Electronics I

Photo: Prof. Dr.-Ing. Stephan Kühne
Prof. Dr.-Ing.
Stephan Kühne
st.kuehne(at)hszg.de
Faculty of Electrical Engineering and Computer Science
02763 Zittau
Theodor-Körner-Allee 16
Building Z I, Room 1.32
1st floor
+49 3583 612-4381

Summer semester: Lecture: 2 SWS
Final performance: Examination (90 min)
Admission requirement: Participation in the course Electronics I

1 Ohmic resistor as a passive component    

1. passive components
1.1. resistors
1.1.1. general description
1.1.2. temperature dependence of ohmic resistance
1.1.3. static characteristic values of resistors
1.1.4. resistance values/resistance series
1.1.5. resistor networks

2 Potentiometers

1.2. potentiometers
1.3. digital potentiometers

3 Ohmic resistance as a calculated variable

1.4 Resistance characteristics, differential and DC voltage
            and DC resistance
              Example task Non-linear resistance characteristics

4 Thermistors / PTC thermistors

1.5. temperature-dependent resistors
1.5.1. thermistors
1.5.2. PTC thermistors Example task PTC thermistors PT 100
1.5.3. Temperature-dependent voltage sources Example task
                Practical amplifier circuit Example task Stationary
                Characteristic of a thermistor

5 Linearization of characteristic curves

1.5.4 Linearization of thermistor/ PTC thermistor characteristics

6 Varistors

1.6 Voltage-dependent resistors - varistors
1.6.1 Example task for graphically determining the control factor
                and the form constant and operating point of a varistor,
1.6.2 Parametric and parameter-free representation

7 Numerical solution methods

1.7 Numerical solution methods for electronic circuits
            with non-linear components
1.7.1. insertion method
1.7.2. method according to Gauss-Newton Example task series connection
                of a diode and of an active two-pole

8 Capacitors

1.8 Capacitors

9 Coils

1.9 Coils

10 Conduction mechanisms

2. semiconductor diodes
2.1. conduction mechanisms
2.1.1. intrinsic conduction of semiconductors
2.1.2. impurity conduction of semiconductors
2.1.3. PN junction

11 Rectifier diodes

2.2 Rectifier diodes/diode characteristics
2.2.1 General information

2.2.2. temperature behavior
2.2.3. static losses
2.2.4. dynamic losses (switching losses)

12 Half-wave rectifier

2.3. rectifier circuits
2.3.1. half-wave rectification
2.3.2. half-wave rectifier with resistive-inductive load
2.3.3. half-wave rectifier with resistive-capacitive load

13 Multi-path rectifier

2.3.4. B2 bridge circuit
2.3.5. M2 midpoint circuit
2.3.6. B6 bridge circuit

14 Zener diodes

2.4. zener diodes
2.4.1. characteristic curve, breakdown effects, differential resistance
2.4.2. stabilization circuits with z-diodes
2.4.3. voltage stabilization as quality quantity