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8/2/2019 8.Buck Boost Converter
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EXPERIMENT NAME : Buck-Boost converter using PSPICE
AIM :- To simulate the Buck-boost converter using PSPICE software and obtain
the variation of output voltage with duty cycle variation.
APPARATUS REQUIRED:-
1. PC installed with PSPICE Software
2. VDC (voltage source)
3. VPULSE (voltage source)
4. IRF150 (Switch)
5. R (Resistance)
6. L (Inductance)
7. C (Capacitance)
8. DIN4002 (Diode)
9. GND_SIGNAL/CAPSYM
THEORY:-
The buck–boost converter is a type of DC-to-DC converter that hasan output voltage magnitude that is either greater than or less thanthe input voltage magnitude. It is a switched-mode power supply with a similar circuit topology to the boost converter and the buckconverter. The output voltage is adjustable based on the duty cycle of the switching transistor. One possible drawback of this converteris that the switch does not have a terminal at ground; thiscomplicates the driving circuitry. Also, the polarity of the output
voltage is opposite the input voltage. Neither drawback is of anyconsequence if the power supply is isolated from the load circuit (if,for example, the supply is a battery) as the supply and diodepolarity can simply be reversed. The switch can be on either theground side or the supply side.
Two different topologies are called buck–boost converter. Both of them can produce
an output voltage much larger (in absolute magnitude) than the input voltage. Both of
them can produce a wide range of output voltage from that maximum output voltage
to almost zero.
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• The inverting topology – The output voltage is of the opposite polarity as the
input
• A buck (step-down) converter followed by a boost (step-up) converter – The
output voltage is of the same polarity as the input, and can be lower or higher
than the input. Such a non-inverting buck-boost converter may use a single
inductor that is used as both the buck inductor and the boost inductor.
The basic principle of the buck–boost converter is .
• while switch is in the On-state, the input voltage source is directly connected to
the inductor (L). This results in accumulating energy in L. In this stage, the
capacitor supplies energy to the output load.
• while switch is in the Off-state, the inductor is connected to the output load and
capacitor, so energy is transferred from L to C and R.
Compared to the buck and boost converters, the characteristics of the buck–boostconverter are mainly:
• polarity of the output voltage is opposite to that of the input;
• The output voltage can vary continuously from 0 to (for an ideal converter).
The output voltage ranges for a buck and a boost converter are respectively 0
to and to
• in continuous mode, ;
CIRCUIT DIAGRAM:-
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Waveforms of current and voltage in a buck–boost converteroperating in continuous mode.
PSPICE Simulation Diagram :
L 1
4 0 u H
1
2
d u t y c y c l e = P W / P E R
f s w i t c h = 5 0 k h z
r i p p l e = 0 . 0 1
i n d u c t a n c e = { ( 1 - d u t y c y c l e ) * r e s
c a p a c i t a n c e =
{ ( 1 - d u t y c y c l e ) / ( 8 * i n d u c t a n c e * r i
D 1
D 1 N 4 0 0 2
R 1
1 0
C 1
5 0 u
0
V 2
1 2 V d c
M 2I R F 1 5 0
V 1
T D = 1 u s
T F = 1 u s
P W = . 0 1 2 m s
P E R = . 0 2 m s
V 1 = 0
T R = 1 u s
V 2 = 1 0
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PLOT NO-1 DUTY CYCLE=0.3
PLOT NO-2 DUTY CYCLE=0.5
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