Calculating Power, Current & Voltage for Parallel RTGs

In summary, Hannahnatasha is working with RTGs right now. He wants to hook two of them up in parallel to charge a battery. He is researching Kirkhoff's laws and trying to determine the power, current and voltage that would be given to the battery. However, do they work in this situation when the RTGs have their own voltage and current?
  • #1
hannahnatasha
1
0
I am working with RTGs right now. I want to hook two of them up in parallel to charge a battery. Basically, the setup I had planned is like this:
http://img339.imageshack.us/img339/9549/rtgparallel.png

I am trying to determine the power, current and voltage that would be given to the battery.
I have been trying to research and know about Kirkhoff's laws. However, do they work in this situation when the RTGs have their own voltage and current?

For reference, the RTGs both have a current of 0.248A and a voltage of 13.89V.

How do I calculate what is given to the battery?

Thanks!
 
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  • #2


Yeah - kirkoffs laws work for this situation ... one loop has two PSUs in it and the battery is a load ... you'd normally model the real components as an ideal source with a series load. A totally dead battery starts out as a load and gradually becomes a source as it charges.
 
  • #3


Learned about RTGs for the first time. Wow,they are amazing. In your case, they produce roughly 13.89*0.248 = 3.44 watts each, supposedly for decades.
Just curious, would you mind telling how much does those thing cost?
As for your question, If everything is straight forward, the current given to the battery would be twice.
What is the AH rating of your battery?
 
  • #4


I assume the current is short circuit current which implies an internal resistance of 56 ohms. This means that as the battery becomes charged, it will continue to charge slower and slower. If the internal resistance is a constant the formula would look like this.

charging current = (Vrtg - Vbatt) / 56

For 2 RTGs the current would be approximately double.
 
  • #5


Considering the nature of the sources you should not use your simple parallel connection, without proper control and sharing circuitry.
 
  • #6


Check the charge capacity of your battery. Like how much Ampere-hour it can hold. The battery will probably behave like a capacitor being charged, with some internal resistance.
 
  • #8


You may want to consider putting a diode in series with each RTG. If you connect two sources in parallel, it is likely that one will drive the other and a lot of heat would dissipate in
the wires.
 
  • #9


hannahnatasha, If you wouldn't be breaking any confidentiality agreements, it would be interesting to hear more about your project. For what will the RTG be used e.g. space mission, remote sensing, etc.? What isotope are you using for fuel? How hot will the fuel get?
 

1. What is the purpose of calculating power, current, and voltage for parallel RTGs?

Calculating power, current, and voltage for parallel RTGs allows scientists to determine the efficiency and performance of the RTGs. This information can be used to make adjustments and improvements to the design and operation of the RTGs.

2. How is power calculated for parallel RTGs?

Power is calculated by multiplying the current (in amperes) by the voltage (in volts). This equation is known as Ohm's law: P = I x V. For parallel RTGs, the current and voltage are calculated for each individual RTG and then added together to determine the total power output.

3. What factors affect the current and voltage of parallel RTGs?

The current and voltage of parallel RTGs can be affected by a variety of factors, including the number of RTGs connected in parallel, the resistance of the circuit, and the temperature of the RTGs. Additionally, the type and quality of the materials used in the RTGs can also impact the current and voltage.

4. How are the current and voltage distributed in parallel RTGs?

In parallel RTGs, the current is evenly distributed among the RTGs, while the voltage remains the same for each individual RTG. This means that the total current output of the parallel RTGs will be the sum of the individual currents, while the voltage will remain constant.

5. How is the efficiency of parallel RTGs determined?

The efficiency of parallel RTGs can be determined by comparing the power output to the power input. The efficiency can then be calculated using the equation: efficiency = (power output / power input) x 100%. This information can be used to evaluate the performance and make improvements to the RTGs.

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