I'm trying to build a high-current (possibly up to 10A) 1.5V DC-DC power supply. The bad OST caps in my Shuttle SB83G5A took out the Intel 915G Northbridge power supply (upper MOSFET and its PWM controller), so I thought maybe I can build my own power supply for the NB with junk parts I have around.
Attached below is a design I have already tried on my breadboard. It works fine with low loads (up to 0.5A) but as I increase the load (to about 1.5A), the voltage begins to overshoot to about 1.6V. As I further increase the load (tried up to about 4.5A), the voltage then sags down to 1.42-1.48V and the power supply seems to be oscillating (there's a rapid fluctuation between above voltages).
So my question is (or rather questions):
- Is the power supply oscillating?
-- If yes, how do I stabilize it? I read a bit on compensation just to understand that there are 3 basic types and that I am using type 1 (since it's the simplest). The math stuff / calculations is above my level, though.
-- If no, could the lousy regulation be because I'm using an LM358 op-amp and not something else (and if so, what should I use)?
I tried playing around with the compensation capacitor, Ccomp. Initially, I had it at 10 nF. Doesn't seem to make a big difference when I tried 68 nF and 100 nF. It does make a big difference if there's nothing in it's place, though - the PSU whines loudly even with a small load. As for compensation resistor, Rcomp, I have 1 KOhm. Perhaps I need to have a different value here?
As for the output filter capacitor Co, initially I was using a 4V 820 uF Fujitsu FPCAP RE series polymer in parallel with a 16V 1500 uF Rubycon MCZ. I thought maybe the low ESR of the Fujitsu was messing with the circuit so I tried a general purpose 10V 2200 uF cap in its place but there isn't any notable change in the behavior of the power supply with the same 3 loads. The MOSFET I'm using for Q1 is a FQP19N20C (19A, 200V, N-channel). And for Ci, I have nothing - just wires from the 3.3V rail on the PSU going straight to the MOSFET drain. Perhaps this can cause problems too?
I also tried to add a diode and inductor (taken from a PSU choke) on the output to make it like a buck power supply. But that didn't make a difference in outputs either. And from what I read on compensation, I would need a type 3. But looking at the formula for that, I think I couldn't do it even if my life depended on it.
Ideas? Questions? Comments?
I really like circuits, but I suck at math (and even more in school in general). Would greatly appreciate any and all help. Thanks.
Attached below is a design I have already tried on my breadboard. It works fine with low loads (up to 0.5A) but as I increase the load (to about 1.5A), the voltage begins to overshoot to about 1.6V. As I further increase the load (tried up to about 4.5A), the voltage then sags down to 1.42-1.48V and the power supply seems to be oscillating (there's a rapid fluctuation between above voltages).
So my question is (or rather questions):
- Is the power supply oscillating?
-- If yes, how do I stabilize it? I read a bit on compensation just to understand that there are 3 basic types and that I am using type 1 (since it's the simplest). The math stuff / calculations is above my level, though.
-- If no, could the lousy regulation be because I'm using an LM358 op-amp and not something else (and if so, what should I use)?
I tried playing around with the compensation capacitor, Ccomp. Initially, I had it at 10 nF. Doesn't seem to make a big difference when I tried 68 nF and 100 nF. It does make a big difference if there's nothing in it's place, though - the PSU whines loudly even with a small load. As for compensation resistor, Rcomp, I have 1 KOhm. Perhaps I need to have a different value here?
As for the output filter capacitor Co, initially I was using a 4V 820 uF Fujitsu FPCAP RE series polymer in parallel with a 16V 1500 uF Rubycon MCZ. I thought maybe the low ESR of the Fujitsu was messing with the circuit so I tried a general purpose 10V 2200 uF cap in its place but there isn't any notable change in the behavior of the power supply with the same 3 loads. The MOSFET I'm using for Q1 is a FQP19N20C (19A, 200V, N-channel). And for Ci, I have nothing - just wires from the 3.3V rail on the PSU going straight to the MOSFET drain. Perhaps this can cause problems too?
I also tried to add a diode and inductor (taken from a PSU choke) on the output to make it like a buck power supply. But that didn't make a difference in outputs either. And from what I read on compensation, I would need a type 3. But looking at the formula for that, I think I couldn't do it even if my life depended on it.
Ideas? Questions? Comments?
I really like circuits, but I suck at math (and even more in school in general). Would greatly appreciate any and all help. Thanks.
Attached Files
with this circuit, though . The good thing, however, is that I read quite a bit of material on compensation so I did learn a few things along the way. 
. Up to this point, all I know is just how to identify them (read: monkey technician
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