A semiconductor includes a semiconductor element, a connecting terminal electrically connected to the semiconductor element, and a case including an opening space for housing the semiconductor element, a frame which surrounds the opening space and in which the connecting terminal is partially embedded, and a terminal arrangement portion protruding from the frame towards the opening space. The connecting terminal includes an internal terminal portion that extends towards the opening space with respect to the frame, the internal terminal portion having a front surface that is electrically connected to the semiconductor element and exposed to the opening space, and a rear surface that is fixed to the terminal arrangement portion.

Embodiments of the disclosure relate to flexible electronic substrates for placement on an external surface of a vehicle motor assembly. In one embodiment, a motor assembly includes a motor comprising an external surface and one or more electronic assemblies positioned on the external surface of the motor. Each electronic assembly includes a metal substrate disposed on the external surface of the motor, a dielectric layer disposed on the metal substrate, a flexible metal base layer disposed on the dielectric layer, a bonding layer disposed on the flexible metal base layer, and one or more electronic devices disposed on the bonding layer. The bonding layer bonds the one or more electronic devices to the flexible metal base layer.

Embodiments of the disclosure relate to flexible electronic substrates for placement on an external surface of a vehicle motor assembly. In one embodiment, a motor assembly includes a motor comprising an external surface and one or more electronic assemblies positioned on the external surface of the motor. Each electronic assembly includes a metal substrate disposed on the external surface of the motor, a dielectric layer disposed on the metal substrate, a flexible metal base layer disposed on the dielectric layer, a bonding layer disposed on the flexible metal base layer, and one or more electronic devices disposed on the bonding layer. The bonding layer bonds the one or more electronic devices to the flexible metal base layer.

A semiconductor device, having a substrate including an insulating plate and a circuit board provided on a front surface of the insulating plate. The circuit board has a first disposition area and a second disposition area with a gap therebetween, and a groove portion, of which a longitudinal direction is parallel to the gap, formed in the gap. The semiconductor device further includes a first semiconductor chip and a second semiconductor chip located on the circuit board in the first disposition area and the second disposition area, respectively, and a blocking member located in the gap across the groove portion in parallel to the longitudinal direction in a plan view of the semiconductor device.

A semiconductor device, having a substrate including an insulating plate and a circuit board provided on a front surface of the insulating plate. The circuit board has a first disposition area and a second disposition area with a gap therebetween, and a groove portion, of which a longitudinal direction is parallel to the gap, formed in the gap. The semiconductor device further includes a first semiconductor chip and a second semiconductor chip located on the circuit board in the first disposition area and the second disposition area, respectively, and a blocking member located in the gap across the groove portion in parallel to the longitudinal direction in a plan view of the semiconductor device.

Embodiments of the disclosure relate to flexible electronic substrates for placement on an external surface of a vehicle motor assembly. In one embodiment, a motor assembly includes a motor comprising an external surface and one or more electronic assemblies positioned on the external surface of the motor. Each electronic assembly includes a metal substrate disposed on the external surface of the motor, a dielectric layer disposed on the metal substrate, a flexible metal base layer disposed on the dielectric layer, a bonding layer disposed on the flexible metal base layer, and one or more electronic devices disposed on the bonding layer. The bonding layer bonds the one or more electronic devices to the flexible metal base layer.

Embodiments of the disclosure relate to flexible electronic substrates for placement on an external surface of a vehicle motor assembly. In one embodiment, a motor assembly includes a motor comprising an external surface and one or more electronic assemblies positioned on the external surface of the motor. Each electronic assembly includes a metal substrate disposed on the external surface of the motor, a dielectric layer disposed on the metal substrate, a flexible metal base layer disposed on the dielectric layer, a bonding layer disposed on the flexible metal base layer, and one or more electronic devices disposed on the bonding layer. The bonding layer bonds the one or more electronic devices to the flexible metal base layer.

Disclosed herein are lids for integrated circuit (IC) packages with solder thermal interface materials (STIMs), as well as related methods and devices. For example, in some embodiments, an IC package may include a STIM between a die of the IC package and a lid of the IC package. The lid of the IC package may include nickel, the IC package may include an intermetallic compound (IMC) between the STIM and the nickel, and the lid may include an intermediate material between the nickel and the IMC.

Disclosed herein are lids for integrated circuit (IC) packages with solder thermal interface materials (STIMs), as well as related methods and devices. For example, in some embodiments, an IC package may include a STIM between a die of the IC package and a lid of the IC package. The lid of the IC package may include nickel, the IC package may include an intermetallic compound (IMC) between the STIM and the nickel, and the lid may include an intermediate material between the nickel and the IMC.

One aspect of the invention is a method of manufacturing a connection structure, including disposing an adhesive layer between a first electronic member including a first substrate and a first electrode formed on the first substrate and a second electronic member including a second substrate and a second electrode formed on the second substrate, and pressure-bonding the first electronic member and the second electronic member via the adhesive layer such that the first electrode and the second electrode are electrically connected to each other, wherein the first electronic member further including an insulating layer formed on a side of the first electrode opposite to the first substrate, and the adhesive layer including: a first conductive particle being a dendritic conductive particle; and a second conductive particle being a conductive particle other than the first conductive particle and having a non-conductive core and a conductive layer provided on the core.