Many solutions, here is simplest; insert an 'Inrush Current Limiter"
(#MS320R536 at DK) in series with the load, 0.50 ohms cold and 25mR
running. Other more elegant solutions upon request.
If you are going to operate down to 4.5VDC, select a power MOSFET which
has low Ron @ 4.5Vgs. The operating frequency of 260Hz was stated on the
schematic.
Cheers,
Harry
I thought perhaps it was a typo. Maybe 260 Kilohertz. But 260Hz is just fine.
The voltage in use will be no lower than 6V. For the greatest majority of
applications it will be over 10V. An FET driver like the TPS2819 can have a
Max input of 40V with an internal regulator to reduce voltage to 14V max to
the gate. Below 14V, the onboard regulator would just be in dropout. For
battery voltages lower than 10V I would select an FET like the IRLR7843. Good
Rds(on) at Vgs = 4.5V. The IRF2804 would be used for more powerful
applications. I've seen folks use the kind of Inrush Current Limiter you've
mentioned. Personally I'd rather do soft-starting on a time basis rather than
a current limit based on series resistance. Also, at 30mm x 8mm, it's about
the same size as the space I have for the entire circuit.
Can I request one of the "more elegant solutions"?
I'm still trying to wrap my brain around the workings of your schematic.
I see that with Rt=20K, the maximum duty cycle is limited to ~97%, would it
be possible to increase the size of Rt to 100K and reduce Ct to 68n? That
would keep the frequency roughly in the range you had (253Hz) Also, if the
UCC2803 is substituted the frequency is determined by 1/RC, But specs
recommend a Max Ct=1n and Rt=200K. That works out to 5kHz. Is a lower
frequency just not possible? Or is increasing Ct to 22n possible even though
it's way outside the recommended range?
I know this is a lot to throw at you, but you seem to have SPICE software and
the brains to use it.
Thanks, Harry.
