Differential pressure transmitters with high accuracy and long-term stabilty - testo 63510 pages
We measure it.
nnnntesto 6351
nnnnDifferential pressure transmitters with high accuracy and long-term stabilty
nnnnSPECIFICATIONS
nnnnSPECIFICATIONS
nnnntesto 6351
nnnnMeasurement of differential pressure, flow velocity
nnnnand volume flow
nnnnAutomatic zero-point adjustment guarantees high,
nnnntemperature-independent accuracy and long-term
nnnnstability
nnnnPlastic housing
nnnnDisplay with multi-language operating menu and
nnnnoptical alarm display
nnnnEthernet, relay and analog outputs allow optimum
nnnnintegration into individual automation systems
nnnnSelf-monitoring of the transmitter and early warning
nnnnfunction guarantee high system availablity
nnnnThe P2A software for parameterization, adjustment
nnnnand analysis saves time and costs in
nnnncommissioning and maintenance
nnnnScalability of ±50 percent of the measuring range
nnnnfinal value and free scalability within the measuring
nnnnrange
nnnnConfigurable alarm management with adjustable
nnnnresponse delay and alarm acknowledgement
nnnntesto 6351
nnnnThe differential pressure transmitter testo 6351 was
nnnndeveloped specially for monitoring differential
nnnnpressure in the measuring range from 50 Pa to 2000
nnnnhPa. In cleanroom technology, the maintenance of
nnnnpositive pressure prevents the entry of contaminated
nnnnair. In order to keep the cleanroom conditions
nnnnconstant, the transmitter additionally calculates the
nnnnparameters volume flow and flow velocity from the
nnnnmeasured differential pressure.
nnnnThe testo 6351 is particularly outstanding thanks to
nnnnthe automatioc zero-point adjustment which ensures
nnnnhigh accuracy and long-term stability.
nnnnThe integrated self-monitoring and early warning
nnnnfunction also guarantees the operator high system
nnnnavailability.
nnnnAreas of application:
nnnn• Differential pressure monitoring between
nnnncleanrooms
nnnnDifferential pressure monitoring in filling processes
nnnnMonitoring differential pressure, volume flow and
nnnnflow velocity in critical air conditioning technology
nnnn(VAC systems)_
"