A printed board includes an insulating layer, and radiation vias penetrating printed board are formed in both a first region overlapping electronic component and a second region outside the first region. A plurality of conductor layers included in printed board are cross-connected to a plurality of radiation vias. Diffusion radiator includes a thermal diffusion plate, a radiation member, and a cooling body. Radiation member is in close contact with one of main surfaces of cooling body, and thermal diffusion plate is in close contact with one of main surfaces of radiation member on the opposite side to cooling body. One of main surfaces of thermal diffusion plate on the opposite side to radiation member is bonded to a conductor layer on the other main surface of printed board so as to close the plurality of radiation vias.

An imaging unit includes: a semiconductor package including an optical system, an imaging sensor, and connection terminals; a rigid substrate including first connection lands respectively connected to the connection terminals; and an electronic component mount region including second connection lands on which a capacitor is mounted, and an inner lead mount region including third connection lands; and a flexible printed board including inner leads extended from one end of the flexible printed board in a bent manner and respectively connected to the third connection leads in the inner lead mount region; and cable connection leads arranged on another end of the flexible printed board and respectively connected to the inner leads. The rigid substrate and the flexible printed board are arranged in a projection plane in an optical axis direction of the semiconductor package. The third connection lands are arranged along one side of the rigid substrate.

An electronic component and a mounting substrate thereof provide metal frames that reduce stress transmission while occupying only a limited mounting area. The electronic component includes a body, and first and second external electrodes respectively disposed on opposite ends of the body. A first metal frame includes a first support portion bonded to the first external electrode and a first mounting portion extending from a lower end of the first support portion toward the second external electrode. A second metal frame includes a second support portion bonded to the second external electrode and a second mounting portion extending form a lower end of the second support portion away from the first external electrode.

A connecting arrangement includes an electronic component and a printed circuit board, and a method includes establishing a solder connection between the component and circuit board. The component has a housing with a support area, and a contact element with a first contact area running parallel to the support area of the housing, a second contact area at a prespecified angle relative to the first contact area, and a rounded transition region formed between the first and second contact areas. The circuit board has a first surface with a soldering area including a constriction, a first section, and a second section connected to the first section via the constriction. The transition region is in a region of the constriction. The second contact area is connected to the second section via a solder connection. The support area is at an angle relative to the first surface corresponding to the prespecified angle.

An imaging unit includes: a semiconductor package including an optical system, an imaging sensor, and connection terminals; a rigid substrate including first connection lands respectively connected to the connection terminals; and an electronic component mount region including second connection lands on which a capacitor is mounted, and an inner lead mount region including third connection lands; and a flexible printed board including inner leads extended from one end of the flexible printed board in a bent manner and respectively connected to the third connection leads in the inner lead mount region; and cable connection leads arranged on another end of the flexible printed board and respectively connected to the inner leads. The rigid substrate and the flexible printed board are arranged in a projection plane in an optical axis direction of the semiconductor package. The third connection lands are arranged along one side of the rigid substrate.

A packaged electronic device includes a package structure with opposite first and second sides spaced apart from one another along a first direction, and opposite third and fourth sides spaced apart from one another along a second direction, as well as first and second leads. The first lead includes a first portion that extends outward from the third side of the package structure and extends downward toward a plane of the first side and away from a plane of the second side. The second lead includes a first portion that extends outward from the third side of the package structure, and the second lead extends upward toward the plane of the second side and away from the plane of the first side to allow connection to another circuit or component, such as a second packaged electronic device, a passive circuit component, a printed circuit board, etc.

Assembly workability of an electric compressor to which an inverter circuit section and a filter circuit section are attached is improved. The inverter circuit section (3) includes an inverter control board (17), a sleeve assembly (18), and a power module (14). The inverter control board, the sleeve assembly, and the power module are integrated. The filter circuit section (4) includes a filter circuit board (66) and a support member (67). The filter circuit board (66) and the support member (67) are integrated. The inverter circuit section and the filter circuit section are structured to be capable of being stored each individually within an inverter storing section (8) from the same direction and detachably attached to the housing (2).

A printed circuit board includes a circuit trace and a connector pad. The connector pad provides electrical and mechanical mounting of a connector lead of a surface mount device and provides a circuit path between the surface mount device and the circuit trace. The connector pad includes 1) a connector pad base electrically coupled to the circuit trace, and 2) a first connector pad island electrically isolated from the connector pad base. The connector pad base has a length that is substantially equal to a length of a contact portion of the connector lead.

A battery pack comprises a set of battery cells, a battery cell holder holding the battery cells, at least one battery strap having a first end connected to a terminal of one of the battery cells and a second end extending from the battery cell holder, a printed circuit board having a first side and a second side, components mounted on the second side of the printed circuit board, a trace on the second side of the printed circuit board extending from one components to a contact connected to the trace and mated with the second end of the at least one battery strap. Multiple vias extend from the first side to the second side, and the contact comprises a first portion having a through hole and a leg integrally formed with and approximately perpendicular to the first portion, the leg extending from the first side of the PCB to the second side of the PCB through a first via, the trace extending from the first via, the leg soldered to the second side of the PCB and the via and the through hole aligned with a second via adjacent to the first via, the through hole sized and configured to receive a PCB end of the strap, the PCB end of the strap soldered to the contact.

A PCB mountable sensor having spring electrical contacts and mechanical attachment means is provided. In use, the spring contacts mate with exposed pads on a target PCB to form an electrical interface therebetween. The attachment means releasably secures the sensor to the PCB against the force of the spring contacts. The attachment means can be, for example, an adapter that fits like a collar around the sensor, or can be integral with the sensor. The design of the sensor provides interchangeability with no or limited tools, no PCB resident connectors, and no potential damage to the PCB upon rework or replacement.