Precision Manufacturing Engineering
We determine the hardware architecture based on client requirements,
deliver high-quality schematic and PCB design, produce manufacturing files, and prototype hardware (PCBA).
Leveraging proven voice and vision technologies, we design and develop AI-powered smart hardware products tailored to your application scenarios.
Voice Interaction: Develop smart speakers/voice control terminals using chips like iFlytek CSK6012.
Vision Processing: Customize AI cameras/edge computing devices based on NVIDIA Jetson series.
We provide low-power MCU/SoC solutions (e.g., ESP32, STM32) combined with ID/MD design for IoT products like smart home devices and industrial sensors.
Single-Board Computer Integration
We provide full-device R&D and supply chain support for platforms like Adurino / Raspberry PI / Beagleboard.
We develop and optimize firmware to ensure hardware compatibility, enhanceoperational efficiency, and improve device stability and functionality.
OS Adaptation
Real-time systems: FreeRTOS, Zephyr (e.g., for industrial controls, wearables).
Complex OS: Linux/Android driver development (e.g., for medical device Ul customization)
Core Capabilities
Ultra-low power optimization.
Wireless protocol integration (BLE Mesh, LoRaWAN).
Hardware compatibility testing (sensor calibration, communication module recovery)
We develop platform-specific applications (i0S/Android, embedded systems)tailored to user needs and real-world scenarios.
Application Development
Industrial: Automation, predictive maintenance, and loT-driven manufacturing systems.
Commercial: Retail management, CRM, and financial analytics tools.
Educational: E-learning platforms, classroom management systems, and interactive EdTech solutions.
Medical: Telemedicine, EHR (Electronic Health Records), and diagnostic tools.
Tech Stack
Embedded systems: C/C++, Python (edge Al inference).
Mobile apps: i0S/Android (Bluetooth/Wi-Fi control).
Certified systems ensure end-to-end compliance from design to delivery.
Evaluate technical specifications wstimate workload
Main controller solution Scritical component sourcing
Hardware architecture planning Power distribution design Circuit design & BOM generation
Component placement optimization PCBA layout Gerber out
PCB fabrication SMT assembly
RTOS/firmware customization Peripheral driver integration
Scenario-based logic implementation Cross-platform APP development
Hardware-software co-simulation Signal integrity debugging
Power integrity analysisSignal integrity validationReliability testingSafety compliance
Can you handle integrated development from hardware to software?
We deliver end-to-end development services:
Hardware: Circuit design → PCB fabrication → Prototype debugging
Firmware: Chip-level driver development (e.g., precision temperature control, Bluetooth protocol integration)
Software: Mobile/desktop control interfaces + cloud data management (cross-platform sync supported)
Think of it as building both a smart lock's hardware and its companion app/remote management system.
How do you ensure efficient collaboration between hardware & software teams?
Our Dual-Safeguard Collaboration Model:
① Real-Time Co-Debugging: Instant data sharing from hardware tests to software optimizations
② Risk Preemption: Simulate software-induced hardware stresses (e.g., prolonged thermal loads)
Like architects and builders working on the same 3D BIM model to prevent rework
What’s the timeline from design to mass production?
Standard Timelines:
Simple products (e.g., smart plugs): 4-6 weeks (includes 2 prototype iterations)
Complex systems (e.g., industrial controllers): 3-5 months (phased delivery)
Expedited options available – up to 30% faster (subject to engineering feasibility)
How do you control development costs?
Three Cost-Optimization Strategies:
① Hardware: Alternative component sourcing (30% cost reduction with equivalent performance)
② Software: Reuse certified modules (e.g., payment/maps APIs)
③ Mass Production: Optimize PCB layers (6-layer replaces 8-layer designs)
Receive a Cost Control Blueprint before project kickoff
Can we verify prototypes before mass production?
Standard Validation Process:
3 prototype iterations: Progressive design refinement
Pilot production: 50-100 units for real-world testing
Certification: Complimentary EMC/aging test reports from CNAS-accredited labs
Guaranteed design maturity before full-scale manufacturing
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