Fluke Calibration E-DWT Electronic Deadweight Tester Fluke Calibration E-DWT Electronic Deadweight Tester P000265 Pressure Calibrators 21.000 VND Quantity: 1 Cái

  • Fluke Calibration E-DWT Electronic Deadweight Tester

  • Post on 23-09-2015 10:24:13 AM - 1046 Views
  • Price: Contact


A modern alternative to the traditional deadweight tester

E-DWT-H breaks new ground, improving the hydraulic pressure calibration process. E-DWT-H is an electronic calibrator designed to replace mechanical, piston-cylinder and weight based deadweight testers. It’s a lighter, easier-to-use deadweight tester alternative that is at home in the lab or instrument shop, as well as in the field performing in-situ calibrations and tests. This complete hydraulic pressure calibration system combines the convenience and precision of continuous, realtime electronic pressure measurement with the simple and direct operation of high quality operator controlled pressure generation hardware. E-DWT-H one year measurement uncertainty is ±0.02% of reading with ranges up to 30,000 psi. It can be configured to provide this uncertainty from its full scale down to 1% of its range. Built-in pressure generation and control hardware allow the operator to fill and prime the system under test and generate and precisely adjust pressure throughout the range with ease.

Broad workload coverage

The E-DWT-H has the operational versatility to calibrate and test a broad range of pressure measuring instruments including:

  • Analog gauges
  • Transducers
  • Calibrators
  • Sensors
  • Transmitters

AutoTest™ lets E-DWT operators quickly define test points and adjust all of the range-dependent settings with a single function.

The resolution and stability test used by the RPM4-E-DWT are set according to the range of the device under test. The upper limit setting is also set and provides range-based warnings and overpressure protection. While running AutoTests, the operator is prompted to set each sequential test point and test data is stored in the RPM4-E-DWT for recall or download. Typical test setup is quick and easy, but more complex tests can also be stored and reused.

Deadweight tester performance with digital measurement convenience

E-DWT-H offers precision, low measurement uncertainty and the stability over time of a conventional deadweight tester without the inconveniences associated with the piston-cylinders, weights, hand pumps, and interconnecting plumbing.

  • No weights to load and unload or regularly send out for calibration
  • No need to know and correct for local gravity or ambient temperature
  • No piston-cylinder changes; switch Q-RPT ranges in seconds
  • Not sensitive to level or vibration
  • Able to set and read any pressure value exactly, no minimum increment limited by smallest available masses
  • Operates in any unit of measure while deadweight tester is typically limited to the pressure unit stamped on the mass
  • Perfect for applications that require setting a nominal pressure precisely on the device under test and measuring it, such as analog gauge calibration
  • On-board, AutoTest calibration routines and data acquisition
  • Interfaceable with a PC or laptop to allow for automated data acquisition
  • Two year calibration interval supported at measurement uncertainty of ±0.025% of reading.
  • Easily recalibrated without crossfloating. Automated calibration of E-DWT-H is possible using COMPASS® for Pressure software.

Versatility to cover a broad workload in a variety of environments

The E-DWT-H is at home in metrology and calibration labs, on the production floor or in the field. It operates with Sebacate calibration fluid, mineral oil, Skydrol® and other liquids. An optional battery/charger pack supports up to eight hours of operation away from line power.


Power requirements To RPM4-E-DWT: 12 V DC 1.2 A
To AC to DC power supply: 100 V AC to 240 V AC, 50/60 Hz
Temperature range Storage: - 20°C to 70°C
Operating: 10°C to 40°C
Relative humidity Storage: 0% to 100%
Operating: 0% to 70%
Weight 1 Q-RPT: 12 kg (26 lb) approximate
2 Q-RPT: 14 kg (30 lb) approximate
Dimensions E-DWT footprint (W x D): 41.4 x 37.1 cm (16.3 x 14.6 in)
E-DWT height: 26.9 cm (10.6 in), 33.6 cm (13.2 in) to max variable volume handle height
Pressure ranges dependent on Q-RPT(s) included in RPM4-E-DWT. 200 MPa (30,000 psi) maximum with standard variable volume
100 MPa (15,000 psi) maximum with high volume (-HV) variable volume
Operating medium Delivered filled with oil (di-ethyl-hexyl sebacate) or dry
Standard E-DWT-H compatible with Sebacate, silicon oils, propylene glycol, fully fluorinated liquids, partially fluorinated liquids, isopropyl alcohol , and distilled water. Option for Skydrol or mineral oil preparation.
Reservoir capacity 300 cc (18 in3)
Variable volume displacement Standard: 3 cc (0.18 in3), 200 MPa (30,000 psi) maximum
High: 7 cc (0.43 in3), 100 MPa (15,000 psi) maximum
Filling and priming pump displacement 3.7 cc (0.23 in3)
TEST pressure connection DH500 female.
DH500 is a gland and collar type fitting for 6mm (1/4 in) coned and left hand threaded tubes equivalent to AE F250C, HIP HF4, 9/16-18 UNF, etc.
Pressure limits Maximum working pressure: Range of RPM4-E-DWT monitor’s Hi Q-RPT 200 MPa (30,000 psi) with standard variable volume
100 MPa (15,000 psi) with high volume variable volume
Maximum priming pump pressure: 700 kPa (100 psi)
Maximum working pressure: With Lo Q-RPT selected: Range of RPM4-E-DWT monitor’s Lo Q-RPT
Communication ports RS232 (COM1, COM2)
Pressure Measurement
Warm up time 15 minute temperature stabilization recommended from cold power up.
Normal operating temperature range 10°C to 40°C
Resolution Default: 0.01% of active range
User adjustable to 1 ppm of Q-RPT maximum or 10 ppm of active AutoRange, whichever is larger
Precision1 ±0.018% of reading or 0.0018% of Q-RPT span, whichever is greater
Predicted stability2 One year: ±0.0075% of reading
Two year: ±0.015% of reading
Measurement uncertainty3 One year: ±0.02% of reading or 0.002% of Q-RPT span, whichever is greater
Two year: ±0.025% of reading or 0.0025% of Q-RPT span, whichever is greater


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