Self-Powered Squeezed-Light Temperature Regulation Device

    公开(公告)号:US20200063930A1

    公开(公告)日:2020-02-27

    申请号:US16668799

    申请日:2019-10-30

    Abstract: Concepts and technologies for a self-powered squeezed-light temperature regulation device are disclosed according various embodiments. The device can include an elastic anchor sheet, a thermostat regulator, a motion power transducer, and a squeezed-light cooling unit. The motion power transducer can be in electrical communication with the thermostat regulator. The squeezed-light cooling unit can be powered by the motion power transducer. The motion power transducer can include a flexible ionic diode that can be located between a first borophene sheet and a second borophene sheet, and a capacitor charge system that can be electrically connected to a collection wire that can direct an electric charge generated by the flexible ionic diode to the capacitor charge system. The squeezed-light cooling unit can include a microwave photon circuit that can create squeezed-light microwave photons and a squeezed-light cooling drum that can be in photonic communication with the microwave photon circuit.

    Self-powered squeezed-light temperature regulation device

    公开(公告)号:US10830403B2

    公开(公告)日:2020-11-10

    申请号:US16668799

    申请日:2019-10-30

    Abstract: Concepts and technologies for a self-powered squeezed-light temperature regulation device are disclosed according various embodiments. The device can include an elastic anchor sheet, a thermostat regulator, a motion power transducer, and a squeezed-light cooling unit. The motion power transducer can be in electrical communication with the thermostat regulator. The squeezed-light cooling unit can be powered by the motion power transducer. The motion power transducer can include a flexible ionic diode that can be located between a first borophene sheet and a second borophene sheet, and a capacitor charge system that can be electrically connected to a collection wire that can direct an electric charge generated by the flexible ionic diode to the capacitor charge system. The squeezed-light cooling unit can include a microwave photon circuit that can create squeezed-light microwave photons and a squeezed-light cooling drum that can be in photonic communication with the microwave photon circuit.

    NETWORKED PREMISES SECURITY
    4.
    发明申请

    公开(公告)号:US20190197848A1

    公开(公告)日:2019-06-27

    申请号:US15849981

    申请日:2017-12-21

    CPC classification number: G08B13/19613 G08B13/19656 G08B29/188

    Abstract: A premises security system can leverage cloud-based analytics and captured information about a visitor at the premises to provide security to the premises. The system can include a sensor, an actuator, and a local processing device. The sensor can capture information about a visitor to the premises without requiring the visitor to provide the information. The actuator can perform an action with respect to the premises. The local processing device can communicatively couple to a cloud-based analytics system that can analyze the information with respect to one or more databases that include criminal history information, and return data representing a risk rating for the visitor or a command to perform the action. The local processing device can, in response to receiving the data, output a command to the actuator to perform the action.

    Self-powered squeezed-light temperature regulation device

    公开(公告)号:US10480729B2

    公开(公告)日:2019-11-19

    申请号:US15609628

    申请日:2017-05-31

    Abstract: Concepts and technologies for a self-powered squeezed-light temperature regulation device are disclosed according various embodiments. The device can include an elastic anchor sheet, a thermostat regulator, a motion power transducer, and a squeezed-light cooling unit. The motion power transducer can be in electrical communication with the thermostat regulator. The squeezed-light cooling unit can be powered by the motion power transducer. The motion power transducer can include a flexible ionic diode that can be located between a first borophene sheet and a second borophene sheet, and a capacitor charge system that can be electrically connected to a collection wire that can direct an electric charge generated by the flexible ionic diode to the capacitor charge system. The squeezed-light cooling unit can include a microwave photon circuit that can create squeezed-light microwave photons and a squeezed-light cooling drum that can be in photonic communication with the microwave photon circuit.

    Self-Powered Squeezed-Light Temperature Regulation Device

    公开(公告)号:US20180347770A1

    公开(公告)日:2018-12-06

    申请号:US15609628

    申请日:2017-05-31

    CPC classification number: F21S9/022 F21Y2105/00 G02F1/35 H02N1/08

    Abstract: Concepts and technologies for a self-powered squeezed-light temperature regulation device are disclosed according various embodiments. The device can include an elastic anchor sheet, a thermostat regulator, a motion power transducer, and a squeezed-light cooling unit. The motion power transducer can be in electrical communication with the thermostat regulator. The squeezed-light cooling unit can be powered by the motion power transducer. The motion power transducer can include a flexible ionic diode that can be located between a first borophene sheet and a second borophene sheet, and a capacitor charge system that can be electrically connected to a collection wire that can direct an electric charge generated by the flexible ionic diode to the capacitor charge system. The squeezed-light cooling unit can include a microwave photon circuit that can create squeezed-light microwave photons and a squeezed-light cooling drum that can be in photonic communication with the microwave photon circuit.

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