TOSHIBA G9000 UPS White Paper
FIGURE 9
Switching and
saturati on
characteristics for
a 1200V- and
a 600V-class
IGBT
© 2008 TOSHIBA INTERNATIONAL CORPORATION – INDUSTRIAL DIVISION
/toshiba02/User2/UPSMKT/GENERAL/UPS/3 Phase Systems/White Papers/G9000 White Paper - multi-level converter.doc
Another benefit of the multilevel concept is the improvement of power
conversion efficiency. Due to the fact that three-level converters promote
lower voltage stress on power semiconductors, voltage ratings of
transistors and diodes can be lowered without compromise performance
and reliability.
For example, a 3-phase 480V power converter using a two-level circuit
requires a 1200V class IGBT, while a three-level circuit can be structured
using an IGBT voltage class of 600V. This flexibility in design allows the
selection of power semiconductors with better conduction and switching
characteristics.
As an example, refer to the Figure 9 that shows the switching losses and
saturation voltage for a typical 1200V- and a 600V-class IGBT of same
generation from the same manufacturer. Although the saturation voltage is
almost the same, a 600V class IGBT exhibits better switching
characteristics.
Conduction losses are a function of the current in the semiconductor and
its saturation voltage. Thus, for a certain current level, from the
point-of-view of conduction losses, since the number of transistors in a
three-level power converter is the double as in a two-level circuit, this loss
component constitutes a disadvantage for a three-level circuit.
However, in terms of switching losses, the three-level topology shows off
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