Hi all,
I need some help analyzing the circuit below. I understand that at t=0- the steady state Load Voltage is 9 V, and that when the switch is thrown it needs to bounce to 10.285 V, but I can't figure out how to get to the first voltage propagation (V+).
My first try is to start at t=0+, R_eq = 25 Ohms, then V = 12 V * (Z0/(Z0+R_eq)) to get 8 V, but bouncing from this value puts me below 9V when i know that the value at infinity should be 10.285V.
My professor gave us solutions to the homework, but i don't know where he got the equation for V+. I've included his equation below:
I don't need help with bouncing the voltage, just getting the conditions at t=0+ (i.e. i need to find V+ after 0). Any help would be appreciated.
Thank you for your time,
-Barry
I need some help analyzing the circuit below. I understand that at t=0- the steady state Load Voltage is 9 V, and that when the switch is thrown it needs to bounce to 10.285 V, but I can't figure out how to get to the first voltage propagation (V+).
My first try is to start at t=0+, R_eq = 25 Ohms, then V = 12 V * (Z0/(Z0+R_eq)) to get 8 V, but bouncing from this value puts me below 9V when i know that the value at infinity should be 10.285V.
My professor gave us solutions to the homework, but i don't know where he got the equation for V+. I've included his equation below:
I don't need help with bouncing the voltage, just getting the conditions at t=0+ (i.e. i need to find V+ after 0). Any help would be appreciated.
Thank you for your time,
-Barry
