Signal Connector for Sterile Barrier Between Surgical Instrument and Teleoperated Actuator

What is claimed is: 1 . An instrument sterile drape comprising: a plastic sheet; and an instrument sterile adapter (ISA) coupled to the plastic sheet, the ISA including a bottom plate located on a first side of the plastic sheet and a top plate located on a second side of the plastic sheet and joined to the bottom plate, the bottom plate including a passage that allows a flux connection of an instrument carriage to pass through the plastic sheet and the bottom plate to be placed adjacent to the top plate, the top plate including a signal transmission area that will be adjacent to an upper surface of the flux connection of the instrument carriage. 2 . The instrument sterile drape of claim 1 further comprising a flux connector that closes an opening in the signal transmission area of the top plate and provides a path for an electrical signal. 3 . The instrument sterile drape of claim 1 further comprising a flux connector that closes an opening in the signal transmission area of the top plate and provides a path for an optical signal. 4 . The instrument sterile drape of claim 1 wherein the signal transmission area of the top plate is thinned to allow an RFID sensor in the flux connection to be closer to an RFID device in a surgical instrument attached to the instrument sterile adapter. 5 . The instrument sterile drape of claim 1 wherein the plastic sheet is a single layer of thermoplastic polyurethane about 100 micrometers (0.004 of an inch) thick in the form of a tube and the plastic sheet includes a lubricant. 6 . The instrument sterile drape of claim 1 further comprising a pouch sealed to a first opening in the plastic sheet, the pouch shaped to fit around the instrument carriage, the pouch including a second opening to which the ISA is coupled with the bottom plate located on a first side of the pouch and the top plate located on an opposing second side of the pouch, the passage allowing the flux connection to further pass through the pouch. 7 . The instrument sterile drape of claim 6 wherein the pouch is shaped to provide a loose form fit around the instrument carriage. 8 . The instrument sterile drape of claim 6 wherein the pouch is made from a polyurethane. 9 . The instrument sterile drape of claim 6 wherein the top plate is joined to the bottom plate by passing pins between the top and bottom plates and through the pouch and heat staking the pins to form a permanent assembly. 10 . The instrument sterile drape of claim 1 wherein the bottom plate includes a pocket with a third opening in a first surface of the bottom plate furthest from the top plate, and the top plate includes a fourth opening in a second surface of the top plate furthest from the bottom plate; and the ISA further includes a presence pin loosely retained in the pocket, a portion of the presence pin extending through the fourth opening. 11 . The instrument sterile drape of claim 10 wherein at least a portion of the pocket is housed within a protrusion that extends from the first surface of the bottom plate. 12 . The instrument sterile drape of claim 11 wherein the protrusion is a cylindrical protrusion and an end of the cylindrical protrusion furthest from the first surface is chamfered. 13 . A method for assembling an instrument sterile drape, the method comprising: providing a plastic sheet; joining a bottom plate located on a first side of the plastic sheet to a top plate located on an opposite second side of the plastic sheet as part of an instrument sterile adapter (ISA); providing a passage in the bottom plate that allows a flux connection of an instrument carriage to pass through the plastic sheet and the bottom plate to be placed adjacent to the top plate; and providing a signal transmission area in the top plate that will be adjacent to an upper surface of the flux connection of the instrument carriage. 14 . The method of claim 13 further comprising: creating an opening in the signal transmission area of the top plate; closing the opening in the signal transmission area with a flux connector that provides a path for an electrical signal. 15 . The method of claim 13 further comprising: creating an opening in the signal transmission area of the top plate; closing the opening in the signal transmission area with a flux connector that provides a path for an optical signal. 16 . The method of claim 13 further comprising: thinning the signal transmission area of the top plate to allow an RFID sensor flux connection to be closer to an RFID device in a surgical instrument attached to the instrument sterile adapter. 17 . The method of claim 13 wherein the plastic sheet is a single layer of thermoplastic polyurethane about 100 micrometers (0.004 inch) thick in the form of a tube and the plastic sheet includes a lubricant. 18 . The method of claim 13 further comprising: creating a first opening in the plastic sheet; forming a pouch to fit around the instrument carriage; sealing the pouch to the first opening in the plastic sheet; creating a second opening in the pouch; joining the bottom plate to the top plate at the second opening in the pouch; and providing a second passage in the pouch that allows the flux connection of the instrument carriage to pass through the pouch. 19 . The method of claim 18 wherein the second passage in the pouch is part of the second opening in the pouch. 20 . The method of claim 18 further comprising: placing the bottom plate over the second opening on a first side of the pouch; placing the top plate over the second opening on a second side of the pouch opposite the first side; and joining the bottom plate and the top plate to retain a portion of the pouch between the bottom plate and the top plate. 21 . The method of claim 20 further comprising: passing pins between the top and bottom plates and through the pouch; and heat staking the pins to form a permanent assembly.