Hi, guys.
To help solve the charge pump issue, I thougt this idea it's a little bit better than the inverter.
Inverters work at 50-60Hz (sine signal). After passing the bridge rectifier, the frecquency becomes 100-120Hz.
Now, why use (and sometimes burn... ) inverters to charge capacitors when your car allready has a better oscilator device as standard?! I was talking about the CAR'S ALTERNATOR.
It makes the electrical energy for the car. The current is AC type and has hundred of Hz at idle. As the engine's rpm rises, the frecquwncy rises also. Adding a bridge rectifier, it doubles the frecquency!
So, that is what I suggest:
alternator -> usual 7.5V/230V transformer -> bridge rectifier -> capacitor.
Yes, it's not as good as a DC-DC converter that works at much higher frecquency, but it's better than inverters. And yes, the bigger the transformer, the quicker the capacitor is charged.
Look at the schematic attached.
All the best for all.
To help solve the charge pump issue, I thougt this idea it's a little bit better than the inverter.
Inverters work at 50-60Hz (sine signal). After passing the bridge rectifier, the frecquency becomes 100-120Hz.
Now, why use (and sometimes burn... ) inverters to charge capacitors when your car allready has a better oscilator device as standard?! I was talking about the CAR'S ALTERNATOR.
It makes the electrical energy for the car. The current is AC type and has hundred of Hz at idle. As the engine's rpm rises, the frecquwncy rises also. Adding a bridge rectifier, it doubles the frecquency!
So, that is what I suggest:
alternator -> usual 7.5V/230V transformer -> bridge rectifier -> capacitor.
Yes, it's not as good as a DC-DC converter that works at much higher frecquency, but it's better than inverters. And yes, the bigger the transformer, the quicker the capacitor is charged.
Look at the schematic attached.
All the best for all.
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