ROGERS 4003C and ROGERS 4350B have excellent low dielectric loss characteristics. As a result, they provide a more cost-effective and processable high-frequency material selection than PTFE materials.
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
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
The IsoClad 917 and IsoClad 933 series boast a low dielectric constant (Dk ≈ 2.2–2.33 at 10 GHz), minimizing signal propagation delays and phase distortions. With an ultra-low dissipation factor
TLC-32 laminate offer a stable and consistent Dk (3.20 ±0.05), ensuring predictable signal integrity across a wide frequency range. With an ultra-low Df (<0.003 at 10 GHz), these laminates reduce
TP material stands out as a distinctive high-frequency thermoplastic in the industry. The dielectric layer of the TP laminate is uniquely composed of a blend of ceramic and polyphenylene oxide
The dielectric constant of this TFA series is 2.94, 3.0, 6.15, 10.2. With the same level of dielectric constant excellent electrical properties, thermal properties, mechanical properties, is aerospace grade high
Shengyi SCGA-500 GF220 is a low-loss PTFE woven glass PCB material, specifically engineered for high-frequency applications. With a dielectric constant of 2.20(±0.02) at 10GHz, the laminate maintains outstanding dielectric stability
Shengyi SCGA-500 GF265 is a low-loss PTFE woven glass PCB material, specifically engineered for high-frequency applications. With a dielectric constant of 2.65(±0.04) at 10GHz, the laminate maintains outstanding dielectric stability
Shengyi SG7350D2 laminate have a low dielectric constant of 3.55 at 10 GHz, maintains outstanding dielectric stability across various frequency and temperature ranges. Shengyi SG7350D2 laminate is a high-performance laminate
The S7136H laminate is characterized by a high Glass Transition Temperature (Tg) of over 280°C.With a dielectric constant of 3.42 at 10GHz, the S7136H laminate maintains outstanding dielectric stability across
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
F4BTMS series(F4BTMS220、F4BTMS233、F4BTMS255、F4BTMS265、F4BTMS294、F4BTMS300、F4BTMS350、F4BTMS430、F4BTMS450、F4BTMS615、F4BTMS1000) is the upgraded version of the F4BTM series. Significant technical advancements have been achieved in material formulation and production processes
Rogers CLTE-XT PTFE laminate have a dielectric constant (Dk) of 2.94 at 10 GHz at the same frequency, CLTE-XT ensures minimal signal degradation and excellent efficiency. It's ultra-low loss tangent
RO4835INDTM LoPro® thermoset laminates have a stable Dk of 3.48 at 10 GHz, this material ensures consistent signal integrity across a wide frequency range, minimizing phase shifts and impedance mismatches.
CLTE-AT laminates use the common building blocks developed with CLTE-XT™ laminates, but with some changes to make the product more affordable. CLTE-AT laminates have “Best-in-Class” Insertion Loss (S21) and Loss
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
RO4830™ thermoset laminates are particularly well-suited for cost-sensitive millimeter-wave applications, such as 76-81 GHz automotive radar sensors.RO4830 laminates exhibit a dielectric constant of 3.2 at 77 GHz, which is marginally
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
