Radio and Electronics (DED Philippinen, 66 p.): 11. ACTIVE COMPONENTS -2- / TRANSISTORS: 11.2. CHARACTERISTICS OF TRANSISTORS: (introduction...)

Radio and Electronics (DED Philippinen, 66 p.)

(introduction...)

1. INTRODUCTION

(introduction...)

1.1. A TRIAL TO STATE A DEFINITION OF ELECTRONICS

1.2. A SHORT HISTORY OF ELECTRONICS

1.3. CLASSIFICATION OF ELECTRONIC DEVICES

2. PRINCIPLES OF RADIO COMMUNICATION UNICATION

2.1. BASICAL IDEAS ABOUT COMMUNICATION

2.2. DEVELOPMENT OF LONG DISTANCE COMMUNICATION

2.3. FIDELITY AND DISTORTION

3. TRANSDUCERS

(introduction...)

3.1. MICROPHONES

3.2. LOUDSPEAKERS

3.3. THE TELEPHON SYSTEM

3.4. PROBLEM OF FREQUENCY RANGES

3.5. BANDWIDTH

4. RADIOWAVES

(introduction...)

4.1. ORIGIN OF RADIOWAVES

4.2. PARAMETERS OF ELECTROMAGNETIC WAVES

4.3. PROPAGATION OF RADIOWAVES

4.4. SPECTRUM OF RADIOWAVES AND BANDS OF RADIOWAVES

5. MODULATION OF RADIOWAVES

(introduction...)

5.1. THE AMPLITUDE MODULATION (AM)

5.2. FREQUENCY MODULATION (FM)

5.3. SIDEBANDS

5.4. TRANSMISSION OF RADIOSIGNALS

6. RECEPTION OF RADIOSIGNALS (AM - TYPE)

6.1. AERIAL

6.2. THE TUNED CIRCUIT

6.3. INCIDENTAL REMARK ON BLOCK DIAGRAMS

6.4. DETECTOR OR DEMODULATOR

6.5. POWER SUPPLY

6.6. AMPLIFIER

6.7. SUPERHET RECEIVER (the SUPER)

6.8 INCIDENTAL REMARK ON MIXING FREQUENCIES

6.9. CONSTRUCTION OF A SUPERHETRADIO

7. COMPONENTS OF MODERN RADIO RECEIVERS

7.1.1. HANDLING OF ELECTRONIC COMPONENTS

7.1.2. HANDLING OF PRINTED CIRCUITS

7.1.3. DIFFERENTIATION OF COMPONENTS

8. PASSIVE COMPONENTS

8.1. RESISTORS ELECTRICAL CHARACTERISTICS

8.2. CAPACITORS

8.3. INDUCTORS

8.4. COMBINATION OF PASSIVE COMPONENTS

8.4.1. SERIES CONNECTION OF R AND C, OR R AND L

8.4.2. COMBINATION OF L AND C, RESONANT (TUNED) CIRCUITS

8.4.3. TUNED CIRCUIT CONNECTED TO AN AC-VOLTAGE

(introduction...)

8.4.4.1. QUALITY OF TUNED CIRCUITS

8.4.4.2. BANDWIDTH

9. ACTIVE COMPONENTS -1- DIODES

9.1. CHARACTERISTICS OF SEMICONDUCTORS

9.2. THE PN-JUNCTION OR DIODE

(introduction...)

9.2.1. PN-JUNCTION CONNECTED TO VOLTAGE

9.2.2. CHARACTERISTICS OF A PN-JUNCTION OR DIODE

9.2.3. ZENERDIODE

10. BLOCKS OF RADIOS / -1- / POWER SUPPLIES

10.1. GENERAL CONSIDERATIONS

10.2. TRANSFORMER

10.3. THE RECTIFIERS.

10.4. SMOOTHING AND FILTER CIRCUITS

10.4.1. THE RESERVOIR CAPACITOR

10.4.2. FILTER CIRCUITS

10.5. STABILIZATION

10.5.1. GENERAL REMARKS

10.5.1.1. LOAD VARIATIONS

10.5.1.2. INTERNAL RESISTANCE OF VOLTAGESOURCES

10.5.1.3. PROBLEMS CAUSED BY THE SMOOTHING CIRCUIT

10.5.5. METHODS OF STABILIZATION

(introduction...)

10.5.5.1. PARALLEL-STABILIZATION

10.5.2.2. SERIES STABILIZATION

11. ACTIVE COMPONENTS -2- / TRANSISTORS

11.1. CONSTRUCTION OF A TRANSISTOR

11.2. CHARACTERISTICS OF TRANSISTORS

(introduction...)

11.2.1 HANDLING OF CHARACTERISTICS OF TRANSISTORS

11.2.1.1. CONSTRUCTION OF THE STATIC-MUTUAL-CHARACTERISTICS

11.2.1.2. CONSTRUCTION OF THE DYNAMIC MUTUAL CHARACTERISTICS

11.2.1.3. CONSTRUCTION OF THE MAXIMUM-POWER-LINE

12. AMPLIFIERS

(introduction...)

12.1. STRUCTURE OF A CLASS A AMPLIFIER

12.2. FUNCTION OF A SIMPLE CLASS A AMPLIFIER

12.3. ADVANCED CLASS A AMPLIFIER

12.4. STABILIZATION OF THE QUIESCENT VOLTAGE

13. CLASS B AMPLIFIERS

13.1. LIMITS OF CLASS A AMPLIFIERS

13.2. CLASS B AMPLIFIERS WITH TRANSFORMERS

13.3. CLASS B AMPLIFIERS WITHOUT TRANSFORMERS

13.4. POWER AMPLIFIER WITH COMPLIMENTARY TRANSISTORS.

14. DETECTOR OR DEMODULATOR

15. AGC-AUTOMATIC GAIN CONTROL

16. IF-AMPLIFIERS

17. FEEDBACK

18. OSCILLATORS

19. FREQUENCY CHANGERS MIXERSTAGE

20. DECOUPLING CIRCUITS

21. MATCHING OF AMPLIFIERSTAGES

22. COUPLING OF AMPLIFIERSTAGES

23. RADIO SERVICING

23.1. IMPORTANCE AND SUBJECT OF FAULT FINDING

23.2. FAULTS AND FAULT FINDING

23.3. FAULT FINDING METHODS

24. THE USE OF THE OSCILLOSCOPE

(introduction...)

If a technician wants to use transistor in a certain electronic device, he has to know first exactly how it will work under the conditions given in this very circuit. To make it possible to predict the function of such a transistor, the producers of transistors supply the users with so called “data sheets”.

Beside a lot of values given directly in those data sheets, they are also plotting the most important characteristics of the transistors.

FIELD OF CHARACTERISTICS

If we consider for a moment again our transistor we find our easily that there are four electrical factors on which it is depending on.

- the base-emitter voltage	V_BE
- the base-current	I_B
- the collector-emitter voltage	V_CE, and
- the collector-current	I_C

To make the relations between those factors more obvious, we find nowadays very often the so called

FOUR-QUADRANT-FIELD

Fig. 130 shows a plot of such a kind.

fig. 130

The four quadrants are called:

QUADRANT 3 - shows the relation between the base-current and the base-emitter voltage. This is always a graph very similar as the graph of a diode, only turned around, so that it fits into this part of the field. So the base and the emitter are connected to the input of the common-emitter-connection, the characteristics is called the INPUT-CHARACTERISTICS.
This term can be understood too if you think about the explanation of the function of a transistor, where the base current was described as the precondition for the collector current.
QUADRANT 1 - shows the relation of the collector-current and the collector-emitter-voltage. We can see it also as the representation of the resistance between collector and emitter. So this resistance is depending on the base current, there are different graphs, for different amounts of base-current. Because the collector and the emitter are connected to the output side of a common-emitter connection, the characterics shown in this quadrant are called OUTPUT-CHARACTERISTICS.
QUADRANT 2 - represents the relation between the collector-current and the base-current. This means, it shows the relation between one factor which is part of the input side of the circuit and another which is part of the output side. Therefore this graph is called the MUTUAL-CHARACTERISTICS.
QUADRANT 4 - is used very rarely and only its name shall be only mentioned here: FEEDBACK CHARACTERISTICS-