chapter 18 power supplies. objectives describe and analyze: power supply systems regulation buck...
TRANSCRIPT
CHAPTER 18
Power
Supplies
Objectives
Describe and Analyze:• Power Supply Systems• Regulation• Buck & Boost Regulators• Flyback Regulators• Off-Line Power Supplies• Troubleshooting
Introduction
• Electronic equipment requires DC power. But electricity is distributed as AC.
• Power supplies convert AC to a steady DC.• They must work with minimum AC voltage
as well as maximum AC voltage.• Regulator circuits keep DC voltage constant.• Some power supplies convert one DC
voltage into another DC voltage.
Block Diagram
<insert figure 18-2 here>
Regulation
• Regulation is a measure of how well a power supply can hold its DC output steady as its operating point changes.
• Two things make up the operating point:– The AC input voltage.– The current drawn by the load on the DC output.
• Line regulation measures the effect of the AC input.• Load regulation measures the effect of the DC load.• A value of 0% means perfect regulation.
Load Regulation• A perfect power supply would have a constant DC
output voltage as the DC load current varied from 0 to the maximum level.
• The output of real power supplies changes slightly with the load current.
VNL = DC output voltage with no load current.
VFL = DC output voltage with maximum load current.
Load Regulation = ([VNL – VFL] / VFL) 100%
Line Regulation
• A perfect power supply would have a constant DC output voltage as the AC input voltage varied between specified minimum and maximum levels.
• The output of real power supplies changes slightly with the AC input voltage.
• Line Regulation can be calculated as a percentage of rated DC output (%R) or as a percentage per volt (%R/VAC) of AC change:
%R = [Vout / Vout(rated)] 100%
%R / VAC = %R / VAC
Linear vs. Switching
Low efficiency limits linear to low-power applications.
Linear vs. Switching• Switchers are more efficient, but also more
complicated.• Switching control circuitry available in an IC.• Switchers require high-speed transistors.• Switching speeds from 50 kHz to 500 kHz or higher
are common. Can generate electrical noise (EMI).• Switcher efficiency due to transistor being either ON
or OFF. • Linears are simple, and can be inexpensive.
Linear Supplies
A typical linear supply design.
Linear Supplies• Linears require a large, heavy, 60 Hz transformer.• Require large filter capacitors.• Dissipate heat in the series pass transistor. Requires a
heat sink, and maybe a fan.• Easier to have an adjustable DC output voltage than it is
with switchers.• Often used for “bench” supplies for powering circuits
under test.• Linears often have better regulation and less ripple and
noise than switchers.
Linear Supplies
Typical linear regulator circuit.
3-Terminal Regulators
A typical circuit, good for about an Amp or less.
3-Terminal Regulators• Fixed-voltage 3-terminal regulator ICs allow simple
linear supplies at 1 Amp DC or less.• 78XX are positive voltage regulators (7805 = 5 Volts,
7812 = 12 Volts, etc.).• 79XX are negative voltage regulators (7905 = –5
Volts, 7912 = –12 Volts, etc.).• Typically housed in a TO-220 case, but available in a
TO-92 case for currents under 100 mA.• LM317 is an adjustable 3-terminal regulator.
Switching Regulators
<insert figure 18-22 here>
Switching Regulators
Typical switching waveforms.
Switching Regulators
• The previous slide showed the basic components of a switching regulator:– A Switch: typically an E-MOSFET.– An Inductor: often a few turns of wire on a ferrite core. – A Switching Diode: must be fast; it carries the inductor
discharge current when the switch opens.– A Filter: typically a Tantalum electrolytic; a few F.– The Load: unlike linears, switchers don’t like to be run
without a load. Typically, switchers achieve higher efficiency with higher load current.
Switching Regulators
• There are many types of switchers. Here are a few common ones:
– Buck: Vout is lower than Vin
– Boost: Vout is higher than Vin
– Flyback: Vout polarity opposite Vin
• The inductor in a Flyback can be made as a transformer, allowing Vout to be higher or lower, same or opposite polarity.
Boost Regulator
Flyback Regulator
Off-Line Switching Supply
Switching Regulator IC
One of many.
Troubleshooting• Be careful! If possible, use an isolation
transformer when testing off-line supplies. Don’t touch a transistor to see if it is hot.
• Replace a bad fuse only once. If it blows again, there is a reason.
• First check the components that are under stress from high voltage, high current, high temperature. That includes filter capacitors, power transistors, rectifiers, and switching diodes.
• Look for components that are discolored, swollen, cracked, or show other show signs of damage.