Abstract: The present disclosure proposes a lens cover and an LED lighting device including the same, which may minimize occurrence of a dark portion even while expanding a light distribution area of an LED light source. The proposed lens cover includes a plurality of first light distribution lenses and a second light distribution lenses having different shapes from each other, and the first light distribution lens and the second light distribution lens are mixedly arranged at positions corresponding to the plurality of LED light sources.
Abstract: Disclosed is a method for manufacturing a flexible printed circuit board and a flexible printed circuit board manufactured thereby, which minimizes a dielectric loss due to a high frequency signal and preventing a loss of the high frequency signal. The disclosed method for manufacturing the flexible printed circuit board according to an embodiment of the present disclosure includes preparing a base sheet; preparing a bonding sheet having a melting temperature lower than a melting temperature of the base sheet; forming a laminate by stacking the base sheet and the bonding sheet; and bonding by heating and pressurizing the laminate.
Abstract: Provided are a core for a current transformer and a manufacturing method for the same in which high permittivity is formed in order to optimize electric power acquisition efficiency by magnetic induction at a low current. The provided method of manufacturing a core through the steps of winding a metal ribbon, heat treating a core base, impregnating, cutting and polishing, wherein after the core base which is inserted into a mold is heat treated to implement a shape, the core base separated from the mold is heat treated to manufacture the core for the current transformer having high permittivity.
Type:
Application
Filed:
October 24, 2017
Publication date:
October 22, 2020
Applicant:
Amosense Co., Ltd
Inventors:
Won-San NA, Jin-Pyo PARK, Young-Joon KIM, Jae-Jun KO, Su-Hyeoung TAK
Abstract: An embodiment of the present disclosure provides an electromagnetic inductive power supply apparatus comprising: an upper housing disposed on the upper side of a lower housing and having an elevating guide; a base disposed above the upper housing; a pressing support disposed on the lower side of the base part and having a guide bar which is coupled to the elevating guide so as to move up and down while being guided by the elevating guide, and one end of which is fastened to the lower housing; a lower core installed in the lower housing; and an upper core installed in the upper housing and forming a magnetic circuit inner space through which a line passes when the upper core is connected to the lower core.
Type:
Application
Filed:
September 12, 2018
Publication date:
October 22, 2020
Applicant:
Amosense Co., Ltd
Inventors:
Sang Dong JEONG, Jin-Pyo PARK, Won-San NA
Abstract: Provided are a large area type complex magnetic field shielding sheet and a wireless power transfer module including the same. A large area type complex magnetic field shielding sheet wherein at least one of an overall width, an overall length, and a diameter is 100 mm or more may include a main shielding layer arranged so that a plurality of ferrite block bodies each having a predetermined area are adjacent to each other, and an auxiliary shielding layer formed of at least one magnetic sheet having a predetermined area and laminated on the main shielding layer through an adhesive layer, wherein a boundary region between two ferrite block bodies disposed to be adjacent each other is disposed to be located in an inner region of the magnetic sheet and thus a magnetic field which leaks into a gap between the two ferrite block bodies is blocked by the magnetic sheet.
Abstract: The proposed technology relates to a window cover for a sensor package, in which a partition wall is provided between a light emitting device and a light receiving device to improve sensing accuracy and reliability of the sensor package. The proposed window cover includes: a base disposed in a direction in which light is emitted from a light source; a light emitting device cover extending from a first surface of the base and disposed at an upper portion of a light emitting device of the sensor package; and a light receiving device cover having the first surface of the base as a bottom surface thereof, and disposed at an upper portion of a light receiving device of the sensor package, wherein an outer circumference of the light emitting device cover extends in a direction opposite to the direction in which the light is emitted to form a partition wall.
Abstract: The present invention relates to a power control apparatus and method for controlling alternating current power at a ratio set according to the concentration and the water quantity of wastewater, and converting the controlled alternating current power into direct current power so as to treat wastewater. A power control apparatus comprises: a power supply unit for outputting alternating current power; a control unit for setting a fixed cycle and a varying cycle on the basis of at least one of the concentration and the water quantity of wastewater so as to output a control signal; a switch unit for controlling the alternating current power output from the power supply unit in the fixed cycle and the varying cycle on the basis of the control signal; and a rectification unit for rectifying the alternating current power controlled by the switch unit.
Type:
Application
Filed:
September 18, 2018
Publication date:
August 6, 2020
Applicant:
AMOSENSE CO.,LTD
Inventors:
Won-San NA, Bo Hyeon HAN, Jung-Hyun CHOI, Jin LEE
Abstract: A transportation data logging device including one or more of: a sensing unit configured to sense at least one of internal state information of the accommodating body and external event information of the accommodating body; a memory unit configured to store information acquired through the sensing unit; a communication unit configured to transmit the information stored in the memory unit to an external electric device; a control unit configured to control operation of the sensing unit, the memory unit and the communication unit; and a power supply unit configured to supply power to the control unit.
Abstract: A wireless power transmission device for a vehicle is provided. A wireless power transmission device for a vehicle comprises: a magnetic field shielding sheet; at least one wireless power transmission antenna directly attached to one surface of the magnetic field shielding sheet; and at least one wireless communication antenna arranged at the same plane as the wireless power transmission antenna.
Abstract: A magnetic shielding sheet is provided. The magnetic shielding sheet according to an embodiment of the present invention comprises: a plate-shaped magnetic sheet made of a magnetic material containing a metal component; and a cover member for covering the entire surface of the magnetic sheet so as to prevent the surface of the magnetic sheet from being exposed to the outside.
Abstract: The present disclosure relates to an apparatus for sensing touch pressure. The apparatus for sensing touch pressure, according to one mode of the present disclosure, includes: a first substrate provided with a first electrode unit formed thereon; a second substrate provided with a second electrode unit formed thereon; and a porous membrane member provided between the first substrate and the second substrate and deformed or restored according to touch pressure applied to the first substrate.
Abstract: Disclosed is a magnetic field shielding unit. The magnetic field shielding sheet includes a magnetic field shielding sheet and a metallic protecting member attached to a surface of the magnetic field shielding sheet via an adhesive layer for protecting the magnetic field shielding sheet as well as to for radiating heat generated from a heat source.
Abstract: A manhole cover and a manhole management system are provided. A manhole cover according to one embodiment includes: a cover body; an electronic unit including at least one sensing unit configured to sense information inside a manhole and at least one communication module configured to transmit information which is obtained through the sensing unit to the outside, and embedded in the cover body; a battery providing driving power to the electronic unit; and a wireless power reception antenna embedded in the cover body to receive wireless power supplied from the outside and provide the wireless power to the battery.
Abstract: Provided are a combo antenna unit, and a wireless power receiving module including the same. The combo antenna unit includes a wireless power transmission antenna and at least one additional antenna using a different frequency band from the wireless power transmission antenna. The wireless power transmission antenna includes a radiator formed of a loop-shape-wound flat coil. According to the present invention, it is possible to reduce resistance so as to decrease heat generation and increase charging efficiency, and minimize the amount of circuit board used, thereby reducing overall production costs.
Abstract: An embodiment of the present invention provides a window cover for a sensor package and a sensor package including the same, the window cover comprising: a body; an element receiving unit disposed in the body so as to receive a light emitting element and a light receiving element of the sensor package; and a radiating unit disposed at a position corresponding to the light emitting element in the element receiving unit so as to change light generated from the light emitting element to a predetermined beam range and radiate the same.
Type:
Application
Filed:
June 8, 2018
Publication date:
April 30, 2020
Applicant:
AMOSENSE CO., LTD.
Inventors:
Yeun Ho BANG, In Tae YEO, Seung Gon PARK
Abstract: An LED module that includes a light source unit which includes one or more LEDs mounted on one surface of a circuit board, a heat sink which includes a base substrate configured to support the light source unit and radiate heat generated from the light source unit and an insulating heat radiation coating layer applied on an outer surface of the base substrate, a protective cover which includes a convex portion formed in a region corresponding to the LED and is coupled to one surface of the heat sink to protect the light source unit from an external environment, an air flow space formed between the light source unit and the protective cover and provides a space through which air can flows, and one or more air vents which perform a function as a passage through which the air is moved to the outside from the air flow space and balance internal pressure of the air flow space with pressure of outside air.
Abstract: A wireless power transmission module operable in magnetic resonance method including a radiator unit for wireless power transmission, and a magnetic field shielding unit, disposed on a side of the radiator unit, for preventing disturbance of transmission and reception of the radiator due to the conductor and improving radiator characteristics, by providing a magnetic field shielding layer which includes shredded Fe-based alloy fragments and a dielectric filling at least a part of gaps between shredded Fe-based alloy fragments and some adjacent ones of the fragments to reduce eddy currents, to improve flexibility of and reduce eddy currents in the magnetic field shielding unit. When a wireless power signal is transmitted and received in a magnetic resonance method, the influence of a magnetic field on components of s a mobile terminal or a user can be blocked. Interference with the transmission/reception of the power signal due to the conductor can be minimized or prevented.
Abstract: The present disclosure proposes a lens cover and an LED lighting device including the same, which may minimize occurrence of a dark portion even while expanding a light distribution area of an LED light source. The proposed lens cover includes a plurality of first light distribution lenses and a second light distribution lenses having different shapes from each other, and the first light distribution lens and the second light distribution lens are mixedly arranged at positions corresponding to the plurality of LED light sources.
Abstract: Provided are a shielding unit for wireless charging and a wireless power transfer module including the same. The shielding unit for wireless charging includes a first sheet for a wireless power transfer antenna, and a second sheet for another antenna operating in a different frequency band from that of the wireless power transfer antenna. The first sheet is provided in a first region which is disposed on a side of a virtual boundary line, and the second sheet is provided in a second region which is disposed on the opposite side of the first region.
Abstract: Provided are an attractor for PMA wireless charging type wireless power reception module and a manufacturing method thereof, and a wireless power reception module having the same. The attractor for PMA wireless charging type wireless power reception module according to an embodiment of the present invention comprises: a wireless power reception module; and a thin magnetic piece formed of a magnetic material having a saturation magnetic flux density of 0.5 tesla or more such that a change in the voltage value of a hall sensor of a certain value or more can be detected in both an aligned state when a wireless power transmission module is aligned and a non-aligned state when the wireless power reception module is not in line with the wireless power transmission module within a non-alignment region having a certain area including the aligned state.
Type:
Grant
Filed:
November 23, 2015
Date of Patent:
February 25, 2020
Assignee:
AMOSENSE CO., LTD.
Inventors:
Chun Gul Lee, Kil Jae Jang, Dong Hoon Lee, Min Sik Jang, Ki Chul Kim, Jong Ho Park