Qnnect, formerly Hermetic Solutions Group leads the way in overcoming some of the challenges faced by medical implant designers. We developed a ceramic-to-metal joining technology to make medical components smaller without sacrificing performance. Our RF transparent ceramic case technology enables device manufacturers to communicate to devices from outside the body. With smaller components and strengthening advancements, we have increased the durability of implantable devices. We’ve also helped to overcome rejection issues by designing devices using materials with a proven track record of implantable viability.
Vacuum Brazing/Diffusion Bonding: We employ processes that join dissimilar materials such as titanium, alumina, zirconia, and more. We’ve been making medical feedthroughs and assemblies for decades.
Proven Implantable Viability: Our packaging designs address potential rejection issues by using materials with a proven track record of implantable viability. For example, we utilize advanced ceramic materials in housings that enable a cochlear implant to reside safely within the human body.
Smaller, More Durable Components: Qnnect, formerly Hermetic Solutions Group has developed a ceramic-to-metal joining technology to make components smaller without compromising performance. Our RF transparent ceramic enables communication with an implanted from outside the body. Using smaller components and strengthening advancements, we have increased the durability of implantable medical devices.
Kryoflex®: A family of polycrystalline ceramics developed to hermetically sealing together materials used in electrical feedthroughs and is very effective at prohibiting the influx of any fluids or gases into the a package’s internal electronics. Kryoflex® is used in the manufacture of ultra-reliable feedthroughs for a wide variety of implantable devices.
Qnnect, formerly Hermetic Solutions Group leads the way in overcoming some of the challenges faced by medical implant designers. We developed a ceramic-to-metal joining technology to make medical components smaller without sacrificing performance. Our RF transparent ceramic case technology enables device manufacturers to communicate to devices from outside the body. With smaller components and strengthening advancements, we have increased the durability of implantable devices. We’ve also helped to overcome rejection issues by designing devices using materials with a proven track record of implantable viability.
- Vacuum Brazing/Diffusion Bonding: We employ processes that join dissimilar materials such as titanium, alumina, zirconia, and more. We’ve been making medical feedthroughs and assemblies for decades.
- Proven Implantable Viability: Our packaging designs address potential rejection issues by using materials with a proven track record of implantable viability. For example, we utilize advanced ceramic materials in housings that enable a cochlear implant to reside safely within the human body.
- Smaller, More Durable Components: Qnnect, formerly Hermetic Solutions Group has developed a ceramic-to-metal joining technology to make components smaller without compromising performance. Our RF transparent ceramic enables communication with an implanted from outside the body. Using smaller components and strengthening advancements, we have increased the durability of implantable medical devices.
- Kryoflex®: A family of polycrystalline ceramics developed to hermetically sealing together materials used in electrical feedthroughs and is very effective at prohibiting the influx of any fluids or gases into the a package’s internal electronics. Kryoflex® is used in the manufacture of ultra-reliable feedthroughs for a wide variety of implantable devices.