High-Performance Circuit Boards for Demanding Applications
Our Bismaleimide Triazine (BT) resin PCBs deliver exceptional performance for advanced electronic applications requiring superior thermal stability, mechanical strength, and electrical properties. These premium circuit boards combine bismaleimide and triazine chemistry to create a robust substrate ideal for high-frequency, high-temperature environments.
Key Features:
- Superior Thermal Performance: Glass transition temperature (Tg) exceeding 180°C with excellent thermal cycling resistance
- Low Dielectric Loss: Optimized for high-frequency applications with minimal signal degradation
- Enhanced Mechanical Properties: Superior flexural strength and dimensional stability under thermal stress
- Chemical Resistance: Excellent resistance to moisture absorption and chemical exposure
- Flame Retardant: Meets stringent flammability requirements without halogenated compounds
Performance Specifications:
- Dielectric constant (Dk): 3.2-3.9 at 1 GHz
- Dissipation factor (Df): <0.009 at 1 GHz
- Thermal conductivity: Enhanced heat dissipation capabilities
- CTE (Coefficient of Thermal Expansion): Closely matched to copper for reliability
- Operating temperature range: -55°C to +180°C continuous
Applications:
- Aerospace and military electronics
- High-speed digital and RF/microwave circuits
- Automotive electronics (engine control, power systems)
- Telecommunications infrastructure
- Industrial control systems
- High-reliability computing applications
Available Configurations:
- Single and multilayer constructions
- Various copper weights and finishes
- Custom stack-ups and impedance control
- HDI (High Density Interconnect) options
Quality Assurance: Manufactured to IPC-6012 standards with comprehensive testing including microsectioning, peel strength, thermal stress testing, and electrical parameter verification.
Ideal for engineers designing next-generation electronics requiring uncompromising performance in challenging environments where standard FR-4 materials fall short.
