An apparatus includes a housing, a circuit board, a sealant and a baseplate. The housing may have a shelf and a flange along an open side. The circuit board may be (i) disposed on the shelf of the housing and inside the flange of the housing and (ii) secured to the housing. The sealant may be dispensed (i) through the open side of the housing and (ii) along a gap between the flange and the circuit board. The baseplate may be compressed to the housing thereby causing the sealant to flow between (i) the baseplate and the circuit board and (ii) the baseplate and the flange.

In a structure for mounting a shielded module on a printed wiring board, the shielded module includes a mounting substrate, a shielding layer, and a solder layer. Electronic components are mounted on a main surface of the mounting substrate. The shielding layer is provided in an area from above the mounting substrate to a side surface of the mounting substrate and covers the electronic components. The solder layer is provided on a side surface of the shielding layer. The shielding layer is connected to a surface electrode located on the printed wiring board via the solder layer. The surface of the solder layer is depressed.

An electromagnetic interference suppressor is disposed so as to be effective for noise in a wide frequency band including a high frequency band. Provided is an electronic device including an electromagnetic interference suppressor; an interfering object configured to generate an electromagnetic wave; an interfered object to be affected by the electromagnetic wave; a substrate configured to mount thereon the interfering object and the interfered object; and the electromagnetic interference suppressor disposed in parallel to the substrate, and is disposed along only one of the interfering object and the interfered object. When an end portion of the interfering object opposed to the interfered object is defined as a first end portion, and an end portion of the interfered object opposed to the interfering object is defined as a second end portion, one end portion of the electromagnetic interference suppressor is disposed between the first end portion and the second end portion.

An apparatus includes a housing, a circuit board, a sealant and a baseplate. The housing may have a shelf and a flange along an open side. The circuit board may be (i) disposed on the shelf of the housing and inside the flange of the housing and (ii) secured to the housing. The sealant may be dispensed (i) through the open side of the housing and (ii) along a gap between the flange and the circuit board. The baseplate may be compressed to the housing thereby causing the sealant to flow between (i) the baseplate and the circuit board and (ii) the baseplate and the flange.

Apparatus related to conformal coating implemented with surface mount devices. In some embodiments, a radio-frequency (RF) module includes a packaging substrate configured to receive a plurality of components. The RF also includes a surface mount device (SMD) mounted on the packaging substrate, the SMD including a metal layer that faces upward when mounted. The RF module further includes an overmold formed over the packaging substrate, the overmold dimensioned to cover the SMD. The RF module further includes an opening defined by the overmold at a region over the SMD, the opening having a depth sufficient to expose at least a portion of the metal layer. The RF module further includes a conformal conductive layer formed over the overmold, the conformal conductive layer configured to fill at least a portion of the opening to provide an electrical path between the conformal conductive layer and the metal layer of the SMD.

A modular controller includes an enclosure having an interior, a motherboard with a signal trace and a power trace supported within the interior of the enclosure, and one or more control section. The control section includes one or more of an input power section, an electromagnetic interference section, a logic section, a control section, a output power section, and a signal section that is supported by the motherboard to selectively flow of electrical power through the power trace using a control signal carried by the signal trace. Electrical systems and methods of making modular controllers are also described.

An electromagnetic tracking system includes a magnetic transmitter configured to output magnetic fields, a receiver responsive to the magnetic fields, an electronics assembly having conductive elements that cause distortion to the magnetic fields, and an output mechanism configured to output a position of the receiver relative to the magnetic transmitter, wherein the magnetic transmitter has at least one winding disposed around a hollow ferromagnetic core comprised of conductive material through which current is made to flow by the electronics, wherein the electronics assembly is at least partially contained within the hollow portion of the hollow ferromagnetic core. Methods of manufacturing include shaping walls into a hollow shell to surround an electronics assembly, covering the hollow shell with ferromagnetic material, inserting the wrapped hollow shell into a plastic bobbin, and winding the plastic bobbin with coil wire to produce three orthogonal windings

The present invention relates to a cooking container for a smart under range, which enables the installation of a means for sensing the temperature of the cooking container heated by the means of the smart under range induction to be simplified and the operation control of the smart under range induction to be easy.

Disclosed are a housing for receiving an electronic device and an electronic system having the same. The electronic system includes a case having lower and upper cases detachably combined with the lower case, a circuit board arranged in an inner space of the case and secured to the lower case such that at least a grounding line and at least a connection line are provided with the circuit board, a plurality of devices arranged on the circuit board such that each device is separated from one another by the grounding line and is connected with one another by the connection line, and at least an electromagnetic shielding member embedded onto the upper case such that the electromagnetic shielding member is in contact with the grounding line around the device to provide a shielding space receiving the device. The device is protected from unexpected electromagnetic waves by the electromagnetic shielding member.

The present invention provides a switch capable of reducing the length in the height direction. According to the present invention, there is provided a switch comprising a switch portion having an operating surface and a circuit board having an electrode, wherein the electrode is configured to be capable of detecting an operation on the switch portion, a component mounting surface of the circuit board is arranged nonparallel to the operating surface and the thickness of the circuit board does not exceed the height of the switch portion.