Multi-segmented Rogowski-coil current sensor

I claim: 1. A current sensor configured to measure current in a current-carrying conductor, the current sensor comprising a Rogowski coil having plurality of conductor segments, the plurality of conductor segments positionable to form a substantially complete loop, in which a first conductor segment of the plurality of conductor segments is electrically isolated from a second conductor segment of the plurality of conductor segments. 2. The current sensor of claim 1 , further comprising an integrator element configured to receive an output from the first conductor segment of the plurality of conductor segments. 3. The current sensor of claim 1 , further comprising an individual integrator element for each conductor segment of the plurality of conductor segments. 4. The current sensor of claim 3 , further comprising a summing element configured to produce a sum of outputs of the individual integrator elements. 5. The current sensor of claim 4 , in which the summing element is a summing amplifier. 6. The current sensor of claim 1 , further comprising an integrator element configured to receive an output from more than one conductor segment of the plurality of conductor segments. 7. The current sensor of claim 1 , in which an output lead of the first conductor segment is on a same side of the Rogowski coil as an output lead of the second conductor segment. 8. The current sensor of claim 1 , in which the first conductor segment of the plurality of conductor segments is flexibly joined to an adjacent conductor segment of the plurality of conductor segments. 9. The current sensor of claim 1 , in which the first conductor segment of the plurality of conductor segments is mechanically separable from an adjacent conductor segment of the plurality of conductor segments. 10. The current sensor of claim 1 , in which the first conductor segment of the plurality of conductor segments is galvanically isolated from another conductor segment of the plurality of conductor segments. 11. The current sensor of claim 1 , further comprising an individual buffer element for each conductor segment of the plurality of conductor segments. 12. The current sensor of claim 11 , further comprising an integrator element configured to receive an output from more than one of the individual buffer elements. 13. The current sensor of claim 1 , in which a quantity of conductor segments comprising the Rogowski coil is adjustable. 14. The current sensor of claim 13 , further comprising a cinch mechanism to separate a first portion of conductor segments comprising the Rogowski coil and a second portion of conductor segments outside of the Rogowski coil, the first portion of conductor segments and the second portion of conductor being coupled together. 15. The current sensor of claim 13 , further comprising a detector configured to detect the quantity of conductor segments that are forming the Rogowski coil. 16. The current sensor of claim 15 , in which the detector comprises at least one of a mechanical switch or an optical switch to detect the quantity of conductor segments that are forming the Rogowski coil. 17. The current sensor of claim 1 , in which each conductor segment of the plurality of conductor segments is in a common housing. 18. The current sensor of claim 1 , in which the first conductor segment of the plurality of conductor segments is in a first housing and the second conductor segment of the plurality of conductor segments is in a second housing that is separate from the first housing. 19. A method of using a current sensor to measure current in a current-carrying conductor, the method comprising: positioning a Rogowski coil to substantially surround a current-carrying conductor, the Rogowski coil having plurality of conductor segments, in which a first conductor segment of the plurality of conductor segments is electrically isolated from a second conductor segment of the plurality of conductor segments, the plurality of conductor segments being arranged to form a substantially complete loop; and obtaining a voltage signal from at least two conductor segments of the plurality of conductor segments. 20. The method of claim 19 , in which obtaining the voltage signal from at least two conductor segments of the plurality of conductor segments includes obtaining multiple voltage signals over time from the at least two conductor segments of the plurality of conductor segments. 21. The method of claim 20 , further comprising integrating, with an integrator element, the multiple voltage signals to produce an integrated output signal. 22. The method of claim 21 , further comprising buffering, with a buffer element, the multiple voltage signals prior to integrating the multiple voltage signals. 23. The method of claim 20 , further comprising: integrating, with a first integrator element, the multiple voltage signals of a first conductor segment of the at least two conductor segments to produce a first integrated output signal; integrating, with a second integrator element, the multiple voltage signals of a second conductor segment of the at least two conductor segments to produce a second integrated output signal; and summing, with a summing element, the first integrated output signal and the second integrated output signal. 24. The method of claim 19 , in which positioning the Rogowski coil to substantially surround the current-carrying conductor comprises: positioning a first portion of the Rogowski coil on a first side of a printed circuit board; and positioning a second portion of the Rogowski coil on a second side of the printed circuit board, the printed circuit board being between the first portion of the Rogowski coil and the second portion of the Rogowski coil, each of the first portion and the second portion including one or more conductor segments of the plurality of conductor segments. 25. The method of claim 19 , in which positioning the Rogowski coil to substantially surround the current-carrying conductor comprises cinching the plurality of conductor segments such that a first portion of the plurality of conductor segments forms the Rogowski coil and a second portion of the plurality of conductor segments is outside of the Rogowski coil. 26. The method of claim 25 , further comprising detecting, with a detector, a quantity of conductor segments in the first portion of the plurality of conductor segments.