RUSKA 2470

Users Manual

For good work, a piston pressure gauge should be provided with an index mark for associating the reference of the piston with other planes of interest within a system. The design of this index will vary with the design and manufacture of the instrument, it may be in the form or an index rod with scribed lines on it, an index groove on the column of the instrument, or, other type of fixed indicator. Not only does the mark serve to establish fixed values of pressure differences through a system, it indicates a position of the piston with respect to the cylinder at which calibration and subsequent use should be conducted. If the piston is tapered, it is important to maintain a uniform float position for both calibration and use. This Position is referred to as the “Mid-Float” position as it represents the middle of the calibrated range of the Piston/Cylinder.

In normal operation, the system is pressurized until the piston is in a floating position slightly above the index mark. After a period of time, the piston and its load will sink to the line at which time the conditions within the system are stable. If there is a question as to the error that may be produced by accepting a float position that is too high or too low, the error will be equivalent to a fluid head of the same height as the error in the float position. This statement assumes that the piston is uniform in area over this length.

Crossfloating

It was mentioned earlier that some piston pressure gauges must be calibrated against a standard gauge. In the jargon of the laboratory, this process is called crossfloating. When crossfloating one gauge against another, the two are connected together and brought to a common balance at various pressures. The balancing operation is identical with that employed on an equal-arm balance where the mass of one object is compared to another. In each instance the operator must decide when the balance is complete. In a crossfloat, the two gauges are considered to be in balance when the sink rate of each is normal for that particular pressure. At this condition there is no pressure drop in the connecting line, and consequently no movement of the pressure medium. The condition can be difficult to recognize, particularly if there is no means of amplification in the method of observing. The precision of the comparison will depend directly upon the ability of the operator to judge the degree to which the balance is complete. This procedure is repeated for several pressures, and the values of areas obtained are plotted against the nominal pressure for each point. A least-squares line is fitted to the plots as the best estimate value of the area at any pressure.

There are two accepted methods for determining the balance of the two pressures. First, the sink rates can be observed and graphed using high sensitivity sensors. Second, a sensitive null-pressure transducer can be interposed which will display small pressure differences directly.

When using a suitable amplifying device, the scatter in the plotted areas from a good quality piston gauge should not exceed a few parts per million.

Bibliography

1.Bridgman, P. W., The Physics of High Pressure, G. Bell & Sons, London, 1952.

2.Cross, J. L., "Reduction of Data for Piston Gauge Pressure Measurements". NBS Monograph 65 (1963).

3.Dadson, R. S., "The Accurate Measurement of High Pressures and the Precise Calibration of Pressure Balances", Proc. Conf. Thermodynamic and Transport Properties of Fluids, London, pp. 32-42, 1957, Institute of Mechanical Engineers.

4."Design and Test of Standards of Mass", NBS Circular No. 3 (Dec., 1918), Included in NBS Handbook 77, Volume III.

5.Johnson, D. P., J. L. Cross, J. D. Hill, and H. A. Bowman, "Elastic distortion Error in the Dead Weight Piston Gauge", Ind. Engineering Chem., 40, 2046 (Dec., 1957).

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Fluke 2470 specifications Crossfloating, Bibliography

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.

Another significant characteristic of the Fluke 2470 is its user-friendly interface and software integration. The accompanying software enables users to configure measurements easily, set up logging intervals, and analyze data visually. This intuitive setup minimizes the learning curve for new users and enhances productivity.

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.