C'mon F_E, you're a better engineer than all that "bad mouthing" you're shelling out in this thread.
i'm not bad-moutinhg the chips. i'm bad mouthing 'lab-grade' power supplies built with an lm317 and two resistors. That simply is NOT lab-grade.
Yes LM317 will work perfectly in industrial applications. But they are all pre-set to a specific output voltage and will , during their lifetime , NEVER be set to something else..
You can rip apart any test equipment from HP Agilent keithley and you will find heaps of lm317 and lm337. Nothing wrong, they perform even better than an 78xx , and you only need to keep one part in inventory, you buy them in larger quantity so overal it's cheaper. i fully agree with all that. I too make usage of those parts . no problem there.
But all those applications have one thing in common : the lm317 is set to give a specific output voltage and it will stay there. FOREVER.
None of those designs wil have potentiometers attached on them where someone changes the settings 50 times a day.
None of those designs will have 30 different loads attached a day , some with shorts , some with overvoltages, some in reverse.
They do their work hidden away in some system and the circuitry around them has been tuned for 1 operating point. for all means and purposes they only make 1 output voltage their whole life. it may have been trimmed in the factory or field, but it doesn't change every 2 seconds. The circuitry around them has been optimized for that operating point.
That is a totally different scenario with making a lab power supply. Those things need to be built to take a beating , and stay stable under the most crazy conditions. So , yes , whenever someone exclaims that he is going to make a 'lab' power supply with an LM317 , my neck-hair bristles... and i will bad-mouth that. It is not a proper lab grade power supply. Period ! The LM317 , or any integrated regulator , is not robust enough, nor fulfills the requirements for that purpose. Trying to shoehorn the functionality in with trickery is just plain wrong. It is not meant to be used that way and was not designed for that.
Get a big fat transsitor on a heatsink , make a control loop for voltage and current sensing ( properly done .. and not by using one lm317 as a pre-current limiter to feed another one to do voltage regulation.. your load regulation and impulse response goes to hell with that approach).
All it really takes is two or three opamps and two transistors. Add some big fat protection diodes ( reverse output , and one across the pass element ) and you will have something that is virturally indestructible.
A lab power supply needs proper current limiting with voltage foldback. Yes, The lm317 will protect itself when you hit 1.5 ampere , or you go over thermal but that is NOT adjustable current limit like you expect from a lab supply. And you'll never be able to burn off enough power in it before it thermally shuts down. no matter how big a heatink you use. the Rthjc of a to220 is not that stellar... yes you can use the TO-3 version but that is pricey , and still only 1.5 ampere max... you're better off slapping a 2n3055 (or something a bit more modern. there's all these beautiful transistors these days, yet we all seem to be stuck on the 2n3055) in then if you need a to-3 package... more bang for the buck , more power dissipation and more current handling.
The LT3080 is a very nice design. you can put them in parallel and it is intended to replace an lm317 where you need more current (by paralleling) . The voltage control using a steering current is also very clever. It self-balances if you parallel them. It also has a wider working range since they split the regulation supply off the pass element supply. Perfect, great, brilliant , champagne and cigars all around ! i'll happily use it . But NOT as a LAB power supply ! i may use it in a lab supply to make the internal voltages for the opamps to run , but it will not be used as the regulating element , nor as the regulating loop !
The reason i am so adamant about it is that i see a ton of these things coming from wingpangpong. And it invariably dies prematurely. it is not done properly Point two is that the web is full of 'arduino-style' engineers. Just because they know how to a tie a potmeter to the adj pin makes them believe they have made something that is nobel-prize material... this is just so wrong at so any levels. it is the easy way out. the lazy way out. the wrong way out.. i simply can't work that way. it just doesn't feel right and it goes against proper design. so yeah , when i see another one pop up... i get that itchy tingling feeling, and i just need my soapbox to 'vent'.
Electronics is a passion, i want to do things the right way. At the same time i have no problem explaining how to do things. you can ask me anything , over and over. i will explain until you understand, but i will explain you how to do things the right way. I don't do "slap it togehter and see what happens", that's for junk. If it's worth doing, it's worth doing right. I do not want to be a 'duct-tape and super-glue engineer'.
Me too i want to learn new things. The right things. we are supposed to move forward. not be stuck with 40 year old designs. "Because we've always done it that wy" is NOT the right answer if i have a question. Neither is "because it needs to be cheap" , "because we are lazy" , "because we can't be bothered" or "because we found it on the web , we don't understand it but we blindly copied it and introduced some problems of our own". You can't ever learn something, or move forward that way. you keep mucking about in mud ... you can't move forward if all you use is lm317 and 2n3055... why even bother to design newer parts. if everything can be slapped together with lm317's . let's stop making all those other products and designs. 640k ram ought to be enough for anyone ... right ?
The goal of hobby electronics should be to learn something nad to make things better. Not to blindly solder some parts on a board to make an LED blink. That is not hobby electronics. That's just playing and trampling over a beaten path.
As for the mc34063: i simply don't like that thing. It is too easy to destroy , the regulation loop is old fashioned , it needs big honking inductors and large filtercaps , has no thermal protection , fries itself for no sensible reason ( i've seen some that failed to start properly. they kicked in with the switch full on , without ever turning off.. you need an external current lim resistor.. too much junk needed.
Give me something like an LT1616, LT1930 , that switches in the MHz range, monitors the coil current , can detect coil saturation and turn off and has all kinds of other protections in it. and if possible have synchronous rectification.
I prefer any of the national semiconductor "Simpleswitchers" over that mc340xx. They have way better performance, need less stuff around them and are better protected.
right. time to put the soapbox away. It's past midnight here, and tomorrow it's party time (4th of july)
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