An interactive control unit is disclosed. The interactive control unit includes an interactive touchscreen display, an interface configured to couple the control unit to a surgical hub, a processor, and a memory coupled to the processor. The memory stores instructions executable by the processor to receive input commands from the interactive touchscreen display located inside a sterile field and transmit the input commands to the surgical hub to control devices coupled to the surgical hub located outside the sterile field.

The invention concerns a handle for a video endoscope including a housing and an interface portion rotatably supported relative to the housing where the interface portion includes a first connector element at its distal end section that is connectable to a second connector element of an associated elongate shaft of the video endoscope. Thereby a detachable, rotatable electrical and/or mechanical connection between the handle and the associated shaft is achieved. The coupling includes an electrical connection assembly arranged at an exterior of the interface portion forming an electrical connection to a stationary electric component of the handle. The handle includes a mechanical rotation stop for a rotation of the interface portion relative to the housing such that a rotation range is limited and damage to the electrical connection assembly is prevented.

An endoscope system having: an endoscope having: an endoscope insertion section configured to be inserted into a subject, wherein the endoscope insertion section defines a channel having a distal opening; and a power transmission electrode arranged to the endoscope insertion section and electrically connected to a power source configured to output a high-frequency power; and a treatment tool having: an electrically powered treatment device; a treatment tool insertion section attached to the electrically powered treatment device, wherein the treatment tool insertion section is configured to be arranged in the channel of the endoscope; and a power reception electrode arranged to the treatment tool insertion section, wherein the power reception electrode is separated from the power transmission electrode to form a capacitor to transfer power from the power source through an electric field between the power transmission electrode and the power reception electrode to power the electrically powered treatment device.

An endoscope includes: a protection sheath that forms an insertion unit; a pipe-like case that is connected to a proximal end side of the protection sheath; a distal end optical system that is provided at a distal end of the protection sheath and that defines a distal end side of a sealed space formed in the protection sheath and the case; a partition wall that is provided in the case, is perpendicular to an insertion axis of the insertion unit, and defines a proximal end side of the sealed space; a shaft member that is inserted into the protection sheath and that is rotatable relative to the protection sheath in a direction around the insertion axis; an image pickup unit that is provided at a distal end of the shaft member and that picks up an image of light passing through the distal end optical system; and a magnet coupling which includes a first magnet provided in the sealed space and a second magnet provided outside the sealed space with the partition wall interposed therebetween and of which the first magnet is connected to a proximal end side of the shaft member. The magnet coupling and the case are rotatable relative to each other in the direction around the axis.

A medical power supply system includes: a medical device including an elongated insertion section, a power receiving unit including a power receiving member and movable relative to the insertion section in a longitudinal direction of the insertion section, and a biasing unit biasing the power receiving unit toward a distal end side of the insertion section; and a guide unit including a power transmitting unit including a power transmitting member, the insertion section being inserted into the guide unit. When the insertion section is inserted into the guide unit to a predetermined amount, the power receiving unit comes in contact with the power transmitting unit with being biased by the biasing unit, and the power transmitting member and the power receiving member face each other in an axial direction of the insertion section and have a positional relation in which wireless power transmission is possible.

An interface device includes first and second connectors adapted to be joined together in an operating position. One or more first optical data conduits extend through the first connector, with each first optical data conduit terminating at a respective first optical conduit end which is operatively aligned with a respective first optical lens. One or more second optical data conduits extend through the second connector, with each second optical data conduit terminating at a respective second optical conduit end which is operatively aligned with a respective second optical lens. Each respective second optical data conduit and respective second optical lens are aligned for optical coupling across a coupling region with one of the first optical conduits and respective first optical lens when the first connector and second connector are joined in the operating position. The interface also includes a wireless or contact-type electrical power transfer arrangement.

An endoscopic image capturing assembly is provided and includes a holder, an image sensing device, a conducting track, a cable and a lens set. The holder includes a first surface and a second surface perpendicular to the first surface. The image sensing device is mounted on the first surface and includes an electrical connecting component. The conducting track is formed from the first surface to the second surface of the holder and electrically connected to the electrical connecting component. The cable is mounted on the second surface. A terminal of the cable is electrically connected to the electrical connecting component of the image sensing device by the conducting track. The lens set is assembled with the image sensing device. An optical axis of the lens set is parallel to an extending direction of the cable. Furthermore, a related endoscopic device is provided.

A cable connection substrate includes: a first substrate that is provided with, on a front surface of the first substrate, a first connection electrode to be connected to a sensor electrode of an imaging element, and provided with a second connection electrode on a back surface side of the first substrate; and a second substrate that is provided with, on a front surface of the second substrate, a third connection electrode to be connected to the second connection electrode, and provided with, on a top surface side of the second substrate, the top surface being a side surface perpendicular to the front surface of the second substrate, a plurality of cable connection electrodes to be connected to a plurality of cables. A sum of effective conductor areas of the plurality of cable connection electrodes is greater than a sum of effective conductor areas of the third connection electrode.

An image pickup apparatus includes an image pickup device configured such that a plurality of electrode pads are disposed in a row on an inclined surface; a wiring board configured such that a plurality of first bonded electrodes that are bonded to the plurality of electrode pads via first solder bumps, respectively, are disposed in a row on a first end portion, and a plurality of second bonded electrodes are disposed in a row on a second end portion; and a signal cable configured to be bonded to the plurality of second bonded electrodes via second solder bumps, respectively. The wiring board includes a first protective film which covers the first end portion, and a second protective film which covers the second end portion, and is of a thickness that is greater than a thickness of the first protective film and less than a height of the second solder bumps.

An image pickup apparatus includes a silicon layer, a wire layer that contains an insulator having a lower dielectric constant than silicon oxide, a cover glass that covers a light receiving portion on a light receiving surface of the silicon layer, and a silicon substrate that covers a back surface of the wire layer, in which a guard ring is formed along an outer edge on the wire layer, a through-hole having a bottom surface that is configured by an electrode pad configured by a conductor of the wire layer and having an outer periphery portion in contact with the silicon layer over a whole periphery is provided in a region of the silicon layer that is not covered with the cover glass, and the insulator of the wire layer is not exposed to an inner surface of the through-hole.