Coupling for a camshaft phaser arrangement for a concentric camshaft assembly

What is claimed is: 1. A camshaft phaser arrangement configured for a concentric camshaft assembly having inner and outer camshafts, the camshaft phaser arrangement comprising: a first camshaft phaser configured to be connected to one of the inner or outer camshafts; a second camshaft phaser configured to be connected to the other of the inner or outer camshafts; the first camshaft phaser axially adjacent to the second camshaft phaser; and, a coupling arranged to torsionally connect the first camshaft phaser to the second camshaft phaser, the coupling comprising: a coupling ring having: at least one first radial slot configured to: (1) connect the coupling ring to one of the first or second camshaft phaser and, (2) provide for a first radial movement between the first camshaft phaser and the second camshaft phaser; and, at least one second radial slot configured to provide for: (1) a second radial movement between the first camshaft phaser and the second camshaft phaser, and (2) an axial movement between the first camshaft phaser and the second camshaft phaser; and, at least one coupling pin, a first end received by the at least one second radial slot, and a second end connected to the other of the first or second camshaft phaser. 2. The camshaft phaser arrangement of claim 1 , wherein a pathway for the first radial movement is defined by the at least one first radial slot and a pathway for the second radial movement is defined by the at least one second radial slot. 3. The camshaft phaser arrangement of claim 1 , wherein a diameter of the first end of the at least coupling pin is smaller than a width of the at least one second radial slot. 4. The camshaft phaser arrangement of claim 1 , wherein a center line of the at least one first radial slot is perpendicular to a center line of the at least one second radial slot. 5. The camshaft phaser arrangement of claim 1 , wherein the at least one first radial slot comprises a first pair of opposed radial slots, and the at least one second radial slot comprises a second pair of opposed radial slots. 6. The camshaft phaser arrangement of claim 1 , further comprising at least one fastener that connects the coupling ring to the one of the first or second camshaft phaser. 7. The camshaft phaser arrangement of claim 6 , further comprising at least one bushing that is connected to the one of the first or second camshaft phaser by the at least one fastener, the at least one bushing received by the at least one first radial slot. 8. The camshaft phaser arrangement of claim 7 , wherein a length of a body of the at least one bushing is greater than a height of the at least one first radial slot. 9. The camshaft phaser arrangement of claim 8 , wherein a diameter of the body of the at least one bushing is less than a width of the at least one first radial slot. 10. The camshaft phaser arrangement of claim 1 , wherein at least one of the first or second camshaft phaser is an electric camshaft phaser or a hydraulic camshaft phaser. 11. The camshaft phaser arrangement of claim 1 , wherein the coupling ring is formed with an axial offset. 12. The camshaft phaser arrangement of claim 1 , wherein the coupling ring is connected to the first camshaft phaser and the second end of the at least one coupling pin is connected to the second camshaft phaser, the first camshaft phaser arranged axially outward of the second camshaft phaser. 13. The camshaft phaser arrangement of claim 12 , wherein the coupling ring is connected to a non-phased component of the first camshaft phaser. 14. The camshaft phaser arrangement of claim 12 , wherein the second camshaft phaser includes a drive wheel configured with a power transmission interface. 15. The camshaft phaser arrangement of claim 12 , wherein the first camshaft phaser is an electric camshaft phaser, and the second camshaft phaser is a hydraulic phaser. 16. The camshaft phaser arrangement of claim 15 , wherein the coupling ring is connected to an outer collar of the first camshaft phaser. 17. The camshaft phaser arrangement of claim 15 , wherein the first camshaft phaser is configured to be connected to the inner camshaft, and the second camshaft phaser is configured to be connected to the outer camshaft. 18. The camshaft phaser arrangement of claim 15 , wherein the second end of the at least one coupling pin is connected to a non-phased component of the second camshaft phaser. 19. The camshaft phaser arrangement of claim 15 , wherein the second end of the at least one coupling pin is received by an aperture arranged within the second camshaft phaser. 20. The camshaft phaser arrangement of claim 19 , wherein the aperture is arranged in a stator of the second camshaft phaser.