Product Name | Outpower | Fiber Core Diameter |
---|---|---|
F10-XXX-0.5 | 10W | 50 µm |
F20-XXX-1 | 20W | 100 µm |
F150-XXX-2 | 150W | 200 µm |
F200-XXX-4 | 200W | 400 µm |
F250-XXX-6 | 250W | 600 µm |
We also offer other models not listed above. For more information, please contact us with a model number of your choice.
Model Number Breakdown (FY-XXX-Z) F:Model Type: F = Fiber coupled laser diode module Y:Output Power (W): Up to 10kW XXX:Wavelength (nm) *Standard: 808, 915, 940, or 980 nm *Non-standard available. Please inquire. Z:Fiber Core Diameter (in hundreds of microns): 0.05-1.0mm
Product Name | Outpower | Fiber Core Diameter |
---|---|---|
F500 | 500W | 600µm |
F1500 | 1500W | 600µm |
F3500 | 3500W | 600µm |
We also offer other models not listed above. For more information, please contact us with a model number of your choice.
Model Number Breakdown (FY-XXX-Z) F:Model Type: F = Fiber coupled laser diode module Y:Output Power (W): Up to 10kW XXX:Wavelength (nm) *Standard: 808, 915, 940, or 980 nm *Non-standard available. Please inquire. Z:Fiber Core Diameter (in hundreds of microns): 0.05-1.0mm
Product Name | Outpower | Divergence (FWHM) | Beam Dimensions |
---|---|---|---|
C35-XXX-0 | 35W | 4x4 mrad | 11x11mm |
C150-XXX-0 | 150W | 4x4 mrad | 16X22mm |
C550-XXX-0 | 550W | 4x4 mrad | 33X32mm |
C1000-XXX-0 | 1000W | 4x4 mrad | 32X32mm |
We also offer other models not listed above. For more information, please contact us with a model number of your choice.
Model Number Breakdown (CY-XXX-0) C:Model Type: C = Collimated Y:Output Power (W): Up to 10kW XXX:Wavelength (nm) *Standard: 808, 915, 940, or 980 nm *Non-standard available. Please inquire. 0: No Fiber output
Product Name | Outpower | Spot |
---|---|---|
S3500 | 3500W | 1.5X16, 1X4, 1X2, 4X4, 2X50mm etc |
S5000 | 5000W | 1.5X16, 1X4, 1X2, 4X4, 2X50mm etc |
S10000 | 10,000W | 1.5X16, 1X4, 1X2, 4X4, 2X50mm etc |
We also offer other models not listed above. For more information, please contact us with a model number of your choice.
Product Name | Outpower | Fiber Core Diameter |
---|---|---|
F200 | 200W | 600µm |
F400 | 400W | 600µm |
F500 | 500W | 800µm |
We also offer other models not listed above. For more information, please contact us with a model number of your choice.
Model Number Breakdown (FY-XXX-Z) F:Model Type: F = Fiber coupled laser diode module Y:Output Power (W): Up to 10kW XXX:Wavelength (nm) *Standard: 808, 915, 940, or 980 nm *Non-standard available. Please inquire. Z:Fiber Core Diameter (in hundreds of microns): 0.05-1.0mm
In addition to our standard designs, Apollo Instruments offers many existing design modifications that allow for a high degree of product customization. Apollo Instruments also supplies a variety of optical options, such as low aberration focusing and/or collimation assemblies, mirrors, filters, spatial filters, and other accessories. Please inquire for further information if these options or other features can better help us meet your needs.
Operation current | 45-90A |
---|---|
Cooling | Tap water or conduction |
Pilot Beam | A low power visible diode laser can be integrated into the laser modules for tracking the laser output. Power to the pilot beam is integrated in Apollo's laser diode driver. If a different laser is used, a 2.5V-3.5V DC power source should be supplied. |
Operation Modes | These laser diode devices can be designed to operate with high-power output in QCW mode and other pulse modes. The short pulse option allows the module to produce very short (ns level) pulses as a stand-alone device. |
Photodiode Sensor | A photodiode sensor placed in the module provides the user with a precise gauge of the laser status. |
TEC Cooling Stage | Some products can be equipped with our TEC cooling stage. Together with a thermal electric cooler (TEC) and heat sink, the cooling stage allows precision cooling. Based on your need, the heat sink can be air-cooled or water-cooled. |
Laser Diode Driver | The advanced circuit design and layout of the laser diode driver provides a low noise, highly stable output current. External digital modulation input allows precision control of the laser output for use in a variety of applications. A slow-start sequence as well as multiple shorting and current limiting circuits provides superior protection during operation of the laser diode. |