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The SLM600 Series is a highly developed ultrasonic level measurement system, which provides non contacting level measurement for a wide variety of applications. The SLM600 Series operates on the principle of timing the echo received.
From a measured pulse of sound transmitted in air and utilizes state of art echo extraction technology. Two
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The SONDAR2000 is a highly developed ultrasonic level measurement system which provides non-contacting level measurement for a wide variety of applications in liquids. The unit offers not only dual point level but also differential level monitoring.The relays and mA outputs may be used as preset (or programmed as desired) to activate alarms and/or
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The SONDAR SLM300C, 800C and 990C are a highly developed ultrasonic level measurement system, which provides in non contacting level measurement for a wide variety of applications in liquid and solid. This unit is designed for mounting above material level being measured. If offers the integral nose thread allowing a screw-fit of flange-fit to
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The SONDAR3000 is a highly developed ultrasonic level measurement system which provides non contacting sludge level measurement for a wide variety of applications. The unit measures and controls the solid and liquid interfaces in clarifiers, thickeners, setting tanks and other similar vessels. It also provides a hinged swing bracket that secures
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The SONDAR4000 continuously monitors and controls the density of industrial smudges and slurries. The measuring principal of the unit is gauging the ultrasonic attenuation amount by transmitting the ultrasonic waves through solid-suspending liquids, and receiving the dispersed and attenuated waves by a receiving sensor. Since this attenuation is
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The SONDAR4000 continuously monitors and controls the density of industrial smudges and slurries. The measuring principal of the unit is gauging the ultrasonic attenuation amount by transmitting the ultrasonic waves through solid-suspending liquids, and receiving the dispersed and attenuated waves by a receiving sensor. Since this attenuation is