Homemade Digital Electronic Load | Multiple Modes

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Good job, one of the best assemblies I have seen for modules of electronic load, this simplifies it a lot for noobs, but the code is missing some features to complete a prefect job:
1- Set end condition i.e. voltage in order not to destroy and deplete batteries under test.
2- Total capacity in mA or A for batteries testing.
3- Total consumed power.
👍

17:05 i like the fact that it's only V1.0, so there is still a chance of development.

Man you are my favourite ❤️❤️ you come up with something unique everytime.

I just finished this curcuit it works great, thank you kindly electronoobs :)

love how alot of the way you get your readings are like how you do it in your DIY multi-meter..

Perfect timing...I was looking for one until I saw how much they were. Might build my own now. Thanks for your content.

As always, the bestest video ever.... Can't describe in words how much i was waiting for this video...awesome work dude

I'm glad you exist since I definitely can't afford commercial versions of this

I love it. Your videos are very inspiring. thanks again!

Excellent project! Very useful in a lot of cases!

As always, outstanding! Keep up your amazing work.

Great, im gonna collect the components tomorrow. Thanks

Very nice project. Thank you sir.

It's really nice device and the packaging has made it really professional look

Excellent project 👍

One of the best Arduino project. Thank u for sharing...

Looks great! Next semester I will start to study electrical engineering:D

You are awesome and always your projects are brilliant

Nice , i will also use this idea for my project.

Did you read my mind? I just looking for this stuff 👍🏿

very very great project i made the previous version of this projet and and iam willing to upgrade it

Awesome video as usual 💪🏽

Спасибо большое что делитесь своими опытами 👍

It's so cool I try to make one for myself. Good video.

Very good, thank you for the video

Amazing explanation

I did the similar project 2 years ago. I used INA219 as a current sensor together with 0.1Ohm sense resistor. It more accurate than ACS712, has I2C interface and 0.1 resistor produces less heat.

Sería estupendo un diseño en PCB en vez de tanto cable y placa de prototipos. Magnifico video.

Useful for me thanks you

Dope video mate

Nicely done

nice project i love it

Oh heck, I missed the other one you built.
I think I can handle building that first one.
Thank you.

Your Videos are love 🥰

Can't wait to build one! Sometimes it's best to order the parts right away before watching the whole video and deciding a project is too complicated. Not this time!! Also, XD @5:56

You are the best for me.

Have you checked stability of the system? Especially op Amp driving a mosfet tends to oscillate under some circumstances. Adding some caps in the right position could increase your phase margin of your system.

I love how they say get your PCB for $2
and don't say plus the shipping
🤦‍♂️🤦‍♂️🤦‍♂️🤦‍♂️🤦‍♂️

It's awesome broooooo

I need one!!!
And I will be do it someday.

11:05 , don't put mosfets in linear mode in parallel , drain-to-source resistance changes as mosfet heats up, but they'll not heat up equally even if they're mounted on the same heatsink, you'll get cycle like this until one of the mosfets burns : higher temp => lower resistance => more current = even higher mosfet temperature, so eventually current rated for all mosfets will pass only thru one mosfet
you can put them in "parallel" if you read the amperage, and control their gate voltage separately
but anyways, cool project :)

Me gusto mucho este proyecto, vas a compartir los ficheros para poder hacer la pcb y modificarlos?? Gracias por este y otros proyectos tan interesantes. Un saludo.

Great video

pls add battery capacity tester feature

Very nice project... In the next version you can implement one PID controller...

Very very nice the all project! Also the case and the menu:) but I'm not sure the MOSFET is properly driven by the DAC. You should use an OP-AMP stage. I know it is not that easier to get also resistance and costant power!

This is a sweet project. My only concern is that of response speed. It's probably not a big deal for the vast majority of use cases, but I could see some situations where an input voltage changes rapidly. That could cause a large current surge that could brown out the supply, or cause strange oscillations. For example, in constant power mode, if a supply rapidly switched from low to high current, this load may not be able to increase the resistance fast enough, overloading the supply. Or in constant resistance mode, a reduction to half the voltage will momentarily continue drawing the same current (half the resistance). I think this type of situation is rather unlikely. But it should definitely be kept in mind.

Can you make a tutorial about how to make an audio power meter? It should be a pretty similar project but with AC instead of DC. You make awesome videos :D

Made it, works great. The only issue was that the current was stuck at -500ma, but I resolved the issue by flipping L- and L+ around.

Error = setvalue-actual
Pwm = pwm+ error
I just use this for the pwm compensation and it's work very well and very stable

Banana got his terminals. hahahah
Nice work.

Excellent.

A Watt-hour counter and an automatic voltage cutoff feature would make this perfect I believe.

You are the best

thats a great project hope you build a li ion balance charger and discharger its already quite similar to this project

This electronic load is cool, I like it! I wanted to build a very similar load and because I had some problems I didn't do it, but now that I've seen this video I plan do start building it, finaly :) But I would add more power MOSFETs to share the load, because MOSFETs with great SOA (safe operating area) are expensive, and if you choose a MOSFET that isn't designed to work in it's saturation region (where it dissipates a lot of power) it might damage over time.

Good job! I have a question though.
With the analog version there was an op-amp at the input of the FET in a feedback configuration. This time the DAC drives the FET directly without any feedback configuration.
How do you know the FET drive voltage for a specific amount of current. Is there a digital feedback control?

you should really look into ferrules for things like the mosfets, solder on a hotpoint, ripe for failure

Hi, nice Project, I just stumbled about one thing. GND of Sense is directly connected to the common Ground.In case you connect Sense GND and Input GND directly to your power source then the sense GND wire will also have to carry a lot of Amps resulting in Voltage drop over the wire? => Depending on the "thinkness" of the Sense GND wire, the measurement might be impacted less or more. Shouldn't Sense be measured in a differential manner?

I was going to make an old fashioned resistor box. But after watching this I am re-thinking that.

Also, I think running MOSFETs in parallel as suggested by running them in the linear region could be non-ideal since the different manufacturing tolerances would make them difficult to control in unison

Bro need more video related to power electronics...

That was a nice circuit Dude! 😍
Might be useful for a capacity test for 18650's.

Hi- Thanks for posting this. I’d like to build it, but I have one question. The link you provided for the fan looks nothing like what you actually used. Do I need to get a heat sink and fan separately, or are they available as one unit? Can you provide additional links if necessary? Thanks again.

Amazing video as always and nice job on the exterior but at 8:49 it's not 0 to 4096 as in the case of the arduino it's 0 to 255 not 256.

Hi. Great tutoral and i had replicate one using the schematc all work greatl, but if i setup my power source to Give i.g 5 amp a setup the load for 2 amp or something , is drain8ng always max 1.2 amp. From 0 to 1.2 amp setup on the load all works great but any think over is always showing 1.2 amp drain. Is that mofset averhited or something alse? Thx

I am your pateroner, very happy to see this kind of project. It is very useful and you have fully utilized the microcontroller using a good example and best coding way to produce the user friendly features. I love it !!!!! I am your fan haha. Previously, I asked you question and you was responsive to answer my question on pateron chat. I was doing the smart watch project the latest version. But I realized that using the ATmega328-MU the footprint is difficult to solder, I try many best way to solder this and apply the flux to ensure solder paste can properly isolate and solder tightly. I keep trying more than 6 times to program the MCU but stii failed. I read many videos how you burn the code in a blank chip. But I am going to re draw the PCB and change it to ATmega328-AU, i guess using the larger size of ATMEGA328-AU then I can only successfully. Anyway, I really like your project so far. Hope you keep on post more, stay healthy and safe during this period. God bless you.

I would suggest to start using the STM32 breakout boards for your projects, since the Arduino nano and uno limits clearly start to show up for advanced ones like this one, and it makes you take more time and waste more money on fixing them while you can foucs that on the project making it better, I but really did enjoy watching that build, it was quite the improvement form the last one and more unique not just a circuit that you found on the internet and copied.

this is a great project. I want to know, how you made variable resistor for resistor mode?

Great video....if you can do a video on switch mode supply and its theory..(how to make a smps at home)that would be great

Very nice work. Any possibility to run this device in higher load?

1ohm is maybe a little high (voltage drop to connected equipment)
simple suggestion for a bigger/better monster v2.....
mosfet x3 to share the heat
0.1ohm (10x1ohm parallel less heat/less value drift so more accuracy)
tl072/358/741 opamp to multiply small currents before adc (switchable? 1x 10x etc)
less ugly display option, small but pretty oled ones are like $8
sdcard logging......

Great project I already made your project . Also some minor modifications . I saw that it couldn't get to higher currents due to the 1 Ohm resistor . basically your dropping way too much power on the resistor . I put a 0.5 ohms and arrived at 4 Amps with Just 1 Mosfet . the Idea is to ad a standard Shunt so all the power can be dissipated on the mosfets . I already made a 400Watt DC Load using the same ADC and DAC with adruino with1% accuracy . but my problem is that i could never understand how to make a Menu . I'm hopping that I could use your Code and modify it so id have a more extended functions . Beautiful Project

When drilling into a heatsink with heatpipes, make sure not to hit the pipes or the refrigerant will escape and the heatpipe won't work. (If you noticed a hiss and a funny smell when you were drilling it, that's what it was.)

I wanna make the Fan Temperature Controlled...At which 🌡 the fan should turn on and at which 🌡 the fan should run at full speed?

What would be the best way to build this for higher loads? I have 30ah 12s 50v lipo batteries I need to discharge after to work to storage voltage. So that like's 1500 watts at 1C. Some have said driving multiple MOSFETs could be problematic. Would it be more efficient if that actually fed a bank of high-power resistors?

Next version could be voice controlled. Add some mic with tinyML on MCU and say the command "Set CC at 1A" 😁
Awesome work. Keep it up 👍🏼😊

Great!

Ostias colega ... lo haces mas grande y no te cabe en casa, podría ocupar una cuarta parte de lo que te ha ocupado a ti jajaja

Is it possible to have higher gain, say with R7=2kohm, R6=2kohm? What is the maximum voltage for the MOSFET, the Vgs in the datasheet? So 20V? Thanks!

Hola, el esquemático cuando lo descargo luego no se ve bien. Podrías subirlo en Google Drive o algo así para poder imprimirlo y así montar mi unidad de carga electronica. Gracias

Maybe you should consider calibrating your oscilloscope probe... Otherwise great video!

hey electronoobs it would be a good idea if this project can be used to test the capacity of 18650 batteries by measuring how much current it delivered for a certain time and than display results in the end please please make another version with this improvement

Hii, I enjoy n used many of your project for diy. Can you show how to build 4 to 20 ma source with lcd indicator. Digital or analog. Need to simulate sensor values.

También sería interesante que subieras el propio fichero easyeda para poder hacer el pcb. Un saludo.

When you need to air-cool your MOSFET to Absolute Zero, giant heat sink + fan 😂👍🏻

Awesome! This is really cool! in V2 can you make a PCB? maybe smaller too? I would love to have one on my desk! also, I've become a very frequent commenter. if you remember me, I'm sorry for causing so much trouble with all these questions! I love your youtube channel and you are one of my favorite UA-camrs along with GREAT SCOTT! I love you guys and I REALLY think that you guys should meet each other and you guys could have some AWESOME ideas. A collab would be AWESOME!!!!

Can you simply parallel the mosfets without any other modifications?

Question: Why not a INA family current-shunt monitor?

is there any voltage limiting factor here? actually i wanted to test my lithium ion cell using this...will it work for such low voltage of 3V?

Great, can you add mAh to the code to measure capacity?

Nice...

Great build. Liked all the explanations and problem solving along the way. I would suggest you raise the 1 ohm 5 watt resistor above the protoboard to prevent burning of that board at full current. An excellent build

Can i use AUTOPID library to create constant close loop system ??

Why didn't you use PWM on the gate of the mosfet so that you could dump the energy into a passive resistor and keep the MOSFET out of the linear region?

There is an error on your schematic. The RST pin is connected to ground and the microcontroller is on reset all the time. So the program won't run. Am I right?

Which gauge of wire did you use to connect to the mosfet.

Great job, amazing results, unfortunately I need one capable to handle 30V @10A (300W), Do you know If ia possible to get this Power?

hi, nice project. i built the previous version too.
the only thing i don't like is the resistor because of the voltagedrop, so thanks for the alternative component ACS712. why don't you use a opamp to raise the voltage of the ACS712?
i want to use this for building a power supply from an ATX PC PSU. i only have one lab bench power supply and sometimes need more voltages so this will be my second power supply. it wil have 5 dedicated voltages (3,3 / 5 / 12 / -5 / -12 ) with adjustable max current (for the positive voltages), and a voltage and current controlled output. all with volt and ampere meters. and at the bottom some usb connections for charging.
if anyone interested in this, i made the frontpanel in tinkercad (search for ATX PSU Bench power supply)