Has anyone ever thought about designing a DIY Digital Patchbay?

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If any of the input channels can be assigned to any of the outputs, then how was summing avoided? Did you rely on the user only switching any given output to be from a single choice of input?
Indeed. Relying on the user. Input and output (TRS) connectors are labelled as inputs and outputs so that user does not try to use it bidirectional. Same applies for relay based mux/demux.
 
On the routers (Sigma and Sierra) I am familiar with. the "only one source to one destination" was enforced by the user control panel design. You would first select the destination channel, then the source channel, then press the "Take" button. Any previously selected source would be cleared from that output and the new source connected.

Some panels would have buttons for just a single output.

With video, summing multiple sources was a no-no in the routing system itself. Any required mixing was done in the specialized "production switchers", also called "vision mixers" in Europe. The sales brochure posted below shows an example.

Bri
 

Attachments

  • Synergy MD brochure_sm.pdf
    3.4 MB
Does anyone know of a chip that supports the signal levels one might commonly find inside a guitar amplifier? Like north of the 20Vpp signal range with reasonable (60-80dB) isolation in the off position?
 
Does anyone know of a chip that supports the signal levels one might commonly find inside a guitar amplifier? Like north of the 20Vpp signal range with reasonable (60-80dB) isolation in the off position?
I wish I knew as well! That's telcom mechanical relay territory. Or, otherwise some sort of discrete component design for each crosspoint. Nothing available via any IC to my knowledge.

Bri
 
Like north of the 20Vpp signal range

Any of the chips which can run from bipolar +/- 15V supplies should be able to handle 10V peaks with no problem.
That AD8113 chip discussed earlier in the thread can just about do that running from +/- 12V supplies, but I would assume you probably don't need 16x16 crosspoint inside a guitar amplifier.

Analog Devices has analog mulitplexers with dual supplies up to +/- 22V, you could check some of those:
https://www.analog.com/en/parametricsearch/12829#/

Without knowing how many ins and outs you are looking for hard to suggest anything more specific.
 
Any of the chips which can run from bipolar +/- 15V supplies should be able to handle 10V peaks with no problem.
That AD8113 chip discussed earlier in the thread can just about do that running from +/- 12V supplies, but I would assume you probably don't need 16x16 crosspoint inside a guitar amplifier.

Analog Devices has analog mulitplexers with dual supplies up to +/- 22V, you could check some of those:
https://www.analog.com/en/parametricsearch/12829#/

Without knowing how many ins and outs you are looking for hard to suggest anything more specific.
As I hinted earlier, it's been eons since I looked into FET switching components.

I looked at the Analog Devices matrix linked above and found nothing like a crosspoint chip. Although now I know where all the "DG" chips ended up..lol. The actual AD crosspoint chips are apparently part of a different product line.

https://www.analog.com/en/product-category/buffered-analog-crosspoint-switches.html#category-detail

I actually have a reason to investigate crosspoint choices now. I need something like (minimum) 6x6 and preferably 8x8....but multiplied by four ....as in two stereo sets.

Bri
 
Without knowing how many ins and outs you are looking for hard to suggest anything more specific
In theory, a generic CMOS pass transistor built from common medium voltage MOSFETS would form the basis of a good analog switch.

The rub with getting them to work properly in a discrete design is that level shifting is necessary so that you can switch off the upper P-channel devices when the switch is 'off'.

j9A9u.jpg

The common cross-coupled level shifter above doesn't work because PMOS devices with gate-source breakdown voltages above 20V are rare and expensive, and that limits the effective voltages you can pass through the switch.

I suspect that most analog switches must be designed with tiny DC/DC converters to generate the upper voltage that is 10V or so lower than upper rail so that the PMOS can be switched fully on, but not exceed the gate-source breakdown voltage.
 
Seems to me the selling point of the Flock is the software. Instant and easy routing and recall. Otherwise why not just use an analog patchbay? I would think any DIY or repurposed commercial solution would need similar software to be worthwhile and useful.
 
Since Flock has been mentioned several times in this thread I looked around on their website for more details. Alas, the site is heavy on fancy web design and lacking in technical details (as in any spec sheets...unless I somehow missed them).

The only "tech tidbit" I found was a mention of something like "+4 dB" level. Seems strange they also included switchable 48V on each input.

I noticed a US patent number in one of their user docs. It's somewhat interesting to read, and mentions the possibility of using the AD8113 chip.

The Flock products look very nicely designed and probably have very a good user interface (never messed with it myself). However, I'm puzzled about their patent being granted on what would seem to be "prior art".

Patent copy (direct from the USPTO) attached below. The final page has the four claims for the invention.

Bri
 

Attachments

  • patent 11438719.pdf
    666.2 KB
This may have been mentioned, but I believe the Flock unbalances, routes, and then re-balances the signal. I used one recently and it sounds fine. The software was a little finicky (sometimes patches would drop out until I de-selected and re-selected the patch. And the unit has a weird “sleep” mode that was confusing at first. It is very convenient and relatively affordable.
 
This may have been mentioned, but I believe the Flock unbalances, routes, and then re-balances the signal. I used one recently and it sounds fine. The software was a little finicky (sometimes patches would drop out until I de-selected and re-selected the patch. And the unit has a weird “sleep” mode that was confusing at first. It is very convenient and relatively affordable.
Indeed, the patent describes the unbal/route/bal sequence. I would believe that any analog audio router (I'm thinking of those used in broadcast applications for decades) also does that process. It makes sense...<g>.

My reason for even bringing up the patent is to avoid accidentally infringing.

Bri
 
My guess is the patent wasn’t actually reviewed for “originality.” It’s issued and then if someone wants to challenge it, the USPO will review it (for a hefty fee). Been there… no fun… patent trolling abounds
 
I can’t speak for flock but I have seen inside the patchbay designed by fix audio. The number of relays inside the unit to do all the patching is pretty staggering. To me that is the expense right there.

FWIW flock and others are basically piggybacking off old tech used in telephony. Check old patents for such action.

Lastly things like the flock have a headroom. Decades ago with sear, it was calculated that an analog patchbay has a headroom of 50dBu which is a considerably loud signal. The flock seems to have much less. I can’t say how much less but I have been told by some that it does distort with loud signals. That has me guessing 24dBu before it starts to distort but that’s a guess.
We have a couple of the Flock crosspoint switch arrays in our NYC mix room.

I've never been able to distort them (or 'hear' them at all), FWIW.

Obviously we're not torture-testing them... we're just mixing.

I'm sure they do have a threshold at which they do clip, but for all practical purposes (in mixing use cases) I'm just not sure it's a real-world issue.
 
At the tech brekkie this am there was discussion of fix audio pro patch. A 64 x 64 patchbay that is controlled via software. It contains 1500 relays in it.
That’s a whole lot of relays.😳😳😳
That’s why they are so expensive regardless of who is making them.
 
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My guess is the patent wasn’t actually reviewed for “originality.” It’s issued and then if someone wants to challenge it, the USPO will review it (for a hefty fee). Been there… no fun… patent trolling abounds
Yup lots of dodgy patents out there. The (cheap?) patent lawyer Peavey used for my inventions once suggested not even doing a patent search, asking who wants to find prior art..? he was just trying to rack up wallpaper patent wins (in hindsight maybe thats why Uli was able to get around my most valuable patent , FLS so easily).

IIRC patent law suggests that it is the responsibility of the inventor to inform the patent office if he learns about prior art. Maybe show him examples and put the ball in his court. 🤔

[edit- what is the patent issue date if its old enough it might be public domain soon or already /edit]

JR

PS; I learned after the fact that one of my (automatic mixer improvement) patents was covered by prior art, but I discovered this after I was no longer employed by Peavey and nobody was disputing the patent so I just let it be. Why open up that can of worms?
 
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