1MRK 511 401-UEN A
Section 12
12.1
12.1.1
12.1.2
Bay control REC670 2.2 IEC
Application manual
System protection and control
Multipurpose filter SMAIHPAC
Identification
Function description
Multipurpose filter
Application
The multi-purpose filter, function block with name SMAI HPAC, is arranged as a
three-phase filter. It has very much the same user interface (e.g. function block
outputs) as the standard pre-processing function block SMAI. However the main
difference is that it can be used to extract any frequency component from the input
signal. For all four analogue input signals into this filter (i.e. three phases and the
residual quantity) the input samples from the TRM module, which are coming at
rate of 20 samples per fundamental system cycle, are first stored. When enough
samples are available in the internal memory, the phasor values at set frequency
defined by the setting parameter SetFrequency are calculated. The following values
are internally available for each of the calculated phasors:
•
Magnitude
•
Phase angle
•
Exact frequency of the extracted signal
The SMAI HPAC filter is always used in conjunction with some other protection
function (e.g. multi-purpose protection function or overcurrent function or over-
voltage function or over-power function). In this way many different protection
applications can be arranged. For example the following protection, monitoring or
measurement features can be realized:
•
Sub-synchronous resonance protection for turbo generators
•
Sub-synchronous protection for wind turbines/wind farms
•
Detection of sub-synchronous oscillation between HVDC links and
synchronous generators
•
Super-synchronous protection
•
Detection of presence of the geo-magnetic induced currents
System protection and control
IEC 61850
IEC 60617
identification
identification
SMAIHPAC
-
Section 12
GUID-6B541154-D56B-452F-B143-4C2A1B2D3A1F v1
GUID-8224B870-3DAA-44BF-B790-6600F2AD7C5D v1
ANSI/IEEE C37.2
device number
-
GUID-A1F20DD8-571E-42C3-84F3-C557EC352ED0 v1
269