UltraCapacitor Charging Voltage

In summary, the conversation discusses the safety and efficiency of charging ultracapacitors with a higher voltage source. While it is theoretically safe to charge 14V capacitors with a 20V source, it can be challenging to do so practically. Limiting the charge current with a properly sized resistor is important to protect both the capacitor and the power source. However, this solution may not be the most efficient and a cost-benefit analysis should be done to determine if it is worth implementing in a regenerative braking system.
  • #1
newman180
4
0
I am working with a hybrid car which charges a bank of ultracaps from regen braking.
I read an article which I believe was written by someone who is misinformed, but it had me thinking...

Just to clarify some theory about charging voltage,

Scenario

Max ultracap voltage= 14V
Current ultraCap Voltage= 10V
Motor BEMF Voltage = 20V

It is safe to charge the ultracaps with the 20V source until the caps are at 14V, correct?
Potentially, the greater the difference of voltage (potential) is related to how much current can be transmitted. V=IR
 
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  • #2
Sure. In theory it is safe to charge 14V capacitors with a 20V source as long as the charging is stopped before the capacitor reaches 14V.

In practice this is much harder that it might seem. The most important thing, as you mentioned, will be to limit the charge current. This protects both the capacitor and the power source. A properly sized resistor will do this.

It's not the most elegant solution and will cost efficiency for its simplicity so you might want to do a rough dimensional analysis to figure out if the regenerative breaking system you intend can reclaim enough energy to justify hauling around all the extra hardware.
 

Related to UltraCapacitor Charging Voltage

1. What is an UltraCapacitor?

An UltraCapacitor is an energy storage device that is capable of storing and releasing large amounts of energy quickly. It is also known as a supercapacitor and is used in various electronic devices as a backup power source.

2. How do UltraCapacitors charge?

UltraCapacitors charge by accumulating electrical charges on the surface of two electrodes, usually made of carbon or metal. When a voltage is applied, electrons flow from one electrode to the other, charging the device.

3. What is the ideal charging voltage for UltraCapacitors?

The ideal charging voltage for UltraCapacitors varies depending on the specific type and design of the device. However, most UltraCapacitors have a recommended voltage range of 2.5-2.7 volts per cell for optimal charging.

4. Can overcharging damage UltraCapacitors?

Yes, overcharging can damage UltraCapacitors. If the voltage exceeds the recommended range, it can cause the electrodes to break down and reduce the lifespan of the device. It is important to follow the manufacturer's guidelines for charging to avoid damage.

5. How long does it take to charge an UltraCapacitor?

The charging time for UltraCapacitors can vary depending on the size and capacity of the device, as well as the charging voltage. However, in general, UltraCapacitors can be charged in a matter of seconds to minutes, making them ideal for quick energy storage and release.

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