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2 results

  • 3 - CMOS and BiCMOS Technologies

  • Edited by Philippe Ferrari, Université de Grenoble, Rolf Jakoby, Technische Universität, Darmstadt, Germany, Onur Hamza Karabey, Gustavo P. Rehder, Holger Maune, Technische Universität, Darmstadt, Germany
  • Book:
    Reconfigurable Circuits and Technologies for Smart Millimeter-Wave Systems
    Published online:
    20 May 2022
    Print publication:
    26 May 2022, pp 108-200

  • Summary

    This chapter describes tunable circuits in CMOS and BiCMOS technologies. First, active and passive basic components are briefly described: MOS and bipolar transistors, and passive components like MOM capacitors, and transmission lines. Slow-wave transmission lines are described and compared to their microstrip lines counterparts, in terms of electrical performance and footprint. Next, tunable components are introduced,varactors and switches, anddigital tunable capacitors. Then, tunable transmission lines are described. Some examples of tunable inductances are also highlighted. Finally, two families of tunable circuits are addressed, phase shifter and VCOs, respectively. Both circuits are used in many systems for beam-forming/steering concerning phase shifters, and transceivers concerning VCOs, respectively. Many design examples are given. Topologies based on the use of lumped components (varactors and inductances) are compared to those based on distributed components (tunable transmission lines). In the middle, hybrid approaches mixing lumped and distributed components can lead to very efficient solutions, both in terms of electrical performance and footprint.

  • On the development of a novel high VSWR programmable impedance tuner

  • Arnaud Curutchet, Anthony Ghiotto, Manuel Potéreau, Magali De Matos, Sébastien Fregonese, Eric Kerhervé, Thomas Zimmer
  • Journal:
    International Journal of Microwave and Wireless Technologies / Volume 8 / Issue 4-5 / June 2016
    Published online by Cambridge University Press:
    25 May 2016, pp. 723-730
    • Article
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  • Impedance tuners are key instruments used for load- and source–pull measurements. They are crucial for any active microwave components, circuits, and systems characterization and optimization. This paper reports theoretical, simulated, and experimental results related to the development of a novel programmable impedance tuner offering high-voltage standing wave ratio (VSWR). After presenting the proposed tuner principle, a fabricated prototype operating at microwave frequencies and based on a 3.5 mm coaxial line is introduced with experimental results. Depending on the targeted frequency band, different pairs of slugs, with optimized length and characteristic impedance, can be used to obtain an optimal VSWR. This first prototype allowed us to demonstrate the interest of the proposed impedance synthesis principle and to identify ways forward to further improve its performances and push forward this promising technology.