Fluke 1625 user manual Re =

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Earth/Ground Tester

Procedure of Measurements

3.Press “START TEST” button

Now a fully automated test sequence of all relevant parameters like auxiliary earth electrode, probe- and earth electrode resistance, is im- plemented and finishes with the display of the result RE.

4.Read out measured value RE

5.Call RS and RH with “DISPLAY MENU”.

Notices for the setting of earth spikes:

Before setting the earth spikes for probe and auxiliary earth electrode make sure that the probe is set outside the potential gradient of earth electrode and auxiliary earth electrode (see also “The Influence of Potential Gradient Areas on Earth Resistance Measurement”). Such a condition is normally reached by allowing a distance of >20 m between the earth electrode and the earth spikes as well as to the earth spikes to each other. An accuracy test of the results is made with another measurement after repositioning of auxiliary earth electrode or probe. If the result is the same, the distance is sufficient. If the measured value changes, probe or auxiliary earth electrode must be repositioned until the measured value RE remains constant. Spike wires should not run too close.

1.Apply current transformer to next pylon stub.

2.Repeat measuring sequence.

Current feeding point of measuring current (alligator clip) and the polarity of the split core current transformer has to be left unchanged.

After values of REi of all pylon foots are determined, the actual earth resistance RE has to be calculated:

RE =

 

 

 

 

1

 

 

 

 

 

1

+

1

+

1

+

1

 

 

 

 

 

 

 

R E 2

RE3

RE 4

 

 

 

RE1

 

 

 

Note

If the displayed RE value is negative despite correct orientation of the current transformer, a part of the measuring current is flowing up- wards into the tower body. The earthing resistance, thus coming into effect, correctly calculates, if the individual equivalent resistances (under observation of their polarity) are inserted into the equation above.

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Contents 1625 Limited Warranty and Limitation of Liability Table of Contents 1625 List of Tables 1625 List of Figures 1625 Introduction Earth/Ground TesterDisplays the Fluke 1625 Earth/Ground Tester Lists the models and accessories Models and AccessoriesSafety Instructions Qualified Staff SetupUnpacking Checking the Scope of DeliveryGeneral Additional AccessoriesDescription of Functions AssemblyMeasurement of Interference Frequency FST Measurement of Interference Voltage USTSelective Measurement of Earthing Resistance RE a Measurement of Earthing Resistance REResistance Measurement R~ Low Resistance Measurement RFLO-BAT SpecificationsSpecifications 1625 Measurement of Interference Frequency F ST Measurement of Interference Voltage DC + AC USTEarthing Resistance R E Ence Quan Fied Operating Code Relevant 100% RH with Umeas = 48 RH with Umeas = 20 Resolution RH RS + 2000Ω ⋅1.25 ⋅10−6 % + 5digits Selective Measurement of the Earthing Resistance REA+2 digit KΩ .. .99 kΩ 10 Ω 30.0 kΩ .. .9 kΩ 100 Ω Resistance Measurement RF Compensation of Lead Resistance RK Illustrates the operating elements described below Description of the Operating ElementsDo not open or close the instrument with force Display Elements Description of Display ElementsEfgh Procedure of MeasurementsStandard mode Power on FunctionsActivation of display illumination OperationControl Loop Control Loop See Compensation of Earth Electrode Connecting Lead Checking of Correct Measuring Connection Socket Alloca- tion Measurement of Interference Voltages and Frequen- cies Safety Control MeasurementsMeasurement of Interference Voltages and Frequencies Measurement of Earthing ResistancesEarthing Resistances Measurement Method Pole/4-pole Measurement of Earthing ResistanceRemarks for the setting of earth spikes Evaluation of measured value RE1 20 m Remarks for the Setting of Earth Spikes Measurements on High Voltage Pylons Accordingly, these equivalent resistances are displayed as RE = Measuring Earthing Impedance with 55 Hz R Correcting Clip-on Transformer ErrorsWithclip − ontransformer Compensation of Earth Electrode Connecting Lead Compensation of Earth Electrode Connecting LeadMeasurement of Soil Resistivity Measurement of Soil Resistivity= 2π .a.RE Restivity Soil Distances of Probe Resistance Measurement R~ Measurement of ResistancesResistance Measurement RF Resistance Measurement RFEvaluation of Measured Value Compensation of Measuring Lead ResistanceCompensation of Measuring Lead Resistance Changing of All Data Settings with Personalized CodeFunction Parameter Setting range Standard Presetting Storing a Code Deleting a Code Description of Displays Function Condition Description of DisplaysFunction Displays Condition Too high 2nd aux ON/OFF No reactions to button control etc EE Prom Care and MaintenanceReplacing Batteries Care and MaintenanceStorage RecalibrationIntroduction Stakeless Earth/Ground Resistance TestingComply with DIN ISO Purpose Principle of Operation= R X + Is a reasonable approximation Operation Erder 10 cm Settings on the TesterApplications Lightning Protection Footing ground Significance Description of DisplaysDisplay Significance Earthing Resistance Earthing Resistance = 1 m Soil Resistivity ρEJan July Dec Month Measuring Method Potential Gradient Area US1 Earth Impedance R* on High Voltage Transmission Lines 1625

1625 specifications

The Fluke 1625 is a versatile and essential tool in the realm of insulation testing, primarily aimed at electricians, maintenance professionals, and equipment specialists. Throughout its design, Fluke has incorporated a range of features and technologies intended to enhance testing efficiency, accuracy, and user experience, making the 1625 a standout choice for those in need of reliable insulation measurement tools.

One of the key features of the Fluke 1625 is its ability to perform insulation resistance testing with several voltage settings. The device offers test voltages of 250V, 500V, and 1000V, making it adaptable for different applications, including low-voltage and high-voltage systems. This flexibility is paramount in ensuring that technicians can perform tests on a wide variety of electrical systems without needing multiple devices.

The 1625 also boasts an impressive insulation range of up to 4 GΩ, providing the capability to measure insulation resistance accurately across a spectrum of installations. A notable technology integrated into the unit is the automatic discharge function, which ensures that any stored energy in capacitive components is safely released after testing, enhancing the safety of operations.

Furthermore, the Fluke 1625 includes a patented 'Insulation Diagnostic' feature that assists users in identifying problematic areas in an electrical system. This feature helps professionals determine whether insulation is adequate, helping to prevent potential failures, accidental shorts, and system downtimes.

In addition to insulation resistance testing, the Fluke 1625 also supports other functionalities, including continuity testing and low-resistance measurements. This multi-functional capability streamlines operations, allowing technicians to conduct multiple tests without switching devices, resulting in increased productivity.

The device is designed with user-friendliness in mind, featuring an intuitive interface complete with large buttons and a clear display. This makes it easier for users to navigate through different testing modes and review results. To further enhance usability in challenging environments, the 1625 has a rugged, durable design, ensuring it can withstand the rigors of job sites.

Another significant characteristic of the Fluke 1625 is its ability to log test results for further analysis. It can store up to 99 datasets, which can be later reviewed or downloaded for reporting purposes. This data management capability is crucial for maintaining records, fulfilling compliance requirements, and improving operational efficiencies.

In conclusion, the Fluke 1625 is a robust and comprehensive insulation tester that incorporates essential features and advanced technologies. With its versatility, safety mechanisms, and user-friendly design, it stands out as an indispensable tool for electrical professionals committed to ensuring system reliability and safety.