I think every engineer designs a little differently. In the broadcast end, shielding is very important. In that arena I use an off the shelf metal box with strain relief. I Like your box but I would add a screw bolster inside to strengthen corners as well as counter sink the screws. Keep up the good work, I'll stop by see what else you come up with. Never stop dreaming or revising.
Consider using heatset inserts in 3D printed parts for screws and use something like M3 screws in them for a much more secure hold. Screwing screws directly into PLA or ABS is not ideal.
wait, so each twisted pair on the Cat5, 6, or seven can create only one channel, right? What if we want to make 8 channels? Do we need to use two of those Ethercon connectors? great video.
Nice project but I would have used balanced patch cable as its more flexible and thinner. Or standard microphone cable if i didn't have balanced patch cable in stock. And I would have used a big strain relief for the cable. As for the box you could have used Neutrik's D-size shells for ease of fabrication. Or a readily available box like a Hammond 1590A (if I am not mistaken). You took out your step drill so could have saved yourself the trouble of designing a custom box...
Balanced patch cable is how I’ll build my future ones. D sized shell cases actually won’t fit the punch down block of the Ethercon connector. That was my first attempt.
Why on earth would you use ethernet cable for the XLRs??? The purpose of the whole thing would be to use microphone cables for the XLRs that go into an Ethernet socket so that you can connect a long Cat 5/6/7 ethernet cable to the socket. There's zero need to use ethernet cable for the XLR portion of the build (it's too rigid, inconvenient and unnecessary). Nice job designing the enclosure iterations! Excellent idea otherwise!!! :D
Just what I had on hand to build a prototype. Microphone cable would 100% be better. 23 awg mic cable is too big to fit a punch down so you’d have to find some smaller.
@@arichindustries This is a super nice project otherwise, don't get me wrong, I just felt the ethernet cables were way too stiff to be working with. Not to mention that this kind is less flexible and more brittle on the long term than mic cable... on this cable length, you can definitely get away with thinner mic cable, especially if the connection is balanced when using shielded CAT5/6
As a 3D-printing audio engineer myself, I much enjoyed watching your solution. Bravo!
I think every engineer designs a little differently. In the broadcast end, shielding is very important. In that arena I use an off the shelf metal box with strain relief. I Like your box but I would add a screw bolster inside to strengthen corners as well as counter sink the screws. Keep up the good work, I'll stop by see what else you come up with. Never stop dreaming or revising.
Nice job .. very good actually!👌
Which rj45 network connector is that part? From where did you get it?
Consider using heatset inserts in 3D printed parts for screws and use something like M3 screws in them for a much more secure hold. Screwing screws directly into PLA or ABS is not ideal.
That's great, it can save costs but what about sound quality? Is it quiet or is there still noise?
Very quiet, quality is just as good as any analog snake.
@@arichindustries good 👍
wait, so each twisted pair on the Cat5, 6, or seven can create only one channel, right? What if we want to make 8 channels? Do we need to use two of those Ethercon connectors? great video.
Yes. 4 channel is max for one connector. You could easily make a bigger box with with 8 you would just have to run 2 cat cables out of it.
Can you tell me the model of the female RJ45 connector?
I found this on Amazon I think it is the same. Neutrik NE8FDV-Y110-B Ethercon D-Series 110 Punch Down
Nice project but I would have used balanced patch cable as its more flexible and thinner. Or standard microphone cable if i didn't have balanced patch cable in stock.
And I would have used a big strain relief for the cable.
As for the box you could have used Neutrik's D-size shells for ease of fabrication. Or a readily available box like a Hammond 1590A (if I am not mistaken).
You took out your step drill so could have saved yourself the trouble of designing a custom box...
Balanced patch cable is how I’ll build my future ones. D sized shell cases actually won’t fit the punch down block of the Ethercon connector. That was my first attempt.
Do you have the file for the 3d print?
Can u show diagram connection xlr to ethercon?
The diagram can be found on the sound tools website.
@@arichindustries link ?
Link please
links to 3d print files please
Links coming soon!
Ehh, the heat gun is an ugly solution. Use microphone cable for the XLRs and you'll spare yourself this whole shabang..... :)
Why on earth would you use ethernet cable for the XLRs??? The purpose of the whole thing would be to use microphone cables for the XLRs that go into an Ethernet socket so that you can connect a long Cat 5/6/7 ethernet cable to the socket. There's zero need to use ethernet cable for the XLR portion of the build (it's too rigid, inconvenient and unnecessary). Nice job designing the enclosure iterations! Excellent idea otherwise!!! :D
Just what I had on hand to build a prototype. Microphone cable would 100% be better. 23 awg mic cable is too big to fit a punch down so you’d have to find some smaller.
@@arichindustries This is a super nice project otherwise, don't get me wrong, I just felt the ethernet cables were way too stiff to be working with. Not to mention that this kind is less flexible and more brittle on the long term than mic cable... on this cable length, you can definitely get away with thinner mic cable, especially if the connection is balanced when using shielded CAT5/6
😪 'Promo SM'
Can you please tell me what RJ45 connector that is? I can not find one with a shield.
it's called ethercon but you can use a regular rj45 conector