The main purpose of the pin 1 ground connection on balanced interfaces between powered components is to keep their respective circuit and chassis grounds reasonably common.
Where one or both of the two components has a 2-prong power plug, or is used with a cheater plug, without that pin 1 connection the grounds of the two components may "float" to very different potentials, due mainly to ac leakage paths and stray capacitances in their power transformers. That potential difference may be large enough to saturate the input stage of the receiving component, or at least to exceed its common mode rejection capability.
If both components have 3-prong power cords, then in the absence of the pin 1 xlr connection the grounds of the two components would be kept common only by the ac safety ground wiring, which is not desirable from a noise standpoint.
None of those factors are applicable to a phono cartridge, which has no ac, no power transformer, etc., and which will happily adapt to whatever the ground potential of the phono stage may be.
That said, it may be somewhat beneficial if instead of using an rca cable into an rca-to-xlr ADAPTER at the phono stage input, a twisted pair shielded rca-to-xlr adapter CABLE were used instead. It would be wired such that xlr pin 2 is connected to the rca center pin at the other end; xlr pin 3 is connected to the rca ground sleeve; and the shield is connected to xlr pin 1. Using a cable like that results in the two signal polarities (not signal "halves") on pins 2 and 3 being wired symmetrically (as opposed to an rca cable where the two conductors are not physically symmetrical). That will mean that any noise picked up by the cable will be essentially the same on the two conductors, and therefore rejectable by the receiver in the phono stage.
Regards,
-- Al
Where one or both of the two components has a 2-prong power plug, or is used with a cheater plug, without that pin 1 connection the grounds of the two components may "float" to very different potentials, due mainly to ac leakage paths and stray capacitances in their power transformers. That potential difference may be large enough to saturate the input stage of the receiving component, or at least to exceed its common mode rejection capability.
If both components have 3-prong power cords, then in the absence of the pin 1 xlr connection the grounds of the two components would be kept common only by the ac safety ground wiring, which is not desirable from a noise standpoint.
None of those factors are applicable to a phono cartridge, which has no ac, no power transformer, etc., and which will happily adapt to whatever the ground potential of the phono stage may be.
That said, it may be somewhat beneficial if instead of using an rca cable into an rca-to-xlr ADAPTER at the phono stage input, a twisted pair shielded rca-to-xlr adapter CABLE were used instead. It would be wired such that xlr pin 2 is connected to the rca center pin at the other end; xlr pin 3 is connected to the rca ground sleeve; and the shield is connected to xlr pin 1. Using a cable like that results in the two signal polarities (not signal "halves") on pins 2 and 3 being wired symmetrically (as opposed to an rca cable where the two conductors are not physically symmetrical). That will mean that any noise picked up by the cable will be essentially the same on the two conductors, and therefore rejectable by the receiver in the phono stage.
Regards,
-- Al