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Capacitors. What is a capacitor? Electronic component Two conducting surfaces separated by an insulating material Stores charge Uses –Time delays –Filters.

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Presentation on theme: "Capacitors. What is a capacitor? Electronic component Two conducting surfaces separated by an insulating material Stores charge Uses –Time delays –Filters."— Presentation transcript:

1 Capacitors

2 What is a capacitor? Electronic component Two conducting surfaces separated by an insulating material Stores charge Uses –Time delays –Filters –Tuned circuits

3 Capacitor construction Two metal plates Separated by insulating material ‘Sandwich’ construction ‘Swiss roll’ structure Capacitance set by...

4 Defining capacitance ‘Good’ capacitors store a lot of charge… …when only a small voltage is applied Capacitance is charge stored per volt Capacitance is measured in farads F –Big unit so nF, mF and  F are used

5 Graphical representation Equating to the equation of a straight line Q V Gradient term is the capacitance of the capacitor Charge stored is directly proportional to the applied voltage

6 Energy stored by a capacitor By general definition E=QV –product of charge and voltage By graphical consideration... Area term is the energy stored in the capacitor Q V

7 Other expressions for energy By substitution of Q=CV

8 Charging a capacitor Current flow Initially –High Finally –Zero Exponential model Charging factors –Capacitance –Resistance I t

9 Discharging a capacitor Current flow Initially –High –Opposite to charging Finally –Zero Exponential model Discharging factors –Capacitance –Resistance I t

10 V or Q t t Voltage and charge characteristics ChargingDischarging

11 Product of –Capacitance of the capacitor being charged –Resistance of the charging circuit –CR Symbol  ‘Tau’ Unit seconds Time constant

12 When t equals tau during discharge At t = tau the capacitor has fallen to 37% of its original value. By a similar analysis tau can be considered to be the time taken for the capacitor to reach 63% of full charge.

13 Graphical determination of tau V at 37% Q at 37% Compared to initial maximum discharge V or Q t

14 Logarithmic discharge analysis Mathematical consideration of discharge Exponential relationship Taking natural logs equates expression to ‘y=mx+c’ Gradient is -1/Tau

15 Logarithmic discharge graph lnV t Gradient term is the -1/Tau

16 www.search for... Capacitors

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