At DAL Technology, our PCB and Electronic Design services are tailored to meet the unique requirements of IoT and embedded systems. Through meticulous design processes and cutting-edge technologies, we transform complex concepts into robust electronic platforms.
Leveraging our extensive experience in designing IoT devices and embedded systems, we develop a wide range of devices, including: - Simple IoT Sensors - Industrial Automation Systems - Automotive Devices for Harsh Environments - GPS Trackers - Edge AI Solutions - Wearable Technology - Smart Home Devices - Medical IoT Devices
Microcontrollers, Microprocessors, and FPGA: We work with a range of technologies, from simple 32-bit microcontrollers to complex microprocessors and FPGAs, enabling us to meet diverse project requirements.
Maximize the potential of your IoT devices by integrating AI and machine learning. Our expertise includes:
Edge AI Deployment: Implementing AI at the edge for real-time analytics and decision-making.
Predictive Maintenance: Utilizing machine learning algorithms to predict equipment failures before they occur.
Data Analytics: Transform raw data into valuable insights using advanced AI models.
Smart Automation: Integrating AI to enhance automation processes for industrial and commercial applications.
Feasibility Study: In-depth analysis to determine the viability of proposed designs. Requirement Specification: Detailed documentation of design requirements and objectives.
Feasibility Study: In-depth analysis to determine the viability of proposed designs. Requirement Specification: Detailed documentation of design requirements and objectives.
Comprehensive Documentation: Providing detailed design documentation and assembly instructions. Production Coordination: Assisting with the transition from design to mass production, ensuring seamless integration with manufacturing partners.
Comprehensive Documentation: Providing detailed design documentation and assembly instructions. Production Coordination: Assisting with the transition from design to mass production, ensuring seamless integration with manufacturing partners.
Circuit Design: Creating precise circuit schematics based on client requirements. Component Selection: Choosing the most suitable components for reliability and performance.
Circuit Design: Creating precise circuit schematics based on client requirements. Component Selection: Choosing the most suitable components for reliability and performance.
Electrical Simulation: Utilizing advanced simulation tools to verify and optimize circuit performance. Prototyping and Testing: Building prototypes and conducting extensive testing to validate design integrity.
Electrical Simulation: Utilizing advanced simulation tools to verify and optimize circuit performance. Prototyping and Testing: Building prototypes and conducting extensive testing to validate design integrity.
Multi-layer PCB Design: Designing multi-layer PCBs to accommodate complex circuits and reduce noise. Design for Manufacturability (DFM): Ensuring that PCBs are designed for efficient manufacturing and reduced cost.
Multi-layer PCB Design: Designing multi-layer PCBs to accommodate complex circuits and reduce noise. Design for Manufacturability (DFM): Ensuring that PCBs are designed for efficient manufacturing and reduced cost.