Rogers RO3010 laminates are ceramic-filled PTFE composite suitable for applications up to 77 GHz. It exhibits a dielectric constant of 11.20 at room temperature, which remains stable up to 40
Rogers CuClad 217, CuClad 233 and CuClad 250 series laminates are woven fiberglass/PTFE composite materials for use as printed circuit board substrates.The woven fiberglass reinforcement in CuClad products provides greater
Shengyi SCGA-500 GF255 is a low-loss PTFE woven glass PCB material, specifically engineered for high-frequency applications. With a dielectric constant of 2.55(±0.04) at 10GHz, the laminate maintains outstanding dielectric stability
Shengyi SCGA-500 GF300 laminate is a low-loss PTFE woven glass PCB material, specifically engineered for high-frequency applications. With a dielectric constant of 3.00(±0.04) at 10GHz, the laminate maintains outstanding dielectric
Shengyi mmWave77 laminate maintains exceptional dielectric stability over high frequency and temperature, with a low Dk of 3.07 at 10GHz, and the material has a very low dissipation factor (typically
The IT-8615G material has a Dielectric Constant (Dk) of 6.15, which is precisely tailored for specific RF applications. With a dissipation factor (0.0038 @ 10 GHz) translates to reduced dielectric
N9000-13 RF is a PTFE Performance Blended product which combines the RF electrical properties of PTFE with the competitive performance features of AGC’s proprietary N4000-13 epoxy. including a stable Dielectric
With a Glass Transition Temperature (Tg) exceeding 210°C, the laminate offers exceptional thermal stability, making it resilient against the high temperatures encountered during lead-free assembly processes and in demanding operational
Isola IS680 laminates are designed with a glass transition temperature (Tg 200°C), providing excellent thermal stability under extreme conditions. With a dielectric constant (DK 2.80-3.45 @ 10GHz) and With a
IT-88GMW laminate offers a low dielectric constant (Dk) of less than 3.02 at 10GHz. this low Dk helps in minimizing signal distortion and maintaining signal integrity. It has a low
TLY-3 offers a compelling solution for tackling the challenges of high-frequency applications. With an ultra-low dissipation factor, TLY-3 minimizes signal loss and heat generation, making it ideal for high-power and
TF-1/TF-2 is made from a polytetrafluoroethylene resin material that’s really great at handling microwaves and high temperatures. It’s mixed with ceramics to boost its performance. One cool thing is that
TLY-5 laminates are made from lightweight woven fiberglass, offering superior dimensional stability compared to chopped fiber-reinforced PTFE composites.Its low dissipation factor ensures reliable performance in automotive radar applications operating at
