Kuan-Han
Kuan-Han Chen, Hsin-Chuang TW
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20100113232 | Electrically operated rehabilitation and exercise bed for simultaneous traction of upper limbs and lower limbs - A rehabilitation and exercise bed includes: a bed having a driving motor provided under the bed; a rotary traction device having a right and a left pedal respectively secured to a pair of crank arms rotatably mounted on opposite ends of an axial shaft of the driving motor for rehabilitating or exercising a patient's feet in a rotary movement like pedaling a bicycle; a lower-limb traction device connected to a front portion of the rotary traction device for reciprocatively rehabilitating or exercising the patient's lower limbs; and an upper-limb traction device connected to a rear portion of the rotary traction device for reciprocatively exercising the patient's upper limbs. | 05-06-2010 |
Kuan-Han Chen, New Taipei City TW
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20130265891 | Transmission Interface and Method for Determining Transmission Signal - A transmission interface coupled to a test device includes a detection module for receiving a test signal of the test device, a processor for generating a control signal, a multiplexer coupled to the detection module and the processor for generating an output signal according to the test signal and the control signal, and an output module for outputting the output signal to a display device so as to process an functional operation corresponding to the test signal. The functional operation includes determination of a maximum operational frequency signal, a clock signal, a transmission data or an operational mode of the test device. | 10-10-2013 |
20140009179 | TESTING DEVICE - A testing device including a first connector, a control unit, a first detecting circuit and a memory controller is provided. The first connector is electrically connected to a first bus. The control unit generates a plurality of first control signals according to a first enable signal from the first connector. The first detecting circuit is electrically connected to a plurality of first transmission lines in the first bus, and sequentially conducts the first transmission lines to a ground according to the first control signals. The memory controller detects states of the signals transmitted by the first transmission lines and determines whether to generate a first abnormal indication signal according to a detecting result. The control unit controls a plurality of indication lights according to the first abnormal indication signal. | 01-09-2014 |
20140164858 | TESTING APPARATUS AND TESTING METHOD OF ELECTRONIC DEVICE - A testing apparatus and a testing method of an electronic device are provided. The testing apparatus includes at least two device transfer plates and a testing circuit. The device transfer plates are electrically and respectively connected to corresponding electronic devices and at least two sockets corresponding to the electronic devices. The testing circuit is electrically connected to the device transfer plates respectively through at least two sets of serial signal wire pairs. According to types of the electronic devices, the testing circuit provides a serial signal to one of the device transfer plates through the corresponding serial signal wire pair and receives a response from another one of the device transfer plates through the corresponding serial signal wire pair, so as to test whether an open circuit is occurred to a bus between the electronic devices respectively corresponding to the device transfer plates. | 06-12-2014 |
Kuan-Han Chen, Taipei City TW
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20140068923 | ROTARY POSITIONING APPARATUS WITH DOME CARRIER, AUTOMATIC PICK-AND-PLACE SYSTEM, AND OPERATING METHOD THEREOF - A rotary positioning apparatus includes a fixing base, a rotation mechanism, two driving modules and a carrier. The rotation mechanism is disposed on the fixing base, the first driving module is disposed on the fixing base and coupled to the rotation mechanism to drive the rotation mechanism rotating around a first rotation axis relatively to the fixing base. The carrier has plural accommodating slots on a circular-arc surface thereof and is pivoted to the rotation mechanism through a second rotation axis passing through the curvature center of the circular-arc surface and perpendicular to the first rotation axis, on which the curvature center is located. The second driving module is disposed on the rotation mechanism and coupled to the carrier to drive the carrier rotating around the second rotation axis relatively to the rotation mechanism. An automatic pick-and-place system and an operation method using the rotary positioning apparatus are also provided. | 03-13-2014 |
Kuan-Han Chen, Hsinchu City TW
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20130169617 | CONTROL DEVICE AND CONTROL METHOD FOR DISPLAY PANEL - A charge-sharing control method for a display panel includes the following steps. Firstly, a first switch set is turned on, so that a first voltage driving unit provides a first positive driving voltage to a first data line and a second voltage driving unit provides a first negative driving voltage to a second data line. Then, a second switch set is turned on, so that a first charge storage unit has a positive common voltage and a second charge storage unit has a negative common voltage. Then, a third switch set is turned on, so that the first data line and the second data line are electrically connected with a ground voltage. After a polarity inversion, the second data line is charged according to a first comparison result and the first data line is discharged according to a second comparison result. | 07-04-2013 |
20140028396 | UNITY-GAIN BUFFER WITH ENHANCED SLEW RATE - A unity-gain buffer includes an operational amplifier, a control stage, and an auxiliary output stage. The operational amplifier includes a non-inverting input terminal, an output terminal, and an inverting input terminal. The control stage is connected between the non-inverting input terminal and the output terminal of the unity-gain buffer. The auxiliary output stage is connected between the control stage and the output terminal of the unity-gain buffer. According to an input voltage at the input terminal of the unity-gain buffer, the control stage generates a first driving current, the auxiliary output stage generates a second driving current, and the operational amplifier generates a third driving current, so that an overall driving current outputted from the output terminal of the unity-gain buffer is equal to the sum of the first driving current, the second driving current and the third driving current. | 01-30-2014 |