SY said:It just needs to be at AC/RF ground, not DC ground.
I guess I'll have to think about this some more. In this case, where is AC/RF ground?
ok, I understand now what you mean
In this case, perhaps we should do something like this on the board. In the middle of the input transformers, create an earth connection by using a really large ring on the PCB that could accommodate a #6 screw or something. This could be connected to the case via a standoff. Then, instead of routing the RF ground to the signal ground, as Jack did on the board (the center of the ceramic caps under the 6SN7, as well as the shield(s) on the input transformers), these would route back to this connection. Also, the XLR shields would connect here conceivably. Then add the two diodes and capacitor per the schematic, linking this node to the signal ground.
Essentially, the shield of the transformer will become a star ground point for these connections bypassed to signal ground on the PCB itself.
In this case, perhaps we should do something like this on the board. In the middle of the input transformers, create an earth connection by using a really large ring on the PCB that could accommodate a #6 screw or something. This could be connected to the case via a standoff. Then, instead of routing the RF ground to the signal ground, as Jack did on the board (the center of the ceramic caps under the 6SN7, as well as the shield(s) on the input transformers), these would route back to this connection. Also, the XLR shields would connect here conceivably. Then add the two diodes and capacitor per the schematic, linking this node to the signal ground.
Essentially, the shield of the transformer will become a star ground point for these connections bypassed to signal ground on the PCB itself.
I changed the trace orientation for the outputs -- to conform with XLR Protocol:
An externally hosted image should be here but it was not working when we last tested it.
Re: Regulator
I still have a bunch of LastPas Regulator boards which I have used in the past -- search on DIYADUIO -- it's a very quiet regulator, but this first generation of lead-free zener diodes which are all you can get seem prone to failure (and when zeners fail, they fail as a short.)
I have a Maida which works OK, but Giame's MOSFET version seems to be more stable vs temperature.
Anyone who asks is free to get a drawing of the temperature compensated Maida regulator.
BDP said:Any news on a regulator board in the near future.
BDP
I still have a bunch of LastPas Regulator boards which I have used in the past -- search on DIYADUIO -- it's a very quiet regulator, but this first generation of lead-free zener diodes which are all you can get seem prone to failure (and when zeners fail, they fail as a short.)
I have a Maida which works OK, but Giame's MOSFET version seems to be more stable vs temperature.
Anyone who asks is free to get a drawing of the temperature compensated Maida regulator.
jackinnj [/i]to conform with XLR Protocol[/QUOTE] Looks more like the TRS protocol to me :) [QUOTE][i]Originally posted by jackinnj said:Anyone who asks is free to get a drawing of the temperature compensated Maida regulator.
If you send me the Gerbers, I'll have one made up.
schematic
I dont know where you guys found the schematic . I searched the http://www.audioxpress.com but could not find it
I dont know where you guys found the schematic . I searched the http://www.audioxpress.com but could not find it
Re: schematic
Been a subscriber since 1976 and have all the back issues.
kimarin said:I dont know where you guys found the schematic . I searched the http://www.audioxpress.com but could not find it
Been a subscriber since 1976 and have all the back issues.
Here's a suggestion for raising the DC potential on the filaments:
In real life, it isn't working as well as the simulation.
An externally hosted image should be here but it was not working when we last tested it.
In real life, it isn't working as well as the simulation.
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