Physics 401, Spring 2014.Eugene V. Colla

Transients and Oscillations in RLC Circuits.

Outline

Main goals of this week Lab:

Transients. Definition.

transient ( physics ) a short-lived oscillation in a

system caused by a sudden change of voltage or

current or load

a transient response or natural response is the

response of a system to a change from equilibrium.

System under

study

Transients in RLC circuit.

R

L

C

Vscope

Resistance R [Ohm]

Capacitance C [uF] (10-6F)

Inductance L [mH] (10-3H)

Transients in RLC circuit.

R

L

C

V(t)scope

VR VL

VC

According the Kirchhoffs law VR+VL+VC=V(t)

-1.0 -0.5 0.0 0.5 1.00.0

0.5

1.0

V(t

)

time

V0

2

2

d d q(t)L q(t) +R q(t) + = 0

dt dt C*See Lab write-up for details

*

(1)

Transients in RLC circuit. Three solutions

The solution of this differential

equation can be found in the form ( ) estq t A

This will convert (1) in

quadratic equation

Rs s

L LC

21

0

,

,

R Rs a b

L L LC

R Ra b

L L LC

2

1 2

2

1

2 2

1

2 2

with solutions:

b2>0 over-damped solution

b2=0 critically damped solution

b2

Transients in RLC circuit. Over-damped solution:

b2>0

( ) e at bt btq t A e B e1 1

In this case the solution will be aperiodic

exponential decay function with no

oscillations:

( ) ( ) ( )at bt bt at bt btdq

i t ae A e B e be A e B e

dt1 1 1 1

Transients in RLC circuit. Over-damped solution:

b2>0

Taken in account the initial conditions: q(0)=q0 and i(0)=0

( ) cosh sinhata

q t q e bt bt

b0

( )( ) a b tq a b

i t e

b

2 2

0

2

This is exponential decay function

-( - )

( - )

a b t

a b t

q ae

b

0

11

2

Transients in RLC circuit. Critically-damped

solution b2=0

For this case the general solution can be found as

q(t)=(A2+B2t)e-at. Applying the same initial condition

the current can be written as i=a2q0te-at

Critical damped case shows the

fastest decay with no oscillations

2 2 40

Lb R

C

Critically-damped

conditions for our

network2

Ra

Land

Transients in RLC circuit. Critically-damped

solution. Real data analysis. b2=0

In this experiment R=300 ohms,

C=1mF, L=33.43mH.

The output resistance of Wavetek is 50 ohms and

resistance of coil was measured as 8.7 ohms, so actual

resistance of the network is Ra=300+50+8.7=358.7

Decay coefficient =

=

.

.

Transients in RLC circuit. Critically-damped

solution. Real data analysis. b2=0

Now the experimental results:

Calculated decay

coefficient ~5385,

Obtained from fitting -

~5820.

Possible reason it is still slightly over damped

Calculated b2 is

b2=2.99e7-2.90e7>0

Vc ~q, fiiting function: Vc=Vco(1+at)e-at

Transients in RLC circuit. Under-damped

solution. If b2

Transients in RLC circuit. Under-damped solution.

Log decrement. Quality factor.

Log decrement can be defined as = (

(+=

+= , where T1=1/f1

Quality factor can be

defined as =

,

For RLC =

=

From this plot d0.67Q4.7 -1 0 1 2 3 4 5 6 7 8 9 10

-6

-3

0

3

6

3.529

1.809

0.929620.47494

VC (

q/C

) (V

)

time (ms)

Transients in RLC circuit. Data analysis. Using

Origin software.

1. Pick peaks

2. Envelope

3. Exponential term

4. Nonlinear fitting

-1 0 1 2 3 4 5 6 7 8 9 10-6

-3

0

3

6

0.00115

0.0023

0.003460.00463

VC (

q/C

) (V

)

time (ms)

f=862Hz

-1 0 1 2 3 4 5 6 7 8 9 10-6

-3

0

3

6

VC (

q/C

) (V

)

time (ms)

f=862Hz

Transients in RLC circuit. Under-damped solution.

Log decrement. Quality factor.

Transients in RLC circuit. Data analysis. Log

decrement. Using Origin software. Results.

Time domain trace

Points found using Find peaks

Envelope curve

Transients in RLC circuit. Data analysis. Log

decrement. Using Origin software. Results.

Fitting the envelope data to exponential decay function

Transients in RLC circuit. Data analysis.

(1/T)2 vs 1/C experiment.

Zero crossing points

0ffsetManual evaluation of the

period of the oscillations

in( )atq(t) Ae s t offset

Limited accuracy

Results can be

effected by DC offset

Transients in RLC circuit. Data analysis.

(1/T)2 vs 1/C experiment. Using Origin software.

in( )atq(t) Ae s t

Limited

Use Origin standard

function

Category: Waveform

Function: SineDamp

Fitting function ; y0,A,t0 xc, w fitting parameters

Transients in RLC circuit. Data analysis.

(1/T)2 vs 1/C experiment. Using Origin software.

in( )atq(t) Ae s t

Limited

Data plot + fitting curve

Residuals - criteria

of quality of fitting

Transients in RLC circuit. Data analysis.

(1/T)2 vs 1/C experiment. Using Origin software.

in( )atq(t) Ae s t

Final results

Rf

T LC L

2 2

21 1 1

2 2

Resonance in RLC circuit.

R2

L

C VCV(t)

100 1000 100000

2

4

6

8

10

12

14 1904.83204

UC

f (Hz)

f=1500Hz

=

=

= .

Origin templates for this week Lab.

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Document located on server and there is a

link from P401 WEB page

There are also manuals from OriginLab.

Video Tutorials at the

site of the company

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