1. PowerPoint slides of selected figures from the textbook

2. Part 1: Circuits

3. 1 – Diodes Electronics – Circuits and Systems 3 rd edition. © 2007, Owen Bishop. Published by Elsevier Ltd. The V-I curve of a typical forward biased diode, made from silicon (p. 3)

4. 1 – Diodes Electronics – Circuits and Systems 3 rd edition. © 2007, Owen Bishop. Published by Elsevier Ltd. The V-I graph of a reverse biased Zener diode (p. 4)

5. 2 – Transistor switches Electronics – Circuits and Systems 3 rd edition. © 2007, Owen Bishop. Published by Elsevier Ltd. The MOSFET switches on the filament lamp when the light intensity falls below a given level (p. 10)

6. 2 – Transistor switches Electronics – Circuits and Systems 3 rd edition. © 2007, Owen Bishop. Published by Elsevier Ltd. The audible warning device sounds when the light intensity falls below a given level (p. 12)

7. 3 – Potential dividers Electronics – Circuits and Systems 3 rd edition. © 2007, Owen Bishop. Published by Elsevier Ltd. When a load is connected to the divider, it is in parallel with R2 (p. 26)

8. 4 – Capacitors Electronics – Circuits and Systems 3 rd edition. © 2007, Owen Bishop. Published by Elsevier Ltd. S1 is turned on at 0 seconds and vC (grey curve) begins rising to 10 V, as the capacitor charges (p. 36)

9. 5 – Using capacitors Electronics – Circuits and Systems 3 rd edition. © 2007, Owen Bishop. Published by Elsevier Ltd. Cross-connected BJT switches form a monostable pulse generator (p. 42)

10. 5 – Using capacitors Electronics – Circuits and Systems 3 rd edition. © 2007, Owen Bishop. Published by Elsevier Ltd. The basic 555 monostable circuit (p. 42)

11. 5 – Using capacitors Electronics – Circuits and Systems 3 rd edition. © 2007, Owen Bishop. Published by Elsevier Ltd. The 555 timer IC can also be used as an astable multivibrator (p. 43)

12. 5 – Using capacitors Electronics – Circuits and Systems 3 rd edition. © 2007, Owen Bishop. Published by Elsevier Ltd. Exchanging the capacitor and resistor result in the inverse action (p. 45)

13. 5 – Using capacitors Electronics – Circuits and Systems 3 rd edition. © 2007, Owen Bishop. Published by Elsevier Ltd. Amplitude increases at a steady rate with frequency up to about 1 kHz, After that, it begins to level off (p. 46)

14. 5 – Using capacitors Electronics – Circuits and Systems 3 rd edition. © 2007, Owen Bishop. Published by Elsevier Ltd. Measuring VIN and VOUT, using an oscilloscope (p. 48)

15. 6 – Fields Electronics – Circuits and Systems 3 rd edition. © 2007, Owen Bishop. Published by Elsevier Ltd. The effect of a magnetic field (H) of the magnetisation (B) of ferromagnetic material (p. 54)

16. 8 – MOSFET amplifiers Electronics – Circuits and Systems 3 rd edition. © 2007, Owen Bishop. Published by Elsevier Ltd. The source terminal is common to both the input and output sides of this MOSFET amplifier, so it is known as a common-source amplifier (p. 63)

17. 8 – MOSFET amplifiers Electronics – Circuits and Systems 3 rd edition. © 2007, Owen Bishop. Published by Elsevier Ltd. A common-drain MOSFET amplifier has unity voltage gain but high current gain (p. 67)

18. 9 – BJT amplifiers Electronics – Circuits and Systems 3 rd edition. © 2007, Owen Bishop. Published by Elsevier Ltd. In a common-emitter BJT amplifier the emitter terminal is common to both the input and output circuits (p. 72)

19. 9 – BJT amplifiers Electronics – Circuits and Systems 3 rd edition. © 2007, Owen Bishop. Published by Elsevier Ltd. The voltage output of a common-collector amplifier is always approximately 0.7 V lower than its input (p. 77)

20. 11 – Operational amplifiers Electronics – Circuits and Systems 3 rd edition. © 2007, Owen Bishop. Published by Elsevier Ltd. Graph plotted on logarithmic scales for both frequency and gain of an op amp (p. 92)

21. 11 – Operational amplifiers Electronics – Circuits and Systems 3 rd edition. © 2007, Owen Bishop. Published by Elsevier Ltd. In an inverting amplifier circuit, the input goes to the (–) terminal and there is negative feedback to that terminal (p. 94)

22. 11 – Operational amplifiers Electronics – Circuits and Systems 3 rd edition. © 2007, Owen Bishop. Published by Elsevier Ltd. Op amp drawn with its input terminals exchanged to make the diagram simpler (p. 97)

23. 12 – Applications of op amps Electronics – Circuits and Systems 3 rd edition. © 2007, Owen Bishop. Published by Elsevier Ltd. In an integrator, the output falls as charge flows toward plate A of the capacitor (p. 105)

24. 12 – Applications of op amps Electronics – Circuits and Systems 3 rd edition. © 2007, Owen Bishop. Published by Elsevier Ltd. An inverting Schmitt trigger uses positive feedback to give it its ‘snap’ action (p. 106)

25. 15 – Power amplifiers Electronics – Circuits and Systems 3 rd edition. © 2007, Owen Bishop. Published by Elsevier Ltd. In a Class B amplifier the transistors are biased so that they are off when there is no input signal (p. 128)

26. 17 – Power supplies Electronics – Circuits and Systems 3 rd edition. © 2007, Owen Bishop. Published by Elsevier Ltd. The diode rectifier bridge and the Zener diode give improved performance (p. 149)

27. 20 – Logical combinations Electronics – Circuits and Systems 3 rd edition. © 2007, Owen Bishop. Published by Elsevier Ltd. The output of this parity tree goes high if the 8-bit input contains an odd number of 1’s (p. 178)

28. 20 – Logical combinations Electronics – Circuits and Systems 3 rd edition. © 2007, Owen Bishop. Published by Elsevier Ltd. The logic levels in this data selector (or multiplexer) are shown for a low select (S) input (p. 180)

29. 20 – Logical combinations Electronics – Circuits and Systems 3 rd edition. © 2007, Owen Bishop. Published by Elsevier Ltd. A data distributor (or demultiplexer) routes the data to one of its outputs (p. 181)

30. 21 – Logical sequences Electronics – Circuits and Systems 3 rd edition. © 2007, Owen Bishop. Published by Elsevier Ltd. The sequence of stages of resetting an S-R flip-flop (p. 187)

31. 22 – Counters and registers Electronics – Circuits and Systems 3 rd edition. © 2007, Owen Bishop. Published by Elsevier Ltd. Three D-type flip-flops wired as toggle flip-flops act as a 3-bit up counter divider (p. 196)

32. 22 – Counters and registers Electronics – Circuits and Systems 3 rd edition. © 2007, Owen Bishop. Published by Elsevier Ltd. A synchronous counter, in which all the flipflops are clocked simultaneously (p. 199)

33. 22 – Counters and registers Electronics – Circuits and Systems 3 rd edition. © 2007, Owen Bishop. Published by Elsevier Ltd. A shift register can be built from D-type flipflops. When they are clocked, data is shifted one step along the chain (p. 202)

34. 22 – Counters and registers Electronics – Circuits and Systems 3 rd edition. © 2007, Owen Bishop. Published by Elsevier Ltd. A walking ring counter is based on a chain of flip-flops, with the inverted output of the last stage fed back to the input of the first stage (p. 203)

35. 24 – Converter circuits Electronics – Circuits and Systems 3 rd edition. © 2007, Owen Bishop. Published by Elsevier Ltd. A flash converter is the fastest analogue-to-digital converter, but it needs several hundred comparators to give high precision (p. 216)

36. 24 – Converter circuits Electronics – Circuits and Systems 3 rd edition. © 2007, Owen Bishop. Published by Elsevier Ltd. Circuit of a 4-bit converter (p. 223)

37. Part 2: Systems

38. 26 – Audio and video systems Electronics – Circuits and Systems 3 rd edition. © 2007, Owen Bishop. Published by Elsevier Ltd. Diagram showing some connections of a typical domestic stereo system (p. 229)

39. 31 – Radio transmission Electronics – Circuits and Systems 3 rd edition. © 2007, Owen Bishop. Published by Elsevier Ltd. The superhet receiver (p. 282)

40. 33 – Electronic control systems Electronics – Circuits and Systems 3 rd edition. © 2007, Owen Bishop. Published by Elsevier Ltd. The main components of an open-loop control system and a closed-loop system with negative feedback (p. 294)

41. 34 – Process control systems Electronics – Circuits and Systems 3 rd edition. © 2007, Owen Bishop. Published by Elsevier Ltd. A PID, or 3-term control system (p. 305)

42. Part 3: Microelectronic systems

43. 37 – Processing Electronics – Circuits and Systems 3 rd edition. © 2007, Owen Bishop. Published by Elsevier Ltd. A microcomputer system (p. 319)

44. 37 – Processing Electronics – Circuits and Systems 3 rd edition. © 2007, Owen Bishop. Published by Elsevier Ltd. A microcontroller (p. 322)