The power is actually measured in RMS in audio where as it is customary to indicate the power in PMPO now simply because it shows a high figure (as compared to rms).
Can anybody tell me what is the relation of rms to pmpo rating
An RMS power value is referred to as the real music power output of a speaker. It is a true indication of the output power of a given speaker across it's range of pickup frequencies.
PMPO (Peak Music Power) refers to the maximum amount of power output that the speaker can produce at it's peak. A PMPO rating is not necessarily indicative of the performance of a speaker throughout a wide frequency range.
As a general rule, the higher the true RMS rating of a speaker, the higher it's actual power or volume output.
what i need to know is given a rating in PMPO how do i calculate the rms power. As rms is the true rating i'd like to convert the pmpo rating into rms to know what is the real power.
Manufacturers uses it because big numbers looks better
as I know the PMPO is calculated by multipying some numbers as total input power, number of screws used and other numbers, nobody knows what their means and multiply by some unknown constant. So, the result is totally unusable number, reporting nothing about real capabilities
NO-NO
I don't want to knowq the pmpo rating instead i want to know the rms rating of what is given in pmpo. iam myself verymuch annoyed by the pmpo ratings that have become so prevalent .
As long as I know, PMPO goes for Peak Maximum Power Output and its relation to the RMS value depends on several factors. As a RMS value depends on the shape of the wave, so it does the PMPO. Due to the complexity of the audio signal and overshoot response of the amplifier, it would be impossible to predict EXACTLY the RMS<->PMPO relation. What in matter exists is some rules of thumb.
I guess it could help a bit,
These higher value measurement types try to provide a more realsitic value when real music is used. Real music has a high peak to average or RMS ratio.
In speakers, a lot of the power is turned into heat in the speaker voice coil. The speaker has a lot of linear range in moving air, but the heat removal capacity of the voice coil is limited. Therefore a peak type short term value is used for its power rating.
In amplifiers, there are two limits. One is the power supply filter capacitors having large ripple under high load current. The other is the heat removal from the transistors. Again, because of the nature of music, the one sine wave cycle maximum power is the rating.
up to now I saw these PMPO-stuff only on cheap computer speakers.
You know, these insane rated 200Watts PMPO devices fed by a power supply capable of delivering 10Watts :wink:
For a dynamic point of view the crest factor is used, at least at serious amplifier manufacturers.
This is a typical sales trick. Manufacture's like to confuse the
public with PMPO ( Peak Music Power Output ) ratings as to True RMS
ratings. The Institute of High Fidility (IHF) and the Electronic
Industries Association (EIA) tried to standardize output-power ratings
to find a common reference to the performance of amplifiers. The EIA
Music-Power rating is defined as the power with 5% or less
Total-Harmonic-Distortion (THD) after a sudden application of a signal
for a short interval to prevent supply voltages to drop from their
no-signal values. For a stereo or quad output system the total rating
is the sum of all the channels. The IHF's dynamic output is measured
with a constant supply voltage and allowing less than 1% THD-
distortion.The second IHF method requires a complex input signal (
random ) to look like speech and music. Power-Supply transients,
ripple and other factors are taken into account. This also produces
the lowest and more realistic specifications of the lot.
All of the above methods have a common error, even with the transient
test. No method takes into account the amplifier's capability to
deliver a power-peak while already delivering some degree of output
power. The times a amplifier is required to deliver a peak that is
preceded by no or low-signal conditions are a very few.
Music Power ratings are normally quoted 2 to 3 times higher than the
True RMS ratings. The customer is fooled by the high rating which as a
result produce better sales.
There is a real economic reason for this rating system. Should consumers have to pay several times the price for features they will never use and experience the nuisance of equipment being several times heavier? In this case being able to generate continuous tones at full volume without overheating their equipment while damaging their ears.
This system uses real program material to determine the heat sinking and long term current ratings of components.
We can use PMPO to discribe the max output ability of an audio amplifier.But if an audio amplifier work at that point,the THD or SNR often much bad than the rated work condition specificed @ normal RMS power. :?:
The distortion is not increased by using smaller heat sinks or by using a power transformer/output capacitor combination that can supply the peak currents without overheating, but would overheat if these currents were drawn all of the time.
The silicon parts and passive parts are the cheapest part of the product. No scrimping is done on them. It is the cabinet, power supply, and heat sinks that drive the cost and weight.
Someway already said, but to summarize and as far as I know:
There is no formula to convert PMPO<->RMS, in fact I saw time ago amplifiers from the same manufacturer (I can't remember who it was) with the same RMS and diferent PMPO (or viceversa I only remember they were unpaired).
RMS is a more realistic way to measure power capability but musical experience has a lot of content where PMPO is a useful number, then don't dawn any of them ;-)
the usual ratio pmpo/rms is 2-4x.if the amplifier is a known brand like sony or pioneer it`s around 2.so if it has 40w pmpo the usualy din value is around 20w DIN or rms.if the amplifier is made on the ship and the name of the amplfier is the captain`s name (like futaky ,matsumio ,domotek ) the ratio can be up to 10 times or more
to be shure just conect an analog voltmeter on a dummy load and read the peak voltage.then use the old p=u x i and voila