摘要:
A method of manufacturing a semiconductor device able to reduce the number of manufacturing steps and attain the rationalization of a manufacturing line is disclosed. The semiconductor device is a high-frequency module assembled by mounting chip parts (22) and semiconductor pellets (21) onto each of wiring substrates (2) formed on a matrix substrate (27) after inspection. A defect mark (2e) is affixed to a wiring substrate (2) as a block judged to be defective in the inspection of the matrix substrate (27), then in a series of subsequent assembling steps the defect mark (e) is recognized and the assembling work for the wiring substrate (2) with the defect mark (2e) thereon is omitted to attain the rationalization of a manufacturing line.
摘要:
A method of manufacturing a semiconductor device able to reduce the number of manufacturing steps and attain the rationalization of a manufacturing line is disclosed. The semiconductor device is a high-frequency module assembled by mounting chip parts (22) and semiconductor pellets (21) onto each of wiring substrates (2) formed on a matrix substrate (27) after inspection. A defect mark (2e) is affixed to a wiring substrate (2) as a block judged to be defective in the inspection of the matrix substrate (27), then in a series of subsequent assembling steps the defect mark (e) is recognized and the assembling work for the wiring substrate (2) with the defect mark (2e) thereon is omitted to attain the rationalization of a manufacturing line.
摘要:
A method of manufacturing a semiconductor device able to reduce the number of manufacturing steps and attain the rationalization of a manufacturing line is disclosed. The semiconductor device is a high-frequency module assembled by mounting chip parts (22) and semiconductor pellets (21) onto each of wiring substrates (2) formed on a matrix substrate (27) after inspection. A defect mark (2e) is affixed to a wiring substrate (2) as a block judged to be defective in the inspection of the matrix substrate (27), then in a series of subsequent assembling steps the defect mark (e) is recognized and the assembling work for the wiring substrate (2) with the defect mark (2e) thereon is omitted to attain the rationalization of a manufacturing line.
摘要:
A method of manufacturing a semiconductor device able to reduce the number of manufacturing steps and attain the rationalization of a manufacturing line is disclosed. The semiconductor device is a high-frequency module assembled by mounting chip parts (22) and semiconductor pellets (21) onto each of wiring substrates (2) formed on a matrix substrate (27) after inspection. A defect mark (2e) is affixed to a wiring substrate (2) as a block judged to be defective in the inspection of the matrix substrate (27), then in a series of subsequent assembling steps the defect mark (e) is recognized and the assembling work for the wiring substrate (2) with the defect mark (2e) thereon is omitted to attain the rationalization of a manufacturing line.
摘要:
In a method of manufacturing a high frequency module to be assembled by providing, on a wiring board, a chip part and a semiconductor pellet to be bare chip mounted and then mounting the chip part and the semiconductor pellet through soldering, the wiring board is separated from a heat block with the semiconductor pellet pressurized against the wiring board in a main heating portion heating and melting a reflow solder, thereby cooling a soldering portion. Consequently, the generation of a void in the soldering portion can be prevented and the connecting reliability of the soldering portion can be enhanced. In addition, a degree of mounting horizontality of the semiconductor pellet on the wiring board can be enhanced.
摘要:
In a dividing method according to the present invention, a wiring board formed of ceramic is forced up (upper swing) by a lower clamp claw of a clamper, and some of a protruded wiring board portion protruding from a conveying chute is pressed against a support body to perform a first division under bending stress. Thereafter, the upward-located clamper is rotatably swung (lower swing) downward to allow an upper clamp claw to press down the protruded wiring board portion, thereby performing a reverse division at the first division section again as a second division. Since the second division allows a tensile force to act on a remaining and thin non-divided resin portion, the non-divided resin portion is torn off. Thus, the perfect division is enabled. Fractionalizing is done by a one-row division and an individual division so that each semiconductor device is formed.
摘要:
The variation of the parasitic inductance generated at the output terminal of a transistor in the final stage of a multistage amplifier unit is reduced. One side of the semiconductor chip that includes the final stage transistor is put in contact with the inner wall of a square recess formed in a wiring substrate. The semiconductor chip is positioned and fixed accurately at the bottom of the recess, whereby the drain wire of the transistor is fixed. Then, a chip edge at which the drain electrode is disposed on top of the chip is put in contact with the inner wall of the recess, which is closer to the drain bonding pad. A metallized layer is formed of the same size as that of the chip at the bottom of the recess and a fusion bonding material is supplied on the metallized layer.
摘要:
In a dividing method according to the present invention, a wiring board formed of ceramic is forced up (upper swing) by a lower clamp claw of a clamper, and some of a protruded wiring board portion protruding from a conveying chute is pressed against a support body to perform a first division under bending stress. Thereafter, the upward-located clamper is rotatably swung (lower swing) downward to allow an upper clamp claw to press down the protruded wiring board portion, thereby performing a reverse division at the first division section again as a second division. Since the second division allows a tensile force to act on a remaining and thin non-divided resin portion, the non-divided resin portion is torn off. Thus, the perfect division is enabled. Fractionalizing is done by a one-row division and an individual division so that each semiconductor device is formed.
摘要:
The variation of the parasitic inductance generated at the output terminal of a transistor in the final stage of a multistage amplifier unit is reduced. One side of the semiconductor chip that includes the final stage transistor is put in contact with the inner wall of a square recess formed in a wiring substrate. The semiconductor chip is positioned and fixed accurately at the bottom of the recess, whereby the drain wire of the transistor is fixed. Then, a chip edge at which the drain electrode is disposed on top of the chip is put in contact with the inner wall of the recess, which is closer to the drain bonding pad. A metallized layer is formed of the same size as that of the chip at the bottom of the recess and a fusion bonding material is supplied on the metallized layer.
摘要:
The variation of the parasitic inductance generated at the output terminal of a transistor in the final stage of a multistage amplifier unit is reduced. One side of the semiconductor chip that includes the final stage transistor is put in contact with the inner wall of a square recess formed in a wiring substrate. The semiconductor chip is positioned and fixed accurately at the bottom of the recess, whereby the drain wire of the transistor is fixed. Then, a chip edge at which the drain electrode is disposed on top of the chip is put in contact with the inner wall of the recess, which is closer to the drain bonding pad. A metallized layer is formed of the same size as that of the chip at the bottom of the recess and a fusion bonding material is supplied on the metallized layer.