If you have a Fiber Optic Wall Socket, the best way to keep it safe is to protect it from accidental damage. There are several precautions you should take when working with fiber optics, including keeping them watertight and protected from electrostatic discharge. If you break a cable, it can result in a serious injury.
Safety precautions for working with fiber optics
Before working with fiber optic wall sockets, you should take several safety precautions. These include wearing protective eyeglasses and gloves. Also, it is essential to keep a safe distance from the cable. This way, you can prevent accidental eye injuries. When working with fiber optics, you should never look directly into the cable or the ends.
Besides wearing protective eyewear, fiber workers should avoid sharp tools. They should also wear gloves and safety goggles. Moreover, they should avoid handling bare glass fiber, since this can cause splinters. If you must cut the fiber, you can use a cable knife.
Using safety glasses with side shields is a must, especially for those who work with fiber optics. While fiber optics are non-conductive, some hardware used in fiber optics is. Therefore, workers should wear eyeglasses with side shields and avoid touching the cables and their eyes. It is also important to thoroughly wash your hands before working with fiber optics.
In case of damage to a fiber, always ensure that it is disposed of properly. Do not throw any unused fiber or debris on the floor, as this could cause a hazard for other workers. Clean up all debris and chemicals properly after completing the job. This will ensure the safety of the workers and the environment.
When working with fiber optics, be sure to follow all guidelines and instructions that come with the cables. For example, if you are working with an aerial cable, never pull it from the side! You may damage it by applying too much force or twisting it. It is also essential to use special cable clamps with large surface areas. Apply gentle pressure when installing these.
Fiber optics are a delicate material. Take care to avoid cutting or cracking the fibers. Be careful not to pull them too tightly, as this will cause attenuation, which will increase the chances of breakage. Check the connections before and after every operation to ensure everything is okay. You should also check the connections before and after splicing them.
Identifying fiber optic cables
When installing fiber optic cables, you’ll want to be careful about handling them. The cables are weakened, unlike copper cables, and can easily break, so proper care is essential. To avoid damage, make sure to follow the following installation guidelines. Avoid twisting or loading cables too tightly. Always use plastic cable clamps with a large surface area. Apply a gentle, even pressure to ensure a tight connection. It’s also wise to do a continuity check before and after installation.
First, make sure the fiber is long enough. Some cables have many fibers, and the color-coding can make it difficult to know which one to look for. If this is the case, use a fiber tracer to identify the next fiber. Some tracers also serve as continuity testers.
Another precaution is to wear safety glasses when working with fiber optic cables. This helps avoid damage caused by bare glass fiber. Using a safety eyepiece with an IR filter is also a good idea. Another way to keep fiber optic cables safe is to use service loops. These are tools that let you pull excess cable into problem locations. This will save you the expense of replacing an entire run of fiber optic cable.
Another option for identifying fiber optic cables is to use a visual fault locator. This tool uses a bright red laser coupled into the fiber to show the light that is coming out of the ferrule or fiber. This tool is also a good way to identify bad connectors.
If you don’t have a fiber optical tracer, you can purchase a live fiber detector. This device does not require any setup and will detect fiber activity. It can also tell if the cable is polarized or not. In addition, a VisiFault can inject visible light into the fiber to detect severe bends and poor connections. There are also power meters that measure insertion loss and power levels at the end of the fiber. One of these devices is the FiberLert Live Fiber Detector.
Protecting fiber optic cables from fire is very important. Metal conduits can conduct electrical current, which can injure workers. A nonmetallic conduit can protect your fiber optic cable, but they do not provide adequate protection from electric shock.
Protecting them from electrostatic discharge
Electrostatic discharge (ESD) is a potentially dangerous phenomenon. Electrostatic charges are created when an object comes into contact with a charged surface. This can damage electronic equipment. Fortunately, there are several ways to protect fiber optic wall sockets from ESD. First, ensure that the environment is electrically safe.
The main reason to protect fiber optic wall sockets is the same reason you should protect sensitive electronic equipment. Electrostatic discharge can damage electronic equipment due to a sudden transfer of charge between two objects. ESD can damage electronic equipment even at low-frequency levels and can result in data loss or physical damage.
Secondary lightning strikes are particularly dangerous as they can energize wiring and devices. Secondary lightning strikes are most commonly caused by power lines and metal building shells. These secondary lightning strikes follow a convoluted path to the ground. They can also destroy devices such as ControlByWeb devices and Ethernet networks between buildings.