How to tell the current from the amp


The suggestion of getting an amplifier with higher “current” vs just the high output power has been brought up many times. However, this is not an easy measurement one can tell from the product specifications alone. Can someone advise a good way to spot if an amplifier offers “high current”? Also, between tube amp, class a, a/b, and d, if there is a consistent approach to evaluate the current number? And if “current” is so important, why this is not a more easily marketable measure on the box of the product? Another one is the damping factor. Similarly, it’s very frequently brought up when recommending speaker match. Just trying to be more scientific and objective here.

dragoncave

Most amps in the “Hi-Fi” realm have info associated with them discussing current, watts etc. Unless you are trying to drive very inefficient speakers and/or a speaker that dips into painful loads under 2 ohms, and listen very loud, it’s not a problem. The knowledge of the doubling down factor of watts/ohms is something that is known and easy to find out. If an amp doubles down from 100/8 to 200/4 but craps out down to 2, then you know the amp will struggle if put into a hard to drive speaker. This info is often listed, or a quick phone call to ascertain if the amp is stable at two ohms gets the job done.

I was thinking of trying Peachtree’s new 1000w GAN digital amp. But their power rating numbers didn’t look great past 4ohms. I called them and they recommended I not use it as it wasn’t really a good mix for 2ohm loads, which is fairly typical of digital amps. Other than those factors, the actual current doesn’t really matter much. You just need to be sure to get an appropriate amp for the speakers you intend to use.

Thank you all for the comprehensive science lesson. Really learned a lot here. I guess my point is the "lineality" (not sure if the right word) of co-relation between volts and impedance can be measured, and should be clearly marketed when a consumer is looking for a "current capable" amplifier, rather than using indirect formula to figure it out by themselves. 100/8 and 200/4 is just an indirect measurement, and i am sure there are ones perform 100/8 and 180/4, or more, or less.  Why not just use one measurement to tell clearly, instead of leaving the consumer scratching the head and guestimate the math himself.

So there is no one measurement available to indicate the “current” capability? I don’t have electrical technical back, and I feel this concept is being mystified…

@dragoncave

The problem you’re up against is marketing. Often solid state amps are advertised as having a certain amount of ’current’. That can be quite different from the current required to drive the speaker load properly when the amp is at full power. You might want to read the article at this link:

http://www.atma-sphere.com/en/resources-common-power-amplifier-myths.html

As an additional hint for good sound: avoid loudspeakers that are excessively low impedance (less than 4 Ohms) or low efficiency. The reason is that all amplifiers made more distortion driving lower impedances, and low efficiency loudspeakers (less than 87dB) tend to suffer thermal compression caused by heating in the voice coil. You might think that additional distortion is inaudible (that its 'negligible') but that isn’t the case. The ear interprets all forms of distortion as a tonality and it is keenly sensitive to the higher ordered harmonics since it uses them to sense how loud a sound is (and the ear has over 120dB range)- so more sensitive to those harmonics than anything else! So when your amp has to work hard for a living, the additional distortion it makes will be mostly the higher orders. This contributes to harshness and brightness (the tonality assigned by the ear) as well as a loss of detail, which affects things like sound stage depth and width, as well as nuances.

So the difference in distortion is not only audible its also measurable.

As an additional hint for good sound: avoid loudspeakers that are excessively low impedance (less than 4 Ohms) or low efficiency. 

Agreed!!

A lot of people love the sound of the apogee scintilla, which is both low impedance and low efficiency.