FOP-M260 Fiber Medical Pressure Sensor is used in several FDA and CE approved devices in a variety of clinical applications.
FOP-M is a fiber-optic pressure sensor designed mainly for applications where high temperature conditions can be found such as in aerospace and defense.
FOP-MIV has been especially designed and tested to fulfill the highest of medical performance requirements.
FOP-MH is a fiber optic pressure sensor designed mainly for applications where extreme temperature conditions can be found such as aerospace and defense.
FOP-C is a fiber optic pressure sensor designed for general industrial applications in harsh and hazardous environments, where very high pressure conditions.
FOP-MA acoustic pressure sensor offers small size, high accuracy, immunity to EMI/RFI, and resistance to corrosive environments.
FOP-MHP is a fiber optic pressure sensor designed mainly for applications where high pressure conditions can be found such as in aero-space and defense.
The FOT-L-SD and FOT-L-BA are fiber optic temperature sensors perfectly suited for harsh environmental conditions.
FOT-HERO is a fiber optic temperature sensor specifically designed for use in Electronic Explosive Device (EED) and HERO-type testing applications.
FOT-M temperature sensor combines all the desired characteristics you would expect from the ideal sensor.
EFO is a fiber optic strain sensor especially designed to be embedded in concrete, ideal for composite material engineering research and civil-engineering.
FOS-N is a fiber optic strain sensor, ideal for composite material engi-neering research and civil-engineering applications.
SFO-W is a fiber optic spot-welded strain sensor designed for civil engineering applications.
FRI is a fiber optic refractive index sensor, ideal for refractive index measurement of fluids in chemical and food processing industry applications.
FOD is a fiber optic linear position and displacement sensor that provides high accuracy, absolute measurements of position and displacement.
FTI-10 conditioner is designed to perform accurate single-channel measurements.
UMI conditioner is designed to perform accurate multi-channel temperature, pressure, strain, refractive index, and displacement measurements.
This Electric-field sensor, based on EO effect, is probed by a laser through optic fiber and packaged only with dielectric components.
This Electric-field sensor, based on EO effect and coupled with a dual-fiber collimator, is probed by a laser through optic fiber and packaged only with dielect