Abstract: An optical transmission device comprises a lithium niobate modulator and a laser. The lithium niobate modulator includes an input optical fiber configured to receive the initial optical signal, an optical splitting element configured to split the initial optical signal to generate two optical splitting signals, two optical splitting paths configured to transmit the two optical splitting signals, a radio-frequency signal channel disposed in parallel between the two optical splitting paths and configured to transmit a radio-frequency modulation signal, a ground channel disposed in parallel with and connected to the radio-frequency signal channel, an optical combining element configured to combine the two optical splitting signals to generate an optical modulation signal, and a output optical fiber configured to output the optical modulation signal.

Abstract: An optical transmission device includes a laser configured to generate an initial optical signal, radio-frequency signal channels configured to transmit radio-frequency modulation signal, a ground channel disposed in parallel with and connected to the radio-frequency signal channels, an input optical fiber receiving the initial optical signal, a front-end optical splitting element splitting the initial optical signal, and optical transmission units. Each optical transmission unit includes a rear-end optical splitting element connected to the front-end optical splitting element, two optical splitting paths, an optical combining element, and an output optical fiber configured to output the optical modulation signal.

Abstract: An optical transmission control device comprises a first/second light emitting sub-component, a first/second signal transmission line, a laser driving component, and a microcontroller. The first signal transmission line is connected to the first light emitting sub-component and configured to receive analog signal. The second signal transmission line is configured to receive digital signal. The laser driving component is connected to the first light emitting sub-component, the second light emitting sub-component, and the second signal transmission line. The microcontroller is connected to the laser driving component and configured to receive a data signal.

Abstract: An optical transmission control device comprises a light emitting sub-component, a first and a second signal transmission line, a laser driving component, a switching component, and a microcontroller. The laser driving component is connected to the light emitting sub-component. The switching component has two input terminals, an output terminal, and a controlling terminal, the two input terminals are connected to the first signal transmission line and the laser driving component, respectively, and the output terminal is connected to the light emitting sub-component. The microcontroller receives a data signal and executes: controlling the laser driving component to generate and output a driving signal to the light emitting sub-component according to the data signal; and controlling the switching component to output the analog signal according to the data signal, or controlling the laser driving component to process the digital signal and control the switching component to output the processed digital signal.

Abstract: A silicon optical chip with integrated antenna array comprises a wavelength division multiplexer, antenna array, photodiode, amplifier, and electro-optical modulator. The wavelength division multiplexer is configured to receive an optical signal with a plurality of wavelengths and to divide the optical signal into a plurality of wavelength division optical signals, or is configured to integrate a plurality of wavelength division optical signals into optical signals to output. The antenna array is configured to receive or transmit radio frequency signals. The amplifier is signally connected to the photodiode and the antenna and is configured to amplify the radio frequency signal received by the antenna. The electro-optical modulator is signally connected to the amplifier and the wavelength division multiplexer and is configured to transform the amplified radio frequency signal into wavelength division optical signals to input to the wavelength division multiplexer.

Abstract: An optical communication system includes an optical communication board, a cage disposed on the optical communication board, an optical module disposed in the cage in pluggable manner, a connector disposed on the optical communication board, and a shield disposed on the connector. The connector includes a plurality of pins electrically connected with an electrical port of the optical module. At least two of the pins are spatially separated from each other by the shield.

Abstract: A ferromagnetic free layer, a preparation method and an application thereof are provided, where the ferromagnetic layer includes a magnetic film alloy, and the magnetic film alloy includes multiple layers of laminated films. A thickness of each of the films decreases gradually from a first end to a second end of the magnetic film alloy, so as to break in-plane structural symmetry of the magnetic film alloy, and the films include heavy metal films and ferromagnetic metal films, where out-of-plane crystal symmetry of the magnetic film alloy is broken by means of component gradients. When a current is applied in plane of the magnetic film alloy, a spin orbit torque will be generated, which directly drives the magnetic moment of the magnetic film alloy to undergo a deterministic magnetization reversal.

Abstract: The present disclosure discloses an adjustable electric control equalization circuit used for cable television networks. The disclosed adjustable electric control equalization circuit includes one or more electric control equalization modules with adjustable slopes, a control module, and one or more compensation modules. The control module and the one or more electric control equalization modules are electrically connected to control slope change of the one or more electric control equalization modules. The control module and the one or more compensation modules are electrically connected to generate compensation signals based on the slope change of the one or more electric control equalization modules. An output of the one or more electric control equalization modules is electrically connected to an input of the one or more compensation modules to output a combined signal of a sum of signals outputted from the electric control equalization module and the compensation module.