Active Power Regulation - Kaco blueplanet 87.0 TL3 Manual

Country- Men Display/
spec. Set- u Setting
tings level
Priority mode
Q priority | P priority
Active curve
1 – 4
Reset the curve
Number of nodes
2 – 10
1st node ... 10th node
0V - Max. voltage in
continuous operation
1 – 0.3
Over-excited | under-
excited
10.2

Active power regulation

Methods for regulating the active power of feed-in inverters may be necessary for local management of load flows, for
voltage stability in the distribution network and for ensuring the stability of the interconnected grid.
The communication functions P limit and P set are available for managing load flows in a plant. If necessary, this
can be used to reduce the feed of the inverter.
If voltage surges in the upstream distribution network cannot be compensated sufficiently by the absorption of reactive
power, it may be necessary to adjust the active power. In this case, P(U) control is available to make optimum use of the
absorption capacity of the upstream grid.
Feed-in inverters must participate in frequency maintenance in the interconnected grid. If the grid frequency leaves the
normal tolerance band (e.g. ±200 mHz), a critical grid condition exists. Overfrequency is a generation surplus, underfre-
quency is a generation shortage. With overfrequency, photovoltaic systems and electricity storage systems must reduce
their effective feed-in power relative to the frequency increase. The function P(f) is available for this purpose. .
However, depending on the selected country setting, the availability or adjustability of the functions may be limited. This
is particularly the case if the applicable grid connection directive requires this restrictiont.
Dynamics / accuracy
In all of the control methods described below the specified target value at the inverter's connection terminals is adjusted
using a stationary deviation of the reactive power of maximum 2%
The transient response of the control methods is determined by a PT-1 filter. In this case, the settling time corresponds to
5 Tau, or in other words, achieving approx. 99% of the final value for a PT-1 filter. Subject to the control method selected,
there are also other parameters that determine dynamic behaviour.
Methods for active power regulation
Methods for regulating the active power of feed-in inverters may be necessary for local management of load flows, for
voltage stability in the distribution network and for ensuring the stability of the interconnected grid.
The device makes use of the following functions in order to regulate the active power. These are described in the follow-
ing section:
ž P target value (MPPT/communication) Active power limitation [See section 10.2.1} Page 77]
Page 76
Action in this menu/meaning
P priority can be selected as an alternative to the standard setting Q pri-
ority. When it comes to P priority, the reactive power adjustment range
is limited subject to the limited apparent power of the inverter and the
active power that is currently available and fed in.
Up to four characteristic curves can be configured independently and
one of them can be activated for regulation each time.
Reset active curve to the factory setting, depending of the country set-
ting.
Specify the number of nodes for the Q(U) characteristic curve.
Voltage of the node in volts.
The voltage values of the nodes must increase continuously. At voltages
below the 1st node and voltages above the last node, the reactive
power value of the 1st or last node is used each time.
Reactive power of the node as a percentage of the maximum power
Reactive power mode Under-excited relates to inductive load, over-ex-
cited relates to capacitive load.
N
KACO blueplanet 87.0 TL3 KACO blueplanet 92.0 TL3 KACO blueplanet 110 TL3 KACO blueplanet 125 TL3
SN.
KACO blueplanet 137 TL3 KACO blueplanet 150 TL3