Thermal mitigation for USB power delivery

What is claimed is: 1. A connector apparatus, comprising: a first connector having a first plurality of electrical contacts; a second connector having a second plurality of electrical contacts; and a cable having a first end coupled to the first connector and a second end coupled to the second connector, the cable comprising a plurality of electrical signal conductors within a cable jacket; the electrical signal conductors of the cable being coupled to the first plurality of electrical contacts and the second plurality of electrical contacts, one or more electrical signal conductors and one or more electrical signal contacts support data communications between the first end and the second end, one or more electrical signal conductors and one or more electrical signal contacts carry electrical power between the first end and the second end, the cable jacket comprising a first end portion, a second end portion, and a mid-portion; the first end portion extending between the first connector and the mid-portion, the second end portion extending between the second connector and the mid-portion; the cable jacket having a substantially uniform thickness along the first end portion, the mid-portion, and the second end portion; the first end portion comprising a first dielectric material having a first thermal conductivity; the second end portion comprising a second dielectric material having a second thermal conductivity; the mid-portion comprising a third dielectric material having a third thermal conductivity; the first and second dielectric materials having a different material composition from the third dielectric material; wherein thermal conductivity is a physical constant defining a rate at which heat is transferred by conduction through a unit cross-section area of a dielectric material when a temperature gradient exists perpendicular to the unit of cross-section area; both the first thermal conductivity and second thermal conductivity being greater than the third thermal conductivity such that first end portion and the second end portion dissipate excess thermal energy from the first and second connectors when the electrical contacts carry electrical power. 2. The connector apparatus of claim 1 , wherein: a measured temperature of the first end portion while the connector apparatus is conducting an electrical current is at least 20 percent greater than a measured temperature of the mid-portion. 3. The connector apparatus of claim 1 , wherein: a measured temperature of each of the first and second end portions while the connector apparatus is conducting an electrical current is at least 20 percent greater than a measured temperature of the mid-portion. 4. The connector apparatus of claim 1 , wherein each of the first connector and second connector has a Universal Serial Bus-Power Delivery (USB-PD) configuration. 5. A connector apparatus, comprising: first means for electrically and mechanically mating a first plurality of electrical contacts to a first mating connector; second means for electrically and mechanically mating a second plurality of electrical contacts to a second mating connector; and means for conveying electrical signals between the first plurality of electrical contacts and the second plurality of electrical contacts, the means for conveying comprising a cable having a first end and a second end, the cable being coupled to the first plurality of electrical contacts and the second plurality of electrical contacts, the cable and one or more electrical signal contacts support data communications between the first end and the second end, the cable and one or more electrical signal contacts carry electrical power between the first end and the second end, the means for conveying having the first end of the cable coupled to the first mating connector and the second end of the cable coupled to the second mating connector, the means for conveying comprising a first end portion, a second end portion, and a mid-portion of a cable jacket; the first end portion extending between the first means and the mid-portion, the second end portion extending between the second means and the mid-portion; the cable jacket having a substantially uniform thickness along the first end portion, the mid-portion, and the second end portion; the first end portion comprising a first dielectric material having a first thermal conductivity; the second end portion comprising a second dielectric material having a second thermal conductivity; the mid-portion comprising a third dielectric material having a third thermal conductivity; the first and second dielectric materials having a different material composition from the third dielectric material; wherein thermal conductivity is a physical constant defining a rate at which heat is transferred by conduction through a unit cross-section area of a dielectric material when a temperature gradient exists perpendicular to the unit of cross-section area; both the first thermal conductivity and second thermal conductivity being greater than the third thermal conductivity such that first end portion and the second end portion dissipate excess thermal energy from the first and second connectors when the electrical contacts carry electrical power. 6. The connector apparatus of claim 5 , wherein: a measured temperature of the first end portion while the connector apparatus is conducting an electrical current is at least 20 percent greater than a measured temperature of the mid-portion. 7. The connector apparatus of claim 5 , wherein: a measured temperature of each of the first and second end portions while the connector apparatus is conducting an electrical current is at least 20 percent greater than a measured temperature of the mid-portion. 8. The connector apparatus of claim 5 , wherein each of the first means and second means has a Universal Serial Bus-Power Delivery (USB-PD) configuration. 9. A method for dissipating thermal energy in a connector system, comprising: plugging a first connector having a first plurality of electrical contacts into a first receptacle connector; plugging a second connector having a second plurality of electrical contacts into a second receptacle connector; conveying electrical signals through a plurality of electrical signal conductors coupled between the first plurality of electrical contacts and the second plurality of electrical contacts, the electrical signals comprising power signals and data communications, the plurality of electrical signal conductors enclosed within a cable jacket extending between the first connector and the second connector; conductively dissipating a greater amount of thermal energy through a first end portion of the cable jacket having a first dielectric material with a first thermal conductivity than through a mid-portion of the cable jacket having a second dielectric material with a second thermal conductivity which is less than the first thermal conductivity, wherein the first end portion extends between the first connector and the mid-portion; the cable jacket having a substantially uniform thickness along the first end portion, the mid-portion, and the second end portion; and conductively dissipating a greater amount of thermal energy through a second end portion of the cable jacket having a third dielectric material with a third thermal conductivity than through the mid-portion of the cable jacket having the second dielectric material with the second thermal conductivity which is also less than the third thermal conductivity; the first and second dielectric materials having a different material composition from the third dielectric material; wherein thermal conductivity is a physical constant defining a rate at which heat is transferred by conduction thro