Showing results: 1 - 5 of 5 items found.
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RX-95 -
Resonance Technology
The system works based on the absorption of microwave energy by water molecules contained inthe x-rayed material. It is a non-contact, non-destructive method of instant measurement of water content - used for materials such as coal, flour, grain, cement, seeds, sugar, etc. Thanks to high measurement sensitivity (resolution greater than 0.01% of water content by weight), short measurement time (about 5 times/sec.) and repeatability of measurement - the system is suitable for continuous measurement of material moisture, e.g. on conveyor belts and its recording on a PC or using a 4-20 mA current loop.
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RX-21b -
Resonance Technology
The RX-21 Teslameter is a portable, hall-effect magnetic field meter that measures both the DC component and the AC component of the field. The latter quantity is measured in the frequency range 20 Hz - 25 kHz as the effective value of the magnetic field (so-called true RMS), regardless of changes in the field as a function of time. The meter's operating range is 0 - 3000 mT , switched manually or automatically.
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RX - 213 -
Resonance Technology
Teslameter RX-213 is a portable, hall-effect magnetic field meter, measuring simultaneously - along three mutually perpendicular axes - both the DC component and the variable component of the field (AC) with a frequency of 20 Hz - 20 kHz. The latter quantity is measured as the effective value of the magnetic field (so-called true RMS ), regardless of changes in the field as a function of time.
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RX - 32 -
Resonance Technology
The device is designed to work as a research or service instrument characterized by a very high precision of magnetic field measurement. Thanks to the operation based on the principle of nuclear magnetic resonance ( Nuclear Magnetic Resonance - NMR ), it is a quantum device whose indications do not depend on external factors such as temperature, pressure, aging effects, etc.
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RX - 25 -
Resonance Technology
The instrument measures the magnetic field induction simultaneously along three mutuallyperpendicular axes. The measurement result shows the value of the field along any of these axes, as well as the magnitude of the induction vector B.