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Robert BoylestadDigital Electronics
Copyright ©2002 by Pearson Education, Inc.Upper Saddle River, New Jersey 07458
All rights reserved.
Chapter 18:Power Supplies
(Voltage Regulators)
Slide 1
Robert BoylestadDigital Electronics
Copyright ©2002 by Pearson Education, Inc.Upper Saddle River, New Jersey 07458
All rights reserved.
Power Supply Diagram
Slide 2
Robert BoylestadDigital Electronics
Copyright ©2002 by Pearson Education, Inc.Upper Saddle River, New Jersey 07458
All rights reserved.
Filter Circuits
The output from the rectifier section is a pulsating DC. The filter circuit reduces the peak-to-peak pulses to a small ripple voltage.
Slide 3
Robert BoylestadDigital Electronics
Copyright ©2002 by Pearson Education, Inc.Upper Saddle River, New Jersey 07458
All rights reserved.
Ripple Factor
After the filter circuit a small amount of AC is still remaining. The amount of ripple voltage can be rated in terms of Ripple Factor (r).
[Formula 18.1]100Vdc
(rms)V
voltagedc
(rms) voltageripple%r
r
Slide 4
Robert BoylestadDigital Electronics
Copyright ©2002 by Pearson Education, Inc.Upper Saddle River, New Jersey 07458
All rights reserved.
Half-wave Rectifier Ripple Factor
DC output:
AC Ripple output:
Ripple Factor:
(Note Vm is the peak rectifier output voltage.)
[Formula 18.3]
[Formula 18.4]
[Formula 18.5]
0.318VmVdc
0.385Vm(rms)Vr
121%1000.318Vm
0.385Vm100
Vdc
(rms)V%r
r
Slide 5
Robert BoylestadDigital Electronics
Copyright ©2002 by Pearson Education, Inc.Upper Saddle River, New Jersey 07458
All rights reserved.
Full-wave Rectifier Ripple Factor
DC output:
AC Ripple output:
Ripple Factor:
The full-wave rectifier has a significantly lower ripple factor.
[Formula 18.6]
[Formula 18.7]
[Formula 18.8]
0.636VmVdc
0.308Vm(rms)Vr
%481000.636Vm
0.308Vm100
Vdc
(rms)V%r
r
Slide 6
Robert BoylestadDigital Electronics
Copyright ©2002 by Pearson Education, Inc.Upper Saddle River, New Jersey 07458
All rights reserved.
Types of Filter Circuits
•Capacitor Filter•RC Filter
Slide 7
Robert BoylestadDigital Electronics
Copyright ©2002 by Pearson Education, Inc.Upper Saddle River, New Jersey 07458
All rights reserved.
Capacitor Filter
Slide 8
Robert BoylestadDigital Electronics
Copyright ©2002 by Pearson Education, Inc.Upper Saddle River, New Jersey 07458
All rights reserved.
Ripple Voltage with a Capacitor Filter
The larger the capacitor the smaller the ripple voltage.
A capacitor significantly reduces the AC content of the rectified signal.
Ripple Voltage: [Formula 18.9]CR
2.4Vdc
C
2.4Idc
fC34
Idc(rms)V
Lr
Slide 9
Robert BoylestadDigital Electronics
Copyright ©2002 by Pearson Education, Inc.Upper Saddle River, New Jersey 07458
All rights reserved.
DC Output with a Capacitor Filter
A capacitor increases the DC output.
Dc Output:
Note: Vm = peak rectified voltage IDC is the load current in mA.
[Formula 18.10]C
4.17IdcVm
4fC
IdcVmVdc
Slide 10
Robert BoylestadDigital Electronics
Copyright ©2002 by Pearson Education, Inc.Upper Saddle River, New Jersey 07458
All rights reserved.
Ripple Factor with a Capacitor Filter
The capacitor reduces the ripple factor.
Ripple Factor: [Formula 18.11]100CR
2.4100
CVdc
2.4Idc100
Vdc
(rms)V%r
L
r
Slide 11
Robert BoylestadDigital Electronics
Copyright ©2002 by Pearson Education, Inc.Upper Saddle River, New Jersey 07458
All rights reserved.
Diode Ratings with Capacitor Filter
The size of the capacitor increases the current drawn through the diodes. The larger the capacitance, the greater the amount of current.
Peak Current vs. Capacitance:
C = capacitanceV = change in capacitor voltage during charge/discharget = the charge/discharge time
A smaller capacitor will reduce the peak current through the diodes.
t
CVI
Slide 12
Robert BoylestadDigital Electronics
Copyright ©2002 by Pearson Education, Inc.Upper Saddle River, New Jersey 07458
All rights reserved.
RC Filter Circuit
Adding an RC section will further reduce the ripple voltage and decrease the surge current through the diodes.
Slide 13
Robert BoylestadDigital Electronics
Copyright ©2002 by Pearson Education, Inc.Upper Saddle River, New Jersey 07458
All rights reserved.
Ripple Voltage in an RC Filter Circuit
The ripple voltage is significantly reduced by the addition of an RC circuit.
Ripple Voltage: [Formula 18.14]
Vr(rms) = ripple voltage after the RC filterVr(rms) = ripple voltage before the RC filterR = resistor in the added RC filterXC = reactance of the capacitor in the added RC filter
(rms)VR
X(rms)V r
Cr
Slide 14
Robert BoylestadDigital Electronics
Copyright ©2002 by Pearson Education, Inc.Upper Saddle River, New Jersey 07458
All rights reserved.
Voltage Regulation
The amount of variation in DC output voltage due to varying loads from no-load to full-load is called voltage regulation.
Voltage Regulation: [Formula 18.2]
VNL = no-load voltageVFL = full-load voltage
100%V
VV%VR
FL
FLNL
Slide 15
Robert BoylestadDigital Electronics
Copyright ©2002 by Pearson Education, Inc.Upper Saddle River, New Jersey 07458
All rights reserved.
Voltage Regulation Circuits
There are two common types of circuitry for voltage regulation:
A.Discrete TransistorsB. IC’s
Slide 16
Robert BoylestadDigital Electronics
Copyright ©2002 by Pearson Education, Inc.Upper Saddle River, New Jersey 07458
All rights reserved.
A. Discrete Transistors
1. Series Voltage Regulation Circuit2. Current Limiting Circuit3. Shunt Voltage Regulation Circuit
Slide 17
Robert BoylestadDigital Electronics
Copyright ©2002 by Pearson Education, Inc.Upper Saddle River, New Jersey 07458
All rights reserved.
1. Series Voltage Regulation Circuit
The series element controls the amount of the input voltage that gets to the output.
If the output voltage increases (or decreases), the comparator circuit provides a control signal to cause the series control element to decrease (or increase) the amount of the output voltage.
Slide 18
Robert BoylestadDigital Electronics
Copyright ©2002 by Pearson Education, Inc.Upper Saddle River, New Jersey 07458
All rights reserved.
Series Voltage Regulation Circuit Sample Circuit
R1 and R2 act as the sampling circuit~ Zener provides the reference voltage~ Q2 controls the base current to Q1.~ Q1 maintains the constant output voltage
If the output increases ~ The voltage through R1 and R2 increases at V2, VBE of Q2 increases,
causing Q2 to conduct more, and making less available to Q1, which conducts less ~ output voltage decreases.
If the output voltage decreases ~ the opposite happens.
Slide 19
Robert BoylestadDigital Electronics
Copyright ©2002 by Pearson Education, Inc.Upper Saddle River, New Jersey 07458
All rights reserved.
Series Voltage Regulation Circuit Sample Circuit
An op-amp is used as the comparator circuit
The op-amp compares the Zener diode voltage to the output voltage (via R1 and R2) and controls the conduction of Q1.
Slide 20
Robert BoylestadDigital Electronics
Copyright ©2002 by Pearson Education, Inc.Upper Saddle River, New Jersey 07458
All rights reserved.
2. Current-Limiting Circuit
As IL increases, the voltage drop across RSC (short circuit sensing R) increases.
When the voltage across RSC is large enough, it drives Q2 on,
diverting current away from the base of Q1,thereby reducing current through Q1 and the load.
Slide 21
Robert BoylestadDigital Electronics
Copyright ©2002 by Pearson Education, Inc.Upper Saddle River, New Jersey 07458
All rights reserved.
3. Shunt Voltage Regulation Circuit
The shunt voltage regulator shunts current away from the load. The load voltage is sampled and fed back to a comparator circuit. If the load voltage is too high, control circuitry shunts more current away from the load.
Slide 22
Robert BoylestadDigital Electronics
Copyright ©2002 by Pearson Education, Inc.Upper Saddle River, New Jersey 07458
All rights reserved.
3. Shunt Voltage Regulation Sample Circuit
If the voltage across the load increases above the Zener voltage, Q2 turns on,
which causes Q1 to conduct and current is shunted away through Q1.
Slide 23
Robert BoylestadDigital Electronics
Copyright ©2002 by Pearson Education, Inc.Upper Saddle River, New Jersey 07458
All rights reserved.
3. Shunt Voltage Regulation Sample Circuit
The op-amp acts as a comparator circuit. If the load voltage exceeds the Zener voltage,
Q1 turns on and shunts current away from the load.
Slide 24
Robert BoylestadDigital Electronics
Copyright ©2002 by Pearson Education, Inc.Upper Saddle River, New Jersey 07458
All rights reserved.
B. IC Voltage Regulators
Regulator ICs contain:•Comparator circuit•Reference Voltage•Control circuitry•Overload protection
Slide 25
Robert BoylestadDigital Electronics
Copyright ©2002 by Pearson Education, Inc.Upper Saddle River, New Jersey 07458
All rights reserved.
IC Voltage Regulator Types
Three-Terminal Voltage Regulators
1. Fixed Positive Voltage Regulator2. Fixed Negative Voltage Regulator3. Adjustable Voltage Regulator
Slide 26
Robert BoylestadDigital Electronics
Copyright ©2002 by Pearson Education, Inc.Upper Saddle River, New Jersey 07458
All rights reserved.
Three-Terminal Voltage Regulators
The specifications for this IC indicate •the range of input voltages that can be regulated for a specific output voltage and load current range•load regulation: variation in output voltage with variations in load current•line regulation: variation in output voltage with variations in input voltage
Slide 27
Robert BoylestadDigital Electronics
Copyright ©2002 by Pearson Education, Inc.Upper Saddle River, New Jersey 07458
All rights reserved.
1. Fixed Positive Voltage Regulator
These ICs provide a fixed positive output voltage.
Slide 28
Robert BoylestadDigital Electronics
Copyright ©2002 by Pearson Education, Inc.Upper Saddle River, New Jersey 07458
All rights reserved.
2. Fixed Negative Voltage Regulator
These ICs output a fixed negative output voltage.
Slide 29
Robert BoylestadDigital Electronics
Copyright ©2002 by Pearson Education, Inc.Upper Saddle River, New Jersey 07458
All rights reserved.
3. Adjustable Voltage Regulator
These regulators have adjustable output voltages. The output voltage is commonly selected using a potentiometer.
Slide 30
Robert BoylestadDigital Electronics
Copyright ©2002 by Pearson Education, Inc.Upper Saddle River, New Jersey 07458
All rights reserved.
Practical Power Supplies
•DC Supply (Linear Power Supplies)•Chopper Supply (Switching Power Supplies)•TV Horizontal High Voltage Supply•Battery Charger Circuits