Amp power output in relation to impedance change


How does an amplifier’s power output change in relation to impedance delta? Is it a continuous change or does it wait for certain thresholds?

for example:

Amp1 is rated at 200W@8Ohm and 400W@4Ohm. When the speaker creates let’s say a 5Ohm impedance, how much will the power output be in that case?

 

Amp2 is 250W@8Ohm and 300W@4Ohm, how much will the amp output be at 5Ohm?

 

Is the answer the same for all the classes? (A,AB and D) for example.

 

thank you!

 

riie

My amp putts out it's full 2 watts per channel into either 4 or 8 ohms.  Take that.

@overthemoon,

@gs5556 

thank you kindly for your replies! You have helped me make a more educated decision for a future purchase.

 

 

Amplifiers do not put out power. They provide a voltage source, just like a wall outlet. The load (speaker, resistor, arc welder, whatever) draws current from the voltage source and if the source can maintain voltage the load will consume the power. If the voltage source cannot source the current, the voltage will sag and the power consumption of the load will decrease. This is why lights dim when an air conditioner kicks on, or why a backup generator slows down if it is too small for the appliances connected.

Same with an amplifier. In the first case, the amplifier is sourcing 40 volts into both the 4 and 8 ohm loads. Since the 4 ohm load draws twice the current and the power supply voltage does not sag, the power consumed doubles. In the second case, the amplifier sources 45 volts to the 8 ohm load but only 35 volts to the 4 ohm load. The transformer cannot source the current required of 45 volts into 4 ohms and the voltage sags to 35 volts, thereby limiting the power consumption to 300W. Since the sag may or may not be linear, the power at 5 ohms isn't necessarily an interpolation. But it is definitely less than 300 watts.

The class of the amplifier has nothing to do do with the current draw at the load. They are basically a measure of efficiency of power consumed at the load vs current draw from the wall. A Class A amplifier will draw (about) 4 times the current from the wall than the speaker from the amplifier, and all that extra current is dissipated as heat. The heat dissipated by the amplifier is technically the "power of the amplifier".

Short answer its continuous. 
 

Speakers are given a nominal impedance rating- the actual impedance varies based on frequency. 
 

This is why certain speakers are described as hard to drive or easy to drive.