plus Finetek Sensor, Inc. is pleased to make available the following News Announcements for review. If you have any questions please do not hesitate to contact us or submit an inquiry form.
Aplus Finetek Sensor, Inc. is pleased to announce the introduction of the JTR Series Guided Wave Radar Level Transmitter. Using state-of-the-art TDR technology, the JTR continuously measures the changing level of each of two liquids of differing specific gravity, within the same tank. The JTR features a 2-wire loop power supply and provides an independent 4-20mA output for each the top and bottom fluid levels.
Aplus Finetek Sensor, Inc. is pleased to announce the availability of its latest new product, the SC35 series vibrating fork point level sensor using ultra-ow density detection technology. The SC35 series uses state-of-the-art piezoelectric crystal and electronic technology to design and manufacture a point level sensor that does not require any calibration and can detect solids with a density as low as 0.624lbs/ft3!
Aplus Finetek Sensor, Inc. is pleased to announce the availability of its SE3 Series Compact Rotary Paddle Bin Level Indicator for point level switch applications of bulk solids, including powder and granular materials. Aplus Finetek Sensor is the manufacturer of this device, which is the most compact rotary paddle unit featuring a powder coated aluminum enclosure rated IP65 and NEMA 4X, and available local LED indication. The SE3 compact rotary paddle unit is economical and available in a variety of configurations; including Standard, High Temp and Reinforced Shaft Extended versions to handle a wide variety of applications broadly across many industries.
Aplus Finetek Sensor, Inc. is pleased to announce the availability of its latest new product, the SAL18 series RF admittance point level switch. The SAL is an advanced RF level switch, at an affordable price. The SAL eliminates problems associated with product build-up on the sensor probe and makes setup quick and easy with pushbutton calibration. Application control is enhanced with the independent adjustable time delay on material presence and material absence detection.