thanks for your advice. it seems you are talking (concluding) out of your experience. i can see your conclusion (as you posted) but i dont have your experience, that maybe i will get from the hard way when testing the circuit on the pcb..
I think there are quite some parts still really wrong:
i will be glad if people can point that out, this is this thread is for.
The switched mode pre-regulator does not look good. It's rather difficult to make it work over a large voltage range of something like 10-60 V.
i dont have your experience so i'm not sure the reason why. either you care to elaborate which i will appreciate, or i will figure out the reason when i build this stuff, thanks.
Also synchronous operation is not that simple. With a +-30 V raw voltage, a buck converter will not give you 60 V, but more like 28 V maximum.
i'm not sure what you mean by "synchronous" but the buck convertor in the circuit is getting supply from ±60V (V60+ and V60- in p3.png), not from ±30V. V30+ and V30- is used to feed ±15V linear regulator for controlling opamps/ICs and some transistors that doesnt need full ±60V swing.
It is not a good idea to use LM317 or similar to do the regulation: the dropout is quite high. In the shown circuit this is about 3-3.5 V.
i agree about the large dropout, but since this is dual tracking (negative rail), i cant find complement for the AMS1117 LDO that i have in stock. and i'm not aware of other LDO chip with its complementary negative regulator, which are significantly better or popular (examples in the net) than LM317/LM337 pair. anyway, i believe the high dropout LM317 with tracking preregulator is better than a low dropout chip with no preregulator that has to take 60V in and 1V out in full linear mode.... even at 1A at best, let alone 20 or 10A.
More important stability against oscillation is tricky if you don't have a known well behaved load. Also combination with current limiting is tricky - transients can be really hard....
I would really start with a smaller version - enough to learn, but with less expensive parts to burn and less danger to mechanical blow parts apart. So something like 1 A and 25 V purely linear might be enough. Having a switched mode (pre)regulator is than a second project. The first part is getting the circuit plan right - the layout should wait until after a discussion / simulation.
this is my 2nd dual rail PSU project. the 1st is 15V, no current limit, but using opamp+bjts voltage follower setup, no dedicated linear regulator chip. i still can find the log...
https://www.eevblog.com/forum/beginners/please-check-my-simple-psu-circuit/msg78890/#msg78890 check psu1f.png i can say regulation is not great (report also in that thread) but did the job for years for all my crude projects. but as i'm moving into more detailed, demanding and many projects, i think i may need a better/multiple PSU to work side by side with my crude dual tracker PSU ver 1. and this salvaged transformer that i usually used to supply me with 60Vac long time ago suddenly popped out in front of my eyes, so i think this is the time, i wipe my incomplete differential probe project that i'm working on in the middle to give room for this "critically needed" project. hence i choose LM317/LM337 to help with better regulation of various load demand, its the best to my knowledge. compared to my earlier opamp+darlington setup.
Finally there is no separate sense line, so accuracy can not be good.
i'm not sure what you mean. but i have sense lines in everywhere, shunt/current resistor sense (to auxiliary control board, 3 opamp differential amplifier sensing Vpi and Vri, gain 150X
), voltage divider at Vp (preregulated voltage or V input to the LM317) and at Vr (linear regulator output) on the linear regulator board (p5.png near the title block at the bottom). these voltage divider reading feedback will be buffered and then passed back to preregulator board for tracking and protection (drain) purpose.
ps: the need for voltage divider (divide by 5 for voltage and divide by 2 for current) is due to all controlling components are low voltage ±15V components. i basically have no high voltage parts/ICs, even transistors i need to make new orders (2SA1013, 2SN2383, TIP142/TIP147, IRF9540/IRF540) to cope with high voltage level. i'm not intending to buy high voltage opamps or specialized chips. because i know i will seldomly use those parts. transistor is ok, they are more multipurpose and cheap, so i have high probability i can use them in other project or as replacement damaged parts in stuffs. and i've stick to my own requirement to use jellybeans parts thats already accumulating in my stocks, and as a challenge for a cheap hobby project. fwiw.
best regards.
Shafri
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