1400mW 525nm Free Space Laser Diode Module
Laser module designed with wavelength 525nm and power 1400mW. Typical beam size is 3.5 x 2.5 mm, with low beam divergence equal to 0.2 x 1.0 mRad.
Available on order upon request
Product description
Overview
Opt Lasers 1400 mW 525 nm Free Space Laser Diode Module features excelent divergence and beam size specifications. Laser diode driver provided with this module ensures precise controll of laser diode current, while maintaining high speed modulation. Precise controll of temperature of laser diode housing greately improves power stability and ensures long lifetime of the laser diode. This combination of beam specifications and current, temperature controll makes this module a perfect choice for both scientific and industrial aplications.
Cooling platform and PSU for this module are available for this module. If you want to add them to your orther or have any other questions feel free to contact us.
Read more about Opt Lasers free space laser diode modules.
Product Features
- Small beam size
- Low divergence
- High Optical Stability
- Active cooling
- Long Lifetime
- High speed modulation
Applications
- Illumination
- fluorescence
- Spectroscopy
- forensics
- biomedical
- Ti:sapphire pumping
Specifications
Typ. Center Wavelength [nm, ±7] | 525 |
---|---|
Output power [mW] | 1400 |
Typ. Beam Size [mm, @ 1/e2]1 | 3.5 x 2.5 |
Typ. Full Angle Beam Divergence [mRad, @ 1/e]1 | 0.2 x 1.0 |
Polarization State | TE |
Peak-to-peak Power Stability Over 8h, %2 | 0.5 |
RMS Power Stability Over 8h, %2 | 0.08 |
Lifetime [h] | 10 000 |
Modulation Input [V, Analog] | 0-5 |
-3 dB Bandwidth Modulation [kHz] | 600 |
Softstart Time [ms] | 2000 |
Rise Time [ns]3 | 250 |
Fall Time [ns]3 | 150 |
Signal To Rise Start Delay [ns]3 | 400 |
Laser Diode ESD Protection | YES |
Cooling Method | Active - TEC |
Operating Temperature [°C] | 10 - 35 |
Overheat protection | Yes |
Dissipated Power [W, bottom surface] | <35 |
Max power consumption [V x A] | 7.5 x 8 |
Module dimensions (L x W x H) [mm] | 129 x 59 x 41 |
1 Vertical x Horizontal.
2 Test performed in 22°C ±2 ambient temperature using an optical power meter with an input bandwidth of 100 Hz. Power was measured every 6 seconds. Test performed after initial warm-up.
3 Measured performed with 100kHz frequency.