My father was an engineer and a real perfectionist. The phrase "good enough" was never allowed to be uttered in our home. As a result, I grew up to be a real perfectionist. It does me a world of good to hear someone whom I respect say, "What the hell, it's close enough." Thanks!
@FlashEF
11 жыл бұрын
This makes me wonder why we never had such electronic lessons. On my university it was mostly like "lest calculate this random gigantic resistor-transistor network". You know, for practical design knowledge and fun... I was never before in a situation when I sit down, listen and understand every single thing. And English is not even my native language, while those classes were!
@HighestRank
6 жыл бұрын
IDK why
@MarkMcDaniel
3 жыл бұрын
That's the problem with professors who've done nothing but instruct. They don't teach much that is practical because they've never worked in the industry.
@albertluna1001
3 жыл бұрын
So true
@zarserz
11 жыл бұрын
Love fundamentals Fridays, please keep em' coming Dave!
@madkins0128
11 жыл бұрын
Thank you!! ... the identification of the building blocks and options of a circuit to achieve a result ... priceless.
@trevorvanbremen4718
4 жыл бұрын
The old '339 is quite a useful beast! I just used it in an automotive device that has several 0-5V analog input signals. I needed to include a voltage clamp on the micro-controller analog inputs in case some IDIOT (that'd be ME) accidentally shorted the input direct to the 12V battery. With 100% negative feedback (inverting input directly connected to the output), and a simple resistor pull up to the +5V micro controller power rail, the output will (fairly) accurately follow its input in the 0-5V range. If the input exceeds 5V (due to the IDIOT), the comparator will saturate at 5V since the pull up cannot pull the inverting input high enough to match the non-inverting input. One of the beauties of the venerable '339 is that it doesn't have the pesky input protection diode to the positive supply rail so the input can be 'over driven' right up to the CE breakdown voltage of the input transistor (>30 volts). Since there ARE no voltages below chassis ground in the car, I shouldn't have to be worried about the input pins being driven below 0V. (However, a resistor + diode clamp to ground on the input pin would almost do it) I included positions for external pull up resistors on the PCB, but I am hoping that simply enabling the MCU pin internal pullup resistor (around 50k) will be enough. The comparator output should cause the MCU input pin pull up resistor to be loaded just enough such that the voltage follows the comparator input (unless it exceeds 5V) It wouldn't have been quite as easy if I had to use a 3.3V based microcontroller as I would have had to scale down the input signal first!
@bloomtom
11 жыл бұрын
I love following along as you solve the problem on the whiteboard. It's like watching a mystery unfold, my mind scrambling to uncover problems and solutions before they are revealed!
@kei_otake
2 жыл бұрын
I remember Ben Eater using that T = R•C formula for a clock pulse iirc - so cool to see different engineering KZitemrs mention the same things!
@Miketar2424
11 жыл бұрын
Dave, thankyou for Funda-Friday. Its the greatest idea you've ever had for your show imo. I'll be watching every one.
@panzerschrekIOI
11 жыл бұрын
I'm really glad you're doing more of these, I'm an electronic enthusiast and student, but I sometime lack the rough basics of some circuits, and you're making it so simple to understand... I'm actually watching your videos instead of making homework... But, electronic theory videos count as homework, right?
@RedRobster
11 жыл бұрын
I don't even do electronics that much but Dave is a frequent-welcome guest to my screen.
@TreacleMary
11 жыл бұрын
This was perfect for me Dave, going through the design decisions step-by-step, but not getting too bogged down in the basics. I look forward to more, cheers!
@ForViewingOnly
11 жыл бұрын
Absolutely ACE Dave! Theory and practical... couldn't be better. As a vintage computer enthusiast I'd also like to request a F.F. covering switch mode power supplies, showing waveforms if possible. Thanks for listening.
@BaratheonBC
11 жыл бұрын
awsome, loving this segment. had to watch the RC explanation on the capacitor changing. two times (the high and low voltages were confusing me), but i got it. keep sharing the knowlege. thumbs up!
@memadmax69
11 жыл бұрын
PLEASE! More fun-damentals fridays!
@ver64
11 жыл бұрын
Thanks Dave,can't wait to next Friday....
@parvinzad
11 жыл бұрын
Thank you Dave for your simplistic way of explantaion !
@modelrogers.19
4 жыл бұрын
Thank you again for your walkthroughs. The best ive ever listened to. Thank you for helping us understand!
@sebastiang2296
11 жыл бұрын
I really like this segment. A good balance to all the other videos. I'm looking forward to more Fundamentals Friday videos. The ~30 minute videos are OK and it is nice to have the theory with details and the real implementation and testing of the circuit.
@Menimitz
11 жыл бұрын
I like these at about 30 minutes. I think depending on the topic they can go as high as 45 and still keep it watchable but much longer on a weekly basis would be tough to keep up with. Can't wait for episode 3.
@leeYT321987
11 жыл бұрын
Hey Dave! I'm only 5 minutes but I just wanted to tell you that I LOVE Fundementals Friday!!!
@JeremyVeleber
11 жыл бұрын
I agree with Alyx about the longer videos. I disagree with the knowing everything about comparators, at least for my part. :) I know some useful stuff now. Thanks! Keep these up please, Dave.
@viesturssilins858
11 жыл бұрын
This new segment is perfect! Please keep them coming! And I think that the lenght is about optimal too.
@gamccoy
11 жыл бұрын
I like this new segment format, Dave. Please, keep them coming.
@KrisBlueNZ
11 жыл бұрын
4. A simple option for detecting voltages close to the rails would be an NPN and a PNP from each rail in common emitter configuration. Several more transistors are needed to deal with the signals from the collectors of those transistors, so it's arguable whether that solution is better, but at least it avoids the common mode input range problem of the comparator.
@rotlerin
11 жыл бұрын
Super stuff. I don't pretend to understand it all, but it's so damn interesting. Big thumbs up for FundFri.
@crabxcorelol69
11 жыл бұрын
Friday is my new favorite day.
@ISmellBurning
11 жыл бұрын
Fundamentals Fridays is a winner. Thanks very much Dave. :D
@EngineeringAllAround
2 жыл бұрын
1. Common mode voltage range of LM339 ends around Vcc -2V, so other comparator is needed here. 2. LM339 has bipolar transistor output, so our capacitor should discharge very slowly around "Low-level output voltage" 150-400mV, as listed in the datasheet. 3. Its a better idea to ground third comparator's positive input and change resistor value to achive desired delay.
@AbdullahKahramanPhD
11 жыл бұрын
Fundamentals Fridays are great, thanks Dave! 30 min. is perfect.
@DavidTelesPortugal
11 жыл бұрын
Late in the nigth here in Portugal. So let me see this before bed.
@revealingfacts4all
11 жыл бұрын
LOVE IT, LOVE IT... Hey Dave, so your tear downs were getting a bit old for me. I love this kind of video and it's more like your earlier ones where you spent time on theory and then into a real world build up. Brilliant! And just love how you show a working circuit and how to use lab equipment to study it. Keep Fundamental Fridays coming!!!
@willywgb
11 жыл бұрын
Hi Dave Your new Fundamentals Fridays is great. Hope that you can keep doing them. Would like to see a segment on Switching Power Supplies? Keep up the great work. Willy
@roundboy0
11 жыл бұрын
Dave, These segments are fantastic. Thank you.
@EEVblog
11 жыл бұрын
I've had that one since I was a teenager!
@mikeandrewp
11 жыл бұрын
I made a very similar setup to test ATX power supplies, using four LM393s, an LM431 reference, transistor-driven Green (pass) / Red (fail) LEDs and a brighter overall "FAIL" LED, with an added CD4069 hex inverter and some diodes for logic. Also a set of 1ohm and 3.6ohm high-watt resistors and some NTD series power mosfets to generate a ~150W test load. Never got to build it, but I did get as far as a tentative board layout.
@YQTFun
11 жыл бұрын
Love fundamentals Friday.
@EEVblog
11 жыл бұрын
This is my usual workbench area. That whiteboard is right next to my main bench you see in most videos.
@envisionelec
11 жыл бұрын
I can't tell you how many times I've forgotten to read the datasheet for the output configuration for a comparator. I'm a little wiser now, but fortunately many comparators share pinout - saved me a few times.
@ChrisMasto
11 жыл бұрын
Funny, I just did this last week (see video response). I probably screwed up some of the details, because I'm really new to electronics, but I wanted to be able to detect a short duration signal with an Arduino program that spends a couple of seconds in a timing-sensitive loop with interrupts disabled. I used an LM358N and an R-C circuit similar to yours to stretch out the pulse to the point where my program can read it at leisure.
@BlackAck90
11 жыл бұрын
Exactly what I was thinking!!.. Great comment.
@mccunecp
11 жыл бұрын
thanks dave I will have to save this video for later watching for my solar stuff. would work great for charging. were I can charge up to a certian voltage and use it to turn off the solar once the battery reaches a preset discharge voltage it will go back in to charge mode untile the battery once again reaches the charge voltage. IE stop chargeing at 28.8 volts and dump any voltage to gti. and when battries goes below 24.4 volts start charging them again. nice video dave. love it.
@frollard
11 жыл бұрын
Love it! Great stuff. I'm brutally bad at understanding analog theory so you beating a dead horse with terminology, cause, effect, and traps is appropriate for me :) Thanks again, keep it coming!
@LegendaryZable
11 жыл бұрын
I build my first little timer with a capacitor and a comparator so proud of me that time :)
@k3ith1
11 жыл бұрын
Depends on the timing I would think. The PIC needs time to convert that voltage to digital so you would miss very fast signals. Check the conversion time in the datasheet.
@KVNRICH
11 жыл бұрын
Excellent tutorial really clear instruction another problem solved thank.
@bitrot42
8 жыл бұрын
Great to see something like this done with real hardware, instead of whacking in a microcontroller. Why does the datasheet say you can power it on +- 1V when the inputs have to be at least 1.5V away from the rails?
@MicrowaveGenocide
8 жыл бұрын
wait WHAT your telling me I can build circuits with out a atmel and a few msp430's? lol
@TheCrazyInventor
11 жыл бұрын
Too bad a week only has one friday... I like this segment. :)
@TheOysterjam
11 жыл бұрын
nice idea. i think the only problem there would be voltage drops in the rectifier but you can compensate for that easy
@lodevijk
11 жыл бұрын
Hey Dave! I really like these new Fundamentals videos. It's too bad you were in a rush and didn't have a lot of time to shoot this one. Otherwise you would have certainly realized an easy solution to making this work at ±1V - by using a divider not to ground, but to -1V. I thought of that immediately because I never work with a split power supply... I cannot afford it, haha. Anyway, as a lecturer, you're very interesting to listen to. Keep this Fundamentals Friday going!
@kevy1yt
11 жыл бұрын
LOVE fundamental Friday! Keep um comin'. This one was a tad confusing though because you started with a design goal that was to be low parts and cheap and ended up using a 2nd IC instead of the quad comparator initially mentioned. Still, got to see some 'traps' in action.
@BalticLab
11 жыл бұрын
"There are practical effects when you probe things" -> That's what she said
@sarwork
11 жыл бұрын
Thank you You have an excellent method for explaining circuits. Keep it up
@EEVblog
11 жыл бұрын
Yes, it counts. I can write you a note if needed!
@SeanBZA
11 жыл бұрын
As you are using an isolated supply use the scope probe as the 10m resistor instead, and just have an inverted trace.....
@k3ith1
11 жыл бұрын
I agree, this is the best segment. I don't mind 30 minutes at all.
@SpeedDeamon95
11 жыл бұрын
I love this stuff! but it also makes me realize how long its going to take to learn all this stuff but its worth it!
@raul116
11 жыл бұрын
Hey Dave! Maybe next fundamental friday could be a tutorial on how to read opamp datasheets and what does every characteristic means!
@jopotzner
11 жыл бұрын
I'm really enjoying your Fundamental Friday videos. Keep up the great work!
@BGaborr
11 жыл бұрын
I love these tutorials! Way to go!
@KrisBlueNZ
11 жыл бұрын
3. In practice I would use a PNP emitter follower from the RC driving an LED, and a resistor between the comparator outputs and the capacitor so it doesn't discharge fully and immediately on every overload. This gives a smooth range of brightness that's proportional to the amount of overload, which I find more useful for audio use, though you may want the behaviour you've designed for. (A pulse time of 0.1 seconds would be plenty long enough though.)
@ivanv754
11 жыл бұрын
Nothing like watching Dave's head on a 42" display in high definition, surround sound system, dimmed lights and popcorn, right?
@robertfenney
11 жыл бұрын
Thanks Dave this new segment are really helpful!
@jessstuart7495
7 жыл бұрын
TI makes a convenient window-comparator IC (TPS3700) for overvoltage/undervoltage detection. The voltage thresholds are set by an external 3-resistor tree (voltage divider). It has open drain outputs too, so they can be wire or-ed together. www.ti.com/lit/ds/symlink/tps3700.pdf
@0LoneTech
11 жыл бұрын
My first thought for a pulse extender was to just put a cap on the comparator output. It would then recover by the same current that feeds the LED. That variant would have a more complex time, uneven light, and require a larger capacitor, so probably not work as well... just thought I'd toss it out here anyway.
@yasodhjayathilake5029
11 жыл бұрын
Hello Dave, i learnt alot about electronics through your videos.Can you make a video on how to send data to a TFT LCD screen through a microcontroller and display some graphics. Thank You.
@Ninboyc
11 жыл бұрын
Absolutely love these educational videos Dave!
@jix177
11 жыл бұрын
Very well presented, well done!
@metaforest
11 жыл бұрын
The only way a micro could help here is if you needed to dynamically attenuate or amplify the input signal to keep it inside the window. That gain adjustment problem is WAY beyond the scope(hah) of Dave's demo here. (Thanks Dave for showing the rough edges of this technique!
@lrcarv1971
11 жыл бұрын
Hi Dave ! Don't worry about the time it takes the "fundamental Friday"! I don't mind! In fact if you want to set the limit to 1 hour, I'll find the time to see!
@Tjousk
11 жыл бұрын
Something similar should come pre-installed with your OS, however you may need to install the 'practice' upgrade to get the same quality output.
@OneBiOzZ
11 жыл бұрын
i dont mind the longer videos ... i have plenty of time to spare and you learn more! .... i thought i knew everything about comparators ... but not CM voltage!
@pychneag
11 жыл бұрын
Excellent. Love these segments!
@gamingSlasher
11 жыл бұрын
That is usually what happens to me when I try to do designs with integrated circuits, op-amps. You get all kind of strange problems when you get near the voltage supply. You would probably have been better of using a diode to sense when you are near the +/- supply.
@realcomix1
11 жыл бұрын
Dave! I like the long videos! and I like the Fridays videos .. keep it up sir.
@stargazer7644
8 жыл бұрын
The point of adding the extra bits on the circuit is to stretch the duration that the LED lights up to make it visible even on short pulses. Is there any possibility of the pulse being so short that it cannot discharge the cap in time? How to address that? I would think you'd want the cap as small as possible.
@chimerahitman
11 жыл бұрын
Dave, I believe the 10M resistor should be in series with the output of the window comparators. Am I wrong??? Cause to me it looks like if the window comparators have enough current drive, they would follow their inputs really fast, and charge the caps fast.
@agnostos1000
11 жыл бұрын
These are really fun! Could you make the circuit so that you have multiple levels of overload? For example you have an input of +0.5v, a green led comes on, you have an input of +1v a yellow light comes on and etc?
@WakeUpWolfgang
11 жыл бұрын
I was thinking about doing this right before I read your post but on my 56'' display
@luizvision478
6 жыл бұрын
OK MY DEAR. MANY TKS ABOUT MORE THIS LESSON, I AM ONLY ELETRICAL ENGINERING, 60 YEARS, AND I LOVE DIGITAL ELETRONICS THE BEST FOR YOU LUIZ RIO DE JANEIRO BRASIL
@AntonioDellaRovere
11 жыл бұрын
The comparator has open collector output so it is only shorting the capacitor to GND if "active" ...
@johndunn5272
Жыл бұрын
Dave you need to take your hobbyists on a long range project. Why not design and build an oscilloscope!!! Yay !
@alexstone691
3 жыл бұрын
5:30 Technically you could also use a perfect diode circuit and then only need one positive reference voltage? that could save you some money for only one precision reference if precision is needed of course
@AIM54A
11 жыл бұрын
A micro also adds V&V headaches, potential regulatory nightmares depending on the project and its overkill as you mention. New players need to avoid tossing software at a hardware solution.. Great video.
@baghdadiabdellatif1581
Жыл бұрын
Thank you. god bless you
@txescientist
11 жыл бұрын
Keep up the good work! Great video as usual...
@aptsys
11 жыл бұрын
It's all in the datasheet.
@EEVblog
11 жыл бұрын
No, in this case it goes to the negative rail.
@tonydimichele4428
2 жыл бұрын
Hey Dave, good vid. I was going to make a circuit using the LM339 to drive LEDs but found the output max sink current of only 20ma to be too low for me to feel comfortable using a setup like this. I need the circuit to work out in the desert where it is bright and hot out so I was worried sinking max current to drive a green LED at 20ma would run into thermal runaway issues, and running less that 20ma into seemed undesirable as the LED might not be bright enough to easily see.
@Daepilin
11 жыл бұрын
great show of yours. really helps understanding (at least for me as only half an ee student^^)
@aptsys
11 жыл бұрын
09:30 Adding requirements? Maybe you should have set out a full list of requirements at the start of the video. Bad habits like adding things on later that weren't specified get engineers into trouble when not asked for by a client!
@GadgetUK164
11 жыл бұрын
Excellent as usual =) Very interesting, i've learnt lots from this. Keep up the great work!
@biltema2000
11 жыл бұрын
I just love this new consept of ''fundamentals friday'' thing. Keep up the good work dave! Thank you ;) ps. Can you do a fundamentals friday video on FPGA's ?
@Corpsefury
11 жыл бұрын
Same, I don't mind the longer videos at all.
@AntonioBarba_TheKaneB
11 жыл бұрын
I really like these fundamentals videos, much appreciated :)
@inductivethinking
11 жыл бұрын
Actually in most cases the LCD's digital part will work fine with 3.3V. Most likely the backlight will work too if you replace the current limiting resistor for it. The contrast of course will not work with 3.3V so you need the 5V but that requires less than a mA. Also note is that in many cases it is not safe to power stuff directly from a uC pin. Some LCDs will draw much more than the pin can give and in the general case there is also a limit on the total current a uC can supply on all pins.
@devilmastah
11 жыл бұрын
thats a brilliant idea
@alek202
11 жыл бұрын
You can download DaveCad at Amazon and various online stores, simply search for Post-It!
@hmpeter
11 жыл бұрын
Great video, thank you!
@FirstName-14
11 жыл бұрын
Fundamental Fridays For Da Win!
@sebastian.salmhofer
11 жыл бұрын
It's much cheaper but if your circuits already includes an µC with free ADC channels you could just use it. I don't think it detects 1ns peaks because of the relatively bad slewrate on the low-end opamp, but with an better one and maybe changed R and C values it should detect 1ns.
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