Thermal Dissipation | High-power electronics, industrial equipment | - Industry Standard: FR-4 substrate (0.2 W/m·K, IEC 60793-1-2) - Our Base: FR-4 + aluminum frame (0.3 W/m·K ▲) - Our Advanced: Full aluminum (1.8 W/m·K ▲▲) | Enhanced heat dissipation for prolonged operation Lightweight design | Higher cost for advanced materials Thinner PCBs may compromise durability |
Voltage Compatibility | Consumer electronics, automotive systems | - Industry Standard: 24V systems (IEC 60038) - Our Base: 12V operation (IEC 60038 ▲) - Our Advanced: Dual 12V/24V (IEC 60038 ▲▲) | Wider compatibility with 12V devices (e.g., laptops, IoT sensors) | Limited power output in base version for high-demand applications |
Noise Level | Office equipment, medical devices | - Industry Standard: 45 dBA (ISO 1996) - Our Base: 43 dBA (ISO 1996 ▲) - Our Advanced: 38 dBA (ISO 1996 ▲▲) | Quieter than a refrigerator hum (38 dBA) for noise-sensitive environments | Reduced airflow in advanced models may affect cooling efficiency |
Durability | Industrial machinery, outdoor devices | - Industry Standard: 500 hours MTBF (MIL-STD-217) - Our Base: 1,000 hours MTBF (MIL-STD-217 ▲) - Our Advanced: 2,000 hours MTBF (MIL-STD-217 ▲▲) | Double the lifespan of industry-standard PCBs in harsh environments | Higher upfront cost for advanced versions |
Weight | Portable devices, handheld tools | - Industry Standard: 500g (ISO 3801) - Our Base: 450g (ISO 3801 ▲) - Our Advanced: 350g (ISO 3801 ▲▲) | Lighter than competitors (350g) for mobility-friendly designs | Thinner materials may reduce structural rigidity in extreme conditions |
Design Flexibility | Custom electronics, specialized devices | - Industry Standard: Rectangular PCBs (ISO 9001) - Our Base: Symmetrical design (ISO 9001 ▲) - Our Advanced: Fully customizable shapes (ISO 9001 ▲▲) | Custom symmetrical layout fits niche enclosures (e.g., drones, robotics) | Higher NRE costs for non-standard shapes |