Dielectric Withstand or hipot testing is done by applying high voltage between wire being tested and ground, presumably locomotive chassis. If excess current leakage or if an arc occurs, test fails. Insulation Resistance testing provides numerical value indicating resistance insulation. Information on how hipot testers work can be read below.
High Pots could be AC, DC and conducted sporadically, or at final assembly line stage, etc. Stress assessment results, in general, illustrates Pass Fail basing on current leak. For several systems, this method may bear out risks. Testing medium volt wire might also pose dangers.
Dielectric strength illustrates max electric field pure substances could endure under optimal conditions without tearing or without showing breakdown of its insulating attributes. Theoretical dielectric withstand is a natural object attribute on raw material and autonomously designed material or electrodes to which electrical field is flowed. This innate dielectric withstand communicate data on what needs measuring using raw materials subjected upon optimal laboratory setting.
At breakdown, electrical fields free bounded electrons. If applied electrical fields are sufficiently high, freed electrons from surrounding radiation might accelerate with velocities which could liberate further electrons during neutral atom molecule collision in a course termed avalanche breakdown. Avalanche Breakdowns take place somewhat quickly, in nanoseconds normally, resulting into an electrically conducive path structure and disrupting electron release throughout an object. For concrete materials, avalanche breakdown event rigorously debase, even demolish said materials insulating potential.
Regarding difference between insulation and dielectric testing, none exists. There should be no difference between insulation versus dielectric testing. Dielectrical strength simply shows how well insulator material. Now regarding testing, frequency test voltage should be determined by what voltage type insulating substance will expect during its operational life. Which means you should not DC withstand testing component that will be used for AC 5060 Hz applications.
While they are just two separate and very different procedures, these terms are wildly thrown around interchangeably in electrical industry. So you cannot easily rely on those names accurately describe what is being tested alongside how test was performed. For example, in Practical Guide Di electric Tests, where Di electric Tests in their definition is an Insulation Resistance tests HiPot tests combination.
Whereas, generally, HiPot tester currently used unto Dielectric Strength value test will suit utilization towards Insulation Resistance experiments. Precise term usage will heavily depend on firm you work for, deal with. As a precautionary measure, you must always read set method information yourself.
An Insulation Resistance tests would always show DC. Di electric Strength tests would usually AC but could be DC. If one see if one other could go through elimination as they investigate similar things, electrical experiments were done before. Conclusion was that they are both needed as they provide different data as their results.
A highlight unto interchangeability of these voltage tests is insignificant since all things considered, almost all manufactured insulated products undergo both tests since pigeon holing manufactured product into utilizing only one type of voltage frequency or electric transmission will always work for either provided they both have the same amount. Applying a 48v DC system with 650v AC secondary rated materials should be enough. Basically, not failing hipot would suffice regardless of insulating matter applied with.
High Pots could be AC, DC and conducted sporadically, or at final assembly line stage, etc. Stress assessment results, in general, illustrates Pass Fail basing on current leak. For several systems, this method may bear out risks. Testing medium volt wire might also pose dangers.
Dielectric strength illustrates max electric field pure substances could endure under optimal conditions without tearing or without showing breakdown of its insulating attributes. Theoretical dielectric withstand is a natural object attribute on raw material and autonomously designed material or electrodes to which electrical field is flowed. This innate dielectric withstand communicate data on what needs measuring using raw materials subjected upon optimal laboratory setting.
At breakdown, electrical fields free bounded electrons. If applied electrical fields are sufficiently high, freed electrons from surrounding radiation might accelerate with velocities which could liberate further electrons during neutral atom molecule collision in a course termed avalanche breakdown. Avalanche Breakdowns take place somewhat quickly, in nanoseconds normally, resulting into an electrically conducive path structure and disrupting electron release throughout an object. For concrete materials, avalanche breakdown event rigorously debase, even demolish said materials insulating potential.
Regarding difference between insulation and dielectric testing, none exists. There should be no difference between insulation versus dielectric testing. Dielectrical strength simply shows how well insulator material. Now regarding testing, frequency test voltage should be determined by what voltage type insulating substance will expect during its operational life. Which means you should not DC withstand testing component that will be used for AC 5060 Hz applications.
While they are just two separate and very different procedures, these terms are wildly thrown around interchangeably in electrical industry. So you cannot easily rely on those names accurately describe what is being tested alongside how test was performed. For example, in Practical Guide Di electric Tests, where Di electric Tests in their definition is an Insulation Resistance tests HiPot tests combination.
Whereas, generally, HiPot tester currently used unto Dielectric Strength value test will suit utilization towards Insulation Resistance experiments. Precise term usage will heavily depend on firm you work for, deal with. As a precautionary measure, you must always read set method information yourself.
An Insulation Resistance tests would always show DC. Di electric Strength tests would usually AC but could be DC. If one see if one other could go through elimination as they investigate similar things, electrical experiments were done before. Conclusion was that they are both needed as they provide different data as their results.
A highlight unto interchangeability of these voltage tests is insignificant since all things considered, almost all manufactured insulated products undergo both tests since pigeon holing manufactured product into utilizing only one type of voltage frequency or electric transmission will always work for either provided they both have the same amount. Applying a 48v DC system with 650v AC secondary rated materials should be enough. Basically, not failing hipot would suffice regardless of insulating matter applied with.
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Get an overview of the factors to consider when selecting a hipot tester supplier and more information about a reputable supplier at http://www.rossengineeringcorp.com/products/measurement/ac-dc-digital-hipots.html now.
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