Power and thermal design are critical to the performance, reliability, and longevity of modern electronic products. As devices become more compact and power densities increase, managing power delivery and heat dissipation has become a major engineering challenge. Poor power or thermal design can lead to instability, performance degradation, and premature failures. Avecas provides comprehensive Power and Thermal Design services that help organizations build efficient, stable, and thermally robust systems.
Our expertise ensures that electronic systems operate within safe electrical and thermal limits across all operating conditions.
We design robust power architectures that support stable and efficient power delivery across electronic systems. Our engineers develop power delivery networks that meet voltage, current, and transient requirements for processors, memory, and peripherals. We ensure proper power sequencing, decoupling strategies, and load regulation.
This approach improves system stability and reduces power-related failures.
Power integrity is essential for reliable system operation. Avecas analyzes voltage drops, current transients, and noise across power rails to identify potential risks. We optimize power planes, decoupling networks, and regulator placement to maintain stable voltage levels under dynamic load conditions.
Effective power integrity design improves performance and reduces system noise.
Thermal management is critical for maintaining system performance and reliability. Our engineers perform thermal analysis to evaluate heat generation and dissipation across components and assemblies. We design thermal solutions including heat sinks, airflow strategies, and material selection to ensure efficient heat removal.
This helps prevent overheating and extends product lifespan.
Power and thermal behavior are closely linked at the PCB level. Avecas optimizes PCB layouts to improve power distribution and thermal conduction. We design layer stackups, copper pours, and thermal vias to enhance heat spreading and reduce thermal resistance.
This integrated approach ensures efficient power delivery and effective thermal management.
We validate power and thermal performance through simulation, measurement, and correlation with real-world conditions. Our engineers support stress testing and operating margin analysis to ensure designs remain reliable across temperature and load variations.
This validation helps achieve first-pass success and production readiness.
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Your Partner for Efficient and Reliable System Design
We support power and thermal design activities using industry-standard tools and proven methodologies to ensure stable power delivery and effective thermal management.
Advanced analysis and simulation tools used to evaluate voltage stability, current transients, and power noise.
Thermal simulation techniques applied to predict heat distribution, airflow, and temperature rise across systems.
Optimization methods that improve power distribution and enhance heat dissipation at the PCB level.
Validation processes that confirm power and thermal performance under real-world operating conditions.
designing advanced SoCs.
with specialized process needs.
demanding low-power solutions.
requiring safety-critical libraries.
