Fluke 7350 specifications Summary of Specifications, Accuracy

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Appendix A

Summary of Specifications

Accuracy

Specifications of pressure transducer instrumentation can be divided into three categories: Input Specifications, General Specifications, and Performance Specifications. Each of these categories in turn consists of parameters which are usually specified by minimum and/or maximum numeric limits. Almost all of these parameters can have an effect on what is generally referred to as the instrument’s “accuracy.” Therefore, the accuracy of pressure instrumentation can be varied either beneficially or detrimentally by controlling the Input Specifications, operating within the General Specifications, or knowing the actual Performance Specifications.

For example, if Input Specifications have not been met for the line voltage, the unit may not have a catastrophic failure, but errors may be present in the transducer measurement. As another example, if the requirement for the Pressure Source Flow Capacity has not been met, the RUSKA 7350 may not be able to achieve a final steady state controlled pressure within the settling time specification. Finally, if the RUSKA 7350 is commanded to a pressure outside of the Applicable Control Pressure Range, the nonlinearity in the pressure output may be greater than that specified.

Performance Specifications give the user the most flexibility and control over his “accuracy claims.” The term accuracy is defined by ISA-S37.1 as either the ratio of the error to the full-scale output (%FS) or the ratio of the error to the reading (%RDG). Note that the definition of accuracy is not the summation of some or even all of the possible error source maximum limits.

The true accuracy of an instrument is relative to the actual error introduced by the calibration transfer standard plus the actual error not eliminated from the instrument’s indicated output. Therefore, an instrument’s accuracy can be manipulated by introducing more or less actual error through the choice of a calibration standard; or its accuracy can be varied by the elimination of actual errors inherent in the instrument. For example, if an instrument has a known error due to being used in an attitude, or tilt, the %FS zero shift error can be eliminated by re-zeroing the instrument in the tilted position. Even %RDG sensitivity shifts can be eliminated mathematically or by controlling the attitude of the instrument during its calibration.

A-1

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Contents Ruska Limited Warranty and Limitation of Liability Table of Contents Theory of Operation Remote Operation Preparation for Storage and Shipment List of Tables Ruska List of Figures Viii General Information How to Contact FlukeIntroduction General InformationSafety Information Features Symbols Used in this ManualAutomatic Zero Adjust Power-On Self TestEase of Operation Easily ProgrammableRuska 7350 Options List Part Number Standard Equipment & OptionsRuska Theory of Operation Power SupplyElectronics Section Back Plane BoardRuska 7350 Block Diagram Front Panel IEEE-488 InterfaceMotor Controller 76xx Interface Board Pneumatic ModulePneumatic Pump GearmotorDome Regulator Electronics RegulatorSystem Transducer Test PortRuska Unpacking the Ruska InstallationPneumatic Connections Powering Up the RuskaDrive Air Supply Port Local Operation Local OperationNumeric Keypad Function KeysMenu Tree Cancel, PreviousMain Menu TutorialMain Menu Entering Pressure Tare Mode Selecting Mode of OperationSelecting Language Main Menu Setting the Pressure Set-PointControlling Pressure Triple Range OptionalStep/Jog VentMenu Menu SetupHigh Limit Menu Setup LimitsLow Limit Auto VentControl Band Menu Setup User AccessSlew Rate Slew LimitBar Graph Maximum Step SizeReady Tolerance Gas Head Pressure CorrectionPressure Filter Menu Setup UnitsChanging the Number of Decimals Key Click13. Menu Setup Units Edit Name Menu Menu Setup System Menu Setup RemoteGpib Address ProtocolCalibration Password ResetDate/Time Menu CalibratePreparing to Program Menu Program Storing a Sequence in MemoryMaxTime Mode of EntryEntering a New Program 17. Menu Program Edit Menu 18. Menu Program Edit Auto Menu Automatically Generating a ProgramChanging an Existing Program Changing the Name of a Program20. Menu Program Edit Menu Changing the Configuration Stored with a ProgramRunning a Program 21. Menu Program Config MenuMenu Test Sweep Test Menu TestMenu Test Remote Test Menu Test Self Test26. Menu Test Shop1 Menu Menu Test Shop1Menu Display Blank Menu DisplayRuska Remote Operation Remote OperationCapabilities IEEE-488RS-232 Remote/Local OperationScpi Command Format ConfigurationDevice Messages Scpi Response FormatScpi Command Summary ANSI/IEEE 488.2-1987 Command SummaryMODE? List Example Scpi CommandsScpi Status Registers Interface Panel Emulation Serial Operation Ruska Preventive Maintenance MaintenanceObserving the Ruska 7350’s Full Scale Rating Observing the Software Version NumberCalibration Processor BatteryPreparation Calibration Instructions Single SensorStoring the Coefficients Zeroing Editing the Calibration CoefficientsRuska 7350 Pump Lubrication CleaningFuse Disconnection Instructions Preparation for Storage and ShipmentPacking Instructions Fluke Calibration Westpark Drive HOUSTON, TX USA Packing the Calibrator Shipping Instructions7350 Accuracy Summary of SpecificationsSpecifications Summary of Specifications Ruska Summary of Error Messages Summary of Error MessagesSetpoint is out of range
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