Interlock system and method for drilling rig

The invention claimed is: 1. A system, comprising: a top drive system comprising a gripping device configured to support a length of tubular; power slips configured to support a drill string; and an interlock system configured to coordinate operation of the top drive system and the power slips to ensure that at least one of the top drive system and the power slips is supporting weight of the length of tubular and weight of the drill string, wherein the interlock system comprises a first pressure switch configured to actuate the power slips and a second pressure switch configured to actuate the gripping device, wherein the first pressure switch is configured to block disengagement of the power slips until sufficient pressure is applied to the gripping device to support the length of tubular and/or the drill string, and the second pressure switch is configured to block disengagement of the gripping device until sufficient pressure is applied to the power slips to support the length of tubular and/or the drill string, wherein the interlock system comprises a tubular drive monitoring system configured to measure a first radial gripping distance traveled by the gripping device to grip the length of tubular and a power slips sensor configured to measure a second radial gripping distance traveled by the power slips to grip the drill string. 2. The system of claim 1 , wherein the interlock system comprises a controller configured to regulate operation of the gripping device and the power slips to ensure that at least one of the gripping device and the power slips is supporting weight of the length of tubular and weight of the drill string, and the controller is configured to regulate operation of the top drive system and the power slips based on measured feedback. 3. The system of claim 2 , wherein the interlock system comprises a top drive monitoring system configured to measure a weight supported by the gripping device, and the measured feedback comprises the weight. 4. The system of claim 2 , wherein the power slips comprise at least one sensor configured to measure a weight supported by the power slips, and the measured feedback comprises the weight. 5. The system of claim 2 , wherein the controller is configured to apply control signals to the first and second pressure switches. 6. The system of claim 1 , wherein the first pressure switch is configured to detect a first gripping force of the power slips on the drill string, and the second pressure switch is configured to detect a second gripping force of the gripping device on the length of tubular. 7. The system of claim 2 , wherein the interlock system comprises at least one mechanical override switch configured to interrupt control of the gripping device and/or the power slips by the controller. 8. The system of claim 7 , wherein the at least one mechanical override switch is configured to enable manual disengagement of the gripping device or the power slips. 9. A system, comprising: a controller configured to coordinate operation of a gripping device of a top drive system and power slips of a drilling rig to ensure that at least one of the gripping device and the power slips is engaged with a length of tubular and/or a drill string to support weight of the length of tubular and/or weight of the drill string; a first pressure switch configured to actuate the power slips and a second pressure switch configured to actuate the gripping device, wherein the first pressure switch is configured to block disengagement of the power slips until sufficient pressure is applied to the gripping device to support the length of tubular and/or the drill string, and the second pressure switch is configured to block disengagement of the gripping device until sufficient pressure is applied to the power slips to support the length of tubular and/or the drill string; a tubular drive monitoring system configured to measure a first radial gripping distance traveled by the gripping device to grip the length of tubular; and a sensor configured to measure a second radial gripping distance traveled by the power slips to grip the drill string. 10. The system of claim 9 , wherein the controller is configured to regulate operation of the top drive system and the power slips based on measured feedback associated with a casing running or tripping operation. 11. The system of claim 10 , wherein the measured feedback comprises the weight of the length of tubular acting on the gripping device, the weight of the length of tubular acting on the power slips, the weight of the drill string acting on the gripping device, the weight of the drill string acting on the power slips, or any combination thereof. 12. The system of claim 9 , comprising at least one manual override switch configured to interrupt control of the controller and enable manual disengagement of the gripping device of the top drive system, the power slips, or both. 13. The system of claim 9 , wherein the controller is configured to apply control signals to the first and second pressure switches. 14. The system of claim 9 , wherein the controller is configured to receive feedback from the first pressure switch indicative of a first gripping force of the power slips on the drill string and from the second pressure switch indicative of a second gripping force of the gripping device on the length of tubular. 15. The system of claim 9 , wherein the tubular drive monitoring system is coupled to the top drive system, wherein the tubular drive monitoring system is configured to detect a weight of the length of tubular and/or the drill string supported by the top drive system, and wherein the tubular drive monitoring system is configured to wirelessly transmit the weight to the controller. 16. A method, comprising: measuring a first weight of a length of tubular and/or a drill string supported by a gripping device of a tubular drive system of a drilling rig; measuring a second weight of the length of tubular and/or the drill string supported by power slips of the drilling rig; coordinating operation of the gripping device and the power slips based on the first and second weights to ensure that at least one of the gripping device and the power slips is supporting the first and second weights; measuring a first radial gripping distance traveled by the power slips to grip the drill string; measuring a second radial gripping distance traveled by the gripping device to grip the length of tubular; calculating a first gripping force of the power slips on the drill string based on the first radial gripping distance; and calculating a second gripping force of the gripping device on the length of tubular based on the second radial gripping distance. 17. The method of claim 16 , comprising wirelessly transmitting the first weight from a tubular drive monitoring system configured to detect the first weight to a controller configured to coordinate operation of the gripping device and the power slips. 18. The method of claim 16 , comprising manually overriding the gripping device or the power slips to disengage the gripping device or the power slips. 19. The method of claim 16 , comprising measuring the first gripping force of the power slips on the drill string with a first pressure switch, and measuring the second gripping force of the gripping device on the length of tubular with a second pressure switch. 20. The method of claim 16 , comprising coordinating operation of the gripping device and the power slips based on the first and second gripping forces to