HINGED DUAL DISPLAY COMPUTING DEVICE

Organization Name

Microsoft Technology Licensing, LLC

Inventor(s)

Idan Palmor of Ramat Gan (IL)

Gilad Pundak of Rehovot (IL)

Matan Slassi of Tel Aviv (IL)

Dmitry Birenberg of Rosh Ha Ayin (IL)

Nadav Linenberg of Even Yehuda (IL)

HINGED DUAL DISPLAY COMPUTING DEVICE - A simplified explanation of the abstract

This abstract first appeared for US patent application 18158372 titled 'HINGED DUAL DISPLAY COMPUTING DEVICE

Simplified Explanation

The abstract describes a computing device with two display devices connected by a hinge, each equipped with a capacitive touch sensor. The device includes a processor that can detect the angle of the hinge and perform calibration of the touch sensors if the angle is outside a predetermined range.

• The computing device has a processor, two display devices, and a hinge connecting them.
• Each display device has a capacitive touch sensor.
• The processor can detect the angle of the hinge at a given time.
• If the hinge angle is outside a predetermined range, the processor performs calibration of the touch sensors.
• Calibration involves adjusting the sensitivity or accuracy of the touch sensors.
• The calibration is done in real-time, meaning it happens while the device is in use.

Potential Applications

• This technology can be used in devices with foldable or dual-screen displays, such as smartphones, tablets, or laptops.
• It ensures accurate touch input even when the device is folded or the screens are at different angles.
• It can improve the user experience by preventing unintended touch inputs or improving touch response.

Problems Solved

• Foldable or dual-screen devices often face challenges in maintaining accurate touch input due to the hinge and varying screen angles.
• This technology solves the problem of inaccurate or unreliable touch input by calibrating the touch sensors based on the hinge angle.
• It ensures consistent and precise touch recognition regardless of the device's folding or screen positioning.

Benefits

• The calibration of touch sensors based on the hinge angle improves the overall touch experience for users.
• It eliminates the need for manual calibration or adjustment by automatically detecting and correcting any touch input issues.
• The real-time calibration ensures that the touch sensors are always optimized for accurate input, enhancing user satisfaction.

Original Abstract Submitted

A computing device is provided comprising a processor, a first display device having a first capacitive touch sensor, a second display device having a second capacitive touch sensor, and a hinge positioned between and coupled to each of the first display device and the second display device, the first display device and second display device being rotatable about the hinge and separated by a hinge angle. The processor is configured to detect the hinge angle at a first point in time, determine that the hinge angle at the first point in time is outside a first predetermined range, and upon at least determining that the hinge angle is outside the first predetermined range, perform run-time calibration of at least a plurality of rows of the capacitive touch sensor of the first display device and of the capacitive touch sensor of the second display device.