Systems and methods for unpowered release and retraction of robotic tools in a robotic surgical system

What is claimed is: 1. A robotic surgical system, comprising: a central drive unit configured to movably couple to a robotic arm, the central drive unit comprising: a linear spar attached to a mounting plate and extending distally from the mounting plate along a first axis, and a telescoping assembly movable relative to the linear spar, comprising an intermediate link movably coupled to the linear spar and configured to move linearly relative to the linear spar, the intermediate link being actuatable by a lead screw to extend distally relative to the linear spar, and an instrument drive unit movably coupled to the intermediate link and configured to move linearly relative to the intermediate link, the instrument drive unit configured to extend distally relative to the intermediate link, the instrument drive unit having a distal interface configured to removably couple to a robotic tool, wherein the telescoping assembly is actuatable between a collapsed configuration where the instrument drive unit is in a retracted position relative to the intermediate link and the intermediate link is in a retracted position relative to the linear spar and an extended configuration where the instrument drive unit is in an extended position relative to the intermediate link and the intermediate link is in an extended position relative to the linear spar; an electric motor operatively coupled to the lead screw and operable to rotate the lead screw to extend the intermediate link relative to the linear spar; a brake operable to inhibit rotation of the lead screw to lock a movement of one or more of the intermediate link and the instrument drive unit; and a manual brake release mechanism manually operable by a user to disengage the brake to allow manual retraction of the telescoping assembly to the collapsed configuration to manually retract the robotic tool. 2. The system of claim 1 , wherein the lead screw is back-drivable. 3. The system of claim 1 , wherein the brake comprises an armature and a friction disc, the armature configured to engage the friction disc to engage the brake. 4. The system of claim 3 , wherein the brake release mechanism comprises a plate disposed between at least a portion of the armature and the friction disc, the plate linearly actuatable to separate the armature from the friction disc to disengage the brake to thereby allow the manual retraction of the telescoping assembly to the collapsed configuration to manually retract the robotic tool. 5. The system of claim 4 , wherein the plate is actuatable by a lever pivotally or rotatably coupled to a housing of the central drive unit. 6. The system of claim 5 , wherein the lever is configured to be pivoted away from the housing of the central drive unit to actuate the plate via one or more rods to separate the armature from the friction disc to disengage the brake. 7. The system of claim 5 , wherein the lever is configured to be pivoted toward the housing of the central drive unit to actuate the plate via one or more rods to separate the armature from the friction disc to disengage the brake. 8. The system of claim 5 , wherein the lever is configured to be rotated along a surface of the housing of the central drive unit to actuate the plate via one or more rods to separate the armature from the friction disc to disengage the brake. 9. The system of claim 4 , further comprising means for separating the armature from the friction disc to disengage the brake. 10. The system of claim 3 , wherein the brake release mechanism comprises a torque arm with a pair of spacers disposed between at least a portion of the armature and the friction disc, the pair of spacers having a rectangular profile with a greater width than height, the torque arm being pivotally actuatable about an axis between the spacers to separate the armature from the friction disc to disengage the brake to thereby allow the manual retraction of the telescoping assembly to the collapsed configuration to manually retract the robotic tool. 11. The system of claim 10 , wherein the torque arm is pivoted via a lever pivotally coupled to a housing of the central drive unit, the lever coupled to the torque arm via a connector arm. 12. The system of claim 11 , wherein the lever is configured to be pressed or pivoted toward the housing to pivot the torque arm to separate the armature from the friction disc to disengage the brake. 13. The system of claim 11 , wherein the lever is configured to be pivoted away from a surface of the housing or pinched relative to a second surface of the housing to pivot the torque arm to separate the armature from the friction disc to disengage the brake. 14. The system of claim 10 , further comprising means for separating the armature from the friction disc to disengage the brake. 15. The system of claim 1 , wherein the manual brake release mechanism is at least housed in the instrument drive unit. 16. The system of claim 15 , wherein the intermediate link has a plurality of teeth, and wherein the brake includes a magnetic solenoid with a shaft that engages rotatable cam with a tooth, the tooth selectively engaging one of the teeth of the intermediate link to lock the instrument drive unit relative to the intermediate link when the system experiences a loss of power. 17. The system of claim 16 , wherein the brake release mechanism includes a brake release actuator manually actuatable by a user to apply a force on the shaft of the magnetic solenoid to retract the tooth from engagement with the teeth to disengage the brake and allow retraction of the instrument drive unit relative to the intermediate link to move the telescoping assembly to the collapsed configuration. 18. The system of claim 15 , wherein the brake includes a magnetic solenoid with a shaft that engages rotatable cam with a wiper, the wiper selectively frictionally engaging a surface of the intermediate link to lock the instrument drive unit relative to the intermediate link when the system experiences a loss of power. 19. The system of claim 18 , wherein the brake release mechanism includes a brake release actuator manually actuatable by a user to apply a force on the shaft of the magnetic solenoid to retract the wiper from engagement with the surface to disengage the brake and allow retraction of the instrument drive unit relative to the intermediate link to move the telescoping assembly to the collapsed configuration. 20. The system of claim 15 , wherein the instrument drive unit comprises the brake that frictionally engages one of both sides of a rail of the intermediate, the brake release mechanism including a brake release actuator manually actuatable by a user to disengage the brake and allow retraction of the instrument drive unit relative to the intermediate link to move the telescoping assembly to the collapsed configuration. 21. The system of claim 1 , wherein the lead screw has a ratcheted surface, and wherein the brake includes a magnetic solenoid with a shaft having a tooth that engages the ratcheted surface of the lead screw to lock a position of the telescoping assembly when the system experiences a loss of power. 22. The system of claim 21 , wherein the brake release mechanism includes a brake release actuator manually actuatable by a user to apply a force on the shaft of the magnetic solenoid to retract the tooth from engagement with the ratcheted surface to disengage the brake and allow manual retraction of the telescoping assembly to the collapsed configuration.