Thanks for the explanation. I know you're strictly academicly focused here, but it would be helpful for me if you closed this with an actual reference design, like something from a datasheet that I could physically build if I wanted to experiment with the circuit. If you're concerned with copyright, a simple schematic could be drawn in open source software like KiCAD, although I've never heard of anyone having copyright problems by posting datasheet info online. It's just a suggestion. While watching this upload I was thinking, 'Comparator=LM393, Oscillator=555, DAC=DAC0808, Counter=CD4017, AND Gate=74HC08, Control=Arduino. I have all of that in DIL packages I could breadboard right now. However an actual reference design would get me motivated beyond just a curiosity. I don't want to spend all day sorting out a half baked circuit idea when I already have other projects I'm working on. If I could easily follow your tutorial, then build a circuit, the ideas you're relating here would stick with me much longer. Again, you don't need to build or demonstrate this yourself, just simply show a single picture of a reference design schematic with part numbers that someone could build if they would like. You don't even need to explain it by itself, just show it. -Jake
Practically today this counter type ADC is not used. (Because of its slow conversion time) But it could be used for very slow varying signals. e.g Data coming from the temprature sensor. which is changing very slowly.
Comparator compares the two inputs and amplifies the difference between the two inputs by very high gain. The output of the comparator can't go beyond biasing voltage. That's why output is saturated to either positive or negative saturation voltage. And that's we call it as high or low state of comparator. But when both inputs are same then difference between inputs is zero and hence the output of the comparator should be zero ideally. I hope it will clear your doubt. For more info you can check the video on opamp as comparator.
Now, it is only useful when the signal is varying very slowly. If the signal is changing very quickly between low and high value then this ADC won;t be able to track the signal immediately.
I will cover UART, I2C, SPI, and ETHERNET. But Like I said I earlier, once I finish the series on ADC and DAC, I will cover those topics. Still at least 3-4 videos are remaining. Once I finish them I will cover those topics.
The timestamps for the different topics covered in the video:
1:11 Working of Counter Type ADC
3:20 Limitation/ Disadvantage of Counter Type ADC
Thanks for the explanation.
I know you're strictly academicly focused here, but it would be helpful for me if you closed this with an actual reference design, like something from a datasheet that I could physically build if I wanted to experiment with the circuit. If you're concerned with copyright, a simple schematic could be drawn in open source software like KiCAD, although I've never heard of anyone having copyright problems by posting datasheet info online. It's just a suggestion. While watching this upload I was thinking, 'Comparator=LM393, Oscillator=555, DAC=DAC0808, Counter=CD4017, AND Gate=74HC08, Control=Arduino. I have all of that in DIL packages I could breadboard right now. However an actual reference design would get me motivated beyond just a curiosity. I don't want to spend all day sorting out a half baked circuit idea when I already have other projects I'm working on.
If I could easily follow your tutorial, then build a circuit, the ideas you're relating here would stick with me much longer. Again, you don't need to build or demonstrate this yourself, just simply show a single picture of a reference design schematic with part numbers that someone could build if they would like. You don't even need to explain it by itself, just show it.
-Jake
Your explantion is extraordinary sir please provide videos for ece engineering subjects
What are the applications/usage of counter type ADC?
Practically today this counter type ADC is not used. (Because of its slow conversion time)
But it could be used for very slow varying signals. e.g Data coming from the temprature sensor.
which is changing very slowly.
Sir how we can do simulation to this circuit on Matlab ?
How can I made this for students
Good explanation. Always love your videos.
I am a little bit lost, is T2 < T1 possible?
Sir , what will be the output of the comparator when input voltage is equal to o/p of DAC i.e., Vi = V(DAC) ? ... Please clear my doubt.
if both inputs are same then in this case, the output of the comparator will be low, so that no clock pulses are applied to the counter.
@@ALLABOUTELECTRONICS thank you sir... . But why the output will be low can you explain me please ?
Comparator compares the two inputs and amplifies the difference between the two inputs by very high gain. The output of the comparator can't go beyond biasing voltage. That's why output is saturated to either positive or negative saturation voltage. And that's we call it as high or low state of comparator. But when both inputs are same then difference between inputs is zero and hence the output of the comparator should be zero ideally. I hope it will clear your doubt. For more info you can check the video on opamp as comparator.
@@ALLABOUTELECTRONICS Thank you so much sir . Now my doubts are very clear 😃😃
Super Explanation It's very good but the Letters and words covered the down part of the Diagram few seconds Also there is no gap
I think you are talking about the subtitles. You can turn off the subtitles in the video settings.
what types of component using in this?
if using in multisim
well i hope you have video on how the circuit run in multisim.
nice video as always. how can i design and monitor a 4-sides digital park sensor?
Excellent speech 👍
Can you say how to find Digital Output voltage with analog input and resolution of ADC?
I think I have already covered some questions based on that. Please check the ADC and DAC playlist on the channel page.
@@ALLABOUTELECTRONICS Ok
Thank you
waiting for the next .. thanks
Sir, can tracking type adc be useful when analog signal swings from peak to zero level and zero level to peak quickly?
Now, it is only useful when the signal is varying very slowly. If the signal is changing very quickly between low and high value then this ADC won;t be able to track the signal immediately.
@@ALLABOUTELECTRONICS
Ok sir ❤
Bro ,please do post videos on I2C , SPI, CAN ,ETHERNET ,UART
I will cover UART, I2C, SPI, and ETHERNET. But Like I said I earlier, once I finish the series on ADC and DAC, I will cover those topics. Still at least 3-4 videos are remaining. Once I finish them I will cover those topics.
Thanks for the video
Thanku
who's here from lipa sound tech 🎉
I was looking for league of legends
😩😩
hindi me bol le bhai plz
Refer Gate Academy if you want hindi...English videos are very few...what will people like me do then...
@@uma_k_k i appreciate