Fluke E-DWT Electronic Deadweight Tester
- Eliminates the need for weights and piston-cylinder changes.
- Real-time pressure indication without need for corrections.
- Set and read any pressure value exactly, operates in any unit of measure, and can switch easily between units.
- Offers ± 0.02% of reading total one-year measurement uncertainty
- Description
- Additional information
- Specifications
Description
The Fluke Calibration E-DWT is a revolutionary electronic deadweight tester that redefines the standard for pressure calibration.
Key Features:
- Electronic Precision: Replaces traditional mechanical weights with electronic mass measurement, eliminating the need for manual weight handling and improving accuracy.
- High Accuracy: Delivers exceptional accuracy and precision comparable to traditional deadweight testers, ensuring reliable calibration results.
- Enhanced Efficiency: Automates many aspects of the calibration process, significantly improving workflow and reducing calibration time.
- User-Friendly Interface: Intuitive software interface simplifies operation and data management.
- Versatility: Capable of calibrating a wide range of pressure instruments, from low to high pressures.
- Improved Safety: Eliminates the risks associated with handling heavy weights, enhancing workplace safety.
Benefits:
- Increased Accuracy and Precision: Electronic mass measurement minimizes human error and improves measurement consistency.
- Enhanced Productivity: Automation streamlines the calibration process, reducing labor costs and increasing throughput.
- Improved Ergonomics: Eliminates the need to handle heavy weights, reducing operator fatigue and improving workplace safety.
- Enhanced Data Management: Software interface facilitates data collection, analysis, and reporting.
- Reduced Maintenance: Fewer moving parts and electronic components minimize maintenance requirements.
Applications:
- Calibration Laboratories: Primary standard for calibrating pressure instruments, including gauges, transmitters, transducers, and switches.
- Industrial Environments: Used for on-site calibration of critical process instrumentation in various industries, such as oil and gas, chemical, and manufacturing.
- Research and Development: Employed in research and development laboratories for precise pressure measurements and calibrations.
The Fluke Calibration E-DWT represents a significant advancement in pressure calibration technology, offering a more efficient, accurate, and user-friendly alternative to traditional mechanical deadweight testers.
Additional information
| Brand | Fluke Calibration |
|---|
Specifications: Fluke Calibration E-DWT Electronic Deadweight Tester
| General | ||
| 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 | ||
| 1. Combined linearity, hysteresis, and repeatability. Precision does not include stability or calibration reference uncertainty. 2. Predicted Q-RPT measurement stability limit (k=2) assuming regular use of AutoZero function and short term stability between rezeroing. 3. Maximum deviation of the Q-RPT indication from the true value of applied pressure including precision, predicted stability with rezeroing, temperature effect from 10°C to 40°C and calibration uncertainty (assumes calibration reference uncertainty of ±0.005% of reading, k=2), combined and expanded (k=2) following the ISO Guide to the Expression of Uncertainty in Measurement. |
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