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 Description:
To determine moisture on a continuous basis, the Model
BSP-901 Moisture and Control System uses the principle
of comparing reflected energy at two near-infrared
(NIR) wavelengths. A stabilized infrared source is
focused
on the material to be measured, and reflected energy
is filtered at two different wavelengths—one
calibrated specifically for moisture and the other
as a reference.
The ratio of the two signals is derived electronically,
and the resulting moisture content is presented on
the digital display. This non-contact NIR technique
can measure
near-surface moisture in a wide range of applications.
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 Description:
The BSP-901 RF Sensor employs a radio frequency (RF)
power-loss technique that operates at 2 MHz. The sensor
projects an RF field into the sample and measures the
field power loss (change in RF dielectric constant) caused
by moisture. Thus, the system response is a measure of
the total water in the RF field, which is directly related
to the moisture content of the material. The underlying
RF power-loss absorption principle is a Moisture Register
patented feature.
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 Description:
The Microwave Moisture Analyzer has been designed to
be compatible with the BSP-901 Console to make a complete
bale moisture measurement and display system. The integrated
system delivers all of the proven features of the BSP-901.
This bale application system is appropriate for most
baled moisture-content applications, including cotton,
tobacco, and recycled paper, to cite just a few. The
microwave analyzer can measure completely through the
bale to show total moisture content. What’s more,
the measurement is just as accurate whether the bale
is moving or stationary.
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 Description:
To determine moisture on a continuous basis, the SMART
II Moisture and Control System uses the principle of
comparing reflected energy at two NIR wavelengths.
A stabilized infrared source is focused on the material
to be measured, and reflected energy is filtered at
two
different wavelengths—one calibrated specifically
for moisture and the other as a reference. The ratio
of the two signals is derived electronically, and the
resulting moisture content is presented on the digital
display. This non-contact NIR technique can measure
near-surface moisture in a wide range of applications.
The Smart II
System also includes S2Comm communication software,
which can be used to display as many as four moisture
meter
outputs on any PC monitor.
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data sheet
Description:
The SMART II RF Sensor employs a radio-frequency (RF)
power-loss technique that operates at 2 MHz. The sensor
projects an RF field into the sample and measures the
field power loss (change in RF dielectric constant)
caused by moisture. Thus, the system response is a
measure of
the total water in the RF field, which is directly
related to the moisture content of the material. The
underlying
RF power-loss absorption principle is a Moisture Register
patented feature. The Smart II System also includes
S2Comm communication software, which can be used to
display
as many as four moisture meter outputs on any PC monitor.
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PDF:
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data sheet
 Description:
An Explosion-Proof Housing is available as an option
for the BSP-901 and the SMART II Moisture Analysis
Systems.
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 Description:
The NIR Test Plate provides a quick and easy way to verify
the results obtained by Moisture Register Products' NIR
sensors.
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Description:
The Opto-Port is a patented sampling device for use with
the SMART II and BSP-901 Moisture Analyzing Systems.
The Opto-Port can perform moisture measurement of powdered
materials within a closed conveying system such as within
pneumatic piping or under a rotary airlock valve. Installed
directly into the conveying system, the stainless steel
Opto-Port is attached to a Moisture Register Products'
NIR Sensor. Product moisture is read through a quartz
window at the end of the Opto-Port (usually inside a
drop pipe). A regulated air blast instantly removes old
product from the measurement window so that a new reading
is taken every 3-5 seconds. No moving parts are necessary
to make the moisture measurement.
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