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Niraj Patel


My Contact


  • Circuit Designing
  • EasyEDA
  • Altium
  • 3D Printing
  • Fusion 360
  • CAM
  • Arduino IDE
  • Thonny
  • SMD Soldering
  • Micro Soldering
  • PCB Etching Masking
  • Mechanical Structure
  • Manufacturing
  • Fabrication

Education Background

Diploma In Electrical Engineering Government Polytechnic, Valsad

Bachelor of Engineering in Electronics and Communication L.D. College of Engineering, Ahmedabad

About Me

I am currently pursuing final year of my bachelor's in electronics and communication engineering. I am enthusiastic about Robotics, Automation, embedded systems, VLSI etc. I have comprehensive knowledge of PCB designing, Circuit simulation and designing, IoT.


UHF System Design Spearheading the world of communication technology, I undertook the comprehensive design of a UHF system. This project involved meticulous planning and implementation to create a robust and efficient Ultra-High Frequency (UHF) system. The resulting system showcases advancements in communication technology, paving the way for improved connectivity and data transmission across various applications.

7-Segment Lift LOP COP PCB Design Taking on the challenge of modernizing lift control interfaces, I dedicated efforts to design a Printed Circuit Board (PCB) for a 7-segment Lift Landing Operating Panel (LOP) and Car Operating Panel (COP). This project emphasizes precision and reliability, ensuring seamless interaction and control within lift systems. The PCB design optimizes space and functionality, contributing to the overall efficiency and safety of elevator operations.

LOP Dot Matrix Display PCB Design Bringing innovation to display technologies, I focused on the design of a Printed Circuit Board (PCB) for a Dot Matrix Display within Lift Landing Operating Panels (LOP). This project aimed to enhance information visibility and user interaction, incorporating a dot matrix display for clear and dynamic messaging. The meticulously crafted PCB design ensures the display's reliability and longevity in demanding lift environments.

Cautery Pen Venturing into the medical field, I took on the development of a cautery pen. This precision instrument finds applications in medical procedures, offering controlled cauterization for surgical purposes. The project underscores my commitment to merging electronics with healthcare, contributing to advancements in medical tools and techniques.

Dermatology Skin Grafting Robot At the intersection of robotics and dermatology, I led the creation of a Skin Grafting Robot. This innovative project harnesses automation to enhance precision and efficiency in skin grafting procedures. The robot's design focuses on minimizing invasiveness while maximizing accuracy, showcasing a dedication to technological solutions that positively impact the field of dermatology.