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The OPT-1300P represents a highly engineered breakthrough in compact precision deposition, purposefully designed to address the rigorous demands of modern optical component manufacturing. Unlike oversized vacuum chambers that waste valuable space and energy when processing smaller substrates, this system utilizes a highly optimized dome architecture. It seamlessly integrates industrial-grade magnetic fluid-driven central rotation with advanced ion-assisted deposition capabilities, ensuring every coated lens, camera aperture, or cover glass emerges with flawless uniformity and exceptional durability. The tactile smoothness of the rotation mechanism translates directly into zero-vibration processing, safeguarding delicate substrates from mechanical stress while maintaining absolute precision during the deposition cycle.
By combining optical-grade thickness monitoring with a drastically reduced physical footprint, this equipment empowers facility managers to maximize floor space yield without compromising on film quality. The dense, scratch-resistant finishes produced by this machine meet the strictest criteria for consumer electronics and precision imaging devices. It provides a highly efficient, continuous-operation platform that bridges the gap between uncompromising optical performance and stringent cost control. Whether deploying a new production line or upgrading existing capabilities, operators will experience a whisper-quiet, highly responsive system that transforms raw substrates into premium optical components with unparalleled reliability.
Compact Chamber Optimized for Small & Medium Optical Components
OPT-1300P features a φ1200 mm vacuum dome, designed for high-density loading of optical components rather than oversized substrates.
This configuration is especially suitable for:
Optical lenses and lens arrays
Eyeglass lenses
Camera apertures
Small cover glass and decorative components
Value Delivered
High effective utilization of chamber space
Excellent productivity for small-part batch coating
Reduced idle volume compared with oversized systems
Despite its compact size, OPT-1300P adopts the same magnetic fluid sealing central rotation architecture used in larger industrial systems.
Compared with traditional mechanical sealing designs, this structure provides:
Lower vacuum leakage over long-term use
Smooth and stable rotation
Reduced mechanical wear and maintenance demand
Value Delivered
Stable coating uniformity across multiple production cycles
Reliable performance even in continuous operation
Higher process repeatability for optical films
OPT-1300P supports a rotation speed range of 0–50 rpm, exceeding that of larger models.
This wider speed range enables:
Better thickness averaging for small components
Improved uniformity in dense fixture arrangements
More flexible process tuning for different product geometries
Value Delivered
Enhanced coating consistency for small and complex optical parts
Greater process adaptability without hardware changes
OPT-1300P supports Hall, Kaufman, and RF ion sources, allowing ion-assisted deposition to be integrated when higher film performance is required.
Ion assistance helps:
Increase film adhesion
Improve coating density
Enhance wear and scratch resistance
Value Delivered
Reliable performance for AR, AF, and reflective optical coatings
Longer service life of coated components
The system is equipped with INFICON XTC/3 thickness control combined with a 6-point rotating crystal sensor, ensuring accurate thickness feedback even in a smaller chamber.
An optional optical monitoring system can be added for multilayer coating processes.
Value Delivered
High thickness accuracy
Stable batch-to-batch consistency
Suitable for precision optical film production
OPT-1300P is designed with reduced power and cooling demand, making it easier to integrate into existing factories or new production lines.
Power requirement: approx. 100 kVA
Cooling water requirement: approx. 140 L/min
Value Delivered
Lower facility modification cost
Faster project setup
Ideal for small and medium-sized manufacturers or overseas installations
Model | OPT-1300P |
Substrate dome size | About φ1200mm |
Rotational speed | 0-50rpm(variable) |
Crystal film thickness monitor | INFICON XTC/3 + 6-point crystal rotay sensor |
Operating system | Siemens/Mitsubishi |
Evaporation source | E-beam gun x2 |
Ion source | Hall,Kaufman, RF |
Baking method | Room temperature to 350℃ quartz lamp or stainless tube header |
Ultimate pressure | Below 7.0×10⁻⁵Pa |
Pump-down time | Atmospheric pressure ~ 3.0×10⁻³Pa below 15 min |
Power requirement | Three-phase, 380V, 50/60Hz, approx. 100kVA |
Cooling water requirement | Above 140L/min, approx. |
Air pressure requirement | 0.5-0.7MPA |
Mobile phone apertures
Colored mobile phone cover glass
Process Advantages
Stable AR and AF coatings with high surface consistency and durability.
Camera AR lenses
Optical lenses
Telescope components
Process Advantages
Accurate thickness control and optional ion assistance ensure reliable multilayer optical performance.
Eyeglass lenses
High-end decorative components
Process Advantages
Dense coatings with good wear resistance and uniform appearance.
Optical component manufacturing
Consumer electronics
Imaging and inspection systems
Eyewear production
Functional and decorative coating industries
OPT-1300P
Optimized for compact size and lower energy consumption
Best suited for small to medium components
Lowest investment threshold within the series
OPT-1550P / OPT-1800P
Designed for larger substrates and higher throughput
Suitable for medium to large-scale production lines
Absolutely. The system is built around a robust magnetic fluid-sealed rotation mechanism and industrial-grade Siemens/Mitsubishi controllers. It is specifically engineered to maintain stable, uninterrupted batch production in demanding, high-volume environments with minimal maintenance intervals.
The optical performance is identical. This system utilizes the exact same advanced evaporation sources, ion-assisted deposition technology, and INFICON thickness control architecture found in our largest models. The primary difference is the optimized chamber size, which is intentionally designed to be more efficient for small to medium components.
Yes. We understand that different optical components require unique handling and processing. The system supports multiple ion source options (Hall, Kaufman, RF) and can be outfitted with either bell jar or planetary workpiece holders, all customized to match your exact application requirements.
One of the greatest advantages of this compact system is its low barrier to deployment. It requires a three-phase 380V power supply (approximately 100kVA), a cooling water flow of at least 140 L/min, and standard air pressure of 0.5-0.7 MPA. This significantly reduces the need for costly facility upgrades.
We provide a comprehensive support ecosystem. This includes detailed installation supervision, hands-on process training for your operators, and long-term technical service. Our engineering team remains available to assist with process tuning and troubleshooting to ensure your production line remains highly efficient.
