Hi Im a new to this forum, althought Ive read a lot of posts on this one! 
Im building a 4.1 speaker kit for my computer and because the front speakers are really far aways from any wall, I will need a baffle step circuit. Despite knowing all the component values, something really important is missing... its all good to know what are the resistor values in ohms, but go to a vendor and tell him you want a 5 ohms resistor. He won't know which one to give... how many WATTS those resistors have??? 
lol! This information doesnt seem so available in any webiste or forums. And how to calculate it? Im using an Aurasound NS3-193-8A in each of the 4 sats Im making and they will be powered by a Yamaha receiver which gives 75W rms x4.
THANXS for helping me out with this!
Im building a 4.1 speaker kit for my computer and because the front speakers are really far aways from any wall, I will need a baffle step circuit. Despite knowing all the component values, something really important is missing... its all good to know what are the resistor values in ohms, but go to a vendor and tell him you want a 5 ohms resistor. He won't know which one to give... how many WATTS those resistors have??? lol! This information doesnt seem so available in any webiste or forums. And how to calculate it? Im using an Aurasound NS3-193-8A in each of the 4 sats Im making and they will be powered by a Yamaha receiver which gives 75W rms x4.THANXS for helping me out with this!
See from where to where (in Hz) and how much attenuation your circuit creates. Calculate the cut power by extracting the sliced bsc segment from half the RMS power of your woofer. See how much voltage it can create on the given bsc resistor. Make out power dissipation and double it for safety.
Here is a calculator to help you out.
Here is a calculator to help you out.
Half the RMS rated power of the driver is a good general guideline. Keep in mind most of the current flows through the BSC resistor between 400-1500hz. With your 75wrms amp, the BSC resistor will never see more than 6-8 watts playing music. The only way you could fry it is playing test tones at ear bleeding levels.
Dan
Dan
salas said:
From where to where in Hz... calculating the cut power by extracting the sliced segment... Seems to be really nice information in order to calculate accurately the power needed for the resistor however, I dont understand completely what you said, Im sorry. Maybe due to not beeing a totaly english dude?
I often read it, speak it rarely... generally I understand it really well but Im missing something there I think 
By the way thanks to all the other people for their answers
So it seems like with a 20W resistor I should be fine, even 10W because I dont think that Im gonna fire 40 Hz test tones during one hour Hi, see NS3 info at http://www.zaphaudio.com/ , /sreten.
P.S. 10W will be plenty high enough for your case, 5W would be OK.
/sreten.P.S. 10W will be plenty high enough for your case, 5W would be OK.
Example: Lets say you have a 20W RMS 3 inch driver. You apply bsc of -3dB from 500-1500Hz. 20/2=10W because you dont touch lower mid and bass, so half is a good rough approximation for music. 3dB of this 10W you kill in your bsc circuit. 3dBw of 10W =5W. You can double it for total safety and use a 10W resistor.
*This is a much generous approximation, in practice the music's cycle will heat up the resistor from time to time, giving it a lot of chance to cool off. But in DIY we can be generous.
**Sreten was spot on.
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