VEMIREDDY VENKATAREDDY

@unist.ac.kr

Postdoctoral researcher in Department of Electrical Engineering, UNIST, 50 UNIST-gil, Ulju-gun, Ulsan 689-798, South Korea
Ulsan National Institute of Science & Technology

VEMIREDDY VENKATAREDDY


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https://researchid.co/vvenkatareddy
Vemireddy Venkata Reddy, Ph.D., born on 14 July 1985, is a male from India with General category citizenship. Currently located in South Korea, you can reach him at (+82)10-2661-1576 or (+91) 9703051576, and through email at v.venkatareddy@, , and venkatareddy454@.

Research Interest:
Vemireddy Venkata Reddy's research interests encompass High-Power Microwave Devices, THz Vacuum Devices, Periodic Structures, Cold Cathodes, and Computational Electromagnetics.

Education:

Ph.D. in Electronics and Communication (2017-2022) from IIT (BHU), Varanasi, India, with a specialization in Microwave Engineering. The thesis focused on the "Design and Simulation Investigations of Single/Dual-band Relativistic Backward Wave Oscillator" under the supervision of Dr. M Thottappan. Achieved a CGPA of 7.9.
M.E. in Electronics and Communication (2008-2010) from Sree Sastha Institute of Engineering and Technology, Anna University, Chennai, India, with a score

EDUCATION

Ph.D. in Electronics and Communication 2017-2022 7.9 CGPA
Specialization: Microwave Engineering
IIT (BHU), Varanasi, India.
Thesis Topic: Design and Simulation Investigations of Single/Dual-band Relativistic Backward Wave Oscillator.
Supervisor: Dr. M Thottappan

M.E in Electronics and Communication 2008-2010 72.00%
Sree Sastha Institute of Engineering and Technology, Anna University, Chennai, India.

B. Tech in Electronics and Communication 2003-2007 66.44%
Malineni Lakshmaiah Engineering College, Singarayakonda, Andhra Pradesh, India.

RESEARCH, TEACHING, or OTHER INTERESTS

Electrical and Electronic Engineering, Management of Technology and Innovation
14

Scopus Publications

69

Scholar Citations

5

Scholar h-index

4

Scholar i10-index

Scopus Publications

  • Design and Simulation Investigations of Dual-Band RBWO Using Sectional Slow Wave Structures for Long Pulse Generation
    V. Venkata Reddy, M. Thottappan
    IEEE Transactions on Electron Devices, 2022
    In this article, a relativistic backward wave oscillator (RBWO) with sectional slow wave structures (SWSs) has been designed to generate a long high-power microwave (HPM) pulse at two different frequencies. Two individual SWSs were cascaded using a drift section (drift section-II) that separated them at a sufficient distance to generate dual microwave frequencies. The first section of the SWS (SWS-I) has been designed to generate S-band frequency and the second section of the SWS (SWS-II) to generate C-band frequency. A rectangular resonant reflector (RR) has been used to reflect the backward traveling wave into a forward wave toward the collector. The drift section-II also acted as an RR for the C-band frequency in addition to make the phase adjustment between the backward and forward microwaves and end reflections of SWS-I. The performance of the dual-band RBWO with sectional SWSs has been studied through the particle-in-cell (PIC) simulation by a finite difference time domain (FDTD)-based numerical code. The present simulation predicted a total RF output power of ~600 MW in TM01 mode at ~3.6 and ~4.5 GHz with a power conversion efficiency of ~20% for an annular electron beam with voltage ~550 kV, developed current ~5.4 kA, and the guiding magnetic field of ~1.3 T. A clear and more stable RF output power up to 100 ns of simulation time at both operating frequencies was observed with a frequency difference (between S- and C-band) of ~0.9 GHz.
  • Modeling of RF Pulse Shortening Causes and Their Effects on an Overmoded RBWO under Low Guiding Magnetic Field
    V. Venkata Reddy, M. A. Ansari, M. Thottappan
    IEEE Transactions on Electron Devices, 2022
    The overmoded slow wave structure (OSWS) and trapezoidal resonant reflector (TRR) have been used to study their effects on the microwave generation time in relativistic backward wave oscillator (RBWO) at the lower guiding magnetic field using a finite difference time domain (FDTD) based particle-in-cell (PIC) simulation “MAGIC” code. Electrons other than the primary electrons and positively charged hydrogen ions (PCHIs) have been identified as the major causes of RF pulse shortening. The pulse shortening analysis has indicated that these causes do not influence the microwave generation time in the overmoded RBWO with TRR for the entire simulation time. The predicted simulation results of the overmoded RBWO with TRR have been justified by comparing with the performances of other RBWO configurations, including a nonovermoded RBWO with rectangular resonant reflector (RR) and TRR individually and an overmoded RBWO with RR provided the inclusion of some of the practical causes of RF pulse shortening. The PIC simulation of pulse shortening analysis predicted that the overmoded RBWO with TRR generated the saturated RF output power of ~0.96 GW at ~3.7 GHz without any pulse shortening with the power duration of at least 70 ns at the lowest guiding magnetic field of ~0.19 T.
  • Design and PIC Simulation of Klystron like RBWO at Lower Guiding Magnetic Field
    Pratibha Verma, V Venkata Reddy, M Thottappan
    2022 IEEE Microwaves Antennas and Propagation Conference Mapcon 2022, 2022
    An X-band Klystron like RBWO with a single extraction cavity has been designed and simulated for its beam-wave interaction behavior at lower guiding magnetic field using FDTD based electromagnetic code. The present simulation predicted a maximum RF output power ~1.1 GW with some stability at 9.48 GHz for an applied input DC voltage of 660 kV, beam current of 4.059 kA, and 0.58 T. The power conversion efficiency has been calculated as ~40%.
  • Design and PIC Simulation of Dual-band RBWO Under Low Magnetic Field Operation
    V Venkata Reddy, Pratibha Verma, M Thottappan
    2022 IEEE Wireless Antenna and Microwave Symposium Wams 2022, 2022
    A dual-band Relativistic Backward Wave Oscillator (RBWO) has been designed and simulated under the lowest magnetic field using a finite difference time domain (FDTD) based 3D electromagnetic code. The dual-band oscillations were obtained by cascading two slow-wave structures (SWS) with the same transverse dimensions separated by a drift section. To reflect the dual-band microwave of the backward TM01 mode into a forward TM01 wave towards the collector, a rectangular resonant reflector (RR) was used. The effect of cyclotron and Cerenkov absorption on the dual-band frequency generation and average RF output power was presented to identify the operating magnetic field. An average RF output power ∼275 MW was predicted at both ∼3.6 GHz and ∼4.5 GHz with a magnetic field of ∼0.25 T.
  • Simulation investigations of high power overmoded relativistic backward wave oscillator with trapezoidal resonant reflector
    V. Venkata Reddy, M.A. Ansari, M. Thottappan
    Defence Science Journal, 2021
    An S-band high power relativistic backward wave oscillator using a trapezoidal resonant reflector and overmoded slow-wave structure is demonstrated by finite difference time domain based Particle-In-Cell code. The trapezoidal resonant reflector and slow-wave structure are chosen to improve the RBWO power handing capability to gigawatt (GW). The Trapezoidal resonant reflector enhances the pre-modulation during electron beam propagation, thus increasing the generated RF signal overall efficiency and coherency. The particle-in-cell simulation generated an RF output power ~5.4 GW in TM01 mode at ~3.6 GHz in a 2.0 T magnetic field and developed a 13.5 kA current for a 1.2 MV DC cathode voltage. The power conversion efficiency is achieved as ~33 %. Further, the influence of different design parameters on frequency, RF output power, and efficiency are analysed through Particle-In-Cell simulations.
  • PIC Simulation Studies of High Power RBWO with Trapezoidal Resonant Reflector at Low Guiding Magnetic Field
    V Venkata Reddy, M. A. Ansari, M. Thottappan
    Proceedings of Conecct 2020 6th IEEE International Conference on Electronics Computing and Communication Technologies, 2020
    In this paper, an S-band Relativistic Backward Wave Oscillator (RBWO) with Trapezoidal Resonant Reflector (TRR) has been studied at low guiding magnetic field by using 3D Particle-In-cell (PIC) code. The overmoded TRR and slow-wave structure (SWS) are more favourable in view of high-power handling capability under the low guiding magnetic field. In order to generate the GW level of power, the device is operated with ~1.2 MV of DC beam voltage and ~12.5 kA of developed electron beam current. The annular electron beam at the beam-wave interaction is guided by an external guiding magnetic field of 0.32 T. The PIC simulation predicted an average RF output power of ~5.0 GW at ~3.6 GHz in pure TM01 output mode with the conversion efficiency of ~34%. The obtained saturated RF power generation has been last up to 100 ns of simulation time without any pulse shortening.
  • Simulation studies of an overmoded RBWO under low guiding magnetic field
    V Venkata Reddy, M.A. Ansari, M. Thottappan
    Asia Pacific Microwave Conference Proceedings APMC, 2019
    An overmoded sinusoidally corrugated Relativistic Backward Wave Oscillator (RBWO) has been designed and simulated for Gigawatt power level at low guiding magnetic field. In the upstream, a trapezoidal cavity resonant reflector (TRR) is used to reduce the over modulation of the electron beam. The applied DC voltage is 550 kV and the developed electron beam current is ∼5.9 kA under the guiding magnetic field 0.19 T. The Particle-in-Cell (PIC) simulation predicted an RF power of ∼0.97 GW at operating frequency ∼3.6 GHz with the corresponding power conversion efficiency of ∼30%. Further, the device is investigated for the cyclotron resonance absorption region near to $\\pi$-mode of operation.
  • ZC-CDTA based integrator circuit using single passive component
    Malladi Lakshmi Lavanya, Avireni Srinivasulu, V. Venkata Reddy
    Lecture Notes in Electrical Engineering, 2019
  • An integrator circuit using differential difference current conveyor transconductance amplifier
    Ravipati Linita, V. Venkata Reddy, Avireni Srinivasulu
    2017 4th International Conference on Signal Processing Communication and Networking Icscn 2017, 2017
    An integrator circuit is presented in this paper that has used Differntial Difference Current Conveyor Transconductance Amplifier (DDCCTA). It has one DDCCTA and one passive component. It has been realized only with first order low pass response. The operation of the circuit has been observed and enforced at a supply voltage of ± 1.8V (bias current 50pA) using cadence and the model parameters of gpdk 180nm CMOS technology. The worthy of the proposed circuit has been test checked using DDCCTA and further tested for its efficiency on a laboratory breadboard. In this commercially available AD844AN and LM13600 ICs are used. Further, the circuit presented in this paper is impermeable to noise, possessing low voltage and insensitive to temperature.
  • Current mode schmitt trigger based on ZC current differencing transconductance amplifier
    Suma Madira, V. Venkata Reddy, Avireni Srinivasulu
    Proceedings of the International Conference on Inventive Computation Technologies Icict 2016, 2016
    A The paper presented here mainly focus on the Current mode Schmitt trigger designed on the basis of ZC-Current Differencing Transconductance Amplifier (ZC-CDTA). The ZC-CDTA used in this proposed circuit is well suited for signal processing applications and biomedical applications. This circuit implementation has been carried out using voltage supply of about ±0.85V and bias current of about 20μA using Cadence and gpdk 180 nm CMOS technology model parameters are used. The Schmitt trigger realized using ZC-CDTA is hermetic to noise, temperature insensitive and high output impedance.
  • A Schmitt trigger based on DDCCTA without any passive components
    Ravipati Linitha, Avireni Srinivasulu, V. Venkata Reddy
    2015 International Conference on Communication and Signal Processing Iccsp 2015, 2015
  • Low power reactive feedback CMOS Low Noise Amplifier
    Vemireddy Venkatareddy, Pelluri Sambaiah, Saladi Krishna
    International Conference on Communication and Signal Processing Iccsp 2014 Proceedings, 2014
  • A high slew rate, low voltage CMOS class-AB amplifier
    Kunchala Sivakumari, Avireni Srinivasulu, V. Venkata Reddy
    International Conference on Applied Electronics, 2014
  • A tuned resistive feedback CMOS low noise amplifier for multiband applications
    International Journal of Applied Engineering Research, 2014

RECENT SCHOLAR PUBLICATIONS

  • Design and PIC simulation of a klystron-like RBWO with dual extraction cavity
    MT Pratibha Verma, V Venkata Reddy
    Asian Journal of Physics 32 (6), 531-538 , 2024
    2024
  • Performance Evaluation of a Diode-Type Carbon Nanotube Field Emitter with Inverse T-Type Cathode Configuration
    EMC V Venkata Reddy, Wonjin Choi
    2023 Korean Electromagnetic Society Summer Conference Proceedings, August … , 2023
    2023
  • Design and PIC Simulation of Klystron like RBWO at Lower Guiding Magnetic Field
    P Verma, VV Reddy, M Thottappan
    2022 IEEE Microwaves, Antennas, and Propagation Conference (MAPCON), 1090-1093 , 2022
    2022
  • Design and simulation investigations of dual-band RBWO using sectional slow wave structures for long pulse generation
    VV Reddy, M Thottappan
    IEEE Transactions on Electron Devices 69 (10), 5858-5864 , 2022
    2022
    Citations: 11
  • Design and PIC Simulation of Dual-band RBWO Under Low Magnetic Field Operation
    VV Reddy, P Verma, M Thottappan
    2022 IEEE Wireless Antenna and Microwave Symposium (WAMS), 1-3 , 2022
    2022
  • Modeling of RF pulse shortening causes and their effects on an overmoded RBWO under low guiding magnetic field
    VV Reddy, MA Ansari, M Thottappan
    IEEE Transactions on Electron Devices 69 (1), 333-339 , 2021
    2021
    Citations: 5
  • Simulation investigations of high power overmoded relativistic backward wave oscillator with trapezoidal resonant reflector
    VV Reddy, MA Ansari, M Thottappan
    Defence Science Journal 71 (03), 346-350 , 2021
    2021
    Citations: 2
  • PIC simulation studies of high power RBWO with trapezoidal resonant reflector at low guiding magnetic field
    VV Reddy, MA Ansari, M Thottappan
    2020 IEEE International Conference on Electronics, Computing and … , 2020
    2020
    Citations: 1
  • Simulation studies of an overmoded RBWO under low guiding magnetic field
    VV Reddy, MA Ansari, M Thottappan
    2019 IEEE Asia-Pacific Microwave Conference (APMC), 1253-1255 , 2019
    2019
    Citations: 1
  • ZC-CDTA based integrator circuit using single passive component
    ML Lavanya, A Srinivasulu, V Venkata Reddy
    Proceeding of the Second International Conference on Microelectronics … , 2018
    2018
    Citations: 3
  • An integrator circuit using differential difference current conveyor transconductance amplifier
    R Linita, VV Reddy, A Srinivasulu
    2017 Fourth International Conference on Signal Processing, Communication and … , 2017
    2017
    Citations: 11
  • Current mode Schmitt trigger based on ZC-current differencing transconductance amplifier
    S Madira, VV Reddy, A Srinivasulu
    2016 International Conference on Inventive Computation Technologies (ICICT … , 2016
    2016
    Citations: 14
  • A Schmitt trigger based on DDCCTA without any passive components
    R Linitha, A Srinivasulu, VV Reddy
    2015 International Conference on Communications and Signal Processing (ICCSP … , 2015
    2015
    Citations: 15
  • A high slew rate, low voltage CMOS class-AB amplifier
    K Sivakumari, A Srinivasulu, VV Reddy
    2014 International Conference on Applied Electronics, 267-270 , 2014
    2014
    Citations: 6
  • Low Power Reactive Feedback CMOS Low Noise Amplifier
    V Venkatareddy, P Sambaiah, S Krishna
    2014 International Conference on Communication and Signal Processing, 838-842 , 2014
    2014
  • A Tuned Resistive Feedback CMOS Low Noise Amplifier for Multiband Applications
    P Sambaiah, V Venkatareddy, S Krishna, G Polaiah
    International Journal of Applied Engineering Research 9 (19), 6413-6421 , 2014
    2014

MOST CITED SCHOLAR PUBLICATIONS

  • A Schmitt trigger based on DDCCTA without any passive components
    R Linitha, A Srinivasulu, VV Reddy
    2015 International Conference on Communications and Signal Processing (ICCSP … , 2015
    2015
    Citations: 15
  • Current mode Schmitt trigger based on ZC-current differencing transconductance amplifier
    S Madira, VV Reddy, A Srinivasulu
    2016 International Conference on Inventive Computation Technologies (ICICT … , 2016
    2016
    Citations: 14
  • Design and simulation investigations of dual-band RBWO using sectional slow wave structures for long pulse generation
    VV Reddy, M Thottappan
    IEEE Transactions on Electron Devices 69 (10), 5858-5864 , 2022
    2022
    Citations: 11
  • An integrator circuit using differential difference current conveyor transconductance amplifier
    R Linita, VV Reddy, A Srinivasulu
    2017 Fourth International Conference on Signal Processing, Communication and … , 2017
    2017
    Citations: 11
  • A high slew rate, low voltage CMOS class-AB amplifier
    K Sivakumari, A Srinivasulu, VV Reddy
    2014 International Conference on Applied Electronics, 267-270 , 2014
    2014
    Citations: 6
  • Modeling of RF pulse shortening causes and their effects on an overmoded RBWO under low guiding magnetic field
    VV Reddy, MA Ansari, M Thottappan
    IEEE Transactions on Electron Devices 69 (1), 333-339 , 2021
    2021
    Citations: 5
  • ZC-CDTA based integrator circuit using single passive component
    ML Lavanya, A Srinivasulu, V Venkata Reddy
    Proceeding of the Second International Conference on Microelectronics … , 2018
    2018
    Citations: 3
  • Simulation investigations of high power overmoded relativistic backward wave oscillator with trapezoidal resonant reflector
    VV Reddy, MA Ansari, M Thottappan
    Defence Science Journal 71 (03), 346-350 , 2021
    2021
    Citations: 2
  • PIC simulation studies of high power RBWO with trapezoidal resonant reflector at low guiding magnetic field
    VV Reddy, MA Ansari, M Thottappan
    2020 IEEE International Conference on Electronics, Computing and … , 2020
    2020
    Citations: 1
  • Simulation studies of an overmoded RBWO under low guiding magnetic field
    VV Reddy, MA Ansari, M Thottappan
    2019 IEEE Asia-Pacific Microwave Conference (APMC), 1253-1255 , 2019
    2019
    Citations: 1
  • Design and PIC simulation of a klystron-like RBWO with dual extraction cavity
    MT Pratibha Verma, V Venkata Reddy
    Asian Journal of Physics 32 (6), 531-538 , 2024
    2024
  • Performance Evaluation of a Diode-Type Carbon Nanotube Field Emitter with Inverse T-Type Cathode Configuration
    EMC V Venkata Reddy, Wonjin Choi
    2023 Korean Electromagnetic Society Summer Conference Proceedings, August … , 2023
    2023
  • Design and PIC Simulation of Klystron like RBWO at Lower Guiding Magnetic Field
    P Verma, VV Reddy, M Thottappan
    2022 IEEE Microwaves, Antennas, and Propagation Conference (MAPCON), 1090-1093 , 2022
    2022
  • Design and PIC Simulation of Dual-band RBWO Under Low Magnetic Field Operation
    VV Reddy, P Verma, M Thottappan
    2022 IEEE Wireless Antenna and Microwave Symposium (WAMS), 1-3 , 2022
    2022
  • Low Power Reactive Feedback CMOS Low Noise Amplifier
    V Venkatareddy, P Sambaiah, S Krishna
    2014 International Conference on Communication and Signal Processing, 838-842 , 2014
    2014
  • A Tuned Resistive Feedback CMOS Low Noise Amplifier for Multiband Applications
    P Sambaiah, V Venkatareddy, S Krishna, G Polaiah
    International Journal of Applied Engineering Research 9 (19), 6413-6421 , 2014
    2014