Hi
If you look at current that goes trough it will get a lot higher than before, also it will start to heat up
If you look at current that goes trough it will get a lot higher than before, also it will start to heat up
luka said:
ESP has a schem that has under, over voltage and over temp shutdown. 🙂
http://sound.westhost.com/project108.htm
How is your transformer wound? Is it layered or simply Primary/secondary? Winding geometry of the transformer is just as critical as how much you push the core. Also
Can you draw a pic?
Can you draw a pic?
two stupid questions
is possible drive a mosfet gate whith a pull-down low resistance <100R and PNP to 12V which base at open colector at tl494??
is possible make a push-pull converter whitout isolation between pri and sec, earth at center-tap and 12V at primaries extremes. Secondaries = primaries plus more turns in the same wire - self-transformer??. Gate drive via gate trafo in this case??
hihihi
is possible drive a mosfet gate whith a pull-down low resistance <100R and PNP to 12V which base at open colector at tl494??
is possible make a push-pull converter whitout isolation between pri and sec, earth at center-tap and 12V at primaries extremes. Secondaries = primaries plus more turns in the same wire - self-transformer??. Gate drive via gate trafo in this case??
hihihi
Good tutorial about push-pull SMPS by National Semiconductor is here
Wery good FAQ about SMPS
Compleate answer about software simulation of SMPS
I tried hard to find the POWER 4-5-6 program, but all my attempts finished unsucsessful...
For simulation of some stages of SMPS or other analog or digital stuff I`m using Altium Designer 6 for analog, and Proteus 7.2 for sirquits with microcontrollers.
😀
Hi Luka
I did use a snubber between the primary windings. I followed the procedures outlined by Ray Ridley as to measuring the ringing frequency with a scope and then calculating the components needed.
His suggestions were not to far off albeit I had to play around with component types and values.
Hi Luka
I did use a snubber between the primary windings. I followed the procedures outlined by Ray Ridley as to measuring the ringing frequency with a scope and then calculating the components needed.
His suggestions were not to far off albeit I had to play around with component types and values.
What about raising the frequency to 100khz or higher to avoid saturation?
Also, if you get a larger toroid core, would that help?
Also another idea I was thinking about was dual toroids, with each it's own rectifiers, then parallel after the rectifiers.....
BTW GREAT job on your SMPS!!!
Also, check out these MOSFETS from OnSemi.... TO264, over 120A a piece!!!
😱
https://www.onsemi.com/PowerSolutions/product.do?id=NTY100N10
Also, if you get a larger toroid core, would that help?
Also another idea I was thinking about was dual toroids, with each it's own rectifiers, then parallel after the rectifiers.....
BTW GREAT job on your SMPS!!!
Also, check out these MOSFETS from OnSemi.... TO264, over 120A a piece!!!
😱 https://www.onsemi.com/PowerSolutions/product.do?id=NTY100N10
Check IRF2907Z and other parts from IR. On-Semi doesn't seem to have real high performance stuff for this application. TO-264 parts are not recommended due to the higher package inductance, a pair of TO-220 works better.
EWorkshop1708 said:.....Also another idea I was thinking about was dual toroids, with each it's own rectifiers, then parallel after the rectifiers.....
BTW GREAT job on your SMPS!!!
Also, check out these MOSFETS from OnSemi.... TO264, over 120A a piece!!!
https://www.onsemi.com/PowerSolutions/product.do?id=NTY100N10
The NTY100N10s are brutes! 100A drain current and only 9mW Rds(on)! Be careful driving them- they have over 10,000pF gate capacitance! Use a PWM chip with high-current totem-pole outputs, or a separate driver buffer between the PWM chip and the MOSFETs.
Toroids: Each primary should be driven by its own MOSFET pair, while the secondaries can be connected in series (now no longer a center-tap) before the output rectifiers, forcing equal current-sharing. I will try to attach an image of said power stage as soon as the server problem uploading the pic disappears.
Steve
But remember about 75A current limitation for TO220 & TO 247 packages...
Chek also IRFB3077 - these are able to drive a lot of current
I would also stay away from on-semi and go with IR.
Some other manufacturers that I usually check are
www.st.com www.ixys.com www.st.com www.fairchildsemi.com
Some other manufacturers that I usually check are
www.st.com www.ixys.com www.st.com www.fairchildsemi.com
http://myworld.ebay.com/forkliffter
My favorite MOSFET`s supplyer. IR & ST are here, including 110 A
8mR IRF3205 - that was used in 1000W Genesis monoblock`s SMPS...
I`m very like high speed IXYS`s rectifer bridges
My favorite MOSFET`s supplyer. IR & ST are here
, including 110 A 8mR IRF3205 - that was used in 1000W Genesis monoblock`s SMPS...
I`m very like high speed IXYS`s rectifer bridges
what i can get from this troid
i have a 40mm outer diameter troidal core.
what would be the best swithching fr. and max. power assuming the primary is 5+5 with 5x0.5mm(diameter) wire and secondary 11+11 3x0.8mm wire. the core data is here
troid data
or can you reccomend any of the catalog on this site
cheers
i have a 40mm outer diameter troidal core.
what would be the best swithching fr. and max. power assuming the primary is 5+5 with 5x0.5mm(diameter) wire and secondary 11+11 3x0.8mm wire. the core data is here
troid data
or can you reccomend any of the catalog on this site
cheers
Hi
Core wouldn't be a problem, your primary wires would be, you wouldn't get much, maybe you would get 40w...
Core wouldn't be a problem, your primary wires would be, you wouldn't get much, maybe you would get 40w...
Well,
in the article of ESP project89 it is mentioned that a core with 4cm diameter and cross section of about 1 cm2 is suitable for around 200-250W continuous RMS so mine is with the same diameter, but larger cross section(window area) 1.28 cm2. it should be slightly more powerful i guess???
and what about the primary. are 5x0.5 mm diameter wires not enough for about 30A current (max power)???
Cheers
in the article of ESP project89 it is mentioned that a core with 4cm diameter and cross section of about 1 cm2 is suitable for around 200-250W continuous RMS so mine is with the same diameter, but larger cross section(window area) 1.28 cm2. it should be slightly more powerful i guess???
and what about the primary. are 5x0.5 mm diameter wires not enough for about 30A current (max power)???
Cheers
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