Understanding Capacitor Principles: How Current Flows and Preventing Breakdown

In summary, a capacitor is a device that can store an electric charge. When a battery is connected to the capacitor, the charge on the battery pushes the charge on the capacitor towards the positive terminal. This repelling of charges causes current to flow between the terminals.
  • #1
Bringitondown
21
1
Hi folks,

Just looking for an explanation on capacitor principles.

My understanding:
A capacitor is made from two conductors ( which have the ability to hold charge) separated by an insulator. Therefore current cannot flow between the+ and - plates. Unless unwanted breakdown from excessive voltage values.

If so how can charging current flow through capacitor c1 to the positive plate in c2 in the figure attached.

I am trying to form an understanding of principles here so any advice will be greatly appreciated.

Thanks.
 

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  • #2
Hi biod,
Bringitondown said:
If so how can charging current flow through capacitor c1 to the positive plate in c2 in the figure attached
The current does not flow "through" the capacitor. What happens is that the charge that is pushed on to the top plate of C1 repels the charge on the bottom plate of C1. That charge has nowhere to go but towards C2 where it repels the charge from the bottom plate of C2. By the time the charge on C2 has built up a voltage V2 and the charge on C1 a voltage of V1 and also V1 + V2 = V, the voltage from the battery, charge doesn't flow any more. Current is moving charge, so no current.
 
  • #3
The current flow is storing energy in the form of an electric field in the dielectric between the plates. The applied voltage causes current to flow at each terminal as an electric field is produced. It looks like current is flowing between the plates, but it is actually producing an electric field. The same current flows back out when the capacitor is discharged.
 
  • #4
Fantastic responses, thank you so much. Think I've got it just going to do some further reading of the back of your information. Thanks again
 
  • #5
You might enjoy this article
http://amasci.com/emotor/cap1.html

"Science is but language well arranged" and Beatty spends a lot of time exploring ambiguities stemming from 'less than optimal' choices of words.

I have a favorite essay on that subject - http://web.lemoyne.edu/giunta/ea/LAVPREFann.HTML the preface section...
last line:
: "But, after all, the sciences have made progress, because philosophers have applied themselves with more attention to observe, and have communicated to their language that precision and accuracy which they have employed in their observations: In correcting their language they reason better."

old jim
 
  • #6
BvU said:
Hi biod,
The current does not flow "through" the capacitor. What happens is that the charge that is pushed on to the top plate of C1 repels the charge on the bottom plate of C1...

Is there a limit on the amount of charge that can be repelled from the bottom plate? Let's say the top plate was made negative so elections are repelled from the bottom plate. Is it possible to repel all the free electrons and what happens then ?
 
  • #7
Thanks for that Jim, good read.
 

FAQ: Understanding Capacitor Principles: How Current Flows and Preventing Breakdown

1. What is a capacitor and how does it work?

A capacitor is an electrical component that stores energy in an electric field between two conductive plates. When a voltage is applied, one plate accumulates positive charge while the other accumulates negative charge. This creates an electric field between the plates, and the capacitor stores energy in this field. The amount of charge a capacitor can hold is determined by its capacitance, which is measured in farads (F).

2. How does current flow in a capacitor?

Current flow in a capacitor depends on the voltage applied and the capacitance of the capacitor. Initially, when a voltage is applied, there is a flow of current to the plates of the capacitor until the charge on the plates reaches the same potential as the applied voltage. Once this happens, the current stops flowing and the capacitor is fully charged. However, if the voltage is changed or removed, the capacitor will discharge and current will flow in the opposite direction.

3. What is breakdown voltage and how does it relate to capacitors?

Breakdown voltage is the maximum voltage that can be applied to a capacitor before it breaks down and allows current to flow through it. This can be damaging to the capacitor and may cause it to fail. Breakdown voltage is typically listed in the specifications of a capacitor, and it is important to choose a capacitor with a breakdown voltage higher than the expected operating voltage to prevent breakdown.

4. How can I prevent breakdown in my capacitors?

To prevent breakdown in capacitors, it is important to choose a capacitor with a breakdown voltage higher than the expected operating voltage. It is also important to avoid applying a voltage that exceeds the capacitor's rating. Additionally, proper circuit design and appropriate use of capacitors in the circuit can help prevent breakdown.

5. Can a capacitor store DC and AC current?

Yes, a capacitor can store both DC (direct current) and AC (alternating current) current. However, the way in which the current is stored and used may differ. In a DC circuit, a capacitor can act as a temporary battery, storing charge until it is needed. In an AC circuit, the capacitor will charge and discharge with the changing voltage, allowing it to store and release energy as needed.

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