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General description
Application: Engraving alpha-numerics and logo.
Features: This CO2 laser system was designed to mark components "on-the-fly." The parts are manually loaded onto a shelf and slid onto the conveyor. Air nozzles blow the components against a back rail for x-axis orientation. When a part moves into the mark field, a sensor detects it and automatically starts the lasing process. The parts move continuously through the mark field and finally drop into the customer's bin at the end of the conveyor.
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ProWriterTM F20
Blazing Fast Marking Times
High Repetition Rates Providing High Production Throughput
Exceptionally Clean Marks with little Heat Affected Zone
Means no detrimental effect on sensitive applications
High Contrast Marking Ratios
Important for Character & Logo, Visibility, Barcode & 2D Matrix Code Readability
Excellent for Marking : Metals, Plastics, Ceramics, Composites & More!
Annealing - Black surface marks on metals created by bringing carbon to the surface
Surface Etching - Creating high contrast surface marks by changing the material characteristics without material removal
Ablation - Shallow, permanent marks with some material removal
Engraving - Deep marks in all materials for performance or 2D, 2½ D and 3D effects
Ultra Compact Marking Head Design for Easy Integration into any Automation System
Integrated Fiber Laser Marking Systems for all Industries - Automotive, Aerospace, Commercial, Electronic, Medical, Tools & Tooling, Packaging, and Trophies & Awards
Automatic, Semi-Automatic, and Manual Parts Handling Systems
Most Powerful CAD/Graphics Based Software in the Laser Marking Industry - Laser Marking Studio
Total Software Control of all Marking & Engraving Processes with our Graphical Point & Click Interface
Advanced Interface for Seamless Coupling of Automation and Marking Parameters
3D Layering of CAD & Graphics Files
Most Comprehensive list of Barcodes & 2D Matrix Codes - includes free updates for two years
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Laser marking system designed to apply and verify ECC 200 2D matrix symbology directly on stainless steel beer kegs of various sizes. Ytterbium fiber laser quickly and permanently marks the 2D matrix code without compromising the strength of the pressurized keg.
Ytterbium fiber laser is a "0" maintenance device
Also features a combination barcode/2D matrix code reader.
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General description
Application: Marking control icons on high-end appliance tops
Features:
- 50-watt diode-pumped Nd:YAG laser
- 16-bit high precision galvanometers
- 10"x10" marking field
- Programmable linear laser motion
- Part length sensors for four discrete appliance families
- Manually adjustable Z-axis laser motion with digital position display
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General description
Application: Engraving alpha-numerics on flat and curved surfaces.
Features: A 25-watt CO2 laser system with bowl feeder contained in a noise reduction enclosure.
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IC Tray Marking Systems are designed for marking parts transported in JEDEC trays. The flexible, graphical operator interface provides the easiest setup for IC and JEDEC tray configurations. Our systems allow the users to serialize and mark parts including those in tray configurations with missing or an odd numbers of parts.
BCL's systems verify part position in the tray, pin location for orientation of the part, and the part type to ensure the correct part is loaded into the tray. Our systems are fully automated and provide real time power measurement to ensure marking parameters are within tolerances before marking begins.
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General description
Application: Engraving the connectors on various sizes of computer circuit cards.
Features: This system is built around a 10 watt CO2 laser. The computer cards are hand loaded onto the infeed end of the belt conveyor and are marked as they pass under the focusing lens. The cards do not stop while on the conveyor. They pass through a series of pneumatic doors that are timed by optical sensors to open and close sequentially, assuring CDRH Class-1 guarding throughout the marking cycle.
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Standard Features:
- 10-watt CO2 laser
- LaserGraf™ precision control software
- 16 bit high precision galvanometers
- Safety interlocked door
- Fume extraction port
- Computer, monitor, keyboard, mouse
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The Concorde is a computer controlled compact, self-contained CO2 system. This lightweight system, with its 360o rotating head, makes it easily integrated into a CDRH compliant enclosure.
Available in 10, 25, and 50 watt power
Long life CO2 tubes- 20,000 hours before recharging
Easy to use marking software included
High speed marking head with built-in error correction
Mark either stationary or optional "on the fly"
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We manufacture laser systems with many laser wavelengths including- CO2, YAG, YVO4, UV Deep UV and Green. Control Laser produces the widest range of laser marking systems with over 200 configurations. Control Laser makes it's own beam stearing heads and we have 7 full time programs for our laser marking software. Control laser provides many types of enclosures and types of automation.
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The ProWriterTM D25T is a 25 watt diode-pumped laser marker featuring a TEMoo beam profile. This compact laser system is ideal for specialized applications requiring a tightly focused beam with high energy density. The D25T marks a wide variety of marks on: metals, ceramics, composites, plastics, painted/anodized metals, and many others.
Features
Two Year Life Warranty (10,000 Hour Diode Pack)
Reduced Maintenance
Internal Stainless Steel Chiller
Lower Operating Costs
Improved Beam Density For Better Marking
Available in 4", 6" and 12" Marking Field
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Description
Versatile, compact installation equipped with laser technology of latest development and user-friendly software which has been written by ours engineers, delivered ready to be plugged in.
Features
- Up to 250 characters per second. Lettering, trade marks, commercial marks, logos, symbols, barcodes, data, matrix codes or other markings are transmitted in highest precision onto any material, any shape.
- Marking at second cycle, first-class marking quality, just-in-time production.
- No tool costs, no auxiliary progress times, minimum set-up times, no storekeeping.
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Description
Compact diode-pumped Nd:YAG Laser with outstanding beam quality. Cabin equipped with a large sliding door, tangent-bent to the top, with window to provide optimum feed conditions and access for setting up workpieces.
Features
- Travel ranges (X - Y optional, Z standard) X - Y - Z 200 mm x 200 mm x 300 mm
- Z axis with electrical adjustment
- Refrigerating set to cool the laser, thus no external water supply required
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Description
Versatile, compact installation, equipment as per latest laser technology, with user-friendly software of our own development. Additional adjusting axes 500 x 500 x 380 mm. Automatic processing of large characters all over the adjustment range.
Features
- Up to 250 characters per second. Lettering, trade marks, commercial marks, logos, symbols, barcodes, data matrix codes or other markings are processed in highest precision on any material, any shape.
- Marking at second cycle, first-class engraving quality, just-in-time production.
- No tool costs, no auxiliary progress times, minimum set-up times, no storekeeping.
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Most comprehensive software features for Deep Engraving
Unlimited process control with our graphical point and click interface
Programmable pulse widths, apertures, beam expanders, axes controls and more!
3D Layering of CAD and Graphic files to create the perfect engraving topography
Laser tool path optimization for reducing the program starts & stops to increase marking speeds from 50% to over 100%.
Patented pulse shaping technology for fast and deep material removal
Special engraving and embossing effects for creating negative and positive image reliefs
Vision interfaces for importing graphic details and for engraving verification
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Baublys Control Laser LaserFinish has been developed especially to enable the use of laser for matting and texturing medal coining dies. Exact positioning of the die is effected with the aid of a video camera system. Special lighting-engineering techniques guarantee even recognition of high-polished dies. Highly efficient software programs enable construction or search of the relief contours required for laser finishing as well as assignation of an extensive variety of parameters.
The first step consists of automatic calculation of the coining die relief by means of Z values. For this task the program needs 3D data which could be produced by - programs, for instance. Contours can be defined manually, too, as per individual selection. Furthermore it is possible to assign defined effects to the contours constructed, such as fine or rough matting, lines or textures. Finally these data are transmitted to the laser marking machine via network connection.
The second step comprises exact positioning of the coining die with the aid of a video camera system, which ensures that calculated or constructed contours concur with the actual coining die contours in shape and positioning. When contours have been aligned correctly the die is positioned underneath the laser marking head automatically and processed according to the parameters defined within very short time.
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ADI offers a wide variety of Low Dropout Linear Regulators. ADI anyCAP regulators are stable with any good quality capacitor down to 0.47 µF. ADI regulators offer high accuracy in small SOT-23 packages and include features like thermal overload protection, safety current limits, and shutdown mode to drastically reduce current consumption. ADI offers fixed and adjustable output voltages, up to 1.5 A of output current, and dropout voltages down to 80 mV. To help you select the best LDO for your application, ADI offers a parametric search of our regulators.
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General description
Application: Cutting battery dielectric from paper for use in pace-maker implants.
Features: This laser cutting system uses a 30 watt air-cooled CO2 laser to cut the dielectric pattern from a reel of paper. An automated feed system indexes the foil across dual vacuum-assisted platens.
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General description
Application: Cutting battery cathodes from aluminum foil for use in pace-maker implants.
Features: This laser cutting system uses a 355nm laser to cut the cathode pattern from a reel of foil. An automated feed system indexes the foil across a vacuum-assisted cut platen. A pick-and-place robot removes and stacks the cathodes.
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Laser & Beam Delivery
Cutting Trimming Scribing Ablation Drilling Welding
Non-contact process
Sub-micron machining
No tool wear or breakage
Faster than conventional micro-machining
Accurate and repeatable process control
Low operation cost
Quick set-up and change over
Minimized material loss
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Workstation
Clean Room compliant Class i enclosure
Pressure sensitive joystick for mask navigation
Ultra fine thumbwheel focus override
Available mask Auto Loader and Mini-Environment
Advantages
Unique Ultrafast Femtosecond Laser
Image Processing Sub-micron Repairs and Other Machining Applications
Laser Ablation and CVD
Repairs without Subtrate Damage, loss of DUV Transmission, Splatter or Edge Roll-up
Advanced Platform and Motion System provides vibration isolation
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CUTMASTER
Micrometer adjustable or programmable focus
Completely sealed to eliminate contamination
Quick change focusing lenses to accommodate multiple processing
Gas assist
Economical
Capable of cutting, trimming, welding, scribing, slotting, drilling, & marking
No tool wear or breakage
Accurate and repeatable process control
Low operation cost
Quick set-up and change over
Minimized material loss
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General description
Application: Cutting battery cathodes from aluminum foil for use in pace-maker implants.
Features: A 355nm laser is used to cut the cathode pattern from a reel of foil. An automated feed system indexes the foil across a vacuum-assisted cut platen. A pick-and-place robot removes and stacks the cathodes.
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