Morgan Technical Ceramics' ceramic feedthroughs are ceramic-to-metal assemblies used to transmit signals, high voltages, high currents, gases or fluids from outside a hermetically-sealed chamber to the inside.
Our ceramic feedthroughs are designed to provide electrical insulation and high mechanical strength. They are hermetic and maintain ultra-high levels of vacuum and joint integrity that is maintained at elevated temperatures, cryogenic conditions and in harsh environments.
- Feedthroughs for low voltages (up to 12 kV) typically to convey a signal
- High-voltage feedthroughs (20 to 100 kV)
- Water-cooled feedthroughs and RF feedthroughs typically used in CO2 lasers
Low and High Voltage Feedthroughs
Feedthroughs for low and high voltage can be designed to customer requirements. The method of interconnection (number of conducting pins) is flexible so can be designed as a single-pin, multi-pin or thermocouple feedthrough.
Water Cooled and RF Feedthroughs
Water cooled feedthroughs and RF feedthroughs are designed to operate efficiently in a variety of RF applications including CO2 lasers, sputtering and plasma generation.
Materials Used in Feedthrough Assemblies
- High purity alumina (95 to 99.5%) - Deranox 970, Sintox FF and Deranox 995
- Glass and glass ceramic
- Conventional brazing materials (moly manganese or active braze alloys (ABA)
- Metals - OFHC copper, stainless steels, mild steels, monel, nickel alloys and titanium, gold coating (to enhance electrical conductivity)
- Glazes for protection or to facilitate cleaning
- Mass spectrometry, gas detection and high vacuum connectors
- Microscopes (TEM, SEM)
- Particle accelerators and nuclear detectors
- X-ray equipment, scanners and imaging applications for the medical industry
- Sensors, satellite propulsion and engine management for the aerospace industry
- Optoelectronics and power tubes
- Gas lasers
- Deep sea repeaters and penetrators
- Rechargeable batteries for energy storage