Hello all,
I have seen past posts about calculating theoretical wattage for an automotive amplifier. The posts were all misinforming. Your first consideration to look at is this.... The manufacture always fuses 20% over the rms rating of an amplifier. This is to protect heavier loads that may be created by low voltage. This happens when young hammerheads think they could add 5000 watts in a car with the stock alternator, and no extra batteries, oh and one stiffening cap...lol
Say your fuse size is 25 amps. The max amperage will be 25 amps in a dangerous situation for the amp. If the voltage is correct during peaks, and transients, it should never exceed 20 amps. Efficiency does not have to be calculated into this, because they run these amps to their max at the factories, and fuse accordingly to the running of many of the same amps.The even overdrive the amps to see their stability. Wattage will change with their loads, but will not exceed fuse rating in the correct environment (with correct voltage and feed wire sizes).
You will take the 20 amp rating.. this is the max load at the lowest impedance that is your amp is allowed to run at. Take the average test voltage, usually 13.4 or 13.8 volts. I have seen these up to 14.4 volts. Multiply it x 20, and you'll get your maximum wattage output at the max load. (Max load is the manufacturer's spec such as 2 ohm capable, 4 ohm, whatever it is. Also if it is 2 ohm mono capable, and runs in stereo, the stereo rating is most likely going to be a reciprocal of that....2 reciprocal plus 2 reciprocal= reciprocal, then you get your answer. So if you have two diiferent impedance drivers, this is how you figure the average impedance of drivers in parallel that are two different rating. If they are the same impedance, we all know that in parallel, this splits the number in half.
I also have seen in other posts posts about oversizing power fuses due to power cables.... The maximum you want in a power distribution block is the same size as your fuses in amps totaled. They are already oversized 20%. If you oversize fuses on a 1/0, you are going to cause a fire in your car if it shorts to ground, or a battery explosion.. You do not need to oversize if your voltage stays in the correct range. Wire resistance creates a voltage drop. Running too much amperage through a conductor burns the wire and creates resistance. This creates a voltage drop, and when voltage goes down, amperage climbs up to the unknown. It is a dangerous situation for amplifiers componentry. So, correct wire size is necessary. Look it up in wire size charts. Be sure to use a chart that includes wire length. This is vital to determine the resistance, and voltage drop it is going to produce. Most installers will use a wire 20% larger than necessary, sometimes 50% to correct voltage drops cause by mechanical connections that are terrible, because antioxidant are never used for the connections. Oxidized connections cause resisitance, and again form a voltage drop, and increase in amperage. Correct additions of batteries, alternators, and stiffening caps are required to keep this up to par in some large amperage situations.
Most installations are running under voltage that I have seen. This raises hell with vehicle computers, and amplifiers power supplies, as well as the output stage in an amp. Amps should never run hot. If it gets hot, you are brutalizing the outputs, or the power supply.
If anybody has questions, please reply to this article. I've been in this audio thing now since 1989, and I do have a ton of answers, as well as correct suggestions!
Marc Belanger
Formerly of Scary Car Stereo, Waterford, CT
Marc Belanger
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