CO2激光器熔接机 LZM-100
CO2 Laser Heat Source for Splicing & Glass Shaping:
Very clean heat source: Absolutely no deposits on fiber surface as might occur with filaments or electrodes
Provides extremely stable & repeatable operation with virtually no maintenance
Eliminates electrode or filament instability and maintenance & calibration requirements
Proprietary feedback system ensures heating power stability
No need for process gas (as required with filament systems)
Redundant automated laser safety features
Excellent performance for dissimilar diameter fiber splicing
Tremendous Capability for R&D and Production:
Ultra high-strength splicing
Splices and processes fibers with up to 2.3 mm diameter
Long travel / high resolution Z motion for very long adiabatic tapers
Onboard multi-step “Special Functions” simplifies complicated glass shaping processes
SpliceLab PC GUI provides additional glass shaping control & measurement capabilities
Adaptable to Meet Specific Customer Needs:
An advanced configurable system capable of producing tapers, ball lenses, combiners,MFA’s, glass shaping and splicing
Customizable chassis & mechanical architecture
Laser beam size, shape & power can be tailored to meet customer requirements
Complete set of PC command codes enables users to develop proprietary processes
End-View observation & alignment system optionSimple & Easy Operation:
Simple onboard menus and parameters common to Fujikura FSM-100 splicers
Intuitive SpliceLab PC GUI: Easy to understand,navigate and operate
Patented “split v-groove” clamping system automatically adjusts for 80 to 2,300 μm fibers
Compatible with standard fiber preparation equipment and methods
SPECIFICATIONS
Fiber Heating and Splicing Method
CO2 Laser
Laser Safety Features
Metal cover with interlock, class 1 enclosure
Automatic actuation of safety shutter
Automatic laser power cutoff
Triple redundancy
Laser Beam Control
Proprietary feedback system assures laser beam power stability
Laser beam size and shape may be customized to meet specific user requirementsTypical Splice Loss
0.02 dB for SMF (ITU-T G.652)
Typical Splice Strength
>400 kpsi for SMF (ITU-T G.652) using appropriate fiber preparation equipment
Camera Field of View
2.7 mm
Fiber Observation Methods
• PAS (Profile Alignment System) via transverse fiber observation.
• WSI (Warm Splice Image) and WTI (Warm Taper Image)
• End-view observation (Optional)
Applicable Fiber Diameter
80 μm to 2300 μm for automatic alignment by PAS
Larger diameter fibers may be aligned manually or by power meter feedback
V-Groove Clamping System
Infinitely variable from 80 μm up to 2300 μm
Clamping bare fiber or fiber coatingPatented “split V-groove” system
Fiber Handling
Fujikura FSM-100, FSM-45, & FSM-40 splicer fiber holders
Custom fixtures to meet specific customer requirements
Alignment Methods
PAS (Profile Alignment System, automatic alignment by camera observation)
Manual
Other methods by PC control
Power meter feedback via GPIB (Optional)
End-view (Optional)
X/Y Alignment Resolution
0.1 μm
Maximum Z Travel Length
150 mm (both left and right Z units)
Z Travel Resolution
0.125 μm theoretical
Maximum Taper Length
130 mm
Maximum Taper Ratio
10:1 standard (For uniform direction, one-pass tapering)
Dual direction tapering offers greatly increased taper ratios, as does tapering with more than one tapering pass.
Maximum Taper Speed
1 mm/sec standard
Splicing Control
Internal firmware or operation by PC
Fiber Tapering & Glass Shaping Control
Internal firmware or operation by PC
PC Control
SpliceLab software will be provided
Complete command set for PC control
PC Option
An all-in-one computer is required. Use of the SpliceLab software on a PC provides finer control and additional features compared to the LZM-100 internal firmware. Using another software application, the PC interface also allows for advanced maintenance functions such as the ability to confirm laser beam alignment, and align if required.
Interface Ports
USB 2.0 (For PC communications, data and image download, etc.)
GPIB (Optional, for power meter feedback)
Electrical Power
100-240 VAC
Operating Conditions
15-40℃
Rotation Motors
Optional: Provides theta rotational motion for PM alignment for both left and right sides
PM Fiber Alignment Methods
• PAS (For PANDA and other PM fibers)
• IPA (Interrelation Profile Alignment, applicable to almost all PM fibers. Three distinct IPA methods available.)
• End-view (Optional)
• Power meter feedback (Requires polarizer & analyzer, as well as optional GPIB interface)
• Manual
• Other methods by PC control
End-View Observation & Alignment
Optional internal end-view system
ORDERING INFORMATION
DESCRIPTION
ITEM NO.
LAZERMaster LZM-100 Glass Processing & Splicing System (Standard baseline LZM-100 system. Includes AC adapters & cords and SpliceLab PC software)
S015871
LAZERMaster LZM-100 (with dual theta motors)
S015872
All-in-one Computer (includes keyboard and mouse, monitor stand for mounting all-in-one computer. SpliceLab software pre-installed.) (required)
S015242
End-View Observation & Alignment Option
S015244
Side Table Work Surface Option (Work surface to provide additional area for accessories such as fiber preparation equipment. May be attached to the left or right side of the LZM-100 or both. Folds down against the side of the LZM-100 chassis when not needed or to allow easy movement through narrow doorways.)
S015247
Cylindrical Lens & Lens Holder (optional)
S015251
LZM-100 Training (USA)
S015867LZM-100
Training (International)
S015868