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Common Power Problems & Power Protection Solutions

All device systems, from home entertainment and office desktop computers to business IT hardware in data centres, are vulnerable to damages, downtime and loss of data if left exposed without a comprehensive Chint power protection mechanism. On a regular basis, equipment encounters potential risk, whether from poor voltage reliability, inclement climate, or any variety of circumstances that might cause delayed device deterioration or sudden power and loss of data.

The most prevalent power issues and their reasons, how they influence operations, and the spectrum of power protection solutions available to protect users’ devices are described here.

Main Power Problems:

  • Line Noise – Line noise is defined as distortions on alternating current, phone line, internet, or cable lines produced by Electromagnetic Interference and Signal Interference. Line noise is inescapable and will present on each and every transmission at a certain point, even if it is not necessarily harmful or even perceptible. It causes gradual electrical circuit degradation, corruption of data, sound/video quality issues, and system component confusion. Line noise produced by electrical equipment varies widely and can be caused by energy disruptions from a range of natural and man-made causes.

Common sources of line noise:

  • Power lines with high voltage
  • Radio emissions
  • Severe weather conditions
  • Surge/Spike – Spikes and surges are brief increases in power. They are often generated by thunderstorms, power failures, short circuits, or electricity power company failures. They corrupt data, create catastrophic and costly device harm, and produce progressive harm that diminishes efficiency of equipment and cuts down its usable duration.

Lightning strikes, Utility company load shifting, Mis-wired electrical systems are common causes of surges/spikes.

  • Sag/Brownout/Undervoltage – A brownout is a power shortfall that happens when the demand for electricity exceeds the supply of power. Brownouts, as contrast to brief variations normally take a few moments but can continue many hours. They are triggered by an electricity grid interruption and may be enforced by utility providers when there is an excessive demand for electricity. Brownouts, which occur more frequently than outages, result in device failures, cumulative damages, diminished equipment instability, and loss of data.
  • Blackout/Power outage – A blackout, also known as a power failure, is a full loss of utilities electricity, whether it is temporary or long-term. Blackouts result in decreased production, revenue loss, system breakdowns, and loss of data. As ageing electricity systems and construction circuits are overloaded by short supply, unscheduled downtime may occur. Blackouts are especially harmful in places where security or long – term care is dependent on electricity, such as hospital, treatment facilities, and energy plants.
  • Overvoltage/Swell – Swells are the polar opposite of brownouts: rather than a voltage shortage, a swell is a power rise that lasts for a lengthy period of time, as contrasted to a rapid increase, such as a surge/spike.  A swell occurs when the supply is connected exceeds the power received by the devices connected, leading to a rise in voltage. Degradation may not be obvious until it is too far, resulting in lost information and faulty parts.


Affordably priced solutions safeguard technology, information, and production against the dangers of power outages. Services are possible for any size purpose, from household to large business, and provide varied degrees of protection, spanning from security against typical dangers like as surges and line noise to the most comprehensive protection possible against all dangers. 

  • Clustered systems—With this sort of security, nodes in the network placed close to one another can be covered by a single UPS. It is a design that functions well with smaller but expanding systems that have at least some nodes grouped close; examples are clustered data centre, gateways, routers, and links, as well as desktops or computers inside a group or office. A single big UPS can safeguard the whole cluster if the device is inside a few meters of the servers or hub.
  • Integrated security— However, power surges aren’t the only factor influencing the functioning of today’s telecom equipment. Problems may take various forms, ranging from temperature and dirt to people and movement, and all can have a negative impact on a system, even if the electricity supply is flawless. Furthermore, as technologies and increased communications progress, telecoms hardware becomes more sensitive.


Power safety is an issue for all applications, and the threats are really not going away. With an efficient power protection system, you can safeguard PCs, servers, and task devices from potentially irreparable harm. 

Chint Power Protection offers a diverse variety of solutions designed to protect equipment from downtime, damage, and loss of data associated with power outages. With Products Finders for anything from Generation units and surge guards to connections, racks, and PDUs, it’s easy to identify the needs and implement the best option for the applications.


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