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Difference Between Online UPS and Offline UPS

Author: Helen
Dec. 06, 2023
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Difference Between Online UPS and Offline UPS-A UPS (Uninterruptible Power Supply) is a crucial component of any power backup system. It ensures that critical equipment and systems remain operational in the event of a power outage or other power-related issues. Two main types of UPS systems are available in the market – On-Line UPS and Off-Line UPS. Understanding the difference between these two types of UPS systems is essential for choosing the right one for your needs.

 

 

Difference Between Online UPS and Offline UPS

A UPS (Uninterruptible Power Supply) is a crucial component of any power backup system. It ensures that critical equipment and systems remain operational in the event of a power outage or other power-related issues. Two main types of UPS systems are available in the market – On-Line UPS and Off-Line UPS. Understanding the difference between these two types of UPS systems is essential for choosing the right one for your needs.

When it comes to Uninterruptible Power Supply (UPS), there are two main types: Online UPS and Offline UPS. Although both types supply power to devices during power outages, they have distinct differences. The primary difference between Online UPS and Offline UPS is the way they provide power. Online UPS utilizes a rectifier and inverter combination to simultaneously power the load and charge the battery, ensuring that the battery is ready to supply power when needed. On the other hand, Offline UPS supplies AC power directly to the load by switching ON the transfer switch, and only uses the battery backup in the event of a power failure. Another crucial difference is that Online UPS requires a large heat sink.

The rectifier in the Online UPS supplies power directly to the inverter as well as the battery. As a result, heat dissipation will be significant. As a result, an Online UPS requires a larger heat sink than an Offline UPS.

Online UPS

The Online UPS, consisting of a rectifier, battery, and inverter, is directly connected to both the AC mains and the load. The rectifier circuit converts the AC power into DC power, which is used to charge the battery and supply the inverter circuit that powers the load. The transfer switch is always in the ON position, allowing power to be continuously delivered to the load from the rectifier and inverter circuits, without any interruptions in case of a power outage.

Benefits of Online UPS

  • One of the significant advantages of using Online UPS is that there is no need to switch between the two power paths during a power outage, thus ensuring that power is continuously delivered to the load.

  • Another benefit is that Online UPS provides proper isolation between the load and input circuits, resulting in distortion-less signals.

  • Since the inverter is always in the ON position, power is continuously available to the load, resulting in zero transfer time.

 

Drawbacks of Online UPS

  • Designing an Online UPS is complex, as it requires a large heat sink.

  • The instantaneous supply of power to the battery backup and inverter circuit in Online UPS leads to increased power dissipation.

  • The cost of designing Online UPS is higher than that of Offline UPS.

 

Offline UPS

The Offline UPS functions by directly providing the AC power to the device connected to the load. During normal operation, the AC power is supplied directly to the load, while the battery is charged with the help of the rectifier circuit.

However, in the event of a power outage, the Offline UPS switches the position of the transfer switch to connect the load to the battery backup path. The charged battery then supplies DC power to the inverter, which converts it into AC and supplies it to the load terminal.

 

Benefits of Offline UPS

  • One significant advantage of the Offline UPS is its low design cost in comparison to the Online UPS.

  • The internal control of the Offline UPS is simple, as there are only two paths, which work at different times according to the position of the transfer switch.

  • The efficiency of the Offline UPS is high because the battery backup and inverter are not always ON, as they are in the case of the Online UPS.

 

Drawbacks of Offline UPS

  • The electric signal obtained from the Offline UPS has poor quality because the inverter is not always ON.

  • In case of power outage, the transfer time is approximately 5ms, during which there will be no output power. There will be a slight disruption in the output power due to transfer time.

  • Since the Offline UPS directly supplies AC power when it is available, any spikes or surges present in the input voltage will also be transmitted to the output circuit.

 

Comparison of On-Line and Off-Line UPS

 

1. Performance Comparison

  • Efficiency: On-Line UPS is generally more efficient than Off-Line UPS due to the continuous regulation of the power supply.

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  • Power protection: On-Line UPS provides a higher level of power protection than Off-Line UPS, making it suitable for critical equipment.

 

  • Voltage regulation: On-Line UPS can regulate the output voltage, ensuring that the connected equipment receives stable power, while Off-Line UPS cannot regulate voltage.

 

  • Switching time: On-Line UPS has a seamless transition between power sources, while Off-Line UPS has a delay in switching to battery power.

 

2. Cost Comparison

  • Initial cost: On-Line UPS is generally more expensive than Off-Line UPS due to the higher level of power protection provided.

 

  • Operating cost: On-Line UPS consumes more energy than Off-Line UPS, resulting in higher operating costs.

 

3. Application Comparison

  • Suitable applications for On-Line UPS: On-Line UPS is suitable for critical equipment such as servers, medical equipment, and industrial machinery.

 

  • Suitable applications for Off-Line UPS: Off-Line UPS is suitable for basic power backup needs such as desktop computers and small appliances.

 

 

Key Difference Between Online UPS and Offline UPS
 

The main differences between Online UPS and Offline UPS are in their operation. Online UPS supplies AC power through a rectifier and inverter circuit even when AC mains power is available, whereas Offline UPS directly supplies AC mains power to the load circuit when the power supply is available. Transfer time is a crucial factor that distinguishes the two types of UPS. Online UPS has zero transfer time as there is no switching between the inverter and mains supply path, while Offline UPS has a transfer time of approximately 5ms.

 

Another significant difference is that the inverter in Online UPS is always ON, while the inverter in Offline UPS is only active during power outages. Online UPS is generally more expensive than Offline UPS. However, the efficiency of Offline UPS is generally higher compared to Online UPS because the inverter and rectifier circuit are not constantly active in Offline UPS.

 

Conclusion

In conclusion, both Online UPS and Offline UPS are important for providing uninterrupted power supply. The choice between them depends on the specific application requirements. Offline UPS may be suitable for applications where a slight transfer time delay and cost-effectiveness are acceptable. On the other hand, Online UPS may be necessary for critical applications such as medical equipment, industries, and telecommunication, where even a slight transfer time delay is not desirable, despite the higher cost.

 

Frequently Asked Questions –

 

1. What is the main difference between online and offline UPS?

The main difference between online and offline UPS lies in their working principles. An online UPS continuously supplies power through the rectifier and inverter circuit, while an offline UPS directly supplies power to the load circuit from the mains and switches to the backup source only when the mains power fails.

2. What is the transfer time difference between online and offline UPS?

The transfer time difference between online and offline UPS is significant. An online UPS has zero transfer time as there is no switching between the rectifier and inverter path and the mains power path, while an offline UPS has a transfer time of about 5ms.

3. Which UPS is more efficient, online or offline?

Offline UPS is generally more efficient than online UPS because the inverter and rectifier circuit in offline UPS are only switched on when the mains power fails, while in an online UPS, they are always on.

4. Which UPS is better for critical applications, online or offline?

Online UPS is better suited for critical applications such as medical equipment, industries, and telecommunication where even a few milliseconds of transfer time can cause significant disruptions. However, offline UPS is a more cost-effective solution for less critical applications.

5. Which UPS is more expensive, online or offline?

Online UPS is more expensive than offline UPS due to its complex design and the need for a large heat sink to dissipate the heat generated by the continuous operation of the rectifier and inverter circuit.

When it comes to uninterruptible power supplies, there are a range of solutions to choose from. One of the most common questions that we often get asked, is what the difference is between online, offline and line-interactive UPSs and which one a particular business needs.

The UPSs used in most applications today use solid-state technology to manage their power control and communications functions, and are therefore described as static UPS systems.

Before static UPS systems a rotary system was typically used. This system used flywheels to convert and store energy, before converting it back into electrical energy when needed. Nowadays, static systems have largely superseded rotary systems due to their reduced size and weight, their increased efficiency and the high cost and complexity of maintaining a rotary system.

Types of Static UPS Systems

Static UPS systems are available in various power topologies. Generally speaking, there are three main operational design architectures for UPS units and modules, which are offline, online and line-interactive. All are designed around a stored energy source – usually a lead/acid battery – that accumulates power from the electrical mains supply during normal power availability, and then dispenses it to the critical load during mains supply disturbances or blackouts. This means that they use common building blocks; a rectifier/charger to convert incoming AC into a DC charging current for the battery; an inverter to generate AC current for the critical load; and a static switch to connect either the inverter output or the mains supply to the critical load as circumstances demand.

These components interact in protecting the load within either an online, offline or line-interactive topology. As we shall see, these modes represent different trade-offs between capital, operating costs, and levels of protection. It is up to each user to decide which approach is most appropriate to the needs of their communications and data processing load, and the business that it supports.

 

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