Product: Power PCBA
Material: FR4 (Tg 135–185℃, 0.26–0.29 W/m·K), aluminum PCB (85–245 W/m·K), ceramic (AlN ≥165 W/m·K)
Quality standard: IPC-6012 (Class 2/3)
Dielectric constant:
FR4: 4.1–4.5 @1MHz;
aluminum hybrid: 3.2–3.4 @6GHz
Layers:
2–10 layers (max 10 for complex designs)
Thickness:
0.7–3.2 mm (FR4: 0.8–2.4 mm; aluminum: 1.0–3.3 mm)
Copper thickness:
1–4 oz (35–140 μm)
Surface technology:
ENIG (Ni 2.5–4.5 μm / Au 0.02–0.06 μm), HASL, OSP (0.18–0.45 μm)
Special requirements:
Power handling: 100–2000W; operating temp: -40℃~125℃; voltage rating: 24–800V
Application:
EV chargers, solar inverters, industrial automation, battery management systems
Power PCBA isn’t just a circuit assembly—it’s the critical link that transforms, regulates, and distributes electrical power across industries, from electric vehicles to solar farms. Designed to handle high voltages, manage extreme temperatures, and deliver consistent performance, it turns raw energy into reliable power for the technologies that drive modern life.
Engineered for the Rigors of Power Management
What sets Power PCBA apart is its ability to thrive where energy demands are highest:
Material Precision for Every Load: FR4-based Power PCBA balances cost and efficiency (0.26–0.29 W/m·K thermal conductivity) for mid-range systems like industrial automation controllers. For high-power setups—think EV chargers or solar inverters—aluminum Power PCBA (85–245 W/m·K) excels at dissipating heat, ensuring 100–2000W flows without overheating. In extreme environments, ceramic (AlN) variants (≥165 W/m·K) stand up to the harshest conditions, from desert solar farms to factory floors.
Built to Handle Voltage Extremes: With a 24–800V rating, it adapts seamlessly—powering small consumer devices at 24V or heavy-duty EV inverters at 800V. Its 2–10 layer design, paired with 1–4 oz copper (35–140 μm), minimizes resistance, so energy loss stays below 2% even under peak loads.
Tough Enough for Real-World Use: Operates flawlessly from -40℃ (arctic renewable installations) to 125℃ (industrial motor drives). Surface treatments like ENIG (Ni 2.5–4.5 μm / Au 0.02–0.06 μm) or OSP protect against corrosion, ensuring longevity in humid or dusty environments.
Power PCBA
Powering Progress Across Industries
Power PCBA is the unsung hero in key sectors:
Electric Vehicles (EVs): Powers on-board chargers and battery management systems, with IATF 16949 compliance ensuring it meets automotive safety standards. Its high-voltage tolerance (up to 800V) aligns with next-gen EV architectures.
Renewable Energy: Converts solar panel output in inverters, where thermal efficiency (thanks to aluminum substrates) maximizes energy harvest—critical for hitting green energy targets.
Industrial Automation: Drives motor controllers and UPS systems, with 100–2000W handling to keep factories running without interruptions.
Trusted by Global Standards
Every Power PCBA meets IPC-6012 (Class 2/3) for precision, RoHS 3.0 for environmental safety, and ISO 9001 for quality consistency. Whether powering a home solar setup or a fleet of EVs, it delivers reliability you can count on.
Product: Power PCBA
Material: FR4 (Tg 135–185℃, 0.26–0.29 W/m·K), aluminum PCB (85–245 W/m·K), ceramic (AlN ≥165 W/m·K)
Quality standard: IPC-6012 (Class 2/3)
Dielectric constant:
FR4: 4.1–4.5 @1MHz;
aluminum hybrid: 3.2–3.4 @6GHz
Layers:
2–10 layers (max 10 for complex designs)
Thickness:
0.7–3.2 mm (FR4: 0.8–2.4 mm; aluminum: 1.0–3.3 mm)
Copper thickness:
1–4 oz (35–140 μm)
Surface technology:
ENIG (Ni 2.5–4.5 μm / Au 0.02–0.06 μm), HASL, OSP (0.18–0.45 μm)
Special requirements:
Power handling: 100–2000W; operating temp: -40℃~125℃; voltage rating: 24–800V
Application:
EV chargers, solar inverters, industrial automation, battery management systems
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