Carré

dr.ing. E.A.M. Klumperink (Eric)

Universitair hoofddocent
EEMCS-EE-ICD
Carré C2631
e.a.m.klumperink@utwente.nl
+31534892736
Visitekaartje

Expertises

  • Engineering

    • Receivers
    • Mixers (Machinery)
    • Linearity
    • Filtration
    • Filters

  • Physics

    • Frequencies
    • Output
    • Sampling

Organisaties

Publicaties

2024
Analysis and Design of a Low-Loss 1–10 GHz Capacitive Stacking N-Path Filter/Mixer, Article 10.1109/JSSC.2024.3407241, 1-15 (E-pub ahead of print/First online). Zijlma, E., van Zanten, S., Plompen, R., Klumperink, E. A. M., Nauta, B. & van der Zee, R. A. R.https://doi.org/10.1109/JSSC.2024.3407241Interference-robust CMOS receivers for IoT: Highly linear RF front-ends at low power. University of Twente. Purushothaman, V. K.https://doi.org/10.3990/1.9789036559621
2023
A Wideband IF Receiver Chip for Flexibly Scalable mmWave Subarray Combining and Interference Rejection, 5482 - 5497. Akbar, R., Klumperink, E. A. M., Tervo, N., Stadius, K., Rahkonen, T. & Parssinen, A.https://doi.org/10.1109/TMTT.2023.3279919Linear Predistortion-less MIMO Transmitters. University of Twente. Zanen, J. O. P.https://doi.org/10.3990/1.9789036558877A Predistortion-less Digital MIMO Transmitter with DTC-Based Quadrature Imbalance Compensation, 2214-2225. Zanen, J., Klumperink, E. & Nauta, B.https://doi.org/10.1109/JSSC.2023.325574125 Years of IC Design in Twente: Some Eureka Moments. IEEE. Klumperink, E. A. M.Linearization techniques for wideband, low-noise, CMOS software-defined radio receivers. University of Twente. Kundur Subramaniyan, H.https://doi.org/10.3990/1.9789036556590
2022
Interference mitigation for MIMO receivers: RF frond-end featuring adaptive analog spatial filtering. University of Twente. Golabi Ghezel Ahmad, S. S.https://doi.org/10.3990/1.9789036553377Figures of Merit for CMOS Low-Noise Amplifiers and Estimates for Their Theoretical Limits, 734-738. Belostotski, L. & Klumperink, E. A. M.https://doi.org/10.1109/TCSII.2021.3113607FINITE IMPULSE RESPONSE (FIR) FILTER AND RECEIVER WITH SUCH A FILTER. Huawei Technologies CO,. LTD.. Huiskamp, M., Klumperink, E. A. M., Cornelissens, K. & Borremans, M.https://nl.espacenet.com/publicationDetails/biblio?II=0&ND=3&adjacent=true&locale=nl_NL&FT=D&date=20220106&CC=WO&NR=2022002358A1&KC=A1Low-Power High-Linearity Mixer-First receiver using implicit capacitive Stacking with 3× voltage gain, 245-259. Purushothaman, V. K., Klumperink, E. A. M., Plompen, R. & Nauta, B.https://doi.org/10.1109/JSSC.2021.3091942
2021
Interference Mitigation by Adaptive Analog Spatial Filtering for MIMO Receivers, Article 9443039, 4169-4179. Abbasi Alaei, M., Golabighezelahmad, S., de Boer, P.-T., van Vliet, F. E., Klumperink, E. A. M. & Kokkeler, A. B. J.https://doi.org/10.1109/TMTT.2021.3081110Multi-Receiver Cross-Correlation Technique for (B)FSK Radios, 96791-96798. Purushothaman, V. K., Mikhael, M. R. M., Oude Alink, M. S., Klumperink, E. A. M., Kokkeler, A. B. J. & Nauta, B.https://doi.org/10.1109/ACCESS.2021.3094772Interference Robust multi-band CMOS Radio Receivers: Webinar at RFIC Virtual Journal - Distinguised Talk. Klumperink, E. A. M.2.4-GHz Highly Selective IoT Receiver Front End With Power Optimized LNTA, Frequency Divider, and Baseband Analog FIR Filter, 2007-2017. Thijssen, B. J., Klumperink, E. A. M., Quinlan, P. & Nauta, B.https://doi.org/10.1109/JSSC.2020.3031493Simplified Harmonic Rejection Mixer Analysis and Design Based on a Filtered Periodic Impulse Model, Article 9324800, 2292-2296. de Boer, P.-T., Oude Alink, M. S. & Klumperink, E. A. M.https://doi.org/10.1109/TCSII.2021.3051769A 0.7-5.7 GHz Reconfigurable MIMO Receiver Architecture for Analog Spatial Notch Filtering Using Orthogonal Beamforming, Article 9237968, 1527-1540. Golabighezelahmad, S., Klumperink, E. A. M. & Nauta, B.https://doi.org/10.1109/JSSC.2020.3028811IoT receiver techniques: On filtering, power consumption and phase noise. University of Twente. Thijssen, B. J.https://doi.org/10.3990/1.9789036551229Power efficiency model for MIMO transmitters including memory polynomial digital predistortion, Article 9211753, 1183-1187. Zanen, J., Klumperink, E. & Nauta, B.https://doi.org/10.1109/TCSII.2020.3028493Systems and methods for analog finite impulse response filters. Analog Devices International. Thijssen, B. J., Klumperink, E. A. M., Quinlan, P. & Nauta, B.https://nl.espacenet.com/publicationDetails/originalDocument?FT=D&date=20210126&DB=&locale=nl_NL&CC=US&NR=10903820B2&KC=B2&ND=4A Predistortion-less digital transmitter with –50 dB ACLR exploiting output conductance linearization, 162-165. Zanen, J., Klumperink, E. & Nauta, B.https://doi.org/10.1109/LSSC.2021.3112034
2020
Radio frequency receiver and method for down-converting signals to baseband signal components. Klumperink, E. A. M. & Purushothaman, V.https://doi.org/https://worldwide.espacenet.com/patent/search/family/066770461/publication/WO2020239233A1?q=WO2020%2F239233%20A1EVM-based performance evaluation of Co-channel interference mitigation using spatial filtering for digital MIMO-receiversIn VTC 2020 - Fall - Virtual Conference. IEEE. Golabighezelahmad, S., Klumperink, E. A. M. & Nauta, B.https://doi.org/10.1109/VTC2020-Fall49728.2020.9348716Systems and methods for analog finite impulse response filters. Thijssen, B. J., Klumperink, E. A. M., Nauta, B. & Quinlan, P.https://nl.espacenet.com/publicationDetails/biblio?II=0&ND=3&adjacent=true&locale=nl_NL&FT=D&date=20201008&CC=US&NR=2020321943A1&KC=A1Analysis of Switched Capacitor Losses in Polar and Quadrature Switched Capacitor PAs, Article 8922588, 1904-1908. Zanen, J. O. P., Klumperink, E. A. M. & Nauta, B.https://doi.org/10.1109/TCSII.2019.2957576

Onderzoeksprofielen

Scan de QR-code of
Download vCard