Engineered for mission-critical applications where electromagnetic interference (EMI) protection is paramount, our Shielded Flex Circuits deliver superior signal integrity in a flexible, space-saving form factor. These advanced flexible printed circuit boards combine the bendability and weight advantages of traditional flex circuits with robust EMI shielding capabilities.
Key Features:
- Comprehensive EMI Protection: Integrated shielding layers effectively block electromagnetic interference, ensuring clean signal transmission even in high-noise environments
- Flexible Design: Maintains excellent flexibility for dynamic applications, tight bend radii, and 3D installations while preserving shielding effectiveness
- Multi-layer Construction: Available in various layer counts with strategically positioned ground planes and shielding layers for optimal performance
- Superior Signal Integrity: Controlled impedance design minimizes crosstalk and maintains signal quality across high-frequency applications
- Lightweight & Compact: Reduces overall system weight and volume compared to traditional cable assemblies with external shielding
Applications:
- Aerospace and defense systems requiring EMI compliance
- Medical devices with sensitive analog circuitry
- High-speed data transmission in telecommunications equipment
- Automotive electronics in electrically noisy environments
- Industrial automation systems with motor drives and switching circuits
- Consumer electronics requiring FCC/CE EMI certification
Construction Options:
- Copper foil shielding with adhesive backing
- Conductive fabric shields for enhanced flexibility
- Multiple ground plane configurations
- Custom impedance matching (50ฮฉ, 75ฮฉ, 100ฮฉ differential)
- Polyimide or PET substrate materials
Certifications & Compliance: Manufactured to IPC-6013 standards with EMI testing per ASTM D4935 and MIL-STD-285. RoHS compliant and available with UL recognition for safety-critical applications.
Ideal for engineers seeking to eliminate bulky cable assemblies while maintaining strict EMI performance requirements in space-constrained designs.
