T80 Laser Source
The T80 RF CO₂ lasers is a continuous output lasers featuring Ceramic Core design, which can be configured for both air cooling and water cooling. Traditional CO₂ lasers utilize glass or metal cavities with internal metal components. Therefore, the users have to face the problem with power decreased and reduced beam stability that caused by laser gas attenuation.
T80 Laser Source
The T80 RF CO₂ lasers is a continuous output lasers featuring Ceramic Core design, which can be configured for both air cooling and water cooling. Traditional CO₂ lasers utilize glass or metal cavities with internal metal components. Therefore, the users have to face the problem with power decreased and reduced beam stability that caused by laser gas attenuation.
The T series CO₂ lasers adopt Ceramic Core design that allows the gas to be completely contained within a separate, non-reactive Ceramic Core without any parts inside. The metal electrode is mounted outside the resonant cavity. Laser gases are excited from the outside and there are no internal metal surfaces that cause reaction and contamination.
Compared to traditional metal-sealed lasers, the Ceramic Core technology can reduce thermal expansion by 70%, significantly reducing the possible changes in internal parts. The Ceramic Core technology also uses 30% fewer parts than traditional CO₂ lasers, reducing the possibility of failure. At the same time, the T-series RF CO₂ laser has an extremely short pulse rise and fall time and a small heat-affected zone, making it ideal for engraving and cutting. Production efficiency is 4 times higher than traditional CO₂ lasers.
Advantages
- Fully Ceramic Core design significantly reduces laser gas attenuation, extending the lifespan by threefold.
- A 30% reduction in internal components of the resonant cavity enhances reliability.
- Extremely short pulse rise and fall time, contribute to high production efficiency.
- Excellent power stability ensures high reliability.
Applications
- Marking
- Engraving
- Cutting
- 3D Printing
Specifications:
| MODEL | T80 | T100 |
| Wavelength (μm) | 10.6 | 10.6 |
| Output Power (W) | ≥ 80W | ≥ 100W |
| Power Stability (%) | < ±5% | < ±4% |
| Mode Quality (M²) | M² < 1.2 | M² < 1.2 |
| Beam Ellipticity | < 1.2:1 | < 1.2:1 |
| Beam Diameter (mm) | 2.5 ± 0.5 | 2.5 ± 0.5 |
| Beam Divergence (mrad, full angle) | 5.2 ± 0.5 | 5.2 ± 0.5 |
| Rise Time (μs) | < 75μs | < 75μs |
| Pulse Frequency (kHz) | 0 – 100kHz | 0 – 100kHz |
| Weight | 14.5kg (Fan) / 17.5kg (Water) | 14.5kg (Fan) / 17.5kg (Water) |
| Dimensions (L x W x H) | 535 x 192.9 x 156 mm | 581.15 x 176 x 156.1 mm |
| Cooling | Fan | Water |
| Heat Load (W) | < 1400W | < 1400W |
| Input Power | ||
| DC Input Voltage (VDC) | 48VDC | 48VDC |
| Continuous DC Input Current (A) | 30A | 30A |
| Environment Condition | ||
| Maximum Case Temperature | < 50°C | < 50°C |
| Temperature | 5°C ~ 35°C | 5°C ~ 35°C |
| Altitude | < 2000m | < 2000m |
| Humidity | Non-Condensing | Non-Condensing |
| Shipping/Storage Environment | -10°C ~ 60°C, Non-Condensing | -10°C ~ 60°C, Non-Condensing |
| Coolant | ||
| Dynamic Coolant Flow Rate (l/min) | 6L/min | 6L/min |
| Coolant Maximum Static Pressure (kPa) | 500kPa | 500kPa |
| Coolant Setpoint Temperature Range | 20°C – 30°C | 20°C – 30°C |
| Hardness of water (CaCO3) | < 250mg/L | < 250mg/L |
| Notes: Measured at 25°C and derated by 1%/°C for higher laser head temperatures. Power Stability definition: ±(Pmax – Pmin)/(2Pmax). Measured at constant duty cycle after 10 minutes laser out at operating condition. Measured at 10 kHz PRF and 60% duty cycle operation, maximum average input current. |
||
