The Industrial Surge Protection market is predicted to grow at a CAGR of 6.5% from 2016 to 2021, with APAC leading the way in terms of market size. The rapid growth of this market can be attributed to the rising electrification of various industries, the large number of electronics manufacturers, and the burgeoning automotive industry in APAC. Among the key companies involved in the Industrial Surge Protection industry, ON Semiconductor launched two LED drivers and two current controllers in February 2020.
There are two main types of wire connections for industrial surge protection devices: the in-line and parallel connection. In the former, the load’s current is routed to the surge protective device, while in the latter case, the current is routed to the load directly. The T-connection, on the other hand, involves connecting a separate wire to the main load wire. This allows extra line length to pass through the surge protector to protect the load.
Service assurance features include LEDs that indicate when the unit is reaching the end of its useful life. This helps building management keep a tab on the condition of the surge protection system and alert them in the event of an emergency. One such feature is the visual end-of-life indicator, which displays a green LED when two-thirds of its life remains. In addition to this, other service assurance features include a surge counter, a reset button, and dry contacts.
Quarter-wave coax surge arrestors are another type of industrial surge protectors. These devices have coaxial terminals, which are compatible with most coax cable connectors. These units provide rugged protection against RF signals above 400 MHz. This type of industrial surge protection is generally superior to gas discharge cells. So, what is the difference between these two types of industrial surge protectors? The answer is a little bit of both.
The Industrial Surge Protection market is growing at a rapid rate, driven by several factors including the increasing use of electronic devices and the need for power supply stability. Regular voltage fluctuations cause a range of problems, including damage to electrical equipment, causing high financial losses. Surge protectors provide a way to protect these expensive equipment and reduce the risk of disaster. They also help prevent the occurrence of such incidents. You should invest in industrial surge protection today.
Aside from protecting your equipment against external sources of power surges, these devices can also protect sensitive electronics from line noise. Line noise is the result of electromagnetic and radio frequency interference from other devices connected to the same electrical system. Turning on a fluorescent light or a laser printer may cause line noise. You may also use a generator or other appliance that generates a lot of line noise. Line noise is often recognized as video snow and audio static.
When you purchase an industrial surge protection device, you are protecting your devices from transient voltage and power spikes. Transient voltage, or surge power, is a significant danger to people and equipment. An industrial surge protection device is a crucial safety measure. Known as surge protectors, these devices are commonly installed in heavy industrial systems. It is also essential to consider your location’s power quality and frequency before investing in any industrial surge protection.
A single bolt of lightning can send out up to 100,000 volts of electricity. Usually, a lightning strike will hit a structure, and the surge moves downward, coupling to parallel lines. Having an industrial surge protector installed in a critical location will protect your equipment and supply lines from damage due to a lightning strike. You should also know that a lightning strike can hit a building many miles away and damage important equipment.
Power surges can cause major disruptions or degradation, and may even be the cause of a fire. In extreme cases, a single surge can cause damage to an entire piece of equipment. The most common cause of these problems is an outage, and when a utility company restores power, they may encounter power surges. However, these surges do not have to be large. Smaller surges can cause damage to equipment over time.