How a UPS and generator can become a complete standby power solution

A UPS can support its critical load during utility power anomalies and blackouts – but only until its battery autonomy expires. Conversely, an adequately-fuelled generator can support the load indefinitely but needs time to start up and stabilise.

In this article, Alex Emms, Operations Director at KOHLER Uninterruptible Power, looks at how an uninterruptible power supply and generator can complement one another to form a complete standby power solution.

Operators of any data centre with mission-critical loads must ensure uninterrupted power under all circumstances. However, extreme weather can affect overhead power lines. Accordingly, data centres should have their own emergency power plans in place with engineers ready to deal with situations as they arise.

Such plans must include provision for power cuts lasting several hours or possibly days, as well as those of just seconds’ or minutes’ duration. This, in turn, calls for an on-site generator to back up the UPS, as all battery autonomies are finite and susceptible to be exceeded by a sufficiently extended blackout. Additionally, there is no point in having battery autonomy that is not matched by air conditioning that can maintain safe operating temperatures for the UPS throughout the power outage.

The first step is to recognise that UPSs and generators complement one another in operation, and the second is to ensure that they synchronise smoothly and safely when the power supply fails.

The UPS is the front line

If a data centre is regarded as mission-critical, it will almost certainly have an online UPS. During normal, ‘mains OK’ operation, the incoming power flows through the UPS rectifier and inverter components before reaching the load. This means that the load is continuously protected from mains-borne noise, surges, spikes, brownouts and any other aberrations, as well as short term power cuts, safely within the UPS battery autonomy. Under these circumstances, the UPS is providing full protection without support from the standby generator.

However, if the UPS control system detects that an ongoing blackout is becoming a threat to its battery autonomy, it could signal the critical load, allowing it to shut down gracefully within the remaining UPS capacity. Alternatively, if losing the data processing resource is not an option, the UPS must start interacting with an on-site generator. The UPS’s role is then to maintain the supply until the generator can start, stabilise and take over seamlessly as the emergency power source. Assuming the generator has been correctly sized for the application, the UPS will accept it as a ‘mains replacement’ for recharging its battery and supplying the critical load until mains power is restored. This period can be indefinite, subject only to the continued availability of fuel for the generator.

The generator as a standby power source

To correctly specify an optimally-matched UPS/generator power protection pair, it’s necessary to look more closely at the generator characteristics and requirements.

The generator converts stored energy – fuel – into electrical energy. It comprises the fuel itself, an engine to develop mechanical energy, and an alternator to convert the mechanical energy into electrical form.

The engine must be well maintained with an adequate fuel supply at all times. The battery must be healthy enough to assure reliable starting on-demand, while coolant and oil levels should be regularly checked.

The diesel generator’s engine drives an alternator that converts its mechanical power into electricity. In Southeast Asia, there are specific requirements for 50Hz and 60 Hz in different countries. They are usually 400 V (for 50Hz) and 380 V (for 60Hz). The voltage amplitude is set by how the alternator is wound, while its stability is controlled by an Automatic Voltage Regulator (AVR). The alternator’s output voltage frequency is determined by the generator engine speed of typically 1500 rpm (50Hz) and 1800 rpm (60Hz). However, exact speed depends on the alternator design.

Both mechanical and electronic governors are available. Mechanical governors, although lower-cost than electronic types, are less responsive and provide less stable engine speed and voltage frequency regulation. An electronic governor counts teeth on the alternator’s flywheel as it rotates, and regulates the fuel flow accordingly. Electronic governing is highly responsive and offers very stable speed and frequency regulation; accordingly, it is usually specified for any standby generator intended for pairing with a UPS system.

A UPS standby generator should have a mains-powered engine water heater and battery charger. It must also communicate when it starts and stops in response to mains supply failure and subsequent restoration. This is usually handled by an Automatic Mains Failure (AMF) panel that includes the necessary signals. Fig.1 shows how an AMF panel is used with a generator as part of a protected power installation.

AMF panel diagram

To avoid the AMF starting the generator for every short supply aberration, it is usually set to operate only if the mains fails for an extended time of typically two to 10 seconds. Similarly, the AMF should not stop the generator and switch the UPS back to mains supply immediately it is restored; the reconnection may be part of the utility company’s fault location procedure or the result of an automatic breaker operation. The fault may still exist, causing the supply to be disconnected again almost immediately. Accordingly, most AMF-controlled generators are set to continue to supply power for at least two minutes after the utility supply is restored.

The UPS can sense the brief power interruptions during changeovers at both the beginning and end of the blackout, and uses its batteries to prevent these interruptions reaching the load.

Any mains changeover solution should also consider the method used to switch the neutral conductor during the mains failure. It is usual to employ four-pole switching; short interruptions in the neutral plane are accepted as many sites now have generators and hence four-pole changeover.

Generator sizing

To ensure the generator performs reliably as a power protection component, it must be correctly sized as well as matched to the UPS. In fact, it should be oversized, especially as it usually supports more equipment than the UPS; air conditioning to cool the equipment as well as emergency lighting, communications and alarm systems.

As a ‘rule of thumb’, 1.5 times the nominal capacity should be allowed for transformerless UPSs, and three times the nominal air conditioning running capacity should be allowed for the air conditioning.


If a data centre is providing a critical ICT resource that has to remain online under all circumstances, then an on-site generator must be provided to back up the UPS if a long-duration blackout occurs. Additionally, for successful operation as part of the power protection strategy, the generator must be carefully matched to the UPS characteristics and sized sufficiently to handle all the emergency power needed during an outage.

An experienced standby power supplier, such as KOHLER Uninterruptible Power, can advise on the right choice of UPS and generator, and how to combine these into an optimally-balanced solution. Contact us here to find out more.

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