Controller controlled instrument preload mechanism

What is claimed is: 1. A computer-assisted system comprising: an instrument manipulator assembly including a preload assembly and a motor; an insertion assembly configured to control a position of the instrument manipulator assembly; and a motor controller coupled to the preload assembly; wherein the motor controller is configured to: actuate the preload assembly to control an amount of preload applied by the preload assembly to the motor, wherein the instrument manipulator assembly is at a particular position when the preload assembly applies no preload, and actuate the preload assembly to apply a low preload in response to detecting that a sterile adapter is mounted to the instrument manipulator assembly, wherein the instrument manipulator assembly is at the particular position when the preload assembly applies the low preload. 2. The computer-assisted system of claim 1 , wherein the motor controller is further configured to actuate the preload assembly from the low preload to a high preload in response to detecting that an instrument is mounted to the sterile adapter. 3. The computer-assisted system of claim 1 , wherein the amount of preload applied by the preload assembly varies depending on an amount the motor controller actuates the preload assembly but not on the position of the instrument manipulator assembly being controlled by the insertion assembly. 4. The computer-assisted system of claim 1 , wherein: the instrument manipulator assembly further comprises a housing and a motor pack movably mounted in the housing, the motor pack including the motor; and the preload assembly is configured to move the motor pack relative to the housing in response to the actuation of the preload assembly by the motor controller. 5. The computer-assisted system of claim 1 , wherein the preload assembly further comprises: a nut coupled to the motor, wherein the motor moves the nut in a first direction and in a second direction. 6. The computer-assisted system of claim 5 , wherein the preload assembly further comprises: an arm coupled to the motor; and a preload release lever pivotally mounted on the arm, wherein movement of the nut is transferred to the arm. 7. The computer-assisted system of claim 6 , wherein: the preload assembly further comprises an emergency instrument release button coupled to the preload release lever; and activation of the emergency instrument release button releases any preload on the motor. 8. The computer-assisted system of claim 1 , wherein the instrument manipulator assembly further comprises a mechanical instrument lockout assembly. 9. A computer-assisted system comprising: an instrument manipulator assembly comprising a housing, a motor pack, and a preload assembly, wherein the motor pack is movably mounted in the housing; an insertion assembly configured to control a position of the instrument manipulator assembly; and a motor controller coupled to the preload assembly; wherein the motor controller is configured to: actuate the preload assembly to control an amount of preload applied by the preload assembly to the motor pack, wherein the instrument manipulator assembly is at a particular position when the preload assembly applies no preload to the motor pack; and actuate the preload assembly to apply a low preload to the motor pack in response to detecting that a sterile adapter is mounted to the instrument manipulator assembly, wherein the instrument manipulator assembly is at the particular position when the preload assembly applies the low preload to the motor pack. 10. The computer-assisted system of claim 9 , wherein the motor controller is further configured to actuate the preload assembly from the low preload to a high preload in response to detecting that an instrument is mounted to the sterile adapter. 11. The computer-assisted system of claim 9 , wherein the amount of preload applied by the preload assembly to the motor pack varies depending on an amount the motor controller actuates the preload assembly but not on the position of the instrument manipulator assembly being controlled by the insertion assembly. 12. The computer-assisted system of claim 9 , wherein the preload assembly is configured to move the motor pack relative to the housing in response to the actuation of the preload assembly by the motor controller. 13. The computer-assisted system of claim 9 , wherein the preload assembly further comprises: an arm coupled to the motor pack; a preload release lever pivotally mounted on the arm; and an emergency instrument release button coupled to the preload release lever; wherein activation of the emergency instrument release button releases any preload on the motor pack. 14. The computer-assisted system of claim 13 , further comprising a spring configured to return the motor pack to a no preload position in response to activation of the emergency instrument release button. 15. The computer-assisted system of claim 9 , wherein the instrument manipulator assembly further comprises a mechanical instrument lockout assembly. 16. A method comprising: actuating, by a motor controller prior to detecting that a sterile adapter is mounted on an instrument manipulator assembly, a preload assembly to apply no preload force to a motor pack of the instrument manipulator assembly, wherein the instrument manipulator assembly is at a particular position when the preload assembly applies the no preload force to the motor pack; and actuating, by the motor controller in response to detecting that the sterile adapter has been mounted on the instrument manipulator assembly, the preload assembly to apply a first preload force to the motor pack, wherein the instrument manipulator assembly is at the particular position when the preload assembly applies the first preload force to the motor pack. 17. The method of claim 16 , further comprising actuating, by the motor controller in response to detecting that an instrument has been mounted to the instrument manipulator assembly, the preload assembly apply a second preload force to the motor pack, wherein the second preload force is higher than the first preload force. 18. The method of claim 17 , further comprising: preventing, by the motor controller, removal of the instrument from the sterile adapter. 19. The method of claim 17 , further comprising: actuating, by the motor controller in response to receiving a command to release the preload assembly, the preload assembly to apply no preload force to the motor pack. 20. The method of claim 16 , wherein an amount of preload force applied by the preload assembly varies depending on an amount the motor controller actuates the preload assembly but not on a position of the instrument manipulator assembly.