An electrical connecting structure and a method for manufacturing the same are disclosed. The electrical connecting structure comprises: a first substrate; a second substrate; and an interconnect element disposed between the first substrate and the second substrate, wherein the interconnect element has a width, and no joint surface is present in the interconnect element in a range of 50% or more of the width.

In an electrical device, a model series of electrical devices, and a production method, in particular for a converter, having a circuit board including circuit traces, the circuit board has two similar and/or identical contact area arrays, the contact area arrays in particular transitioning into each other through rotation and/or displacement. A first contact area array of the contact area arrays is fitted with a first power module, and the second contact area array is able to be fitted with a second power module, e.g., so that a respective electric motor is able to be supplied from the respective power module.

A package carrier including a flexible substrate, a first build-up structure and a second build-up structure is provided. The flexible substrate has a first surface and a second surface opposite to each other, and has a first opening connected between the first surface and the second surface. The first build-up structure is disposed on the first surface and covers the first opening. The second build-up structure is disposed on the second surface and has a second opening, and the first opening and the second opening are connected to each other to form a chip accommodating cavity together. In addition, a manufacturing method of the package carrier and a chip package structure having the package carrier are also provided.

A multi-layer metal core printed circuit board (MCPCB) has mounted on it at least one or more heat-generating LEDs and one or more devices configured to provide current to the one or more LEDs. The one or more devices may include a device that carries a steep slope voltage waveform. Since there is typically a very thin dielectric between the patterned copper layer and the metal substrate, the steep slope voltage waveform may produce a current in the metal substrate due to AC coupling via parasitic capacitance. This AC-coupled current may produce electromagnetic interference (EMI). To reduce the EMI, a local shielding area may be formed between the metal substrate and the device carrying the steep slope voltage waveform. The local shielding area may be conductive and may be electrically connected, to a DC voltage node adjacent to the one or more devices.

A terminal module includes a number of conductive terminals. The conductive terminals include a first signal terminal and a second signal terminal. A contact portion of the first signal terminal includes a first contact arm, a second contact arm and a first clamping space. The first contact arm includes a first contact end portion and a first contact arm body portion connected with the first contact end portion. The first contact arm body portion includes a first end connected to the first contact end portion and a second end opposite to the first end. From the first end to the second end, a width of the first contact arm body portion gradually increases. As a result, it is beneficial to improve the contact impedance when it is mated with a mating backplane connector. The present disclosure also discloses a backplane connector having the terminal module.

A terminal module includes a number of conductive terminals. The conductive terminal includes a contact portion, a transition portion connected with the contact portion and a connection portion electrically connected with the transition portion. The conductive terminals include differential signal terminals, a first ground terminal and a second ground terminal. The differential signal terminals include a first signal terminal and a second signal terminal. The terminal module further includes a fixing block fixed on the transfer portions of the first signal terminal and the second signal terminal. As a result, a distance between the first signal terminal and the second signal terminal can be controlled by the fixing block for improving the quality of data transmission. The present disclosure also discloses a backplane connector having the terminal module.

An electronic device is provided, the electronic device includes a driving substrate, the driving substrate includes a plurality of circular grooves and a plurality of rectangular grooves, a plurality of disc-shaped light-emitting units, at least one disc-shaped light-emitting unit is disposed in at least one circular groove, and the at least one disc-shaped light-emitting unit includes an alignment element positioned on a top surface of the at least one disc-shaped light-emitting unit, a diameter of the at least one disc-shaped light-emitting unit is defined as R, a diameter of the alignment element is defined as r, a width of at least one rectangular groove among the rectangular grooves is defined as w, and a height of the at least one rectangular groove is defined as H, and the at least one disc-shaped light-emitting unit and the at least one rectangular groove satisfy the condition of (R+r)/2>(w.sup.2+H.sup.2).sup.1/2.

A display device includes: a flexible substrate including a display unit and a plurality of peripheral units which surrounds the display unit and are bent to overlap a part of the display unit; a display member positioned at the display unit and which displays an image; and a signal line positioned at the plurality of peripheral units, where the plurality of peripheral units is bent in a way such that parts of the signal line, which are respectively positioned at adjacent peripheral units, are in contact with each other.

A display device includes: a flexible substrate including a display unit and a plurality of peripheral units which surrounds the display unit and are bent to overlap a part of the display unit; a display member positioned at the display unit and which displays an image; and a signal line positioned at the plurality of peripheral units, where the plurality of peripheral units is bent in a way such that parts of the signal line, which are respectively positioned at adjacent peripheral units, are in contact with each other.

A backplane connector includes a housing and a number of terminal modules assembled to the housing. The housing includes a base, a first side wall and a second side wall. The base, the first side wall and the second side wall jointly form a receiving space. The terminal module includes a first signal terminal and a second signal terminal. The housing includes a number of insulating protrusions integrally extending from the base. The insulating protrusions extend into the receiving space. The terminal modules are assembled in the insulating protrusions. Compared with the prior art, the insulating protrusions of the present disclosure is integrally formed with the base, thereby improving the structural strength of the housing and improving the durability of the backplane connector.