My mixer has balanced inputs, but the group outputs and multitrack tape inputs are unbalanced. (-10dB, RCA).
This worked fine with an analogue 8-track tape machine.
Now I want to replace the tape machine with a 8in/8out sound card in the computer.
The problem is, how can I avoid ground loops. Many instruments and FX boxes are connected to Earth Ground - no problem so far, as th emixer has balanced line inputs. But the computer is also connected to Earth Ground, so with an unbalanced connection all kinds of noises will be in the audio just from that shared GND connection.
I made a little test with the on-board sound interface of my computer (befroe I buy the 8x8 soundcard): Recording some low level audio signal via mixer into the computer, and listening to the noise.
First test, connecting unbalanced RCA mixer group output to unbalanced Line input of computer: Very high level of "digital" noises in the recording.
Second test, same connections, but with an audio transformer inserted: Much lower level of digital noise (probably what the internal soundcard picks up from the processor etc.)
Conclusion: unbalanced conncetions on both sides are ok for me, I just have to break the ground loop. (This has been expected.)
My first idea was to buy a 8x8 soundcard with balanced inputs and outputs and use special cables to connect the mixer. If I had a soundcard with floating balanced inputs and (!) outputs(!), I'd connect it like this:
Mixer group out unbalanced RCA -> balanced TRS input of soundcard
RCA hot -> TRS tip
RCA GND -> TRS ring
no connection -> TRS sleeve.
and
Balanced TRS output of soundcard -> mixer unbalanced RCA tape in
TRS tip -> RCA hot
TRS ring -> RCA GND
TRS sleeve -> no connection (only to metal enclosure)
I'm pretty sure this would solve my problem. ONLY that I doubt
these f***ing soundcards have a balanced floating output!
I've tried to find out more about these so-called balanced outputs.
What I've seen so far has much discouraged me.
Echo Layla 3G: tip is actively driven, ring is just connected to GND
with a resistor. This will not help my problem! (Taken from the user
manual.)
And, btw, if they would drive the ring in the opposite direction as the tip, this would not help either, if both are referenced to GND. What I need is "floating balanced", i.e. where ever I connect the ring, the difference between tip an dring will be the driving signal. A transformer does this naturally. There are opamp circuits which will also do this (within some common mode range). But are these circuits actually *used* in a 500-Dollar-range soundcard??
Next I tried to find out about M-Audio 1010. They have the unbalanced 1010LT and the so-called "balanced" 1010 rackmount version. I war writing a long and polite email to their technical department, explaining my application in detail, and asking if the 1010 outputs are of the floating balanced type or otherwise. They replied the won't give away technical secrets!! I asked again, non-technical, how the signal level will be if I connect ring to GND. Not even an answer this time. So I must conclude that this will not solve my problem either.
Now what I plan to do is this: Don't spend useless money on a "balanced" interface that actually isn't. I'll buy an unbalanced soundcard with converters in a breakout box (Most likely will be the Terratec Phase 88 as I type this), and buy 16 audio transformer, or find some other solution.
As for other solutions, I think if one of the following (comments invited):
a) 16 audio transformers. Would 10k:10k be the right selection? I doubt
a 600R:600R could gracefully be driven by these outputs ...
b) A power isolation transformer for the computer?! Will this work?
I'm *not* talking of a GND lift (which will be dangerous), but about
running the whole computer over a 500Watt 230V:230V transformer.
c) Building an electronic version of (a). - what these soundcard
manufacturers should have done in the first place ...
Or are there any affordable 8x8 soundcards that have floating balanced outputs?
Or any other idea to wire this?
Thanks in advance,
JH.
This worked fine with an analogue 8-track tape machine.
Now I want to replace the tape machine with a 8in/8out sound card in the computer.
The problem is, how can I avoid ground loops. Many instruments and FX boxes are connected to Earth Ground - no problem so far, as th emixer has balanced line inputs. But the computer is also connected to Earth Ground, so with an unbalanced connection all kinds of noises will be in the audio just from that shared GND connection.
I made a little test with the on-board sound interface of my computer (befroe I buy the 8x8 soundcard): Recording some low level audio signal via mixer into the computer, and listening to the noise.
First test, connecting unbalanced RCA mixer group output to unbalanced Line input of computer: Very high level of "digital" noises in the recording.
Second test, same connections, but with an audio transformer inserted: Much lower level of digital noise (probably what the internal soundcard picks up from the processor etc.)
Conclusion: unbalanced conncetions on both sides are ok for me, I just have to break the ground loop. (This has been expected.)
My first idea was to buy a 8x8 soundcard with balanced inputs and outputs and use special cables to connect the mixer. If I had a soundcard with floating balanced inputs and (!) outputs(!), I'd connect it like this:
Mixer group out unbalanced RCA -> balanced TRS input of soundcard
RCA hot -> TRS tip
RCA GND -> TRS ring
no connection -> TRS sleeve.
and
Balanced TRS output of soundcard -> mixer unbalanced RCA tape in
TRS tip -> RCA hot
TRS ring -> RCA GND
TRS sleeve -> no connection (only to metal enclosure)
I'm pretty sure this would solve my problem. ONLY that I doubt
these f***ing soundcards have a balanced floating output!
I've tried to find out more about these so-called balanced outputs.
What I've seen so far has much discouraged me.
Echo Layla 3G: tip is actively driven, ring is just connected to GND
with a resistor. This will not help my problem! (Taken from the user
manual.)
And, btw, if they would drive the ring in the opposite direction as the tip, this would not help either, if both are referenced to GND. What I need is "floating balanced", i.e. where ever I connect the ring, the difference between tip an dring will be the driving signal. A transformer does this naturally. There are opamp circuits which will also do this (within some common mode range). But are these circuits actually *used* in a 500-Dollar-range soundcard??
Next I tried to find out about M-Audio 1010. They have the unbalanced 1010LT and the so-called "balanced" 1010 rackmount version. I war writing a long and polite email to their technical department, explaining my application in detail, and asking if the 1010 outputs are of the floating balanced type or otherwise. They replied the won't give away technical secrets!! I asked again, non-technical, how the signal level will be if I connect ring to GND. Not even an answer this time. So I must conclude that this will not solve my problem either.
Now what I plan to do is this: Don't spend useless money on a "balanced" interface that actually isn't. I'll buy an unbalanced soundcard with converters in a breakout box (Most likely will be the Terratec Phase 88 as I type this), and buy 16 audio transformer, or find some other solution.
As for other solutions, I think if one of the following (comments invited):
a) 16 audio transformers. Would 10k:10k be the right selection? I doubt
a 600R:600R could gracefully be driven by these outputs ...
b) A power isolation transformer for the computer?! Will this work?
I'm *not* talking of a GND lift (which will be dangerous), but about
running the whole computer over a 500Watt 230V:230V transformer.
c) Building an electronic version of (a). - what these soundcard
manufacturers should have done in the first place ...
Or are there any affordable 8x8 soundcards that have floating balanced outputs?
Or any other idea to wire this?
Thanks in advance,
JH.
