Post on 29-Jan-2016
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Resistor-Capacitor (RC) Circuits
• Build this circuit in Multisim.• Look at the voltage across the capacitor on the oscilloscope.• Describe what you see when the switch moves between
positions (let the switch stay in each position until the capacitor voltage stops changing).
V112 V
R1
1k
C11uF
J1
Key = Space
1
2
4
0
EGR 101 1
Discharging a Capacitor Through a Resistor
• In the following circuit, when the switch moves from the battery + to ground, the voltage across the capacitor is
vc(t) = Vse-t/RC
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Vs
- vc
EGR 101 2
Questions
• What are the units of RC in vc(t) = Vse-t/RC ?
• Since vc(t) = Vse-t/RC and , what is i(t) in terms of Vs, R and C?
• What do vc(t) and i(t) look like on a graph?
cdvi t Cdt
EGR 101 3
Step Response: RC Time Constants
• Now, what happens when the switch moves the other way?
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The response of the capacitor voltage will be to charge up to the supply voltage.
Vs
EGR 101 4
Vc Response to Constant Voltage Vs
• The voltage across the capacitor will rise and asymptotically approach Vs
How can we describe this mathematically?EGR 101 5
Kirchhoff’s voltage loop law S C RV v v
Ohm’s law across resistor Rv iRSubstituting for VR gives s cV v iR
Analysis of RC Circuits
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Vs
vc
EGR 101 6
Substitute in for i
From previous page S CV v iR
CS C
dvV v RC
dt
Analysis of RC Circuits
CdvCdt
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Vs
vc
EGR 101 7
Analysis of RC Circuits
• The equation is called a differential equation.
CS C
dvV v RC
dt
• The solution is of the form:
where is defined as the time constant
1t
C Sv V e
RC
= the circuit time constant, in seconds if and only if C = the total (connected) capacitance Farads R = the total (connected) resistance Ohms
EGR 101 8
Team Activity
CS C
dvV v
dt
• Substitute
into the equation
to show that LHS = RHS
1t
C Sv V e
EGR 101 9
Show that when t is 5 times the time constant, ,the capacitor voltage is 99.33% of the peak voltage.
1t
C
S
ve
V
Team Activity
100SV V
EGR 101 10
Kirchhoff’s voltage loop law ?
Ohm’s law across resistor?
Substituting for VR gives?
Team Activity – Discharge Process
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EGR 101 11
CC
dvv
dt• From previous activity the equation
t
C Sv V e
Team Activity
and show that LHS = RHS
• Substitute
into the above equation
EGR 101 12
Rectangular Wave
• If you repeatedly switch between the battery and the short you are effectively applying a rectangular time pulse to the RC circuit.
EGR 101 13
Rectangular Wave Response
• The voltage across the capacitor will behave as below in response to such a wave:
EGR 101 14