Shop Best Ethernet Line Tracer in NOYAFA

Shop Best Ethernet Line Tracer in NOYAFA

2021-10-24
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SHENZHEN NOYAFA ELECTRONIC CO.,LIMITED continues to give high priority to developing ethernet line tracer in the face of the shifting market. The product is found to be in conformance with the requirement of CE and ISO 9001. Its materials are sourced from the leading suppliers in the domestic market, which have high stablility. Its manufacturing has been monitored by QC personnel who picks up defective semi-finished products.We are looking to grow our NOYAFA brand in the difficult global environment and we set up a key strategy for long-term expansion in different countries. We try to bridge the west-east gap to understand the local competitive landscape and develop a localized marketing strategy that can be well-accepted by our global customers.In order to deliver satisfactory service at Best Cable Tester Supplier in China _ Noyafa, we have employees who really listen to what our customers have to say and we maintain a dialogue with our customers and take note of their needs. We also work with customer surveys, taking into consideration the feedback we receive.
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A Wire Tester for Discovering Network Security Issues
A Wire Tester for Discovering Network Security Issues
Wire Tester and Site Auditor is an app for security testing which can be used by anyone, not just techies. It offers a list of commonly used tools to test websites or applications for vulnerabilities.A software developer needs to test web applications and mobile apps. Wire tester is a valuable tool for developers to test the application. They need to know about the security of the system in advance so that they can take appropriate measures.## "Wire Tester" (WIT) is the name given to the automated testing tool.It can perform a variety of tasks including:a) Web application security testing;b) WordPress/PHP security; and,c) Flex application testing. It also has the "Suspend/Resume" feature which allows you to save a session and resume it at will. It performs automation on web applications as well as other types of Internet applications. These include web servers, FTP servers, mail servers, etc., to name a few. Side by side with this tool are "Site Auditor" (SA), which is an automated web site audit solution that helps you analyse websites for potential vulnerabilities soThis section is all about the best wire testers, site auditors and security testing apps. The best of them feature powerful features and help you to test the security of your website on any device as well as from anywhere.This section is about the top software tools that can be used to check any website properly and efficiently. They also help you to test your own sites without any third-party interference.The article outlines the challenges and opportunities of using a security testing tool such as WireTiger.The team at WireTiger has been making hundreds of different applications to test web applications since 2001. This is a very common task for security testers and they find it necessary to test many different types of applications. The article explores the benefits and challenges that are involved in doing this task.We can't just run a web application terminal emulator on our PCs but we need something that will simulate what it would look like as it runs on the vulnerable device or platform. This is why we need to use a security testing tool such as WireTiger which emulates browsers, servers, operating systems, etc.. Test automation tools help people automate their software testing process, which can be particularly useful for those who wouldWireTesters are testers who test software and websites to verify their functionality. They usually use automated tools to write code, run tests, or even just perform a quick check on the code as quickly as possible."Wire Tester" is a software developed by the American company WireTiger.It allows users to test and analyze cable conductors, cables as well as other electronic components. A user can scrutinize data collected using this software by running tests over a wide range of frequencies and distances. It is capable of detecting any electrical faults on the wires as well as electric arcing due to incorrect connections.As the name suggests, it consists of three parts:In this section, we will be discussing the top 10 Wire Tester tools that are frequently used by our clients to test and validate content.Our Team is offering you a Complete Solution to all your Programming needs.This is The Best& the Most Comprehensive App – Your Mobile Friendly Solution to all your Programming Needs, no other solution has got this feature.Can be used for any type of programs, including iPhone Apps and Android Apps. Can also be customized as per the user's need. This is an ALL IN ONE APP that can do everything one can imagine from a simple programmer to a complete developer within a single app. It's an All-In-One App that can do everything from Web Developers, Mobile Developers and even Security Analysts! It will take you from starting out with none of these skills to a full-scale programming expert in just 5 days! You get ALL OF THE FOLLOWING FOR FREE: - Pre"Wire Tester" is the best way to test your websites in any conditions. It can be used for security screening and penetration tests.When it comes to content generation, there are many tools available. Some are very useful and some are not so useful. To help you narrow down the options, I have rounded up 10 all-in-one tools:
Best Wire Tester
Best Wire Tester
The introduction of wire testerWire testers are nothing but a tool used to test the strength and security of a wire. Wire testers are designed in such a way that they break in just one or two attempts.Wire testers can be found in any hardware store and are not difficult to use. They can also be purchased online for less than $10. They are very handy during construction or renovation work where there is a chance of breaking something fragile like wiring, pipes, or gas lines that need to be tested before use.It’s important for homeowners to know how much voltage their wiring is capable of handling when it comes to fire safety and home security..Tips for wire testerWire tester is an important job that most people don't know much about. The primary goal of the wire tester is to provide a safe and secure connection for the computer network. They have to find out whether the connections are working properly by checking the cables, connectors, and more importantly – with a voltmeter.Working as a wire tester can be difficult because they need to perform many tedious and detailed tasks such as: testing cables, connecting cables together, etc. However, it's definitely a rewarding career because when one successfully tests their connections they get paid!If you're interested in testing your abilities as a wire tester, create your own online profile on icanworkwiretetherules.com or check out career opportunities on Indeed.comHow to use wire tester?A wire tester is a device used to test a wire's resistance by applying a voltage to it and measuring the current.A wire tester can be used for checking whether an electrical wire or cable is faulty or not.The most common usage of a wire tester is in testing and repairing wiring circuits.The specifications of wire testerWire testers are used to test the integrity of cables. They are also known as cable testers or wire testers.Wire testers are instruments that measure electrical resistance and reactivity in a type of wire used for electric circuits. The instrument is normally a hand-held piece of metal with insulated blades called probes, capable of measuring electrical resistance in conductors and insulators.The main purpose of wire tester is to find out if the cable has any faults or not.The product instructions of wire testerWire tester is a product that helps in the process of connecting wires and cables. It comes with a power button and LED light.The product instructions are very helpful in understanding the function and use of the wire tester. It also offers safety precautions that need to be taken while using the device.An introduction to this section topic should include:- Section topic: What is Wire Tester?- Introduction: Wire Tester is a product that helps in the process of connecting wires and cables. It comes with a power button and LED light.The application of wire testerWire testers are used to measure the quality of a wire by testing its insulation and electrical resistance. They can be applied in industries such as electrical, automotive, computer, and serviceIn this day and age, wire testers are being replaced by automated testing machines calledwire tester. This is because they are much faster and easier to use than manual wire testers. In the future, with more automation in the work place, there will be less need for humans to do tasks that robots can handle instead.Automation will make tasks easier for humans to do their work efficiently as well as eliminating repetitive processes that human workers find tiring.
Instructions for Power Cable Fault Tester
Instructions for Power Cable Fault Tester
The power cable fault tester is a special cable testing equipment used to test the open circuit, short circuit, grounding, low resistance, high resistance flashover and high resistance leakage faults of power cables, as well as the open circuit and short circuit faults of coaxial communication cables and local telephone cables. It can also test the cable path, buried depth, radio wave velocity, verify the cable length, and establish cable files for daily maintenance and management. â—† free on-site guidance, training and testing until the user is skilled and satisfied, and there are actual faults, which can be solved on site. â—† battery powered, truly portable; The test distance is greater than 40km. The host test error is less than 0.2m. â—† the host adopts industrial embedded computer system and 12.1-inch large screen LCD touch screen. â—† automatically select the sampling frequency, with a low of 6.25mhz and a high of 100MHz. â—† any double wave comparison function, test waveform can be stored, called, compressed and expanded arbitrarily. â—† the fault distance is automatically displayed, and the double cursor can move * * to 0.18m, which improves the test accuracy. â—† built in various field waveforms and field physical wiring diagrams for reference and learning. â—† cable data management software can establish perfect cable file management information. â—† high precision digital display fixed-point instrument, direct indication of the distance between the test end and the fault point, pioneered in China. â—† it can support wireless network card and carry out technical communication with our company anytime and anywhere. â—† the whole machine is guaranteed for three years, free training, free tracking service and free software upgrade. Dear customers: Hello, our company is a high-quality development group with strong technical force, providing users with high-quality products, complete solutions and superior technical services. The main products are high voltage cable fault locator, buried cable fault detector, live cable identifier, etc. The enterprise adheres to the tenet of building a business in good faith, keeping the business with quality and developing the business with enterprising. It continues to climb new peaks with a firmer pace and make contributions to the national automation industry. New and old customers are welcome to buy their favorite products at ease. We will serve you wholeheartedly!
Correct Opening Method of Cable Fault Tester
Correct Opening Method of Cable Fault Tester
Why can't the fault point be found when using the cable fault tester? What is the correct opening method of cable fault tester? We need to understand some common problems of cable fault first, and then effectively solve the fault problems according to different problems. With the development of China's power system, the laying of high-voltage cables is becoming more and more common. Basically, the cables connected between distribution stations are very long. As long as the cables fail, it is very difficult to troubleshoot, and most of them are buried cables, which is difficult to judge. At this time, we need a cable fault tester to judge the correct fault point for us, So that we can quickly restore the power supply, we can analyze the problem according to several common cable faults. Cable faults are commonly divided into high resistance short circuit fault, phase to phase short circuit fault, low resistance fault, flashover fault and other common faults on site. 1. The low voltage pulse reflection method is applicable to low resistance (less than 10 times of wave impedance), grounding and open circuit faults, and can test the full length of the cable and the propagation speed of radio waves in the cable. In case of low resistance or grounding fault of the cable, the equivalent impedance at the cable fault point shall be the parallel connection of fault resistance and cable characteristic impedance. The smaller the cable fault resistance is, the more obvious the reflected waveform is. When the cable fault resistance is zero, it is total reflection. Because the equivalent impedance at the test end (input impedance of the test instrument) is greater than the characteristic impedance of the cable, the same polarity reflection pulse is generated at the test end. At the low resistance or ground fault, because the fault resistance is less than the cable characteristic impedance, the incident pulse generates the reverse polarity pulse after the fault point and transmits it to the test end. The falling edge of the received reverse polarity pulse corresponds to the reflected waveform of the cable fault point. In case of open circuit fault of cable, the equivalent impedance of cable fault is the series of fault resistance and cable characteristic impedance. Open circuit is equivalent to infinite fault resistance. In this case, the incident pulse will form total reflection, and the reflection pulse of the same polarity will be generated at the test end. The rising edge of the received pulse of the same polarity corresponds to the reflection waveform at the fault point. 2. First, use a certain voltage level The high voltage pulse with certain energy is applied to the faulty cable at the test end of the cable, causing breakdown and arcing at the high resistance fault point of the cable. At the same time, add the low-voltage pulse for measurement at the test end. When the measurement pulse reaches the high resistance fault point of the cable, it encounters an arc and reflects on the surface of the arc. When arcing, the high resistance fault becomes an instantaneous short-circuit fault, and the low-voltage measurement pulse will change obviously in impedance characteristics, so that the waveform of flashover measurement becomes a low-voltage pulse short-circuit waveform, making the waveform discrimination particularly simple and clear. This is what we call the "secondary pulse method". The received low-voltage pulse reflection waveform is equivalent to the waveform of a wire core completely short circuited to ground. Superimpose the low-voltage pulse waveform obtained when releasing the high-voltage pulse and when not releasing the high-voltage pulse. The two waveforms will have a divergence point, which is the reflected waveform point of the cable fault point. This method combines low-voltage pulse method with high-voltage flashover technology, which makes it easier for testers to judge the location of cable fault point. Compared with the traditional cable fault test method, the advantage of the secondary pulse method is to simplify the complex waveform in the impulse high-voltage flashover method into the low-voltage pulse short-circuit fault waveform, so the interpretation is very simple and the fault distance can be accurately calibrated. 3. The triple pulse method adopts the double impact method to prolong the arc burning time and stabilize the arc, which can easily locate the high resistance fault and flashover fault. The triple pulse method has advanced technology, simple operation, clear waveform and fast and accurate positioning. At present, it has become the mainstream positioning method of high resistance fault and flashover fault. The third pulse method is an upgrade of the second pulse method. The method is to first measure the reflected waveform of the low-voltage pulse without breaking through the fault point of the measured cable, then impact the fault point of the cable with the high-voltage pulse to generate an arc, trigger the medium voltage pulse when the arc voltage drops to a certain value to stabilize and prolong the arc time, and then send the low-voltage pulse, Thus, the reflected waveform of the fault point is obtained. After the superposition of the two waveforms, it can also be found that the divergence point is the corresponding position of the fault point. Because the medium voltage pulse is used to stabilize and prolong the arc time, it is easier to find the fault point waveform than the secondary pulse method. The cable fault tester often has to solve the following problems: 1. The diversity and complexity of cable faults determine that the cable fault tester needs complete functions and diverse test methods. 2. 2. To solve the fault, many instruments should be used together in order to achieve the result of solving the fault. 3. Different test methods are needed for cable insulation, fault location and different faults. 4. Sometimes the difficulty of cable fault test lies in the snow with a thickness of more than one meter and bad weather (the temperature is more than minus 20 degrees), which is also a test for underground cable detectors and testers to pass the above understanding. I believe you basically have some general and judgment on the cable fault problem and how to use the cable fault tester normally.
Precautions for Optical Fiber Test and Installation
Precautions for Optical Fiber Test and Installation
Although optical brazing can provide a large bandwidth, its performance will be compromised if it is not deployed properly. Therefore, for enterprises with optical brazing needs, the author has the following suggestions.1、 Try to avoid macro and micro musicOptical brazing, like ordinary network cables, will also have signal degradation. Network cable is mainly caused by signal decay due to distance, while for optical fiber, it is mainly caused by improper installation. For example, if the optical fiber is stretched or bent too much, it may cause the fiber core to crack and have small cracks. A direct consequence of this is that light will scatter, resulting in signal attenuation. In addition, if the bending angle of the optical fiber is too large, the incident angle of the optical fiber contacting the core cladding interface will be changed. This makes the incident angle less than the critical angle of the total reflection angle. Note that at the bend, some optical signals cannot be reflected, but refracted into the covering layer and lost directly. Reflection, refraction, these professional terms may be difficult for readers to understand. In short, when deploying optical fiber, network administrators need to avoid the following two situations as far as possible.One is Hongqu. Macro area generally refers to the bending visible to the naked eye. Gently pull the optical fiber, you can see that the optical fiber is broken and sunk, as if it had been pressed by a heavy object. When the administrator accidentally bends the optical fiber, part of the light exceeds the critical angle, resulting in the light leaking out of the fiber core and into the covering layer. In general, once the light enters the cladding, it is difficult to return to the core again (even if it can, it is abandoned because the cost is too high). Usually, it will leak out directly through the buffer layer.The second is micro music. Micro bending and macro bending have the same reasons, which will cause the optical signal to exceed the critical angle and leak out of the fiber core. However, the external performance is different. The existence of Hongqu can generally be judged by the naked eye. In case of micro curvature, the amplitude of occurrence is very small, which is difficult to be found by the naked eye. In other words, general bending (such as rounding the optical fiber) does not necessarily lead to micro bending. Only bending under certain conditions can lead to micro bending.So in practice, how to avoid these two situations? A relatively simple method is not to press heavy objects on the optical fiber. Because of the long-term backlog of heavy objects, it is easy to cause optical fiber deformation, macro bending phenomenon and affect the transmission of optical fiber signal. In addition, when deploying optical fiber network, it is best to carefully observe the appearance of optical fiber. Because if macro music occurs, the appearance is obvious, which can be seen directly from the appearance (obvious backlog traces). If so, it's best to abandon this and optical fiber.Secondly, because the micro curvature is difficult to be observed by the naked eye, the help of the instrument may be needed at this time. Connect a test instrument at both ends of the optical fiber, and then you can check the attenuation degree of the optical fiber. If it is within the range allowed by the user, there is no problem if a little macro or micro music occurs. However, if its performance has been seriously affected, the optical fiber needs to be replaced.2、 Pay attention to whether there is an inner tube when purchasing optical fiberThe attenuation of optical fiber signal is largely related to its installation. Improper installation may lead to micro bending or macro bending. In order to avoid this situation as much as possible, many optical fiber manufacturers will add a layer of "inner tube" material to the optical fiber. The utility model relates to a material for stretching pipes, which can effectively avoid excessive bending of optical fibers.In terms of hardness, the inner tube is much harder than the optical fiber, so it is not easy to be excessively bent. Therefore, the optical fiber protected by the inner tube is usually not easy to bend. According to the laboratory test results, it can be found that the inner tube can indeed protect the optical fiber. It can not only improve the tensile amplitude of the optical fiber, but also ensure that the bending optical fiber is not too large. Of course, due to the addition of an inner tube, the cost will be much higher. Therefore, not every brand of optical fiber will do so. Enterprises need to pay attention to this problem when purchasing optical fiber.3、 Pay attention to the smoothness of both ends during installationThe process of installing optical fiber is much more complex than that of installing ordinary network cable. When installing the optical fiber, both ends of the optical fiber need to be cut. In addition, the smoothness of both ends must be ensured (usually, the smoothness of the end can be ensured by polishing and other means). If the terminal is not smooth, it will lead to signal attenuation. If the network administrator has the conditions, it is better to use a microscope or built-in amplification instrument to detect the smoothness of the optical fiber end to judge its smoothness. In short, it is necessary to ensure that both ends of the optical fiber are properly polished and shaped.After ensuring that both ends are smooth, carefully install the joints at both ends. The installation of this joint is also a technical work. Because if there is an error in the installation of the interface, such as improper splicing, or splicing two optical fibers with inconsistent dimensions together, the intensity of the optical signal will be reduced to a great extent. In general, optical fibers with different sizes are not recommended.After the optical fiber connector is connected, certain protective measures need to be taken. This is mainly because this part is the most likely place to cause signal leakage. If the end is dusty and unclean, it will cause great attenuation when the light reaches the receiver. Make sure that the connectors and fiber ends are clean if necessary. If necessary, it is also necessary to cover the end of the optical fiber with a protective film to prevent damage. Moreover, when connecting the optical fiber to the interface of the router or switch, it needs to be cleaned again. The cleaning method is relatively simple. Generally, you only need to wipe it with alcohol free lens paper. In order to avoid dust pollution, if there is an optical fiber interface on network equipment such as switches and routers, certain protective measures need to be taken when they are not used at ordinary times. If the port is covered, prevent dust from entering. When it is reused, it needs to be cleaned again. The cleaning method is the same as that of cleaning the joint. You only need to wipe it with special paper.4、 After installation, test and calculate the light lossEven if the deployment method is the most appropriate or the optical fiber is the best, it is still difficult to avoid the loss of optical signal in the end, but the degree of loss is different. If the loss degree of the optical signal is within the range that the user can tolerate, then it can. On the contrary, after the maximum limit of this user has been exceeded, it is necessary to analyze the causes and take corresponding measures.In practice, the unit of optical signal loss is measured by decibels (note that this is not a unit of sound). This unit indicates what percentage of the energy emitted by the transmitter is received by the receiver. Generally, you need to test after the first installation and confirm with the user whether you can accept this value. Note that this value needs to be recorded. This value needs to be used for reference in future maintenance. If it is found that the transmission performance of network data decreases in the process of use in the future. At this point, the administrator needs to retest it. If the test value is found to be the same as the original value, it means that there is no problem with the optical fiber, which is caused by the enterprise's own network. For example, it may be caused by the increase of data volume or the change of network architecture. It is necessary to optimize the enterprise's network. On the contrary, if the optical energy loss is found to be greater than the original, the problem that it may be an optical fiber or an optical fiber receiver transmitter must be considered. Check whether the protective layer of the optical fiber is damaged or whether there is a lot of dust on the interface, etc. It can be seen that the test of this optical fiber is very important. During the first test, the data obtained must be recorded in detail as the basis for future optical fiber maintenance and network optimization.
Data Cable Used at Home and in Business
Data Cable Used at Home and in Business
With the demands of modern life increasingly reliant upon technology it is vitally important to get the best equipment, as cheap as possible. Not only that but as consumers we should try and get as much value for our money by getting the most out of our equipment. Having the appropriate data cable is all part of this process and applies equally to large businesses and individual PC owners.There are various different types of data cable in use such as the Coaxial Cable, which is perhaps the most popular form of cabling as it is cheap and quite flexible. The Coaxial Cable is made of up a central copper wire surrounded by an insulator and a braided metal shield. The shield means it can be used over long distances at high speed, but the cable is usually only used for basic installations.Another type is a twisted-pair cable, which consists of two copper strands woven into a braid and covered with insulation. It is suitable for a local network with few nodes, a limited budget and simple connectivity. The drawback is that over long distances at high data rates it does not guarantee data integrity.Increasingly popular are fibre optic cables as they are lightweight, can accommodate a large bandwidth of up to several gigahertz and are immune to noise. These cables are very secure and allow connections over long distances. That said it is more expensive than Coaxial and twisted-pair cables and is therefore not ideal local network connections.Many of are using our PCs at home not just for working on spreadsheets and playing the occasional game of minesweeper, but also as part of our home entertainment system. When buying a new hard disk drive or HD DVD, Blu-ray, DVD or CD drive for your computer it is important to choose the most appropriate Serial ATA (SATA) data cable to connect the drive to the motherboard securely allowing for a direct path without bending the data cable too much. SATA is a single cable with a minimum of four wires creating a point-to-point connection between devices with transfer rates for SATA beginning at 150MBps.SATA data cables are much thinner than the old IDE cable drive and can be up to one metre in length. There are two speed levels too with SATA hitting up to 1.5 Gb/s and SATA II up to 3 Gb/s. In reality these types of speed are not reachable as it depends on the capacity of the computer.There are various different types of SATA available:• Straight Both Ends SATA Cable - This is the most commonly used as it has the same straight connectors at both ends and is the cheapest available. It is not ideal though if there is a large obstruction between the drive and the motherboard as it does not bend easily.• Straight Both Ends with Latches SATA Cable - This is the same as above but provides a more secure connection. The latch holds the data cable in place so it doesn't get easily pulled out.• Right Angled Drive Connector SATA Cable - This cable connector points downwards and is ideal for drives mounted higher up. However, it would be no good for drives near the bottom of a case or on the floor.• 270 Degree Drive Connector SATA Cable - Conversely this cable points upwards and therefore would suit drives near the bottom of a case and not those on top of a case or shelf.Data cables can be a real headache for businesses as their data centres try to keep up with modern technology and the growing traffic from the Internet, Smartphones and business applications. The numerous cables required to connect all the machines in data centres can cause huge costs to businesses as well as being an administrative nightmare. A typical computer server now requires at least eight or nine cables for tasks that should only need two connections and if you multiply that by the hundreds of servers in major data centres it can really get out of hand.Many companies are forced to buy extra equipment to manage all the necessary connections and coupled with the valuable office space this uses, it is costing a lot of money. In fact experts believe that as much as 15 percent of the cost of data equipment is spent on cabling. One of the solutions is to consolidate data cables if by moving to Ethernet, which has become the primary type of data cable linking almost all Internet-based networks, including the largest and most demanding telecommunications systems in the world.
What Is the Difference Between a Live Cable Identifier and an Uncharged One
What Is the Difference Between a Live Cable Identifier and an Uncharged One
Cable identification instrument can accurately find out the characteristics of cables in a bundle of cables, which is a common equipment. Its wide range of applications can be used not only in cable fault handling, but also in cable erection or migration. There are two kinds of cable identification instrument, one is live cable identification instrument, and the other is not live. So what's the difference between them? Next, let's have a look. How to find a specific cable in a bundle of cables? How to accurately identify cables? Many power maintenance companies most commonly use the live cable identification instrument in power cable erection, migration, maintenance and fault treatment. However, in the face of complex cable and environmental differences, it has become very difficult to identify the running cable. What is the difference between a live cable identifier and a dead cable Identifier? How to distinguish quickly? 1. Working principle of the cable identification instrument the main working principle of the live cable identification instrument is to transmit the phase coded signal with an average value of 0 on the transmitting caliper, receive the single chip microcomputer in the caliper, filter the received signal through hardware and software, and then carry out phase identification. When the receiving clamp clamps the cable according to the current direction, the identified cable ammeter deviates to the right, Accompanied by audible and visual indication. The current direction of other cables is opposite to that of the identified cable, and the ammeter pointer deviates to the left. The working principle of the dead cable identification instrument is to add a special signal to the identified cable, which should be received by a special receiver. The periodic unipolar voltage pulse is fed into the cable to be identified. The direction of the pulse current fed into the cable can be used as an obvious identification standard, and the outgoing current only passes through this cable. 2. Basic parameters of the cable identifier: insert the red and black wiring plugs of the transmitting caliper a into the two red and black wiring posts corresponding to the transmitting source, and clamp the transmitting caliper a on the identified cable. The arrow on the transmitting caliper a points to the cable terminal. On the identified cable two meters away from the transmitting caliper, clamp the receiving caliper B to the cable, and the arrow on the caliper must point to the cable terminal. Then check the current direction and test connection direction. At the identification point, identify each cable with receiving caliper B. During identification, the arrow on the receiving caliper must always point to the terminal direction of the cable, and the cable shall be clamped one by one. On the identified cable, the current meter pointer of the receiver must deflect to the right, and the audible and visual alarm prompts 3. Precautions for the use of the cable identification instrument (1) if the operating cable has voltage and no load, there will be no current flowing on the cable. At this time, the magnetic field cannot be detected. It is considered to be an uncharged cable, which is very easy to misjudge. (2) If the cable is not running, but if this cable is parallel to other running cables, there will be induced current and magnetic field. At this time, the instrument will also have indication, and misjudgment will occur. (3) If there are multiple cables in the cable trench, these multiple cables will generate a magnetic field. At this time, there will be a magnetic field generated by 50Hz current in the whole area. At this time, there will be a magnetic field in the whole area, which makes the discrimination impossible. It is easy to misjudge.
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.
Overview of Cable Fault Locator
Overview of Cable Fault Locator
Overview of cable fault locator cable fault locator is a comprehensive cable fault detection instrument. It can test the faults such as high resistance flashover fault, high and low resistance grounding, short circuit, cable disconnection, poor contact and so on. The cable fault locator is equipped with an acoustic pointing instrument, which can be used to accurately determine the * * position of the fault point. It is especially suitable for testing power cables and communication cables of various models and different levels of voltage. Detection mode the cable fault locator adopts a variety of detection modes and applies contemporary * advanced electronic technology achievements. Using computer technology and microelectronics technology, it has the characteristics of high intelligence, complete functions, wide range of use, accurate test, convenient use and so on. The design of locator to detect aircraft cable fault is very important in civil aviation maintenance; According to the characteristics of aircraft cable, a method that can effectively test and diagnose it, low voltage pulse method, is proposed, and an aircraft cable defect detection and positioning device is designed by using single chip microcomputer and CPLD technology; The positioning instrument is mainly composed of three parts: signal acquisition circuit, system control circuit and human-computer interaction circuit; At the same time, two sets of product vibration are adopted, which not only ensures the high-speed signal acquisition, but also meets the low-speed processing of the system. It has the characteristics of low cost, portability and dexterity, accurate test and so on; At the same time, in addition to being applied to aircraft cable maintenance, it can also be further applied to short-distance cable testing and defect detection in telecommunications, power and other departments. Dear customers, the company also has cable recognizer, cable tie tester and underground pipeline detector products. You can call the company's service phone through the website to learn more about the details of the products, Perfect and beautiful service is our pursuit. Welcome new and old customers to buy their favorite products at ease. We will serve you wholeheartedly!
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