摘要:
Embodiments of the invention provide techniques to prevent, when a bonding pad and a lead wiring pad are to be connected using a solder ball, the solder ball from deviating from a centerline and a soldering problem from occurring. In one embodiment, a head suspension assembly includes a solder ball disposed between a lead wiring pad provided for a flexure and a bonding pad provided for a slider. The solder ball is then melted for making a soldered joint between the lead wiring pad and the bonding pad. A through slot is provided at a position near a centerline on a front surface of the lead wiring pad. The solder ball is dropped into the through slot by gravity from the front surface of the lead wiring pad. A contact area in contact with the solder ball is thereby secured on a side of the slider.
摘要:
Embodiments of the invention provide techniques to prevent, when a bonding pad and a lead wiring pad are to be connected using a solder ball, the solder ball from deviating from a centerline and a soldering problem from occurring. In one embodiment, a head suspension assembly includes a solder ball disposed between a lead wiring pad provided for a flexure and a bonding pad provided for a slider. The solder ball is then melted for making a soldered joint between the lead wiring pad and the bonding pad. A through slot is provided at a position near a centerline on a front surface of the lead wiring pad. The solder ball is dropped into the through slot by gravity from the front surface of the lead wiring pad. A contact area in contact with the solder ball is thereby secured on a side of the slider.
摘要:
Embodiments of the invention provide a head gimbal assembly (HGA) capable of effecting solder ball connection with use of low energy. In one embodiment, the HGA includes a head/slider. In the head/slider, slider pads and lead wire pads are connected to each other by reflow of solder balls under the radiation of a laser beam. Lead layers are connected to a magnetic head and electrode studs are connected to the lead layers, respectively, and are also connected to the slider pads. The diameter R (m) of a solder ball and a sectional area S (m2) of an electrode stud are in a relation of R2≧4S.
摘要:
Embodiments of the invention provide a head gimbal assembly (HGA) capable of effecting solder ball connection with use of low energy. In one embodiment, the HGA includes a head/slider. In the head/slider, slider pads and lead wire pads are connected to each other by reflow of solder balls under the radiation of a laser beam. Lead layers are connected to a magnetic head and electrode studs are connected to the lead layers, respectively, and are also connected to the slider pads. The diameter R (m) of a solder ball and a sectional area S (m2) of an electrode stud are in a relation of R2≧4S.
摘要:
An integrated lead suspension includes a solder ball that is placed between a lead wiring pad provided on a flexure of the suspension, and a bonding pad provided on a slider of a head gimbal section. The lead wiring pad and bonding pad are soldered by melting the solder ball. As a result, there is provided a recessed section into which a solder ball is placed by way of surface raised sections, using gravitational force, in the vicinity of the center line of the surface of the lead wiring pad. In this way the position of the solder ball is not displaced from the center line when a bonding pad and lead wiring pad are connected by means of a solder ball.
摘要:
An integrated lead suspension includes a solder ball that is placed between a lead wiring pad provided on a flexure of the suspension, and a bonding pad provided on a slider of a head gimbal section. The lead wiring pad and bonding pad are soldered by melting the solder ball. As a result, there is provided a recessed section into which a solder ball is placed by way of surface raised sections, using gravitational force, in the vicinity of the center line of the surface of the lead wiring pad. In this way the position of the solder ball is not displaced from the center line when a bonding pad and lead wiring pad are connected by means of a solder ball.
摘要:
An integrated lead suspension includes a solder ball that is placed between a lead wiring pad provided on a flexure of the suspension, and a bonding pad provided on a slider of a head gimbal section. The lead wiring pad and bonding pad are soldered by melting the solder ball. As a result, there is provided a recessed section into which a solder ball is placed by way of surface raised sections, using gravitational force, in the vicinity of the center line of the surface of the lead wiring pad. In this way the position of the solder ball is not displaced from the center line when a bonding pad and lead wiring pad are connected by means of a solder ball.
摘要:
An integrated lead suspension includes a solder ball that is placed between a lead wiring pad provided on a flexure of the suspension, and a bonding pad provided on a slider of a head gimbal section. The lead wiring pad and bonding pad are soldered by melting the solder ball. As a result, there is provided a recessed section into which a solder ball is placed by way of surface raised sections, using gravitational force, in the vicinity of the center line of the surface of the lead wiring pad. In this way the position of the solder ball is not displaced from the center line when a bonding pad and lead wiring pad are connected by means of a solder ball.
摘要:
An integrated lead suspension includes a solder ball that is placed between a lead wiring pad provided on a flexure of the suspension, and a bonding pad provided on a slider of a head gimbal section. The lead wiring pad and bonding pad are soldered by melting the solder ball. As a result, there is provided a recessed section into which a solder ball is placed by way of surface raised sections, using gravitational force, in the vicinity of the center line of the surface of the lead wiring pad. In this way the position of the solder ball is not displaced from the center line when a bonding pad and lead wiring pad are connected by means of a solder ball.
摘要:
Embodiments of the invention provide a head/slider supporting structure which has connection properties excellent in solder ball connections of a slider pad and a lead pad. According to one embodiment, in a head/slider supporting structure for connecting a slider and a lead wire by re-flowing a solder ball, a connection distance between a slider pad and an extreme end portion of the lead wire is reduced to enhance the performance of solder connection. The lead wire is inclined forwardly of the slider pad.