Temperature sensor assembly for an electrical connector

What is claimed is: 1. An electrical connector comprising: a housing extending between a front and a rear, the housing having a chamber at the rear, the housing having a terminal channel between the front and the rear; a power terminal coupled to the housing, the power terminal including a mating pin at a front of the power terminal and a cable connector at a rear of the power terminal, the mating pin positioned in the terminal channel for mating with a charging connector, the cable connector positioned in the chamber at the rear of the housing; and a temperature sensor assembly positioned in the chamber, the temperature sensor assembly including a sealing pad holding the power terminal, the sealing pad having a front and a rear, the temperature sensor assembly including a thermal shunt held by the sealing pad, the temperature sensor assembly including a temperature sensor coupled to the thermal shunt, the thermal shunt extending from the rear of the sealing pad to the temperature sensor, the sealing pad having a terminal opening receiving the power terminal, the sealing pad being electrically insulative, the sealing pad being thermally coupled to the power terminal and thermally coupled to the thermal shunt, the sealing pad having a first thermal conductivity, the thermal shunt having a second thermal conductivity higher than the first thermal conductivity, wherein the temperature sensor monitors the temperature of the power terminal through a thermal path defined by the sealing pad and the thermal shunt. 2. The electrical connector of claim 1 , wherein the thermal shunt is separate and discrete from the sealing pad, the thermal shunt extending into the sealing pad to thermally communicate with the sealing pad. 3. The electrical connector of claim 1 , wherein the sealing pad is an elastomer bridging between the power terminal in the terminal opening and the thermal shunt to electrically isolate the thermal shunt from the power terminal. 4. The electrical connector of claim 1 , wherein the sealing pad has a first thermal diffusivity, the thermal shunt having a second thermal diffusivity higher than the first thermal diffusivity. 5. The electrical connector of claim 1 , wherein the sealing pad includes a bushing extending from the rear, the thermal shunt extending through the bushing to thermally couple with the temperature sensor. 6. The electrical connector of claim 1 , wherein the housing includes a well, the sealing pad including a bushing extending into the well, the thermal shunt being received in the bushing, the bushing being compressed between the thermal shunt and the well of the housing. 7. The electrical connector of claim 1 , wherein the sealing pad includes a bushing receiving the thermal shunt, the bushing having a pocket including an air gap between the sealing pad and the thermal shunt. 8. The electrical connector of claim 1 , wherein the thermal shunt includes a distal end, the distal end being crowned, the temperature sensor interfacing with the crowned distal end. 9. The electrical connector of claim 1 , wherein the temperature sensor assembly includes a printed circuit board, the temperature sensor being mounted to the printed circuit board, the temperature sensor assembly including a connector mounted to the printed circuit board and electrically connected to the temperature sensor by a sensor circuit of the printed circuit board. 10. The electrical connector of claim 1 , wherein the thermal shunt includes a base coupled to the sealing pad, the sealing pad including a thermal shunt opening receiving the thermal shunt, the base including a retention feature engaging the sealing pad at the thermal shunt opening. 11. The electrical connector of claim 1 , wherein the second thermal conductivity is at least 10 times the first thermal conductivity. 12. The electrical connector of claim 1 , wherein the power terminal is a first power terminal, the electrical connector further comprising a second power terminal, the thermal shunt being positioned between the first power terminal and the second power terminal to monitor the temperature of both the first power terminal and the second power terminal. 13. The electrical connector of claim 12 , wherein the shunt terminal comprises a first shunt terminal member and a second shunt terminal member, the first shunt terminal member positioned proximate to the first power terminal, the second shunt terminal member being positioned proximate to the second power terminal, the temperature sensor comprising a first temperature sensor coupled to the first shunt terminal member to monitor the temperature of the first power terminal, the temperature sensor assembly further comprising a second temperature sensor coupled to the second shunt terminal member to monitor the temperature of the second power terminal. 14. The electrical connector of claim 13 , further comprising a thermal separator between the first shunt terminal member and the second shunt terminal member. 15. A temperature sensor assembly for monitoring a temperature of a power terminal comprising: a sealing pad having a front and a rear, the sealing pad having a terminal opening therethrough receiving the power terminal such that a mating pin of the power terminal extends forward of the sealing pad for mating with a charging connector and a cable connector of the power terminal extends rearward of the sealing pad for terminal to a power cable, the sealing pad is an elastomer being electrically insulative and thermally conductive having a first thermal conductivity, the sealing pad being thermally coupled to the power terminal; a thermal shunt separate and discrete from the sealing pad, the thermal shunt being held by the sealing pad and extending rearward from the rear of the sealing pad to a distal end, the thermal shunt being thermally coupled to the sealing pad, the thermal shunt having a second thermal conductivity higher than the first thermal conductivity a temperature sensor coupled to the distal end of the thermal shunt, wherein the temperature sensor is configured to monitor the temperature of the power terminal through a thermal path defined by the sealing pad and the thermal shunt. 16. The temperature sensor of claim 15 , wherein the sealing pad has a first thermal diffusivity, the thermal shunt having a second thermal diffusivity higher than the first thermal diffusivity. 17. The temperature sensor of claim 15 , wherein the sealing pad includes a bushing, the thermal shunt being received in the bushing, the bushing being compressed between the thermal shunt and a housing. 18. The temperature sensor of claim 15 , wherein the sealing pad includes a bushing receiving the thermal shunt, the bushing having a pocket including an air gap between the sealing pad and the thermal shunt. 19. The temperature sensor of claim 15 , wherein the thermal shunt includes a distal end, the distal end being crowned, the temperature sensor interfacing with the crowned distal end. 20. A charging inlet assembly comprising: a housing extending between a front and a rear, the housing having a mounting flange for mounting the housing to a vehicle, the housing having a charging port configured to receive a charging connector, the housing including a chamber at the rear; an electrical connector within the charging port of the housing, the electrical connector including terminal channels open at the front to receive the charging connector, the electrical connector including power terminals received in the terminal channels, each power term