Dave! This is an old video, but I watched it when I was in middle school, now I'm in my third year of EE! You have no idea how much of an inspiration you've been.
I get bombarded with comments on an almost daily basis on how crap and annoying my voice is etc. There are so many people out there who think you have to sound and talk in a certain way that they expect. You can't be your natural self, unless it fits in with their narrow view. Screw them. As humorous as they are, it's gotten to the point were I'm contemplating just blocking and deleting every such pointless hatred filled comment.
Ignore those people. I like your blog because your voice gets my attention and makes me want to pay attention even more than others. Don't change a thing!
They are just envious of the size of your member. Actually, they are envious of pretty much anyone's size, really. Toxic children semipermanently embedded in the body of an adult. They can be a problem, though... specially when they rise to a position of power, or even a presidency. It's been eight years since you wrote your comment, so it's obvious which side won. Congratulations, and enjoy your winnings, Fine Sir.
Wow, this will come in so handy - I recently specifically build myself a mini lab to learn more about audio range filters and was a bit baffled that there are no affordable audio frequency range spectrum analyzers. Now I will know how to solve that problem.
Thank you so much. This was a huge help in my Electronic Devices II Class. We used this for a variety of High-Pass and Low-Pass Filters. It really saved us time rather then setting each individual frequency and then plotting manually by hand or in excel. Our instructor is actually making labs to use you technique for the following semesters. I'd love to see more videos on using the features of the equipment, ie; oscilloscope, wave generator etc in analyzing networks and different elements. I'm hooked on your Blog! Thank you again!
This is a neat trick. I've been doing it a while to set up audio systems for client builds. It works great for tweaking filters for surround systems to have a perfect overlap between the tweeters, midbass, and subwoofers.
BO - DEE That is a really interesting trick. I think it is near useless for any qualitative measurement but it does make you think about the way you can extended the reach of your instruments. A good engineer always thinks about the boundaries and you are certainly a good engineer. I loved this video, Dave. Keep it up.
I've seen a lot of your videos before, wish I had seen this one earlier. I'm building a 10-Band EQ circuit with gyrators instead of inductors with no idea how to test it. I've built another circuit with just one LC filter for bass. I will try this method to test its correctly working. Thank you for this video!
Very useful vid, I've got some projects in mind that require messing with various audio filters (which I've not played with before) so this should make my life easier! :D Many thanks.
Very nice! You can select the scope to show the Y scale in log. This way is easier to analyze the graph. But yeah, the 8-bit ADC may be too low for this... Next step, show the phase plot :D
I really wish you had looked at one feature of the signal generator - marker frequency. The trigger pulse indicates the beginning of a sweep with a rising edge. Normally, the falling edge is simply placed half way between rising edges. The trick here is that when the marker is enabled, the falling edge of the trigger occurs when the generator output frequency matches the marker frequency set by the user.
It would have been nice to see the generator sweep set to a log scale on the bandgap filter experiment. I was kind of expecting it. KEEP UP THE GOOD WORK!
Huh, clever idea. Had to try it. I don't have fancy digital signal generator, but tested by hooking two analog ones; feeding triangle wave to VCF. Works....but tedious. And frequency range is only 2MHz max. But better than nothing...
Great way to save $10K if you need to design/debug some complicated filtering and see what's going on. Thanks. Brilliant ! Any insights on how to do the same for getting a phase plot (perhaps another video ?).
great video... hope you do more like this because most of us ( i mean, "me" ) don't know how to use the full potential of our scope... thank's a lot...
When using the band pass filter, why does the plot show an initial gradient that's steeper in the first half of the rise compared to what's seen in the second half of the rise? I'd have expected it to look more like a bell curve, without that little hump on the left. And why does it not have the same little hump on the descent?
Using Syscomp CGM mini. They're like $50 now and ok in audio ranges. Can dump readings to CSV and do math on it with Excel or R and compare plots with reasonable ease. Getting better data will cost a fortune. This is quite near though.
You don't absolutely need a Spectrum Analyzer with a tracking generator to generate a frequency response plot. If the spectrum analyzer has peak tracking, you can use a slow sweeping (or manual sweeping) signal generator. You will need to set the resolution bandwidth pretty high, and the sweep rate should be very slow. It may take a minute or two to sweep a few hundred MHz, but you can do it.
I might shed some some light on this matter. Hendrik Wade Bode, the inventor of the Bode plot, was an American with Dutch roots and ditto name. I'm from the Netherlands, so know how his name originally was pronounced; It's "Boduh". A 'bode' was actually a job in the early days. It's someons who delivers internal mail and messages in offices and such. Wether the pronunciation is still used as the mainstream term I can't say.
I tried that some years ago to find the frequencies of my tesla coil. Thou I used X-Y mode and the ramping output on the function gen. Also, connecting a frequency counter I could easily find the exact number without calculating it from the analog scope.
"Poor mans bode plotter"... 40k oscilloscope... Yeah right. :P Anyway, nice video Dave. I'll have to try this when I (hopefully) get my function gen for Christmas.
When I got my waveform generator this is literally the second thing I did right out of the box... Screwed with sync-out and trigger-in of the scope. Didn't try in logarithmic mode though! Guess I got to go back and try it.
Check out the Wikipedia page for Hendrik Bode (sorry, it's really Boh-dee). Incredible range of contributions: WW2 anti aircraft fire control systems, co-authored a paper with Claude Shannon, robotics, etc. He's responsible for the systems that shot down Wernher von Braun's V1 rockets and later worked with him in the US on space technology. Good video, thanks.
fucken aweeseome. this actually has the potential to be way more high res than an FFT in certain respects because you can be more specific with ya frequencies in question where-as an FFT is limited to buckets.
That's pretty neat Dave. The only negative (or "delta" in project manager speke) is that technically a Bode Plot includes both Gain and Phase. You're only showing phase. However, as I'm sure you'll agree, this detracts in no way from the value of your creative energies.
Nice video. At the days I was dreaming about having oscilloscope I new next thing after scope would be a sweeper. You say: you only need a multimeter & a function generator but you mean probably a multimeter and a SWEEP function generator (We are talking to the young players). Not all function generators have that function even not all spectrum analyzers on the market have that TG (tracking generator) which are coming often as an option (+$$$).
Nice, but with an analog oscilloscope with z-Input and with a signal generator which generates markers (as Z-Modulation), it is much more comfortable to show the bode plot at a scope and to analyze the frequency response.
Got to try it. How the sweeping waveform change to almost to bode plot after feeding into the device under test(filter) escape me. I was expecting to see a sweeping signal as before but with magnitude change.
Yes, I've heard that too. But I was taught the way I pronounce it and found that the most common. There was a time before the Internet and video when languages would grow and develop fairly independently. Now everyone expects people to talk like Americans!
Isn't it important to also note that the function generator should have a 50ohm attenuator on its output so the sweep doesn't cause the function generator itself to change voltage because of different impedance in the circuit over frequency?
or can't you also get something resembling a proper bode plot etc by using the math function? dividing the filter output by the original output in channel 2? or something like that?
Funky use of the scope. Interesting video however I will have to watch it a few more times as I can't stop ogling at that MSO. I love Agilent "one day" so before I get arrested thank you for making this video. What a winner!
Thrifty! Think you could get a similar result in XY mode if you put your function generator in VCO mode with the control voltage (frequency) on the X-axis?
Dave, just a question and not trying to be rude. Did you get lost at any point through Peter's walk around, as a standard electronics hobbiest i found it overwhelming at parts.
Dave, I have a new DS1104Z and DG1022Z. Using the sweep, sync and XY setup I am trying to plot a basic audio freq response curve. Once working I could use it to test audio amps. Per your video's approach I was hoping that setting the scope to peak acquisition mode I would get just the top line displayed. No luck. The only Volts by Freq curve I can display is with FFT and it is not very good. The XY arrangement doesn't display a Volts by Freq plot. I can't figure out what I'm doing wrong. Any ideas?
Maybe you could generate a log signal with the other channel of the function generator and generate an XY plot on the scope. Then, you would have even better, you would have your log axis.
Yes! It is a gorgeous demo! I don't remember if the Y scale was log or linear. If it was log, then he could have done a real bode plot by doing a log freq sweep.
great video .. i was bale to get this.. however at high freq, if you zoom in the waveform is distorted due to low sampling rate (1s time span, but 20k) .. so lot of aliasing can happen. let me know if you think there is some solution to this..
Dave! This is an old video, but I watched it when I was in middle school, now I'm in my third year of EE! You have no idea how much of an inspiration you've been.
I get bombarded with comments on an almost daily basis on how crap and annoying my voice is etc. There are so many people out there who think you have to sound and talk in a certain way that they expect. You can't be your natural self, unless it fits in with their narrow view. Screw them.
As humorous as they are, it's gotten to the point were I'm contemplating just blocking and deleting every such pointless hatred filled comment.
Ignore those people. I like your blog because your voice gets my attention and makes me want to pay attention even more than others. Don't change a thing!
I love the sound of your voice :)
EEVblog Vocoder anyone? Maybe a Cylon voice? :-)
Your voice is winner winner chicken dinner!
They are just envious of the size of your member.
Actually, they are envious of pretty much anyone's size, really. Toxic children semipermanently embedded in the body of an adult. They can be a problem, though... specially when they rise to a position of power, or even a presidency.
It's been eight years since you wrote your comment, so it's obvious which side won. Congratulations, and enjoy your winnings, Fine Sir.
Wow, this will come in so handy - I recently specifically build myself a mini lab to learn more about audio range filters and was a bit baffled that there are no affordable audio frequency range spectrum analyzers. Now I will know how to solve that problem.
Thank you so much. This was a huge help in my Electronic Devices II Class. We used this for a variety of High-Pass and Low-Pass Filters. It really saved us time rather then setting each individual frequency and then plotting manually by hand or in excel. Our instructor is actually making labs to use you technique for the following semesters. I'd love to see more videos on using the features of the equipment, ie; oscilloscope, wave generator etc in analyzing networks and different elements. I'm hooked on your Blog!
Thank you again!
Genius. Exactly what I'm after to try to help get a good intuitive understanding of filters. Thanks Dave!
This is a neat trick. I've been doing it a while to set up audio systems for client builds. It works great for tweaking filters for surround systems to have a perfect overlap between the tweeters, midbass, and subwoofers.
BO - DEE
That is a really interesting trick. I think it is near useless for any qualitative measurement but it does make you think about the way you can extended the reach of your instruments. A good engineer always thinks about the boundaries and you are certainly a good engineer. I loved this video, Dave. Keep it up.
qualitative?
I've seen a lot of your videos before, wish I had seen this one earlier. I'm building a 10-Band EQ circuit with gyrators instead of inductors with no idea how to test it. I've built another circuit with just one LC filter for bass. I will try this method to test its correctly working. Thank you for this video!
Just dropping by to say that this was very very helpful and saved me many a time. Thanks!
I use this trick mainly on my CRO , lovely trick Dave.
Dave, you're my bloody hero!
Block 'em Dave. Keep your videos coming. I find them very easy to follow and very educational. Thanks for taking the time to share your knowledge.
I have used this to see the response of all of the IF/Audio stages with an RF input sweep, since it does not matter if the frequencies are different.
Very useful vid, I've got some projects in mind that require messing with various audio filters (which I've not played with before) so this should make my life easier! :D Many thanks.
Mind blown. Looking at my scope in a totally different way now. Thanks mate.
Hi Dave the way I have done this is using a noise source, and FFT on the scope
Very nice!
You can select the scope to show the Y scale in log. This way is easier to analyze the graph. But yeah, the 8-bit ADC may be too low for this...
Next step, show the phase plot :D
This is what i never thought off ... I had to measure / test some filters while building phase shifters and compensation filters...
Thank you 😊👍
I really wish you had looked at one feature of the signal generator - marker frequency.
The trigger pulse indicates the beginning of a sweep with a rising edge. Normally, the falling edge is simply placed half way between rising edges. The trick here is that when the marker is enabled, the falling edge of the trigger occurs when the generator output frequency matches the marker frequency set by the user.
It would have been nice to see the generator sweep set to a log scale on the bandgap filter experiment. I was kind of expecting it.
KEEP UP THE GOOD WORK!
Two big thumbs up for you Dave!!!
2 thoughts: #1) use math math=abs(ch.1). #2) use infinite persistence - you’ll get rid of the low frequency sweep problem.
I mentioned that. You'd have to convert the AC signal into DC.
Some scopes (Tek I think) have an envelope detect mode that could be used.
That's a cool trick! I usually do it using the XY mode on the oscilloscope
It's fun to play with, enjoy. Try a peak detector as well.
Huh, clever idea. Had to try it. I don't have fancy digital signal generator, but tested by hooking two analog ones; feeding triangle wave to VCF. Works....but tedious. And frequency range is only 2MHz max. But better than nothing...
Great way to save $10K if you need to design/debug some complicated filtering and see what's going on. Thanks. Brilliant ! Any insights on how to do the same for getting a phase plot (perhaps another video ?).
I kind of like the filled in effect though, it looks groovy.
Dave, i just saw this this very useful video. Thanks for the upload. Good job!
great video... hope you do more like this because most of us ( i mean, "me" ) don't know how to use the full potential of our scope... thank's a lot...
When using the band pass filter, why does the plot show an initial gradient that's steeper in the first half of the rise compared to what's seen in the second half of the rise? I'd have expected it to look more like a bell curve, without that little hump on the left. And why does it not have the same little hump on the descent?
Using Syscomp CGM mini. They're like $50 now and ok in audio ranges. Can dump readings to CSV and do math on it with Excel or R and compare plots with reasonable ease. Getting better data will cost a fortune. This is quite near though.
Possibly with the aid of a frontend (synth chips perhaps) you could do the log/lin input power conversion.
You don't absolutely need a Spectrum Analyzer with a tracking generator to generate a frequency response plot. If the spectrum analyzer has peak tracking, you can use a slow sweeping (or manual sweeping) signal generator. You will need to set the resolution bandwidth pretty high, and the sweep rate should be very slow. It may take a minute or two to sweep a few hundred MHz, but you can do it.
Bodeplot is Frequency-AND Phaseresponse. You just did the frequency part. But still nice. There are people call me "Pünktlischiisser" (Nitpicker).
I might shed some some light on this matter. Hendrik Wade Bode, the inventor of the Bode plot, was an American with Dutch roots and ditto name. I'm from the Netherlands, so know how his name originally was pronounced; It's "Boduh". A 'bode' was actually a job in the early days. It's someons who delivers internal mail and messages in offices and such. Wether the pronunciation is still used as the mainstream term I can't say.
I tried that some years ago to find the frequencies of my tesla coil. Thou I used X-Y mode and the ramping output on the function gen. Also, connecting a frequency counter I could easily find the exact number without calculating it from the analog scope.
"Poor mans bode plotter"... 40k oscilloscope... Yeah right. :P
Anyway, nice video Dave. I'll have to try this when I (hopefully) get my function gen for Christmas.
somehow the wave on the display of the scope makes me incredibly uncomfortable, can't tell why...
if your oscilloscope has a log-math function, you should even be able to scale the y-axis logharitmicly or am i missing something here?
When I got my waveform generator this is literally the second thing I did right out of the box... Screwed with sync-out and trigger-in of the scope. Didn't try in logarithmic mode though! Guess I got to go back and try it.
You're a genius Mr. Jones.
Check out the Wikipedia page for Hendrik Bode (sorry, it's really Boh-dee). Incredible range of contributions: WW2 anti aircraft fire control systems, co-authored a paper with Claude Shannon, robotics, etc. He's responsible for the systems that shot down Wernher von Braun's V1 rockets and later worked with him in the US on space technology. Good video, thanks.
fucken aweeseome. this actually has the potential to be way more high res than an FFT in certain respects because you can be more specific with ya frequencies in question where-as an FFT is limited to buckets.
Once you've got the plot you want turn display persistence on to infinite ;)
Venable dot biz has a few pieces of equipment that measures frequency response, phase response, etc. I'm not sure how much they run for, though.
thanks from México. You saved my soul
That's pretty neat Dave. The only negative (or "delta" in project manager speke) is that technically a Bode Plot includes both Gain and Phase. You're only showing phase. However, as I'm sure you'll agree, this detracts in no way from the value of your creative energies.
Nice video. At the days I was dreaming about having oscilloscope I new next thing after scope would be a sweeper. You say: you only need a multimeter & a function generator but you mean probably a multimeter and a SWEEP function generator (We are talking to the young players). Not all function generators have that function even not all spectrum analyzers on the market have that TG (tracking generator) which are coming often as an option (+$$$).
Dave, why didn't you use your scope in X/Y mode and use the sweep output of your generator for the Y axis?
Very impressive. EEV is the best! Thank you for sharing this!
Wow, thank you! Was wondering if it would be possible to do this, and seems it is!
Watching this in 2021 and its still useful
sweet info and a great ltspice test example project... thanks...:)
Thats a great video. I'm going to be playing with this Monday.
Bloody genius dave! Not gonna pay up 10k for a fancy spectrum analyser, no sir ree bob!
Nice, but with an analog oscilloscope with z-Input and with a signal generator which generates markers (as Z-Modulation), it is much more comfortable to show the bode plot at a scope and to analyze the frequency response.
Thanks so much for sharing your great trick!
That's a great trick - thanks a lot ! Now I wonder if it is also possible to retrieve the group delay as well ?!
Using your oscilloscope *and* a rather expensive waveform generator
remarkably innovative
A crystal radio style envelope detector would help in this case I think.
Got to try it. How the sweeping waveform change to almost to bode plot after feeding into the device under test(filter) escape me. I was expecting to see a sweeping signal as before but with magnitude change.
Yes, I've heard that too. But I was taught the way I pronounce it and found that the most common. There was a time before the Internet and video when languages would grow and develop fairly independently. Now everyone expects people to talk like Americans!
Isn't it important to also note that the function generator should have a 50ohm attenuator on its output so the sweep doesn't cause the function generator itself to change voltage because of different impedance in the circuit over frequency?
Another way is to take the FFT of the impulse response. But you would need a fast pulse generator.
Or fast-sweep the generator and use trace persistence to show the FFT's peak (I just now tried this).
Ideally, would the signal generator's amplitude be adjusted, to maintain a constant amplitude, as the frequency is adjusted?
or can't you also get something resembling a proper bode plot etc by using the math function? dividing the filter output by the original output in channel 2? or something like that?
Funky use of the scope. Interesting video however I will have to watch it a few more times as I can't stop ogling at that MSO. I love Agilent "one day" so before I get arrested thank you for making this video. What a winner!
How to achieve the same result with a psg9080 and a atten 1102cal? How to sync sweep output with trigger?
Made my day..... You get wings in Heaven!
Personally, I like the variety among "English" speakers. I don't expect everyone to sound the same - that would be boring.
Strange how it's in the Macquarie dictionary then!
See the article Hendrik_Wade_Bode on Wikipedia. His co-workers pronounced it Bo-dee and the actual correct Dutch is Bo-dah.
Thrifty! Think you could get a similar result in XY mode if you put your function generator in VCO mode with the control voltage (frequency) on the X-axis?
Thanks! This might be usefull for my Bachelor thesis.
What are the nine little dots under each of the BNC connectors on your scope?
I have a MHS-5200a which does not have sync signal. How do I sync it with the oscilloscope?
really amazing, now I only need a function generator and a scope
what is channel 2 connected to and why?
Thank you so much, fantastic.
Thanks Dave, big thumbs up x2
I love that agilent scope, we used those in a lab i had for a microprocessor class. Im pretty sure those things costs like 6000 $ though :S
nice:)
this the kind of lecture we all want
go on bro,
Best advice I ever had!
Great video! Thanks.
errr - cant you just do the same with the spectrum analyser function if you have one?
What's the advantage of the 2 almost identical bandpass filters in series instead of using just 1?
A 2 stage filter will give a steeper rolloff.
Dave, just a question and not trying to be rude. Did you get lost at any point through Peter's walk around, as a standard electronics hobbiest i found it overwhelming at parts.
Dave
I have tried this using the Sync output on my Siglent SDG 1020 gen
on a Siglent SDS 1052DL scope but cant get it to lock.
Can you help?
Details... details...!
How he displayed that waveform on scope what is going on there?
Dave, I have a new DS1104Z and DG1022Z. Using the sweep, sync and XY setup I am trying to plot a basic audio freq response curve. Once working I could use it to test audio amps. Per your video's approach I was hoping that setting the scope to peak acquisition mode I would get just the top line displayed. No luck. The only Volts by Freq curve I can display is with FFT and it is not very good. The XY arrangement doesn't display a Volts by Freq plot. I can't figure out what I'm doing wrong. Any ideas?
rb You need to do it on YT, not XY...
Maybe you could generate a log signal with the other channel of the function generator and generate an XY plot on the scope.
Then, you would have even better, you would have your log axis.
***** Yes, I meant that! A log freq. sweep. Didn't notice he was doing that.
Yes! It is a gorgeous demo! I don't remember if the Y scale was log or linear. If it was log, then he could have done a real bode plot by doing a log freq sweep.
great video .. i was bale to get this.. however at high freq, if you zoom in the waveform is distorted due to low sampling rate (1s time span, but 20k) .. so lot of aliasing can happen. let me know if you think there is some solution to this..
What an Irony just shorten the sweep time, sweep the frequency space you want to zoom into, and zoom in.
AD8318: 1 MHz TO 8 GHz, 70 dB Logarithmic Detector/Controller
any plans for your number 400?????
awesome work
i still use a mic input to my daw, then look at the signal with a plugin