Description
High Dose ImplantConfiguration
No ConfigurationOEM Model Description
The VIISta PLAD is a multi-chamber tool built on a platform common with Varian Semiconductor’s VIISta family of implanters, the only truly complete platform available that covers all implant segments. The VIISta PLAD implants the entire wafer simultaneously by positioning the wafer directly in a chamber containing plasma of the desired species. A pulsed DC voltage applied to the wafer draws ions from the plasma at a precisely controlled energy, resulting in extremely fast high-dose implants. Pulsing the bias voltage allows the system to automatically neutralize any charge buildup on the wafer surface between pulses and measure the ion dose per pulse using a Faraday for closed-loop in-situ dose control. With throughput up to six times greater than beamline or modified-source beamline technologies, the VIISta PLAD has become an attractive solution for critical low-energy, high-dose applications, such as DRAM (dynamic random access memory) polysilicon gate doping.Documents
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APPLIED MATERIALS (AMAT) / VARIAN
VIISta PLAD
Verified
CATEGORY
Ion Implantation
Key Item Details
Condition:
Used
Operational Status:
Unknown
Product ID:
32802
Wafer Sizes:
12"/300mm
Vintage:
Unknown
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Logistics Support
Available
Money Back Guarantee
Available
Transaction Insured by Moov
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Refurbishment Services
Available
APPLIED MATERIALS (AMAT) / VARIAN
VIISta PLAD
Verified
CATEGORY
Ion Implantation
Last Verified: Over 30 days ago
Key Item Details
Condition:
Used
Operational Status:
Unknown
Product ID:
32802
Wafer Sizes:
12"/300mm
Vintage:
Unknown
Logistics Support
Available
Money Back Guarantee
Available
Transaction Insured by Moov
Available
Refurbishment Services
Available
Description
High Dose ImplantConfiguration
No ConfigurationOEM Model Description
The VIISta PLAD is a multi-chamber tool built on a platform common with Varian Semiconductor’s VIISta family of implanters, the only truly complete platform available that covers all implant segments. The VIISta PLAD implants the entire wafer simultaneously by positioning the wafer directly in a chamber containing plasma of the desired species. A pulsed DC voltage applied to the wafer draws ions from the plasma at a precisely controlled energy, resulting in extremely fast high-dose implants. Pulsing the bias voltage allows the system to automatically neutralize any charge buildup on the wafer surface between pulses and measure the ion dose per pulse using a Faraday for closed-loop in-situ dose control. With throughput up to six times greater than beamline or modified-source beamline technologies, the VIISta PLAD has become an attractive solution for critical low-energy, high-dose applications, such as DRAM (dynamic random access memory) polysilicon gate doping.Documents
No documents