NOYAFA's Rj11 Rj45 Tester

NOYAFA's Rj11 Rj45 Tester

2021-11-03
NOYAFA
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rj11 rj45 tester is one core product at SHENZHEN NOYAFA ELECTRONIC CO.,LIMITED. Carefully researched and developed by our technicians, it has several superior characteristics that fully meet the needs of customers in the market. It is characterized by stable performance and durable quality. Besides that, it is elaborately designed by professional designers. Its unique appearance is one of the most recognizable characteristics, making it stand out in the industry.SHENZHEN NOYAFA ELECTRONIC CO.,LIMITED never hesitates to promote rj11 rj45 tester to global market in the post-industrial era. The product is manufactured adhering to 'Quality always comes first', so a professional team is allocated to ensure material quality and promote the R&D process. After repeated trials and tests are conducted, the product successfully has its performance improved.To achieve the promise of on-time delivery that we made on Best Cable Tester Supplier in China _ Noyafa, we have seized every opportunity to improve our delivery efficiency. We focus on cultivating our logistics staff with a solid foundation of theories except for their being engaged in logistics transportation practice. We also choose the freight forwarding agent meticulously, to guarantee the cargo delivery to be delivered fast and safely.
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Operating Steps of Live Cable Identifier
Operating Steps of Live Cable Identifier
1. Connect the transmitting source: the live cable identifier inserts 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 clamps the transmitting caliper a on the identified cable. The arrow on the transmitting caliper a points to the cable terminal. Both ends of the identified cable shall be reliably grounded. For cables that do not operate, the core wires at both ends can also be grounded. 2. Turn on the power switches of the transmitting source and receiver to check the direction: 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 this time, the pointer of the receiver ammeter must deflect to the right, and there is an audible and visual prompt at the same time. If the arrow of the receiving caliper B points to the transmitting source end, there will be no audible and visual prompt, and the pointer of the current meter will deflect to the left. Remember the deflection direction of the receiving caliper gauge. 3. Identification: at the identification point, use the receiving caliper B to identify each cable. 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 be deflected to the right, and the audible and visual alarm prompt shall be given at the same time. On other cables, the pointer of the receiver current meter must deflect to the left without audible and visual alarm. The pointer of the current meter of the receiver deflects to the right, and the audible and visual alarm prompt is the cable to be searched and identified. This test result is unique. That is, no matter how many cables there are in the cable trench, when each cable is identified with the receiving caliper B, only the receiver current meter pointer on one cable (the cable to be found and identified) deflects to the right and gives an audible and visual alarm. 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 underground cable fault tester, cable fault tester, cable fault tester, 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!
Fault Location of Power Cable and Fault Location of High Resistance Cable
Fault Location of Power Cable and Fault Location of High Resistance Cable
Power cable fault and high resistance cable fault are common problems of cable fault, and also belong to medium and high frequency problems of cable fault. Below, the author analyzes and writes the methods of cable fault location of these two cables, hoping to have a certain reference for everyone in case of cable fault. Fault location method of power cable: Aiming at the problem that it is more difficult to determine the fault location of buried power cable than overhead line, this paper selects a representative example of fault location process of 10 kV cable in case of high resistance fault, and introduces the method of locating and locating the fault point by using secondary pulse method according to the fault nature. For the high resistance fault during cable operation, first consult the relevant data of the cable and master the detailed information of the cable; Use multimeter and insulation resistance meter to judge the cable fault type, and determine the corresponding test method according to the fault type; Use the fault tester to test the length of the cable, check whether the test results are consistent with the data, and preliminarily determine the distance of the fault point; Finally, the secondary pulse method is used to accurately locate the fault point, find out the fault point, peel off the cable and find out the cause of the cable fault, so as to take corresponding preventive measures. This method is easy to master, especially for short-distance faults, the test waveform is easier to analyze, and the fault distance can be determined quickly, which makes the cable test more efficient and the fixed-point positioning time shorter. Power cable faults are complex and diverse, which can be divided into open faults and closed faults according to fault surface phenomena; According to the grounding phenomenon, it is divided into grounding fault, phase to phase fault and mixed fault; According to the fault location, it is divided into joint fault and cable body fault; According to the nature of resistance, it is divided into broken line fault, mixed line fault and mixed fault. Among them, mixed line fault is divided into low resistance fault, high resistance fault and flashover fault. 1. Fault detection methods for different cable faults, the common detection methods include low voltage pulse method, pulse current method, secondary pulse method, bridge method, pulse voltage method, etc. [3]. This paper only introduces the three commonly used detection methods. 2. Low voltage pulse method low voltage pulse method is suitable for detecting low resistance fault (short circuit fault with fault resistance less than 200 & omega;) and open circuit fault. It can also be used to measure the length of cable and the propagation speed of electromagnetic wave in cable, and distinguish the middle head, T-joint and terminal head of cable. 3. Pulse current method pulse current method generally includes impulse flash method and direct flash method. The linear current coupler is used to collect the current traveling wave signal in the cable and generate the fault test waveform, so as to judge the fault condition and measure the distance between fault points through the waveform. The direct flash method is used to detect flashover breakdown faults, that is, the resistance at the fault point is very high, and flashover breakdown faults will occur when the voltage is raised to a certain value with high-voltage test equipment. The impulse flashover method is also suitable for testing most flashover faults. Because the waveform of the direct flashover method is relatively simple and it is easy to obtain more accurate results, the direct flashover method should be used as much as possible. 4. Secondary pulse method with the cooperation of high voltage signal generator and secondary pulse signal coupler, the secondary pulse method can be used to measure the fault distance of high resistance and flashover faults. The waveform measured by this method is simpler and easy to identify.
How to Accurately Judge and Find Cable Fault
How to Accurately Judge and Find Cable Fault
Cable is an important part of signal equipment, but in the process of use, it is difficult for ordinary users to find the fault point, and they do not know what the reason is. Therefore, it is particularly important to quickly find the cable fault and judge the fault point. Wd-a10 cable fault tester is a set of comprehensive cable fault detector, which can test cable short circuit, cable disconnection, poor contact and other faults. By summarizing the previous experience, the factors affecting the test accuracy of cable fault tester are analyzed as follows. Since the accuracy of adjusting wave velocity is closely related to the accuracy of test, adjusting wave velocity has become the key to solve the problem. At least two conditions are required to accurately adjust the wave velocity: â‘ the length of the measured cable; â‘¡ There is a good core wire of the tested cable, which is not grounded. Adjust the measurement range without grounding. Connect a good core wire of the tested cable with a known length to the output port of the power cable fault tester and connect it with the red clip wire, the black clip wire and the ground, or another good core wire of the cable. Change the measurement range to match the actual length of the cable. If the actual length of the cable is less than 161.4m, the measurement range shall be adjusted to 161.4m; If the actual length of the cable is greater than 161.4 m and less than 322.8 m, adjust the measurement range to 322.8 m, and so on. The preset wave velocity is 200 220m / μ Set a wave velocity randomly between S and measure it as the wave velocity of the initial test. It is assumed that the wave velocity measured initially is 200 220 M / & mu; S is because the signal cables usually used are in this range. This step is very important. If this step is not set, the initial measured cable length is very different from the actual cable length, and it is difficult to adjust in the next step. After adjusting the wave velocity and measuring the distance of the fault point, compare it with the actual cable length. If the distance between the fault point displayed on the top of the screen is the same as the actual cable length, the original set wave speed, that is, the wave speed displayed on the screen is the actual wave speed of the cable. When testing any point fault of the cable, this wave speed can be used as the benchmark for testing; If the distance of the fault point displayed on the top of the screen is different from the actual cable length, you can simply adjust the wave speed with the cursor still, which can be large or small, so that the fault distance above the screen is the same as the actual length of the cable, then the adjusted wave speed is the actual wave speed of the cable. When testing the cable fault, you can use this wave speed as the benchmark.
Why Mainstream Language Is so Opposed to Built on a Small Core of Orthogonal Features?
Why Mainstream Language Is so Opposed to Built on a Small Core of Orthogonal Features?
On website there are programming languages, statements about them and voting that associates languages with statements. In particular, there are statements: "This language is built on a small core of orthogonal features" "This is a mainstream language" Why they are so opposed to each other? Is being incoherent, history-encumbrant, ridden with extra special cases a must for being popular, "mainstream" programming language? Maybe is it similar reason as why beautiful and coherent artificial natural languages (like Esperanto) are not that popular? There are three reasons why you learn a natural language:As it happens, the languages you'd learn under point 3 are ususually not spoken in public or at home, and are not taught in school in place of French or Spanish. Therefore, they are all very niche.Oh wow, so A and B seem to have some correlation. Does A cause B? Or the other way round? Or are there other factors that I didn't consider?Your question seems to ask if a programming language can only become mainstream if it is not orthogonal. This is misleading. Languages change over time. Their standard library gets reworked. New syntax is added. Object orientation is made available. Lambda expressions start looking useful. But closures and objects can be implemented in terms of each other, so why would I need both? Why would I want generics or other type system additions? I clearly do not need themA language that does not evolve is probably dead.For some languages, practicality is of utmost importance. It doesn't matter if there are five or more screwdrivers in my toolbox, because not all screws are equal. An experienced user will pick the right one for the situation.Other languages strive to be more minimal and/or elegant. This can be useful for didactic purposes, or in research settings. Small languages are easier to port. They are often useful, but not always when you have to ship your application yesterday.A language that tries to be relevant tomorrow has to keep evolving, and include new concepts. For example, the C standard is slowly but constantly being reworked. Each release of Java is a step forward. C# is often ahead of the pack as far as mainstream languages go. A language like SML or Smalltalk has no serious ambitions to go mainstream.A language that already is widely used has to stay backwards compatible, or it will loose market share. Features that were there yesterday have to stay available even if a better alternative was introduced. In Java, type parameters are erased during compilation for back-compat. In PHP, the main namespace is riddled with dangerous and deprecated functions that can't be removed without breaking a good part of the internet. I would suggest that successful languages tend to become less orthogonal over time, not only that less orthogonal languages tend to become mainstream more easily. However, there is no clear causation because there are more factors to consider.If I look through the list of languages you linked to we see as orthogonal languages: Scheme and Lua had minimalism as a design goal, academic languages like Coq, Haskell, SML are less useful for day-to-day programming or difficult to learn, and some languages like Forth and APL are barely used any longer. The less orthogonal languages are all quite mainstream, or have a long history. Fortran and COBOL are ancient, but still have a strong niche. Languages like PHP and Shell grew beyond what they where intended to do. Some languages are explicitly pluralistic, e.g. Perl and its descendant Ruby. The C# language is in direct competition to Java and tries to score with better features. Some languages have a religious commitment to backcompat, e. g. C or Perl. OTHER ANSWER: Because reducing the feature set of a language requires a compromise. Taking a feature out of the language means either:the language no longer has that feature, so people who need/value that feature will not want to use that language (aside: this is the reason I've never tried golang. while I like some of their ideas I find exceptions too useful to abandon), orthe feature must be implemented as a library within the language. But it is hard to design a language such that a wide variety of useful features can be implemented without compromising on syntax, and syntax is critical in gaining market share (if it wasn't, we'd all be using LISP by now).LISP is a good case study: it is built on an extremely small set of basic primitives, and those primitives can be combined and recombined in very useful ways, such that just about any language feature you can think of can be (and probably has been) implemented in LISP somewhere. Unfortunately, in order to become flexible enough to achieve this, LISP has compromised on almost all syntactic niceities, leaving a language that (to put it bluntly) only hardcore hackers can stand using. I'm not suggesting that this is the only way to make a small core language do useful and interesting things, but certainly it is harder to do it without making such compromises. And given that language success is a hit-and-miss kind of thing, ruled by primarily by what developers are trying to do that their existing languages don't do nicely and a new language might do better, the size of the core doesn't really figure much in whether a language becomes popular. And because making a nice language with a small core is more difficult than sacrificing either of those features, fewer such languages are made, which makes it substantially less likely (due to the law of averages) that they will gain traction.
Power Cable Fault Location Method
Power Cable Fault Location Method
Fault location method of power cable: Aiming at the problem that it is more difficult to determine the fault location of buried power cable than overhead line, this paper selects a representative example of fault location process of 10 kV cable in case of high resistance fault, and introduces the method of locating and locating the fault point by using secondary pulse method according to the fault nature. For the high resistance fault during cable operation, first consult the relevant data of the cable and master the detailed information of the cable; Use multimeter and insulation resistance meter to judge the cable fault type, and determine the corresponding test method according to the fault type; Use the fault tester to test the length of the cable, check whether the test results are consistent with the data, and preliminarily determine the distance of the fault point; Finally, the secondary pulse method is used to accurately locate the fault point, find out the fault point, peel off the cable and find out the cause of the cable fault, so as to take corresponding preventive measures. This method is easy to master, especially for short-distance faults, the test waveform is easier to analyze, and the fault distance can be determined quickly, which makes the cable test more efficient and the fixed-point positioning time shorter. Power cable faults are complex and diverse, which can be divided into open faults and closed faults according to fault surface phenomena; According to the grounding phenomenon, it is divided into grounding fault, phase to phase fault and mixed fault; According to the fault location, it is divided into joint fault and cable body fault; According to the nature of resistance, it is divided into broken line fault, mixed line fault and mixed fault. Among them, mixed line fault is divided into low resistance fault, high resistance fault and flashover fault. 1. Fault detection methods for different cable faults, the common detection methods include low voltage pulse method, pulse current method, secondary pulse method, bridge method, pulse voltage method, etc. [3]. This paper only introduces the three commonly used detection methods. 2. Low voltage pulse method low voltage pulse method is suitable for detecting low resistance fault (short circuit fault with fault resistance less than 200 & omega;) and open circuit fault. It can also be used to measure the length of cable and the propagation speed of electromagnetic wave in cable, and distinguish the middle head, T-joint and terminal head of cable. 3. Pulse current method pulse current method generally includes impulse flash method and direct flash method. The linear current coupler is used to collect the current traveling wave signal in the cable and generate the fault test waveform, so as to judge the fault condition and measure the distance between fault points through the waveform. The direct flash method is used to detect flashover breakdown faults, that is, the resistance at the fault point is very high, and flashover breakdown faults will occur when the voltage is raised to a certain value with high-voltage test equipment. The impulse flashover method is also suitable for testing most flashover faults. Because the waveform of the direct flashover method is relatively simple and it is easy to obtain more accurate results, the direct flashover method should be used as much as possible. 4. Secondary pulse method with the cooperation of high voltage signal generator and secondary pulse signal coupler, the secondary pulse method can be used to measure the fault distance of high resistance and flashover faults. The waveform measured by this method is simpler and easy to identify.
What Companies Are Developing Fiber Optic Testing Procedure Independently in China?
What Companies Are Developing Fiber Optic Testing Procedure Independently in China?
Mainly there are 3 types of production standards - industry, national and international standards. Some fiber optic testing procedure manufacturers may even establish their unique production management systems to guarantee the product quality. The industry standards are made by industry associations, national standards by administrations and international standards by certain authorities. It is a common sense that international standards such as CE certification, are necessities if the manufacturer intends to do export business.SHENZHEN NOYAFA ELECTRONIC CO.,LIMITED is a strong fiber optic testing procedure company. To save the energy, NOYAFA puts the eco-friendly materials into use during the production. SHENZHEN NOYAFA ELECTRONIC CO.,LIMITED has strong manufacturing strength to meet the global market demand of fiber optic testing procedure.Our mission is to provide a friendly professional service which exceeds our customer’s expectations, and to build long lasting and satisfying working relationships. Welcome to visit our factory!· Related Questions:1. What standards are followed during fiber optic testing procedure production?Mainly there are 3 kinds of production standards - national and international standards, industry. Some fiber optic testing procedure manufacturers can even establish their particular production management systems to ensure that the product quality. The industry standards are created by industry associations, nationwide standards by administrations and international standards by certain authorities. It is a frequent sense that international standards such as CE certification, are essentials if the manufacturer intends to perform export business.
What Are the Functions of the Cable Identifier
What Are the Functions of the Cable Identifier
1. Left and right direction indication: the left and right arrows show the cable position, which is convenient and intuitive. 2. Tracking error prompt: the innovative patented technology of AC signal direction measurement is used to eliminate the ground wire return and induced current interference of adjacent and cross pipelines. When correctly tracking the cable to be tested, the pointer points to the front; When tracking to the adjacent cable, the pointer will be backward and a question mark will be displayed to prompt the tracking error. 3. High anti-interference: the unique digital processing method can completely suppress the power frequency and harmonic interference of adjacent operating cables. 4. Sound prompt: when it is very close to the top of the cable, there is a sound prompt. 5. Single key measurement of pipeline depth and current intensity: it can directly read the depth value and the current carried by the cable. 6. Multiple detection methods: in addition to the traditional sound peak method and sound Valley method, innovative and accurate methods are especially provided. The sensing range of the traditional sound peak method is too large, which is not conducive to accurate detection. Although the sound Valley method is accurate, it can not distinguish the parallel cable. The accurate method has a very narrow response range, is very accurate, and can distinguish the parallel cable. It is a better way to find the path in the complex area of the pipeline. 7. Two active detection frequencies: 1kHz, suitable for basic off-line detection; 15KHz is suitable for special situations. 8. Passive detection: it can directly detect the running cable without connecting the signal generator, and can also be used to detect other pipelines. 9. Historical curve display: the screen displays the historical curve of signal amplitude to visually judge the signal change. 10. Uniqueness identification: the detection caliper is used to identify the uniqueness of the cable. Through the combined signal sent by the detection generator, the amplitude and direction of the current on the cable can be accurately measured, and the identification results can be clearly given. 11. Built in battery for easy replacement: built in Ni MH battery provides reliable charging mode. Rechargeable batteries and dry batteries can be used interchangeably and can be replaced easily. Even if the battery fails, it can be easily replaced without repair, and it is conducive to emergency use without timely charging. 12. Low power consumption and long battery life: the instrument can work continuously for more than 30 hours by using a fully charged Ni MH battery or a new alkaline battery. 13. Automatic shutdown function: when the instrument does not operate within 30 minutes, it will automatically shut down to reduce battery consumption; When the battery is under voltage, the instrument will also shut down automatically to protect the battery. 14. The casing is durable, light and easy to carry.
How to Find and Analyze the Fault Point of Buried Cable Fault Tester
How to Find and Analyze the Fault Point of Buried Cable Fault Tester
On site, the cable to be tested is high-voltage cable, and all three phases are short circuited. Usage when using the cable fault, first separate both ends of the cable from the system, and then connect the red and black clips of the instrument host to ab respectively. The measured short circuit distance between the two phases is 312m, and the total length of the cable is 639m. The same results are obtained when connecting to any other two phases. We determine that all three phases are short circuited. If the user knows the direct buried path of the cable, we can find it within 312 meters, and then use the transmitter red clip in the Pathfinder to connect phase A and the black clip to ground, and use the low-frequency high-grade loop resistance of 580 Ω. Because the cable is buried deeply before and after 312 meters, the depth measured by the 80% method is 3 meters, the gain 66db signal is about 675, and the signal is very stable without obvious attenuation. After the cable path is clear, boost and discharge phase a with high voltage, increase the voltage to 8Kv, fully discharge, start at a fixed point from 180m, and finally find the fault point. After communicating with the customer, excavate the fault point with an excavator for more than an hour. Host function of buried cable fault tester 1. It can measure high and low resistance faults of all cables below 35KV, with wide adaptability; 2. With user-friendly software and full Chinese menu, the key definition is simple and clear, and the measurement method is simple and fast; 3. Excellent fault detection success rate, test accuracy and test convenience; 4. 8-inch color LCD touch screen as the display terminal, the instrument has strong data processing ability and friendly display interface; 5. Sampling high voltage protection measures are provided. The test instrument will not crash and damage in the impact high-pressure environment; 6. The built-in power supply can test the open circuit and low resistance short circuit faults of the cable in the environment without power supply.
Main Features of Cable Fault Tester
Main Features of Cable Fault Tester
Cable fault tester is a comprehensive cable fault detection instrument. It can test the cable flashover fault, low resistance grounding, short circuit, cable disconnection, poor contact and other faults. If equipped with an acoustic point detector, it can 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. The cable fault tester has the following remarkable characteristics: 1. It has complete functions and can test faults safely, quickly and accurately. The instrument adopts low-voltage pulse method and voltage flashover method for detection, which can test various faults of cables, and directly test the flashover and resistance faults of power cables without burning through. If equipped with a sound point meter, the position of the fault point can be measured accurately. 2. Test accuracy. The instrument adopts fast data sampling technology with a reading resolution of 1m. Degree of intelligence. The test results are automatically displayed on the large screen LCD with small and data, and the fault judgment is intuitive. It is also equipped with menu display operation function, without special training for operators. 3. It has the functions of wave opening, parameter storage and call out. Nonvolatile devices are adopted, and the waveform and data are not volatile after shutdown. 4. With dual trace display function. The test waveform of the faulty cable can be compared with the normal waveform, which is conducive to further judgment of the fault. 5. With waveform scaling function. By changing the waveform proportion, the waveform can be expanded for testing. 6. Control the measurement cursor to automatically search along the line and stop automatically at the inflection point of the fault waveform. 7. The position of the double cursor can be changed arbitrarily to directly display the direct distance or relative distance between the fault point and the test point. 8. With printing function. Print and archive the test results.
Trusted Cable Tracker
Trusted Cable Tracker
The introduction of cable trackerCable tracker is a product that is designed to keep track of which channels people are watching. It is a device that can be plugged into the cable television system and tells the user which channel they are currently tuned.Cable tracker was first introduced in the early 2010's and has been through an evolution since then. These days, it has become one of the most important devices in households across America and Canada.Tips for cable trackerTracking what networks are playing your favorite shows will never be the same. The cable tracker is a device that enables you to watch all your favorite TV shows at one place.Cable trackers are relatively easy to set up, as they connect over the internet and require no installation or contract. The best thing about them is that they enable you to watch not only your favorite channels but also catch up on the ones you missed out on.How to use cable tracker?Cable tracker is used to move a cable without the need of cutting the cable with a saw. Cable tracker is mainly used by electricians for their work, but it can be used by anyone who needs to move wires and cables in tight spaces.Cable trackers are also known as worm clamps or cable clamps, and they are primarily made out of metal. It is important to remember that these devices should be used only when you are sure that any materials that you'll insert inside the device won't corrode because they could cause an electrical short circuit.This guide will show you how to use cable tracker based on various aspects of its operation: recording process, usage instructions, maintenance, and troubleshooting.1) Recording process: When inserting theThe specifications of cable trackerCable tracker is a cable installation tool that contains a variety of features that are needed to install wires and cables.Cable tracker is a versatile product than can be used by both electricians and contractors to install wires and cables. This tool has many features that make it easy for them to do their job.The main function of the cable tracker is to create a straight, level, and clean surface on which the cables can be laid without any complications. This process helps prevent unnecessary damages to the surface area or damage caused by sharp edges on the wire bundle. Apart from being safe for workers, cable tracker also allows easy access for other important equipment required during the installation process such as ratchet straps, screwdrivers, levels, etc.The product instructions of cable trackerCable tracker is a small device that cuts and secures cable. It is useful for those who need help getting rid of old cables.The product instructions are easy to read and understand. This makes it convenient for use, as the user can quickly learn how to use the product without any difficulty.The instructions are not very long, which makes it less time-consuming for the user to read through them before starting their project.The application of cable trackerCable tracker is a device which helps in finding the right cable for your home or office. This is especially helpful when you’re having trouble with the cable provider and you need to find out what the issue could be.The application of cable tracker has increased in recent years due to the development of technology. With more and more people relying on their smartphones for entertainment purposes, they are also relying on their phones for information like weather forecasts, traffic updates, etc.Cable tracker has helped home owners and business owners save money by avoiding wasteful spending on unnecessary cables while ensuring that they get exactly what they need.
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