Max power in in sinusoidal circuits

AI Thread Summary
In sinusoidal circuits, only the resistive component contributes to average power, while the load impedance must be the conjugate of the Thevenin resistance for maximum average power transfer. When impedances are not conjugate matched, some power is not utilized, leading to lower dissipation in the resistance. The average power is maximized by minimizing the total reactance, which involves setting the imaginary parts of the load and source impedances to be equal and opposite. This ensures that the load resistance matches the source resistance, adhering to the maximum power theorem. Proper impedance matching is crucial for efficient power transfer in these circuits.
dexterbla
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in a sinusoidal circuit, only the resistive part gives the average power. so why is the load impedance the conjugate of thevenin resistance, consisting of both the resistive part and inductive part, required for maximum average power?
 
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Part of the power never enters the network if the impedances are not conjugate matched, so the dissipation in the resistance is lower than it could be.
 
impedance matching

hi dexterbla! :smile:
dexterbla said:
in a sinusoidal circuit, only the resistive part gives the average power.

he he … it depends how you write it! :biggrin:

as a function of current, yes …

Pav = (Ir.m.s.)2Re(Zload). :smile:

but as a function of voltage, it's …

Pav = (Ir.m.s.)2Re(Zload)

= (Vsource,r.m.s./|Ztotal|)2Re(Zload) :frown:

so if the input current is fixed, yes the reactance has no effect on the maximum power o:); unfortunately, however, life isn't that simple :rolleyes:, and it's always the input voltage that's fixed :redface:,

and then the average power in the load is maximised (for a given Re(Zload)) by minimising |Ztotal| (= |Zsource + Zload|), ie by reducing the total reactance to zero. :smile:

(ie by making Im(Zload) = -Im(Zsource), and since you can prove that power in the load in a purely resistive circuit is maximised when load resistance equals source resistance, that means that the impedances must be conjugates … see http://en.wikipedia.org/wiki/Maximum_power_theorem#Proof" for details :wink:)
 
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