The present invention concerns a method and a device for increasing the reliability of a power module composed of plural power semiconductors that are connected in parallel, the power semiconductors being connected to the external pins of the package of the power module through metallic connections. The invention - selects one power semiconductor among the power semiconductors connected in parallel according to a criterion. - applies a same input patient to the not selected power semiconductors connected in parallel. - increases the temperature of the selected power semiconductor in order to reach a target temperature of tlic power semicon- ductor dunng a time duration m order to achieve and interface grain homogenisation of the metallic connections of tlic selected power semiconductor. - applies the same input pattern to tlic selected pow er semiconductor after tlic time duration.

A semiconductor device has a module structure in which a semiconductor element and a circuit layer are electrically connected to each other by a wire. A front metal layer is formed on a surface of a top side electrode of the semiconductor element and the wire is bonded to the front metal layer by wire bonding. The front metal layer has a higher hardness than the top side electrode or the wire. A bonding interface of the wire with the metal film has a recrystallization temperature that is equal to or higher than 175° C. According to this structure, it is possible to improve the power cycle resistance of the semiconductor device.

The present invention concerns a method and a device for increasing the reliability of a power module composed of plural power semiconductors that are connected in parallel, the power semiconductors being connected to the external pins of the package of the power module through metallic connections. The invention: selects one power semiconductor among the power semiconductors connected in parallel according to a criterion, applies a same input patient to the not selected power semiconductors connected in parallel, increases the temperature of the selected power semiconductor in order to reach a target temperature of the power semiconductor during a time duration in order to achieve and interface grain homogenisation of the metallic connections of the selected power semiconductor, applies the same input pattern to the selected power semiconductor after the time duration.

A method of forming a microelectronic device structure comprises coiling a portion of a wire up and around at least one sidewall of a structure protruding from a substrate. At least one interface between an upper region of the structure and an upper region of the coiled portion of the wire is welded to form a fused region between the structure and the wire.

A method of forming a microelectronic device structure comprises coiling a portion of a wire up and around at least one sidewall of a structure protruding from a substrate. At least one interface between an upper region of the structure and an upper region of the coiled portion of the wire is welded to form a fused region between the structure and the wire.

A method of forming a microelectronic device structure comprises coiling a portion of a wire up and around at least one sidewall of a structure protruding from a substrate. At least one interface between an upper region of the structure and an upper region of the coiled portion of the wire is welded to form a fused region between the structure and the wire.

A method of forming a microelectronic device structure comprises coiling a portion of a wire up and around at least one sidewall of a structure protruding from a substrate. At least one interface between an upper region of the structure and an upper region of the coiled portion of the wire is welded to form a fused region between the structure and the wire.