4 inverter, Operation, Output regulation and overload performance – Liebert 1000kVA User Manual

Theory of Operation

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2.2.4 Inverter

The inverter is a solid state device that converts the DC output of the rectifier/charger or the battery

to AC power.

Operation

The inverter converts DC power—from either the battery or the rectifier/charger—into three pulse-

width-modulated/six-step waveforms. These waveforms are filtered into low-distortion sine wave

power. The inverter is controlled by digitally controlled logic. This logic controls the precise synchro-

nization, amplitude and frequency of the output voltage.
In addition to the inverter efficiently supplying a regulated AC output from a DC source, the output

isolation transformer acts as a second stage of isolation between the critical load bus and the commer-

cial source power. The inverter is configured to handle most critical load inrush surges. It maintains

output voltage Total Harmonic Distortion (THD) within specifications even when handling non-linear

computer loads. Refer to Non-Linear Load Characteristics.

Output Regulation and Overload Performance

The inverter is capable of sustaining full output voltage (±2% of the nominal voltage) for up to 150%

overload at the output for as long as 30 seconds without reducing the output voltage. It can also han-

dle at least 125% of the rated current for up to 10 minutes and 104% of the rated current continu-

ously. The System Control Cabinet (SCC) will transfer the critical load to the bypass source if the

overload exceeds the system capacity or the capacity of the modules on-line. The multi-module over-

load capacity (in terms of percent of rated full load current of modules on-line) is 140% for 20 seconds,

108% for 10 minutes and 104% continuously.
Note that in normal operation the SCC will transfer the load to bypass before a UPS module exceeds

its overload capacity. If an individual module overload condition is sustained (beyond inverter capac-

ity) the UPS module is automatically taken off-line (disconnected from the critical bus) and is shut

down. If the UPS system is operating in the redundant mode, the load may remain on the UPS sys-

tem. Refer to 3.5 - Automatic Operations.

Non-Linear Load Characteristics

Computers and computer equipment with switching power supplies generate non-linear currents rich

in fifth and seventh harmonics.
The inverter pulse-width-modulated/six-step waveform, coupled with the output filter, provides a nat-

ural path for reducing the fifth and seventh harmonic currents produced by the load. The inverter/fil-

ter limits the output voltage THD to less than 5% with up to 100% typical electronic data processing

(EDP) loads. EDP equipment characteristically includes both non-linear and linear load components.

Unbalanced Load Characteristics

Unbalanced loads are actively regulated. The phase-to-phase voltage balance is maintained to within

2%, even with a 50% load imbalance.
The three-phase, root mean square (RMS—approximately 70% of the peak) average voltage is also

regulated through a separate control circuit (phase-to-phase sensing).