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The ALD150LX™ process chamber can be configured for purely thermal or plasma-enhanced ALD (plasma optional). Our unique perpendicular flow design enables isolated, uniform precursor delivery, and promotes increased precursor utilization as well as mean time between service intervals. To avoid unwanted material buildup and particulate formation inside delivery channels, four separate chamber inlets (not including plasma) are available for precursor isolation. For example, separate inlets can be used to isolate metal organic precursors and co-reactants to prevent deposition in delivery lines and valves.
Our Patented Precursor Focusing Technology™ (PFT™) combines an inactive curtain gas barrier with centralized precursor delivery and pumping to minimize interactions with process chamber sidewalls, and keep precursors out chamber ports for improved precursor utilization and extended maintenance intervals. Analytical ports for ellipsometer integration are a standard feature on the ALD150LX™ (ellipsometer optional). Substrates (up to 150 mm diameter) are introduced through a horizontal loading port. Once inside a vertical pin lift mechanism is used to complete transfer by picking and placing substrates directly onto the surface of the substrate heater stage.
The base ALD150LX™ system includes two heated, single-source vapor draw modules with two separate chamber inlets (to avoid unwanted buildup in delivery line components), that operate in dynamic or static exposure modes. For the full range of precursor delivery options currently available, please refer to the Options Tab for more information.
The ALD150LX™ employs superior heating and temperature control that complements our unique PFT™ design by further enhancing overall system performance. In particular, temperature uniformity and control helps to prevent unwanted precursor condensation resulting in parasitic effects that reduce film quality and compromise chamber cleanliness.
Upper temperature Limits for heated system components are as follows:
Our unique heater design combined with independent heat zones for precursors, delivery valves and lines, process chamber (multiple zones), substrate heater as well as foreline components provide unparalleled temperature control and uniformity of heated system components.
The ALD150LX™ plasma option is a fully integrated package that incorporates a high-performance, remote inductively coupled plasma (ICP) source design with up to six plasma gas lines/channels. Typical plasma gases include oxygen, nitrogen and hydrogen. An alternate bypass channel is available for maintaining continuous gas flow during PEALD processing making the need to start-and-stop gas flow optional. Our advanced plasma source design is complimented by our state-of-the-art eKLipse™ software and controls package.
The base plasma option includes the following components:
Other optional plasma features include:
An optional manifold is available for gas line preparation (i.e., pumping and purging) prior to charging. This pump-purge manifold provides built-in capacity for preparing gas lines to obtain optimal gas purity. To prevent mixing of incompatible gases (e.g., H2 and O2), a gas compatibility programmable logic controller (PLC) is also available.
With up to fifteen precursor sources that utilize four separate chamber inlets (not including plasma), the ALD150LX™ provides extreme process flexibility. Modules are available for gas, liquid and solid phase precursors with a host of delivery options including vapor draw, flow-through and pulsed gas delivery. A fully integrated ozone delivery option is also available. Please contact us for more information regarding our ozone option.
For delivery options that require heating, our unique heater designs combined with independent heat zones for precursors, delivery valves and lines provide unparalleled temperature control and uniformity. Excellent temperature uniformity and control helps to prevent unwanted precursor condensation resulting in parasitic effects that reduce film quality and compromise chamber cleanliness.
Precursor exposure modes include dynamic, static and Variable Residence Mode™. Dynamic and static modes are standard features; Variable Residence Mode™ is optional. Please contact us for more information regarding our Variable Residence Mode™ option. The modular, scalable ALD150LX™ design accommodates a variety of different configurations including future expansion and upgrades.
Vapor draw sources are ideal for liquid and solid phase precursors with sufficient vapor pressure such that they do not require any special assistance for effective vapor delivery other than heating. The base ALD150LX™ system includes two heated, single-source vapor draw modules with two separate chamber inlets (standard feature).
For liquid and solid phase precursors with insufficient/low vapor pressure, flow-through sources provide enhanced vapor delivery. Our unique, modular flow-through design provides added flexibility for advanced low vapor pressure delivery and supports both flow-through and vapor draw methods.
Pulsed gas options include our Pulsed Gas Source™ (PGS™) delivery module specifically designed for precise, accurate, high-speed dosing of toxic gases (e.g., WF6, HCl, NH3, H2S, etc.). The KJLC® unique PGS™ design utilizes a fixed charge volume (or reservoir) for precursor dosing that eliminates the he need for a mass flow controller for precise, accurate delivery. To control the amount of precursor being delivered, precision ALD valve timing as well as reservoir pressure, are tightly controlled through our eKLipse™ software and controls package to enable high-speed dosing with both precision and accuracy. The ALD150LX™ can accommodate up to two PGS™ modules.
Substrates (up to 150 mm diameter) are introduced/removed through a horizontal loading port either manually in atmosphere (using a hand held fixture or mechanical rail assembly), or by automated transfer using a load-lock (single or multi-wafer cassette) or cluster tool configuration that provide a controlled vacuum environment for substrate handling. Glove box options are also available for manual or automated transfer configurations.
Substrate transfer options include the following:
The standard pump for the ALD150LX™ is a Leybold D65BCS rotary vane pump (53 cfm, PFPE prepared) with optional foreline purge/vent protection and oil filtration. A dry pump with foreline purge/vent protection, as well as a customer supplied pump are optional. A heated (150°C) capacitance manometer measures process chamber pressure.
Standard:
Optional:
The ALD-150LE™ and ALD-150LX™ are now easily integrated with a glove box. The process chamber is strategically positioned in the glovebox to provide the user with easy access to load and unload their substrate.
Kurt J Lesker is able to offer a wide array of standard and custom glovebox suites, from a standard 4 port or 6 port arrangement, to custom lengths and depths.
Along with the gloveboxes and system adaptor boxes the following accessories can be supplied: