The term very fast front transient

The term very fast front transient is used
to refer surges usually encountered in gas
insulated substations with rise times in the
range of 50 to 100 nsec and frequencies
from 0.5 to 30 MHz, although there are
other switching transients with frequencies
within this range.
Since transient voltages affect system reliability,
and in turn system safety and economics,
a full understanding of the transient characteristic
of power equipment is required.
The capability of a winding to withstand transient
voltages depends on the specific surge voltage
shape, the winding geometry, the insulation
material, the voltage-time withstand characteristic,
and the past history of the winding (Greenwood,
1991; Chowdhuri, 2004; Bewley, 1951; Heller
& Veverka, 1968, Rudenberg, 1968; Degeneff,
2007). The voltage stresses within the windings
need to be determined to design winding insulation
suitable for all kinds of overvoltages. During test
voltages of power frequency, the voltage distribution
is linear with respect to the number of turns
and can be accurately calculated. High frequency
surges that reach power apparatus windings can
cause high voltage stresses, which are usually
concentrated in the sections near to the line end.
The accurate prediction of the response of
coils and windings to fast or very fast front voltage
surges is a complex problem: the form of
excitation may greatly vary and most large power
apparatus are unique designs (e.g., each has its
own impedance-frequency characteristic), so their
transient response characteristic is also unique.
Generally, the problem is addressed by building
detailed models.
A model is a representation which can duplicate
the response of a component under the stimulus
of interest. The form of a model depends on
how it is to be used, while the degree of detail in
modelling depends on the type of disturbance and
the position of the component with respect to the
event that causes the disturbance (Greenwood,