Industrial surge protectors are devices that help protect electrical equipment from power surges or transient voltage. Surge power or transient voltage is an unexpected rise in voltage. Mains voltage varies across countries, but the UK and US have standard voltages of 230 and 120 volts. When voltage rises beyond this threshold, problems can occur. Industrial surge protection prevents these problems. Here’s how to choose an industrial surge protector.
Industrial surge protection is increasing as the use of electronic equipment grows. New technologies in electric vehicles and the growing demand for surge safety products are stimulating the growth of this market. To meet these demands, manufacturers are developing more advanced products. Recently, Littelfuse introduced two new series of AEC-Q101-qualified TVS diode arrays. As this technology evolves, more industries will require industrial surge protection devices. But how do they protect electronics?
The best industrial surge protectors will be rated according to their voltage levels. When the voltage is higher than the rated value, the surge protective device will activate and divert the current to the earth. Some surge protectors also absorb the energy spike as heat. The energy they absorb depends on the design of the connected devices. Some electronic parts, like motors, may be sensitive and will be impacted. This could result in reduced life.
Besides UL1449 certification, these protectors should comply with a number of other standards. Some industrial surge protectors are UL certified, while others are not. While these standards help you in choosing the right one for your needs, they do not guarantee proper protection against lightning. In fact, they are based on standardized tests, which may not be relevant to real-world conditions. In some cases, a specific engineering analysis is necessary to determine if your industrial surge protectors are suitable.
A good surge protector will protect sensitive electronics from damage due to line noise, which is a type of electromagnetic interference. This is created when two electrical devices are on the same line. A fluorescent light, laser printer, or other appliance could all generate line noise. Some users even detect it as video snow or audio static. This is why industrial surge protectors are necessary for industrial equipment. So, how do they protect your equipment? Let’s find out.
SPDs are divided into two types: type-two and type-three. The former is installed at the service entrance point, while the latter is installed after the main system breaker. SPDs of the same type are best used in a combination of two or three systems. For example, a type-two device protects electrical equipment from overvoltage, while a type-three surge protector protects multiple devices at one time.
A good industrial surge protector protects equipment from electrical spikes in the power supply. These spikes can be over 1,000 volts, and last only a few microseconds. A lightning strike can cause spikes that reach 100,000 volts. Even a modest spike can destroy electronic devices. These devices should be installed where they are frequently used. In addition, they are important for reducing the risk of fire. In industrial environments, the IET recommends the installation of electrical protection.
Several benefits of industrial surge protection can be seen from the protection of sensitive equipment. Most industrial and professional equipment is dependent on electronic circuitry and microprocessors. These are especially vulnerable to power surges, as they can lead to catastrophic failures or premature aging of equipment. Get in touch with ZeroDT for industrial surge protection. By preventing power surges, your equipment will be safe and keep running at optimal levels. It is worth considering installing a surge protection system at your facility.
A commercial surge protector is especially important for businesses that deal with sensitive electronic equipment. A single bolt of lightning can deliver a whopping 100,000 volts. This type of energy will travel three miles through a structure before reaching the equipment. In the same way, a typical power surge will send 500 to 1,000 volts through a cable. This can destroy circuitry designed to handle 120 volts. In the end, power fluctuations can cause costly downtime, loss of income, and even damage to critical equipment. Even a single power strip can cause a fire and damage equipment.
