Fluke 1537 OffersEquipped with an intuitive user interface, a short circuit current of up to 5 mA, and a CAT IV 600 V rating, this portable high-voltage insulation tester delivers rapid and stable resistance measurements no matter where you are. Furthermore, this insulation resistance tester also stores measurements for later review or PC transfer using the provided software.FeaturesTest voltages up to 2.5 kV cover both industrial and solar installation applicationsCAT IV 600 V safety ratingSelectable test voltages from 250 to 2500 V in 100 V stepsResistance measurements up to 500 gΩVoltage breakdown detection alerts the user that voltage is present and gives the voltage reading up to 600 V AC or DC for increased user safetyMeasurements can be stored in up to 99 memory locations, with each location assigned a unique, user-defined, label for easy recallUp to 1300 measurements at 2500 V, or 6500 measurements at 250 VAutomatic calculation of Dielectric Absorption (DAR) and Polarization Index (PI) with no additional setupGuard system eliminates the effect of surface leakage current on high-resistance measurementsLarge digital/analog LCD for easy viewingCapacitance and leakage current measurementRamp function for breakdown testingAutomatically calculate the dielectric discharge rate (DD) to aid in identifying elusive insulation issues.Test start/stop functionDAR/PI/DAR +/PI/DD/ramp selectionBar graph display of insulation resistanceDigital display of insulation resistanceBacklight on/off buttonExtended measurements: Enhance testing capabilities with AC/DC voltage and resistance measurements.Stable resistance measurements: Achieve faster, more stable insulation resistance measurements with a short circuit current up to 5 mA.Visual and audio continuity indicator: Verify continuity visually on the screen display or with the audible indicator so you can focus on your testing procedure without looking at the display.Customizable testing parameters: Set user-defined labels, adjust test duration, and store measurement results for a tailored testing experience.Effortless data management: Download and manage data effortlessly with the provided PC software.Why perform insulation testing?SafetyThe most important reason for testing insulation is to ensure public and personal safety. By performing a high dc voltage test between de-energized current-carrying (hot), grounded, and grounding conductors, you can eliminate the possibility of having a life-threatening short circuit or short to ground which could lead to a fireEquipment uptimeIn addition, insulation testing is important to protect and prolong the life of electrical systems and motors. Periodic maintenance tests can provide valuable information about the state of deterioration and will help in predicting possible failure of the system. Correcting problems will result not only in a trouble-free system, but will also extend the operating life for a variety of equipmentInsulation resistance testers can be used to determine the integrity of windings or cables in motors, transformers, switch-gear, and electrical installations. The test method is determined by the type of equipment being tested and the reason for testing. Spot-reading/short time resistance tests can be used for low-capacitance equipment, while trending tests such as step voltage or dielectric-absorption tests can be used for time-dependent currents that will last for hours.Insulation regulationsThe International Electrical Testing Association (NETA) provides representative and minimum insulation values for various voltage ratings of equipment for use when manufacturer’s data is not available.Insulation testers are essential in any electrical system for proper and safe equipment operation per industry standards, IEEE Std 43-2000 (Recommended Practice for Testing Insulation Resistance of Rotating Machines), and other recognized organizations.Insulation resistance basicsInsulation testing is a bit like pressure-checking a plumbing system. You can look for leaks in a plumbing system by forcing water through at a high pressure. The increased pressure makes the leaks easier to spot. The electrical version of pressure is voltage. In insulation testing, we use a relatively high DC voltage to make leakage current more apparent. The instruments are designed to apply the test voltage in a “non-destructive” and very controlled way. Although they supply high voltage, the current they deliver is strictly limited. This helps prevent system damage from failing insulation and keeps the operator from receiving dangerous current levels from accidental contact.All digital multimeters have a resistance measurement capability (ohms). But this function uses just a few volts. For systems designed to work at more than a few volts, using the standard ohms function does not give us an accurate picture of the insulation integrity. We want to test the insulation at a voltage greater than the working voltage. This will ensure that any leakage will show up and if there is a potential for arcing, we will see it under the controlled test conditions.Insulation spot testThis can be used to verify the condition of the insulation over the life of a motor by connecting Megohmeter to measure resistance of each winding to ground while recording reading onto graph.Insulation step voltageCreates electrical stress on internal insulation cracks to reveal aging or damage not found during other motor insulation tests. This test is done by testing the insulation at two or more voltages and comparing the results.Polarity index and dielectric absorption ratioThese are timed ratio tests that check the absorption characteristics of wet or contaminated insulation. The PI test is performed over a 10 minute period whereas the DAR ratio test is performed over a 60 second span. There are minimum acceptable polarization index values depending on the insulation class—IEEE Standard 43-2000 covers measurement of polarization index testing:ApplicationsMaintenance techniciansElectrical engineersField service engineersIndustrial electriciansSolar techniciansUtility troubleshootersEngineersTechniciansFluke 1537 OffersEquipped with an intuitive user interface, a short circuit current of up to 5 mA, and a CAT IV 600 V rating, this portable high-voltage insulation tester delivers rapid and stable resistance measurements no matter where you are. Furthermore, this insulation resistance tester also stores measurements for later review or PC transfer using the provided software.FeaturesTest voltages up to 2.5 kV cover both industrial and solar installation applicationsCAT IV 600 V safety ratingSelectable test voltages from 250 to 2500 V in 100 V stepsResistance measurements up to 500 gΩVoltage breakdown detection alerts the user that voltage is present and gives the voltage reading up to 600 V AC or DC for increased user safetyMeasurements can be stored in up to 99 memory locations, with each location assigned a unique, user-defined, label for easy recallUp to 1300 measurements at 2500 V, or 6500 measurements at 250 VAutomatic calculation of Dielectric Absorption (DAR) and Polarization Index (PI) with no additional setupGuard system eliminates the effect of surface leakage current on high-resistance measurementsLarge digital/analog LCD for easy viewingCapacitance and leakage current measurementRamp function for breakdown testingAutomatically calculate the dielectric discharge rate (DD) to aid in identifying elusive insulation issues.Test start/stop functionDAR/PI/DAR +/PI/DD/ramp selectionBar graph display of insulation resistanceDigital display of insulation resistanceBacklight on/off buttonExtended measurements: Enhance testing capabilities with AC/DC voltage and resistance measurements.Stable resistance measurements: Achieve faster, more stable insulation resistance measurements with a short circuit current up to 5 mA.Visual and audio continuity indicator: Verify continuity visually on the screen display or with the audible indicator so you can focus on your testing procedure without looking at the display.Customizable testing parameters: Set user-defined labels, adjust test duration, and store measurement results for a tailored testing experience.Effortless data management: Download and manage data effortlessly with the provided PC software.Why perform insulation testing?SafetyThe most important reason for testing insulation is to ensure public and personal safety. By performing a high dc voltage test between de-energized current-carrying (hot), grounded, and grounding conductors, you can eliminate the possibility of having a life-threatening short circuit or short to ground which could lead to a fireEquipment uptimeIn addition, insulation testing is important to protect and prolong the life of electrical systems and motors. Periodic maintenance tests can provide valuable information about the state of deterioration and will help in predicting possible failure of the system. Correcting problems will result not only in a trouble-free system, but will also extend the operating life for a variety of equipmentInsulation resistance testers can be used to determine the integrity of windings or cables in motors, transformers, switch-gear, and electrical installations. The test method is determined by the type of equipment being tested and the reason for testing. Spot-reading/short time resistance tests can be used for low-capacitance equipment, while trending tests such as step voltage or dielectric-absorption tests can be used for time-dependent currents that will last for hours.Insulation regulationsThe International Electrical Testing Association (NETA) provides representative and minimum insulation values for various voltage ratings of equipment for use when manufacturer’s data is not available.Insulation testers are essential in any electrical system for proper and safe equipment operation per industry standards, IEEE Std 43-2000 (Recommended Practice for Testing Insulation Resistance of Rotating Machines), and other recognized organizations.Insulation resistance basicsInsulation testing is a bit like pressure-checking a plumbing system. You can look for leaks in a plumbing system by forcing water through at a high pressure. The increased pressure makes the leaks easier to spot. The electrical version of pressure is voltage. In insulation testing, we use a relatively high DC voltage to make leakage current more apparent. The instruments are designed to apply the test voltage in a “non-destructive” and very controlled way. Although they supply high voltage, the current they deliver is strictly limited. This helps prevent system damage from failing insulation and keeps the operator from receiving dangerous current levels from accidental contact.All digital multimeters have a resistance measurement capability (ohms). But this function uses just a few volts. For systems designed to work at more than a few volts, using the standard ohms function does not give us an accurate picture of the insulation integrity. We want to test the insulation at a voltage greater than the working voltage. This will ensure that any leakage will show up and if there is a potential for arcing, we will see it under the controlled test conditions.Insulation spot testThis can be used to verify the condition of the insulation over the life of a motor by connecting Megohmeter to measure resistance of each winding to ground while recording reading onto graph.Insulation step voltageCreates electrical stress on internal insulation cracks to reveal aging or damage not found during other motor insulation tests. This test is done by testing the insulation at two or more voltages and comparing the results.Polarity index and dielectric absorption ratioThese are timed ratio tests that check the absorption characteristics of wet or contaminated insulation. The PI test is performed over a 10 minute period whereas the DAR ratio test is performed over a 60 second span. There are minimum acceptable polarization index values depending on the insulation class—IEEE Standard 43-2000 covers measurement of polarization index testing:ApplicationsMaintenance techniciansElectrical engineersField service engineersIndustrial electriciansSolar techniciansUtility troubleshootersEngineersTechnicians
Fluke 1537 Specifications
Electrical Specifications
250 V
Range: <200 kΩ
Resolution: Unspecified
Accuracy: Unspecified
Range: 200 to 500 kΩ
Resolution: 1 kΩ
Accuracy: 5%
Range: 0.5 to 5 mΩ
Resolution: 0.01 mΩ
Accuracy: 5%
Range: 5 to 50 mΩ
Resolution: 0.1 mΩ
Accuracy: 5%
Range: 50 to 500 mΩ
Resolution: 1 mΩ
Accuracy: 5%
Range: 0.5 to 5 gΩ
Resolution: 0.01 gΩ
Accuracy: 5%
Range: 5 to 50 gΩ
Resolution: 0.1 gΩ
Accuracy: 20%
Range: >50 gΩ
Resolution: Unspecified
Accuracy: Unspecified
500 V
Range: <200 kΩ
Resolution: Unspecified
Accuracy: Unspecified
Range: 200 to 500 kΩ
Resolution: 1 kΩ
Accuracy: 5%
Range: 0.5 to 5 mΩ
Resolution: 0.01 mΩ
Accuracy: 5%
Range: 5 to 50 mΩ
Resolution: 0.1 mΩ
Accuracy:5%
Range: 50 to 500 mΩ
Resolution: 1 mΩ
Accuracy: 5%
Range: 0.5 to 5 gΩ
Resolution: 0.01 gΩ
Accuracy: 5%
Range: 5 to 10 gΩ
Resolution: 0.1 gΩ
Accuracy: 5%
Range: 10 to 50 gΩ
Resolution: 0.5 gΩ
Accuracy: 20%
Range: 50 to 100 gΩ
Resolution: 5 gΩ
Accuracy: 20%
>100 gΩ
Resolution: Unspecified
Accuracy: Unspecified
1000 V
Range: <200 kΩ
Resolution: Unspecified
Accuracy: Unspecified
Range: 200 to 500 kΩ
Resolution: 1 kΩ
Accuracy: 5%
Range: 0.5 to 5 mΩ
Resolution: 0.01 mΩ
Accuracy: 5%
Range: 5 to 50 mΩ
Resolution: 0.1 mΩ
Accuracy:5%
Range: 50 to 500 mΩ
Resolution: 1 mΩ
Accuracy: 5%
Range: 0.5 to 5 gΩ
Resolution: 0.01 gΩ
Accuracy: 5%
Range: 5 to 20 gΩ
Resolution: 0.1 gΩ
Accuracy: 5%
Range: 20 to 50 gΩ
Resolution: 0.5 gΩ
Accuracy: 20%
Range: 50 to 200 gΩ
Resolution: 5 gΩ
Accuracy: 20%
Range: >200 gΩ
Resolution: Unspecified
Accuracy: Unspecified
2500 V
Range: <200 kΩ
Resolution: Unspecified
Accuracy: Unspecified
Range: 200 to 500 kΩ
Resolution: 1 kΩ
Accuracy: 5%
Range: 0.5 to 5 mΩ
Resolution: 0.01 mΩ
Accuracy: 5%
Range: 5 to 50 mΩ
Resolution: 0.1 mΩ
Accuracy:5%
Range: 50 to 500 mΩ
Resolution: 1 mΩ
Accuracy: 5%
Range: 0.5 to 5 gΩ
Resolution: 0.01 gΩ
Accuracy: 5%
Range: 5 to 50 gΩ
Resolution: 0.1 gΩ
Accuracy: 5%
Range: 50 to 500 gΩ
Resolution: 5 gΩ
Accuracy: 20%
Range: >500 gΩ
Resolution: Unspecified
Accuracy: Unspecified
Insulation Test Voltage Accuracy
-0%, 10% at 1 mA load current
Charging Rate for Capacitive Load
5 s/µF
Leakage Current Measurement
Range: 1 nA to 2 mA
Accuracy: ±(20% + 2 nA)
Capacitance Measurement
Range: 0.01 µF to 2 µF
Accuracy: ±(15% rdg + 0.03 µF)
Test Voltage for Insulation Resistance
Range: 250 to 2500 V
Accuracy: ±(3% to 3 V)
Warning for Energized Circuit
Warning range: >30 V
Short Circuit Current
<5 mA
Timer
Range: 0 to 99 minutes
Indication: 1 second
V AC/V DC/Resistance Measurement
V AC
Range: 0 to 600 V
Resolution: 0.1 V
Accuracy: ±(2% +10), 45 Hz to 500 Hz
V DC
Range: 0 to 600 V
Resolution: 0.1 V
Accuracy: ±(2% +10)
Resistance
Range: 0 to 600 Ω
600 to 6000 Ω
6 kΩ to 60 kΩ
Resolution: 0.1 Ω
1 Ω
0.01 kΩ
Accuracy: ±(2% +10)
Safety Specifications
General
IEC 31010-1, pollution degree 2
IEC 61557-1
Measurement
IEC 361010-2-030: CAT IV 600 V
IEC 61010-2-034: 2500 V DC
Insulation Resistance Measurement
IEC 61557-1
IEC 61557-2
Ingress Protection (IP) Rating
IEC 60529 IP40
General Specifications
Environmental Conditions
Operating temperature: 14 to 122°F (-10 to 50°C)
Storage temperature: -4 to 140°F (-20 to 60°C)
Operating humidity: Non-condensing (<50°F [10°C]), ≤80% RH (50 to 86°F [10 to 30°C]), ≤50% RH (86 to 122°F [30 to 50°C])
Altitude
Operating altitude: 6562' (2000 m)
Storage altitude: 39,370' (12,000 m)
Overvoltage Category
CAT IV 600 V
International Electromagnetic Compatibility
IEC 61326-1: Portable Electromagnetic Environment
IEC 61326-2-2 CISPR 11: Group 1, Class A
Display
3 x 4" (73.5 x 104 mm)
Battery
8 x AA alkaline cells, IEC LR6
Dimensions
7.2 x 8.3 x 3.7" (184 x 211 x 93 mm)
Weight
2.9 lbs (1.3 kg)
Click here for complete specifications on the Fluke 1537
What's included with the Fluke 1537Advanced Insulation Tester3 x Alligator Clip Test Leads (red, black, green)2 x Probes (red, black)USB CableSoft Carrying CasePC Software (Downloadable from the Fluke website)Three-Year Warranty
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