Electrical connection assembly

The invention claimed is: 1. A high voltage feedthrough assembly comprising: (a) an electrical lead extending in a longitudinal direction; (b) an insulative cover capturing the electrical lead and extending along the electrical lead in the longitudinal direction, the insulative cover having a width defined in an axis perpendicular to the longitudinal direction; (d) a flange, the insulative cover extending through, and being held by, the flange, so that the electrical lead which is captured by the insulative cover extends through, but is insulated from, the flange; (c) an adapter body, held in a spaced relation to the flange, the adapter body having a cavity extending therethrough, the width of the cavity of the adapter body being greater than the width of the insulative cover, wherein a portion of the insulative cover and the electrical lead extending from the flange extends into the cavity; and (e) a collar arranged in the adapter body cavity, extending radially between the adapter body and the insulative cover, to hold the insulative cover and electrical lead so that the insulative cover is radially spaced away from the walls of the cavity in the adapter body and so as to support the adapter body in the said spaced relation to the flange. 2. The assembly of claim 1 , wherein the collar extends contiguously in the radial direction between the adapter body and the insulative cover, so as to block the cavity in the longitudinal direction. 3. The assembly of claim 1 , wherein the spacing in the longitudinal direction between the end of the insulative cover disposed within the cavity of the adapter body, and the face of the flange opposite the adapter body is a minimum distance D. 4. The assembly of claim 1 , further comprising a spacer member, arranged to support the insulative cover in a spaced relation to the electrical lead. 5. The assembly of claim 4 , wherein the spacer member is formed at an end of the insulative cover disposed within the cavity of the adapter body. 6. The assembly of claim 4 , wherein the spacer member is integrally formed with the insulative cover at an end thereof. 7. The assembly of claim 4 , wherein the collar is arranged at a position on the longitudinal length of the insulative cover that is between the spacer and the flange. 8. The assembly of claim 4 , wherein the collar is arranged at a position on the longitudinal length of the insulative cover that is between the spacer and the face of the adapter body disposed opposite the flange. 9. The assembly of claim 1 , wherein the collar is formed of an insulative material. 10. The assembly of claim 1 , wherein the collar is an O-ring. 11. The assembly of claim 1 , wherein the adapter body is formed of an insulative material such as polyacetal. 12. A mass spectrometer comprising or including the high voltage feedthrough assembly of claim 1 . 13. An electrical connection assembly for a scientific instrument, comprising; a plurality of electrical connectors arranged in a flange, for reciprocation with a plurality of electrical sockets at the scientific instrument, the plurality of connectors being arranged in multiple groups, wherein electrical connectors in a first group and electrical connectors in a second group are separated from each other by a distance not less than a distance A; and a power supply arranged to supply a potential to each of the first group of electrical connectors, the potentials applied across the first group having a first average potential; the power supply arranged to supply a potential to each of the second group of electrical connectors, the potentials applied across the second group having a second average potential; and wherein the distance A is equal to or greater than a threshold distance determined by the difference between the first average potential and the second average potential. 14. The electrical connection assembly of claim 13 , wherein the distance A is exponentially related to the difference between the first average potential and the second average potential. 15. The electrical connection assembly of claim 13 , wherein: the electrical connectors of the first group are arranged in the flange separated from each other by a distance not less than a second distance B; and the electrical connectors of the second group are arranged in the flange separated from each other by a distance not less than a third distance C; wherein the second distance B and the third distance C is less than the distance A. 16. The electrical connection assembly according to claim 13 , further comprising a common backplane, each of the plurality of electrical connectors configured to be connected to the common backplane, and wherein: the connections of the first group of electrical connectors to the backplane are configured so as to be separated from the connections to the backplane of the second group of electrical connectors, the separation being not less than the distance A. 17. The electrical connection assembly of claim 16 , wherein: the connections to the backplane of each of the first group of electrical connectors are separated from each other by a spacing not less than the second distance B; and the connections to the backplane of each of the second group of electrical connectors are separated from each other by a spacing not less than the third distance C. 18. The electrical connection assembly of claim 16 , further comprising a plurality of rigid wires, a rigid wire from the plurality of rigid wires arranged to connect each of the plurality of electrical connectors to the common backplane, wherein the rigid wires are shaped to maintain a spaced relation from each other such that: each of the rigid wires connecting the first group of electrical connectors to the backplane are separated from each of the rigid wires connecting the second group of electrical connectors to the backplane by a spacing not less than the distance A, wherein the spacing of distance A is maintained along the full length of the rigid wire. 19. The electrical connection assembly of claim 18 , wherein each of the rigid wires connecting the first group of electrical connectors to the common backplane are shaped to maintain a spacing from each other not less than the second distance B; and each of the rigid wires connecting the second group of electrical connectors to the common backplane are shaped to maintain a spacing from each other not less than the third distance C. 20. The electrical connection assembly of claim 13 , further comprising a push connector at each of the plurality of electrical connectors, the push connector configured for reciprocation with an electrical lead at an electrical socket at the scientific instrument. 21. The electrical connection assembly of claim 13 , further comprising a closed cabinet, the flange arranged in a wall of the cabinet, and the common backplane mounted within the interior of the closed cabinet. 22. The electrical connection assembly of claim 21 , wherein the interior of the closed cabinet is electrically insulated from the exterior of the closed cabinet. 23. The electrical connection assembly of claim 21 , the closed cabinet further comprising an air conditioning module for control of the temperature and humidity of the interior of the cabinet. 24. The electrical connection assembly of claim 21 , wherein the closed cabinet is rail mounted such that the closed cabinet can be moved on the rail relative to the scie