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All CNI Laser modules including infrared laser,visiable laser, all can be fiber coupled as your require. You also have to refer to the detailed specs of the laser modules (such as power, stability, noise, size, etc) to decide which laser you choose for fiber coupling.
80-240VAC, RoHS, FDA, CE complied |
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DPSS Green Laser
All solid state 532nm green laser is made features of ultra compact, long lifetime, low cost and easy to operate, which is widely used in collimation, laser medical treatment, scientific experimentation, optics instrument, laser display, laser lighting show, etc.
up to 12 W, 80-240VAC, RoHS, FDA, CE complied |
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Model LCM-T-111-20, LCM-T-111-10, LCM-T-111-1
(with output power of 20, 10, 1 mW CW respectively)
High reliable product industrially verified during many years
>10,000 hours lifetime
Small in size and easy-to-install T-series laser modules provide gas-laser beam quality and semiconductor laser module size.
LCM-T-series module incorporates driving electronics, therefore no additional driver for laser diode is required. In order to operate the module just 3.3 VDC voltage should be applied to input of the laser.
Each LCM-T-series laser module features an active power stabilization control loop. This control loop monitors output radiation of the laser module and maintains it at constant level within wide temperature range. Spherical-mirror laser cavity provides perfect and stable beam geometry. Two-lens output optics yields well collimated, centered and aligned ray of light.
Fan heat sink accessories are available.
All above allows to consider LCM-T-series modules as the best quality-to-price ratio decision for many applications.
AC version - complete laser system, model name LCS-T-11 with 3 mW output at 532 nm. |
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The 532nm DPSS green laser module is a compact, self-contained laser module designed for use in industrial alignment, medical and scientific applications where a highly visible beam is required.
It produces a very visible circular output beam of <2.0mm diameter and output powers of 0.9mW and 4mW with a maximum operating current of 250mA.
Power stability is better than 5% over 7 hours. Modulation capability of 0-1kHz is standard.
In addition, the module uses a front facet monitor photodiode to maintain a stable output power, as opposed to using the internal monitor of the laser diode, which is often less responsive.
The green laser module consists of an anodised aluminium housing, laser diode, drive circuit and collimating lens. Electrical connections are made via external flying leads.
Line generator options are available on request - contact our sales department for more information. |
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Models: LCS-T-12 (complete laser system with 50 mW CW output at 1064 nm, has AC Power Supply),
modules LCM-T-112-100, LCM-T-112-10
(with output power of 100, 10 mW respectively, operating from 3.3 V DC)
High reliable product industrially verified during many years
>10,000 hours lifetime
Small in size and easy-to-install T-series laser modules provide gas-laser beam quality and semiconductor laser module size.
LCM-T-series module incorporates driving electronics, therefore no additional driver for laser diode is required. In order to operate the module just 3.3 VDC voltage should be applied to input of the laser.
Each LCM-T-series laser module features an active power stabilization control loop. This control loop monitors output radiation of the laser module and maintains it at constant level within wide temperature range. Spherical-mirror laser cavity provides perfect and stable beam geometry. Two-lens output optics yields well collimated, centered and aligned ray of light.
Fan heat sink accessories are available.
All above allows to consider LCM-T-series modules as the best quality-to-price ratio decision for many applications. |
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Line generator can be used to display a uniform straight reference line for use in alignment, machine vision systems, construction and process control.In addition, the lenses may also be used on lower power lasers, lenses are available in fan angles of 7°, 10°, 30°, 45°, 60°, 75° and 90° for custom applications.
80-240VAC, RoHS, FDA, CE complied |
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Model GARNET - industrial laser for OEM applications: in mass-spectrometry (MALDI TOF), laser microdissection, biotechnology. Over 900 lasers GARNET work in the field in the complicated equipment.
Q-switched UV laser with pulse energy 20 µJ at 355 nm, pulse length of 5 ns operating with external triggering at 200 -2000 Hz, has 24V DC Power Supply.
Complete laser system - model name LCS-DTL-374QT with pulse energy 20 µJ at 355 nm, pulse length of <10 ns operating with external/internal triggering at pulse repetition rates from 0 to 10 kHz, has AC Power Supply. |
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| Distributed Feedback (DFB) Diode Lasers are fixed wavelength single mode diode lasers. Typical geometrical sizes of the laser chip are 1000µm x 500µm x 200µm (length x width x height). The laser chip is grown by MOVPE of compound semiconductor material. The optical gain is provided by double heterostructure which include several Quantum Wells for electronic confinement. Typcal emitter width range between 3µm and 7µm. The single mode emission is enforced by a Bragg grating with the laser chip. The surfaces of the laser chip act as cavity mirrors due to the difference of the refractive index of the laser material and the surrounding air. The rear facet of the laser chip is provided with a high reflection coating. The front facet of the laser chip is provided with a high quality antireflection coating for avoiding the Fabry Perot modes of the laser chip. Distributed Feedback (DFB) Diode Lasers are available at almost any wavelength between 760nm and 2800nm. |
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PureBeam Laser:
StockerYale's PureBeam laser is a temperature-stabilized, fiber-coupled device for a wide range of biomedical, medical, and industrial applications. This high-output power laser has integrated drive electronics and laser-welded mechanical components. The PureBeam laser features a single-mode optical fiber delivery system, and provides exceptional power stability and low noise at the fiber exit. In addition, the unit is temperature-stabilized with a thermoelectric cooler that maintains a constant laser diode temperature, resulting in excellent wavelength and output power stabilities, as well as a long lifetime. All models emit diffraction-limited circular beams with no astigmatism and have a high pointing stability.
For applications requiring uniform flat-top illumination, the PureBeam laser can be easily integrated with our Flat-Top˛ Generator, an innovative beam shaping module that converts a gaussian beam to flat-top square or rectangular profile. |
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Ultra-narrow linewidth DFB Fibre Lasers:
Adjustik, Adjustik HP, Adjustik T20, tunable
- E15, C15: 1535-1565nm up to 10/20mW, respectively 200mW
- Y10: 1030-1060nm up to 15/200mW
- T20: 1720-1780nm up to 50mW
Basik Module, tunable, single frequency
- E15, C15: 1530-1565nm up to 200mW
- Y10: 1030-1090nm up to 200mW
Boostik Module, Boostik OEM , Boostik HP, tunable
- E15, C15: 1540-1570nm up to 2Watt
- Y10: 1050-1130nm up to 2 Watt
- HP:1053-1100nm up to 10 Watt
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LIEKKI offers a value-added service by providing pre-engineered assemblies of our active and passive fibers with standard combiners, gratings and end caps.
Our optical engines are available in a variety of configurations (forward, backward and bidirectionally pumped) and power levels (10-100 W CW) allowing you to choose a standard module which meets your requirements and accelerates your developments. Both laser and amplifier optical engines are available and both air cooling and water cooling are options.
LIEKKI also collaborates with major pump suppliers on creating integrated solutions for pumps and optical engines.
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| YLIA M20 - 20W double clad fiber laser for high speed marking and engraving on a wide range of materials. 1mJ at 20kHz in 100ns pulse duration, it reaches 10kW useful peak power to ablate most of the common used metals in the industry. |
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StarFiber
ROFIN provides robust and compact fiber lasers with a power range of 100 - 200 W, especially for finest welding seams. Our fiber lasers feature
among others:
closed loop power control
power control dependent on travel speed
safety features (industrial standard)
convenient operator control
innovative ROFIN control unit (RCU) |
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VPFL-8000: 8 Watts Fiber Laser
APPLICATIONS:
- Marking
- Material processing
- Micromachining
- Welding
- Spectroscopy
- Medical
SPECIFICATIONS:
Operational mode Short pulse: Wavelength 1060 - 1080 nm
Average output power: 8 Watts
Repetition rate 15 - 100 kHz
Pulse width: 50 - 120 nsec
Pulse energy (max) > 500 µJ
Peak power (max) > 10,000 Watts
GENERAL PARAMETERS:
Operational voltage: 12 VDC
Dimensions: 300 X 120 X 50 cm
300 X 120 X 95 cm (with heat sink)
Fiber length: 150 cm (other options available)
Output fiber collimator: 8 mm diameter (other options available)
Output beam parameters M2 < 1.5
Specifications are subject to change without prior notice. |
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VPFL-5000: 5 Watts Fiber Laser
APPLICATIONS:
• Marking
• Material processing
• Micromachining
• Spectroscopy
• Medical
SPECIFICATIONS:
Operational mode: Short pulse
Wavelength: 1060 - 1080 nm
Average output power: 5 Watts
Repetition rate: 10 - 100 kHz
Pulse width: 50 - 120 nsec
Pulse energy (max): 500 µJ
Peak power (max): 10,000 Watts
GENERAL PARAMETERS:
Operational voltage: 12 VDC
Dimensions 300 X 120 X 50 cm
300 X 120 X 95 cm (with heat sink)
Fiber length: 150 cm (other options available)
Output fiber collimator: 8 mm diameter (other options available)
Output beam parameters M2 < 1.5
Specifications are subject to change without prior notice. |
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VPFL-10000: 10 Watts Pulsed Fiber Laser.
APPLICATIONS:
• Marking
• Material processing
• Micromachining
• Welding
• Spectroscopy
• Medical
SPECIFICATIONS:
Operational mode: Short pulse
Wavelength: 1060 - 1080 nm
Average output power: 10 Watts
Repetition rate: 20 - 100 kHz
Pulse width: 50 - 120 nsec
Pulse energy (max): 500 µJ
Peak power (max): 10,000 Watts
GENERAL PARAMETERS:
Operational voltage: 12 VDC
Dimensions: 300 X 120 X 50 cm
300 X 120 X 95 cm (with heat sink)
Fiber length: 150 cm (other options available)
Output fiber collimator: 8 mm diameter (other options available)
Output beam parameters: M2 < 1.5
Specifications are subject to change without prior notice. |
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Green Lasers:
StockerYale's Lasiris Green Lasers generate output power stabilized by an internal photodiode. The spot projected is circular in shape, but it can be used with our patented optical line generators that provide uniform distribution of light instead of the more common gaussian distribution. This focusable laser has applications in alignment, inspection, and machine vision. These lasers are offered with a 1-year warranty.
Another advantage is that a green beam is more visible to the human eye than red, thereby making the relative eye response to the green much higher. A 1 mW green beam (532 nm) will be better perceived by the human eye than a 1 mW red beam (635 nm). |
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In 2001, with industry showing ever greater interest in treating or preparing surfaces with switched solid-state lasers (deflashing, cleaning, deoxydation, marking, etc.), Quantel launched the Yasmin line of nanosecond-pulsed laser systems.
Since the materials to be treated are very diverse, Yasmin switched Nd:YAG lasers can emit in the infrared (1064 nm), visible (532 nm) or ultra-violet (355 nm) spectrum. Five models are currently available. |
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Diode-pumped laser sources
for marking, cutting and trimming.
The high electro-optic conversion efficiency of the SagittaTM allows low electrical power consumption with a reduction footprint for the cooling element. This high efficiency also allows to reduce ageing of the diode laser for long life applications, which reduced replacement costs upon consumption of the diode after an average of 10,000 working hours without any maintenance interventions.
The laser resonator is designed specifically for marking, engraving and thin gauge cutting application by optimizing beam quality for higher processing power and speed.
SagittaTM is often required on precision marking components, surgical instruments, tools and ball bearings. Using 100 and 160 mm focal length objectives, SagittaTM is able to engrave metals with a very high material removal capacity. The high power density of laser beam combined with the high speed of the scanning head, allows fast, deep engraving on metals.
The beam quality resulting from Laservall’s design philosophy also makes SagittaTM High Power an interesting tool for precision cutting of thin metal sheet, including highly refl ective materials such as silver and gold. This can be achieved using the 100 mm focal lens directly, or a special Head to obtain very high power density in the spot. By using an appropriate gas cover, it is also possible to perform jobs on stainless steel and titanium materials with no oxidation. This High Power laser also meets demanding industrial applications in precise trimming on Indium Tin Oxide (ITO). |
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Magnum II Laser:
StockerYale’s Lasiris™ Magnum II structured light laser is a high-power line generator developed for the most demanding industrial applications. It is available with a wide selection of output powers and fan angles and generates a uniform intensity distribution using patented line generating optics. In addition, the laser has high beam pointing and focusing stabilities.
The Magnum II has fully protected electronics as well as a bipolar thermoelectric cooler used to keep the laser diode at a constant temperature. The laser beam can be modulated by an external signal and all models can operate in either CW or external modulation mode.
The standard unit provides voltage outputs proportional to the beam power, laser diode current and laser diode temperature, for external monitoring. Optionally, the LCD located on the back panel can monitor these parameters. All units have a built-in time-lapse counter that enables the user to monitor the laser diode lifetime.
- Uniform, non-Gaussian intensity distribution along the line
- Very high intensity
- Wide selection of fan angles
- Focusable
- High pointing stability
- Protected against over-voltage, reverse polarity of power supply, over-
heating and ESD
- Rugged industrial-grade design
Applications
- High-speed road & rail inspection
- 3D profiling and mapping
- Web Inspection
- Hot steel-plate
- Flow visualization
- Machine vision
- Fluorescence-induced inspection |
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Diode-pumped laser sources
for marking and micromachining.
The high electro-optic conversion efficiency of the SagittaTM allows low electrical power consumption with a reduction footprint for the cooling element.
This high efficiency also allows to reduce ageing of the diode laser for long life applications, which reduced replacement costs upon consumption of the diode after an average of 10,000 working hours without any maintenance interventions.
The laser resonator is designed specifically for marking, engraving and micromachining application by optimizing the beam quality. The long-term stability of SagittaTM laser reach the requirements for integration into automatic production lines.
Integration into a complete system is extremely simple.
The power supply rack comes complete with hardware features required to be easily interfaced with external components to build a turn-key system. In order to create a laser marking system it is only required to give signals to control the Scanning Head.
Replacing the laser diode module is extremely simple, all you need is an allen wrench.
SagittaTM is often required on precision marking components, surgical instruments, tools and ball bearings. Using 100 and 160 mm focal length objectives, SagittaTM is able to engrave metals with a very high material removal capacity. The high power density of laser beam combined with the high speed of the scanning head, allows fast, deep engraving on metals. |
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Energy-Efficient 808nm 200mW Laser Diode for Solid State Laser Pumping
Photonic Products, the UK optoelectronics device manufacturer and laser diode specialist, is delighted to announce the launch of a new laser diode from Sanyo, the DL-LS2075, which offers high beam quality and laser performance with exceptional CW optical output power of 200mW at a lasing wavelength of 808nm.
The single longitudinal mode and fundamental transverse mode performance of this 808nm laser makes it an ideal, energy efficient excitation source for solid-state YAG lasers, used to generate 532nm "green" laser outputs. It is also suitable as a high power light source in therapeutic medical equipment and scientific equipment and also in free space optical communications.
Supplied in a 5.6mm package with N type common cathode pin configuration, the Sanyo DL-LS2075 single longitudinal mode 808nm laser diode has an optical output power of 200mW CW, fundamental transverse mode, low threshold current of 50mA, typical operating current of 230mA, operating voltage of 2.0V, monitoring output current of 0.5mA, differential efficiency of 1.2mW/mA at an operating temperature range of -10 degrees Centigrade to +50 degrees Centigrade. |
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| Distributed Feedback (DFB) Diode Lasers are fixed wavelength single mode diode lasers. Typical geometrical sizes of the laser chip are 1000µm x 500µm x 200µm (length x width x height). The laser chip is grown by MOVPE of compound semiconductor material. The optical gain is provided by double heterostructure which include several Quantum Wells for electronic confinement. Typcal emitter width range between 3µm and 7µm. The single mode emission is enforced by a Bragg grating with the laser chip. The surfaces of the laser chip act as cavity mirrors due to the difference of the refractive index of the laser material and the surrounding air. The rear facet of the laser chip is provided with a high reflection coating. The front facet of the laser chip is provided with a high quality antireflection coating for avoiding the Fabry Perot modes of the laser chip. Distributed Feedback (DFB) Diode Lasers are available at almost any wavelength between 760nm and 2800nm. |
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Various applications of laser guide line lights
In many fabrication processes, it is helpful for the operator to be able to pre-visualize the path of the tool before the process begins. This offers benefits in efficiency through faster setups with less material waste, in quality through positioning surface features for best appearance and in safety through heightened operator awareness of the zone of danger represented by the tool's motion.
Since 1985, Z-LASER has offered laser guide line lights for just such applications. The bright, highly visible line produced by the laser provides exactly the reference the operator needs to ensure precise alignment between the material and the tool. Whether you require precise positioning for cutting, parts placement or machinery calibration, Z-LASER offers a large range of powerful, industry-tested lasers. The wide variety of available models and output power levels means it's easy to pick the right combination of features for the job at hand.
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A range of compact and affordable laser modules generating an accurate line or cross at 635nm or 650nm with uniform intensity distribution. The laser modules measure just 29mm in length, with a diameter of only 8mm and are extremely efficient and reliable.
They are ideal for the most demanding industrial and medical applications where space is at a premium, such as handheld instrumentation, targeting, alignment and machine vision.
These laser diode modules generate either a 70 degree full angle cross or a 58 degree or 88 degree full angle line, all factory focused at 1000mm. The focus can be set to other distances on request. The lens system produces an efficiently uniform intensity laser line.
At a visible wavelength of either 650nm or 635nm, these compact laser diode modules offer output powers of 0.9mW or 4mW with power stability of less than 5 per cent. Operating voltage is from 3V to 6V DC at an operating current of 30mA typ, (0.9mW) or 40mA typ, (4mW). Operating temperature range is -10 degrees Centigrade to +40 degrees Centigrade.
The laser modules consist of a brass housing, a laser diode, drive circuit and beam-shaping optics. Electrical connections are made via external flying leads. All modules have static, surge and reverse polarity circuit protection. |
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Z-LASER in Machine Vision
Laser projections of dots, dot matrices, lines, multi-lines, grids, circles and other patterns in combination with miscellaneous camera types play an important role in machine vision.
For single profile measurements a camera and a laser line are sufficient. Surface contour measurements of moving objects require a camera with distortion-free or telecentric optic, a line laser and image processing tools. Dot projections are suitable for simple presence check and height measurements, crosses and target projections are in high demand in robotics, circles are used for example for weld seam checks, multi lines, grids and point matrices allow taking a height profile in one image.
The industrial image processing has very high requirements to the features of the laser line. A good homogeneity of the light intensity and an even, non-gaussian light distribution, as well as a constant line width and a high sharpness of the laser line are absolutely necessary. The image processing with projected laser structures require reliable lasers with stable wavelengths and power output. The new ZV series of Z-LASER has been systematically been developed for these requirements.
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