Guide to Shop Commercial Electric Non Contact Voltage Tester in NOYAFA

Guide to Shop Commercial Electric Non Contact Voltage Tester in NOYAFA

2021-11-04
NOYAFA
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Nowadays it is not enough to simply manufacture commercial electric non contact voltage tester based on quality and reliability. Product efficiency is added as a basic foundation for its design in SHENZHEN NOYAFA ELECTRONIC CO.,LIMITED. In this regard, we use the most advanced materials and other technological tools to assist its performance developments through the production process.NOYAFA insists on giving back to our loyal customers by providing cost-effective products. These products keep pace with the times and exceed similar products with constantly improved customer satisfaction. They are exported all over the world, enjoying a good reputation among targeted customers. With our continuous improvements in the products, our brand is recognized and trusted by customers.We work hard to provide unparalleled levels of service and prompt support. And we offer commercial electric non contact voltage tester and other products listed at Best Cable Tester Supplier in China _ Noyafa with the most competitive MOQ.
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What to Know Before Using the Pipeline Detector
What to Know Before Using the Pipeline Detector
If the power system wants to operate stably, the power cable really needs special attention. Cable is the main bearing tool in the power system. During the use of cable, it may be affected by various factors, resulting in failure, which needs to be repaired in time. Cables are buried underground, so special detection tools are needed to quickly find out the fault point, so that the staff can repair them in time. Pipeline detector is a common cable fault detection equipment. Today, we mainly introduce the problems that should be understood before using the pipeline detector. Today, Xiaobian will give you a detailed introduction to the relevant knowledge you need to know before using the pipeline detector. Friends who want to know will follow Xiaobian's introduction. 1. Graphic display is adopted, which can continuously and real-time display various parameters and signal strength in the detection process. 2. When measuring the depth, it will automatically switch to the dual horizontal antenna mode and automatically adjust the sensitivity of the receiver to optimize the measurement signal. After sounding, it will automatically return to the working mode before sounding. 3. Single horizontal antenna, double horizontal antenna and vertical antenna are used to mutually verify the accuracy of pipeline measurement. 4. It has a variety of depth measurement methods: double coil direct reading method and 70% method; Single coil 80% method, 50% method and 45 degree angle method. 5. High sensitivity, strong anti-interference and accurate positioning. 6. Function of multimeter: test the continuity and insulation quality of cable before and after cable fault finding. Internal structure of pipeline detector: 1. Transmitter: apply a special frequency signal current to the tested pipeline. Generally, three excitation modes are adopted: direct connection method, induction method and clamp method. Transmitter technical parameters injection mode: 480HZ, 31khz induction Clamp mode 31khz output voltage 0-400vp-p automatically / manually adjust the output waveform sine wave power supply 12VDC 4.5ah lithium battery maximum output power 10W 2. Receiver: the receiver has a built-in induction coil to receive the magnetic field signal of the pipeline, and the coil generates induced current, so as to calculate the direction and path of the pipeline. 2. There are generally three receiving modes: peak mode (maximum), valley mode (minimum) and wide peak mode; In addition, more advanced instruments now generally have peak arrow mode (which combines the advantages of peak and valley values to make the operation more intuitive) and compass guidance (used to indicate the direction of the pipeline). 3. Technical parameters of receiver: receiving sensitivity i100 & mu; A@1M Defense against 50Hz Interference & Ge; 100dB power consumption & lt; 1.0W power supply, 12V 1.5Ah lithium battery, maximum test burial depth of 4.5m, test burial depth error, ± 0.05h± 5cm (H is the buried depth of the optical cable) test the route error 5cm, test the insulation degree of the line 25m & omega; The effective length of pipeline route and buried depth tested by injection method shall not be less than 20km (under normal conditions). 4. Use the induction method to test the line route and buried depth, and the effective length shall not be less than 3km (under normal conditions). Note: under normal conditions, it means that the tested pipeline has no insulation fault and other interference within the above measurement range.
How to Use a High Voltage Detector Tester: 5 Key Tips You Should Know
How to Use a High Voltage Detector Tester: 5 Key Tips You Should Know
Any meter that can check voltage, current and resistance is called a multimeter. To prove that the electrical testing is new to us, we often ask our residents if they can teach an apprentice how to properly use a voltmeter or multimeter. Once you understand how to use a multimeter correctly, you can proceed to troubleshooting and troubleshooting electrical problems, checking sockets, checking continuity and more.Proximity to the voltage detector is a good first test, followed by direct contact with the meter. The voltage is relative to the two points at which it is measured by the meter, so a voltmeter must be connected to two points in the circuit to get a good measurement.As part of the test, the 70E requires a conductor circuit with phase phase phase and phase to ground. Note that this requirement does not apply to medium to high voltage systems, so proximity voltage detectors are the preferred test method.Non-contact voltage testers are the safest way to ensure that the current touches the wire. They light up and make no noise, but they can get very close to hot electric wires, especially those covered with plastic insulation.Select a low or high voltage level to verify the presence of a voltage contact with an energy-rich conductor. If you hear continuous chirping or see a series of flashes, confirm that the tester has detected voltage.Test your battery at every stage and measure your readings to optimum voltage. These tips lead to the use of a test circuit that you can see when working with your RV batteries.Some manufacturers of voltage sniffers recommend holding the tester with bare hands and keeping it close to the body. To use a two-pronged voltage tester, place a cable in a metal box containing the ground wire and a solid copper wire, and the other cable you are testing, but never use a two-pronged multimeter. The measurement of the signal allows calculations without the stress of a CT socket tester or circuit analyzer (practical socket voltage testers are ideal for checking voltages and showing if a socket wire is missing a wire, such as the grounding wire).Like any technology or device, your digital multimeter has a lifetime. A visual inspection can be carried out to check and ensure that your multimeter is working properly. Inspection of light must be carried out with electrical energy Floor inspection facilitates the repair of motor vehicles Inspection of a lamp is simple and inexpensive, especially for 12 volt vehicles.These multimeters have the same properties as a voltmeter and check current, resistance and continuity. At the top of the charts in the best-selling multimeter category, Kaiweets Digital Multimeter will do the work for you. It features accurate measurements of AC and DC voltage, AC / DC current and resistance, continuity, frequency, capacitance, diodes, liquid temperature, battery control and shutdown measures.If you do not have a multimeter, you can use a voltage detector instead of a voltmeter or a continuity test instead of an ohmmeter. User-friendliness has little to do with the multimeter that holds your readings for you, as you cannot see what you are working with on the screen. Use it instead to tell you if the white or black cable is in the inverted socket, or if the underground cable is inserted into the box or plugged into the socket.As soon as you receive a reading from your meter, check if it has a switch called DC. Be sure to follow the instructions to get the maximum amount of current that the meter can handle. To see how this works, let's look at a few examples to show how the meter is used.Use a low-voltage proximity tester to measure the circuit to be tested when the low-impedance voltage tester is connected. Figure 2 illustrates the final reading of the voltage displayed by the proximity testers and the voltage displayed by the tester. The tester measures the voltage (Figure 3) and if it is several volts above or below, it indicates the presence of a voltage, and if there is a voltage in the circuit, a power supply must be found before moving on.If the circuit voltage is lower than normal and the current is high, a harmful spark can occur the moment the last meter probe connection is established. In the multimeter version, the zero ohm resistance is tested with the probe tip (red) and the probe is plugged into the red current measuring socket. When the voltage is measured in this mode (red LED plugged into red V socket) and many mega ohm resistors are tested from the probe tip, the voltmeter is designed to be close to infinite resistance, so that it does not draw any significant current from the circuit's tested circuit.We used the voltage sniffer on a metallic light in a kitchen or sink to check if it was grounded. When the luminaire is not grounded, a hot wire comes into contact with it and the wire will supply the metal with energy, making an electric shock a hazard. The voltage sniffer found no power cables grounded in the metal wire.When using a voltage detector the following checks should be carried out: Check for optical damage, third party labels and indicate the date of the next routine inspection. Check whether the maximum permitted voltage range is can be used depending on the voltage rate of the power supply system (in mV / hV) (Note: 2 test ranges are possible with KP-Test 5 Dual Voltage Detektors as indicated by the number of green LEDs ). The voltage ranges available, the ATEX approval, the choice of tip and antenna shape vary according to the application of the volt stick, but the right product ensures safe work on site.I call it a voltage sniffer but the technical name for it is a capacitive voltage sensor. Inspectors use voltage sniffers for a few different things, so it's important to have one or two spare parts ready. Voltage sniffers use black magic to determine whether wires are alive or not, and they are 100% reliable at all times.
Problems Often Noticed in the Operation of Underground Pipeline Detector
Problems Often Noticed in the Operation of Underground Pipeline Detector
The vast majority of underground pipelines are metal materials, which can induce and transmit electromagnetic waves. With its superior performance and flexible and convenient detection methods, the underground pipeline detector has a large number of users in the fields of electric power, telecommunications, water supply, heat, gas, petroleum, chemical industry and urban public utilities, which has played a positive role in improving the pipeline management level of relevant industries in China. Problems often noticed during the operation of underground pipeline detector (1). Cleaning, inside and outside of optical fiber welding machine, optical fiber itself, and the important parts are V-groove, optical fiber presser foot and so on. (2) During cutting, ensure that the cutting end face is 89 ° ± 1 °, approximately vertical. During the process of placing the cut optical fiber at the specified position, the end face of the optical fiber shall not touch any place. If it meets, we need to clean and cut again: it is emphasized to clean first and then cut! (3) When placing the optical fiber in its position, do not be too far or too close, 1 / 2 place, proficiency! (4) Do not open the windproof cover during the whole process of welding. (5) The process of heating the heat shrinkable sleeve is called the reinforcement of the connecting part. During heating, the optical fiber fusion part must be placed in the middle and a certain tension must be added to prevent bubbles and insufficient fixation in the heating process. It is emphasized that the heating process and the optical fiber fusion process can be carried out at the same time. When it is taken out after heating, do not touch the heated part. The temperature is very high, Avoid danger. (6) When arranging the underground pipeline detector tools, pay attention to breaking the optical fiber head to prevent danger. The optical fiber is glass fiber, very thin and hard.
Cable Tester, Cable Tester Company, Cable Cheaper, How to Buy Cables
Cable Tester, Cable Tester Company, Cable Cheaper, How to Buy Cables
Every cable tester has certain tasks to perform, which differ from one company to another. Some companies need a commercial tester while some prefer the one accredited by the government. In general, a cable tester has to be able to test cables for both indoor and outdoor use, among other things.It's essential for the cable tester to find the right tool for their business.They should be able to cover a wide range of cables. They must be able to get a good idea about what kind of cables it is most important that they are looking at. They have to know whether or not it is necessary to measure each cable and how many pieces of wire each cable should have.You probably know that cable testers run cables, right? Well, if you don't your business will not get any value from it and you will waste money on unneeded cables.Cabling is a crucial part of the internet infrastructure. Just as plenty of power cables are required to operate a complex network, so too are there different types of cable testers needed to test cables.Testers should be able to detect the correct type of cable installed in a system and assess its quality. In addition, they should be able to perform more complex tests when faced with problems that arise as a result of faulty cables and circuit breakers being used.The cable tester is a small device that helps in checking the performance of cables. It aids in troubleshooting of network issues and to measure the quality of cable connections.Some businesses prefer to use the cable tester for assessing different types of cables, like Ethernet, WiFi etc. So it is important to find out which one will be good for your business. You can also choose a cable tester that will be useful for you as well as your company.A cable tester is an equipment that tests various cables for their performance. From a cable analyzer perspective, it is the same thing, but the user interface and other features can differ.Cable Testers and Cable Analyzers are used to check the quality of the cable. They help you understand whether a cable is broken, damaged or faulty.A cable tester can test cables and other electrical components for voltage, current and continuity. A cable tester will also perform various tests to detect defects in cables.Cable testers help customers save money by isolating problems before they occur. The testing process reduces costs while allowing the company to quickly communicate a problem with the customer. Cable testers are also useful when inspecting machinery, equipment or metallic items that have been exposed to harsh or corrosive conditions.The most common types of cables testers are:-There are different types of cable testers. The most common is the multimeter. But there are other types of testers as well. This article will show you how to choose the right one for your business.A cable tester that measures the strength of a given brand’s signal.With the aid of cable tester, it is possible to find out a great deal about cables and monitors by simply using an online tool.In the past, it was very difficult to find out what cable tester/listing software is best for you. This section will provide an overview of three widely used software programs.When it comes to evaluating cable networks, there is a lot to be found. There are several cable analyzers on the market, but only a few of them offer everything you need. So our goal is to give you all the information you need.In this section, we will look at some of the best cable testers and analyzers and discuss their pros and cons.If you are a business, you must have thought of how easy or difficult it is to identify the best cable television or satellite TV provider for your company. But that was not always so. The Golden Age of Cable television started in the 50s and a few companies dominated the market. For example, Tivoli would sell hardware like TVs and computer printers and Xerox would sell office machines like typewriters…In the 80s, technology rolled over all this old business models with an amazing speed. After a few years of research, SWITCH developed software that allowed consumers to choose their cable television provider while also being able to search by city using Google Maps. This was by far the best technology available for that time – better than Google Earth, Skype or even Facebook!
Cable Tracker to Find the Right TV Service
Cable Tracker to Find the Right TV Service
The introduction of cable trackerCable tracker is a device used by cable providers to check the status of their lines. It is a simple, non-invasive and quick way to detect faults in cables or cables that are not working at all. It helps technicians to effortlessly identify and repair issues quickly and efficiently.The introduction of cable tracker began when the National Cable Television Association (NCTA) first came up with this idea as it wanted to prevent service interruptions by providing an easier method for cable providers to spot faults in their lines. The NCTA was founded in 1972 as the United States’ first cable television industry trade organization for the American cable television industry.This article discusses how important it is for communications companies like Cable TV companies in order to avoid disruptions and access uninterrupted service.Tips for cable trackerCable trackers are a type of device used to identify the location of underground cables. This device is mostly used for utility and construction companies.This article is going to help you understand how the cable tracker works, how you can use it, and common mistakes to avoid.In this article, we will go over the following:1) How does a cable tracker work? 2) Common mistakes people make when using cable trackers 3) Tips for making your life easier with cable trackersHow to use cable tracker?Cable trackers are used to guide the cable wire through the wall. There are two types of cable trackers: straight and angled. Straight trackers can be used when drilling holes through a plasterboard wall, while angled ones can be used to guide cables through a brick or stone wall.I recommend that you use straight cable trackers if you need to drill holes in your walls, but if you want to use them for other purposes, then I recommend that you use angled ones. This is because they can be more difficult to install in brick or stone walls than straight ones.There are different types of cable tracker on the market and depending on their designs, some of them have more features than others. However, as long as they follow the same principle with their design, then they should workThe specifications of cable trackerCable tracker is a device that is used to align the cables in the house which are going through walls and floors.The cable tracker attaches to a wall, and then the cables go through its slots. The cable tracker can be placed on any surface and as soon as it touches the surface, it starts tracking over it.Most of these trackers have a slot for attaching a charger.These trackers also come with an app which you can use to control them remotely. The app makes it easy for you to see what your cable tracker is doing at all times.The product instructions of cable trackerCable tracker is a small device used for television cable and satellite TV. A cable tracker is a device that can tell you the right distance between your current location and the closest location to the desired channel.The product instructions of cable tracker say that it should be used on flat surfaces. This means that if you are using it on carpet, you should be extra careful when using it.It’s important to read the product instructions of cable tracker before using it so that you don’t get in trouble with your TV provider because of their terms and conditions.The application of cable trackerMany companies in the cable industry are using cable tracker machines to put together bundles. Cable tracking is a process of assembling, bundling and assigning individual price points to the various channels in a package.Cable tracker machines are used by cable operators and suppliers. They help bundle channels together for a specific customer contract. The operator can also use them to track the activity of their customers on their own side of the business to see what they want and what they don't want.
What Are the High Voltage Test Transformers_ Use of High Voltage Test Transformer
What Are the High Voltage Test Transformers_ Use of High Voltage Test Transformer
What is a high voltage test transformerHigh voltage tester refers to a kind of transformer that generates high voltage for high voltage test. High voltage test transformer has the characteristics of high voltage, small capacity, short continuous working time, thick insulation layer and usually one end of high voltage winding is grounded.High voltage test transformer is called test transformer for short. The test transformer is generally a step-up transformer. The test transformer uses the power frequency high voltage induced by the secondary side to test the insulation performance of various electrical products and insulating materials. Test transformer is an indispensable electrical equipment for withstand voltage test in the repair of motor, transformer and electrical products. The test transformer is mainly used for power frequency withstand voltage test of electrical products, partial discharge measurement, thermal stability test of insulating medium, etc; For medium and high frequency electrical equipment, special frequency test transformers can also be used for withstand voltage test and measurement of relevant electrical parameters.The primary and secondary windings of the test transformer have a large voltage ratio. The primary voltage is 0.4kV, 3KV, 6kV and 10kV. The secondary voltage can be made into 100 2000kv or higher, and the capacity can be 3 9000kva. For the field test of power equipment, the light test transformer is generally used; 50kV step-up test transformer is used for withstand voltage test of 6kV, 10kV transformers and other power equipment; For the withstand voltage test of high voltage, ultra-high voltage transformers and other power equipment with voltage level above 35kV, ultra-high voltage test transformers greater than 5 times the primary rated voltage of the tested equipment, such as step-up test transformers of 500kV, 700kv, 800kV and certain capacity level.Characteristics of high voltage test transformer1) High voltage: the primary voltage of the test transformer is 220V or 380V, but the secondary voltage of a single test transformer often reaches thousands to tens of thousands of volts. The test transformer with secondary voltage exceeding 750kV usually adopts multiple cascade structures.2) Small current: the rated current of the test transformer is actually the capacitive current of the tested object, so it is generally less than 1a. However, the secondary current of the test transformer used for cable and large motor test, external insulation pollution test, line corona test and other projects can reach several amps.3) Short working time: due to the short withstand voltage time of the tested product, the test transformer is generally 0.5h or 1H short-time working system except for external insulation pollution test, line corona test and cable test.4) The test transformers are generally single-phase and indoor devices (some are also made into outdoor devices): they are oil immersed self cooling structure, the winding insulation layer is thick, and one end of the high-voltage winding is usually grounded.5) The insulation level of the head and end of the secondary winding of the test transformer is different: the head end is high potential, and the end is directly grounded or grounded through an ammeter.6) High requirements for design and manufacturing process: due to the high working voltage, the insulation structure has a decisive impact on the overall size of the test transformer. Vacuum drying is generally required for the body, and vacuum oil injection is required for above 100kV.Classification of high voltage test transformers1) In terms of structure, there are iron shell type and insulated shell type test transformers.2) In terms of power frequency, there are several frequency level test transformers such as power frequency, frequency doubling, intermediate frequency and high frequency.3) According to the voltage level, it can be divided into low voltage, high voltage and ultra-high voltage test transformers.4) According to the use form, it can be divided into light mobile type and fixed type; There are also single use and two or more cascade use test transformers.The test transformer is generally single-phase and indoor devices, which are oil immersed self cooling structure. Because of its high working voltage, its winding insulation layer is thick, and one end of the high-voltage winding is grounded.The specific structural types of the test transformer generally include single bushing type, double bushing type and insulating cylinder type.Technical requirements for high voltage test transformer①Output voltage waveform. The output voltage waveform of the test transformer shall be close to the sine wave as far as possible. In order to reduce the voltage waveform distortion caused by the harmonic voltage generated by the harmonic component of no-load current passing through the impedance of voltage regulator and transformer, the magnetic flux density should be selected in the straight line section of core magnetization curve; At the same time, voltage regulating equipment with small waveform distortion shall be selected, and filter device can be added if necessary.② Impedance voltage. The secondary current of the test transformer is generally capacitive current. When the secondary current flows through the impedance of the voltage regulator and the test transformer, the output voltage will exceed the value determined by the voltage ratio. Therefore, the impedance voltage of the test transformer should not be too large, otherwise it may affect the accuracy of the test results and reduce the short-circuit capacity of the test equipment. However, if the impedance voltage is too small, the short-circuit current may increase when the test object breaks down or flashover. The impedance voltage of a single test transformer is generally 4.5 10%, and when multiple series transformers are formed, it can reach 30 40%.What are the high voltage test transformers1) DJ oil immersed high voltage test transformerOil immersed test transformer: large volume, heavy weight, large capacity, convenient maintenance and high maintenance cost in the later stage; Mainstream products.The oil immersed type is filled with 25# transformer oil, and the insulation cooling effect is the best2) GTB dry type high voltage test transformerDry type test transformer: maintenance free, light weight, small volume, inverted and high cost.3) Inflatable high voltage test transformerInflatable test transformer: it needs later maintenance, with good arc extinguishing performance, light weight and danger.The oil immersed type is filled with 25# transformer oil, and the insulation cooling effect is the best; Dry type has small volume and lightest weight, but the voltage is difficult to be high; The inflatable type is filled with SF6 gas.Application and operation method of AC / DC high voltage test transformerDuring the step-up or withstand voltage test of AC / DC high-voltage test transformer, if the following unusual conditions are found, the voltage shall be reduced immediately and the power supply shall be cut off. As of the experiment, the reasons have been found out: ①the pointer of the voltmeter swings greatly; ② The insulation of the invention burns or smokes; ③ There is unusual sound in the test object.Utilization and operation methods of AC / DC high voltage experimental transformer:1. Connect the power supply of the control box (console) and turn on the indicator light.2. Press the start button and the operation indicator light is on (otherwise, the voltage regulator is not in the zero position, please rotate the hand wheel of the voltage regulator to the zero position counterclockwise) indicating that the experimental operation can be stopped.3. Move the hand wheel of the voltage regulator clockwise to make the conditioning rate 2KV / s better, and watch the high-voltage meter rise to the required voltage value. For example, in the process of boosting, when the test object breaks down, short circuit and overcurrent occurs, the overcurrent relay acts to automatically cut off the power supply.4. If the experiment requests overcurrent control, adjust the overcurrent relay to the power supply current value required by the experiment in advance before operation, and the current relay will stop overcurrent protection according to the experiment request.5. While monitoring the high-voltage meter, an external 0.5-level voltmeter can be accepted at the instrument end for monitoring.6. Measure the insulation resistance and check the insulation condition before and after the withstand voltage test.
How to Make a Handmade Vfl Fiber Tester
How to Make a Handmade Vfl Fiber Tester
Inspection with a red light source in a fibre optic network requires a number of connection / separation operations. Optical troubleshooting devices illuminate fibers that are defective or damaged connectors, patched cords, defective splices, splice trays that are too narrow, or fibers that are bent into gear trays. The choice between perm output mode for continuous error illumination or flash output mode facilitates fault locating. Visual Troubleshooting Devices (VFL) are an important tool for locating defective or in some cases excessive bending in fiber optic cables. A visual fault locator produces high-intensity red laser light when a fiber optic ends in a factory-polished fiber optic connector. VFLs are optimized for use with singlemode fibers called OS1 and OS2, but can also be used with the multimode fiber families OM1, OM2, OM3, OM4 and OM5. The VFL is also used as a tester to check fiber-to-cable continuity by tracing the fiber-to-fiber for faults such as brakes, faulty splices, sharp vessels, etc. In the fiber-to-fiber cable. A visual error locator, also known as visual error detection, is used to locate errors. And of course the technician must be able to see the cable to locate a fault. It is a cost-effective method to detect defects in the fiber optic, such as sharp curves, broken or faulty connectors, and other defects that transmit red or green light. A visual fault locator (VFL) is a basic fiber optic troubleshooting for fiber connections. It is also known as Visible Laser, Fiber Fault Detection, Fiber Fault Detection, or Visual Fault Detection and is available as a red laser or light design that injects visible light energy into the optical fiber. The optical time domain reflectionometer (OTDR) is used as a fiber optic cable tester to test optical losses. Using a high-intensity laser light that emits predefined pulse intervals and is connected to the cable at one end, the cable is guided through an OTDR to analyze the backscattering of the light and return to the source location. It locates errors in the OTDR (dead zones) and allows the identification of fibers from one end to the other. The One-End Fiber Test is a method used by fiber optic testers to analyze a loss and determine its location for installation, maintenance and troubleshooting. The Hobbes Fiber Checker Pro and Visual Fault Locator (VFL) can be used to inspect and detect fiber optic cable defects. With VisifaultTM and VFL you can diagnose and repair simple fiber connection problems and flukes in the network. Whether it's installing new fibers or troubleshooting an existing network, the Visual Fault Identifier is a useful and convenient kit. You can diagnose fiber-optic connection problems with fiber-optic cables or fiber-optic pigtails using a visual troubleshooting device. Some fiber optic troubleshooting devices are equipped with adapters that are not compatible with your connector type, so use an additional adapter if necessary. VFI and VFL are ideal tools for locating the large number of problems that can occur at connection points and fiber optic cabinets hidden from OTDRs, blind spots and dead zones. Sharp curves, breakages, faulty connectors and other faults such as leaks and lamps allow technicians to quickly detect defects. Colors can be difficult with red laser light, but optical error localizations such as brown, black and green (e.g. The signal transmitted in fiber optic cables is between 1,300 and 1,650 nm wavelength, which is invisible to the naked eye. Lower wavelengths such as 630 nm and 635 nm are bright enough to locate disturbances easily, but cannot travel much higher than 670 nm wavelength. Several manufacturers choose wavelengths below 650 nm for their optical fault spot specification, which can cover a distance of 5-8 km from the center of a singlemode fiber with minimal attenuation. The Noyafa Power meter uses absolute and relative power measurements at 50 and 26dBm at 850, 980, 1300, 1310, 1490, 1550, 1625 and 1650nm wavelengths. The Fiber Checker Pro is a pen-like design case that makes it a portable and practical tool for checking fiber optic cables. Rhodium Plated 925 Silver 1 Nut Pendant 2.4 Necklace Leader Metal Impeller Integration for Superior Durability. The vinyl we use is designed for outdoor vinyl for 10 years, 3 AA batteries are required (not included). Easy to assign and show a new look, contact us for return / exchange permission within three days of delivery date and mark me on your photo with sugar. Filled non-commercial plaster on glass tube, topped with a layer of natural sand and hooded raincoat to facilitate any outdoor activity. The same attention to cleanliness applies to reference cables and test equipment connections. When using a VFL as an optical fault location fiber tester, fault location and eye safety are important. The VFL uses a high intensity laser light source and its fiber core is illuminated so that it can be viewed with the naked eye.
Wiring Methods of Cable Identification Instrument: Direct Method and Coupling Method
Wiring Methods of Cable Identification Instrument: Direct Method and Coupling Method
The wiring method of the instructions for use of the cable identifier is direct method and coupling method: the wiring method of the cable identifier is divided into two types: direct connection method and coupling method. The direct connection method is only applicable to the identification of uncharged cables, and the coupling method can accurately identify both live and uncharged cables. A) Direct connection method: the ground wire of the cable to be identified is disconnected, the signal current output line (red) is connected to any good phase, and the other end of the connected phase is grounded. The signal current return line (black) is grounded. Identification method: first judge the phase, subject to the initial swing of the meter pointer, and let the current flow along the direction indicated by the receiving clamp according to the direction shown in the figure. If it is a cable to be identified, the initial swing direction of the meter pointer should be to the right. In the process of phase judgment, if multiple cables are in the same phase, the amplitude can be compared. Adjust the sensitivity knob to the appropriate position to compare the amplitude. The cable with large amplitude is the cable to be identified. B) Coupling method: connect both ends of the cable to be identified with the earth (through core wire, shield or armor) to form a closed loop. When the direction of the output coupling clamp is consistent with that of the receiving coupling clamp, the cable with the positive deviation of the pointer direction of the meter is the cable to be identified. Identification method: under the condition that the output coupling clamp and the receiving coupling clamp are in the same direction, first judge the phase, subject to the initial swing of the meter pointer, and let the current flow along the direction indicated by the receiving clamp according to the direction shown in the figure. If it is a cable to be identified, the initial swing direction of the meter pointer should be to the right. During the phase judgment process of the cable identification instrument, if multiple cables are in the same phase, the amplitude can be compared. Adjust the sensitivity knob to the appropriate position to compare the amplitude. The cable to be identified has a large amplitude.
Problems Needing Attention in Field Repair of Wires and Cables
Problems Needing Attention in Field Repair of Wires and Cables
In the process of cable laying on site, the phenomenon of scratch and damage on the surface of cable sheath is common, and only the sheath is damaged slightly. How to repair can ensure the quality, short repair time and ensure the quality has increasingly become a common concern of cable consumers. Moreover, the investment is small and easy to realize under the bad conditions on site. Therefore, the repair technology and quality of on-site sheath have increasingly become the concern of users. The on-site construction conditions of cables are generally poor, which may be located in the power plant under preliminary construction, the newly-built field railway under preliminary construction, on the bridge or in the cable tunnel. Because the repair of field cable sheath is carried out with plastic welding gun, and the heating of plastic welding gun requires 220V AC, it is in the emerging field project, Generally, there is a lack of power supply on site, or there may be power supply. Due to the randomness of the laying position of on-site cables, it is difficult to provide power supply. Therefore, to repair the cable sheath, on the one hand, the personnel are in place, on the other hand, the power supply is mainly provided. Only the above two basic preparations can be made, In order to realize the normal development and progress of cable sheath repair. In order to facilitate the smooth repair of cable sheath field, the construction unit shall be equipped with field small generators. At the same time, it is convenient for on-site repair. The quality of the plastic welding gun provided now should be excellent. The heating area of the nozzle should be large and the heating speed should be fast. Moreover, the damaged parts in the cable setting out process are random. This work is easy to carry out in general cities and plain areas, but in some mountainous areas, due to the influence of complex terrain, the cable repair work is actually very difficult. Therefore, in order to reduce the investment in corresponding aspects and quickly solve the problem, a key problem is that the number of personnel in the cable laying process must be sufficient, and formal cable laying equipment shall be used for formal setting out, so as to avoid and reduce the damage of sheath in the cable setting out process. The technology required for on-site cable repair is not very high. After the cable is damaged, the cable laying construction unit must repair the cable on the premise of confirming that there is no damage inside the cable, otherwise the cable sheath repair has little practical significance. The cable must be repaired in time, otherwise the entry of external moisture and moisture will affect the service life of the cable. In Meiyu weather in the south, after the cable end is laid, the cable end is not sealed in time, resulting in the water flowing into the cable trench entering the cable end for 10-20 meters. After stripping the insulation of the end, it is found that all the conductors have been blackened, resulting in the waste of the cable after laying. Therefore, the inspection of the cable after laying should be strengthened, Maintenance and storage shall be carried out to prevent the shortening and termination of cable life caused by various external factors on site before power on. Some tools and materials used for on-site repair of cables must be fully prepared. Plastic welding gun is necessary. High voltage insulating tape, waterproof tape, peeled leather of plastic insulation and sheath, and other sealing materials must also be prepared, because cable insulation and sheath materials are mainly divided into cross-linked polyethylene, polyethylene, polyvinyl chloride and other materials. Some materials are thermosetting materials, such as cross-linked polyethylene insulation, which cannot be melted and reused again. They can only be repaired with high-voltage insulating tape and repair tape series provided by 3M company in the United States. Some materials belong to thermoplastic materials, which can be melted and used again at high temperature, such as polyethylene, polyvinyl chloride and other materials. Some materials can be taken on site, and the corner sheath material stripped from the cable end can be cut into thin strips to repair the insulation and sheath of low-voltage cables, The repair quality can fully meet the requirements of the normal service performance of the cable. In addition, the treatment of sheath damage of medium voltage cable during on-site laying should not be too rough. One is that the cable must be handled with care during the laying process. In addition, after the external damage of the cable, the damage of its internal insulation is sometimes hard to say, The author once conducted a return test on the cables with multiple damaged outer sheath caused by careless construction in the field laying process, and found that partial discharge exceeded the standard and breakdown occurred in the damaged parts of the cables. Therefore, for medium voltage power cables with damaged outer sheath in the field laying process, it is best to cut off the intermediate joint or replace the cable again, Because there may be hidden dangers after repairing the damaged part of the cable. Facts have proved that the repair of insulation and sheath of low-voltage cables must be slightly damaged. The repair of insulation and sheath can only be carried out on the premise that the insulation and sheath are damaged and other structures of cables are intact. The requirements of medium and high-voltage cables may be more stringent. In order to reduce the number of intermediate joints of cables in cable transmission of some projects now, All cables are long-length single core cables. Due to the long laying distance of the line, responsible terrain, the number of construction personnel and the lack of professional cable laying equipment, the probability of cable sheath damage during the construction process is greatly increased. After the above problems occur in some construction, it is irresponsible to wrap a bag of ordinary tape casually. There is no knowledge of the internal damage of the cable damage point. Insulation breakdown or potential quality hazards are likely to occur during the on-site completion test and later operation of the cable.
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