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Diodes and PSU
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Bode example. Introduction. Slew-Rate. Figure 3.3 (a) Rectifier circuit. (b) Input waveform. ... Bode example. Introduction. Slew-Rate. Look page 148-150 for ... – PowerPoint PPT presentation
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Title: Diodes and PSU
1
Diodes and PSU
Analog Electronics and Actuators
- Bo Rohde Pedersen
- Aalborg University Esbjerg
2
Diodes
Rectifier
PSU
Exercise
Introduction
Other Diodes
Today's Agenda
Diodes Other Diodes Rectifier PSU Build mini PSU
Analog Electronics and Actuators by Bo Rohde
Pedersen 2
3
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Introduction
Slew-Rate
Diodes
Rectifier
PSU
Exercise
Introduction
Other Diodes
Readings
Page 139-189 Diode diode overgang,
ensratning/strømforsyning Page 377-410 The
current amplifier the transistor.
Analog Electronics and Actuators by Bo Rohde
Pedersen 3
4
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Introduction
Slew-Rate
Diodes
Rectifier
PSU
Exercise
Introduction
Other Diodes
Ideal Diode Current Voltage
Analog Electronics and Actuators by Bo Rohde
Pedersen 4
5
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Introduction
Slew-Rate
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Introduction
Slew-Rate
Diodes
Rectifier
PSU
Exercise
Introduction
Other Diodes
PSU Rectifier
Figure 3.3 (a) Rectifier circuit. (b) Input
waveform. (c) Equivalent circuit when vI ? 0.
(d) Equivalent circuit when vI ? 0. (e) Output
waveform.
Analog Electronics and Actuators by Bo Rohde
Pedersen 5
6
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Introduction
Slew-Rate
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Introduction
Slew-Rate
Diodes
Rectifier
PSU
Exercise
Introduction
Other Diodes
Current in Diode
Analog Electronics and Actuators by Bo Rohde
Pedersen 6
7
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Introduction
Slew-Rate
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Introduction
Slew-Rate
Diodes
Rectifier
PSU
Exercise
Introduction
Other Diodes
The i-v Characteristic (Silicon)
Look page 148-150 for equations
Analog Electronics and Actuators by Bo Rohde
Pedersen 7
8
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Introduction
Slew-Rate
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Introduction
Slew-Rate
Diodes
Rectifier
PSU
Exercise
Introduction
Other Diodes
Forward Characteristic, Temperature
Analog Electronics and Actuators by Bo Rohde
Pedersen 8
9
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Introduction
Slew-Rate
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Introduction
Slew-Rate
Diodes
Rectifier
PSU
Exercise
Introduction
Other Diodes
F. Characteristic Current-Voltage
See page 166
Analog Electronics and Actuators by Bo Rohde
Pedersen 9
10
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Introduction
Slew-Rate
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Introduction
Slew-Rate
Diodes
Rectifier
PSU
Exercise
Introduction
Other Diodes
The Superdiode
Analog Electronics and Actuators by Bo Rohde
Pedersen 10
11
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Introduction
Slew-Rate
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Introduction
Slew-Rate
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Introduction
Slew-Rate
Diodes
Rectifier
PSU
Exercise
Introduction
Other Diodes
Zener Diode
Analog Electronics and Actuators by Bo Rohde
Pedersen 11
12
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Introduction
Slew-Rate
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Introduction
Slew-Rate
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Introduction
Slew-Rate
Diodes
Rectifier
PSU
Exercise
Introduction
Other Diodes
PSU
Analog Electronics and Actuators by Bo Rohde
Pedersen 12
13
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Introduction
Slew-Rate
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Slew-Rate
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Slew-Rate
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Slew-Rate
Diodes
Rectifier
PSU
Exercise
Other Diodes
The Half-Wave Rectifier
Analog Electronics and Actuators by Bo Rohde
Pedersen 13
14
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Introduction
Slew-Rate
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Slew-Rate
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Slew-Rate
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Slew-Rate
Diodes
Rectifier
PSU
Exercise
Other Diodes
Full-Wave Rectifier
Analog Electronics and Actuators by Bo Rohde
Pedersen 14
15
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Introduction
Slew-Rate
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Slew-Rate
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Slew-Rate
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Slew-Rate
Diodes
Rectifier
PSU
Exercise
Other Diodes
The Bridge Rectifier
Analog Electronics and Actuators by Bo Rohde
Pedersen 15
16
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Introduction
Slew-Rate
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Slew-Rate
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Slew-Rate
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Slew-Rate
Diodes
Rectifier
PSU
Exercise
Other Diodes
Rectifier with a Filter Capacitor, no Current
Analog Electronics and Actuators by Bo Rohde
Pedersen 16
17
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Introduction
Slew-Rate
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Slew-Rate
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Slew-Rate
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Slew-Rate
Diodes
Rectifier
PSU
Exercise
Other Diodes
Rectifier with a Filter Capacitor, with Current
Analog Electronics and Actuators by Bo Rohde
Pedersen 17
18
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Introduction
Slew-Rate
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Slew-Rate
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Slew-Rate
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Slew-Rate
Diodes
Rectifier
PSU
Exercise
Other Diodes
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Introduction
Slew-Rate
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Slew-Rate
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Slew-Rate
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Slew-Rate
Diodes
Rectifier
PSU
Exercise
Other Diodes
Ripple Voltage
Analog Electronics and Actuators by Bo Rohde
Pedersen 18
19
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Introduction
Slew-Rate
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Slew-Rate
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Slew-Rate
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Slew-Rate
Diodes
Rectifier
PSU
Exercise
Other Diodes
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Introduction
Slew-Rate
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Slew-Rate
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Slew-Rate
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Slew-Rate
Diodes
Rectifier
PSU
Exercise
Other Diodes
Voltage Regulator by Zener Diode
The current can be amplified with a transistor.
Analog Electronics and Actuators by Bo Rohde
Pedersen 19
20
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Introduction
Slew-Rate
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Introduction
Slew-Rate
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Slew-Rate
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Slew-Rate
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Slew-Rate
Diodes
Rectifier
PSU
Exercise
Other Diodes
Voltage Regulator
Analog Electronics and Actuators by Bo Rohde
Pedersen 20
21
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Introduction
Slew-Rate
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Introduction
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Introduction
Slew-Rate
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Slew-Rate
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Slew-Rate
Efficiency
Modelling
System Ident.
Conclusion
Nonlinear Efficiency
Open Loop Gain
DC Offset
Int and Diff
Bode example
Slew-Rate
Diodes
Rectifier
PSU
Exercise
Other Diodes
Make a mini PSU with Zener stabilisation
Use the AC power supply in the lab as
transformer. Make a bridge rectifier, measure
with osc. Add a capacitor and loud. Make a Zener
rectifier.
Analog Electronics and Actuators by Bo Rohde
Pedersen 21
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