Protection And Control Functions; Acquisition Of Samples; Frequency Tracking; Direct Use Of Sample Values - GE MiCOM P40 Agile Technical Manual
Single breaker current differential (with distance)
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P543i/P545i
5
PROTECTION AND CONTROL FUNCTIONS
The protection and control software processes all of the protection elements and measurement functions. To
achieve this it has to communicate with the system services software, the platform software as well as organise its
own operations.
The protection task software has the highest priority of any of the software tasks in the main processor board. This
ensures the fastest possible protection response.
The protection and control software provides a supervisory task, which controls the start-up of the task and deals
with the exchange of messages between the task and the platform software.
5.1
ACQUISITION OF SAMPLES
After initialization, the protection and control task waits until there are enough samples to process. The acquisition
of samples on the main processor board is controlled by a 'sampling function' which is called by the system
services software.
This sampling function takes samples from the input module and stores them in a two-cycle FIFO buffer. These
samples are also stored concurrently by the coprocessor. The sample rate is 48 samples per cycle. This results in a
nominal sample rate of 2,400 samples per second for a 50 hz system and 2,880 samples per second for a 60 Hz
system. However the sample rate is not fixed. It tracks the power system frequency as described in the next
section.
In normal operation, the protection task is executed 16 times per cycle.
5.2
FREQUENCY TRACKING
The device provides a frequency tracking algorithm so that there are always 48 samples per cycle irrespective of
frequency drift. The frequency range in which 48 samples per second are provided is between 45 Hz and 66 z. If
the frequency falls outside this range, the sample rate reverts to its default rate of 2,400 Hz for 50 Hz or 2,880 Hz
for 60 Hz.
The frequency tracking of the analog input signals is achieved by a recursive Fourier algorithm which is applied to
one of the input signals. It works by detecting a change in the signal's measured phase angle. The calculated value
of the frequency is used to modify the sample rate being used by the input module, in order to achieve a constant
sample rate per cycle of the power waveform. The value of the tracked frequency is also stored for use by the
protection and control task.
The frequency tracks off any voltage or current in the order VA, VB, VC, IA, IB, IC, down to 10%Vn for voltage and
5%In for current.
5.3
DIRECT USE OF SAMPLE VALUES
Most of the IED's protection functionality uses the Fourier components calculated by the device's signal processing
software. However RMS measurements and some special protection algorithms available in some products use
the sampled values directly.
The disturbance recorder also uses the samples from the input module, in an unprocessed form. This is for
waveform recording and the calculation of true RMS values of current, voltage and power for metering purposes.
In the case of special protection algorithms, using the sampled values directly provides exceptionally fast response
because you do not have to wait for the signal processing task to calculate the fundamental. You can act on the
sampled values immediately.
5.4
SYSTEM LEVEL SOFTWARE INITIALISATION
The differential protection requires that the devices at the line ends exchange data messages four times per cycle.
To achieve this the coprocessor retrieves the frequency-tracked samples at 48 samples per cycle from the input
P54x1i-TM-EN-1
Chapter 4 - Software Design
71
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