Help with Step Response of an RC circuit

Click For Summary
SUMMARY

The discussion focuses on deriving the voltage and current equations for the step response of a parallel RC circuit. The key equations are Vc(t) = i(s)R + (Vo - i(s)R)e^(-t/RC) and i(t) = (Is - (Vo/R))e^(-t/RC). Participants clarify the meaning of i(s) as the source current Is and discuss the application of Kirchhoff's Current Law (KCL) in the context of the circuit. The conversation emphasizes the need for a clear understanding of the circuit configuration and the correct application of differential equations to solve for Vc(t).

PREREQUISITES
  • Understanding of RC circuit theory
  • Familiarity with Kirchhoff's Current Law (KCL)
  • Knowledge of differential equations
  • Experience with Laplace transforms in circuit analysis
NEXT STEPS
  • Study the derivation of differential equations for RC circuits
  • Learn about the application of Laplace transforms in analyzing circuit responses
  • Explore the differences between series and parallel RC circuits
  • Investigate the implications of using current sources versus voltage sources in circuit analysis
USEFUL FOR

Electrical engineering students, circuit designers, and anyone involved in analyzing transient responses in RC circuits.

stau40
Messages
37
Reaction score
0

Homework Statement


Derive the Voltage and Current equations for Step Response of an RC circuit.


Homework Equations


End products will be Vc(t) = i(s)R + (Vo - i(s)R)e^(-t/RC) and i(t) = (Is - (Vo/R))e^(-t/RC)


The Attempt at a Solution


Using KCL on a hypotetical RC circuit with a current source in parallel with a resistor, which is parallel to a capacitor, I end up with i(R)+i(c)=i(s) which converts to (V(c)/R) + C(dv/dt) = i(s). After rearranging I get (V(c)/RC) + (d(v)/d(t)) = (i(s)/C) then (d(v)/d(t)) = (i(s)/C) - (V(c)/RC). I am now stumped as to how to procede. Anybody have any ideas? Thanks!
 
Physics news on Phys.org
stau40 said:

Homework Statement


Derive the Voltage and Current equations for Step Response of an RC circuit.


Homework Equations


End products will be Vc(t) = i(s)R + (Vo - i(s)R)e^(-t/RC) and i(t) = (Is - (Vo/R))e^(-t/RC)


The Attempt at a Solution


Using KCL on a hypotetical RC circuit with a current source in parallel with a resistor, which is parallel to a capacitor, I end up with i(R)+i(c)=i(s) which converts to (V(c)/R) + C(dv/dt) = i(s). After rearranging I get (V(c)/RC) + (d(v)/d(t)) = (i(s)/C) then (d(v)/d(t)) = (i(s)/C) - (V(c)/RC). I am now stumped as to how to procede. Anybody have any ideas? Thanks!

What's i(s)?

I don't think you need to include any source resistance in the problem (if you use a voltage source to drive the RC with the voltage step input). Does the problem tell you to use a current source as the excitation?
 
The problem doesn't say to use it, but our teacher started us off using a current source in the circuit rather then a voltage source so I continued to use thru the calculations.
 
But what is i(s)? The source current Is, or some current that is a function of the complex frequency s?
 
I(s) is the source current.
 
stau40 said:
I(s) is the source current.

Ok, then you sould probably write it as Is or I_s

Putting parens around it like that makes it look like "I as a function of s".

Anyway, I just re-read your first post, and you are saying that this is a parallel RC? Sorry, I'm confused now. Could you maybe post a sketch?

Using KCL on a hypotetical RC circuit with a current source in parallel with a resistor, which is parallel to a capacitor,

Usually the RC circuit would be a series RC circuit, driven by a step source.
 
I have attached a copy of my work including a picture of the circuit. I have been trying different methods so a good part of the attached isn't relevant.
 

Attachments

stau40 said:
I have attached a copy of my work including a picture of the circuit. I have been trying different methods so a good part of the attached isn't relevant.

Okay. That's not the traditional RC circuit, but whatever. If that's what you are asked to solve for, then ok.

Your first equation is correct:

\frac{V_c(t)}{R} + C \frac{dV_c(t)}{dt} = I_s

That is a differential equation for Vc(t). To solve it, you assume a solution for Vc(t), and then differentiate that solution to get dVc(t)/dt. Plug those back into the differential equation, and solve for any constants or unknowns.

Since you were given the solution for Vc(t), go ahead and differentiate it, and plug all of that into the differential equation to show that it is a solution.
 

Similar threads

Time domain equation for RC circuit with AC input
  • · Replies 4 ·
Replies
4
Views
2K
Engineering Transient RC Circuit (got answer in s but not in t-domain)
  • · Replies 2 ·
Replies
2
Views
2K
Engineering How Is Alpha Calculated in the Discretization of an RC Circuit?
  • · Replies 2 ·
Replies
2
Views
2K
RC time constant problem — confusing problem statement
  • · Replies 3 ·
Replies
3
Views
2K
Engineering Step response of RC circuit with independent voltage and current sources
  • · Replies 7 ·
Replies
7
Views
3K
Solve RC Impulse Response: Voltage @ a RC Circuit
  • · Replies 3 ·
Replies
3
Views
2K
Current flowing through resistor in RLC circuit (C in parallel with L)
  • · Replies 19 ·
Replies
19
Views
3K
Engineering Circuit theory: capacitor energy storage and discharging/charging times?
  • · Replies 10 ·
Replies
10
Views
3K
Engineering What is the Time Constant for an RLC Circuit?
  • · Replies 9 ·
Replies
9
Views
11K
What is the Voltage on C1/C2 after the switch closes?
  • · Replies 11 ·
Replies
11
Views
3K