High Performance Custom Ceramics
Our 10BCR4B-f0/BW-L is an innovative, high performance bandpass filter. Featuring 10 resonators and cross-coupled zeroes, this innovative custom design in a compact leadless package may be what you need for your unique application...
CLTE-AT: Commercial Ceramic PTFE Composite
CLTE-AT represents the commercial version of the
CLTE product line. CLTE-AT uses the common building
blocks developed CLTE-XT, but, with some
changes to make the product more affordable.
This results in a higher dielectric constant (3.00) and
a slightly different thickness than the CLTE-XT. To
maintain its lower cost base, CLTE-AT has less options
for copper style and panel sizes.
Ceramic Quartz Crystal (2.5x4.0mm)
The C4 series ceramic quartz crystal provides a broad range of frequencies. The ceramic quartz crystal is a robust low profile package perfect for tight board space.
25N/FR: Ceramic-Filled Composite Materials
Arlon 25N and 25FR are woven fiberglass reinforced, ceramic-filled composite materials engineered for use in microwave
and RF multilayer printed circuit boards.
CLTE-XT: Micro-Dispersed Ceramic PTFE Composite
CLTE-XT represents the eXtended Technology of the existing CLTE product line. CLTE-XT is a micro dispersed ceramic PTFE composite utilizing a woven fiberglass reinforcement to provide the highest degree of dimensional stability, critical in multi-layer designs...
Ceramic Quartz Crystal
The C3 packaged Ceramic Quartz Crystal is an excellent low cost tight tolerance crystal with a footprint designed for high density surface mounting.
When cost, size, and stability are important, look to Knowles Precision Devices’ offering of ceramic resonators.
Three grades of material from this product family, including the RT/duroid 6006 (er =6.15), RT/duroid 6002 (er =2.94) and 6010 (er =10.2, were developed to reduce the size of circuit boards
AD300A: PTFE/Woven Fiberglass/Micro-Ceramic Filled Laminate
AD300A is a woven fiberglass reinforced PTFE/Microfine Ceramic composite material and is a significant improvement in
cost/performance over traditional fluoropolymer-glass laminates. This combination offers designers an advantage for
improving electrical performance through the use of advanced material without the additional cost traditionally
associated with higher performance...