Annealing furnace "MiniLab-WCF Ultra-High Temperature Wafer Annealing Furnace"
6 to 8 inch ultra-high temperature wafer annealing equipment, a high-performance machine that widely supports various purposes from research and development to small-scale production.
◾️ Max 2000℃ ◾️ Effective heating range: Φ6 to Φ8 inch single leaf type, or batch type (multi-stage 5-sheet cassette) ◾️ Heater control: 1 zone or 2 zones (cascade control) ◾️ Heater material: ・C/C composite: Φ6 to Φ8 inch ・PG coated high purity graphite: Φ6 to Φ8 inch ◾️ Operating atmosphere: ・Vacuum (1x10-2 Pa), inert gas (Ar, N2) ◾️ PLC semi-automatic operation ・Automatic sequence control for vacuum/purge cycle and venting ・Fully automatic operation (optional) ・Touch panel operation, allowing centralized management without dispersed operations. ◾️ Process pressure control ・APC control (MFC flow, or automatic opening adjustment valve PID loop control) ・Maximum 3 systems of MFC flow automatic control, or manual adjustment of float meter/needle valve ◾️ PLOT screen graph display, CSV data output
basic information
A dedicated ultra-high temperature wafer annealing furnace that emphasizes safety and operability for "wafer baking." ◆ Main Specifications ◆ - Insulation materials: Graphite felt, tungsten, molybdenum, alumina, zirconia, etc. (*Varies depending on furnace design) - Chamber opening and closing: Top loading, linear drive operation (or manual opening and closing with damper) - Achievable vacuum level: 1x10-2 Pascal (in the case of an empty furnace) - Vacuum pump: Dry scroll pump - Vacuum gauge: Wide-range vacuum gauge from atmospheric pressure to 10-9 mbar - Thermocouple: Type C thermocouple (Type K may be used depending on design temperature conditions) - Interlock: Chamber over-temperature, heater over-temperature, cooling water cutoff, chamber opening and closing, vacuum level - Power supply: 200V, 50A (*Varies by specification) 3-phase - Cooling water: 8L/min, 0.4Mpa - Dimensions (body): 1240(W) x 535(D) x 1100(H) mm ◆ Options ◆ - Additional thermocouple for measuring temperature inside the crucible - High vacuum pump (turbo molecular pump) - Front view port - Full automatic control - Substrate rotation stage - Communication function (using temperature control function) or SECS/GEM communication
Price information
For details, please contact us.
Delivery Time
Model number/Brand name
MiniLab-WCF
Applications/Examples of results
◆Main Application Areas◆ - High-temperature annealing during crystal growth and device fabrication processes of wide bandgap semiconductors - High-temperature annealing during the epitaxial growth process of nitride semiconductor crystals - Development of new materials - Application in various advanced materials fundamental development
Detailed information
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CC Composite Heater Element Standard adoption of CC Composite Heater Element - Standard support for Φ2 inch, Φ4 inch, Φ6 inch, and Φ8 inch - Single Zone or Dual Zone control (*2 inch is Single Zone only)
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Wafer holder reference example for 8-inch (can accommodate 7 pieces of 2-inch wafers). We can create wafer holders in specified shapes and materials upon request.
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PID Digital Temperature Controller Standard Model - Eurotherm nanodaq series
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Top-loading chamber
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Multi-Target Sputtering Device [MiniLab-125] Compatible with Φ8" SiC Coating Equipped with 1000℃ Heater Stage! Compact Size!
Multifunctional Multi-Sputtering Device (Compatible with Φ8inch Substrates) - Simultaneous deposition of three components + one component Pulse DC sputtering - Flexible arrangement of RF500W and DC850W power supplies to three cathodes (Source 1, 2, 3) - Equipped with a 5KW Pulse DC power supply → used with dedicated cathode (4) - Substrate heating stage Max 800℃ (SiC coated heater can achieve Max 1000℃) - MFC x 3 systems (Ar, O2, N2) for reactive sputtering - Main chamber RIE etching stage RF300W - LL chamber <30W low power controlled soft etching - Unique "Soft-Etching" technology reduces substrate damage through substrate bias - Touch panel or Windows PC operation: All operations can be performed on the touch panel/PC without dispersing control. - Equipment installation dimensions: 1,960(W) x 1,100(D) x 1,700(H) mm - Multi-chamber type can also be manufactured. ● Mixed specifications for resistance heating deposition, organic material deposition, EB deposition, PECVD, etc. are also possible.
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4-Yen Multi-Sputtering Device 【MiniLab-S060】
4 cathodes with Φ2 inch configuration Simultaneous film deposition: 3-component simultaneous deposition (RF 500W or DC 850W) + HiPIMS (PulseDC 5KW) x 1 Power distribution and configuration settings for 4 cathodes can be freely changed via the HMI screen using the plasma relay switch 3 MFC systems (Ar, O2, N2) for reactive sputtering RIE etching stage RF 300W (main chamber) + <30W soft etching (LL chamber) Substrate heating: Max 500℃, 800℃, or 1000℃ (C/C or SiC coating) Substrate rotation and vertical movement (automatically controlled by stepping motor) APC automatic control: Upstream (MFC flow adjustment) or downstream (automatic valve opening adjustment on the exhaust side) Dimensions: 1,120(W) x 800(D) ● Mixed specifications for resistance heating deposition, organic material deposition, EB deposition, PECVD, etc. are also possible.
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【MiniLab-125】 Multi-target sputtering system (compatible with Φ8") equipped with a 1000℃ heater stage (SiC coating)! Compact size!
Multifunctional Multi-Sputtering Device (Compatible with Φ8inch Substrates) - Triple-source simultaneous deposition + Single-source Pulse DC sputtering - Flexible arrangement of RF500W and DC850W power supplies to the three-source cathodes (Source 1, 2, 3) - Equipped with a 5KW Pulse DC power supply → Used with dedicated cathode (4) - Substrate heating stage Max 800℃ (SiC-coated heater can achieve Max 1000℃) - MFC x 3 systems (Ar, O2, N2) for reactive sputtering - Main chamber RIE etching stage RF300W - LL chamber <30W low-power controlled soft etching - Unique "Soft-Etching" technology reduces substrate damage through substrate bias - Touch panel or Windows PC operation: All operations can be performed via touch panel/PC without dispersing control. - Equipment installation dimensions: 1,960(W) x 1,100(D) x 1,700(H) mm - Multi-chamber configurations are also possible. ● Mixed specifications for resistance heating deposition, organic material deposition, EB deposition, PECVD, etc., can also be configured.
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【MiniLab】 Evaporation/Sputtering Dual Chamber System
Two thin film experimental devices are connected by a load lock mechanism. Different film deposition devices (sputtering - evaporation, etc.) are seamlessly connected via the load lock. With Moorfield's unique load lock system, connections to the process chamber on the left, right, and rear are also possible (see photo below). 1. MiniLab-E080A (Evaporation Device) - EB evaporation: 7cc crucible x 6 - Resistance heating evaporation x 2 - Organic evaporation limit x 2 2. MiniLab-S060A (Sputtering Device) - Φ2" Magnetron cathode x 4 for simultaneous sputtering - Compatible with both DC and RF power supplies 3. Load Lock Chamber - Plasma etching stage In the load lock chamber, plasma cleaning of the substrate surface is performed using the "RF/DC substrate bias stage," and the company's unique "soft etching" technology allows for a <30W low-power, damage-free plasma etching stage. This enables delicate etching processes that are prone to damage, such as 2D (removal of resists like PMMA), graphene delamination, and etching of Teflon substrates. (*This can also be installed in the main chamber stage.)
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☆★☆ Spatter and Vapor Deposition Source Combined Film Formation Device 【nanoPVD-ST15A】 ☆★☆
Sputter Cathode and Co-evaporation Source Mixed Thin Film Experimental Device. Metal deposition, organic deposition, and sputter cathode are installed in a compact frame. A resistance heating evaporation source (for metal deposition), an organic evaporation source (for organic materials), and magnetron sputtering (for metals and insulating materials) are installed in the chamber, allowing for various thin film experimental setups within a single chamber. ◉ Three combinations available: 1. Sputter Cathode + Resistance Heating Evaporation Source x2 2. Sputter Cathode + Organic Evaporation Source x2 3. Sputter Cathode + Resistance Heating Source x1 + Organic Evaporation Source x1 (*DC sputtering only) 【Specifications】 ◉ Compatible substrates: up to Φ4 inches ◉ Sputtering: 2" cathode x up to 3 sources ◉ Vacuum deposition: Resistance heating evaporation (up to 2), organic evaporation (up to 4) ◉ 7" touch panel operation with PLC automatic process control ◉ APC automatic pressure control ◉ 1 line of Ar gas (standard) + expandable with N2, O2 ◉ Connects to a Windows PC via USB for recipe creation and storage. Data logging on PC ◉ Various other options available ◉ Easy operation with a 7" touch panel and PLC automatic process control
