Bundled Assemblies
Product number:
SW10697
Manufacturer:
Fiberguide Industries
Product information "Bundled Assemblies"
Fiber optic assemblies range from a single fiber cable terminated with industry standard connectors on both ends and jacketed in flexible sheathing, to a multi-fiber design consisting of multiple inputs and/or outputs, each with different cross-section areas and geometries, each requiring a custom machined endfitting and a heavy duty outer jacket to protect the assembly from being crushed.
Fiberguide designs and engineers assemblies using not only Fiberguide’s own pure silica core / silica clad, silica core / plastic clad fibers, but borosilicate glass fiber, ESKA™ plastic optical fiber, fluoride fiber, chalcogenide fiber, erbium-doped fiber and polarization maintaining fiber as well.
Fiberguide’s bundled assemblies are available with numerical apertures from 0.12 to 0.66, with the widest range of custom and standard endfittings / connectors and outer jackets to tailor a product to your technical and economic requisites.
For high temperature applications, some fiber types can be aluminium or gold coated on request. Additionally, all fiber types can be equipped on demand with Fiberguide’s patented RARe Motheye anti-reflective technology that enhances fiber transmission performance and significantly increases the damage threshold for your application over a large wavelength range.
As an option, some fiber types can be end capped to achieve higher coupled power into a fiber core by reducing the power density at the air / silica interface, commonly the point of laser damage. End cap diameters and lengths are offered for select numerical apertures and fiber cores size but can be easily customized for a variety of fiber types and specialized applications.
For the full range of design features available please download the data sheet. And for your custom bundled assembly, please contact AMS Technologies – our staff of engineers and technical sales professionals unites with Fiberguide’s experienced design and production team in developing a solution specific to your project’s individual requirements.
Key Features:
- Configurations: Multifiber
- Fiber Type: All of the Fibers in Fiberguide’s Optical Fiber Product Line
- Connectors: Custom Machined Ferrules (Round, Square, Rectangular, Slit), SMA, FC, ST, etc.
- Sheathing: Wide Variety of Polymer & Metal Tubing and Monocoil
- Can be Designed With Multiple Fiber Types, Multiple Splits / Divisions, Custom Leg Lengths, etc.
- Standard Temperature Range: -40° to +100 °C, Extended Range -269 to +750 °C
- Vacuum Compatible Tested to 10-9 Torr
- Chemical Resistant: Acids, Bases and Organic Solvents
- Radiation Resistant (Gamma, E-Beam, Fast Neutrons, X-Ray)
- Operating Wavelengths 180 to 2400 nm
- Overall Lengths up to 100 m
Applications: Colorimetry; Spectroscopy; Laser Cutting; Chemical Analysis; Laser Welding; Proteomics; Photodynamic Therapy; Medical Laser; Surface Profile; Test & Measurement; Inspection Systems, Airborne Flight Applications; Fluorescence Microscopy
Manufacturer "Fiberguide Industries"
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Array End: Precision Machined Housings, Silica V-Grooves or Custom Silicon Wafers
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Packaging: Design and Production of Custom Array Housings and Sheathing Arrangements Available to Protect the Fiber Depending on the Application
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Product number:
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Manufacturer:
High Temperature Assemblies
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Configurations: Single Fiber, Multifiber
Fiber Type: Any of Fiberguide’s High Temperature Metalized Fiber
Hot End Connectors: Custom Machined Ferrules (Round, Square, Rectangular, Slit)
Cold End Connectors: Custom Machined Ferrules, SMA, FC, ST, etc.
Sealing: Sapphire Windows Available for Sealing and Protection
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VGA V-Groove Assemblies
1 to 48 Channels; Channel Spacing 250 µm; Fiber Type SM, MM, PM; Connector Type SC, FC, ST, LC, MU; Insertion Loss <0.5 dB per Fiber
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Key Features:
Up to 48 Fiber V-Groove Arrays
Hermetic Feed-through Versions With Glass or Metal Solder Available
Single Mode (SM), Multi Mode (MM) or Polarization Maintaining Fibers
High Polarization Extinction Ratios up to 30 dB Available
Ribbon or Individual Fibers
Assemblies With Bare Fiber or 900 µm Jacketing
With or Without Connectors
900 µm Jacketed Breakouts Available, up to 2 m Length
Custom Configurations Possible for OEM Applications
Designed to Meet Telcordia Specifications (GR 1221-core, GR 326-core)
Applications: Arrayed Waveguide (AWG) Devices; Planar Lightwave Chips (PLC); Dense Wavelength Division Multiplexers (DWDM); MEMS Devices; Miniaturized or Integrated Fiber Optic Components
Product number:
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Manufacturer:
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Product number:
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Manufacturer:
EXS SLED Modules
400-1700 nm; Power 1.5-30 mW; Bandwidth 3-160 nm; Current 60-600 mA; Beam Shape Gaussian, Flat Top; Package TO-9, TO-56, 5-BTF, 14-BTF, TOSA; Cooled or Uncooled; With or Without Monitor Photodiode
With the EXS series, EXALOS offers a wide variety of standard superluminescent light emitting diode (SLED or SLD) modules covering near-infrared and RGB (red, green, blue) ranges. EXS series SLED modules are available at different wavelengths ranging from 400 to 1700 nm, with different output power and bandwidth values.EXALOS’ high-performance SLEDs come in various packages including cooled 14-pin dual-in-line (DIL) and butterfly package, cooled and uncooled 5-pin butterfly packages or low-cost uncooled TOSA and TO-56 packages.In addition to the standard product range, EXALOS can also offer SLED devices with custom optical performance and custom housing or fibers. Please contact the AMS Technologies SLED experts to discuss your custom SLED module solution tailored to your project’s requirements.Key Features:
Wavelength Range: 400 to 1700 nm
Power: 1.5 to 30 mW
Bandwidth: 3 to 160 nm
Current: 60 to 600 mA
Beam Shape: Gaussian, Flat Top
Package: TO-9, TO-56, 5-BTF, 14-BTF, TOSA
Cooled or Uncooled Versions
With or Without Monitor Photodiode
Wavelength
Power
Bandwidth
Current
Spectral Shape
Cooled
Package Type
MPD (y/n)
Fiber Type
Part Number
405 nm
10 mW
4 nm
110 mA
Gaussian
no
TO-56
no
none
EXS210015-02
405 nm
2 mW
3 nm
100 mA
Gaussian
yes
14-BTF
no
SMF
EXS210084-01
450 nm
10 mW
5 nm
180 mA
Gaussian
no
TO-56
no
none
EXS210014-01
450 nm
5 mW
6 nm
160 mA
Gaussian
yes
14-BTF
no
SMF
EXS210099-03
510 nm
6 mW
10 nm
600 mA
Gaussian
no
TO-9
no
none
EXS210115-00
510 nm
1,5 mW
10 nm
500 mA
Gaussian
yes
14-BTF
no
SMF
EXS210118-01
635 nm
10 mW
6 nm
60 mA
Gaussian
no
TO-56
no
none
EXS210105-02
635 nm
10 mW
5 nm
60 mA
Gaussian
no
TO-56
no
none
EXS210131-01
635 nm
3 mW
6 nm
60 mA
Gaussian
yes
14-BTF
no
SMF
EXS210098-01
650 nm
4 mW
10 nm
100 mA
Gaussian
no
TO-56
yes
none
EXS210035-02
650 nm
3 mW
6 nm
100 mA
Gaussian
yes
14-BTF
yes
SMF
EXS210033-03
650 nm
10 mW
6 nm
60 mA
Gaussian
no
TO-56
yes
none
EXS210030-03
650 nm
3 mW
6 nm
100 mA
Gaussian
yes
14-BTF
yes
PMF
EXS210144-01
750 nm
5 mW
20 nm
150 mA
Gaussian
yes
14-BTF
yes
SMF
EXS210025-01
750 nm
2 mW
20 nm
140 mA
Gaussian
no
TOSA
yes
SMF
EXS210065-01
750 nm
15 mW
20 nm
140 mA
Gaussian
no
TO-56
yes
none
EXS210017-01
790 nm
5 mW
20 nm
120 mA
Gaussian
yes
14-BTF
yes
SMF
EXS210060-01
790 nm
15 mW
20 nm
120 mA
Gaussian
no
TO-56
yes
none
EXS210067-03
800 nm
10 mW
40 nm
160 mA
Flat top
yes
14-BTF
yes
SMF
EXS210111-01
820 nm
2 mW
25 nm
120 mA
Gaussian
no
TOSA
yes
SMF
EXS210036-01
820 nm
3 mW
25 nm
120 mA
Gaussian
no
5-BTF
no
SMF
EXS210119-01
820 nm
15 mW
25 nm
120 mA
Gaussian
no
TO-56
yes
none
EXS210086-01
830 nm
12 mW
20 nm
200 mA
Gaussian
yes
14-BTF
yes
SMF
EXS210005-02
840 nm
15 mW
48 nm
180 mA
Flat top
yes
14-BTF
yes
SMF
EXS210090-01
840 nm
2 mW
50 nm
150 mA
Flat top
no
TOSA
yes
SMF
EXS210037-01
840 nm
10 mW
50 nm
150 mA
Flat top
no
TO-56
yes
none
EXS210040-01
840 nm
10 mW
46 nm
160 mA
Flat top
yes
14-BTF
yes
SMF
EXS210006-03
840 nm
6 mW
40 nm
120 mA
Flat top
yes
14-BTF
yes
SMF
EXS210106-01
840 nm
6 mW
50 nm
120 mA
Flat top
yes
14-BTF
yes
SMF
EXS210022-03
850 nm
5 mW
35 nm
250 mA
Gaussian
yes
14-BTF
no
SMF
EXS210031-02
850 nm
5 mW
55 nm
150 mA
Flat top
yes
14-BTF
yes
SMF
EXS210068-02
880 nm
5 mW
65 nm
200 mA
Flat top
yes
14-BTF
yes
SMF
EXS210018-01
880 nm
12 mW
70 nm
200 mA
Flat top
yes
14-BTF
yes
SMF
EXS210088-02
910 nm
15 mW
40 nm
200 mA
Gaussian
yes
14-BTF
yes
SMF
EXS210120-01
1050 nm
10 mW
70 nm
200 mA
Flat top
yes
14-BTF
yes
SMF
EXS210009-01
1050 nm
20 mW
60 nm
500 mA
Gaussian
yes
14-BTF
yes
SMF
EXS210063-02
1060 nm
20 mW
70 nm
350 mA
Flat top
yes
14-BTF
yes
SMF
EXS210010-01
1070 nm
10 mW
90 nm
300 mA
Flat top
yes
14-BTF
yes
SMF
EXS210007-01
1230 nm
10 mW
45 nm
400 mA
Gaussian
yes
14-BTF
yes
SMF
EXS210079-01
1270 nm
25 mW
30 nm
450 mA
Gaussian
yes
14-BTF
yes
SMF
ESL2720-2113
1280 nm
8 mW
80 nm
500 mA
Gaussian
yes
14-BTF
yes
SMF
EXS210049-02
1290 nm
2 mW
60 nm
200 mA
Gaussian
yes
14-BTF
yes
SMF
EXS210034-02
1300 nm
6 mW
120 nm
450 mA
Flat top
yes
14-BTF
yes
SMF
EXS210057-01
1300 nm
20 mW
50 nm
500 mA
Gaussian
yes
14-BTF
yes
SMF
EXS210076-02
1300 nm
15 mW
70 nm
500 mA
Gaussian
yes
14-BTF
yes
SMF
EXS210046-02
1300 nm
10 mW
110 nm
500 mA
Flat top
yes
14-BTF
yes
SMF
EXS210045-02
1300 nm
10 mW
40 nm
250 mA
Gaussian
yes
14-BTF
yes
PMF
EXS210072-01
1300 nm
10 mW
40 nm
250 mA
Gaussian
yes
14-BTF
yes
SMF
EXS210032-02
1300 nm
12 mW
40 nm
200 mA
Gaussian
no
TO-56
yes
none
EXS210041-02
1300 nm
3 mW
40 nm
200 mA
Gaussian
no
TOSA
no
SMF
EXS210028-02
1310 nm
30 mW
60 nm
600 mA
Gaussian
yes
14-BTF
yes
SMF
EXS210047-02
1310 nm
30 mW
60 nm
600 mA
Gaussian
yes
14-BTF
yes
PMF
EXS210087-01
1310 nm
20 mW
90 nm
600 mA
Flat top
yes
14-BTF
yes
SMF
EXS210074-02
1350 nm
25 mW
50 nm
400 mA
Gaussian
yes
14-BTF
yes
SMF
EXS210020-01
1380 nm
10 mW
40 nm
250 mA
Gaussian
yes
14-BTF
yes
SMF
ESL1410-2113
1450 nm
5 mW
80 nm
500 mA
Gaussian
yes
14-BTF
yes
SMF
EXS210103-01
1480 nm
15 mW
40 nm
450 mA
Gaussian
yes
14-BTF
yes
SMF
ESL4820-2113
1520 nm
8 mW
60 nm
250 mA
Gaussian
yes
14-BTF
yes
SMF
EXS210038-01
1520 nm
2 mW
60 nm
200 mA
Gaussian
no
TOSA
no
SMF
EXS210029-01
1520 nm
6 mW
60 nm
200 mA
Gaussian
no
TO-56
no
none
EXS210042-01
1530 nm
2 mW
100 nm
550 mA
Gaussian
yes
14-BTF
yes
SMF
EXS210095-01
1550 nm
30 mW
40 nm
500 mA
Gaussian
yes
14-BTF
yes
SMF
EXS210073-01
1550 nm
12 mW
40 nm
250 mA
Gaussian
yes
14-BTF
yes
PMF
EXS210094-01
1550 nm
12 mW
40 nm
300 mA
Gaussian
yes
14-BTF
yes
PMF
EXS210070-01
1550 nm
15 mW
45 nm
300 mA
Gaussian
yes
14-BTF
yes
SMF
EXS210069-01
1550 nm
20 mW
60 nm
500 mA
Flat top
yes
14-BTF
yes
SMF
EXS210059-01
1550 nm
6 mW
60 nm
200 mA
Gaussian
no
TO-56
no
none
EXS210085-01
1550 nm
5 mW
60 nm
250 mA
Gaussian
yes
14-BTF
yes
SMF
EXS210019-03
1550 nm
2 mW
60 nm
200 mA
Gaussian
no
TOSA
yes
SMF
EXS210071-02
1550 nm
15 mW
90 nm
600 mA
Gaussian
yes
14-BTF
yes
SMF
EXS210108-01
1550 nm
10 mW
90 nm
600 mA
Gaussian
yes
14-BTF
yes
SMF
EXS210048-03
1550 nm
10 mW
60 nm
300 mA
Flat top
yes
14-BTF
yes
SMF
EXS210054-01
1550 nm
4 mW
150 nm
350 mA
Flat top
yes
14-BTF
yes
SMF
EXS210066-02
1570 nm
10 mW
65 nm
250 mA
Flat top
yes
14-BTF
yes
SMF
EXS210055-01
1580 nm
20 mW
60 nm
500 mA
Flat top
yes
14-BTF
yes
SMF
EXS210062-01
Product number:
SW11471
Manufacturer:
VGA V-Groove Assemblies
1 to 48 Channels; Channel Spacing 250 µm; Fiber Type SM, MM, PM; Connector Type SC, FC, ST, LC, MU; Insertion Loss <0.5 dB per Fiber
OZ Optics’ VGA series of V-Groove array assemblies assists in developing next generation photonic devices. The arrays are manufactured using precision silicon wafer V-Groove technology or Pyrex V-Groove in conjunction with a Pyrex lid, enabling sub-micron alignment accuracy with UV cure attachment capabilities.
VGA series V-Groove array assemblies are available with single mode (SM), multi mode (MM) or PANDAtype polarization maintaining (PM) fibers. Customization can even include different types of fibers assembled into a single array.
In general, OZ Optics uses polarization maintaining fibers based on the PANDA fiber structure when building polarization maintaining components and patch cords. However OZ Optics can construct devices using other PM fiber structures. OZ Optics also carries some alternative fiber types in stock, please contact AMS Technologies for availability. If necessary, OZ Optics is willing to use customer supplied fibers to build devices.
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Key Features:
Up to 48 Fiber V-Groove Arrays
Hermetic Feed-through Versions With Glass or Metal Solder Available
Single Mode (SM), Multi Mode (MM) or Polarization Maintaining Fibers
High Polarization Extinction Ratios up to 30 dB Available
Ribbon or Individual Fibers
Assemblies With Bare Fiber or 900 µm Jacketing
With or Without Connectors
900 µm Jacketed Breakouts Available, up to 2 m Length
Custom Configurations Possible for OEM Applications
Designed to Meet Telcordia Specifications (GR 1221-core, GR 326-core)
Applications: Arrayed Waveguide (AWG) Devices; Planar Lightwave Chips (PLC); Dense Wavelength Division Multiplexers (DWDM); MEMS Devices; Miniaturized or Integrated Fiber Optic Components
Product number:
SW10874
Manufacturer:
LE2850VA Precision Molded Aspheric Lens
€54.92*
EFL 2.80 mm; NA 0.52/0.26; CA 4.12/3.76 mm; OD 4.70 mm; D-ZLaF52La GlassThe Zemax file of this lens can be downloaded here: file. Do you need...a different coating? A range of standard coatings is available, click here to select your coating option.a mounted aspheric lens? Click here to learn morea customised lens? Click here to contact us!All products supplied by GH Optics are RoHS compliant and meet the requirements of the current EU RoHS Directive 2011/65/EU. The RoHS certificate can be provided on request.
Product number:
C028096-1
Manufacturer:
D Series Spade Connection HV Reed Relays
10 kV isolation; 50 W; Spade Connection
The very high isolation voltages of the D series, up to 10kV, are achieved through the use of high vacuum reed switches with either Rhodium or Tungsten contacts and make these relays suitable for high reliability applications such as cardiac defibrillators, test equipment and high voltage power supplies.
Product number:
SW10208
Manufacturer: