear techniques
RAR van der Zee, AJM van Tuijl
Solid-State Circuits, IEEE Journal of 34 (7), 985 - 991, 1999
1081999
A wideband supply modulator for 20 MHz RF bandwidth polar PAs in 65 nm CMOS
R Shrestha, R van der Zee, A de Graauw, B Nauta
IEEE journal of solid-state circuits 44 (4), 1272-1280, 2009
882009
A 0.1-to-1.2 GHz tunable 6th-order N-path channel-select filter with 0.6 dB passband ripple and+ 7dBm blocker tolerance
M Darvishi, R van der Zee, B Nauta
2013 IEEE International Solid-State Circuits Conference Digest of Technicalá…, 2013
502013
A 0.3-to-1.2GHz tunable 4th-order switched gm-C bandpass filter with >55dB ultimate rejection and out-of-band IIP3 of +29dBm
M Darvishi, R Van der Zee, E Klumperink, B Nauta
2012 IEEE International Solid-State Circuits Conference, 358-360, 2012
422012
Active feedback technique for RF channel selection in front-end receivers
S Youssef, R van der Zee, B Nauta
IEEE journal of solid-state circuits 47 (12), 3130-3144, 2012
402012
High efficiency audio power amplifiers; design and practical use
R Van Der Zee
IEEE Trans. Audio Electroacoust 18, 234-9, 1970
271970
Design and analysis of a high-efficiency high-voltage class-D power output stage
H Ma, R van der Zee, B Nauta
IEEE journal of solid-state circuits 49 (7), 1514-1524, 2014
242014
Active feedback receiver with integrated tunable RF channel selectivity, distortion cancelling, 48dB stopband rejection and>+ 12dBm wideband IIP3, occupying< 0.06 mm 2 in 65nm CMOS
S Youssef, R van der Zee, B Nauta
2012 IEEE International Solid-State Circuits Conference, 166-168, 2012
192012
An improved modeling and analysis technique for peak current-mode control-based boost converters
S Amir, R van der Zee, B Nauta
IEEE transactions on power electronics 30 (9), 5309-5317, 2014
182014
Test Signals for Measuring the Efficiency of Audio Amplifiers
R van der Zee, AJM van Tuijl
104 th convention of the Audio Engineering Society, preprint #4648, 1998
131998
Performance of chirped-FSK and chirped-PSK in the presence of partial-band interference
R Dutta, ABJ Kokkeler, R vd Zee, MJ Bentum
2011 18th IEEE Symposium on Communications and Vehicular Technology in theá…, 2011
122011
17.1 An integrated 80V 45W class-D power amplifier with optimal-efficiency-tracking switching frequency regulation
H Ma, R van der Zee, B Nauta
2014 IEEE International Solid-State Circuits Conference Digest of Technicalá…, 2014
112014
A 915 MHz 175 Receiver Using Transmitted-Reference and Shifted Limiters for 50 dB In-Band Interference Tolerance
D Ye, R van der Zee, B Nauta
IEEE journal of solid-state circuits 51 (12), 3114-3124, 2016
102016
26.2 An Ultra-Low-Power receiver using transmitted-reference and shifted limiters for in-band interference resilience
D Ye, R van der Zee, B Nauta
2016 IEEE International Solid-State Circuits Conference (ISSCC), 438-439, 2016
102016
A high-voltage class-D power amplifier with switching frequency regulation for improved high-efficiency output power range
H Ma, R van der Zee, B Nauta
IEEE journal of solid-state circuits 50 (6), 1451-1462, 2015
102015
An integrated 80-V class-D power output stage with 94% efficiency in a 0.14 Ám SOI BCD process
H Ma, R van der Zee, B Nauta
2013 Proceedings of the ESSCIRC (ESSCIRC), 89-92, 2013
92013
Choosing optimum noise figure and data rate in wireless sensor network radio transceivers
R Dutta, R vd Zee, MJ Bentum, ABJ Kokkeler
2011 IEEE International Conference on Communications (ICC), 1-5, 2011
82011
A high efficiency low distortion audio power amplifier
RAR Van der Zee, AJM van Tuijl
Proc. 103rd Conv. Audio Engineering Society, 1997
71997
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