Patent application number | Description | Published |
20120092028 | CAPACITIVE TOUCH SENSING DEVICE BY DETECTING INDUCED ELECTRIC FIELD - A capacitive touch sensing device by detecting induced electric field includes a differential amplifier, a resistor and a signal judgment circuit. The differential amplifier is electrically connected to a touch sensor. The resistor is electrically connected to a first input end and a second input end of the differential amplifier. The signal judgment circuit is electrically connected to an output end of the differential amplifier. As the touch sensor receives an induced electric field signal, the induced electric field signal is amplified by the differential amplifier and the signal judgment circuit determines whether the amplified induced electric field signal is a touch input. | 04-19-2012 |
20120105026 | SAFE ELECTRIC POWER REGULATING CIRCUIT - A safe electric power regulating circuit is connected between a power supply and a voltage boost/buck circuit to regulate the output voltage by the power supply to have a target voltage through the voltage boost/buck circuit. A switching device includes a switch unit, a first diode, and a first capacitor. The switch unit includes a first end, a second end, and a third end. The first end is connected to the power supply, and the second end is connected to the voltage boost/buck circuit. The switch unit is controlled to connect the third end to the first end or the second end. The first diode has an anode connected to the first end of the switch unit. The first capacitor has one end connected to the third end of the switch unit and the other end connected to circuit ground. | 05-03-2012 |
20120139462 | MOTOR ENERGY RECYCLING DEVICE - A motor energy recycling device is connected to a motor, a voltage regulating power capacitor, and a switch unit, for storing energy released by the motor. The motor energy recycling device include a switching device having first to third ends for being switched to connect the third end with the first end or second end; a first diode unit; a first capacitor connected to the motor and the first diode unit for using energy released by the motor to charge the first capacitor; a first inductor; a second capacitor; a second diode unit; and a second inductor connected between the second end and the second diode and between the voltage regulating power capacitor and the second capacitor for charging the voltage regulating power capacitor via the second inductor to accomplish an energy recycling. | 06-07-2012 |
20120194204 | MINUTE IMPEDANCE VARIATION DETECTION DEVICE - A minute impedance variation detection device includes a differential amplifier, first and second impedances, a sensing electrode and a signal source. The differential amplifier has first and second input ends and an output end. The first impedance is connected to the first input end. The second impedance is connected to the second input end. The sensing electrode is connected to the second input end for sensing a touch and thus receiving a touch signal. The signal source is connected to the first impedance and the second impedance for providing an input signal inputted to the first impedance and the second impedance. The first impedance has an impedance value close to that of the second impedance. The differential amplifier is based on the input signal and the touch signal to differentially amplify the touch signal. | 08-02-2012 |
Patent application number | Description | Published |
20160055363 | MOBILE DEVICE WITH HIGH-ACCURACY FINGERPRINT IDENTIFICATION - A mobile device with high-accuracy fingerprint identification includes a display panel, a transparent protection layer, and a fingerprint identification device. The transparent protection layer has one surface attached to the display panel. The fingerprint identification device is attached to the surface of the transparent protection layer for detecting a user fingerprint. The fingerprint identification device includes a flexible substrate, a fingerprint sensor, and a detector. The fingerprint sensor is disposed on the flexible substrate for sensing the user fingerprint to generate a fingerprint image. The detector is disposed on the flexible substrate and electrically connected to the fingerprint sensor for distinguishing a minute parasitic capacitance variation generated by the fingerprint sensor. A part of the flexible substrate arranged with the fingerprint sensor is closely attached to the transparent protection layer, and a part of the flexible substrate arranged with the detector is separately attached to the transparent protection layer. | 02-25-2016 |
20160055364 | COMBINATIONAL SENSING TYPE FINGERPRINT IDENTIFICATION DEVICE AND METHOD - A combinational sensing type fingerprint identification device includes plural sensing electrodes; plural sensing electrode switches; plural first sensed signal connection lines, and a controller. Each sensing electrode switch corresponds to one sensing electrode and has a first terminal, a second terminal connected to a common signal, a third terminal connected to a corresponding sensing electrode, and a control terminal Each first sensed signal connection line is connected to the first terminals of the sensing electrode switches in one column. The controller is connected to the control terminal of each sensing electrode switch for controlling whether the sensing electrode switches are electrically connected to the common signal or corresponding first sensed signal connection lines. The controller configures the control terminals of the sensing electrode switches for allowing a part of the sensing electrodes to be electrically connected to the corresponding first sensed signal connection lines. | 02-25-2016 |
20160098140 | DISPLAY DEVICE WITH FINGERPRINT IDENTIFICATION AND TOUCH DETECTION - A display device with fingerprint identification and touch detection includes a first substrate, a second substrate parallel to the first substrate, a display material layer configured between the first substrate and the second substrate, and a thin film transistor and sensing electrode layer. The thin film transistor and sensing electrode layer is disposed at one surface of the first substrate facing the display material layer. The thin film transistor and sensing electrode layer has a plurality of sensing electrodes for performing fingerprint identification sensing and touch sensing at the same time. | 04-07-2016 |