I am reading materials to gain knowledge asap. This world is new for me. But, since my degree is related to electronic, I understand the terminology. I found an article with something that called my attention :
"A basic, ages-old but still true, rule of thumb states that a designer is usually safe when he crosses a driver over at double its resonant frequency. If a tweeter has an Fs of 1500 Hz, use a 3000 Hz crossover, minimum. If a midrange is 300 Hz, use 600 Hz.
Another good rule of thumb says, “18 dB down at resonance.” If a tweeter’s resonance is 1500 Hz, the voltage curve of the crossover should show the tweeter section being down 18 dB from “0 dB.” That kind of conservatism all but assures no tweeter burn-out.
This was the “rule” at a major speaker company I used to work at, and the engineers all hated it, because it was so conservative and resulted in very high tweeter crossover points. But we almost never lost a tweeter and our warranty costs were vanishingly low. ‘Real world’ vs. ‘theory.’ "
Thanks to all you for the contributions.!
"A basic, ages-old but still true, rule of thumb states that a designer is usually safe when he crosses a driver over at double its resonant frequency. If a tweeter has an Fs of 1500 Hz, use a 3000 Hz crossover, minimum. If a midrange is 300 Hz, use 600 Hz.
Another good rule of thumb says, “18 dB down at resonance.” If a tweeter’s resonance is 1500 Hz, the voltage curve of the crossover should show the tweeter section being down 18 dB from “0 dB.” That kind of conservatism all but assures no tweeter burn-out.
This was the “rule” at a major speaker company I used to work at, and the engineers all hated it, because it was so conservative and resulted in very high tweeter crossover points. But we almost never lost a tweeter and our warranty costs were vanishingly low. ‘Real world’ vs. ‘theory.’ "
Thanks to all you for the contributions.!
It depends on the nature of the products. If you build Ferrari's, warranty costs may not be an issue, whereas Toyota it definitely is an issue.
See, I think we confuse ‘sensitivity’ with ‘perceptivity.’ I don’t think we’re any better at perceiving crossovers at that frequency just because our ears are more sensitive in that region. Just add a little BBC dip and you’re good to go. 😎
Would you like to expand on your understanding of this and how it works here?
3kHz Psychoacoustic Dip
What you are missing here is that an instruments will be recognized by the overtones that produces. No instrument will play a single sine wave. String instruments have really a lot of high harmonics content, and in a single note the sum of all the harmonics but the first is greater than the fundamental alone (1st harmonic). So thinking that the 300-400Hz region is more important because it contains the fundamental of many instruments is actually false because the higher harmonics are more important as they will give you the tone of a note. Without overtones you wouldn't distinguish between a violin and a trumpet nor a human voice.
Have a look here for the violin spectrum (B note, roughly 497 Hz):
An externally hosted image should be here but it was not working when we last tested it.
Ralf
cross a fullrange at 100 and bring in a tweeter at around 7khz, a 1 uf cap works really well
then you can use a tube amp for the system speakers and a class D sub for the < 100hz bass
then you can use a tube amp for the system speakers and a class D sub for the < 100hz bass
Thank you.! What I am thinking is to shorter the high and width and to add what I subtract to the deep but keep the same internal volume . Yes, I know it is important stuffing and it is a point I need to learn and clarify to do it right. Step by step.
Do you imply that if the enclosure internal volume is 20% less than calculated it can be corrected adding a dense stuffing material ??
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1.3 cubit feet sealed enclosure for a 8" woofer
Hi,
First of all, I want to apologize for my questions. I have been researching how to build a set of bookshelf using good drivers. The things are a little bit more complicated that what I thought.
I have a friend that can give me a couple of Yamaha bookshelf in very good conditions. They are sealed, something that I like. Of course, I am going to remove the drivers to use better drivers and crossovers.
The dimensions are H 16.5 x W 10.5 x D 13.2. (external dimensions inches)
I calculated the internal volume subtracting the MDF thickness and got a volume of 1.3 cu/ft or 31.20 L
Most of the 8" drivers I have seen recommend an 0.5 or 0.75 cu/ft for a sealed enclosure. My question is if I can use this boxes to build my project. The size of the Yamaha enclosures are ok for me and they are mint. By the way, the Yamaha are built using a 8" woofer.
Thanks for any help.!
Hi,
First of all, I want to apologize for my questions. I have been researching how to build a set of bookshelf using good drivers. The things are a little bit more complicated that what I thought.
I have a friend that can give me a couple of Yamaha bookshelf in very good conditions. They are sealed, something that I like. Of course, I am going to remove the drivers to use better drivers and crossovers.
The dimensions are H 16.5 x W 10.5 x D 13.2. (external dimensions inches)
I calculated the internal volume subtracting the MDF thickness and got a volume of 1.3 cu/ft or 31.20 L
Most of the 8" drivers I have seen recommend an 0.5 or 0.75 cu/ft for a sealed enclosure. My question is if I can use this boxes to build my project. The size of the Yamaha enclosures are ok for me and they are mint. By the way, the Yamaha are built using a 8" woofer.
Thanks for any help.!
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Fantastic to get LR4 with so little components! I still need to construct my own enclosures first and measure the drivers there for crossover design. Will also try stepped baffle for physical time alignment.
I'm exactly aiming for a little more impact on the vocal range. My current system is 2x12" with 3" full range. It is otherwise fine, but voices lack something. I asked my singer friend if she can present a couple songs on my listening room which really highlighted the faults of my current setup.
Incidentally, I also possess the 22W/8534G00. Might try it as well to the enclosures when they are done.
I'm exactly aiming for a little more impact on the vocal range. My current system is 2x12" with 3" full range. It is otherwise fine, but voices lack something. I asked my singer friend if she can present a couple songs on my listening room which really highlighted the faults of my current setup.
Incidentally, I also possess the 22W/8534G00. Might try it as well to the enclosures when they are done.
Will do! I had a very hard time choosing between SB26ADC and SB29RDC. Ultimately chose the alu cone because of Troels' tests with both:
SBAcoustics-tweeters
Marvellous, Michael. Always enjoy reading your stuff. Just didn't know you have been so busy.
Loudspeaker Projects - Passive, Active & Time Aligned - AmpsLab
Serious crossovers, flat impedance, what's not to like?
That little 6" Peerless 830874 polycone is a gem, no? Cheap too! 🙂
FWIW, you have a typo on the Falcon (2013), with that 830969. It's a 830869, nest pas?
Loudspeaker Projects - Passive, Active & Time Aligned - AmpsLab
Serious crossovers, flat impedance, what's not to like?
That little 6" Peerless 830874 polycone is a gem, no? Cheap too! 🙂
FWIW, you have a typo on the Falcon (2013), with that 830969. It's a 830869, nest pas?
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My French is a bit rusty, but I think "le mot juste" is "n'est ce pas?" 😀
Engineers are notoriously illiterate anyway, so it's forgiveable.
Engineers are notoriously illiterate anyway, so it's forgiveable.
Does someone can give any help with it ?
First of all, I want to apologize for my questions. I have been researching how to build a set of bookshelf using good drivers. The things are a little bit more complicated that what I thought.
I have a friend that can give me a couple of Yamaha bookshelf in very good condition. They are sealed, something that I like. Of course, I am going to remove the drivers to use better drivers and crossovers.
The dimensions are H 16.5 x W 10.5 x D 13.2. (external dimensions inches)
I calculated the internal volume subtracting the MDF thickness and got a volume of 1.3 cu/ft or 31.20 L
Most of the 8" drivers I have seen recommend an 0.5 or 0.75 cu/ft for a sealed enclosure. My question is if I can use this boxes to build my project. The size of the Yamaha enclosures are ok for me and they are mint. By the way, the Yamaha are built using a 8" woofer.
Thanks for any help.!
First of all, I want to apologize for my questions. I have been researching how to build a set of bookshelf using good drivers. The things are a little bit more complicated that what I thought.
I have a friend that can give me a couple of Yamaha bookshelf in very good condition. They are sealed, something that I like. Of course, I am going to remove the drivers to use better drivers and crossovers.
The dimensions are H 16.5 x W 10.5 x D 13.2. (external dimensions inches)
I calculated the internal volume subtracting the MDF thickness and got a volume of 1.3 cu/ft or 31.20 L
Most of the 8" drivers I have seen recommend an 0.5 or 0.75 cu/ft for a sealed enclosure. My question is if I can use this boxes to build my project. The size of the Yamaha enclosures are ok for me and they are mint. By the way, the Yamaha are built using a 8" woofer.
Thanks for any help.!