Rogers CLTE-MW PCB is a high-performance microwave laminate engineered for demanding RF and microwave applications where dimensional stability and thermal reliability are critical. Designed by Rogers Corporation, this Low-CTE Thermoset PCB material delivers outstanding mechanical and electrical consistency across wide temperature ranges — making it the go-to choice for aerospace, defense, automotive radar, and 5G infrastructure designs.
Key Features of Rogers CLTE-MW PCB
The Rogers CLTE-MW laminate features an ultra-low Z-axis coefficient of thermal expansion (CTE), closely matched to copper, which significantly reduces the risk of plated through-hole failure in thermally stressed environments. With a dielectric constant (Dk) of 2.94 ± 0.04 and low dissipation factor, it ensures minimal signal loss and superior phase stability for high-frequency circuits operating up to millimeter-wave frequencies.
Additional performance highlights include:
- Low moisture absorption for consistent RF performance in humid environments
- Excellent dimensional stability for fine-line photolithography and tight impedance control
- Halogen-free and RoHS-compliant construction
- Compatible with standard PCB fabrication processes
Applications
Rogers CLTE-MW PCBs are widely used in phased array antennas, satellite communication systems, power amplifiers, microwave filters, and automotive ADAS radar modules — anywhere where thermal cycling stability and low-loss signal transmission are non-negotiable.
Why Choose PCBSync for Rogers CLTE-MW PCB Manufacturing?
When it comes to sourcing Rogers PCBs in China, PCBSync stands out as one of the best Rogers PCB manufacturers in China. With certified handling of Rogers CLTE-MW materials, precision fabrication capabilities, rigorous quality control (ISO9001 & IPC-A-600), and fast global delivery, PCBSync provides end-to-end solutions from prototype to mass production — ensuring every Rogers CLTE-MW board meets your exact specifications.
Contact PCBSync today for a competitive quote on your Rogers CLTE-MW PCB project.
