en | de | ru )

 

Disambiguation of "Pistono, Emmanuel"

Author of the publication

copydeleteadd this publication to your clipboard
77.8 GHz Standing-wave Oscillator Based on a Tuneable Slow-wave Coplanar Stripline Resonator.

, , , , , and . NEWCAS, page 18-21. IEEE, (2020)

Please choose a person to relate this publication to

To differ between persons with the same name, the academic degree and the title of an important publication will be displayed. You can also use the button next to the name to display some publications already assigned to the person.

Emmanuel Umana

Emmanuel Dogbatse

Emmanuel Lule

Emmanuel Fiolitakis

Emmanuel Wiemer

 

Other publications of authors with the same name

77.8 GHz Standing-wave Oscillator Based on a Tuneable Slow-wave Coplanar Stripline Resonator., , , , , and . NEWCAS, page 18-21. IEEE, (2020)mm-Wave Single-Pole Double-Throw switches: HBT- vs MOSFET-based designs., , , , , , , and . NEWCAS, page 1-4. IEEE, (2021)mm-Wave Through-Load Switch for in-situ Vector Network Analyzer on a 55-nm BiCMOS Technology., , , , , , and . NEWCAS, page 82-85. IEEE, (2020)80 GHz VCO with Slow-wave Coplanar Stripline Synthesized Differential Inductor., , , and . ICECS, page 461-464. IEEE, (2018)A Sensitivity Study of Butler Matrices: Application to an SIW Extended Beam Matrix at 28 GHz., , , , , and . IEEE Access, (2022)mm-Wave Through-Load Element for On-Wafer Measurement Applications., , , , , , , , , and 1 other author(s). IEEE Trans. Circuits Syst. I Regul. Pap., 68 (8): 3170-3183 (2021)77.3-GHz Standing-Wave Oscillator Based on an Asymmetrical Tunable Slow-Wave Coplanar Stripline Resonator., , , , , , , and . IEEE Trans. Circuits Syst. I Regul. Pap., 68 (8): 3158-3169 (2021)DGS-SMS Compact Fifth Order Low Pass Filter., , , , and . HPCS, page 274-277. IEEE, (2017)81-86 GHz VCO for Backhaul application with S-CPS based differential inductor in BiCMOS 55nm technology., , , , and . NEWCAS, page 1-4. IEEE, (2015)Design of a 77-GHz LC-VCO With a Slow-Wave Coplanar Stripline-Based Inductor., , , , , , , and . IEEE Trans. Circuits Syst. I Regul. Pap., 67-I (2): 378-388 (2020)