Publications

  • Aichholzer, J.Sturm, A 65nm CMOS RF Power Detector with Integrated Offset Storage, Proc. Austrochip Conference, 2009.
  • Dali, J. Sturm, Design Of A Reconfigurable Gain Lownoise Amplifier For Multistandard Receivers In 65nm Technology, e&i elektrotechnik und Informationstechnik, Springer Wien pp.78-85, 2010.
  • Dali, X. Wang, W. Aichholzer, J. Sturm, Wideband LNAs with Noise and Distortion Cancelation, Proc. Austrochip Conference, pp. 27-31, 2010.
  • Xinbo, J. Sturm, CMOS Active Resistor for RF Applications, Proc. Austrochip Conference, pp. 37-41, 2010.
  • Wang, W. Aichholzer, J. Sturm, A 0.1-4GHz Resistive Feedback LNA with Feedforward Noise and Distortion Cancelation”, Proc. 36th European Solid-State Circuits Conference, pp. 406-409, 2010.
  • Sturm, Reconfigurable CMOS RF-Frontends, IEEE Froum on Signal Processing for Radio Frequency Systems, 2011.
  • Xiang, J. Sturm, Tunable Linear MOS Resistor for RF Applications, Silicon Monolithic Integrated Circuits in RF Systems, 2012
  • Xiang, J. Sturm, Performance Study of a 65nm CMOS Tuneable Gain LNA, Proc. Austrochip Conference, pp. 47-50, 2012.
  • Xiao Wang, Johannes Sturm, Na Yan, Xi Tan, and Hao Min, 0.6–3-GHz Wideband Receiver RF Front-End With a Feedforward Noise and Distortion Cancellation Resistive-Feedback LNA, IEEE Trans. Microw. Theory Techn., Vol. 60, No. 2 , pp. 387-392, 2012
  • Sturm, X. Xinbo, H. Pretl, A 65nm CMOS Wide-band LNA with ContinuouslyTunable Gain from 0dB to 24dB, IEEE International Symposium on Circuits and Systems – ISCAS, pp. 733-736, 2013
  • Batistell, J. Sturm, Filter-less Color Sensor in Standard CMOS Technology, Proc. 43th European Solid-State Device Research Conference – ESSDERC, pp. 123-126, 2013.
  • Sturm, M. Groinig, X. Xiang, Tunable Balun Low-Noise Amplifier in 65nm CMOS Technology, Radioengineering, Vol. 23, No. 1, pp. 319-327, April 2014.
  • Popuri, J. Sturm, Standard CMOS Color Sensor based on laterally and vertically arranged photodiodes, Proc. Austrochip Conference, pp. 59-62, 2014
  • Sturm, S. Popuri, X. Xiang, CMOS Noise Canceling Balun LNA with Tunable Bandpass from 4.6 GHz to 5.8 GHz, Proc. 21st IEEE International Conference on Electronics Circuits and Systems, Marseille, 2014.
  • J. Sturm, S. Popuri, X. Xiang, A 65 nm CMOS resistive feedback noise canceling LNA with tunable bandpass from 4.6 to 5.8 GHz, Analog Integr. Circuits Signal Process., Springer, 2015
  • A. Kale, R. Thirumuru, V. S. R. Pasupureddi, Wideband channelized sub-sampling transceiver for digital RF memory based electronic attack system, Aerospace Science and Technology, Vol. 51, pp. 34-41, 2016.
  • Popuri, V. S. R. Pasupureddi and J. Sturm, A Tunable Gain and Tunable Band Active Balun LNA for IEEE 802.11ac WLAN Receivers, Proc. 42nd European Solid-State Circuits Conference, Lausanne, pp.185-188, 2016
  • Timo Holzmann, Graciele Batistell, Hermann Sterner and Johannes Sturm, Algorithms for De-embedding of RF Measurement Data for Balanced and Unbalanced Setups, Proc. 52nd Conference on Microelectronics, Devices and Materials (MIDEM), Slovenia, 2016
  • Batistell, T. Holzmann, H. Sterner and J. Sturm, System-in-Package Matching Network for RF Wireless Transceivers, Proc. 24th Austrochip Conference, pp. 35-39, 2016
  • T. Renukaswamy, V. Pasupureddi and J. Sturm, Analysis and Design of Differential Feedback CG LNA Topologies for Low Voltage Multistandard Wireless Receivers, Proc. 24th Austrochip Conference, pp. 24-29, 2016
  • Shetty, V. Pasupureddi and J. Sturm, A 2.4 GHz, 1 dB Noise Figure Common-Gate LNA for WLAN Frontend, Proc. 24th Telecommunications Forum TELFOR 2016, 2016
  • Kale, V. Sankara, R. Pasupureddi, and J. Sturm, Dynamically Reconfigurable Multiband Subsampling Receiver Architecture, 4th Workshop Radio Frequency Engineering Working Group of Austrian Research Association, Oct. 2016
  • S. Popuri, V. Pasupureddi, and J. Sturm, A Tunable Gain and Tunable Band Active Balun LNA for IEEE 802.11ac WLAN Receivers, 4th Workshop Radio Frequency Engineering Working Group of Austrian Research Association, Oct. 2016
  • G. Batistell and J. Sturm, System-in-Package Matching Network for RF Wireless Transceivers, 4th Workshop Radio Frequency Engineering Working Group of Austrian Research Association, Oct. 2016
  • G. Batistell, T. Holzmann, S. Leuschner, A. Wolter, A Passamani, J.Sturm, SiP Solutions for Wireless Transceiver Impedance Matching Networks, Proc. European Microwave Conference,  pp. 1069-1072,  2017
  • A. Kale, S.Popuri, M.Koeberle, J. Sturm and V. S. R. Pasupureddi, Sub-sampling Receiver for IEEE 802.11ac, 5th Work-shop of the Radio Frequency Engineering Working Group of the Austrian Research Association, Vienna, Sept 2017.
  • G. Batistell, J. Sturm and W. Boesch, CMOS Integrated Duplexer based on SIC for IoT Transceiver, in 5th Work-shop of the Radio Frequency Engineering Working Group of the Austrian Research Association, Vienna, Sept 2017.
  • Ajinkya Kale, Graciele Batistell, Suchendranath Popuri, Vijaya Sankara Rao Pasupureddi, Wolfgang Boesch, Johannes Sturm, Integration Solutions for Reconfigurable Multi-Standard Wireless Transceivers,  e&i elektrotechnik und Informationstechnik, Springer Wien, pp. 18-23, 2018
  • A. Kale, J. Sturm and V. S. R. Pasupureddi, 0.9 to 2.5 GHz Sub-sampling Receiver Architecture for Dynamically Reconfigurable SDR, 2018 IEEE Computer Society Annual Symposium on VLSI (ISVLSI), Hongkong, 2018
  • G. Batistell, A. Kale, J. Sturm and W. Boesch, SCPA non-linearity Modelling and Analysis, 2018 Integrated Nonlinear Microwave and Millimetre-wave Circuits Workshop (INMMiC),Brive-La-Gaillarde, 2018.
  • Abdelhamed Eldeeb, Graciele Batistell and Johannes Sturm, SCPA Transformer Based Matching Network Design Flow and SiP Implementation, Proc. 26th Austrochip Conference, Graz, 2018
  • Ivan Sejc, Suchendranath Popuri and Johannes Sturm, Design of DAC Based RMS Power Detector for RF Application, Proc. 26th Austrochip Conference, Graz, 2018
  • Ajinkya Kale, Vijaya Sankara Rao Pasupureddi, Johannes Sturm, −40 dB EVM 20 MHz Subsampling Multi-Standard Receiver Architecture with Dynamic Carrier Detection, Bandwidth Estimation and EVM Optimization, International Journal of Electronics and Communications, 2018
  • Ajinkya Kale, Suchendranath Popuri, Michael Koeberle, Johannes Sturm and Vijaya Sankara Rao Pasupureddi, A −40 dB EVM, 77 MHz Dual-Band Tunable Gain Sub-Sampling Receiver Front End in 65-nm CMOS, IEEE Transactions on Circuits and Systems-I, 2018