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Price (excluding tax)
Response Rate
100.0%
Response Time
2.2hours
Very Fast Response
■Technical Like other Cube series and related systems, the Cube M calculates the energy of the laser pulse by measuring the temperature rise of the absorber. Power is calculated by measuring the duration of the laser pulse. This linear and precise physical fact makes this measurement method ideal for measuring laser power even in the smallest amounts of energy. The Cube M's main feature is its optical front end, which not only allows a maximum power density of 250 kW/cm^2, but also an angle of incidence of up to 20°. This allows laser power to be measured across the entire working area of scanner-based processes. ■About the system Cube M is an advanced version of the proven Cube, designed to measure high output power density lasers in limited space. The main feature is that it can measure even the corners of machines in remote applications and additive manufacturing of up to 2kW. A unique optical front end allows you to measure power densities up to 250 kW/cm^2 at an angle of incidence of ± 20°. This highly sophisticated optical front end is taken into account during calibration, thus ensuring the highest accuracy. ■Advantages Cube M can measure lasers in additive manufacturing equipment across the entire build platform without cables or cooling. By installing the Cube M in a location where multiple lasers overlap, you can measure all laser outputs without opening the processing equipment door. For example, 4 laser tests can be completed in less than 4 minutes, allowing you to perform power checks between each build.
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Absorber maximum beam diameter
Charging temperature range for lithium-ion batteries
Dimensions (LxWxH) excluding connectors
Interface
Laser irradiation time (depending on power)
Maximum absorber temperature
Maximum angle of incidence (perpendicular to the entrance aperture)
Maximum center tolerance
Maximum power density on protective window
Maximum rise time
Measured energy (per measurement)
Measurement accuracy (beam incidence angle max. 5°)
Measurement frequency
Power range
Power supply
Pulsed laser minimum on/off time
Recommended measurement energy (per measurement)
Reproducibility
Software
Total duration to measurement output
Wavelength range
Weight
Beam diameter above the protective window
Maximum beam divergence at 5° angle of incidence (full width)
Measurement accuracy (beam incidence angle 10° to 20°)
Part Number
Cube MProduct
CubeHandling Company
PRIMES Japan Co., Ltd.| Image | Price (excluding tax) | Beam diameter above the protective window | Charging temperature range for lithium-ion batteries | Dimensions (LxWxH) excluding connectors | Interface | Laser irradiation time (depending on power) | Maximum absorber temperature | Maximum angle of incidence (perpendicular to the entrance aperture) | Maximum center tolerance | Maximum power density on protective window | Maximum rise time | Measured energy (per measurement) | Measurement accuracy (beam incidence angle 10° to 20°) | Measurement accuracy (beam incidence angle max. 5°) | Measurement frequency | Power range | Power supply | Pulsed laser minimum on/off time | Recommended measurement energy (per measurement) | Reproducibility | Software | Total duration to measurement output | Wavelength range | Weight |
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Available upon quote | 1-4mm | 0 – 45℃ | 60 x 65 x 80mm | USB/Bluetooth | 0.1 – 2.0s | 120℃ | ±20° | ±2.0mm | 250 kW/cm² | < 1% of irradiation time | 50 – 3,000J | ±5% | ± 3% | 300 J: 1 cycle/min 3,000 J: 1 cycle/15 min | 25 – 2,000W | Built-in lithium-ion battery (rechargeable via micro USB port) | 50 µs (up to 10kHz@50% duty cycle) | 300 – 500J | ± 1% | LaserDiagnosticsSoftware (LDS) and Cube App | <10s | 1,030 – 1,090nm | 800g |
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Response Rate
100.0%
Response Time
2.2hrs
