PoC & Prototype Development: We begin the hardware development process with Proof of Concept (PoC) and prototyping. This validates the core functionality and ensures the product concept is viable and efficient.
Custom Hardware Design and Scaling: We tailor the design to fit your specific needs. Our meticulous planning and execution ensure scalability from early ideation to full-scale commercialization.
Advanced Engineering Practices: Our approach uses the latest electrical engineering best practices. This includes everything from sensor integration to advanced wireless communication protocols, ensuring your product is at the forefront of technology.
Rapid Prototyping and Market Testing: We emphasize a quick transition from design to prototype. This allows for early user interaction and feedback to refine and validate the product’s market fit.
Expertise and Experience: With years of experience in electronic design and development, Onivart Labs stands as a leader in creating innovative hardware solutions. Therefore, you can trust our expertise to deliver exceptional results.
Technology and Innovation: We employ state-of-the-art tools and techniques. By staying ahead of industry trends, we bring cutting-edge products to life. Thus, innovation is at the core of everything we do.
Quality and Reliability: Our commitment to excellence ensures that every piece of hardware meets stringent quality standards. As a result, we provide reliable and durable solutions that you can depend on.
IR, Temperature, Load cell, Ultrasonic, Accelerometer, Gyroscope, Motion, CMOS/Camera, Radar / Lidar, ToF, Gas, TDS etc.
ST, Renesas AVR, PIC, ARM Cortex-M, Nordic, ESP, 8051, NXP etc.
2G/3G/LTE/5G, Wi-Fi, Bluetooth/BLE, ZigBee, Z-Wave, Lora, LPWAN, RFID, NFC, TPMS, Ethernet, GNSS, NBIOT etc.
The initial phase focuses on conceptualizing the product, drafting design specifications, and creating electronic schematics. This ensures a solid foundation for the hardware's functionality and performance.
Develop and test early versions of the product to evaluate design, functionality, and integration with software systems. This process facilitates iterations and improvements.
Refine the hardware based on feedback from the prototyping stage. Then, finalize the design for manufacturing readiness, ensuring it meets all technical and market requirements.
Transition to mass production, overseeing the manufacturing process to ensure quality and consistency. Finally, launch the finalized hardware product to the market.
