- Gold-tin alloys of various compositions are available to suit each application.
- Improved gold-rich layer
- Excellent sealing reliability with fewer defects such as voids
- Sealed devices can be mounted on circuit boards using lead-free solder.
|Composition||Melting point||Vickers hardness||Specific gravity|
Compositions other than those listed above are available.
|Sputtering target||2.5 mm thick|
The minimum dimension differs depending on the type, composition, shape, etc.
Semiconductor laser modules, optical devices, SAW filters, crystal oscillators, microwave radar components, lead frames, lead pins, ceramic packages, etc.
Application Example - Fusion Products
- The gold rich layer can be improved (bonding and sealing properties) by optimally adjusting gold and tin compositions according to the thickness of gold on the material surface.
- Can be fused not only to ceramics but also to metalized substrates and conductive surfaces.
- High dimensional accuracy with up-to-date equipment
- Shorter assembly process and improved product yields
Examples of fused products
- Customer supplied materials
- Conductive surfaces of ceramics
- Heat sinks and lead frames
- Semiconductor or compound devices
- Lead pins (Ni/Au plating) ... Base materials: Kov, FeNi, Cu, Fe, etc.
- Lids (plates/stamped pieces) ... Base materials: ceramic, Kov, FeNi, etc.
- Gold-tin brazing lids for package sealing (left picture)
- Our developed lid for sealing small crystal oscillating devices (Window type) is designed so that gold-tin alloy does not flow into the lid when it is sealed, providing a highly reliable seal with a smaller amount of gold-tin alloy.
Gold-tin brazing lids for crystal oscillating devices (1612) (Window type)