Current transformer with self-adjusting cores

What is claimed is: 1. A current transformer comprising: a first housing comprising a first handle portion and a first distal portion; a second housing comprising a second handle portion and a second distal portion; a first core having a first proximal core end and a first distal core end, the first core mounted in rotational contact within the first distal portion; and a second core having a second proximal core end and a second distal core end, the second core mounted in rotational contact within the second distal portion; wherein the first housing is rotationally coupled to the second housing about a fulcrum point and wherein, when the first housing and the second housing are rotated into a closed position, the first core is adapted to rotate within the first distal portion and the second core is adapted to rotate within the second distal portion to enable contact between the first proximal core end and the second proximal core end and to enable contact between the first distal core end and the second distal core end. 2. The current transformer of claim 1 , wherein a pivot member is attached to the first core and the first housing comprises an indentation to receive the pivot member. 3. The current transformer of claim 1 , wherein a pivot member is attached to the first housing and the first core comprises an indentation to receive the pivot member. 4. The current transformer of claim 1 , wherein there is a gap between the first housing and the first core. 5. The current transformer of claim 1 , wherein the first housing has a semi-elliptical shape. 6. The current transformer of claim 1 , wherein a ratio of (i) a distance between the fulcrum point and an end of the first distal portion and (ii) a distance between the fulcrum point and an end of the first handle portion is at least 5 to 1. 7. The current transformer of claim 1 , wherein a ratio of (i) a distance between the fulcrum point and an end of the first distal portion and (ii) a distance between the fulcrum point and an end of the first handle portion is at least 7 to 1. 8. The current transformer of claim 1 , wherein a maximum thickness of the first housing is less than or equal to 11 millimeters. 9. The current transformer of claim 1 , comprising: a lock attached to the second handle portion and adapted to rotate about an axis; wherein the lock is adapted to rotate about the axis into contact with the first handle portion preventing rotation of the first housing and the second housing about the fulcrum point. 10. The current transformer of claim 9 , wherein the lock is made of plastic. 11. The current transformer of claim 1 , comprising a memory chip adapted to store a first scale factor of the first core and a second scale factor of the second core. 12. A current sensing device comprising: a current transformer for sensing a current in an alternating current (AC) power line, the current transformer comprising: a first housing comprising a first handle portion and a first distal portion; a second housing comprising a second handle portion and a second distal portion; a first core having a first proximal core end and a first distal core end, the first core mounted in rotational contact within the first distal portion, wherein the first core is wrapped with a first conductor winding; and a second core having a second proximal core end and a second distal core end, the second core mounted in rotational contact within the second distal portion, wherein the second core is wrapped with a second conductor winding; wherein the first housing is rotationally coupled to the second housing about a fulcrum point and wherein, when the first housing and the second housing are rotated into a closed position, the first core is adapted to rotate within the first distal portion and the second core is adapted to rotate within the second distal portion to enable contact between the first proximal core end and the second proximal core end and to enable contact between the first distal core end and the second distal core end. 13. The current sensing device of claim 12 , wherein a pivot member is attached to the first core and the first housing comprises an indentation to receive the pivot member. 14. The current sensing device of claim 12 , wherein a pivot member is attached to the first housing and the first core comprises an indentation to receive the pivot member. 15. The current sensing device of claim 12 , wherein there is a gap between the first housing and the first core. 16. The current sensing device of claim 12 , wherein the first housing has a semi-elliptical shape. 17. The current sensing device of claim 12 , wherein a ratio of (i) a distance between the fulcrum point and an end of the first distal portion and (ii) a distance between the fulcrum point and an end of the first handle portion is 5 to 1 or 7 to 1. 18. The current sensing device of claim 12 , wherein a maximum thickness of the first housing is less than or equal to 11 millimeters. 19. The current sensing device of claim 12 , comprising: a lock attached to the second handle portion and adapted to rotate about an axis; wherein the lock is adapted to rotate about the axis into contact with the first handle portion preventing rotation of the first housing and the second housing about the fulcrum point. 20. The current sensing device of claim 12 , comprising a memory chip adapted to store a first scale factor of the first core and a second scale factor of the second core.