Description
No descriptionConfiguration
4 ChambersOEM Model Description
The DV-34BF is part of the Da Vinci Series, a single-wafer processing technology platform designed for high-volume manufacturing. It addresses new cleaning requirements for polymer removal and backside etch and clean, providing high-throughput and accurate wafer cleaning to maximize device yields. The four-chamber system performs a wide range of back-and frontside processes on 300 mm wafers and is optimized for emerging technologies such as high-k dielectrics, new metal gates, and non-volatile memory devices. It offers optimized process performance, high throughput, minimized footprint, advanced handling, reduced media consumption, flexible chemistry application, higher reliability, resulting in low CoO.Documents
No documents
LAM RESEARCH / SEZ
DV-34BF
Verified
CATEGORY
Wet Etch
Last Verified: Over 60 days ago
Key Item Details
Condition:
Used
Operational Status:
Unknown
Product ID:
13370
Wafer Sizes:
12"/300mm
Vintage:
Unknown
Have Additional Questions?
Logistics Support
Available
Money Back Guarantee
Available
Transaction Insured by Moov
Available
Refurbishment Services
Available
Similar Listings
View AllLAM RESEARCH / SEZ
DV-34BF
CATEGORY
Wet Etch
Last Verified: Over 60 days ago
Key Item Details
Condition:
Used
Operational Status:
Unknown
Product ID:
13370
Wafer Sizes:
12"/300mm
Vintage:
Unknown
Have Additional Questions?
Logistics Support
Available
Money Back Guarantee
Available
Transaction Insured by Moov
Available
Refurbishment Services
Available
Description
No descriptionConfiguration
4 ChambersOEM Model Description
The DV-34BF is part of the Da Vinci Series, a single-wafer processing technology platform designed for high-volume manufacturing. It addresses new cleaning requirements for polymer removal and backside etch and clean, providing high-throughput and accurate wafer cleaning to maximize device yields. The four-chamber system performs a wide range of back-and frontside processes on 300 mm wafers and is optimized for emerging technologies such as high-k dielectrics, new metal gates, and non-volatile memory devices. It offers optimized process performance, high throughput, minimized footprint, advanced handling, reduced media consumption, flexible chemistry application, higher reliability, resulting in low CoO.Documents
No documents