Power outages can cause significant downtime and data loss in today's fast-paced digital world, particularly in mission-critical settings such as data centers, energy hubs, hospitals, and industrial sites.
An uninterruptible power supply, also known as a UPS, is a critical component that bridges the gap when the primary power source fails. UPS systems ensure that critical organizational infrastructure remains operational when a regular power source fails or a voltage drop reduces power below a base level.
However, the types of UPS systems available vary due to the way they are manufactured. The efficiency of a UPS unit largely depends on how well it is maintained. One underutilized approach to maintaining a UPS's performance is thermal monitoring.
Types of UPS systems
- Offline/Standby UPS: These systems remain idle until a power failure is detected. The UPS uses its battery backup to briefly power connected devices when the power goes off or instantly converts to DC battery power to connected devices before switching to AC power to operate if incoming utility power wavers from a safe voltage level. This type of UPS system is best suited to consumer electronics, security systems, household use, and small enterprises where slight disruptions won't cause severe harm or costly damage. Offline UPS systems are ideal due to their short switch-over time, which is usually measured in milliseconds.
- Line interactive UPS: An improvement over offline UPS is the line-interactive UPS system, which offers superior efficiency and protection. Without using the battery, this system's automatic voltage regulator (AVR) guards against brownouts, surges, and other small voltage variations. This makes it more appropriate for non-mission critical equipment, entry-to-midrange servers, and sectors where power fluctuations are common.
- Online/double conversion UPS: Online, or double conversion, UPS systems provide the best protection and a smooth transition during power outages. The system continuously transforms incoming AC power into DC power and then reconverts the DC back to AC to charge the battery and power connected devices because there is no transition period. This is designed to protect mission-critical IT equipment, making it the preferred choice for settings such as data centers and critical industries, where even the smallest disruption could result in disastrous implications.
Challenges in UPS systems
UPS systems offer crucial protection but are susceptible to issues. When working with UPS, the following are some of the most frequent problems that industries encounter:
- Battery failure: Battery-related issues are the most common reason for UPS failures. Batteries deteriorate overtime to the point where they can no longer retain charge. Inadequate upkeep of a failing battery may result in unplanned outages at crucial periods.
- Overheating: Heavy loads or extended operation can make UPS systems generate a substantial amount of heat. Inadequate monitoring and management of overheating can result in catastrophic failures, shorten battery life, and damage internal components.
- Insufficient Capacity: An overloaded UPS occurs when organizations fail to account for their systems' power needs. When the UPS is undersized for the connected load, it could trip entirely or fail to provide sufficient backup power when needed most.
- Environmental Factors: Environmental factors like dust, humidity, and temperature change can impact the effectiveness and lifespan of a UPS system. Tight environmental controls are needed to guarantee that equipment, including UPS systems, is operating at peak efficiency.
