Fluke 2470 specifications Pressure Factor

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RUSKA 2470

Users Manual

Pressure Factor

Correction for the effect of pressure on the area of the piston.

Pressure Units:

 

MPa

Megapascals

kPa

kilopascals

hPa

hectopascals

Pa

Pascals

bar

bars

psi

pounds per square inch

kg/cm2

kilograms per square centimeter

mmHg 0oC

millimeters of mercury at 0 oC

cmHg 0oC

centimeters of mercury at 0 oC

inHg 0oC

inches of mercury at 0 oC

inHg 60oF

inches of mercury at 60 oF

cmH2O 4oC

centimeters of water at 4 oC

inH2O 4oC

inches of water at 4 oC

inH2O 20oC

inches of water at 20 oC

inH2O 25oC

inches of water at 25 oC

feet

feet of altitude

meters

meters of altitude

knots

airspeed knots

km/hr

airspeed kilometers per hour

Reference Density

Assumed density of the mass standard used to calibrate the mass. For mass values reported under the designation Apparent Mass versus Brass Standards, the Reference Density is typically 8.4 g/cm3. For the designation Apparent Mass versus Stainless Steel Standards, the Reference Density is typically 8.0 g/cm3. The appropriate value must be used for the Reference Density to achieve proper buoyancy corrections for gauge mode operation. For more information see Mass True; Mass Apparent.

Reference Pressure

The pressure all other pressures are measured against. See Absolute; Gauge.

Requires

Indicates what other mass (e.g. hanger mass) is required before the selected mass can be loaded onto the piston.

Rotation

Direction the masses are rotating when measurement is taken.

C-4

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Contents Ruska Limited Warranty and Limitation of Liability Table of Contents Appendices List of Tables Ruska List of Figures Ruska How to Contact Fluke Safety InformationIntroduction Compressed GasSymbols Used in this Manual Heavy WeightsLubricants and Seals Oxygen CompatibilitySpecifications Low Range PistonAccuracy Humidity RangeGeneral Piston Pressure Gauge Considerations Types of Piston Pressure GaugesControlled Clearance Cylinder Calculations Measurement of Pressure with the Piston Pressure GaugeGravity Elastic Distortion of the CylinderBuoyant Effect of the Air Temperature Reference Plane of MeasurementsReference Plane Determination Is the density of the test media Crossfloating BibliographyGeneral Piston Pressure Gauge Considerations Ruska Description General InformationDescription of the Mass Set Description of the Gauge BaseDescription Ruska Installation IntroductionAlways remove the thermometer before shipping the gauge base Installation Ruska Precautions OperationLow Range Piston Assembly GeneralOperation 24-580 Bearing 2460-4-25 2460-5-6 Handling the Low Range Piston and Cylinder Step Low Range Piston and Cylinder Showing O-Ring Groove Mid Range Piston Assembly Section View, Mid Range Piston/Cylinder Thrust Cylinder Assembly Spacer Bearing 2460-70-2 2460-70-3 High Range Piston Assembly 11. Retaining Nut and Bearing12. Section View, High Range Piston/Cylinder 13. Parts Required for High Range Piston Operation Establishing Pressure Gauge PressuresAutomating the Calculations and Data Storage 16. Float PositionMaintenance of the Gauge LeaksRuska Piston / Cylinder Cleaning Instructions General Information and PreparationFunctional Testing of Piston/Cylinder Assemblies Cleaning the Low Range Piston/Cylinder AssemblyPiston / Cylinder Cleaning Instructions Preparations for Cleaning the Low Range Cylinder Preparing the Low Range Cleaning Tool Step Materials for Cleaning the Mid Range Piston/Cylinder Mid Range Piston/CylinderPreparing the Mid Range Cleaning Tool Cleaning the High Range Piston/Cylinder Assembly Materials for Cleaning the High Range Piston CylinderCleaning the High Range Piston/Cylinder Assembly Gmq33.bmp 13. Cleaning the High Range Cylinder 14. Drying the High Range Cylinder Explanation of Pressure Calculation Worksheet Temp. Coef. x actual temperature expected temperature For English UnitsK2 = 1/ g1 1 − ρa / ρb For SI UnitsAe t Explanation of Pressure Calculation Worksheet a Ruska Date Ruska Expected Temperature, t Ruska Equation A-4 Air Density Equation A-4 Air DensityNitrogen Density English Units 0 to 1000 Psig Nitrogen Density English Units 1,000 to 15,000 PsigNitrogen Density SI Units 0 to 6.9 MPa Nitrogen Density SI Units 6.9 MPa to 100 MPaZero Air Density SI Units 0 MPa to 20.7 MPa Helium Density SI Units 0 to 6.9 MPaConversion Factors Table B-1. Conversion Factors To Convert From Multiply ByRuska Glossary GlossaryDUT +INF, -INF Pressure Factor Sink Rate Ruska

2470 specifications

The Fluke 2470 is a versatile and highly regarded data acquisition system designed for a wide range of applications in electrical testing and measurement. Known for its precision and reliability, the Fluke 2470 is particularly popular among professionals who require accurate data for analysis and reporting.

One of the standout features of the Fluke 2470 is its high-performance data acquisition capabilities. It supports multiple channel inputs, allowing users to monitor and log various electrical parameters simultaneously. This multi-channel functionality is essential for complex testing scenarios where multiple variables must be tracked in real time.

The Fluke 2470 utilizes advanced measurement technologies, including a high-resolution analog-to-digital converter that ensures superior measurement accuracy. This technology is crucial for applications that demand precise readings, such as research and development, quality assurance, and compliance testing.

Additionally, the device is equipped with a variety of input types, including voltage, current, and temperature, making it suitable for a wide array of testing applications. The flexibility in input compatibility allows users to customize their measurements according to specific project requirements.

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Data storage is another critical feature of the Fluke 2470. It provides ample internal memory, allowing users to record extensive datasets over long periods without the need for continuous monitoring. The stored data can be easily exported for further analysis, making it ideal for long-term testing projects.

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In conclusion, the Fluke 2470 combines high-performance data acquisition, multi-channel capabilities, advanced measurement technologies, and user-friendly features, making it a top choice for professionals in a variety of fields. Its robust design ensures that it meets the demands of rigorous testing while providing accurate and reliable data, crucial for informed decision-making.