Advanced Hardware Design & Comprehensive Testing Solutions
NEXOXEN delivers comprehensive hardware design and testing solutions that ensure reliable, efficient, and high-performance electronic systems. Our hardware expertise encompasses PCB design, circuit analysis, component selection, and rigorous testing protocols to create robust hardware solutions.
From schematic design and PCB layout to prototype development and production testing, we provide end-to-end hardware design solutions that meet industry standards and regulatory requirements while optimizing performance, cost, and manufacturability.
- PCB Design & Layout
- Circuit Design & Analysis
- Component Selection & Sourcing
- Prototype Development
- Signal Integrity Analysis
- EMC/EMI Testing
- Production Testing & Validation
Our Hardware Design Process
We follow a systematic approach to hardware design that ensures optimal performance and reliability. Our process includes requirements analysis, schematic design, PCB layout, prototype development, testing, and validation.
Requirements Analysis &
Schematic Design
We analyze your requirements and design the circuit schematic, selecting appropriate components and defining the system architecture for optimal performance and cost-effectiveness.
PCB Layout &
Prototype Development
Our hardware engineers create optimized PCB layouts with proper routing, thermal management, and signal integrity, then develop and assemble prototypes for testing and validation.
Testing &
Validation
We conduct comprehensive testing including functional testing, environmental testing, EMC/EMI testing, and reliability testing to ensure hardware meets specifications and quality standards.
Frequently asked questions
We design various types of hardware including embedded systems, IoT devices, industrial controllers, medical devices, automotive electronics, consumer electronics, and custom hardware solutions for specific applications.
We utilize professional-grade design and simulation software from leading industry providers. Our tool selection is based on project complexity, specific design requirements, and the need for advanced features to ensure optimal results.
We implement signal integrity best practices including controlled impedance routing, proper grounding, power plane design, and EMI shielding. We also use simulation tools to analyze and optimize signal quality.
Yes, we provide manufacturing support including design for manufacturability (DFM) analysis, assembly instructions, test fixture design, and quality control procedures to ensure smooth production.
We provide comprehensive testing solutions including functional testing, environmental testing, EMC/EMI testing, reliability testing, and compliance testing to ensure hardware meets all requirements and standards.