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30W-CR30 Radio Frequency CO₂ Laser
Product Description
The CR30C Type Radio Frequency CO₂Laser delivers an output power of 30W. It adopts a design integrating a sealed waveguide and an integrated radio frequency power supply, featuring high product reliability and the capability to operate continuously for 7×24 hours over the long term even in harsh industrial environments.
The CR30C Type Laser boasts excellent beam quality and power stability. Its laser wavelength ranges from 9.3 to 10.6μm, and it can be configured with either air cooling or water cooling systems. These characteristics make it the preferred laser for high-performance laser marking and engraving systems, while requiring only low operating and maintenance costs.
The CR30C Type Laser is an ideal choice for laser processing of a wide range of materials, including paper, plastic, acrylic, wood, rubber, leather, fabric, medium-density fiberboard (MDF), and more.
Key Features
- Stable and Efficient Output Performance: This laser provides 30W output power, combined with excellent beam quality and power stability, enabling continuous output of uniform and reliable laser energy to meet the stringent requirements for energy stability in high-precision processing.
- High Reliability and Strong Environmental Adaptability: Adopting a sealed waveguide and integrated radio frequency power supply design, the product's reliability is greatly improved. It can achieve long-term continuous 7×24-hour operation in harsh industrial environments without frequent shutdowns for maintenance, ensuring production efficiency.
- Flexible Cooling and Wavelength Configuration: The laser wavelength covers 9.3-10.6μm, adapting to the absorption characteristics of different materials. It also supports both air-cooling and water-cooling methods, which can be flexibly selected according to usage scenarios and processing needs, reducing equipment deployment restrictions.
- Economical Usage Cost: While ensuring high performance, it requires only extremely low operating and maintenance costs, reducing long-term operational investment and combining cost-effectiveness with practicality.
Technical Parameters
Model |
CR30C |
CR30Ch |
CR30Ci |
Wavelength (μm) |
10.55 - 10.63 μm |
10.11 - 10.31 μm |
9.24 - 9.35 μm |
Output Power (W)① |
> 35 W |
> 35 W |
> 30 W |
Power Stability②③ |
< ±5% |
< ±5% |
< ±5% |
Beam Quality (M²) |
< 1.2 |
< 1.2 |
< 1.2 |
Beam Ellipticity |
< 1.2 |
< 1.2 |
< 1.2 |
Beam Diameter (1/e²) |
2 ± 0.2 mm |
2 ± 0.2 mm |
2 ± 0.2 mm |
Beam Divergence Angle |
< 7 (mrad, full angle) |
< 7 (mrad, full angle) |
< 7 (mrad, full angle) |
Height of Light Exit Port |
64.5 mm |
64.5 mm |
64.5 mm |
Polarization (Linear Polarization, Parallel to Width) |
> 100:1 |
> 100:1 |
> 100:1 |
Modulation Frequency |
0 - 50 kHz |
0 - 50 kHz |
0 - 50 kHz |
Duty Cycle |
0 - 100% |
0 - 100% |
0 - 100% |
Weight |
6.5 kg (Air - cooled) / 5.9 kg (Water - cooled) |
6.5 kg (Air - cooled) / 5.9 kg (Water - cooled) |
6.5 kg (Air - cooled) / 5.9 kg (Water - cooled) |
Dimensions (Length × Width × Height) |
357 × 93 × 145 mm (Air - cooled) / 390 × 93 × 95 mm (Water - cooled) |
357 × 93 × 145 mm (Air - cooled) / 390 × 93 × 95 mm (Water - cooled) |
357 × 93 × 145 mm (Air - cooled) / 390 × 93 × 95 mm (Water - cooled) |
Heat Dissipation Method |
Air - cooling / Water - cooling |
Air - cooling / Water - cooling |
Air - cooling / Water - cooling |
Thermal Load |
550 W |
550 W |
550 W |
Power Requirements | |||
Input Voltage |
48 VDC |
48 VDC |
48 VDC |
Input Current |
11 A |
11 A |
11 A |
Environmental Conditions | |||
Maximum Shell Temperature |
< 60 °C |
< 60 °C |
< 60 °C |
Ambient Temperature |
5 - 40 °C |
5 - 40 °C |
5 - 40 °C |
Altitude |
< 2000 m |
< 2000 m |
< 2000 m |
Humidity |
< 95%, No Condensation |
< 95%, No Condensation |
< 95%, No Condensation |
Shipping and Storage Environment |
-10 - 60 °C, No Condensation |
-10 - 60 °C, No Condensation |
-10 - 60 °C, No Condensation |
Cooling Water Requirements | |||
Flow Rate |
4 L / min |
4 L / min |
4 L / min |
Temperature |
20 - 25 °C |
20 - 25 °C |
20 - 25 °C |
Maximum Pressure |
< 0.6 MPa |
< 0.6 MPa |
< 0.6 MPa |
Applications
Leveraging multi-dimensional advantages, this laser has become the preferred light source for high-performance laser marking and engraving systems. It can be widely applied to laser processing of various materials, including paper, plastic, acrylic, wood, rubber, leather, fabric, and medium-density fiberboard (MDF). It is suitable for scenarios such as packaging marking, craft engraving, and building material processing.
