I keep coming back to this channel for all my LTSpice tutorials/guides. So detailed and always filled with real world applications. Thank you!

2:51 "Based on how lucky you are [...]" -> Fundamental Theorem of electrical engineering right there! 😀Great video!

nice timing :) I just implemented the simplest non-inverting buffer circuit and used a 11MHz bandwidth opamp (OPA140). everything working fine except that I can't use it for any signal above a few hundred kHz apparently due to the 'low' slew rate - my voltage swing is 0-14V at the input and unfortunately quick transitions get attenuated more than I would like. time for a redesign unfortunately. thank you for the great video!

Yep also slew rate will limit frequency range sooner then bwp. Leared that the hard way. So make sure you pick an op amp with slew rate high enough for application. Oh and make sure capacitor are film or cog types to minimize any capacitance changes and thus changes to cuttoff frequency.

Fesz: within this discussion of filters, it would be informative to include phase delay and group delay as a topic. Otherwise - yet another thumbs up video. thx!

Thanks! I always learn something new from your videos, I didn't know we have rail to rail input Opamps too

Hello. And welcome back!

9:02 "Corner frequency of 1.59 kHz." If we didn't pay attention to the preceding algebra, we might look at that odd number and idly wonder where it came from. "Ah, probably there's a factor of pi/2 somewhere..." but wait, that should be 1.57. Hmmm. Well how about cube root of 4 (=1.587, seems legit!). But actually 1.59 comes from 10/(2pi). It's odd that this 1.59 is so close to those other irrelevant possibilities. Those digits even show up quickly in pi: 3.14 159 265 etc... also irrelevant but slightly mysterious! FesZ -- nice video explanations as usual!

Thanks, FesZ 👍

All my surplus quad package op amps just got a lot more useful. 🙂

Good content! Vibrant red shirt though😅

Your explanations are great ! Thank you. So, if I need to create a 20 meter pass band filter, how should I do it ? Lt-Spice and then what ? How do I choose good capacitors, resistors and op-amps. Good in terms of quaity and resistance to heat, etc. And what is gain ? Is that just voltage in , which I should be able to control programmatically or via a potentiometer ?

Awesome like always

Well done, thank you.

I tried a band pass filter with lag lead combination(unity gain phase shifter)and resistive feedback from stage 2 to 1,performance is highly dependent on the tolerance of components,is there any high Q bandpass filter with somewhat relaxed component tolerance

I think at about 16:50, the input impedance of an op amp is very high and the output impedance is very low, not high

Really good man i really follow you

Thank you.

I placed an L ( 10uH ), C ( 10uF ) filter on the output of a small POE switch mode power supply , in the hopes of reducing ripple , BUT in fact it significantly increased the ripple ?? total mystery any tips ?