they do the same thing with switching fets, you can never push the current they say it will take as there is no heatsink that could keep the junction temperature within limits. it's all done to make them look good on the first page. :-)
no its the max specs at 25c but also affects inrush, peaks, and non repetitive surge currants we need these specs for sizing and headroom we need all the specs to make a proper choice
@@davidknightaudio934 it maybe the spec at 25°C but you try and achieve those currents and maintain the FET at 25°C. it's done to make them stand out as i said. every engineer knows that you have to work with the smallest heatsink that works for your specified performance requirements. but you take the max current figures with a pinch of salt. it might prove me wrong if we look at the RDSon, max current, max junction temperature, and thermal resistance from junction to case at 25°C . would be great to see how hot the junction will get if we pull the max rated current.
@@TheEmbeddedHobbyist ur not getting what i am saying thats ok i am trying to explain that those figures are very helpful for things like headroom if theres a surge and telling you how it will handle power on inrush and so many other factors we need all the specs the entire data sheet and the rest of the specs are more important than the absolute maximun ratings ofcource
@@davidknightaudio934 All I'm saying is that they use the max ratings in large bold font on the front page, where the non engineers get excited over the part. Where as we understand that these max values all fall over when you start to look and understand the derating curves etc. So in affect they are just eye candy. I once used a 1ohm 1kw resistor which was mounted on a very large with very high powered fan cooled heatsink. As it was needed to disipate over 3kw's with all the loads mounted on it. the resistor blew up at about a 1/4 of its rating, reading the small print it needed a polished mounting surface not just machined to achieve the low thermal resistance it needed!
Please check the maximum temp. rating at which the LCD display can work reliably....we had experience of some of them fail above approx.(55-58)°C in extented thermal cycling heat run tests.
@@Mark1024MAK no it's depends on which device to use for desoldering.(Hot air gun/normal soldering iron) . It's not cost effective when it's come to Resistors, capacitor,transistors
"When something works partially then you shouldn't poke into it because then it might not work at all." I just tried to fix my multimeter which wouldn't zero perfectly and now I have a multimeter with a broken spring going to the movement.
I agree with the lesson at 8:53, that's the reason my A/V Receiver has no center channel for speaker output... I do have left, right, and sub though :D Can't complain, something else on it will have to break first.
Some of the china made heatsinks are has low thermal conductivity by the poor metal processing, uneven contact surface with the power device. Or just geting lost the original shape and olso the mounting pressure by time. These factors are olso come to play in newer consumer devices exept the first one.
Vďaka tvojej šikovnosti máš teraz dve umelé záťaže (vlastne tri, ak počítam aj tú kedysi tebou vyrobenú), takže paráda. Taktiež pekne vysvetlené zaťaženie tranzistora.
I agree, it's kind of interesting. I would have guessed a mosfet first too. I made an electronic test load and used a mosfet as well and I'm trying to think if I even considered using a bipolar part.
I learn new information with each video of yours. Thank you.
you can adjust settings by holding the button during powerup 😀
I think your cat is well trained now ;-)
You should mention SOA...very important. Your videos are great.
they do the same thing with switching fets, you can never push the current they say it will take as there is no heatsink that could keep the junction temperature within limits. it's all done to make them look good on the first page. :-)
no its the max specs at 25c but also affects inrush, peaks, and non repetitive surge currants we need these specs for sizing and headroom we need all the specs to make a proper choice
@@davidknightaudio934 it maybe the spec at 25°C but you try and achieve those currents and maintain the FET at 25°C.
it's done to make them stand out as i said. every engineer knows that you have to work with the smallest heatsink that works for your specified performance requirements. but you take the max current figures with a pinch of salt.
it might prove me wrong if we look at the RDSon, max current, max junction temperature, and thermal resistance from junction to case at 25°C . would be great to see how hot the junction will get if we pull the max rated current.
@@TheEmbeddedHobbyist ur not getting what i am saying thats ok i am trying to explain that those figures are very helpful for things like headroom if theres a surge and telling you how it will handle power on inrush and so many other factors we need all the specs the entire data sheet and the rest of the specs are more important than the absolute maximun ratings ofcource
Particularly the pulsed drain spec and the tj @ 25c power rating
@@davidknightaudio934 All I'm saying is that they use the max ratings in large bold font on the front page, where the non engineers get excited over the part. Where as we understand that these max values all fall over when you start to look and understand the derating curves etc. So in affect they are just eye candy.
I once used a 1ohm 1kw resistor which was mounted on a very large with very high powered fan cooled heatsink. As it was needed to disipate over 3kw's with all the loads mounted on it. the resistor blew up at about a 1/4 of its rating, reading the small print it needed a polished mounting surface not just machined to achieve the low thermal resistance it needed!
I put a larger model display on this unit and it works perfectly.
can you provide link to that model you replaced with?
Please check the maximum temp. rating at which the LCD display can work reliably....we had experience of some of them fail above approx.(55-58)°C in extented thermal cycling heat run tests.
"Ditch that dodgy chinesium, just make your own!" :)
Nice fix.
Great vid and explanation as alwasy DGW. Thank you! ☺
Keep up the good work
no schematic?! bloody hell :)
Maybe drill some air circulation holes in the plexiglass over the MFET and Sense Resistors?
That was a easy fix 👍👍👍👍
Always great videos, thank you.
;)
This is a nice video :)
Where do you buy all of your old and vintage resistors, capacitors, potentiometers and all of the other components?
At least some of them are recovered from other scrap devices.
@@Mark1024MAKt's not good idea, some of the easyly broke when desoldering
He just bought or desoldered them from some old electronics during the old times and kept them to this day.
@@abeliever7301 - it depends on how good you are at desoldering 🤣
@@Mark1024MAK no it's depends on which device to use for desoldering.(Hot air gun/normal soldering iron) . It's not cost effective when it's come to Resistors, capacitor,transistors
"When something works partially then you shouldn't poke into it because then it might not work at all." I just tried to fix my multimeter which wouldn't zero perfectly and now I have a multimeter with a broken spring going to the movement.
Awesome fix and amazing explanations as usual :^)
Would it be worthwhile to puta huge heatsink on this load so you could do without the fan?
Why remove the fan? It would make the test load bigger. A fan is such a small load and it only turns on when the heatsink gets hot.
BAKED! 🔥
Maybe I should employ you repairing my larger unit.
I agree with the lesson at 8:53, that's the reason my A/V Receiver has no center channel for speaker output... I do have left, right, and sub though :D Can't complain, something else on it will have to break first.
Can u post your load schematic on your web page?
can you make a tutorial explaining Power Factor Correction
Does IT has smd mosfets in its pcb??
Very good
So the silicon should have been possibly lightly braised rather than subjecting it to roasting.😏🇬🇧
Where are you from?
Awww yeahhh. 2 new to watch
BAKED.
Your English pronunciation is like you singing a song, very unusual
😂
Your cat is trained but mine is noob
Some of the china made heatsinks are has low thermal conductivity by the poor metal processing, uneven contact surface with the power device. Or just geting lost the original shape and olso the mounting pressure by time.
These factors are olso come to play in newer consumer devices exept the first one.
Did you salvage that knob from a Tesla car? 😁
Not that Tesla ;)
I love it good 👍
Ahoj, napsal jsem ti email, rád bych od tebe koupil nějaké GM trubice pokud je ještě máš. Stavím podle tebe mini dozimetr. Díky, Petr.
Vďaka tvojej šikovnosti máš teraz dve umelé záťaže (vlastne tri, ak počítam aj tú kedysi tebou vyrobenú), takže paráda. Taktiež pekne vysvetlené zaťaženie tranzistora.
Baaaked!
Why not mosfet
Mosfet in linear region do not work well with the heat.
I agree, it's kind of interesting. I would have guessed a mosfet first too. I made an electronic test load and used a mosfet as well and I'm trying to think if I even considered using a bipolar part.
should I leave the likes at 666 or add one to 667 and get rid of the sign or the devil 🙂
cat
great video edit: ua-cam.com/video/yhlsBM5W_go/v-deo.html Love it !