Award for Academic Excellence by NYU Tandon School of Engineering for having a class rank in the top 10% 

• Electromagnetic Theory & Applications
• Electromagnetic Radiation & Antennas
• RF & Microwave Systems Engineering
• RF/Microwave integrated circuits
• Fiber Optic Communication
• Fundamentals of Analog Integrated Circuit Design
• Finite Elements for Electrical Engineering
• Digital Signal Processing
• Electronic Power Supplies

Design & simulation of a 2-stage Operational Transconductance amplifier

May 2016

• Designed a 2 stage operational amplifier with high gain (>= 70 dB) differential input with single-ended output with CMOS 0.45µm using Cadence virtuoso software
• Optimized to achieve specified Phase margin (>=70°), Average Slew Rate (>= 30 V/µs), and minimum power consumption

---

Design and fabrication of a simple 90-degree Hybrid Coupler for 2GHz

Apr 2016

• Designed and modeled the Hybrid coupler using Agilent ADS
• Fabricated it on an FR4 substrate
• Analyzed Insertion Loss and S-parameters using a Vector Network Analyzer

---

Design and fabrication of Inset fed Microstrip Patch Antenna for 2.45GHz

Apr 2016

• Designed and modeled the Microstrip patch antenna for Wi-Fi 2.45GHz
• Simulated the model using Ansys HFSS software
• Fabricated the actual antenna on an FR4 substrate
• Analyzed Impedance matching & VSWR using a Vector Network Analyzer
• Further modified antenna to account for resonant frequency shift
• Achieved a Return Loss of 25.186 dB and SWR Bandwidth of 70MHz

---

Design & simulation of Stepped Impedance Low Pass Butterworth Filter

Mar 2016

• Implemented the Lumped & Distributed Butterworth LPF using Agilent ADS
• Designed Layout for Stepped Impedance LPF using Layout editor in ADS
• Simulated & optimized to obtain desired specifications at 2GHz
• Optimized further to improve the Insertion Loss and Power transfer between input and output ports (S21

---

Design & Fabrication of a simple Wilkinson Power Divider

Mar 2016

• Designed and modeled the Wilkinson Power Divider using Agilent ADS software
• Fabricated it on an FR4 substrate
• Analyzed the S-parameters using a Vector Network Analyzer

Analysis and Improvement in the multi-band behavior of Sierpinski Triangular Patch Antenna

International Journal of Latest Trends in Engineering and Technology.    See publication here

Dec 2015

• An analysis was performed to examine the multiband behavior of Sierpinski Triangular Gasket Patch Antenna up to frequency range of 15GHz using Ansys HFSS
• Analysis of parameters of triangular patch antennas for various dimensions was calculated and furthermore these results were compared with the Sierpinski patch antenna’s multiband behavior and radiation pattern
• Additionally, a technique to enhance the multiband behavior of Sierpinski patch antenna was used by placing a triangular grid on top of it
• The behavior of antennas was investigated such as return loss, radiation pattern, current distribution, total E field vector