OK.
Not ashamed to say: this is over my head. My dad is the EE. I'm a Saxophonist and Chef. AND... this is why I like chatting with you!
What is the Power factor? Almost seems like a measure of operating efficiency? So in that case, multiply watts of power consumption x1.25, then divide by 120 to get the amps drawn? If I do that to the Monolith 5, I get 18.75a, not 15. (hence why I ask for clarification, please.) I did read about it, but that bit of theory was a little deep for me right now. *blushes
Also, as I look over the three amps (m2200, xpa5, mono5) what are the benefits of each type of amp? They are all AB as the base, right? But the Outlaw is AB-G, and the Emo is AB-H. What about the benefit of just giving each speaker its own power supply, does that really make a difference?
Thanks all!
As someone pointed out in another post, the Monolith 5X200 has a 1025 VA and a 800 VA transformer, the 1250 VA in their advertised spec appeared to be an error but you would have to ask Monolith to confirm that if you want to be sure.
Using the transformer VA rating to calculate the rated current
does not involve power factor because:
VA = Voltage (V) X Current (A),so Current (A) = VA/V, for the Monolith 5X, if the transformers are in fact rated 1025 VA and 800 VA, then (1025+800)/120 = 15.21 A.
Using Watt (W) to calculate current,
does require the power factor, because:
Watt (W) = Voltage (V) X Current (A) X power factor, more accurately speaking, there is a distortion factor too but in most cases we can ignore that one, at least for conversations on forum such as this.
There are complications in both cases described above.
Using VA
1. Manufacturers don't normally tell you the rated VA of the transformers used. Monolith is among the very few that do, but I high doubt their accuracy, as evident in the Monolith 5X specs.
2. Even if they provided accurate VA rating of the transformers, in general they have fantastic overload capability, but some are better than others so it is hard to apply any rule of thumb. For example, a transformer rated for 5 A, 600 VA, 120 V can sustain 7-8 A for some time, and even much higher for short duration such as seconds.
Using W (watt)
1. Manufacturers typically provide some sort of power consumption figures in watts, but they
never tell you their measurement protocol and/or standards they follow, at least I have never seen one.
For example:
Denon AVR-X4400H and Marantz SR-7012 specified power consumption...........710 W
Yamaha RX-A2070.....................................................................................................400 W (Maximum 1210 W)
So how would you like to compare the two?
And by the way, if you search for the images of the back of the Monolith amps, there are inconsistencies, some Monolith 2X shows 960 W, some 1800 W, I found similar confusion in the circuit breaker, e.g. the 5X, 7X, both have 15 A breakers. Enough examples already??
Now, you are bring fusing into the pictures and that's more confusion for sure because:
1. There are many types of fuses, some are fast acting, others are designed for different delay characteristics.
2. Same for circuit breakers, but in additional to over current time/current characteristics, some of them also offer thermal protection and therefore also have more complicated time/current characteristics.
3. There are standard sizes of fuse and circuit breakers. Just because a transformer is rated to 14A, does not mean it will be protected by a 14 A breaker, because the nearest standard size is 15 A.
From the above cited reasons (there are others),it means the choice of different fuses or circuit breakers will affect and determine the fuse sizes and circuit breaker ratings. Electrical authorities recognize that, and so they do allow a range. For example, if the transformer is rated for 10 A, you may use fuses rated anywhere between as low as 10 and may be as high as 25 A, depending on the application and other factors.
Lastly, you asked about power factor, I don't really like length posts but to answer your questions it seems necessary
, but for the definition of power factor you can simply Google it. Below is just a link to a simple explanation, one of many many....
https://www.electronics-tutorials.ws/accircuits/power-triangle.html
It is better for you to read up on the internet first, and come back with specific questions after..
