High-voltage Cable Fault Detection Method Buying Guide

High-voltage Cable Fault Detection Method Buying Guide

2021-11-10
NOYAFA
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This Paper Briefly Introduces the Fault Detection Method of High Voltage Cable
This Paper Briefly Introduces the Fault Detection Method of High Voltage Cable
The discovery and fixed-point work of cable faults has always been a big problem in the electrical measurement industry, mainly because most cables are deeply buried underground, the laying distance ranges from a few meters to a few kilometers, and the on-site environment is complex. In addition to the high quality requirements for cable fault test equipment, the comprehensive quality of technicians is also very strict. There are three common types of cable faults: low resistance fault, high resistance short circuit grounding fault and flashover fault. For different types of cable faults, the fault point detection methods are also very different. The following is a brief introduction to the fault detection method of high-voltage cable. There are two kinds of traditional fault detection methods for high voltage cables: bridge method and pulse method. 1、 Electric bridge method is a classical method for ranging power cables. This method is relatively simple, but it needs to know the data such as cable length in advance, and it is only suitable for low resistance and short circuit faults. However, in actual operation, faults are often high resistance and flashover faults. Due to the high fault resistance, the bridge current is very small, so it is difficult for general sensitivity instruments to detect. 2、 Pulse method 1. Pulse current method this method is safe, reliable and simple. The method is to break down the cable fault point with high voltage, collect and record the current traveling wave signal generated by the fault click through with the instrument, and calculate the fault distance according to the round trip time between the current traveling wave signal at the measuring end and the fault point. In this method, the pulse current is coupled with a transformer, and the waveform is simple and safe. This method also includes direct flash method and impulse flash method. Different from the pulse voltage method, which uses resistance and capacitor voltage dividers for voltage sampling, the pulse current method uses linear current couplers placed parallel to the low-voltage geodesic and has no direct electrical connection with the high-voltage circuit. It is particularly safe and convenient for recording instruments and operators. So people usually use this method. 2. Pulse voltage method this method can be used to measure high resistance and flashover faults. Firstly, the cable fault is broken down under the DC or pulse high voltage signal, and then the distance is measured by recording the time required for the discharge pulse to go back and forth between the measuring point and the fault point. An important advantage of pulse voltage method is that it does not have to burn through high resistance and flashover faults. It directly uses the instantaneous pulse signal generated by fault breakdown. The test speed is fast and the measurement process is simplified. 3. For low resistance and open circuit faults, the pulse echo method uses the low-voltage pulse reflection method to measure cable faults. Compared with the above bridge method, it is simple and direct. It only needs to observe the time difference between the reflection and transmission pulses at the fault point to locate the fault. During the test, a low-voltage pulse is injected into the cable. When the pulse propagates to the fault point, it will be reflected, and the pulse is reflected and sent back to the measuring point. The time difference between the transmitted and reflected pulses is recorded by the instrument, and the distance of the fault point can be calculated only by knowing the pulse propagation speed. This method is simple and intuitive. It does not need to know the original data such as cable length. It can also identify the position of cable joint and branch point according to the reflected waveform.
Pulse Flashover Method for Fault Detection of High Voltage Cables
Pulse Flashover Method for Fault Detection of High Voltage Cables
Cable has a very important application scenario in our daily life. It can be said that we can't live without cable. In order to ensure the normal use of the cable, it is necessary to regularly detect and maintain the cable. In case of cable failure, the fault point shall be found out in time for maintenance. There are many cable fault maintenance methods. Today, I mainly introduce one of the high-voltage cable fault detection methods, pulse flashover method. For high resistance fault, due to the large resistance at the fault point, the reflection coefficient at this point is very small or almost equal to zero. When measured by low-voltage pulse method, the reflected pulse amplitude at the fault point is very small or there is no reflection, so the instrument can not distinguish it. There are two common high voltage flashover measurement methods, namely DC high voltage flashover measurement method (direct flashover method for short) and impulse high voltage flashover method (impulse flashover method for short). 1、 DC high voltage flashover method (referred to as direct flashover method) when the fault resistance is very high and a stable resistance channel has not been formed, the gradually increased DC voltage can be applied to the tested cable. After reaching a certain voltage value, the fault point is preferably broken down to form flashover. The flashover arc is used to form a short-circuit reflection on the added voltage, and the reflected echo is formed by a high resistance source at the input end to form an open circuit reflection. In this way, the voltage will be reflected many times between the input and the fault point until the energy is exhausted. 2、 Impulse high voltage flashover method (impulse flashover method for short) when the fault resistance is reduced and a stable resistance channel is formed, the DC high voltage cannot be added due to the limitation of equipment capacity. At this time, it is necessary to use impulse voltage test. The DC high voltage charges the cable through the ball gap until breakdown, and still generates short-circuit reflection with the flashover arc formed by it. The measuring inductance L shall be added at the cable input end to read the echo. The radio wave is reflected by short circuit at the fault point and l at the input end, and multiple reflections will be formed during this period. Due to the self induction phenomenon of inductance L, it begins to show open circuit reflection due to the current blocking effect of L, and shows short-circuit reflection after a certain time with the increase of current. The whole circuit consists of capacitor C and inductance L, which constitutes a large process of L-C discharge. Therefore, the wave process at the line input is a nearly attenuated cosine curve superimposed with fast pulse multiple reflection wave. 3、 High voltage cable fault detector is generally used. High voltage cable fault is high resistance fault, and high voltage flashover method is used to measure the distance of fault point. This method uses st-330b cable fault locator as experimental equipment. 1. Wiring mode: firstly, complete the wiring of high-voltage flashover as required; Then, connect the sampler with the ranging host with a double clamp test line, and then place the sampler next to the grounding wire of the high-voltage capacitor. 2. Equipment operation (1) start up, select the sampling method as flashover, the pulse width is the default, the cable type is the physical type, and the reading accuracy is the default. (2) Use the high-voltage equipment to discharge the cable, and then click the orange sampling button on the right to start sampling until the waveform is collected. Press the sampling key again to stop sampling. (3) Study the waveform, move the vernier ruler to the starting point and ending point of a waveform, read the waveform, and the distance of the fault point will be automatically measured in the upper left corner.
The Secret of Using Pipeline Detector
The Secret of Using Pipeline Detector
The pipeline detector basically has the following three detection methods: direct connection method, clamp method and induction method. However, the use frequency of pipeline detector can be basically divided into two categories: high frequency and low frequency. Low frequency attenuation is slow, transmission distance is long, radiation is small, it is not easy to connect in series, but penetration is poor; High frequency band high frequency band, strong penetration, large radiation, but fast attenuation and close distance. Therefore, the appropriate working frequency should be selected according to different methods. 1、 Direct connection method direct connection method is to load the signal sent by the transmitter directly onto the pipeline to be detected by the pipeline detector. Direct connection method is the best signal processing method, which is usually preferred when conditions permit. Direct connection mode is adopted, the signal is stable and not easy to be disturbed by other pipelines. In practice, cast iron pipelines and steel pipes are recommended to be tested by direct connection method, in which the use frequency can be selected according to the material of the pipeline, and the steel pipe can use low frequency, because the steel pipe has good conductivity, and the use of low frequency can be transmitted further. However, it should be noted that the signal of direct connection mode will be transmitted in two directions along the pipeline and distributed unevenly. The grounding point should be a certain distance (& gt; 5m) from the pipeline. The ground wire needle should be inserted in the soil and watered if necessary to reduce the ground wire resistance, which is conducive to signal transmission. 2、 Clamp method can be used when the signal cannot be directly loaded on the pipeline. The method is to connect the signal of the transmitter with the target pipeline through a clamp. The invention is applicable to communication, power and other pipelines. Generally, when this method is adopted, the use frequency can be selected according to the external interference. In the case of small external interference and extremely poor conductivity of the pipeline, high frequency can be used as induction. Generally speaking, we can detect with a frequency of about 33 kHz. Pay attention when using the pliers. The jaws of the pliers should be closed. In addition, although it is convenient to apply signals, the transmission distance and signal stability of this method are worse than those of the direct connection method. 3、 As the name suggests, induction method is to directly sense the signal of the transmitter to the target pipeline through non-contact mode. Generally speaking, this method can be used only when direct connection and clamp cannot be used. However, this method is greatly affected by the surrounding environment, and will produce a lot of interference when the vehicle passes through or the pipeline is close to the metal. Therefore, when selecting the frequency again, we must pay attention to avoid using high frequency for detection as far as possible, because the high frequency excitation range is large, which will cause serious interference between pipeline signals. In use, it should be noted that the distance between the transmitting end and the receiving end should be kept 10m as far as possible to avoid the frequency of the transmitting end interfering with the signal. In terms of methods, such a rule is generally followed. Direct connection can be used without pliers, and induction can be used without pliers. Frequency selection is also to select low-frequency detection as much as possible according to specific conditions. This ensures that more accurate conclusions can be drawn when using the pipeline detector.
How to Distinguish Between Phase Voltage and Line Voltage
How to Distinguish Between Phase Voltage and Line Voltage
What is the phase voltage? What is the line voltage? What are the relations and differences between them? This paper will interpret them one by one.Triangular connection and star connection without leading out neutral point have three terminal wires, three-phase system, three live wires, 380V, line voltage. The star connection leading out the neutral line includes three live lines, a total of four power lines, three-phase four wire system, one fire, one zero, 220V phase voltage. The line voltage is the vector sum of the phase voltages of two phases. Line voltage = 2 * phase voltage * cos30 degrees = root number 3 * phase voltage, i.e. 380 = root number 3 * 220Many times, the phase voltage is generally understood as the voltage between phases, that is, 380V, while the line voltage is understood as 220V, which is just the opposite.Concept:Phase voltage is what we often call 220V household voltage. The voltage between zero line and live line becomes phase voltage. In fact, all in our home are phase voltages.Line voltage refers to the voltage of any two live lines, that is, 380V, which is actually the phase voltage. The phase voltage is 220V and the line voltage is 380V.Relationship differences:In the process of long-distance power transmission, the higher the voltage, the lower the loss, which is why the country has been studying ultra-high voltage power transmission (I = u / R). Generally, the high-voltage power is transmitted to the end user, and then reduced to 220V / 380V through the step-down transformer to supply different users.For the three-phase four wire power network, the voltage between any one of the three phase lines and the zero line becomes the phase voltage; The voltage between any two of the three phase lines becomes the line voltage. The phase difference of the three-phase voltage is 120 degrees. The line voltage is the vector sum of the phase voltages of the two phases. The relationship between the line voltage and the phase voltage is: line voltage = 3 times the phase voltage of the root number, that is, 380V = 3 times the 220V of the root number (sorry, the mathematical root number 3 of the formula cannot be uploaded in the headline).The two-phase electricity is connected to the running three-phase motor, and the motor can still work. This is what we often say that the motor runs without phase, but it is easy to burn the motor in this way. After the three-phase motor with triangular connection is out of phase, the output power of the motor will also become two-thirds of the original three-phase power supply, and the other two windings only provide one-third of the power, resulting in three-phase imbalance, current imbalance and current imbalance. Of course, the motor is easier to burn out.After the star connected three-phase motor is out of phase, the motor output power is completely provided by two windings, and the load increases by 50% respectively. The other winding does not work, so the working current is unbalanced and the motor is easy to burn out. When two-phase electricity is connected to the stopped three-phase motor, the motor cannot be started. For single-phase motor, after connecting two 380V phase lines, the voltage becomes 380V, originally 220V. In this way, the voltage increases and the motor must be burned out.
How to Use the Wire and Cable Fault Tester to Quickly Find the Fault Point
How to Use the Wire and Cable Fault Tester to Quickly Find the Fault Point
In case of cable fault, power workers usually need to use cable fault tester to determine the location of fault point, so as to facilitate power workers to maintain cables. What problems should be paid attention to when using wire and cable fault tester to test fault points? Xiaobian summarized the following points on this issue. I hope you can solve your doubts and answer questions. Interested friends can have a look. 1. The gap between the discharge balls should not be increased. After using the cable fault comprehensive tester to roughly test the position of the fault point, if the gap between the discharge balls is adjusted too large, the impulse voltage will become higher, the high-voltage impulse time is too long, the fault point will be short circuited, the fault point will not discharge, and the fault point is difficult to find. Therefore, it should be noted that the gap between the discharge balls should not be adjusted too large. 2. In special cases, two fault testers can be used. If the soil layer is too thick, the surrounding environment has great interference, or the cable itself is damaged, resulting in weak vibration signal transmitted to the ground when the fault point is discharged, which makes it difficult to locate the fault point, two wire and cable fault testers can be used by taking advantage of the simultaneous occurrence of vibration wave and electromagnetic wave generated during fault click discharge. Use the probe and the probe to work at the fixed point at the same time. When two instruments hear a bang at the same time, and then find the sound point, we can accurately find the location of the fault point. 3. How to find the loudest point at the fixed point: after hearing the regular discharge sound, move the tester back and forth along the direction of the cable to find the position with large discharge sound. At this time, pay attention to reducing the output volume of the tester, and then slowly find the place with a loud sound. 4. Pay attention to replacing the battery. When the instrument is not in use, the power supply needs to be turned off in time. If the battery is low, the sensitivity of the instrument during test may be reduced, resulting in increased noise. Consider changing the battery at this time. 5. Check the wiring. If the shielding layer of the input line of the instrument is in poor contact, resulting in the sound of the radio station from the headset, you can check whether the wiring is correct. Precautions for cable laying: I. when using drainage pipes, the following provisions shall be observed: 1. The number of pipe holes shall be properly reserved according to the development needs. 2. For cables with large difference in conductor working temperature, different pipe banks should be set at appropriate spacing. C. the covering thickness of pipe top soil shall not be less than 0.5m. 3. The pipeline shall be placed on the leveled and compacted soil layer, and sufficient cushion blocks shall be provided to keep it continuous and straight; The longitudinal drainage gradient shall not be less than 0.2%. II. Requirements for cable wells. 1. Cable wells shall be set in the following parts of long cable ducts: (1) the limited distance of traction force between cables. (2) Cable branches and joints. (3) The direction of the pipeline changes greatly, or the cable goes directly underground through the drainage pipe. (4) The slope of the pipeline is large, and the fixation must be strengthened to prevent the cable from sliding. 2. Cable trench in power distribution room cable trench in power distribution room is generally used for incoming and outgoing lines of power distribution equipment, which is basically divided into under cabinet trench and double line trench. The cable trench wall is mu10 autoclaved lime brick, M5 cement sand, 1:2 cement mortar plastering of the trench wall, C20 concrete for coping and foundation, and channel steel shall be embedded under the equipment.
Introduction to Relevant Knowledge of Power Cable Pathfinder
Introduction to Relevant Knowledge of Power Cable Pathfinder
Electricity has an incomparable position in our daily life. It can be said that without electricity, our life will be a mess. However, the power demand is so large that the cable will inevitably fail. In order to remove the fault in time, relevant detection equipment is essential. Today, Xiaobian will introduce you some relevant knowledge about power cable Pathfinder. In the power industry, due to the outgoing fault of power cable, it is necessary to determine the fault location. At this time, in order to accurately find the fault location and reduce the excavation quantities and search time, it is necessary to use the intelligent cable path detector to quickly and accurately determine the cable path. There are many communication cables and TV cables in the communication industry. When these cables have faults and need to be detected, their paths also need to be determined. In order to avoid damaging underground pipelines during excavation, reduce unnecessary economic losses and speed up the project progress, it is necessary to accurately know the location of buried pipelines. Due to the incomplete or missing data of underground pipelines in the past, the urban construction and planning department can not accurately grasp the distribution of pipelines under the city, resulting in many problems in the process of urban planning. In this case, the path of underground pipelines should be detected again and saved. Because the cable is directly buried or buried in the cable trench, it is difficult to observe the cable path direction when the GIS data is incomplete. Therefore, after pre positioning the cable, the next step is to use the Pathfinder to find the cable direction and find out the approximate location of the fault point, and the precise point at the back is meaningful. At present, the commonly used cable path detection method is audio induction method, that is, add audio current signal of specific frequency into the cable, the current signal generates magnetic field signal around the cable, sense the magnetic field signal with an induction coil, convert it into sound or waveform after filtering, and display it through earphone or display, Where there is sound or waveform display is where the cable passes, so as to detect the cable path. When using audio induction method to detect cable path, if you want to get a strong magnetic field signal on the earth surface, you must make some current pass through the earth, otherwise the magnetic field signal may be weak. The power cable Pathfinder is a device for detecting the underground cable path. It not only has the function of the old underground cable path detector, but also has some new functions, and has made a certain technical breakthrough. 1. Peak mode. In this mode, the relative position between the cable and the operator can be judged and the direction in which the operator should move can be indicated, Then find the buried location of underground cables. 2. Valley value mode, which has compass function, can judge the deflection direction between the operator and the cable, and prompt the operator to correct his direction in time until the position of the cable is found. 3. The automatic search and locking frequency function can search the signal frequency when the frequency input is unknown, so as to determine the access frequency and lock it. 4. Current and depth display can display the current and buried depth of underground cables in real time. 5. GPS positioning: when the location of the cable has been determined and the current geographic location information of the cable needs to be recorded, you can select the GPS positioning function to record the geographic location information of the current cable, and finally upload it to the computer for cable data management.
Introduction of Test Composition of Live Cable Fault Tester
Introduction of Test Composition of Live Cable Fault Tester
Cable fault tester is a commonly used cable fault detection equipment. This equipment is used with a variety of cable fault detection. Its stable performance and accurate detection make the cable fault detection more comprehensive. The work efficiency of inspectors has been greatly improved. Today we mainly explore the composition of live cable fault tester. Test composition of live cable fault tester: 1. Live cable fault tester is composed of the following parts: 1. Instrument host: cable fault flashover tester, referred to as flashover tester for short. Cable path test signal source, referred to as path tester. Cable fault point / path meter receiver, referred to as point meter. 2. High voltage accessories: high voltage pulse capacitor. The utility model relates to an AC / DC dual-purpose high-voltage test transformer. High voltage test transformer operation box. 2、 The test functions of the cable fault tester mainly include: 1. Purpose: it is suitable for low resistance fault test, short circuit fault test, open circuit fault test, high resistance leakage fault test and high resistance flashover fault test of various power cables with different sections and media, high frequency coaxial cables, municipal cables, street lamp cables, ground buried wires, etc. Specifically, there are the following types: (1) testable cables are equivalent according to voltage: low voltage cables and high voltage cables. (2) Testable cables can be divided into: power transmission cables; Control cable; Street lamp cable. (3) The testable cables can be divided into: directly buried cables, cables laid in cable trenches, overhead cables and more than two parallel directly buried low-voltage wires. (4) Testable cables can be divided into: short circuit fault; Phase failure; Low resistance fault; High resistance leakage fault; High resistance flashover fault is described in detail after fault classification. (5) If there is a cable identifier, we can find the cable we are looking for from multiple cables buried in the cable trench, that is, the cable identifier. (6) Both fault test and cable identification are conducted for power-off cables, and fault test cannot be conducted for live running cables. 3、 Introduction to the test principle of cable fault tester: 1. The host of this set of instrument is a host, which is mainly used for cable fault test. 2. It is a rough measuring instrument for cable fault distance, which can measure the approximate distance from the fault point to the cable test end face. 3. The lightning meter can measure the cable length and the propagation velocity of electromagnetic wave in the cable. The test principle of lightning meter is radar reflection method, also known as pulse reflection method. Single end test distance of lightning meter: 15km. Minimum test distance (blind area) of lightning meter: 15-20m. 4. Measurement error of cable fault tester: rough measurement error & plusmn; 1%, system (point) error & plusmn; 0.2m. In short, after accurately determining the fault point, dig a pit to find the fault point. 5. The principle of cable fault detector for finding cable path is to add electromagnetic wave signal to the tested cable and receive the signal of finding cable path through the pointing instrument. The minimum characteristic of receiving electromagnetic signal on the ground directly above the cable is used to determine the buried position of the cable.
How to Customize Cable Fault Tester
How to Customize Cable Fault Tester
Customization is now a very popular concept, and many enterprise products can be customized. In many people's minds, customized things will be more in line with their own requirements and more comfortable to use. Can the cable fault detector also be customized? Do you need to explain the requirements to the manufacturer during customization? Let's discuss these problems today. With the growth of China's economy, all walks of life in China have changed to varying degrees. Take the power detection equipment industry where Xiaobian is located. The enterprises manufacturing cable fault tester, transformer tester and relay protection tester are expanding and increasing. However, with the rise of made in China, customization has become an industry norm. What should be paid attention to in the customization of cable fault tester? First of all, we must understand the power, resistance and current data of the cable fault tester we need, because different electric forging fault testers will have different detection values. When we fully feel its convenience and accuracy in the detection process, we did not determine the power before customizing the cable fault tester The electric forging fault tester customized by yourself due to resistance can not be suitable for yourself at all, which will also bring great negative impact to yourself. Therefore, before customization, confirm the data with the staff of the cable fault tester manufacturer, so as to ensure that the cable fault tester you customized is suitable for your own product needs. When selecting the manufacturer of customized cable fault tester, it is also necessary to select a more powerful enterprise. Not all electric forging manufacturers can customize their own products. If they cannot be carefully screened during selection, they will bring great losses to themselves. When customizing the electric forging fault tester, we must understand the strength of various manufacturers, especially the comparison of its manufacturing process and customization process, which is very necessary and more conducive to making our own choice. It can customize an electric forging fault test which is very suitable for the actual needs of its own power grid department. According to their own use scenarios, specify and enlarge some data values, which are all customized data, as well as some personalized characteristics of customized cable fault tester. The simple is to extract some of the most needed data according to their own needs and combined with the test value range of the cable fault tester, so as to make it closer to their own needs.
Principle of Cable Fault Tester
Principle of Cable Fault Tester
At present, the cable fault tester based on impulse flashover method used by the majority of users of power cable fault tester can easily roughly measure the distance of fault point with rangefinder when solving low resistance fault and dead ground fault of low-voltage cable (the distance test of such fault point does not need high-voltage discharge equipment, but uses low-voltage pulse method), However, the method of lighting fire, discharging and listening to sound is still used to locate the fault point. At the same time, the Pathfinder and fixed-point instrument of this kind of instrument are separated, which makes it impossible to synchronize the fixed-point when finding the path, and the fixed-point often deviates from the path. Moreover, due to the limitations of the principle, it is difficult to find the accurate path of the cable when finding the cable path, It is generally between 1-2 meters wide. Starting from practicability, hn-a10 series cable fault locator just makes up for the above defects. It can test the fault point location, buried depth and path synchronization of cable. The indication of fault, path and buried depth of the instrument is very intuitive, without technical analysis and completely independent of the operator's experience. It makes the originally tedious fault test work become a relaxed and interesting thing. Therefore, if the majority of impulse lightning cable tester users have another ht-tc cable fault locator and the original distance finder, they can form a set of perfect low-voltage cable fault tester. At the same time, the low resistance and open circuit faults of high-voltage cables can also be quickly fixed, and the work efficiency can be improved several times. In fact, the majority of power consuming enterprises and units rarely contact the maintenance of high-voltage cables in daily production, because the maintenance right of high-voltage cables is generally specially maintained by the prefecture and municipal power departments. The number of low-voltage cables is far greater than that of high-voltage cables. For enterprises, factories and mining units, residential areas, scientific research institutes, more developed towns and villages, colleges and universities, some small and medium-sized cities and county-level power supply bureaus, the solution of low-voltage cable faults is what they are most concerned about. In fact, what low-voltage cable users need is a tool tester with simple operation, convenient carrying, strong practicability, low price and suitable for field operation. Because the insulation strength of low-voltage cable is low, if the method of ignition and discharge is used to test the fault of low-voltage cable, we find that this method sometimes causes secondary fault. More seriously, after ignition and discharge, the service life of the cable will be reduced and the fault incidence will be increased, which will seriously affect the normal power supply and production.
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