Post on 23-Jan-2020
transcript
By:
Dr. Ahmed ElShafee
Dr. Ahmed ElShafee, ACU : Fall 2019, Electronic Circuits I1
Lecture (06)Diode
Applications III / Zener diode
power supply filters and regulators
• A power supply filter ideally eliminates the fluctuations in the output voltage of a halfwave or full‐wave rectifier and produces a constant‐level dc voltage
• Filtering is necessary because electronic circuits require a constant source of dc voltage and current to provide power and biasing for proper operation.
• Filters are implemented with capacitors,
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• The 50Hz pulsating dc output of a half‐wave rectifier or the 100 Hz pulsating output of a full‐wave rectifier
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• Figure shows filtering concept giving a nearly smooth dc output voltage from the filter.
• The small amount of fluctuation in the filter output voltage is called ripple.
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• Capacitor‐Input Filter
• During the positive first quarter‐cycle of the input, the diode is forward‐biased, allowing the capacitor to charge to within 0.7 V of the input peak
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• When the input begins to decrease below its peak,, the capacitor retains its charge and the diode becomes reverse‐biased because the cathode is more positive than the anode.
• During the remaining part of the cycle, the capacitor can discharge only through the load resistance at a rate determined by the RLC time constant, which is normally long compared to the period of the input.
• The larger the time constant, the less the capacitor will discharge.
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• During the first quarter of the next cycle, as illustrated , the diode will again become forward‐biased when the input voltage exceeds the capacitor voltage by approximately 0.7 V.
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• Ripple Voltage
• The variation in the capacitor voltage due to the charging and discharging is called the ripple voltage
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• a full‐wave rectifier is twice that of a half‐wave rectifier, easier to filter because of the shorter time between peaks.
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• Ripple Factor The ripple factor (r) is an indication of the effectiveness of the filter and is defined as
• where Vr(pp) is the peak‐to‐peak ripple voltage and VDC is the dc (average) value of the filter’s output voltage,
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Example 05
• Determine the ripple factor for the filtered bridge rectifier with a load as indicated in Figure
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• Surge Current in the Capacitor‐Input Filter
• At the instant the switch is closed, voltage is connected to the bridge and the uncharged capacitor appears as a short
• This produces an initial surge of current, Isurge,
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• The worst‐case situation occurs when the switch is closed at a peak of the secondary voltage and a maximum surge current, Isurge(max),
• A fuse is generally used because of the surge current that initially occurs when power is first turned on.
• The fuse rating is determined by power calculation.
• in an ideal transformer Pin = Pout
• The fuse rating should be at least 20% larger than the calculated value of Ipri.
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Voltage Regulators
• Three‐terminal regulators designed for fixed output voltages require only external capacitors to complete the regulation portion of the power supply
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• Filtering is accomplished by a large‐value capacitor between the input voltage and ground.
• An output capacitor 0.1 uf to 1uf (typically ) is connected from the output to ground to improve the transient response.
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• Percent Regulation
• The regulation expressed as a percentage, It can be in terms of
– input (line) regulation or
– load regulation.
• Line Regulation: a ratio of a change in output voltage for a corresponding change in the input voltage expressed as a percentage
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• Load Regulation: how much change occurs in the output voltage over a certain range of load current values,
• from minimum current (no load, NL) to maximum current (full load, FL).
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Example 06
• A certain 7805 regulator has a measured no‐load output voltage of 5.18 V and a fullload output of 5.15 V. What is the load regulation expressed as a percentage
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• A certain 7805 regulator has a measured no‐load output voltage of 5.18 V and a fullload output of 5.15 V. What is the load regulation expressed as a percentage
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Zener Diode
• A zener diode is a silicon pn junction device that is designed for operation in the reverse‐breakdown region.
• when a diode reaches reverse breakdown, its voltage remains almost constant even though the current changes drastically, and this is the key to zener diode operation.
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• This volt‐ampere characteristic is shown again in Figure with the normal operating region for zener diodes shown as a shaded area.
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• Zener Regulation The ability to keep the reverse voltage across its terminals essentially constant is the key feature of the zener diode.
• A zener diode operating in breakdown acts as a voltage regulator because it maintains a nearly constant voltage across its terminals over a specified range of reverse‐current values.
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Breakdown Characteristics
• A minimum value of reverse current, IZK, must be maintained in order to keep the diode in breakdown for voltage regulation
• maximum current, IZM, above which the diode may be damaged due to excessive power dissipation.
• A nominal zener voltage, VZ, is usually specified on a datasheet at a value of reverse current called the zener test current
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Zener Equivalent Circuits
• Ideal model
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Practical Model
• zener impedance (resistance), ZZ
• It is best to avoid operating a zenerdiode near the knee of the curve because the impedance changes dramatically in that area. Dr. Ahmed ElShafee, ACU : Fall 2016, Electronic Circuits28
Example 01
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Example 01
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Example 02
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Example 04
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Example 04
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Example 03
• Determine the minimum and the maximum input voltages that can be regulated by the zener diode in Figure
• for the 1N4733A: VZ 5.1 V
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Example 03
• for the 1N4733A: VZ 5.1 V
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Example
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Example
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Thanks,..
See you next week (ISA),…
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