Thanks again for taking the time to make and share another video! I have to confess that I feel a bit odd about the content in this one. I feel like both of the examples you discussed, namely a self-loop with unity (positive) gain and a self-loop at an input node, aren't limitations of Mason's gain rule per se. Rather, I think they represent inherent issues of the systems. For the system with the self loop, as you note at 2:10, the equation x = R + x is only valid when the input R is equal to zero. If the input isn't zero, then the system is unstable and the output blows up, and I think this is why Mason's gain rule gives a zero in the denominator. For the system with the self-loop at the input, I also think the issue is with the system and not with Mason's gain rule. If I am designing a circuit that is supposed to take an input, but then I short another signal onto it, that's bad design and could damage what I'm trying to build. I don't think that adding a pseudo-input node or getting rid of the self-loop are just workarounds for Mason's gain rule; rather, I think they are genuine steps that would need to be taken to make the system stable. Ultimately, I think both examples (as initially described) were unstable systems, and it would be misleading to calculate or say that *anything* was a valid transfer function for either of them. Does that make sense, or am I not understanding? Either way, I would appreciate your feedback (no pun intended), and I'd like to say again that I am really appreciative of everything you have done for the community!
God bless you for your support 🙏. May god bless you and your team😭♥️ 🤲. Your lessons are very helpful for me to study ICT. i am not rich to pay classes 🤧. 😭😭😭😭😭 Love your social support sir. Really i am very happy to see a person like you. Thank you sir
Thanks you so much sir for this vidoe i have no idea about this limitation of SFG ....so many video i saw from so many channel but no one taught in this proper and right way ... because of u my doubts r clear in this and i am able to solve any questions u make my basic crystal clear sir.....🙏🙏🙏🙏
Awesome lecture sir....in the next lecture sir we are start new chapter of control system sir.. Time Response Analysis..I will be waiting for next lecture sir ..nice teaching sir and better understanding for each and every student sir.
@ 21:11 what is the point of a self loop with gain -1 at the input if it has no effect on the overall transfer function? ….what is the purpose of the any self loop at the input if it is just removed and not taken into consideration…why have it there in the first place?….and how does a self loop at the input map over to a block diagram?….can you please show an example of a practical control system with a self loop at the input ?
🤧😭😭. Very thankful for your free studies brother. I promise i will pay for your course inshallah. Thanks a lot Sir. I am not more rich to pay for classes thank you for your very big help. God bless you 😭🌟🥲😊😊. I am praying for you in side my heart. God bless you every day. May god protect you against unhealthy ♥️🤲🤲🤝
Thanks again for taking the time to make and share another video!
I have to confess that I feel a bit odd about the content in this one. I feel like both of the examples you discussed, namely a self-loop with unity (positive) gain and a self-loop at an input node, aren't limitations of Mason's gain rule per se. Rather, I think they represent inherent issues of the systems.
For the system with the self loop, as you note at 2:10, the equation x = R + x is only valid when the input R is equal to zero. If the input isn't zero, then the system is unstable and the output blows up, and I think this is why Mason's gain rule gives a zero in the denominator.
For the system with the self-loop at the input, I also think the issue is with the system and not with Mason's gain rule. If I am designing a circuit that is supposed to take an input, but then I short another signal onto it, that's bad design and could damage what I'm trying to build. I don't think that adding a pseudo-input node or getting rid of the self-loop are just workarounds for Mason's gain rule; rather, I think they are genuine steps that would need to be taken to make the system stable.
Ultimately, I think both examples (as initially described) were unstable systems, and it would be misleading to calculate or say that *anything* was a valid transfer function for either of them. Does that make sense, or am I not understanding? Either way, I would appreciate your feedback (no pun intended), and I'd like to say again that I am really appreciative of everything you have done for the community!
God bless you for your support 🙏. May god bless you and your team😭♥️ 🤲. Your lessons are very helpful for me to study ICT. i am not rich to pay classes 🤧. 😭😭😭😭😭 Love your social support sir. Really i am very happy to see a person like you. Thank you sir
Thanks you so much sir for this vidoe i have no idea about this limitation of SFG ....so many video i saw from so many channel but no one taught in this proper and right way ... because of u my doubts r clear in this and i am able to solve any questions u make my basic crystal clear sir.....🙏🙏🙏🙏
Awesome lecture sir....in the next lecture sir we are start new chapter of control system sir.. Time Response Analysis..I will be waiting for next lecture sir ..nice teaching sir and better understanding for each and every student sir.
@ 21:11 what is the point of a self loop with gain -1 at the input if it has no effect on the overall transfer function? ….what is the purpose of the any self loop at the input if it is just removed and not taken into consideration…why have it there in the first place?….and how does a self loop at the input map over to a block diagram?….can you please show an example of a practical control system with a self loop at the input ?
Very good explanation sir. Really thankful
🤧😭😭. Very thankful for your free studies brother. I promise i will pay for your course inshallah. Thanks a lot Sir. I am not more rich to pay for classes thank you for your very big help.
God bless you 😭🌟🥲😊😊. I am praying for you in side my heart. God bless you every day. May god protect you against unhealthy ♥️🤲🤲🤝
Uh r doing a great job sir , we are really thankful to you
One day I am gonna to meet you In sha Allah
2x3x4 / (1+2)
THANK U it's really useful
Very helpful sir.
in the first example for eliminating the self loop with unity gain ,do we also remove the node as it is shown or was it an error
please clarify.
thanks.
good videos