Specifications
44
icountOS
How It Works
Hydraulic Circuit
OUTPUT
350 bar
max.input
pressure
(Optional)
Pump
0.3 bar
Check Valve
10 bar
Check Valve
Flowcell
2.5 bar max.
input pressure
to icountOS
INPUT
PRV
Fig 1. In simple terms a controlled
column of contaminated uid
enters the laser optical scanner
chamber. This design maintains
contamination distribution within
the uid.
Fig 2. On reaching the photo diode
cell, the highly accurate laser light is
applied and projected through that
oil column. The laser diode projects
an image of the sample onto a
photo diode cell.
Fig 3. A cast image or shadow
created by the contaminant in the
oil creates a measurable change in
the light intensity.
The IOS quality condition
monitor for hydraulic oils and
hydrocarbon fuels uses advanced
technology to produce extremely
repeatable results.
At the heart of the system is a
sophisticated laser detector, using a
light obscuration ow cell, providing
continuous measurement of uid ow
passing through a sample tube.
Measurements are taken every
second as standard, although
measurement intervals and test period
can be de ned by the user, with
results being reported immediately
and updated in real time.
Data is displayed on a built-in OLED
digital display and can also be
stored for subsequent upload via
the embedded icount’s web page
interface connecting through an RJ45
cable.
Proven Laser
Detection Technology
Parker’s experience in developing
laser light obscuration or blockage
and applying that technology in
portable particle counting and
detection is what makes Parker’s
range of contamination analyzers so
very special.
Motor