Avi G. - Expert Electronics & Embedded Systems Consultant

Avi G.

Expert Electronics & Embedded Systems Consultant

India | Asia/Kolkata (USD)

$25/hr
Full-time : 30+ hrs/week
0, Followers

ABOUT ME

Welcome! ⭐⭐⭐⭐⭐ As a seasoned professional with over a decade of unparalleled expertise in electronics and circuit design, firmware development, and IoT solutions, I am committed to bringing your innovative ideas to reality. With a diverse background spanning Industrial, Consumer, Medical sectors, and more, I provide a holistic approach that ensures your project's success. My areas of expertise include but are not limited to: ✅ Advanced Circuit Design: I meticulously craft both analog and digital circuits for optimal functionality and reliability. ✅ Proteus Circuit Simulation: I employ Proteus for robust circuit simulations to ensure functionality before physical prototyping. ✅ Proficient PCB Design: Using industry-leading tools such as Altium, PADS, and Eagle, I create intricate, efficient PCB layouts. ✅ Strategic BoM Component Selection: I select cost-effective, high-quality components to maximize performance while optimizing your budget. ✅ PCB Prototyping and Assembly: I accurately prototype and assemble PCBs, ensuring your product is ready for mass production. ✅ IoT Solutions: I provide comprehensive IoT solutions, from interfacing various sensors to facilitating seamless data collection and processing. ✅ Raspberry Pi and Arduino Circuit Design: I design versatile circuits using Raspberry Pi and Arduino platforms. ✅ Firmware Development: Backed by extensive experience, I develop robust firmware solutions for smooth hardware operation. ✅ End-to-End Hardware Solutions: I offer a seamless development process from initial concept to final product. When you choose to work with me, you can expect to benefit from: ✅ Unmatched Expertise: Leverage my 30+ years of experience in the field to ensure the success of your project. ✅Tailored Solutions: Benefit from solutions that are custom-fit to your unique needs and objectives. ✅ Quality Assurance: Rest assured that quality and efficiency are at the core of my work ethic. ✅ Seamless Communication: Enjoy clear, timely communication to ensure your project's smooth progression. ✅ Commitment to Satisfaction: Your satisfaction is my success. I am committed to exceeding your expectations in every task I undertake. I believe my clients' satisfaction is a reflection of my professional success, and I am eager to provide solutions tailored to your specific needs.✅ Let's connect and elevate your dream project to new dimensions together! ⭐

SKILLS

  • Circuit Design
  • PCB Design
  • PCB Layout
  • Electronic Design
  • Internet of Things

    • EMPLOYMENT HISTORY OUTSIDE OF TOOGIT

    Hardware Designer

    Landis + Gyr - Apr, 2014 to Apr, 2017, Noida, India

    Technical Specialist

    Philips Lighting India Pvt Ltd - Apr, 2017 to May, 2019, Noida, India

    Sr. Project Engineer

    Pentair Water India - May, 2019 to Aug, 2021, Noida, India

    Founder

    PCB Must Innovations Private Limited - Apr, 2021 to present, Meerut, India

    EDUCATION HISTORY

    BTECH , Electronics And Communication Enginerring

    (2010 - 2014) Guru Govind Singh Indraprastha University
    One project I am particularly proud of is the development of a LoRa Gateway, a critical component in the world of long-range, low-power wireless IoT networks. This device serves as a bridge between LoRa devices and a network server, collecting data from sensors and devices and forwarding it to the cloud for processing. The LoRa Gateway I designed is capable of handling a large number of simultaneous connections, making it ideal for applications that require the monitoring and control of multiple devices, such as smart city or agricultural applications. With an advanced RF front-end, it ensures reliable and robust data transmission, even in challenging radio environments. One of the key features of the LoRa Gateway is its adaptability. It can be configured to accommodate different frequency plans and regulatory requirements, making it a versatile solution for a variety of LoRaWAN deployments.
    One of my most notable projects includes the development of a LoRa Sensor Node, a key component in the realm of Internet of Things (IoT) networks. The sensor node serves as an essential link in the chain, capturing data from the environment and transmitting it over long distances using LoRaWAN technology. This LoRa Sensor Node showcases the perfect blend of data acquisition and communication. Equipped with various sensors, the node efficiently captures environmental data. The use of LoRaWAN technology ensures this data is transmitted over long distances with minimal power consumption, making it ideal for remote monitoring applications. The node's design is focused on robustness and versatility. It is capable of withstanding harsh environmental conditions, and its modular design allows for the easy addition or removal of sensors as per the application's requirements.
    Introducing the RGB Controller, a versatile and powerful device designed to bring your lighting effects to life. This compact controller can simultaneously power and manage two different LED strips, creating a dynamic and vibrant lighting experience. Key Features: ESP32 Core: Leveraging the power of the ESP32, this controller ensures smooth and efficient operation. The ESP32's capabilities allow for complex pattern creation, enabling you to craft the perfect lighting ambiance. Dual LED Strip Control: With the ability to control two LED strips simultaneously, this RGB controller allows for synchronized or contrasting lighting effects. Whether you're aiming for harmonious color blending or dynamic light clashes, this controller makes it possible. Advanced Protection Systems: Safety is a top priority. This RGB controller comes equipped with robust protection mechanisms against overcurrent, overvoltage, and overheating. These safeguards ensure the longevity of both the controller and the LED strips it
    Among my significant projects is the design and implementation of a Wireless Arduino Piggyback board, utilizing Zigbee, Bluetooth, and WiFi technologies. This versatile board is designed to seamlessly integrate with Arduino, providing it with robust wireless communication capabilities and transforming it into a powerful IoT device. This piggyback board is a testament to my expertise in integrating multiple wireless technologies into a single platform. It features Zigbee for low-power, mesh network applications, Bluetooth for short-range, point-to-point connectivity, and WiFi for high-bandwidth, internet-enabled applications. This multi-modal connectivity ensures that the Arduino can communicate in a variety of environments and use cases. The design is focused on ease-of-use and versatility. It seamlessly integrates with the Arduino platform, allowing users to leverage existing Arduino code and libraries while gaining the benefits of advanced wireless communication.
    Presenting the BLE LTE Gateway, a landmark project that showcases my expertise in wireless communication and IoT solutions. This gateway is an amalgamation of Bluetooth Low Energy (BLE) and Long Term Evolution (LTE) technologies, providing a seamless bridge for data transmission between local and wide area networks. The BLE LTE Gateway I developed serves as a crucial component for IoT ecosystems, efficiently collecting data from BLE devices and transmitting it over LTE networks for broader, internet-enabled communication. It leverages the power-efficiency of BLE for local data acquisition and the high-speed, long-range capabilities of LTE for wide area data transmission. Key Features: Efficient Data Transmission: The gateway ensures reliable and robust data transmission, providing a seamless connection between BLE devices and the cloud via LTE. Versatile Connectivity: With its dual-mode connectivity, the gateway is capable of interfacing with a wide range of BLE devices and transmitting data over
    Introducing the VA Mixer, a meticulously designed Audio Console that brings the power of professional audio mixing into your hands. This project underscores my expertise in audio electronics and commitment to delivering high-fidelity sound solutions. The VA Mixer is a versatile and intuitive audio console that offers a wide range of audio manipulation capabilities. Its design enables seamless blending of multiple audio inputs into a single, harmonious output, providing users with ultimate control over their audio environment. Key Features: High-Quality Sound: The VA Mixer is designed to preserve the integrity of the audio signal, ensuring a high-fidelity output that accurately represents the original sound sources. Versatile Input/Output Options: Catering to various audio setups, the mixer provides multiple input and output options. This versatility makes it a suitable solution for a broad range of audio applications, from home studios to professional recording environments. Intuitive Interface
    Introducing the DDR4 8GB RAM, a critical memory module project that I undertook, representing my proficiency in handling high-speed digital design, impedance control, and length matching. In this project, I developed a DDR4 8GB RAM module, a crucial component for modern computing applications. DDR4 RAM's high-speed operation presents significant design challenges, including maintaining signal integrity, controlling impedance, and ensuring precise length matching of traces. Key Highlights: High-Speed Digital Design: This project showcases my adeptness in high-speed digital design, a skill necessary for ensuring the stable operation of the DDR4 RAM at its high data transfer rates. Impedance Control: The DDR4 RAM design required careful impedance control to prevent signal reflections that could lead to data corruption. My design ensures reliable data communication by accurately matching the trace impedance with the RAM and controller impedances. Length Matching: To maintain data integrity, it was
    Introducing the ECS Board, a master control system meticulously designed to streamline the operation of multiple peripheral boards. This project embodies my expertise in hardware design and control systems, emphasizing a focus on efficient, robust, and reliable solutions. The ECS Board serves as the central controller, harmoniously integrating and managing various peripheral boards. Through its superior command and control functions, this master board facilitates seamless interaction between different subsystems, leading to efficient and synchronized operation. Key Features: Centralized Control: The ECS Board effectively manages multiple peripheral boards, coordinating their operations and ensuring smooth, integrated functionality. Robust Design: The board's robust design allows for reliable and consistent performance, even in challenging operational conditions. Efficient Communication: The ECS Board ensures efficient inter-board communication, enabling rapid response times and synchronized ope
    ntroducing the Fan Control Board, a meticulously designed PCB that brings intelligent control and advanced protection to fan systems. This project exemplifies my expertise in PCB design, specifically focused on fan control and robust protection mechanisms. The Fan Control Board serves as a centralized hub for managing and controlling fan systems in various applications. It is equipped with an array of features and protection mechanisms to ensure optimal performance and enhanced safety. Key Features: Intelligent Fan Control: The Fan Control Board offers precise and intelligent control over fan speed, allowing for optimal cooling performance. It ensures efficient airflow management, thereby extending the lifespan of fans and associated components. Variable Speed Control: With its adjustable speed control functionality, the board enables users to fine-tune fan speeds according to specific cooling requirements, enhancing energy efficiency and noise reduction. Protection Mechanisms: The Fan Control
    Introducing the Smart NB-IoT Tracker Board, a groundbreaking solution designed to provide precise and reliable tracking capabilities in a compact and ultra-small form factor. This project highlights my expertise in IoT device development, wireless communication, and miniaturization. The Smart NB-IoT Tracker Board is a revolutionary device that combines cutting-edge NB-IoT technology with advanced tracking functionalities. Despite its small and compact design, it offers powerful tracking capabilities for a wide range of applications. Key Features: Ultra-Small and Compact Design: The Smart NB-IoT Tracker Board is meticulously engineered to be incredibly small and compact, allowing for seamless integration into various tracking devices or assets without compromising on performance. Precise Location Tracking: Leveraging NB-IoT technology, the board provides accurate and real-time location tracking, enabling precise monitoring of assets, vehicles, or personnel. Long Battery Life: The board is optimi
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