Specializing in electronics engineering and manufacturing, I offer top-tier services to a broad range of industrial clients. My philosophy revolves around a trifecta of key principles: passion for innovation, a steadfast commitment to quality, and an ethical approach to business.

👨‍👩‍👦 I'm a Husband, Father, Developer, and Teacher!

🌾 I’m currently working on smart agriculture products.

📚 I’m currently learning everything 🤣

🤝 I’m looking to collaborate with other developers.

🎯 2023 Goals: Contribute more to IoT projects

📸 Fun fact: I love to photograph, write, and design.

Leveraging cutting-edge technologies, I continuously strive to streamline both client solutions and internal processes. The consequence of this dedication is a portfolio rich in long-term partnerships, a growing list of satisfied customers, and a network built on strong referrals.

• Project Definition and Management: Spearhead initiatives from concept to completion, ensuring timely delivery and quality benchmarks.

• Research and Development: Conduct in-depth studies and apply findings to innovate and enhance products and services.

• Standardization and Specifications: Establish rigorous standards and specifications to guarantee product integrity and performance.

• Schematic Design: Create intricate and optimized electronic schematics tailored for each project's unique requirements.

• Firmware & Software Algorithm Planning: Devise robust algorithms for seamless hardware-software integration.

• Digital Logic Design: Develop sophisticated digital circuits to meet the highest standards of performance and reliability.

• PCB Layout Design: Craft high-quality, efficient Printed Circuit Boards (PCB) to optimize functionality.

• Mechanical Part Design: Engineer mechanical components that complement and enhance electronic functionalities.

• Design Reviews: Conduct comprehensive reviews to ensure all elements meet established criteria and work in harmony.

• Parts Purchasing: Source the highest quality components to guarantee durability and efficiency.

• Prototype & Assembly: Build and assemble prototypes to test hypotheses and validate product features.

• Prototype Testing: Perform rigorous tests to ensure prototypes meet all specifications and safety standards.

I have provided electronics engineering and production services to the following industries:

• Meteorology: Developed solutions for precise weather data collection and analytics.

• Agriculture: Innovated smart farming technologies to optimize yield and resource management.

• Energy Monitoring: Engineered systems for real-time tracking and efficient utilization of energy resources.

• Industrial Automation: Created automated workflows to increase efficiency and reduce manual labor.

• Security: Designed secure and robust security solutions for both residential and commercial applications.

• GSM IoT: Implemented GSM-based Internet of Things solutions for various applications ranging from asset tracking to remote monitoring.

• Weather Station: Engineered a comprehensive system for real-time weather monitoring, incorporating state-of-the-art sensors and data analytics.

• Irrigation Filter Automation: Designed an automated filtration system to enhance water quality and irrigation efficiency.

• Irrigation Pressure Sensor: Created a pressure sensor system to monitor and regulate water flow in irrigation systems.

• Irrigation On/Off Gateway: Developed a gateway for streamlined control of irrigation, allowing for remote on/off capabilities.

• Polyphase Energy Measurement Gateway: Built a multi-phase energy measurement system for advanced monitoring and management of energy consumption.

• Irrigation Power Monitoring: Implemented a system for real-time tracking of energy consumption in irrigation setups.

• Irrigation AI IoT Engine: Innovated an AI-powered IoT engine to automate and optimize irrigation based on real-time data analytics.

• Soil Spectrometer: Crafted a device to analyze soil components, aiding in nutrient management and crop planning.

• Nano Power Modules: Engineered ultra-efficient power modules for portable and low-energy applications.

• GSM-Based IoT Backend System: Designed and deployed a GSM-based backend for seamless IoT data transmission and processing.

• PCIe-Based IoT Modules: Created high-speed IoT modules leveraging PCIe interfaces for faster data communication.

• Atmel-Based AI Projects: Developed a series of artificial intelligence projects using Atmel microcontrollers, addressing various automation and optimization challenges.

I'm passionate about contributing to the open-source community. My libraries are geared towards AVR-based microcontrollers and offer various functionalities. Feel free to explore, use, and contribute!

• AgriBus: A specialized library for agriculture-based IoT applications.

• AVR_Functions: A comprehensive set of utilities for AVR microcontrollers.

• BQ24298: A dedicated library for interfacing with the BQ24298 power management IC.

• Console: A robust command-line interface library for embedded systems.

• DS28C: Provides easy interfacing with the DS28C temperature sensor.

• Environment: A collection of utilities for environment monitoring applications.

• I2C_Functions: Simplifies I2C communication for AVR microcontrollers.

• I2C_Scanner: A utility for scanning I2C addresses on a bus.

• MAX17055: Helps with interfacing with the MAX17055 fuel gauge.

• MAX78630: A library for the MAX78630 power management IC.

• RV3028: Designed for interfacing with the RV3028 real-time clock.

• Statistical: Provides statistical functions for data analysis.

• PostMan: A library to simplify HTTP requests for IoT applications.