TU-900 Tg260 material is made of BT-like high performance resin system and E-glass fabric. its ultra-high glass transition temperature (Tg) of 260°C, this halogen-free material is engineered to possess both
Rogers CLTE-MW™ laminates are ceramic-filled, woven glass-reinforced PTFE composites. With a low loss tangent of 0.0015 at 10 GHz, and the material boasts a Dielectric Constant (Dk) of 2.94 to
RT/duroid® 6002 microwave material is the first low-loss, low dielectric constant laminate that material boasts a Dielectric Constant (Dk) of 2.94 ±0.04 at 10GHz, with a low loss tangent of
RO4360G2™ laminates, characterized by a dielectric constant (Dk) of 6.15, exhibit low loss and are reinforced with glass fibers. Alongside a Dissipation Factor (Df) of just 0.0038 at 10 GHz,
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 LNB33C laminate is characterized by a high glass transition temperature (Tg) exceeding 280°C.The dielectric constant (Dk) of LNB33C laminate is approximately 3.30 ± 0.05 at 10 GHz (as per
Shengyi SF230 Low Loss MPI FCCL (Flexible Copper Clad Laminate) stands out as a high-performance, cost-effective, and sustainable solution that bridges the gap between standard polyimide and premium LCP materials.
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-8350G is an advanced Ultra-Low Loss (ULL) & High Tg (185°C by TMA) material specifically engineered to meet the stringent requirements of demanding Radio Frequency (RF) applications.The Dielectric Constant (Dk)
RO4725JXR™ and RO4730G3™ laminates possess the mechanical and electrical properties essential for antenna design. These materials exhibit a dielectric constant (Dk) of 2.55 and 3.0, respectively, and a loss tangent
I-Tera MT40 is an advanced laminate material meticulously engineered to meet the stringent demands of today’s high-speed digital and RF/microwave printed circuit board (PCB) designs.With a dissipation factor as low
Rogers RO3003 is a ceramic filled PTFE composite material used in commercial microwave and RF applications. It offers excellent stability with a dielectric constant of 3.0±0.04 to 10 GHz. The
Rogers RO4730™ LoPro™ laminate is a high-frequency material specifically designed for use in various applications, Typical applications is Base Station Antennas.The RO4735 have a dielectric constant (Dk) of 3.0 and
RO3203™, RO3206™ and RO3210™ High Frequency Circuit Materials are ceramic-filled laminates rein forced with woven fiberglass.The dielectric constant of RO3203 High Frequency Circuit Materials is 3.02. This along with a
