The present invention concerns to a cover for devices comprising a capacitive touchscreen, suitable for assisting a user with touch interaction on said touchscreen by the electrical connecting the user interaction point and the contact point.

Example implementations relate to novel battery designs based on the original disclosures of the Parent patent application Ser. No. 15/196,019. In a non-limiting embodiment, a first battery includes a ferroelectric glass electrolyte and a ferrocene Fe(C.sub.5H.sub.5).sub.2 molecule as a redox-mediator-relay material used for plating sodium on a current collector. Novel redox Fe(C.sub.5H.sub.5).sub.2 behavior is shown at a fixed (or a finite) voltage under discharge conditions. The disposed ferroelectric electrolyte material is predisposed to align itself in the direction of the electric field inside the battery, increasing the capacity of the battery. This description is not intended to be a complete description of, or to limit the scope of, the invention.

A rotary control input device for a capacitive touch screen is disclosed. The control device comprises a mounting element for retaining the device in place on the capacitive touch screen, a circuit frame rotatably mounted on the mounting element, the circuit frame including a rotation electrode, the rotation electrode being disposed to be adjacent and spaced apart from the capacitive touch screen when the device is retained in place. The device further includes a conductive body portion that is electrically connected to the rotation electrode, the circuit frame being rotatable about the mounting element, with respect to the capacitive touch screen, by a user via the conductive body portion.

The present disclosure relates to a glide for a mouse, which is made of a glass material and is disposed on an area of the bottom surface of the mouse in order to reduce friction between the bottom surface of the mouse and a support and optimize performance of the mouse when the mouse moves, a manufacturing method thereof, and a mouse having the same.

An electronic device is provided. The electronic device includes a first housing, a second housing slidably coupled to the first housing, a display of which at least a part is fixed to the second housing so that an information display region, which is a part of the electronic device visible on the outside, increases or decreases according to the sliding of the second housing, and a support member including a bendable structure, supporting at least a part of the display, and moving according to the sliding of the second housing, wherein, the information display region increases if the second housing slides in a first direction at a reference position at which the end of the second housing and the end of the first housing are substantially aligned, and the information display region decreases if the second housing slides in a second direction opposite to the first direction at the reference position.

An interface device includes an on-panel pad and a sensor controller. The interface device is used to perform an input to an electronic device in response to an operation by a user on a capacitive touch panel display of the electronic device. The on-panel pad causes sensor electrodes included in the touch panel display to generate a two-dimensional pattern of capacitance while the on-panel pad is on the touch panel display. When the two-dimensional pattern generated while the on-panel pad is on the touch panel display has been detected, the sensor controller generates or outputs data including operation information in response to a change in capacitance in a region that is associated with the two-dimensional pattern and that receives an operation of the on-panel pad, the operation information indicating an operation state of the on-panel pad.

The present invention relates to a method comprising providing one or more information carrier(s) with a dielectric and/or conductive pattern and a detection device having a capacitive touch screen and inducing an interaction between the information carrier and the touch screen, wherein the interaction is based on a difference in the dielectric coefficient and/or the conductivity of the pattern and generates a touch signal and wherein the interaction is induced by relative motion between the information carrier and the touch screen. The invention further relates to a system comprising an information carrier comprising a dielectric and/or conductive pattern which encodes information and a detection device having a touch screen; the detection device is able to decode the information upon interaction between the information carrier and the touch screen, wherein the interaction is caused by a difference in the dielectric coefficient and/or the conductivity of the pattern.

A position detection apparatus includes a sensor, and a controller that detects a position of a first position indicator and a position of a second position indicator through the sensor. The controller continues detecting the position of the first position indicator and halts detecting the position of the second position indicator after a state in which the positions of the first position indicator and the second position indicator are not detected changes to a state in which the position of the first position indicator is detected, and continues both detecting the position of the second position indicator and detecting the position of the first position indicator after the state in which the positions of the first position indicator and the second position indicator are not detected changes to a state in which the position of the second position indicator is detected.

Gloves are disclosed that are worn by a user while manipulating an electronic device equipped with a capacitive touchscreen. The gloves allow the wearer to manipulate the capacitive touchscreen device without removing the gloves, which is very advantageous in cold environments. The gloves enable full hand functionality, allowing the user to type, swipe, squeeze, pinch, and select on the capacitive touchscreen device as if they were using their bare hand. The gloves are made with a low resistant yarn knit or woven into a comfortable fabric that connects the body's bioelectricity through the glove to a capacitive touchscreen. Ordinary gloves will not work with a capacitive touchscreen. In the manufacturing process, the low resistant yarn is first twisted around at least one other yarn having a specific performance property, such as thermal resistance. This twisting assists in uniform knitting and improves the consistent resistivity of the finished glove.

A wireless input device is provided. The wireless input device includes a rechargeable wireless mouse, a wireless receiver and a charging pad. The charging pad includes a wireless power transmitting module and a charging control circuit. The charging control circuit is electrically connected to the wireless power transmitting module. The charging control circuit correspondingly activates the wireless power transmitting module to wirelessly output the electromagnetic power according to an activation signal provided by the wireless receiver. The charging pad receives the activation signal when the wireless receiver is connected to the charging pad. When the charging pad is not connected to the wireless receiver, the charging control circuit stops the wireless power transmitting module from wirelessly outputting the electromagnetic power. Accordingly, the charging pad of the present invention can avoid damage resulting from the abnormal charging so as to save power.