Model dpc3500, Specifications, Operation – Super Systems DPC3500 User Manual

Model DPC3500

Continuous Low-Range Dew Point Analyzer

PRODUCT MANUAL

Super Systems, Inc.

DPC 3500

Manual # 4551B

Page 2 of 5

Specifications:

Measurement Range

-148

°F to +20°F (-100°C to -7°C)

Accuracy –75

°F to +20°F (–59°C to -7°C)

+/- 1.8

°F (+/- 1°C)

Accuracy –148

°F to –76°F (–100°C to –60°C) +/-

3.6

°F (+/- 2°C)

Outputs

4 to 20 mA

Display

°F or °C

Sensor Material

Metalized Ceramic

Sensor Guard

80

µ Sintered Metal Guard

Operating Pressure

Vacuum to 5,000 PSIG

Operating Temperature

–40

°F to +140°F (–40°C to +60°C)

Sample Flow Rate

5-10 SCFH Recommended

Power Requirements

120 VAC, 1 Phase, 60 Hz

Operation:

The DPC 3500’s sensor is manufactured from a ceramic tile that is plated and
vapor-deposited to form a surface that varies its electrical capacitance when
exposed to small changes in water vapor pressure. This information, along with
temperature readings from the tip of the sensor, is used by the microprocessor to
determine dew point.
The dew point of the gas in the sample line is displayed on the front panel. A
switch to the right of the display toggles between showing the readings in
degrees Fahrenheit and degrees Celsius. An indicator light to the right of the
display will indicate the display’s operating mode.

Startup:

The DPC3500 was calibrated before it was shipped from Super Systems, Inc.
After the unit is properly installed (see “Wiring Connections” and “Sample Cell
Installation”), power can be applied immediately. The flow meter on the Remote
Mounting Assembly should be adjusted to provide approximately 5 to 10 SCFH
of sample gas to the sensor. The rate of sample flow does not have any impact
on the measured dew point, but a higher flow rate will result in a faster response
time.
At the time of installation, the sensor will be reading the ambient dew point. It will
take between 3 and 6 hours of immersion in the sample stream for the unit to
thoroughly “dry out” the sensor before it stabilizes at the correct readings. This
delay is only at initial startup when the system is installed for the first time. The
unit is intended to operate with a constant, steady stream of sample gas
continuously bathing the sensor. This will prevent the sensor from absorbing
moisture from ambient air, and will allow for continuous real-time monitoring of
the sample stream.