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 transcript:

Capacitors

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

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

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

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

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

Other expressions for energy By substitution of Q=CV

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

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

V or Q t t Voltage and charge characteristics ChargingDischarging

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

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.

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

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

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

for... Capacitors