Abstract: A sterilization case includes a case body, a transparent plate, and at least one ultraviolet light source. The case body is adapted to contain an object. The transparent plate is disposed in the case body and has a supporting surface. When the transparent plate supports the object, a surface of the object leans against the supporting surface. The ultraviolet light source is disposed in the case body and adapted to provide ultraviolet light, and the ultraviolet light passes through an interior of the transparent plate and is transmitted toward the supporting surface to irradiate the surface of the object.

Abstract: A transmitter includes a signal input terminal, multiple loading units and a communication port. The signal input terminal receives a digital video-audio signal, which comprises multiple digital differential signals and multiple single-end/low frequency signals. The loading units respectively load the corresponding single-end/low frequency signals to the digital differential signals to obtain multiple differential mixed signals. A frequency of the digital differential signals is higher than a frequency of the corresponding single-end/low frequency signals. The communication port outputs the differential mixed signals to a receiver via a network cable.

Abstract: A digital signage system includes at least one set of differential transmission lines, a transmitter, at least one receiver, and at least one digital signage device. Each set of differential transmission lines includes four pairs of differential transmitting lines. The transmitter converts image and/or audio signal into first to third pairs of differential signals for output to the first to third pairs of differential transmission lines, and receives remote-captured video and/or audio signal via the fourth pair of differential transmission lines. The receiver receives the first to third pairs of differential signal from the first to third pairs of differential transmission lines, and extracts the video and/or audio signal to be displayed on the digital signage device. The receiver receives and processes a remote-captured video and/or audio signal from a remote capture device, and transmits such signal back to the transmitter via the fourth pair of differential transmission lines.

Abstract: A power measuring device includes an induced current meter and a power consumption indicator. The induced current meter measures and outputs a first current information of a power circuit or a second current information of a main power circuit. A voltage information of one of the branching power circuits is measured by the power consumption indicator, and the power consumption indicator receives the first or the second current information from the induced current meter. A first information is calculated according to the first current information and the voltage information, a second information is calculated according to the second current information and the voltage information, and both of the current information is displayed by the indicator. The first current information and the voltage information are obtained by the induced current meter and the indicator respectively and synchronously.

Abstract: An apparatus in a video signal transmission system for measuring cable length and compensating for cable loss is described. A number of pilot signals of different frequencies are compressed into one of the three color signals during the vertical sync periods in a time-division manner. The vertical and horizontal sync signals are compressed into the other two color signals. The video signal is transmitted over a cable having at least three pairs of wires, each color signal being transmitted by one pair of wires. A pilot signal converting circuit obtains the levels of the pilot signals transmitted by the cable. A compensation control circuit averages the levels of the multiple pilot signals of different frequencies over a number of vertical sync periods, and generates compensation control signals based on the average level of the pilot signals. The compensation control signals are used to perform video signal compensation.

Abstract: An apparatus for transmitting a video signal includes a signal detector, a multiplexer and a transmitter. The signal detector detects the video signal from the source to determine whether the horizontal sync signal and the vertical sync signal of the video signal are independent or composite. The multiplexer generates a composite sync signal by combining the horizontal sync signal and the vertical sync signal with reference to timing characteristics of the horizontal sync signal and the vertical sync signal while the horizontal sync signal and the vertical sync signal are detected as independent signals, and passes the composite sync signal while the horizontal sync signal and the vertical sync signal are detected as the composite sync signal. The transmitter transmits the video signal with the composite sync signal to the destination via a media. A method for transmitting the video signal is also disclosed.

Abstract: A digital signage system includes at least one set of differential transmission lines, a transmitter, at least one receiver, and at least one digital signage device. Each set of differential transmission lines includes four pairs of differential transmitting lines. The transmitter converts image and/or audio signal into first to third pairs of differential signals for output to the first to third pairs of differential transmission lines, and receives remote-captured video and/or audio signal via the fourth pair of differential transmission lines. The receiver receives the first to third pairs of differential signal from the first to third pairs of differential transmission lines, and extracts the video and/or audio signal to be displayed on the digital signage device. The receiver receives and processes a remote-captured video and/or audio signal from a remote capture device, and transmits such signal back to the transmitter via the fourth pair of differential transmission lines.

Abstract: A dongle module including a digital video differential signal input terminal, a keyboard control signal I/O terminal, a mouse control signal I/O terminal, a processing unit, a transforming unit, a synthesizer unit and a signal I/O terminal is provided. The digital video differential input terminal receives a digital video differential signal, which includes multiple differential data signals, a differential clock signal and multiple low-frequency signals. The processing unit processes the low-frequency signal, a keyboard control signal and a mouse control signal to obtain a digital hybrid data. The transforming unit transforms the digital hybrid data into a differential hybrid signal. The synthesizer unit receives and composes the differential clock signal and the differential hybrid signal into a differential synthesized signal. The signal I/O terminal receives and outputs the differential data signals and the differential synthesized signal.

Abstract: A power measuring device includes an induced current meter and a power consumption indicator. The induced current meter measures and outputs a first current information of a power circuit or a second current information of a main power circuit. A voltage information of one of the branching power circuits is measured by the power consumption indicator, and the power consumption indicator receives the first or the second current information from the induced current meter. A first information is calculated according to the first current information and the voltage information, a second information is calculated according to the second current information and the voltage information, and both of the current information is displayed by the indicator. The first current information and the voltage information are obtained by the induced current meter and the indicator respectively and synchronously.

Abstract: A transmitter includes a signal input terminal, multiple loading units and a communication port. The signal input terminal receives a digital video-audio signal, which comprises multiple digital differential signals and multiple single-end/low frequency signals. The loading units respectively load the corresponding single-end/low frequency signals to the digital differential signals to obtain multiple differential mixed signals. A frequency of the digital differential signals is higher than a frequency of the corresponding single-end/low frequency signals. The communication port outputs the differential mixed signals to a receiver via a network cable.

Abstract: RF signal amplifiers are provided that include an RF input port, a first RF output port, a second RF output port and a power input for receiving electrical power. These amplifiers include a first communication path between the RF input port and the first RF output port that has a power amplifier that amplifies signals that are transmitted from the RF input port to the first RF output port. These amplifiers also have a second non-interruptible communication path between the RF input port and the second RF output port. The amplifiers further include a selective termination circuit that is configured to pass signals between the RF input port and the first RF output port over the first communication path when electrical power is received at the power input and to terminate the first communication path to a matched termination when an electrical power feed to the power input is interrupted.

Abstract: A communicating system suitable for a repeater and communicating method thereof are described. The communicating system comprises a receiving unit, a delay module, a transmitting unit and a control unit. The receiving unit transmits a first signal based on a KB/MS input signal. The delay module is coupled to the receiving unit and delays the first signal from the receiving unit in order to generate a second signal. The second signal has a first phase difference in comparison with the first signal. The transmitting unit is coupled to the delay module and the control unit. The transmitting unit transmits a KB/MS output signal based on the second signal while the control unit controls the transmitting unit via a control signal.

Abstract: An apparatus in a video signal transmission system for measuring cable length and compensating for cable loss is described. A number of pilot signals of different frequencies are compressed into one of the three color signals during the vertical sync periods in a time-division manner. The vertical and horizontal sync signals are compressed into the other two color signals. The video signal is transmitted over a cable having at least three pairs of wires, each color signal being transmitted by one pair of wires. A pilot signal converting circuit obtains the levels of the pilot signals transmitted by the cable. A compensation control circuit averages the levels of the multiple pilot signals of different frequencies over a number of vertical sync periods, and generates compensation control signals based on the average level of the pilot signals. The compensation control signals are used to perform video signal compensation.

Abstract: A dongle module including a digital video differential signal input terminal, a keyboard control signal I/O terminal, a mouse control signal I/O terminal, a processing unit, a transforming unit, a synthesizer unit and a signal I/O terminal is provided. The digital video differential input terminal receives a digital video differential signal, which includes multiple differential data signals, a differential clock signal and multiple low-frequency signals. The processing unit processes the low-frequency signal, a keyboard control signal and a mouse control signal to obtain a digital hybrid data. The transforming unit transforms the digital hybrid data into a differential hybrid signal. The synthesizer unit receives and composes the differential clock signal and the differential hybrid signal into a differential synthesized signal. The signal I/O terminal receives and outputs the differential data signals and the differential synthesized signal.

Abstract: A KVM (keyboard, video, mouse) switch system includes a console module and multiple computer modules connected to the console module in series. Each computer module is connected to its upstream module by two Category 5 cables. Video signals are transmitted between the modules as digital video signals in the DVI format. A computer is connected to each computer module, and a user console is connected to the console module for selectively control one of the computers. The console module controls the computer modules so that one of them is in a connect mode and transmits video and keyboard/mouse signals between its attached computer and its upstream module, and all other computer modules are in a connect mode and pass video and keyboard/mouse signals between their upstream and downstream modules. By this configuration, digital video signals can be transmitted from computers at a large distance away from the user console.

Abstract: An apparatus for transmitting a video signal includes a signal detector, a multiplexer and a transmitter. The signal detector detects the video signal from the source to determine whether the horizontal sync signal and the vertical sync signal of the video signal are independent or composite. The multiplexer generates a composite sync signal by combining the horizontal sync signal and the vertical sync signal with reference to timing characteristics of the horizontal sync signal and the vertical sync signal while the horizontal sync signal and the vertical sync signal are detected as independent signals, and bypasses the composite sync signal while the horizontal sync signal and the vertical sync signal are detected as the composite sync signal. The transmitter transmits the video signal with the composite sync signal to the destination via a media. A method for transmitting the video signal is also disclosed.

Abstract: An apparatus for transmitting a video signal has a receiver, a processor and a multiplexer. The receiver receives the video signal and separates a composite sync signal from the video signal. The processor generates a vertical sync signal and a selecting signal with reference to timing characteristics of the composite sync signal. The multiplexer generates a horizontal sync signal by selectively outputting the composite sync signal when the selecting signal is at a first logic level and outputting a reference signal when the selecting signal is at a second logic level. A method for transmitting a video signal is also disclosed.

Abstract: RF signal amplifiers are provided that include an RF input port, a first RF output port, a second RF output port and a power input for receiving electrical power. These amplifiers include a first communication path between the RF input port and the first RF output port that has a power amplifier that amplifies signals that are transmitted from the RF input port to the first RF output port. These amplifiers also have a second non-interruptible communication path between the RF input port and the second RF output port. The amplifiers further include a selective termination circuit that is configured to pass signals between the RF input port and the first RF output port over the first communication path when electrical power is received at the power input and to terminate the first communication path to a matched termination when an electrical power feed to the power input is interrupted.

Abstract: The compensation circuit comprises an oscillator, a first variable delay line, a second variable delay line, a phase detector and a controller. The oscillator generates an oscillation signal to input into a first transmission line and a second transmission line. The first variable delay line receives the oscillation signal transmitted through the first transmission line. The second variable delay line receives the oscillation signal transmitted through the second transmission line. The phase detector compares the phases of the two oscillation signals from the variable delay lines to generate a phase difference signal. The controller adjusts the variable delay lines to compensate for asynchronous signal transmission of the transmission lines according to the phase difference signal.

Abstract: The first device receives the video signal to encode a horizontal sync signal and a vertical sync signal of the video signal into a composite sync signal, compresses the composite sync signal into one of three color signals of the video signal, and transmits the three color signals. The second device is in communication with the first device, decompresses the composite sync signal from the compressed color signal, and decodes the horizontal sync signal and the vertical sync signal from the composite sync signal. A method for transmitting video signals and a KVM device are also disclosed.