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Lecheng Intelligence Technology (Suzhou) Co., Ltd.

Address

J Building, Sound Valley Innovation Accelerator Center, Changshu Economic Development Zone, Changshu City, Jiangsu Province, China

Address

jack@le-laser.com

Phone

+86-17751173582

Fax

CO₂ Laser Marking Machine

10.6μm Wavelength Expert——Vaporize coatings without material damage. 0.1mm Fine Marking on Plastics——Food-safe engraving for packaging & labels. 60W/100W RF-Sealed Tubes——30% longer lifespan vs glass tubes. Auto-Focus for 3D Objects——5s adjustment, ±0.2mm accuracy.

Brand Le Cheng
Product origin Shanghai
Delivery time Three months
Supply capacity Fifty sets within the year

Tags:

I. Structural Features

Precision-engineered for versatile non-metal processing:

Advanced CO₂ Laser Source

Sealed RF-excited CO₂ gas laser (10.6μm wavelength)
Molecular vibration energy-level transition technology

Dynamic Focusing System

Auto-Z-axis adjustment (0–150mm range)
±0.1mm focal spot maintenance

Industrial-Grade Chassis

IP53-rated enclosure (600×750×450mm, 55kg)
Vibration-damped stainless steel frame

Smart Control Platform

10.1" touchscreen HMI with material presets
Wi-Fi/Ethernet connectivity (Supports BMP, DXF, SVG)

II. Product Advantages

Redefine efficiency in non-metal processing:
✅ Material-Specific Precision

0.05–0.3mm marking/engraving depth control
Zero thermal damage to delicate materials
✅ Broad Non-Metal Compatibility
Wood, leather, acrylic, paper, rubber, ceramics
Food-grade plastics (PP, PET, HDPE)
✅ High-Contrast Marking
Chemical-free foaming/darkening effects
300% higher contrast vs inkjet printing
✅ ECO-Friendly Operation
25% lower energy consumption vs competitors
No consumables or toxic fumes
✅ Plug-&-Play Productivity
<15min setup time with intuitive software
Continuous 24/7 operation capability

III. Typical Applications

Industry	Application Scenarios	Technical Superiority
Packaging	Expiry dates on food containers	FDA-compliant food-safe marking
Leather Goods	Luxury brand logos & serial numbers	0.1mm fine line engraving depth control
Acrylic Fabrication	Signage cutting & serialization	3–8mm cutting depth at 0.2mm accuracy
Woodworking	Artistic engraving & barcoding	Char-free edge finishing (Ra<12μm)
Electronics	Component labels on PCBs & housings	Anti-static marking for sensitive parts

industrial co2 laser etcher

Specifications are indicative only - All equipment is fully customizable to your needs！

How long does it take from equipment ordering to official production when cooperating with Locsen?

The overall timeline varies depending on equipment specifications and production line scale. For standalone equipment, standard models require a 45-day manufacturing cycle, with total duration (including shipping and installation) of approximately 60 days. Customized equipment requires an additional 30 days based on technical requirements. For complete line solutions: • 100MW-level production lines require ~4 months for planning, equipment manufacturing, installation, and commissioning • GW-level production lines require ~8 months We provide detailed project schedules with dedicated managers ensuring seamless coordination. Example: A client's 1GW perovskite production line was completed 15 days ahead of schedule through parallel equipment manufacturing and facility construction.
Does Locsen offer suitable equipment and partnership solutions for startup perovskite companies

Locsen offers a "Phased Partnership Program" specifically designed for perovskite startups. For the initial R&D phase, we provide compact pilot-scale equipment (e.g., 10MW laser scribing systems) bundled with essential process packages to facilitate technology validation and product iteration. During scale-up phases, startups qualify for upgrade benefits: • Core modules from pilot equipment can be traded in with value deduction toward production-line machinery • Optional technical collaboration including process development support and experimental data sharing This program has successfully enabled multiple startups to transition smoothly from lab to pilot production while mitigating early-stage investment risks.
Can Locsen's equipment handle perovskite solar cells of varying sizes? What is the maximum supported dimension?

Locsen's laser equipment features exceptional size compatibility, capable of processing perovskite solar cells ranging from 10cm×10cm to 2.4m×1.2m. For oversized cell processing (e.g., 12m×2.4m rigid substrates), we offer customized gantry-type laser systems with multi-laser-head synchronization to ensure both precision and throughput. • Proven Performance: Successfully processed 1.2m×0.6m cells with industry-leading scribing accuracy (±15μm) and uniformity (＞98%) • Modular Design: Swappable optical modules adapt to varying thicknesses (0.1-6mm) • Smart Calibration: AI-assisted real-time beam alignment compensates for substrate warpage
Does Locsen provide tailored laser solutions for all key production stages of perovskite solar cells?

Yes, Locsen provides comprehensive laser processing solutions covering the entire perovskite solar cell production chain: P0 Laser Marking: For cell identification post-film deposition P1/P2/P3 Laser Scribing: Precision patterning of • Transparent conductive layers (P1) • Perovskite active layers (P2) • Back electrodes (P3) P4 Edge Isolation: Micron-level edge trimming to prevent short-circuiting Tandem Cell Modules: Dedicated laser etching systems for multi-material layer processing Our integrated equipment ecosystem ensures all laser processing requirements are met with: • ≤20μm alignment accuracy across layers • Thermal Affect Zone controlled under 5μm • Modular platforms supporting R&D to GW-scale production
What composition tolerance ranges do Locsen's tools support for variant perovskite formulations?

Locsen's laser systems demonstrate exceptional adaptability to diverse perovskite compositions. • Preloaded Parameters: Optimized settings for mainstream formulations (e.g., FAPbI₃, CsPbI₃) in the laser recipe library enable instant operator access • R&D Support: For novel compositions (e.g., Sn-based perovskites), our team delivers: Custom wavelength/fluence calibration within 72 hours Performance validation ensuring <1% PCE degradation post-processing • Smart Compensation: On-board spectroscopy modules monitor reflectivity in real-time, automatically adjusting: Pulse duration (20-500ns) Beam profile (Top-hat/Gaussian) Energy density (0.5-3J/cm²) Technical Highlights: ▸ Tolerance for ±15% stoichiometric variation in Pb:Sn ratios ▸ Support for 2D/3D hybrid phase patterning ▸ Non-contact processing avoids cross-contamination

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532nm green laser for ultra-fine, high-contrast marking. Ideal for sensitive materials with minimal heat impact. 30% faster speed than IR lasers, boosting productivity. Wide compatibility: plastics, metals, ceramics, glass.

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Ultra-precise UV laser for delicate material marking. 30% faster speed with 355nm wavelength accuracy. Compact design, ideal for electronics & medical devices. Low heat impact, ensures clean, permanent markings.

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Products

Featured products

Contact us

CO₂ Laser Marking Machine

I. Structural Features

II. Product Advantages

III. Typical Applications

Specifications are indicative only - All equipment is fully customizable to your needs！

How long does it take from equipment ordering to official production when cooperating with Locsen?

Does Locsen offer suitable equipment and partnership solutions for startup perovskite companies

Can Locsen's equipment handle perovskite solar cells of varying sizes? What is the maximum supported dimension?

Does Locsen provide tailored laser solutions for all key production stages of perovskite solar cells?

What composition tolerance ranges do Locsen's tools support for variant perovskite formulations?

Related Products

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