@sunnybaker
As Bob and Mike indicated earlier the best approach to connecting a balanced output to an unbalanced input is widely considered to be with a Jensen Iso-Max transformer.
A suitable transformer, given that you are using a two-channel amplifier (as opposed to monoblocks) would be the Jensen model PI2-XR. It is available here for about $270 in a configuration having XLR inputs and RCA outputs. (That page shows a PI2-XX, having XLR connectors for both inputs and outputs, but you can specify RCA output connectors in the options menu near the bottom of the page). Further details can be found at the Jensen site.
A transformer such as that would eliminate the possibility of ground loop issues, and it would provide essentially the same noise rejection as a balanced interface would provide. Or perhaps even better noise rejection, because its bandwidth limitation of about 55 kHz at -3db will tend to filter out RFI that may be present. It would also eliminate whatever audible significance the "micro-capacitive flutter" effect that Teo referred to may have. (Although I would not expect that effect to be significant if an XLR-female to RCA-female adapter leaving pin 3 open is placed at the output connector of the dbx unit, and is used in conjunction with an RCA-to-RCA cable. I suppose it might be significant if an XLR cable is used in conjunction with an XLR-to-RCA adapter at the input of the destination component, due to capacitive coupling that may occur within the cable. And there certainly may be an issue if pin 3 is left open on an XLR **input**; when adapting an RCA output to an XLR input pin 3 should be grounded).
Regarding the need for additional cables with a Jensen transformer, as you can see in the manual for the PI2-XR the cables on its output side must be very short (no more than 3 feet long, and preferably less, depending on the capacitance of the particular cable). So given the minimal length they shouldn’t cost a great deal, and whatever sonic effects they may introduce should be less than if they were longer.
Regarding the use of adapters or adapter cables at the outputs of your dbx unit, to expand on my previous comment a bit the only situation in which it is necessary to ground pin 3 when adapting an XLR output to an RCA input is when the signals on pins 2 and 3 are "floating" relative to circuit ground (i.e., the voltages between those signals and circuit ground are not controlled or defined, or putting it another way the signals are essentially "isolated" from circuit ground). That is not the case in most designs, and I suspect it is not the case with your dbx. So I think it likely that connecting pin 3 to pin 1, either directly or via the 10 ohm resistor you referred to, won’t do any good and conceivably could do harm, eventually if not sooner. But without a schematic or other detailed knowledge of the specific design I can’t say that for sure.
Regards,
-- Al
As Bob and Mike indicated earlier the best approach to connecting a balanced output to an unbalanced input is widely considered to be with a Jensen Iso-Max transformer.
A suitable transformer, given that you are using a two-channel amplifier (as opposed to monoblocks) would be the Jensen model PI2-XR. It is available here for about $270 in a configuration having XLR inputs and RCA outputs. (That page shows a PI2-XX, having XLR connectors for both inputs and outputs, but you can specify RCA output connectors in the options menu near the bottom of the page). Further details can be found at the Jensen site.
A transformer such as that would eliminate the possibility of ground loop issues, and it would provide essentially the same noise rejection as a balanced interface would provide. Or perhaps even better noise rejection, because its bandwidth limitation of about 55 kHz at -3db will tend to filter out RFI that may be present. It would also eliminate whatever audible significance the "micro-capacitive flutter" effect that Teo referred to may have. (Although I would not expect that effect to be significant if an XLR-female to RCA-female adapter leaving pin 3 open is placed at the output connector of the dbx unit, and is used in conjunction with an RCA-to-RCA cable. I suppose it might be significant if an XLR cable is used in conjunction with an XLR-to-RCA adapter at the input of the destination component, due to capacitive coupling that may occur within the cable. And there certainly may be an issue if pin 3 is left open on an XLR **input**; when adapting an RCA output to an XLR input pin 3 should be grounded).
Regarding the need for additional cables with a Jensen transformer, as you can see in the manual for the PI2-XR the cables on its output side must be very short (no more than 3 feet long, and preferably less, depending on the capacitance of the particular cable). So given the minimal length they shouldn’t cost a great deal, and whatever sonic effects they may introduce should be less than if they were longer.
Regarding the use of adapters or adapter cables at the outputs of your dbx unit, to expand on my previous comment a bit the only situation in which it is necessary to ground pin 3 when adapting an XLR output to an RCA input is when the signals on pins 2 and 3 are "floating" relative to circuit ground (i.e., the voltages between those signals and circuit ground are not controlled or defined, or putting it another way the signals are essentially "isolated" from circuit ground). That is not the case in most designs, and I suspect it is not the case with your dbx. So I think it likely that connecting pin 3 to pin 1, either directly or via the 10 ohm resistor you referred to, won’t do any good and conceivably could do harm, eventually if not sooner. But without a schematic or other detailed knowledge of the specific design I can’t say that for sure.
Regards,
-- Al