lovewarez Posted December 3, 2020 Report Share Posted December 3, 2020 Mastering Insulation Resistance Testing Theory + Practical MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz, 2 Ch Genre: eLearning | Language: English + .srt | Duration: 61 lectures (3h 20m) | Size: 2.52 GB Cable, Transformer, Generator, Motor, Bushing, Circuit Breaker Insulation Resistance Testing. A Must Course for All Engg What you'll learn: Concept of Insulation Resistance Leakage Current & Its Component Insulation Resistance Test Timed Insulation Resistance test Di-Electric Absorption Ratio Test , Reading at 30 Sec & 1 Min Polarization Index Test Die-Electric Discharge Test Variable Voltage Range Ramp Test What Causes Insulation Resistance to Degrade How Insulation Resistance Test Set work Understanding Insulation resistance distribution Understanding Leakage Current Direction of Leakage Current Principle of measurement for Insulation Resistance Equivalent Circuit of Insulation Resistance Formula to calculate insulation Resistance Understanding types of leakage current Conductive Leakage Current Capacitive Leakage Current Polarization / Absorption Leakage Current Surface Leakage Current Understanding Charging Current Capacitance Distribution Capacitance Equivalent circuit of three phase circuit How Cable Charging works Charging Time Constant Calculating 5T Effect of Charging Current on reading of IR Polarization / Absorption Current Die Electric absorption in detail Understanding Current Curves ( Conduction, Capacitive, Polarization) Selection of Applied Voltage as per IEEE standard 43 Application of IR Test How to make connections & different combinations to test Understanding Test Connection Proof Testing / Installation Testing Maintenance Testing Spot / Short time resistance test Timed Resistance Test Step Voltage test Analyzing Step Curve Di-Electric Absorption Test Analyzing Curve for Di-Electric Absorption Test Various Insulation Resistance Test Temperature correction for testing rotating machines Analyzing curve for Temperature Co-efficient Factor Testing Wiring Megger Testing Calculation Example Connection Diagram of Cable testing Connection Diagram of Motor testing Connection Diagram of Generator testing Connection Diagram of Circuit Breaker Testing Connection Diagram of Bushing testing Understanding Voltage Characteristics for IR Tester Analyzing Curve for IR Tester Guard Terminal Guard Terminal Connection Guard Terminal Equivalent Circuit Example of using Guard connection for accuracy The Guard Terminal as Diagnostic Tool Requirements Basic Understanding Description Content of Course •Definition of Insulation Resistance •What Causes Insulation Resistance to Degrade •How Insulation Resistance Test Set work •Understanding Insulation resistance distribution •Understanding Leakage Current •Direction of Leakage Current •Principle of measurement for Insulation Resistance •Equivalent Circuit of Insulation Resistance •Formula to calculate insulation Resistance •Understanding types of leakage current •Conductive Leakage Current •Capacitive Leakage Current •Polarization / Absorption Leakage Current •Surface Leakage Current •Understanding Charging Current •Capacitance Distribution •Capacitance Equivalent circuit of three phase circuit •How Cable Charging works •Charging Time Constant •Calculating 5T •Effect of Charging Current on reading of IR •Polarization / Absorption Current •Die Electric absorption in detail •Understanding Current Curves ( Conduction, Capacitive, Polarization) •Selection of Applied Voltage as per IEEE standard 43 •Application of IR Test •How to make connections & different combinations to test •Understanding Test Connection •Proof Testing / Installation Testing •Maintenance Testing •Spot / Short time resistance test •Timed Resistance Test •Step Voltage test •Analyzing Step Curve •Di-Electric Absorption Test •Analyzing Curve for Di-Electric Absorption Test •Various Insulation Resistance Test •Temperature correction for testing rotating machines •Analyzing curve for Temperature Co-efficient Factor •Testing Wiring •Megger Testing Calculation Example •Connection Diagram of Cable testing •Connection Diagram of Motor testing •Connection Diagram of Generator testing •Connection Diagram of Circuit Breaker Testing •Connection Diagram of Bushing testing •Understanding Voltage Characteristics for IR Tester •Analyzing Curve for IR Tester •Guard Terminal •Guard Terminal Connection •Guard Terminal Equivalent Circuit •Example of using Guard connection for accuracy •The Guard Terminal as Diagnostic Tool •Introduction to ANSI/IEEE Std 95-1977 •Demonstration of Megger Video •Video How to Test Cable •Video How to Test Transformer •Video How to Test Motor insulation resistance An insulation resistance (IR) test measures the total resistance between any two points separated by electrical insulation. The test, therefore, determines how effective the dielectric (insulation) is in resisting the flow of electrical current Insulation Resistance / Megger Test •Most commonly referred to as simply a "megger," the insulation resistance test set (or Megohmeter) is used to determine the condition of insulation on various types of electrical equipment like cables, transformers and switchgear. Tests are typically conducted by applying a direct current (dc) voltage to the conductor under test and measuring the current that flows through insulation (called the "leakage current") and into the non-current carrying metal parts of equipment. Contaminated insulation can be determined by observing the absorption current - or current absorbed by the insulation - over a specified period of time. What Causes insulation to Degrade? •Electrical Stress •Mechanical Stress •Chemical Attack •Thermal Stress •Environmental Contamination How an Insulation Resistance Tester Operates •The Megger insulation tester is essentially a high-range resistance meter (ohmmeter) with a built-in dc generator. •The instrument's generator, which can be hand-cranked, battery or line-operated, develops a high dc voltage that causes several small currents through and over surfaces of the insulation being tested. •The total current is measured by the ohmmeter, which has an analog indicating scale, digital readout or both Insulation Resistance / Megger Test Record keeping •Insulation-resistance test data may be used to establish a trending pattern with deviations from the baseline information permit evaluation of insulation. The results of these tests (typically expressed in Megohms) are dependent on the temperature of the insulating material and the humidity of the surrounding environment at the time of testing; therefore all readings must be corrected to a base temperature, such as 20°C. How much voltage can a be produced? •Insulation testers come in a variety of sizes and output voltages depending on its specific application. A handheld 1000V Megohmeter is usually sufficient for 600V class equipment while larger sets for use on high voltage apparatus can output up to 15,000V or more. Megger Test Connections •There are three test terminals on an insulation resistance tester marked positive (+), negative (-) and Guard (G). Most basic measurements utilize only the positive and negative terminals, such as in cases when there is little possibility of adverse current paths that could affect the result. •When testing at higher voltages, such as with cable or transformers, the guard terminal can be used to divert surface leakage from the measuring circuit. Not all insulation testers are equipped with a guard terminal. •Note: Handheld megohmeters with outputs of 1000V or less may not be equipped with a Guard terminal. What is Insulation Resistance •No insulation is ideal and hence there will be always some leakage current from insulation to ground, when voltage is applied. Leakage Current Direction How to Measure Insulation Resistance •Insulation Resistance is measured by Ohm's Law Insulation Resistance = Applied Voltage / Leakage Current Applied Voltage = 1000 V Measure Leakage Current = 0.001Amp Measured Insurance Resistance = 10 Mega Ohms Understanding Insulation Resistance Equivalent Circuit finding Insulation Resistance value by using formula Leakage Current Types There are two types of leakage current 1.Conductive Leakage Current 2.Capacitive Charging leakage Current 3.Polarizing / Absorption Current 4.Surface Leakage Current Different types of leakage Currents & its effect on readings •The total current is the sum of these components. (Leakage current is shown as one current.) It is this current that can be measured directly by a microammeter or, in terms of megohms, at a particular voltage by means of a Megger insulation tester. Some instruments offer the alternatives of displaying a measurement in terms of current or as a resistance. •Because the total current depends upon the time that the voltage is applied, Ohm's Law (R = E/I) only holds, theoretically, at an infinite time (that implies waiting forever before taking a reading). It is also highly dependent upon starting from a base level of total discharge. The first step in any insulation test is, therefore, to ensure that the insulation is completely discharged Conduction current •Conduction current is steady through the insulation and is usually represented by a very high value resistor in parallel with the capacitance of the insulation. It is a component of the Leakage Current, which is the current that would be measured when the insulation is fully charged and full absorption has taken place. Note that it includes surface leakage, which can be reduced or eliminated by the use of the guard terminal (to be discussed later). •The graph in Figure 2 shows the nature of each of the components of current with respect to time. Surface Leakage Current •The surface leakage current is present because the surface of the insulation is contaminated with moisture or salts. The current is constant with time and depends on the degree of ionization present, which is itself dependent on temperature. It is often ignored as a separate current, being included with the conduction current below as the total leakage current. Capacitive charging leakage current (IC ) •When two or more conductors are run together in a raceway, they act as a capacitor. Due to this capacitive effect, a leakage current flows through conductor insulation. This current lasts only for a few seconds as the dc voltage is applied and drops out after the insulation has been charged to its full test voltage. In low-capacitance equipment, the capacitive current is higher than conductive leakage current, but usually disappears by the time we start recording the data. Because of this, it is important to let the reading "settle out" before recording it. On the other hand, when testing high capacitance equipment the capacitive charging leakage current can last for a very long time before settling out. Polarization / absorption leakage current (IA ) •Absorption current is caused by the polarization of molecules within dielectric material. •The positive and negative charges in molecules separate, causing an increase in the state of polarization P. A changing state of polarization corresponds to charge movement and so is equivalent to a current, hence the term "polarization current". •Absorption current is actually made up of up to three components, which decay at a decreasing rate to a value close to zero over a period of several minutes. The first is caused by a general drift of free electrons through the insulation under the effect of the electric field. Components of test currents Capacitor Charging Behavior •Capacitance of cable is distributed along cable. •Capacitance is added in parallel hence it will be added •Longer is the cable more will be the capacitance Capacitance Equivalent circuit of three phase circuit Capacitor Charging Time Charging Time •Charging Current will decay when Capacitor is charged •After cable / equipment is charged Capacitive charging current reduces to zero. • • Time Constant = T = RC • Capacitor Charge in 5T Effect of Charging Current on Reading of Insulation Resistance •Insulation Resistance can be defined as • IR = V applied / I conductive resistive leakage current But in practical there is Capacitive Leakage current is also available due to capacitance of cable. Tester Read IR = V / ( I R + I C ) I C decays to Zero after 5T and reading become stable. Initially Tester will show low reading and with time it will increase & become stable Testing of IR •During the testing procedure, the high dc voltage generated by pressing the test button will cause a small (micro-amps) current flow through the conductor and the insulation. The amount of current depends on the amount of voltage applied, the system's capacitance, the total resistance, and the temperature of the material. For a fixed voltage, the higher the current, the lower the resistance (E=IR, R=E/I). The total resistance is the sum of the internal resistance of the conductor (small value) plus the insulation resistance in MΩs Dielectric polarization Dielectric polarization is the term given to describe the behavior of a material when an external electric field is applied on it. A simple picture can be made using a capacitor as an example. ... The charges in the material will have a response to the electric field caused by the plates Absorption current •Absorption current is actually made up of up to three components, which decay at a decreasing rate to a value close to zero over a period of several minutes. •The first is caused by a general drift of free electrons through the insulation under the effect of the electric field. A Guide to Diagnostic Insulation Testing Above 1 kv 7 • The second is caused by molecular distortion whereby the imposed electric field distorts the negative charge of the electron shells circulating around the nucleus toward the positive voltage. •The third is due to the alignment of polarized molecules within the electric field applied. This alignment is fairly random in a neutral state, but when an electric field is applied, these polarized molecules line up with the field to a greater or lesser extent. Polarization How Much Voltages should be applied for different insulations Application of IR Test •Installation Test •The most important reason for testing insulation is to insure 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. •Maintenance Test •The second most important rea- son for insulation testing is to protect and prolong the life of electrical systems and motors. •Over the years, electrical systems are exposed to environmental factors such as dirt, grease, temperature, stress, and vibration. These conditions can lead to insulation failure, resulting in loss of production or even fires. Periodic maintenance tests can provide valuable information about the state of deterioration and will help in predicting possible failure of the system. Installation Test / Proof Testing •To Check Healthiness of installed equipment / Cables •The proof test is a simple, quick test used to indicate the instantaneous condition of insulation. •It provides no diagnostic data and the test voltages used are much higher than the voltages used in predictive maintenance tests. The proof test is sometimes called GO/NO GO TEST because it tests cable systems for maintenance errors, incorrect installation, serious degradation, or contamination. • The installation is declared acceptable if no breakdown occurs during testing. Choosing the test voltage Choosing the test voltage Proof test procedure Proof Testing Predictive maintenance tests Spot-reading/short-time resistance test Selection of Voltage level Formula to apply voltages Insulation Resistance test curve IR over period of time Step Voltage Curve Step voltage test Step Voltage Curve Analyzing Good V/s Poor Insulator after step voltage test Dielectric-absorption/ time-resistance test Dielectric absorption test, Dielectric Absorption Ratios, Various Insulation test Chart, Dielectric Discharge Test, Polarization Index , D.A. and PI Comparison, Temperature correction for testing rotating machines, How to make connections & different combinations, Testing generators and motors, Testing transformers, Testing wiring and cable installations, Calculation Example, Pre-Testing Requirement How to setup connections, Work safely, Connection Diagram for Motor, Transformer, Cable, Generator, Voltage Characteristics, The Guard Terminal, Introduction to ANSI/IEEE Std IEEE Std P43-2000, Demonstration of Megger Test Who this course is for Student, Engineer, Professionalshttps://www.udemy.com/course/mastering-insulation-resistance-testing-theory-practical/ http://nitroflare.com/view/B26D6814950AC11/Mastering_Insulation_Resistance_Testing__Theory___Practical.part1.rar http://nitroflare.com/view/EFC37CF32107606/Mastering_Insulation_Resistance_Testing__Theory___Practical.part2.rar http://nitroflare.com/view/31579F783ACE5D1/Mastering_Insulation_Resistance_Testing__Theory___Practical.part3.rar https://rapidgator.net/file/379e850facac5e72fbedf7d794af1f17/Mastering_Insulation_Resistance_Testing__Theory___Practical.part1.rar.html https://rapidgator.net/file/8f62df8932efa8edb6463cf376f240ec/Mastering_Insulation_Resistance_Testing__Theory___Practical.part2.rar.html https://rapidgator.net/file/6b8f28db44d7917cdb8a64e6a138b4bd/Mastering_Insulation_Resistance_Testing__Theory___Practical.part3.rar.html https://uploadgig.com/file/download/cB043d57e6dc35a5/Mastering_Insulation_Resistance_Testing__Theory___Practical.part1.rar https://uploadgig.com/file/download/723a024F5f331Dd7/Mastering_Insulation_Resistance_Testing__Theory___Practical.part2.rar https://uploadgig.com/file/download/B07e341473c19d36/Mastering_Insulation_Resistance_Testing__Theory___Practical.part3.rar Link to comment Share on other sites More sharing options...
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