Greetings all,
If I have a power transformer that states the secondary as 440vac @ 150va, is that telling me I can draw 340ma?
Thanks,
Ray
If I have a power transformer that states the secondary as 440vac @ 150va, is that telling me I can draw 340ma?
Thanks,
Ray
It may also be the input VA rating of the transformer so figure 90% of that for safety sue to core losses, IR loss, etc.
Capacitive input filter will get you near 622V with SS rectification. So figure 217mA max.
Inductor input filter will give lower voltage at higher current.
Capacitive input filter will get you near 622V with SS rectification. So figure 217mA max.
Inductor input filter will give lower voltage at higher current.
For ordinary rectifiers (capacitor input) the RMS ripple current will be about 1.5 times the DC load current. You shoudl be safe up to 230mA continuous DC.
If its a class AB amp then you can design for higher maximum currents if you think it won't be continuous.
If its a class AB amp then you can design for higher maximum currents if you think it won't be continuous.
300-350 mA seems reasonable for that winding resistance.
Simulated in PSU Designer (5 Hy / 30 Ohms into 220 uF) I get 307 mA RMS in the transformer secondary at 300 mA DC load, 385V. About 2.7W copper loss in the secondary, 2.4 in the primary.
Simulated in PSU Designer (5 Hy / 30 Ohms into 220 uF) I get 307 mA RMS in the transformer secondary at 300 mA DC load, 385V. About 2.7W copper loss in the secondary, 2.4 in the primary.
Tom,
Do you think occasional peaks of 500ma DC could be had? I realize that running perhaps 250-300ma steady state current creates heat, but I'm guessing the worse that will happen with peaks of 500ma will be reduced voltage. The transformer will be feeding a bridge and then into a 500v voltage regulator.
Do you think occasional peaks of 500ma DC could be had? I realize that running perhaps 250-300ma steady state current creates heat, but I'm guessing the worse that will happen with peaks of 500ma will be reduced voltage. The transformer will be feeding a bridge and then into a 500v voltage regulator.
The numbers above are for choke input. Cap input would be good for a little over 200 mA continuous. Peaks above that will be OK - use "stepped current source" in PSU designer to see how much drop will occur.
- Status
- Not open for further replies.