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My Journey
Follow my path from academic achievements and key projects to entrepreneurial ventures, highlighting milestones in RF engineering and EdTech.
Self-Employed (Consulting)
Providing expert RF engineering consultancy, specializing in millimeter/sub-millimeter wave design and 5G/6G technologies.
Skills: Radio Frequency (RF)
Consulting
Self-Employed (Consulting)
Providing expert RF engineering consultancy, specializing in millimeter/sub-millimeter wave design and 5G/6G technologies.
Skills: Radio Frequency (RF)
Consulting
NevilLabs
Leading NevilLabs to revolutionize STEM education with an adaptive 3D experiential learning platform for grades 6-12.
Skills: Entrepreneurship, STEM Professional
Entrepreneurship
NevilLabs
Leading NevilLabs to revolutionize STEM education with an adaptive 3D experiential learning platform for grades 6-12.
Skills: Entrepreneurship, STEM Professional
Entrepreneurship
Self-Employed
Focusing on Deep-Tech innovations and entrepreneurial ventures.
Skills: Cutting-Edge Technology, 3D Printing, Product Based PCB Designs, Entrepreneurship
Entrepreneurship
Self-Employed
Focusing on Deep-Tech innovations and entrepreneurial ventures.
Skills: Cutting-Edge Technology, 3D Printing, Product Based PCB Designs, Entrepreneurship
Entrepreneurship
Teradyne
Mm wave Enabling Technology Team Lead.
- Design transceiver operating from 20 to 56 GHz.
- Simulating and prototyping RF System blocks with different surface finishes (immersion silver, ENIG, EPIG).
- Mm wave switch multiplexer module design and tape-out.
- Broadband RF system design (Cascade and Yield analysis) from 5.5 GHz to millimeter wave for 5G component testing.
- Automation of testing for prototype and RF System circuits (gain flatness, noise floor, spurious, IMD, EVM).
Skills: Cadence AWR, Virtual System Simulator (VSS), Keysight ADS, ANSYS HFSS, MATLAB, Keysight PNA-X, VSA, VSG, PSG, MPI TS150 THz Probe Station
Research / RF Engineering
Teradyne
Mm wave Enabling Technology Team Lead.
- Design transceiver operating from 20 to 56 GHz.
- Simulating and prototyping RF System blocks with different surface finishes (immersion silver, ENIG, EPIG).
- Mm wave switch multiplexer module design and tape-out.
- Broadband RF system design (Cascade and Yield analysis) from 5.5 GHz to millimeter wave for 5G component testing.
- Automation of testing for prototype and RF System circuits (gain flatness, noise floor, spurious, IMD, EVM).
Skills: Cadence AWR, Virtual System Simulator (VSS), Keysight ADS, ANSYS HFSS, MATLAB, Keysight PNA-X, VSA, VSG, PSG, MPI TS150 THz Probe Station
Research / RF Engineering
The University of Texas at Dallas
Sub-Millimeter Wave high data rate Transition Design in 65 nm CMOS Technology.
- Development of multiplexer circuit (100-400 GHz) and 65nm CMOS tape-out process of diplexers for high data-rate transceiver.
- Manifold diplexer has 40 GHz bandwidth on 180 GHz, and 315 GHz frequency channels.
- Directional filter diplexer has 20 GHz bandwidth on 270 GHz, and 315 GHz frequency channels
- Designed Square quadruple ridge waveguide for transition circuit from multiplexer to dielectric waveguide (160-360 GHz).
- Design, layout, and UMC 65 nm CMOS tape-out process of dual polarization Crossed Dipole antenna operating at 180 GHz and 315 GHz.
Skills: Cadence Virtuoso, Keysight ADS, ANSYS HFSS, Eagle
View LinkResearch / RF Engineering
The University of Texas at Dallas
Sub-Millimeter Wave high data rate Transition Design in 65 nm CMOS Technology.
- Development of multiplexer circuit (100-400 GHz) and 65nm CMOS tape-out process of diplexers for high data-rate transceiver.
- Manifold diplexer has 40 GHz bandwidth on 180 GHz, and 315 GHz frequency channels.
- Directional filter diplexer has 20 GHz bandwidth on 270 GHz, and 315 GHz frequency channels
- Designed Square quadruple ridge waveguide for transition circuit from multiplexer to dielectric waveguide (160-360 GHz).
- Design, layout, and UMC 65 nm CMOS tape-out process of dual polarization Crossed Dipole antenna operating at 180 GHz and 315 GHz.
Skills: Cadence Virtuoso, Keysight ADS, ANSYS HFSS, Eagle
View LinkResearch / RF Engineering
The University of Texas at Dallas
Graduated with a Master of Science in Electrical Engineering, specialization in RF and Microwave engineering.
Education
The University of Texas at Dallas
Graduated with a Master of Science in Electrical Engineering, specialization in RF and Microwave engineering.
Education
Brindavan College of Engineering
Received for academic excellence and various contributions during undergraduate studies.
Achievement
Brindavan College of Engineering
Received for academic excellence and various contributions during undergraduate studies.
Achievement
Visvesvaraya Technological University
Graduated as a TOPPER with Bachelor of Engineering, major in Electronics and Communication Engineering.
Education
Visvesvaraya Technological University
Graduated as a TOPPER with Bachelor of Engineering, major in Electronics and Communication Engineering.
Education
Raman Research Institute
Project Title: Image Compression Techniques using MATLAB.
- Worked on Run-length coding, Hartley transform, JPEG still picture compression techniques, Wavelets based image compression technique and Ramanujan sums transform.
- Analyzing the compression techniques based on the compression ratio and quality of the compressed image.
Skills: MATLAB
Research / Internship
Raman Research Institute
Project Title: Image Compression Techniques using MATLAB.
- Worked on Run-length coding, Hartley transform, JPEG still picture compression techniques, Wavelets based image compression technique and Ramanujan sums transform.
- Analyzing the compression techniques based on the compression ratio and quality of the compressed image.
Skills: MATLAB
Research / Internship