摘要:
Provided are a hybrid integrated circuit device in which fine patterns can be formed while current-carrying capacitances are ensured, and a method of manufacturing the same. The hybrid integrated circuit device of the present invention includes conductive patterns formed on a front surface of a circuit substrate and circuit elements electrically connected respectively to the conductive patterns. The conductive patterns include a first conductive pattern and a second conductive pattern formed more thickly than the first conductive pattern. The second conductive pattern includes a protruding portion protruding in a thickness direction thereof.
摘要:
Provided are a hybrid integrated circuit device in which fine patterns can be formed while current-carrying capacitances are ensured, and a method of manufacturing the same. The hybrid integrated circuit device of the present invention includes conductive patterns formed on a front surface of a circuit substrate and circuit elements electrically connected respectively to the conductive patterns. The conductive patterns include a first conductive pattern and a second conductive pattern formed more thickly than the first conductive pattern. The second conductive pattern includes a protruding portion protruding in a thickness direction thereof.
摘要:
A circuit device exhibiting excellent heat radiation properties and a manufacturing method thereof are hereby provided. A circuit device comprises a circuit board, an insulating layer formed on the circuit board, a conductive pattern formed on the insulating layer, a circuit element electrically connected to the conductive pattern, wherein a protrusion partially extending and being buried in the insulating layer is provided on the circuit board. Accordingly, heat generated inside the device can be efficiently discharged to the exterior via the protrusion.
摘要:
To provide a method of manufacturing a highly reliable circuit device realizing a smaller, thinner and lighter configuration. In the method of manufacturing a circuit device according to the invention, a resin sealed body is separated from a supporting substrate, after the resin sealed body containing a circuit device is formed on a top surface of the supporting substrate. Therefore, manufacture of a circuit device having no substrate becomes possible and it realizes a thinner and lighter circuit device with improved heat dissipation. Moreover, since sealing with a sealing resin can be performed on the supporting substrate, warps, caused by the differences in thermal expansion coefficients between the sealing resin and conductive patterns and between the sealing resin and circuit components, can be prevented. Hence, it becomes possible to prevent flaking of conductive patterns from the substrate and a poor contact between the conductive patterns and a metal thin wire, and consequently to manufacture a highly reliable circuit device.
摘要:
To provide a method of manufacturing a highly reliable circuit device realizing a smaller, thinner and lighter configuration. In the method of manufacturing a circuit device according to the invention, a resin sealed body is separated from a supporting substrate, after the resin sealed body containing a circuit device is formed on a top surface of the supporting substrate. Therefore, manufacture of a circuit device having no substrate becomes possible and it realizes a thinner and lighter circuit device with improved heat dissipation. Moreover, since sealing with a sealing resin can be performed on the supporting substrate, warps, caused by the differences in thermal expansion coefficients between the sealing resin and conductive patterns and between the sealing resin and circuit components, can be prevented. Hence, it becomes possible to prevent flaking of conductive patterns from the substrate and a poor contact between the conductive patterns and a metal thin wire, and consequently to manufacture a highly reliable circuit device.
摘要:
In a method of manufacturing a circuit device of the present invention, protruding portions protruding upward are formed in part of a conductive pattern formed on the front surface of a circuit substrate. Next, the front surface of the circuit substrate including the protruding portions is coated with coating resin. Subsequently, the coating resin is etched so that the top surfaces of the protruding portions are exposed. Then, the fixation and electrical connection of circuit elements are performed. Finally, an electric circuit formed on the front surface is sealed, whereby a hybrid integrated circuit device is completed.
摘要:
To reduce connection defects between a circuit substrate provided on a core substrate and a circuit to be mounted thereon, thereby improving reliability as a multilayered device mounting substrate. The device mounting substrate includes: a first circuit substrate composed of a substrate, an insulating layer formed on this substrate, and a first conductive layer (including conductive parts) formed on this insulating layer; and a second circuit substrate mounted on the first circuit substrate, being composed of a base, a second conductive layer (including conductive parts) formed on the bottom of the base, and a third conductive layer (including conductive parts) formed on the top of the base. Here, the first and second circuit substrates are bonded by pressure so that the first and second conductive parts are laminated and embedded together into the insulating layer. The first and second conductive parts form connecting areas in the insulating layer, thereby connecting the first and second circuit substrates electrically.
摘要:
To reduce connection defects between a circuit substrate provided on a core substrate and a circuit to be mounted thereon, thereby improving reliability as a multilayered device mounting substrate. The device mounting substrate includes: a first circuit substrate composed of a substrate, an insulating layer formed on this substrate, and a first conductive layer (including conductive parts) formed on this insulating layer; and a second circuit substrate mounted on the first circuit substrate, being composed of a base, a second conductive layer (including conductive parts) formed on the bottom of the base, and a third conductive layer (including conductive parts) formed on the top of the base. Here, the first and second circuit substrates are bonded by pressure so that the first and second conductive parts are laminated and embedded together into the insulating layer. The first and second conductive parts form connecting areas in the insulating layer, thereby connecting the first and second circuit substrates electrically.
摘要:
To reduce connection defects between a circuit substrate provided on a core substrate and a circuit to be mounted thereon, thereby improving reliability as a multilayered device mounting substrate. The device mounting substrate includes: a first circuit substrate composed of a substrate, an insulating layer formed on this substrate, and a first conductive layer (including conductive parts) formed on this insulating layer; and a second circuit substrate mounted on the first circuit substrate, being composed of a base, a second conductive layer (including conductive parts) formed on the bottom of the base, and a third conductive layer (including conductive parts) formed on the top of the base. Here, the first and second circuit substrates are bonded by pressure so that the first and second conductive parts are laminated and embedded together into the insulating layer. The first and second conductive parts form connecting areas in the insulating layer, thereby connecting the first and second circuit substrates electrically.
摘要:
To reduce connection defects between a circuit substrate provided on a core substrate and a circuit to be mounted thereon, thereby improving reliability as a multilayered device mounting substrate. The device mounting substrate includes: a first circuit substrate composed of a substrate, an insulating layer formed on this substrate, and a first conductive layer (including conductive parts) formed on this insulating layer; and a second circuit substrate mounted on the first circuit substrate, being composed of a base, a second conductive layer (including conductive parts) formed on the bottom of the base, and a third conductive layer (including conductive parts) formed on the top of the base. Here, the first and second circuit substrates are bonded by pressure so that the first and second conductive parts are laminated and embedded together into the insulating layer. The first and second conductive parts form connecting areas in the insulating layer, thereby connecting the first and second circuit substrates electrically.