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2nd order opamp circuit

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paulmdrdo

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I was trying to understand the way this problem was solved and I got confused with the latter part of the solution. I encircled the part that confused me.
They seem to contradict each other. If dv(0+)/dt = 0 why is it dv(0+)/dt = -1 in the other one? Please explain. TIA!
 

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Hi,

I did go in detail through the formulas...
But I think it's because of phase shift by 90° caused by C2.

Right side of C2 is varying signal, but right side is virtual ground.
To ensure virtual ground the Opamp has to regulate..
Since dV/dt on the left side of C2 causes proportional current through C2...the same current will cause a 90° phase shifted voltage at the right side of R2 (the output).

But I'm not sure..

Klaus
 

I think in the 1st encircled part there is a typo, it should be dv1(0+)/dt, not dvo(0+)/dt. Then the 2nd encircled part makes sense, it explains why C2 is missing from the expression.
 

I think in the 1st encircled part there is a typo, it should be dv1(0+)/dt, not dvo(0+)/dt. Then the 2nd encircled part makes sense, it explains why C2 is missing from the expression.

I don't think it is a typo. Because at t = 0+ v1(t) = vo(t).
 

I don't think it is a typo. Because at t = 0+ v1(t) = vo(t).

I will solve this problem using Laplace transforms and taking into consideration the amplification of the opamp. First I write the equations of the circuit. "amp" is the amplification of the opamp which can be several thousand times.

paulmdrdo1.JPG

Then the values of the components are substituted.

paulmdrdo2.JPG

And vo, the output voltage is calculated from the system of 3 equations.

paulmdrdo3.JPG

vo is evaluated as amp goes to infinity

paulmdrdo4.JPG

Finally, the inverse Laplace is found.

paulmdrdo5.JPG

Here is a plot of the function.

paulmdrdo6.JPG

As you can see, the exponential term eventually causes the voltage to go to zero.

Now, can you calculate the voltage at v1?

Ratch
 
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