I love NLC. Your redesigns, this one in particular is beautiful. So sleek. I love his very particular design aesthetic, but damn like all your modules this just looks so damn good. I've had to figure out how to make tht components work on SMD in a pinch (always 10u capacitors and power protection diodes because for some reason those are the two I always run out of), and I would have given up and just ordered a bunch of SMD resistors. God damn this whips ass. Great work.
I like how unique the white and gold is, and I use different colored knobs on all my builds because when it comes to electronics for some reason I want them to look shitty and cobbled together, which is why all my stuff is covered in stickers - any stickers don't think about it just slap em on. But I also enjoy a clean and sleek design. Yours is smaller and I think the led matrix above the patch matrix is very intuitive
The grid sequencer, ? is it your own invention? two questions. I'm sorry. However, I really like that device. Is there a link to its Board? Circuits. Would you be willing to sell a board. This is what I want to use to trigger two CEM3340 VCOs I have.
The design is not from me. It is based on the Bindubba sequencer from NonlinearCircuits. Andrew from NLC asked me, not to share my PCBs on GitHub, like I did for other modules, since he is still selling them himself. I respect that. But you can buy his PCBs at the NLC homepage.
great result on this one (well...as always!). Id be interested in seeing your process in getting the drawn schematic into your CAD software. I have done the same with NLC's triple Bong0, but it wasn't a smooth operation...
Oh, that would be tough one for making a video. My process is definitely also not smooth. I often have to try out new ways because the 1st try failed, space problems with components, traces, board connections… Sometimes I put stuff aside for week. Difficult
It's a muscle you have to keep exercising. With opamps in pretty much every circuit I end up spending a lot of time on them in particular - swapping between dual/quad packages, swapping opamps within a package to make for better routing, etc. Same for other IC packages with multiple identical "units" like logic gates, switches, etc. It's also much, much easier if you don't try to make it an ultra-dense layout.
The module is 125mm wide, a bit more than 24HP. The original NLC Bindubba is 28HP wide. I somehow liked having the LEDs separate. Looks nice, I thought. But it is also quite helpful to better follow the sequence and the gate out grid can be assigned more easily to the different stages.
That‘s right. There is no common gate out, only for specific steps. One needs to work with other modules using the clock signals. This might be an extension idea of the module design by using an OR gate for the two clock signals and adding another gate output.
@@TOILmodular haha, I love it, I dont like quantizers taking valuable space in a rack for atonal music :D but this, this is acceptable! gonna check it out, thx
I did it much the same as you did. I solder my ICs directly (no sockets) since it's somewhat easy to remove them when they are soldered surface mount style.@@TOILmodular
Sorry, I will not. I asked Andrew from NLC about that. He asked me not to do it, since it is his design and he is selling PCBs. So you can purchase the PCBs from his website.
Nonlinearcircuits have some great modules. Looks good.
Yes, he designed quite some crazy stuff.
So glad I found this channel
So glad
Thank you. Really glad you like it.
great re-design
Thank you, fl3shb4ck.
I love NLC. Your redesigns, this one in particular is beautiful. So sleek. I love his very particular design aesthetic, but damn like all your modules this just looks so damn good. I've had to figure out how to make tht components work on SMD in a pinch (always 10u capacitors and power protection diodes because for some reason those are the two I always run out of), and I would have given up and just ordered a bunch of SMD resistors.
God damn this whips ass. Great work.
Wow, thanks so much! I know many people like interesting front panels and many different colors and stuff. I prefer a somehow more simple design.
I like how unique the white and gold is, and I use different colored knobs on all my builds because when it comes to electronics for some reason I want them to look shitty and cobbled together, which is why all my stuff is covered in stickers - any stickers don't think about it just slap em on. But I also enjoy a clean and sleek design. Yours is smaller and I think the led matrix above the patch matrix is very intuitive
This looks so neat
Thanks.
The grid sequencer, ? is it your own invention? two questions. I'm sorry. However, I really like that device. Is there a link to its Board? Circuits. Would you be willing to sell a board. This is what I want to use to trigger two CEM3340 VCOs I have.
The design is not from me. It is based on the Bindubba sequencer from NonlinearCircuits. Andrew from NLC asked me, not to share my PCBs on GitHub, like I did for other modules, since he is still selling them himself. I respect that. But you can buy his PCBs at the NLC homepage.
great result on this one (well...as always!). Id be interested in seeing your process in getting the drawn schematic into your CAD software. I have done the same with NLC's triple Bong0, but it wasn't a smooth operation...
Oh, that would be tough one for making a video. My process is definitely also not smooth. I often have to try out new ways because the 1st try failed, space problems with components, traces, board connections… Sometimes I put stuff aside for week. Difficult
It's a muscle you have to keep exercising. With opamps in pretty much every circuit I end up spending a lot of time on them in particular - swapping between dual/quad packages, swapping opamps within a package to make for better routing, etc. Same for other IC packages with multiple identical "units" like logic gates, switches, etc. It's also much, much easier if you don't try to make it an ultra-dense layout.
Is this the same HP as the original Bindubba? I like how youve moved the LEDs and gate outs to one side of the panel
The module is 125mm wide, a bit more than 24HP. The original NLC Bindubba is 28HP wide. I somehow liked having the LEDs separate. Looks nice, I thought. But it is also quite helpful to better follow the sequence and the gate out grid can be assigned more easily to the different stages.
Does it not have a all step gate out? Is only gate per step?
That‘s right. There is no common gate out, only for specific steps. One needs to work with other modules using the clock signals. This might be an extension idea of the module design by using an OR gate for the two clock signals and adding another gate output.
pls what is that 2hp quantizer? looks neat !!
that's 2hp tune
Yes, that’s Tune. I bought it at the very beginning of my Eurorack journey. Very happy with it.
@@TOILmodular haha, I love it, I dont like quantizers taking valuable space in a rack for atonal music :D but this, this is acceptable! gonna check it out, thx
@@makeshiftsavant who would have thought, hehe. thx)
Ha ha, I've done some through hole to surface mount conversions myself.
Also, very nice work!
How did you realize it?
I did it much the same as you did. I solder my ICs directly (no sockets) since it's somewhat easy to remove them when they are soldered surface mount style.@@TOILmodular
Will u release this module and divider in github.thanks
Sorry, I will not. I asked Andrew from NLC about that. He asked me not to do it, since it is his design and he is selling PCBs. So you can purchase the PCBs from his website.