Silicone PWBs
These components are characterized by high reflectance, high discoloration resistance, and high durability.
Heat generated by high-luminance LED and discoloration from ultraviolet rays can be lessened.
Principal use
LED Devices
Technology / Composition
Heat Dissipating PWBs
High heat dissipation can be attained by using aluminum or copper plates in LED lights, power modules, and other products requiring such dissipation. Increasing the thermal conductivity of PWB suppresses rising temperatures in components and conductors.
Principal use
Power Modules / LED Devices / Electronic Car Devices
Technology / Composition
High-Frequency PWBs
High-quality and high-speed signal processing in high-frequency signal circuits can be supported by combining our manufacturing technology with high-frequency materials for low dielectric constant, low dielectric tangent, and low transmission loss processing.
Principal use
Antennas / Radars / Automotive Sensors / Power Amplifiers
Technology / Composition
Double-Sided/Multi-layer PWBs
This PWB is made of conductive layers that are connected via copper-plated through-holes.
From general-purpose to special-purpose products, you can achieve both low cost and high quality by selecting optimal materials to suit your purposes.
Principal use
Computers / Industrial Machinery / Measuring Instruments
Technology / Composition
High Modulus/Low CTE PWBs
Warp can be remarkably reduced because of the small XY-axis expansion coefficient and high coefficient of elasticity.
An environment with a large temperature change may cause cracks in solder joints due to differences in thermal expansion coefficients, which reduce connection reliability. To prevent this, the thermal expansion coefficient of the PWB must be reduced.
The thermal expansion coefficient can be reduced to as low as that of alumina ceramics or silicones.
Principal use
Servers / Routers / Measuring Instruments / Communication Equipment / Semiconductor Packages