lecture 9: power supplies
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Lecture 9: Power Supplies. Power Supply Regulation. An ideal power supply provides a constant dc voltage despite changes to the input voltage or load conditions. - PowerPoint PPT PresentationTRANSCRIPT
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© 2012 Pearson Education. Upper Saddle River, NJ, 07458. All rights reserved.
Electronic Devices, 9th editionThomas L. Floyd
Lecture 9:
Power Supplies
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© 2012 Pearson Education. Upper Saddle River, NJ, 07458. All rights reserved.
Electronic Devices, 9th editionThomas L. Floyd
![Page 3: Lecture 9: Power Supplies](https://reader036.vdocument.in/reader036/viewer/2022081603/568135db550346895d9d4e92/html5/thumbnails/3.jpg)
© 2012 Pearson Education. Upper Saddle River, NJ, 07458. All rights reserved.
Electronic Devices, 9th editionThomas L. Floyd
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© 2012 Pearson Education. Upper Saddle River, NJ, 07458. All rights reserved.
Electronic Devices, 9th editionThomas L. Floyd
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© 2012 Pearson Education. Upper Saddle River, NJ, 07458. All rights reserved.
Electronic Devices, 9th editionThomas L. Floyd
Power Supply Regulation
An ideal power supply provides a constant dc voltage despite changes to the input voltage or load conditions.
00 Current
Voltage
Ideal power supply
The output voltage of a real power supply changes under load as shown in the second plot. The output is also sensitive to input voltage changes.
00 Current
Voltage
Real power supply
VNL VNL
VFL
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© 2012 Pearson Education. Upper Saddle River, NJ, 07458. All rights reserved.
Electronic Devices, 9th editionThomas L. Floyd
Line Regulation
Line regulation is a measure of how well a power supply is able to maintain the dc output voltage for a change in the ac input line voltage. The formula for line regulation is
OUT
IN
Line Regulation = 100%V
V
Line regulation can also be expressed in terms of percent change in VOUT per volt change on the VIN (%/V).
OUT OUT
IN
/ 100%Line Regulation =
V V
V
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© 2012 Pearson Education. Upper Saddle River, NJ, 07458. All rights reserved.
Electronic Devices, 9th editionThomas L. Floyd
Load Regulation
When the amount of current through a load changes due to a varying load resistance, the voltage regulator must maintain a nearly constant output voltage across the load.
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© 2012 Pearson Education. Upper Saddle River, NJ, 07458. All rights reserved.
Electronic Devices, 9th editionThomas L. Floyd
Load Regulation
Load regulation is a measure of how well a power supply is able to maintain the dc output voltage between no load and full load with the input voltage constant. It can be expressed as a percentage change in load voltage:
NL FL
FL
Load Regulation = 100%V V
V
Load regulation can also be expressed in terms of percent change in the output per mA change in load current (%/mA).
Sometimes a maximum error voltage is given in the specification.
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© 2012 Pearson Education. Upper Saddle River, NJ, 07458. All rights reserved.
Electronic Devices, 9th editionThomas L. Floyd
Load Regulation
Sometimes the equivalent Thevenin resistance of a supply is specified in place of a load regulation specification.
RTH = ROUT
RLVTH = VNL
VOUT
Power Supply
In this case, VOUT can be found by applying the voltage divider rule:
LOUT NL
OUT L
RV V
R R
In terms of resistances, load regulation can be expressed as:
OUT
FL
Load regulation 100%R
R
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© 2012 Pearson Education. Upper Saddle River, NJ, 07458. All rights reserved.
Electronic Devices, 9th editionThomas L. Floyd
Load Regulation
A power supply has an output resistance of 25 mW and a full load current of 0.50 A to a 10.0 W load.
(a) What is the load regulation? (b) What is the no load output voltage?
OUT
FL
0.025 Load regulation 100% 100%
10.0
R
R
= 0.25%(a)
(b) By Ohm’s law, VOUT = 5.0 V.
OUTNL
L
OUT L
5.0 V10.0
0.025 + 10.0
VV
R
R R
= 5.013 V
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© 2012 Pearson Education. Upper Saddle River, NJ, 07458. All rights reserved.
Electronic Devices, 9th editionThomas L. Floyd
Regulators
The fundamental classes of voltage regulators are linear regulators and switching regulators.
Both of these are available in integrated circuit form. Two basic types of linear regulator are:
the series regulator the shunt regulator.
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© 2012 Pearson Education. Upper Saddle River, NJ, 07458. All rights reserved.
Electronic Devices, 9th editionThomas L. Floyd
Series Regulators
Series Regulator block diagram:
Basic series regulator circuit:
VIN VOUT
Errordetector
Samplecircuit
Controlelement
Referencevoltage
VIN VOUT
R1
Control element
Q1
D1
VREF+
– Error detectorR2
R3
Samplecircuit
The control element maintains a constant output voltage by varying the collector-emitter voltage across the transistor.
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© 2012 Pearson Education. Upper Saddle River, NJ, 07458. All rights reserved.
Electronic Devices, 9th editionThomas L. Floyd
Series Regulators
The op-amp in the series regulator is actually connected as a noninverting amplifier where the reference voltage VREF is the input at the noninverting terminal, and the voltage divider R2/R3 forms the negative feedback circuit. The closed-loop voltage gain is
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© 2012 Pearson Education. Upper Saddle River, NJ, 07458. All rights reserved.
Electronic Devices, 9th editionThomas L. Floyd
Series Regulators
The output voltage for the series regulator circuit is: 2OUT REF
3
1R
V VR
(a) What is the output voltage for the series regulator?
(b) If the load current is 200 mA, what is the power dissipated by Q1?
2OUT REF
3
1
100 k1+ 3.9 V
47 k
RV V
R
(a)
(b)
VIN VOUT
R1Q1
D1
VREF+
– R2
R3
47 kW
100 kW3.9 V
18 V
4.7 kW
= 12.2 V
P = VI = (18 V – 12.2 V)(0.2 A)
= 1.16 W
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© 2012 Pearson Education. Upper Saddle River, NJ, 07458. All rights reserved.
Electronic Devices, 9th editionThomas L. Floyd
Shunt Regulators
Shunt Regulator block diagram:
Basic shunt regulator circuit:
VIN
R1
VOUT
Controlelement(shunt)
Samplecircuit
Errordetector
Referencevoltage
VIN
VOUT
R2
Q1
–
+
D1
R4
R3RL
VREF
Error detectorControlelement
Samplecircuit
R1
The control element maintains a constant output voltage by varying the collector current in the transistor.
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© 2012 Pearson Education. Upper Saddle River, NJ, 07458. All rights reserved.
Electronic Devices, 9th editionThomas L. Floyd
Shunt Regulators
Summary
Although it is less efficient than the series regulator, the shunt regulator has inherent short-circuit protection. The maximum current when the output is shorted is VIN/R1.
Shunt regulators use a parallel transistor for the control element. If the output voltage changes, the op-amp senses the change and corrects the bias on Q1 to follow. For example, a decrease in output voltage causes a decrease in VB and an increase in VC. VIN
VOUT
R2
Q1
–
+
D1
R4
R3RL
VREF
Error detectorControlelement
Samplecircuit
R1
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© 2012 Pearson Education. Upper Saddle River, NJ, 07458. All rights reserved.
Electronic Devices, 9th editionThomas L. Floyd
Shunt Regulators
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© 2012 Pearson Education. Upper Saddle River, NJ, 07458. All rights reserved.
Electronic Devices, 9th editionThomas L. Floyd
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© 2012 Pearson Education. Upper Saddle River, NJ, 07458. All rights reserved.
Electronic Devices, 9th editionThomas L. Floyd
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© 2012 Pearson Education. Upper Saddle River, NJ, 07458. All rights reserved.
Electronic Devices, 9th editionThomas L. Floyd
Switching Regulators
All switching regulators control the output voltage by rapidly switching the input voltage on and off with a duty cycle that depends on the load. Because they use high frequency switching, they tend to be electrically noisy.
VC
ton toff ton toff ton toff tonton toff ton toff ton toff ton
VC
VC
ton toff ton toff ton toff tonon/off control
VOUT
An increase in the duty cycle increases the output voltage.A decrease in the duty cycle decreases the output voltage.
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© 2012 Pearson Education. Upper Saddle River, NJ, 07458. All rights reserved.
Electronic Devices, 9th editionThomas L. Floyd
Buck Converter
A step-down switching regulator controls the output voltage by controlling the duty cycle to a series transistor. The duty cycle changes depending on the load requirement.
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© 2012 Pearson Education. Upper Saddle River, NJ, 07458. All rights reserved.
Electronic Devices, 9th editionThomas L. Floyd
Buck Converter
VIN
VOUT
R1
Q1
R3
R2
RLD1
–
+
D2
Variablepulse-widthoscillator
VREF
L
C
Because the transistor is either ON or OFF on all switching regulators, the power dissipated in the transistor is very small and the regulator is very efficient. The pulses are smoothed by an LC filter.
on
C charges
+ -VIN
VOUT
R1
Q1
R3
R2
RLD1
–
+
D2
Variablepulse-widthoscillator
VREF
L
C- +
L reverses polarityoff
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© 2012 Pearson Education. Upper Saddle River, NJ, 07458. All rights reserved.
Electronic Devices, 9th editionThomas L. Floyd
Buck Converter
VC
ton toff ton toff ton toff tonton toff ton toff ton toff ton
VC
VC
ton toff ton toff ton toff tonon/off control
VOUT
An increase in the duty cycle increases the output voltage.A decrease in the duty cycle decreases the output voltage.
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© 2012 Pearson Education. Upper Saddle River, NJ, 07458. All rights reserved.
Electronic Devices, 9th editionThomas L. Floyd
Buck Converter
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© 2012 Pearson Education. Upper Saddle River, NJ, 07458. All rights reserved.
Electronic Devices, 9th editionThomas L. Floyd
VINVOUT
R1Q1
R3
R2
RL
D1 C
D2
Variablepulse-widthoscillator
L
++
+–
C discharges
+ -
on
offL field builds
Boost Converter
In a step-up switching regulator, the control element operates as a rapidly pulsing switch to ground. The switch on and off times are controlled by the output voltage.
Step-up action is due to the fact the inductor changes polarity during switching and adds to VIN. Thus, the output voltage is larger than the input voltage.
VINVOUT
R1Q1
R3
R2
RL
D1 C
D2
Variablepulse-widthoscillator
L
++
+–
on
off
C charges
- +
L field collapsesVIN
VOUT
R1Q1
R3
R2
RL
D1 C
D2
Variablepulse-widthoscillator
L
++
+–
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© 2012 Pearson Education. Upper Saddle River, NJ, 07458. All rights reserved.
Electronic Devices, 9th editionThomas L. Floyd
Boost Converter