Table description
Threshold
frequency f1
The threshold frequency for activating active power
response to overfrequency.
Description
Name
Act. Power as a
percentage of Pn,
Linear
Droop is defined as the active power as a percentage of
P
n.
The active power will continuously move up and down the
frequency characteristic curve in the frequency range of
f1 to fstop.
Act. Power as a
percentage of
PM, Linear
Act. Power as a
percentage of P
n,
hysteresis
Act. Power as a
percentage of
P
M, hysteresis
Droop is defined as the active power as a percentage of
P
M.
The active power will continuously move up and down the
frequency characteristic curve in the frequency range of
f1 to fstop.
Droop is defined as the active power as a percentage of
P
n.
The active power shall remain at or below the lowest
power output level reached in response to the increase in
frequency between f1 to fstop.
Droop is defined as the active power as a percentage of
P
M.
The active power shall remain at or below the lowest
power output level reached in response to the increase in
frequency between f1 to fstop.
f[Hz]
P[
W]
∆P
f
resetfn
Pn
PM
f1
fstop
Active power can increase at a
specific gradient once the
voltage has returned to f
reset
Act. Power as a percentage of Pn, hysteresis
Act. Power as a percentage of P
M, hysteresis
Act. Power as a percentage of Pn, Linear
Act. Power as a percentage of PM, Linear
f[Hz]
P[
W]
∆P
f
resetfn
Pn
PM
f1
fstop
Active power can increase at a
specific gradient once the
voltage has returned to f
reset
No.
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➁
➂
➃
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UM0035_ASW05-12kH-T2-T3_EN_V01_0523
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