Hello World,
This is my first post and first time building a diy speaker.
I have a set of Fostex 206En drivers and i'm looking to design my own BLH enclosure. Why deviate from the enclosure design that Fostex recommends? My understanding of audio engineering has taught me that parallel sides on a Horn potentially cause unwanted standing waves, wrong? Also, I just want to tinker a bit and create something unique.
So, i'm getting to know Hornresp as many people seem to give it top reviews.
I've realised the Fostex data sheet does not include some values that Hornresp asks for. The unknowns are as follows:
Mms = Mmd + ‘Air Load’ Is Air load negligible?
Rms = (2Pi x Fs x Mms)/Qms
Where Fs = 45Hz, Mms = 12.2g, Qms = 4.57
Therefore,
Rms = 754.807 Hz.g Correct?
Any help on this would be greatly appreciated!
Craig
This is my first post and first time building a diy speaker.
I have a set of Fostex 206En drivers and i'm looking to design my own BLH enclosure. Why deviate from the enclosure design that Fostex recommends? My understanding of audio engineering has taught me that parallel sides on a Horn potentially cause unwanted standing waves, wrong? Also, I just want to tinker a bit and create something unique.
So, i'm getting to know Hornresp as many people seem to give it top reviews.
I've realised the Fostex data sheet does not include some values that Hornresp asks for. The unknowns are as follows:
Mms = Mmd + ‘Air Load’ Is Air load negligible?
Rms = (2Pi x Fs x Mms)/Qms
Where Fs = 45Hz, Mms = 12.2g, Qms = 4.57
Therefore,
Rms = 754.807 Hz.g Correct?
Any help on this would be greatly appreciated!
Craig
Hi Craig,
No. For your Fostex driver, 'air load' = 3.21 grams.
Not quite 🙂.
Rms = 1 / (2 * Pi * fs * Cms * Qms)
Rms = 1 / (2 * Pi * 45 * 1.17 * 10 ^ -3 * 4.57)
Rms = 0.66 newton.sec/m
To determine the electro-mechanical equivalents for the given Fostex Thiele-Small driver parameters, use either the technique suggested by Zero D to calculate just the individual parameter values you require, or alternatively, double-click on the Sd input box in Edit mode to enter all the Thiele-Small values at once (see attachment).
Kind regards,
David
No. For your Fostex driver, 'air load' = 3.21 grams.
Not quite 🙂.
Rms = 1 / (2 * Pi * fs * Cms * Qms)
Rms = 1 / (2 * Pi * 45 * 1.17 * 10 ^ -3 * 4.57)
Rms = 0.66 newton.sec/m
To determine the electro-mechanical equivalents for the given Fostex Thiele-Small driver parameters, use either the technique suggested by Zero D to calculate just the individual parameter values you require, or alternatively, double-click on the Sd input box in Edit mode to enter all the Thiele-Small values at once (see attachment).
Kind regards,
David
Attachments
Thank you both so much! Two great ways to solve my problem. Time to produce some graphs and check if my theory is correct.....hmmm.
- Status
- Not open for further replies.