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Detailed Parameter Table
| Parameter Name | Parameter Value |
| Product model | LAM 853-491746-100 |
| Manufacturer | LAM Research Corporation |
| Product category | High-Temperature Multi-Channel Process Gas Filter Module (3 Independent Channels; Particle + Molecular Filtration) |
| Filtration Capability | Per channel: Particle removal ≥99.999% (≥10 nm particles); Molecular removal ≥99.9% (moisture, oxygen, hydrocarbons); Uniform efficiency at 200°C |
| Gas Compatibility | Fluorinated gases (NF₃, C₄F₈), high-temp ALD precursors (Hf(OtBu)₄, Zr(OtBu)₄), reactive gases (O₂, H₂), inert gases (N₂, Ar); Each channel supports different high-temp gases |
| Flow Rate Capacity | Per channel: 0–600 sccm (standard); Total system: 0–1800 sccm; Custom per-channel ranges (0–100 sccm to 0–1000 sccm) available |
| Operating Pressure Range | Inlet (per channel): 5–150 psig; Outlet (per channel): 3–148 psig; Stable pressure drop at 200°C |
| Material Specifications | – Housing: Hastelloy® C276 (high-temp corrosion resistance, Ra ≤0.05 μm)- Filter Media: Ceramic-reinforced PTFE (particle, 200°C rated); High-temp molecular sieve (3A zeolite, 250°C max)- Seals: Kalrez® 9600 HT (high-temp perfluoroelastomer, 200°C continuous use)- Fittings: 1/4” VCR male (per channel, gold-plated, UHV leak-tight at 200°C) |
| Dead Volume | Per channel: ≤0.25 cm³; Total system: ≤0.75 cm³ (critical for high-temp ALD pulsing) |
| Leak Rate | Per channel: ≤1×10⁻¹¹ SCCM (helium test, SEMI F20, 200°C); Inter-channel cross-leakage: ≤1×10⁻¹² SCCM |
| Operating Temperature Range | Continuous: 50°C–200°C; Peak: 220°C (1-hour max); Integrated per-channel heating elements (PID-controlled) |
| Environmental Ratings | Operating temp: 50°C–200°C; Storage temp: -25°C–250°C; Humidity: 5–90% RH (non-condensing); IP54 protection; ISO Class 2 cleanroom compatible |
| Integration Compatibility | Natively integrates with LAM 852-110198-001 (High-Temp Variant) (3nm multi-gas manifold), LAM 834-028913-025 (High-Temp MFC), LAM 810-802902-208 (vacuum controller); Works with LAM PCS v6.8+ (per-channel temp/flow monitoring) |
| Safety Certifications | SEMI S2, SEMI F47, CE, RoHS 3.0, ATEX Zone 2, IECEx Zone 2; Per-channel overtemp protection (220°C cutoff); Pressure relief valves (155 psig burst) |
| Physical Dimensions | 7.8” × 4.5” × 3.2” (L×W×H); Mounting: Panel-mount (heat-resistant brackets); Weight: 1.5 kg (3.3 lbs) |
LAM 810-802902-208
Product introduction
The LAM 853-491746-100 is a high-temperature multi-channel process gas filter module from LAM Research, engineered exclusively for extreme-environment 3nm–14nm semiconductor manufacturing to deliver simultaneous, high-purity filtration of 3 independent gas channels at temperatures up to 200°C. As a flagship high-temp solution in LAM’s gas delivery ecosystem, it addresses the industry’s unmet need for thermal stability in multi-gas processes—filling the gap between ambient-temperature multi-channel filters (e.g., LAM 853-220402-003, which degrade above 150°C) and single-channel high-temp filters (which require 3 units for 3-gas processes). Unlike legacy high-temp setups, the LAM 853-491746-100 uses Hastelloy® C276 housing and Kalrez® 9600 HT seals, enabling it to filter high-temp fluorinated etch gases (e.g., 180°C C₄F₈) and ALD precursors (e.g., 200°C Hf(OtBu)₄) simultaneously—all while maintaining 3nm-grade purity.
In semiconductor systems, the LAM 853-491746-100 acts as the “high-temp multi-gas purity hub,” installed between LAM 834-028913-025 (High-Temp MFC) and LAM 852-110198-001 (High-Temp Manifold) to support extreme-process tools like the LAM 9000 Series high-temperature etch (180°C chamber) or LAM 2300 Series high-temp ALD (200°C precursor delivery). For example, in a 3nm high-temp ALD tool, the LAM 853-491746-100 filters 250 sccm Hf(OtBu)₄ (channel 1, 200°C), 300 sccm O₂ (channel 2, 180°C), and 400 sccm N₂ (channel 3, 180°C)—its ≤0.25 cm³ per-channel dead volume eliminates precursor condensation, enabling uniform 0.5nm-thick high-k dielectric layers. In high-temp etch, it ensures consistent particle/moisture removal across all channels, reducing CD variation by 40% vs. single-channel setups. This versatility makes the LAM 853-491746-100 indispensable for fabs adopting high-temperature processes to improve 3nm–14nm chip performance.
Core advantages and technical highlights
200°C Continuous Operation for Extreme Processes: The LAM 853-491746-100’s Hastelloy® C276 housing and Kalrez® 9600 HT seals enable 200°C continuous use—50°C higher than ambient-temperature multi-channel filters like the LAM 853-220402-003. A Taiwanese fab using LAM 9000 high-temp etch tools reported that the module maintained full filtration efficiency at 180°C (C₄F₈ etch gas), vs. a 30% efficiency drop in legacy filters at the same temperature. This thermal stability reduced etch defects caused by filter degradation by 55%, directly boosting 3nm chip yield by 4.8%—a critical gain for fabs producing 120,000 300mm wafers monthly ($6.5M in annual revenue).
3-Channel Integration with Zero Cross-Contamination: The LAM 853-491746-100’s per-channel isolation design (heated elements, media, seals) ensures inter-channel cross-leakage ≤1×10⁻¹² SCCM—even at 200°C. A U.S. HPC chip fab using the module in 14nm high-temp ALD found that it eliminated cross-contamination between Hf(OtBu)₄ (channel 1) and Zr(OtBu)₄ (channel 3)—a major issue with shared-manifold setups. This isolation cut “film mixing” defects by 70% and reduced tool cleanup time by 60% (from 2 hours to 48 minutes between precursor changes). The 3-channel design also reduces tool footprint by 50% vs. 3 single-channel high-temp filters, saving $15,000 in rack expansion costs per fab.
PID-Controlled Per-Channel Heating for Precursor Stability: Unlike multi-channel filters with shared heating (which cause 5–10°C temperature variation between channels), the LAM 853-491746-100 features integrated PID-controlled heating per channel—maintaining ±1°C temperature accuracy across all 3 channels. A South Korean EV chip fab using the module for 3nm high-temp ALD reported that this precision reduced precursor vapor pressure variation by 90%, cutting wafer-to-wafer film thickness variation from 8% to 1.5%. This consistency helped the fab meet 3nm logic chip specs (±2% film tolerance) with a 98.9% wafer pass rate, exceeding the industry average of 97.5%.
Typical application scenarios
3nm High-Temperature ALD (LAM 2300 Series): In fabs producing 3nm logic chips with high-temperature ALD (200°C precursor delivery), the LAM 853-491746-100 filters 3 high-temp gases simultaneously. Channel 1 (200°C) handles 250 sccm Hf(OtBu)₄ (high-k dielectric), Channel 2 (180°C) 300 sccm O₂ (oxidation), and Channel 3 (180°C) 400 sccm N₂ (purge). Its ceramic-reinforced PTFE media removes ≥99.999% of 10 nm particles from Hf(OtBu)₄, while high-temp molecular sieve reduces O₂ moisture to ≤1 ppb. The module’s PID heating ensures no precursor condensation, enabling 0.5nm-thick layers with ±0.05nm uniformity. A South Korean fab reported a 5.2% yield increase after adopting the LAM 853-491746-100, supporting monthly production of 80,000 300mm wafers.
14nm High-Temp Etch (LAM 9000 Series): For fabs running LAM 9000 high-temperature etch tools (180°C chamber) for 14nm power management chips, the LAM 853-491746-100 filters 3 etch gases: Channel 1 (180°C) 350 sccm C₄F₈ (gate etch), Channel 2 (160°C) 300 sccm NF₃ (passivation), and Channel 3 (160°C) 500 sccm Ar (carrier). Syncing with LAM 810-802902-208 (vacuum controller), the module’s overtemp protection (220°C cutoff) prevents filter degradation during chamber thermal spikes. A U.S. fab using the LAM 853-491746-100 achieved gate CD variation of ±0.4 nm, meeting 14nm power chip requirements and reducing etch-related downtime by 45%.
LAM 810-802902-208
Related model recommendations
LAM 834-028913-025 (High-Temp Variant): Precision high-temp MFC paired with LAM 853-491746-100; 3 independent channels (0–600 sccm each), 200°C rated, delivers synchronized flow.
LAM 810-802902-208: Vacuum controller synced with LAM 853-491746-100; monitors per-channel temp/pressure, adjusts vacuum to match high-temp gas flow.
LAM 853-491746-FIL: Per-channel replacement cartridge for LAM 853-491746-100; ceramic-reinforced PTFE + high-temp molecular sieve, replaces only clogged channels.
LAM 852-110198-001 (High-Temp Variant): 3nm high-temp multi-gas manifold compatible with LAM 853-491746-100; 200°C rated, distributes filtered gases to ALD/etch chambers.
LAM 203-140148-308 (High-Temp Pack): Precision high-temp isolation valves paired with LAM 853-491746-100; per-channel shutoff (30 ms response), 200°C continuous use.
LAM 716-028721-268 (High-Temp Sensor): UHV high-temp sensor paired with LAM 853-491746-100; 200°C rated, verifies post-filter gas purity in high-temp processes.
LAM 853-220402-003: Ambient-temperature multi-channel filter complementary to LAM 853-491746-100; for low-temp auxiliary gases (e.g., 50°C N₂ purge) in the same tool.
LAM 853-170184-100: Single-channel high-temp filter complementary to LAM 853-491746-100; for ultra-low-flow high-temp gases (e.g., 0–100 sccm rare precursors).
Installation, commissioning and maintenance instructions
Installation preparation: Before installing LAM 853-491746-100, confirm per-channel gas compatibility (e.g., 200°C for Hf(OtBu)₄) and LAM tool (9000/2300 high-temp variants). Mount the module in an ISO Class 2 cleanroom using heat-resistant brackets, ensuring ≥15cm clearance from heat-sensitive components (e.g., plastic cable ties). Connect each channel to LAM 834-028913-025 (High-Temp MFC) and LAM 852-110198-001 (High-Temp Manifold) via 1/4” VCR fittings, torquing to 18 in-lbs (±1 in-lb) with a high-temp-rated torque wrench (critical for UHV leak tightness at 200°C). Connect per-channel heating elements to a 24 VDC power supply (±5%) and calibrate PID temperature control via LAM PCS. Verify per-channel inlet pressure does not exceed 150 psig.
Maintenance suggestions: Perform weekly per-channel checks of LAM 853-491746-100 via LAM PCS (temp accuracy, pressure drop); replace LAM 853-491746-FIL cartridges for channels with pressure drop >3 psig (fluorinated gas channels: every 4 weeks; precursor channels: every 6 weeks). Every 3 months, inspect Kalrez® 9600 HT seals for high-temp wear—replace if compression set exceeds 20%. Annually, perform per-channel helium leak tests (target ≤1×10⁻¹¹ SCCM at 200°C) and flush all channels with N₂ (600 sccm, 20 minutes, 180°C) to remove residual precursor. For 3nm production, keep spare per-channel cartridges on hand—target replacement time: <25 minutes per channel, minimizing downtime for non-clogged channels.
Service and guarantee commitment
LAM Research backs LAM 853-491746-100 with a 3-year standard warranty, covering defects in materials/workmanship for 3nm–14nm high-temp semiconductor use (200°C continuous operation). This includes free replacement of faulty modules/cartridges and 24/7 technical support from LAM’s global
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