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Saxion University of Applied Sciences Hardware components and V-model Lesson 2 J.S.D. Stokkink.

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Presentation on theme: "Saxion University of Applied Sciences Hardware components and V-model Lesson 2 J.S.D. Stokkink."— Presentation transcript:

1 Saxion University of Applied Sciences Hardware components and V-model Lesson 2 J.S.D. Stokkink

2 Saxion University of Applied Sciences 2 Hardware & V-model Lesson contents  Resistors  Capacitors  Inductors

3 Saxion University of Applied Sciences 3 Hardware & V-model Resistors

4 Saxion University of Applied Sciences 4 Hardware & V-model Resistors

5 Saxion University of Applied Sciences 5 Hardware & V-model Resistor values Resistor has the unit Ohm Ω

6 Saxion University of Applied Sciences 6 Hardware & V-model Resistors (prefix)

7 Saxion University of Applied Sciences 7 Hardware & V-model

8 Saxion University of Applied Sciences 8 Hardware & V-model Resistors SMD (Surface Mounted Devices)

9 Saxion University of Applied Sciences 9 Hardware & V-model Resistors series E12 serie : 12 values, also available E24, E48, E96 and E192

10 Saxion University of Applied Sciences 10 Hardware & V-model

11 Saxion University of Applied Sciences 11 Hardware & V-model Resistor array

12 Saxion University of Applied Sciences 12 Hardware & V-model Variable Resistors

13 Saxion University of Applied Sciences 13 Hardware & V-model Variable Resistors

14 Saxion University of Applied Sciences 14 Hardware & V-model Resistors

15 Saxion University of Applied Sciences 15 Hardware & V-model Variable Resistors Linear -logarithmic A linear potentiometer has a resistive element of constant cross-section, resulting in a device where the resistance between the contact (wiper) and one end terminal is proportional to the distance between them A logarithmic potentiometer has a resistive element that either 'tapers' in from one end to the other, or is made from a material whose resistivity varies from one end to the other. This results in a device where output voltage is a logarithmic function of the slider position.

16 Saxion University of Applied Sciences 16 Hardware & V-model Power  Resistors are rated by the value of their resistance and the Electrical Power  in Watts, (W) that they can safely dissipate based mainly upon their size. Every resistor has a maximum power rating which is determined by its physical size as generally, the greater its surface area the more power it can dissipate safely into the ambient air or into a heatsink.

17 Saxion University of Applied Sciences 17 Hardware & V-model Capacitor

18 Saxion University of Applied Sciences 18 Hardware & V-model Capacitor

19 Saxion University of Applied Sciences 19 Hardware & V-model Capacitor

20 Saxion University of Applied Sciences 20 Hardware & V-model Capacitor

21 Saxion University of Applied Sciences 21 Hardware & V-model Inductions

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