The RHL532 Raman Laser features a central wavelength of 532nm with adjustable output power from 0 to 100mW. This series provides the narrow linewidth, stable spectrum, and power stability required for spectroscopic analysis instruments. Multiple output configurations are available, including free-space and fiber-coupled output options.
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Specification
| Name | Software-Controlled Laser | Manual-Controlled Laser | ||
| Appearance |  |
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| Model | RHL532-10US | RHL532-10UF | RHL532-10HS | RHL532-10HF |
| Output interface | SMA | FC | SMA | FC |
| Dimensions | 203×69.5×57mm | 191×149×60 mm | ||
| Weight | 807g | 2kg | ||
| Supply voltage | 5V/4A | 12V/2A | ||
| Central wavelength | 532±0.5nm | |||
| Spectral linewidth | <2.0nm | |||
| Laser power | 0~100mW (adjustable) | |||
| Power stability | <3% P-P (2hrs) | |||
| Lifetime | 5,000 hrs | |||
| Warm-up time | 15 min | |||
| Operating temperature | 0~45℃ | |||
| Operating humidity | 5~80% | |||
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Dimensional drawing
RHL532 Software-Controlled Laser
RHL532 Manual-Controlled Laser
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Stability test
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Application
- Material Analysis
Used for studying material surface and structural properties, as well as photovoltaic cell performance testing. With a Raman spectroscopy system, the 532nm laser enables rapid, non-destructive signal acquisition from solids, powders, and liquids. It is suitable for raw material screening, on-site testing, and substance identification.
- Gas Detection
Designed for high-sensitivity detection of specific gases such as CO₂, CO, H₂, CH₄, C₂H₆, N₂, and O₂. Applicable in transformer oil and gas aging detection, well-logging gas analysis, new energy battery degradation testing, and petrochemical exhaust monitoring. It provides fast and accurate gas composition analysis for environmental monitoring, industrial process control, safety inspection, and scientific research.
