Siemens Siprotec 7UM62 Manual page 234

Functions
Restarting Limit
Restarting Times
218
Although the heat distribution at the rotor cage bars can range widely during motor
starting, the different maximum temperatures in the rotor do not necessarily affect the
motor restart inhibit (see Figure 2-104). It is much more important to establish a
thermal profile, after a complete motor start, that is appropriate for the protection of the
motor's thermal condition. Figure 2-104 shows, as an example, the heating processes
during repeated motor starts (three starts from cold operating condition), as well as the
thermal reproduction by the protective relay.
If the rotor temperature has exceeded the restarting limit, the motor cannot be
restarted. When the rotor temperature goes below the restarting limit, that is, when
exactly one start becomes possible without exceeding the excessive rotor
temperature limit, the blocking signal is terminated. Therefore the restarting
temperatureΘ , related to the maximum permissible rotor overtemperature is
Re.Inhib
expressed as:
n
cold
Θ [ ]
-------------------- - 100 %
%
=
ReInhib
n
cold
The motor manufacturer allows a maximum number of starting attempts under cold
(n ) and warm (n
cold warm
must be allowed some time — the restarting time — for the rotor to cool down. This
temperature behaviour is provided for in the protection as follows: After each motor
shutdown, a temperature equilibrium time (address 6604 T EQUAL) is started which
takes into account the different temperatures of different motor parts at the moment of
shutdown. During the rotor temperature equilibrium time, the thermal profile is not
updated but kept constant to model the equilibrium taking place in the rotor. After that,
the thermal profile cools down with a rotor time constant multiplied by extension
factor). During the equilibrium time the motor cannot be restarted. As soon as
temperature sinks below the restarting threshold, the next restart attempt can be
made.
The entire time that must elapse before motor starting can resume is equal to the
equilibrium time and the amount of time, calculated via the thermal model, that it takes
for the rotor temperature to decrease to the reset temperature level:
T = T
ReInhib time Equilibrium
where T – Rotor temperature equilibrium time address
Equilibrium
kτ – Extension factor for the time constant =
K
τ
– Rotor time constant, internally calculated:
R
τ
R
Θ
– Thermal profile at the moment of motor shutdown (depends on the
pre
operating state)
The operational measured value T
values) shows the time remaining until the next restart is permissible.
– 1
⋅
) conditions. Afterwards the motor cannot be restarted but
Θ
τ
pre
⋅ ⋅
---------------------------- -
+ k ln
τ
LR
n
6609
address
t at RUNNING
⋅ (n ) ⋅ Ι
= t – n
Start cold warm
(to be found in the overload measured
ReInhib time
n 2
cold
Θ
50 %
Re.Inhib
[%]
⋅
n
cold
1
–
cold
6604
Kt at STOP
or address
2
where t = Starting time in s
start Start
Ι
= Starting current in pu
Start
C53000-G1176-C149-3
3 4
66.7 % 75 %
6608
7UM62 Manual