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Glovebox R&D Lab Magnetron Sputtering Coater For Thin Film Deposition
Model: Lith-PC-JS02-D-Shaped Magnetron Sputtering Coater
Main Purpose
Designed for the preparation of nano-scale single-layer and multilayer functional films, including hard coatings, metallic films, semiconductor films, dielectric films, and other advanced thin-film materials. Widely used in universities, research institutes, and small-batch production in scientific laboratories.
System Composition
· Vacuum chamber system (sputtering chamber)
· Target system
· Sample stage system
· Vacuum pumping & measurement system
· Gas flow system
· Control system
· Film thickness monitoring system
· Front-opening door mechanism
· Electrical control system
Technical Specifications
Parameter
Specification
Ultimate Vacuum
6.7×10-5 Pa
System Leak Rate
1×10-7 Pa·L/s
Vacuum Recovery Time
40 min to 6.6×10 Pa (after N2 purge)
Vacuum Chamber
D-shaped, 400 × 350 × 300 mm
Sample Stage
3" × 3", 3.2 mm thickness
Magnetron Targets
3 targets (2 standard + 1 high-strength)
Effective Sputtering Area
3" × 3"
Target Diameter
Φ50 mm (water-cooled)
Target-to-Substrate Distance
50–90 mm (adjustable)
Substrate Bias Voltage
-200 V
Sample Turntable
1 position (holds 2" substrates)
Gas Flow System
2-channel mass flow controller
Film Thickness Monitor
0–999,999 Å
Pumping Options
Turbo molecular pump or cryogenic pump + dry scroll pump
Key Features & Applications
1. High Precision & Versatility
· Suitable for research and small-scale production of high-performance thin films, including optical, electronic, and protective coatings.
· Adjustable target-substrate distance ensures optimized film uniformity.
2. Advanced Control & Monitoring
· Computerized real-time tracking of deposition parameters enhances repeatability.
· Flexible gas flow control (2-channel MFC) supports reactive and non-reactive sputtering.
3. Efficient & Reliable Vacuum System
· Fast vacuum recovery minimizes downtime.
· Dual pumping options (turbo or cryogenic) adapt to different process requirements.
4. User-Friendly Design
· D-shaped chamber & front-opening door facilitate easy sample loading.
· Optional heating expands compatibility with temperature-sensitive materials.
Ideal for:
· Academic & industrial R&D in materials science, nanotechnology, and semiconductor engineering.
· Functional film development for optics, wear resistance, and electronic devices.
· Prototype fabrication requiring high-precision, customizable coatings.
This system combines high deposition control, flexible configuration, and robust performance, making it a preferred choice for advanced thin-film research and development.
Designed for the preparation of nano-scale single-layer and multilayer functional films, including hard coatings, metallic films, semiconductor films, dielectric films, and other advanced thin-film materials. Widely used in universities, research institutes, and small-batch production in scientific laboratories.
System Composition
· Vacuum chamber system (sputtering chamber)
· Target system
· Sample stage system
· Vacuum pumping & measurement system
· Gas flow system
· Control system
· Film thickness monitoring system
· Front-opening door mechanism
· Electrical control system
Technical Specifications
|
Parameter |
Specification |
|
Ultimate Vacuum |
6.7×10-5 Pa |
|
System Leak Rate |
1×10-7 Pa·L/s |
|
Vacuum Recovery Time |
40 min to 6.6×10 Pa (after N2 purge) |
|
Vacuum Chamber |
D-shaped, 400 × 350 × 300 mm |
|
Sample Stage |
3" × 3", 3.2 mm thickness |
|
Magnetron Targets |
3 targets (2 standard + 1 high-strength) |
|
Effective Sputtering Area |
3" × 3" |
|
Target Diameter |
Φ50 mm (water-cooled) |
|
Target-to-Substrate Distance |
50–90 mm (adjustable) |
|
Substrate Bias Voltage |
-200 V |
|
Sample Turntable |
1 position (holds 2" substrates) |
|
Gas Flow System |
2-channel mass flow controller |
|
Film Thickness Monitor |
0–999,999 Å |
|
Pumping Options |
Turbo molecular pump or cryogenic pump + dry scroll pump |
Key Features & Applications
1. High Precision & Versatility
· Suitable for research and small-scale production of high-performance thin films, including optical, electronic, and protective coatings.
· Adjustable target-substrate distance ensures optimized film uniformity.
2. Advanced Control & Monitoring
· Computerized real-time tracking of deposition parameters enhances repeatability.
· Flexible gas flow control (2-channel MFC) supports reactive and non-reactive sputtering.
3. Efficient & Reliable Vacuum System
· Fast vacuum recovery minimizes downtime.
· Dual pumping options (turbo or cryogenic) adapt to different process requirements.
4. User-Friendly Design
· D-shaped chamber & front-opening door facilitate easy sample loading.
· Optional heating expands compatibility with temperature-sensitive materials.
Ideal for:
· Academic & industrial R&D in materials science, nanotechnology, and semiconductor engineering.
· Functional film development for optics, wear resistance, and electronic devices.
· Prototype fabrication requiring high-precision, customizable coatings.
This system combines high deposition control, flexible configuration, and robust performance, making it a preferred choice for advanced thin-film research and development.
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