Electrical feedthrough for subsea submersible well pump in canister

The invention claimed is: 1. A subsea pump assembly, comprising: a canister adapted to be installed subsea, the canister having a longitudinal axis, a cylindrical wall concentric with the longitudinal axis of the canister, an upstream end plate extending transversely across the cylindrical wall, an inlet for flowing well fluid into an interior of the canister, and a discharge port; a power cable opening extending through the upstream end plate; an electrical submersible pump (ESP) in the interior of the canister, the ESP comprising a motor assembly and a pump, the motor assembly having a motor shaft, the pump having an intake in fluid communication with the well fluid in the interior of the canister, the pump having a discharge for pumping the well fluid out the discharge port; the motor assembly having a motor assembly housing with an upstream end having an electrical insulator opening that is upstream from an upstream end of the motor shaft; an end connection that secures the upstream end of the motor assembly housing to an interior side of the upstream end plate with the electrical insulator opening registering with the power cable opening, the end connection being located on a longitudinal axis of the ESP; an insulated electrical connector mounted in the electrical insulator opening; a motor wire in the motor assembly housing joined to an inner end of the insulated electrical connector; a power cable exterior of the canister and having a power cable connector connected to an outer side of the upstream end plate in registry with the power cable opening; a power conductor extending from the power cable connector through the power cable opening and joined to an outer end of the insulated electrical connector; a dielectric liquid in the motor assembly housing; and a dielectric liquid communication path in the motor assembly housing communicating the dielectric liquid in the motor assembly housing with the inner end of the insulated electrical connector. 2. The submersible pump assembly according to claim 1 , wherein: the electrical insulator opening is located on a longitudinal axis of the motor housing assembly. 3. The submersible pump assembly according to claim 1 , further comprising: an external flange on the end connection of the motor assembly housing that bolts to the upstream end plate. 4. The submersible pump assembly according to claim 1 , wherein the end connection of the motor assembly housing is located on a longitudinal axis of the centrifugal pump. 5. The submersible pump assembly according to claim 1 , wherein the inlet of the canister extends through the upstream end plate offset and parallel to the power cable opening and the longitudinal axis of the canister. 6. The submersible pump assembly according to claim 1 , wherein the motor assembly housing comprises a motor housing; and wherein the motor assembly further comprises: a sensor adapter housing secured to the motor housing; and wherein the upstream end of the motor assembly housing is located on the sensor adapter housing. 7. The submersible pump assembly according to claim 6 , further comprising: a slot in a sidewall of the sensor adapter housing, the slot being open to the interior of the canister; and a sensor module secured in the slot, the sensor module having a sensor module axis that is offset from and parallel to a longitudinal axis of the motor housing. 8. The submersible pump assembly according to claim 6 , further comprising: a motor wire passage extending through the sensor adapter housing offset from and parallel to the longitudinal axis of the motor housing; and the motor wire extends from the motor housing through the motor wire passage to the upstream end of the motor assembly housing. 9. The submersible pump assembly according to claim 8 , wherein: the dielectric liquid in the motor housing assembly is in fluid communication with the motor wire passage. 10. A subsea pump assembly, comprising: a canister adapted to be installed subsea, the canister having an upstream end plate and a downstream end plate, the upstream end plate and the downstream end plate being normal to a longitudinal axis of the canister, and the canister having an inlet for flowing well fluid into an interior of the canister; a power cable opening extending through the upstream end plate; an electrical submersible pump (ESP) in the interior of the canister, the ESP comprising a motor assembly and a pump, the motor assembly having a motor shaft that drives the pump, the pump having an intake in fluid communication with the well fluid in the interior of the canister, the pump having a discharge tube extending through the downstream end plate for pumping the well fluid from the canister; the motor assembly having a motor assembly housing with an upstream end having an electrical insulator opening that is upstream from the motor shaft; an end connection that secures the upstream end of the motor assembly housing to an interior side of the upstream end plate with the electrical insulator opening registering with the power cable opening, the end connection being located on a longitudinal axis of the ESP; an insulated electrical connector mounted in the electrical insulator opening; a motor wire in the motor assembly housing joined to an inner end of the insulated electrical connector; a power cable exterior of the canister and having a power cable connector connected to an outer side of the upstream end plate in registry with the power cable opening; a power conductor extending from the power cable connector through the power cable opening and joined to an outer end of the insulated electrical connector; a dielectric liquid in the motor assembly housing; and a dielectric liquid communication path in the motor assembly housing communicating the dielectric liquid in the motor assembly housing with the inner end of the insulated electrical connector. 11. The submersible pump assembly according to claim 10 , wherein the power cable opening is located on a longitudinal axis of the ESP. 12. The submersible pump assembly according to claim 10 , wherein: the end connection is bolted to the inner side of the upstream end plate; and the end connection has an upstream end that inserts into and seals with the power cable opening. 13. The submersible pump according to claim 10 , wherein: the insulated electrical connector comprises three electrical contacts mounted within an electrical insulator secured within the electrical insulator opening of the end connection. 14. The submersible pump assembly according to claim 10 , wherein the end connection comprises: an external flange on the upstream end of the motor assembly housing that fastens to the upstream end plate; and a seal ring on the end connection that encircles the electrical insulator opening and seals the upstream end of the motor assembly housing to the upstream end plate. 15. The submersible pump assembly according to claim 10 , wherein the motor assembly housing comprises a motor housing; and wherein the motor assembly further comprises: a sensor unit having at least one sensor, the sensor unit being secured to the motor housing; and wherein the upstream end of the motor assembly housing is located on the sensor unit. 16. A subsea pump assembly, comprising: a tubular conduit adapted to be installed subsea, the tubular conduit having a longitudinal axis and an inlet for flowing well fluid into an interior of the tubular conduit; an upstream end plate secured to an upstream end of the tubular conduit normal to the longitudinal axis of the