Download PWM (Pulse Width Modulation)

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Transcript
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PWM (Pulse Width Modulation) is used to
keep the output voltage of the inverter at the
rated voltage irrespective of the output load.
Its main use is to allow the control of the
power supplied to electrical devices,
especially to inertial loads such as motors.
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In a conventional inverter the output voltage
changes according to the changes in the load.
To nullify effect caused by the changing
loads, the PWM inverter correct the output
voltage according to the value of the load
connected at the output.
This is accomplished by changing the width
of the switching frequency generated by the
oscillator section.
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Battery charging current sensor circuit
Battery voltage sensing circuit
AC mains sensing circuit
Low battery cut off circuit
Soft start circuit
Change over circuit
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Overload sensing circuit
Shut down circuit
PWM controller circuit
Oscillator circuit
Driver circuit
Output section
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Some popular PWM techniques are:
 SINE-PWM technique
 Space Vector based PWM technique
 Hysteresis Current controller based PWM technique
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Some of the PWM techniques can be realized
using analog circuits alone
Some others are more easily realized with the
help of digital processors like
 Microprocessor
 Digital signal processor (DSP)
 Personal Computer (PC)
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Three types of pulse-width modulation
(PWM) are possible:
 The pulse center may be fixed in the center of the
time window and both edges of the pulse moved
to compress or expand the width.
 The lead edge can be held at the lead edge of the
window and the tail edge modulated.
 The tail edge can be fixed and the lead edge
modulated.
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Telecommunication
Power Delivery
Voltage regulation
Audio effects and amplification
Electrical
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