Interconnection systems are shown that include communication contacts, and a guide. Configurations are shown with a guide that locates a male portion with respect to a female portion and guides their engagement before any communication contacts are engaged. Configurations are also shown with a guide
Interconnection systems are shown that include communication contacts, and a guide. Configurations are shown with a guide that locates a male portion with respect to a female portion and guides their engagement before any communication contacts are engaged. Configurations are also shown with a guide that includes one or more power contacts.
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1. An interconnection system, comprising: a single female portion;a plurality of individual USB ports of different configurations within the single female portion, each individual USB port including a plurality of contacts:a plurality of corresponding individual USB ports located on a common male po
1. An interconnection system, comprising: a single female portion;a plurality of individual USB ports of different configurations within the single female portion, each individual USB port including a plurality of contacts:a plurality of corresponding individual USB ports located on a common male portion;a guide on the female portion, separate from the plurality of individual USB ports, to engage with a guide hole on the male portion, the guide including: a leading taper section;a tolerance fit section; andwherein the tolerance fit section is configured to engage with the guide hole before the plurality of individual USB ports interface with the corresponding individual USB ports. 2. The interconnection system of claim 1, wherein the guide further includes a power contact surface and a ground contact surface. 3. The interconnection system of claim 2, wherein the leading taper section is non-conductive. 4. The interconnection system of claim 2, wherein the power contact surface is configured to engage with the guide hole before the first communication contacts interface with the second communication contacts. 5. The interconnection system of claim 1, wherein the guide includes two different power contacts, each assigned to operate at different voltages. 6. The interconnection system of claim 1, wherein the plurality of individual USB ports includes three USB ports that are a USB 2.0 configuration, a mini USB configuration, and a micro USB configuration. 7. The interconnection system of claim 1, wherein the plurality of individual USB ports includes three USB ports that are a USB 3.0 configuration, a mini USB configuration, and a micro USB configuration. 8. An interconnection system, comprising: a single female portion;a plurality of individual USB ports of different configurations within the single female portion, each individual USB port including a plurality of contacts;a plurality of corresponding individual USB ports located on a common male portion;a guide on the female portion, separate from the plurality of individual USB ports, to engage with a guide hole on the male portion, the guide including: a leading taper section;a tolerance fit section; andwherein the tolerance fit section is configured to engage with the guide hole before the plurality of individual USB ports interface with the corresponding individual USB ports. 9. The interconnection system of claim 8, wherein the guide further includes a power contact surface and a ground contact surface. 10. The interconnection system of claim 9, wherein the leading taper section is non-conductive. 11. The interconnection system of claim 9, wherein the power contact surface is configured to engage with the guide hole before the first communication contacts interface with the second communication contacts. 12. The interconnection system of claim 8, wherein the guide includes two different power contacts, each assigned to operate at different voltages. 13. The interconnection system of claim 8, wherein the plurality of individual USB ports includes three USB ports that are a USB 2.0 configuration, a mini USB configuration, and a micro USB configuration. 14. The interconnection system of claim 8, wherein the plurality of individual USB ports includes three USB ports that are a USB 3.0 configuration, a mini USB configuration, and a micro USB configuration. 15. An interconnection system, comprising: a single female portion:a plurality of individual USB ports of different configurations within the single female portion, each individual USB port including a plurality of contacts;a plurality of corresponding individual USB ports located on a common male portion;a guide on the female portion, separate from the plurality of individual USB ports, to engage with a guide hole on the male portion, the guide including: a leading taper section;a tolerance fit section;wherein the tolerance fit section is configured to engage with the guide hole before the plurality of individual USB ports interface with the corresponding individual USB ports; andwherein the single female portion includes a non-rectangular geometry that only engages the common male portion in one orientation. 16. The interconnection system of claim 15, wherein the guide further includes a power contact surface and a ground contact surface. 17. The interconnection system of claim 16, wherein the leading taper section is non-conductive. 18. The interconnection system of claim 16, wherein the power contact surface is configured to engage with the guide hole before the first communication contacts interface with the second communication contacts. 19. The interconnection system of claim 15, wherein the guide includes two different power contacts, each assigned to operate at different voltages.
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