Great Video! Thanks for the upload. I was brushing up my Analog Circuit Design Basics on RUclips and came across this Video. Just a few errors that I noted: 1. In the slide - "Designing the Differentiator", the Formula for F_h should be F_h = 1/(2*pi*R1*Cf) 2. In the same slide, the inequality for the Time period, T, should be T >= (pi*Rf*C1)/10 3. In the "Calculations Slide", the formula for F_b should be F_b = 1/(2*pi*R1*Cf) You guys have put the values in accordance with the correct formula, but have written formula for F_h. 4. Not really an error, but a very important point that you guys missed mentioning in the video is that the circuit you have shown is for an inverting differentiator. The output is the negative/inversion of the derivative of the input. All the outputs that you have shown in the video also show the same. Also, I have a question, from the slide "Designing the Differentiator". Where did you find/how did you arrive at the guideline of C1
Thanks for suggestions, we opted for capacitor values less than 1uf because, firstly they are easily available and secondly and more importantly ,we were using paper capacitors, which are more accurate than electrolytic ones.
Best ever explanation provided by the students compared to others in this channel....
Great Video! Thanks for the upload. I was brushing up my Analog Circuit Design Basics on RUclips and came across this Video.
Just a few errors that I noted:
1. In the slide - "Designing the Differentiator", the Formula for F_h should be
F_h = 1/(2*pi*R1*Cf)
2. In the same slide, the inequality for the Time period, T, should be
T >= (pi*Rf*C1)/10
3. In the "Calculations Slide", the formula for F_b should be
F_b = 1/(2*pi*R1*Cf)
You guys have put the values in accordance with the correct formula, but have written formula for F_h.
4. Not really an error, but a very important point that you guys missed mentioning in the video is that the circuit you have shown is for an inverting differentiator. The output is the negative/inversion of the derivative of the input. All the outputs that you have shown in the video also show the same.
Also, I have a question, from the slide "Designing the Differentiator". Where did you find/how did you arrive at the guideline of C1
Thanks for suggestions, we opted for capacitor values less than 1uf because, firstly they are easily available and secondly and more importantly ,we were using paper capacitors, which are more accurate than electrolytic ones.
Nice video, thank you for sharing :)
Superb helped a lot
Hi
You are doing great work... Very beneficial...
Thank you so much✌✌
perfect explanation
great...your video is too informative
Awesome video. . Such a nice explanation..
Nice Video
just how to connect the input n outputs explain
Thanks bhai boht bari problem solve krdi apny...😘😘
Thank you
what about pin number 1 5 and 8
Nice video. Thank you!
R1 c1 etc values how you choose
The formula used for fb is wrong. In the formula there should be C1 instead of Cf. Otherwise how did you put Cf=0.1uf
brilliant work
6 years 😁 i think iam 8th class at that age 😅
thnk frnd..u r good ...
Hello sir inverting or non inverting opm ki practical ki video banao
good.
👌
yang vokasi ipb kuliah onlen mana suaranya
tugasnya di sruh apa oii
Its nt useful for starters he has nt explained crtctly
shut the fuck up