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Disturbances due to
high frequency signals
(above 2 kHz)
Martin Lundmark
EMC on Site
[email protected]
OUTLINE
1.
BACKGROUND
2.
CONDUCTIVE AND RADIATED EMISSION IN A THREE-PHASE GRID
3.
ORIGIN OF CONDUCTIVE HIGH-FREQUENCY LEAKAGE CURRENT
4.
MEASUREMENTS
5.
CONCLUSION
BACKGROUND
Sign of HF-harmonics
•PWM motor drives
•TV and audio studios
•Power Line Communication
•Distribution transformers
•Power supply units
•Cable and cable termination
•Electronic office equipment
•Fluorescent lights
-
motor bearing currents
disturbances
signal interference
damage
damage
damage
malfunction
league currents
BACKGROUND
CHANGING CIRCUMSTANCES IN POWER LOADS…
•The use of power electronics
•Faster changes in loads than in the power grid
…AND IN COMMUNICATION
•The changes from analogue to digital communications technique
•The radiated emission of electronic equipment is limited with respect
to analog radio communications services
BACKGROUND
The changes from analogue
to digital communications technique
CONDUCTIVE AND RADIATED EMISSION
IN A THREE-PHASE GRID
CONDUCTIVE EMISSION
IN A THREE-PHASE GRID
ORIGIN OF CONDUCTIVE HF LEAKAGE CURRENT
Symmetrical load current in a three phase system
ORIGIN OF CONDUCTIVE HF LEAKAGE CURRENT
Symmetrical load current, including harmonics,
in a three phase system
ORIGIN OF CONDUCTIVE HF LEAKAGE CURRENT
Symmetrical load current,
including HF- harmonics,
in a three phase system
ORIGIN OF CONDUCTIVE HF LEAKAGE CURRENT
Symmetrical load current, including HF- harmonics, in a three phase system
1
A 2 kHz high-pass filter used on the
simulated neutral current from
HF fluorescent lamps
in three-phase connection
1
1
A detail of the left graph shows
the damped peak having about
a 156 microsecond period time,
a frequency close to 6.4 kHz.
Symmetrical load current, including HF- harmonics, in a three phase system
<2 kHz
>2 kHz
Neutral current (RMS) when increasing the numbers of three-phase connected HFfluorescent lamps, unfiltered upper left, 2 kHz high-pass filter down left.
To the right- the neutral current shown on the left is divided by the number of three-phase
connected groups of HF-fluorescent lamps.
Symmetrical load current, including HF- harmonics, in a three phase system
1
Highest peak value in neutral current above 2 kHz when increasing the numbers of threephase connected HF fluorescent lamps, to the left. To the right, the peak value is divided by
the number of three-phase connected groups of HF fluorescent lamps.
Symmetrical load current, including HF- harmonics, in a three phase system
Z
Z = R + jX
100 m
1m
30 m
The impedance for 2.5 mm 2 Cu wire with a
length of 100 m upper line, 30 m middle line
and 1 m lower line.
ORIGIN OF CONDUCTIVE HF LEAKAGE CURRENT
Symmetrical load current, including HF- harmonics, in a three phase system
Calculations on the neutral peak voltage with increasing numbers of HFfluorescent lamps with (upper line) and with only the wire resistance (lower line).
Z = R + jX, for 2.5 mm2 Cu wire with a length of 30 m
ORIGIN OF CONDUCTIVE HF LEAKAGE CURRENT
MEASUREMENTS
Communications failures on a specific communication line in a
server room powered by a 50 kVA uninterruptible power supply
P-N
P-PE
N-PE
MEASUREMENTS
A- building, in the office part of the LTU Skellefteå Campus.
MEASUREMENTS
D-building, first floor, adjacent to room 3045.
MEASUREMENTS
A- building
D-building, first floor
CONCLUSION
•It is possible to find HF- harmonics, almost everywhere in power grids.
•The origin to the HF- harmonics is finding in power electronics in domestic,
commercial and industrial equipment.
•The number of emitting devices is growing significantly.
•Literature describes interference on electronic office equipment, in TV and audio
studios and in power grid using power line communication due to HF- harmonics,
to give some examples.
•Literature also describes damage in distribution transformers, cable and cable
termination and in motor bearings due to HF- harmonics.
•While the symmetrical fundamental frequency current is cancelled and the zerosequence harmonics is summarized in the neutral wire the HF- harmonic current
increased when the number of loads symmetrically increased in the three phases,
and there was almost no cancellation.
•Adding the effect of increasing impedance in wires resulting from increasing
frequency, one origin of conductive high-frequency leakage current in the grid is
shown.
THANK YOU