• ANDQT AND function block. The function also
propagates the time stamp and the quality of input
signals. Each block has four inputs and two outputs
where one is inverted.
• INDCOMBSPQT combines single input signals to group
signal. Single position input is copied to value part of
SP_OUT output. TIME input is copied to time part of
SP_OUT output. Quality input bits are copied to the
corresponding quality part of SP_OUT output.
• INDEXTSPQT extracts individual signals from a group
signal input. The value part of single position input is
copied to SI_OUT output. The time part of single
position input is copied to TIME output. The quality bits
in the common part and the indication part of inputs
signal are copied to the corresponding quality output.
• INVALIDQT function which sets quality invalid of outputs
according to a "valid" input. Inputs are copied to
outputs. If input VALID is 0, or if its quality invalid bit is
set, all outputs invalid quality bit will be set to invalid.
The time stamp of an output will be set to the latest time
stamp of INPUT and VALID inputs.
• INVERTERQT function block that inverts the input signal
and propagates the time stamp and the quality of the
input signal.
• ORQT OR function block that also propagates the time
stamp and the quality of the input signals. Each block
has six inputs and two outputs where one is inverted.
• PULSETIMERQT Pulse timer function block can be used,
for example, for pulse extensions or limiting of operation
of outputs. The function also propagates the time stamp
and the quality of the input signal.
• RSMEMORYQT function block is a flip-flop that can reset
or set an output from two inputs respectively. Each
block has two outputs where one is inverted. The
memory setting controls if the block after a power
interruption should return to the state before the
interruption, or be reset. The function also propagates
the time stamp and the quality of the input signal.
• SRMEMORYQT function block is a flip-flop that can set
or reset an output from two inputs respectively. Each
block has two outputs where one is inverted. The
memory setting controls if the block after a power
interruption should return to the state before the
interruption, or be reset. The function also propagates
the time stamp and the quality of the input signal.
• TIMERSETQT function has pick-up and drop-out delayed
outputs related to the input signal. The timer has a
settable time delay. The function also propagates the
time stamp and the quality of the input signal.
•
XORQT XOR function block. The function also
propagates the time stamp and the quality of the input
signals. Each block has two outputs where one is
inverted.
Extension logic package
GUID-144BAAA3-A5EF-49AF-8876-93CC5F3D0234 v1
The logic extension block package includes additional trip
matrix logic and configurable logic blocks.
Fixed signal function block FXDSIGN
M15322-3 v12
The Fixed signals function (FXDSIGN) has nine pre-set (fixed)
signals that can be used in the configuration of an IED, either
for forcing the unused inputs in other function blocks to a
certain level/value, or for creating certain logic. Boolean,
integer, floating point, string types of signals are available.
One FXDSIGN function block is included in all IEDs.
Delay on timer with input signal integration TIGAPC
GUID-FF3CBB22-0089-4BA0-BFE3-FD0E5BA96490 v3
The integrator function (TIGAPC) integrates input pulses and
compares the integrated time with a settable time delay to
operate. Moreover, the time delay to reset the output is
settable in this function.
Elapsed time integrator with limit transgression and overow
supervision TEIGAPC
GUID-2D64874A-F266-4251-8EED-E813F40513D7 v3
The Elapsed time integrator function (TEIGAPC) is a function
that accumulates the elapsed time when a given binary signal
has been high.
The main features of TEIGAPC
• Applicable to long time integration (≤999 999.9
seconds).
• Supervision of limit transgression conditions and
overflow.
• Possibility to define a warning or alarm with the
resolution of 10 milliseconds.
• Retaining of the integration value.
• Possibilities for blocking and reset.
• Reporting of the integrated time.
Boolean to integer conversion, 16 bit B16I
SEMOD175725-4 v5
Boolean to integer conversion, 16 bit (B16I) is used to
transform a set of 16 boolean (logical) signals into an integer.
Boolean to integer conversion with logical node
representation, 16 bit BTIGAPC
SEMOD175781-4 v8
Boolean to integer conversion with logical node
representation, 16 bit (BTIGAPC) is used to transform a set of
16 boolean (logical) signals into an integer. The block input
will freeze the output at the last value.
Integer to Boolean 16 conversion IB16
SEMOD158373-5 v6
Integer to boolean 16 conversion function (IB16) is used to
transform an integer into a set of 16 boolean (logical) signals.
1MRK 502 074-BEN A
Generator protection REG670 2.2 and Injection equipment REX060,
REX061, REX062
Product version: 2.2.1
34 ABB
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