Transformer Current Drops with Load

AI Thread Summary
As load impedance on a transformer secondary increases, the current drawn decreases due to Ohm's Law, which maintains a constant voltage. The power in the primary equals the power in the secondary, meaning that as secondary current decreases, primary current also reduces. The discussion highlights a potential language confusion regarding the terms "increasing the load" versus "increasing the load impedance." Clarifying these terms is essential for accurate understanding of transformer behavior. Overall, the relationship between load impedance and current draw is crucial for transformer operation.
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Hi,

I have observed that as the load applied to a transformer secondary is increased (i.e. Increased Impedance), the current drawn by the transformer seems to decrease. Is this purely due to the fact that because the voltage remains fairly constant and the impedance is increased, the current must be reduced to allow ohms law to be maintained??

Thanks
 
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Power in the primary will be the same as power in the secondary. Wp = Ws
Therefore Vp * Ip = Vs * Is
Increasing the load impedance will reduce the secondary current according to Ohms Law.
That in turn will reduce the primary current.

“Increase the load”? Or “increase the load impedance” which would reduce the load?
 
A language problem here: The term "Increasing the load" involves increasing the Current, which implies Decreasing the Resistance (Impedance) of the Load.
 

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