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We provide customized polarization maintaining fiber collimators tailored to your specific wavelength and performance requirements. Available for 850nm, 980nm, 1064nm, 1310nm, and 1550nm wavelengths, these collimators feature low insertion loss, high extinction ratio, and reliable polarization preservation.
Our custom options include various working distances, connector types, fiber lengths, and power handling capabilities up to 30W. Whether for PM isolators, circulators, or fiber laser applications, we can configure collimators to meet your exact system integration needs.
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This PM1064 collimator is designed for polarization-sensitive applications at 1064nm wavelength, offering low insertion loss and high extinction ratio. It features an epoxy-free optical path and maintains polarization integrity with precise beam collimation.
Ideal for isolators, circulators, optical sensing, and laboratory instruments, the collimator supports PM1064 fiber and is available in various working distances, connector types, and fiber lengths to meet specific system requirements.
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This PM1310 collimator is designed for polarization-sensitive applications at 1310nm wavelength, offering low insertion loss and high extinction ratio. It features an epoxy-free optical path and maintains polarization integrity with precise beam collimation.
Ideal for isolators, circulators, optical sensing, and laboratory instruments, the collimator supports PM1310 fiber and is available in various working distances, connector types, and fiber lengths to meet specific system requirements.
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This PM1550 collimator is designed for polarization-sensitive applications at 1550nm wavelength, offering low insertion loss and high extinction ratio. It features an epoxy-free optical path and maintains polarization integrity with precise beam collimation.
Ideal for isolators, circulators, optical sensing, and laboratory instruments, the collimator supports PM1550 fiber and is available in various working distances, connector types, and fiber lengths to meet specific system requirements.
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This PM630 collimator is designed for polarization-sensitive applications at 630nm wavelength, offering low insertion loss and high extinction ratio. It features an epoxy-free optical path and maintains polarization integrity with precise beam collimation.
Ideal for isolators, circulators, optical sensing, and laboratory instruments, the collimator supports PM630 fiber and is available in various working distances, connector types, and fiber lengths to meet specific system requirements.
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This PM780 collimator is designed for polarization-sensitive applications at 780nm wavelength, offering low insertion loss and high extinction ratio. It features an epoxy-free optical path and maintains polarization integrity with precise beam collimation.
Ideal for isolators, circulators, optical sensing, and laboratory instruments, the collimator supports PM780 fiber and is available in various working distances, connector types, and fiber lengths to meet specific system requirements.
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This PM980 collimator is designed for polarization-sensitive applications at 980nm wavelength, offering low insertion loss and high extinction ratio. It features an epoxy-free optical path and maintains polarization integrity with precise beam collimation.
Ideal for isolators, circulators, optical sensing, and laboratory instruments, the collimator supports PM980 fiber and is available in various working distances, connector types, and fiber lengths to meet specific system requirements.
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This polarization-maintaining dual-fiber collimator provides stable dual-channel connectivity with low insertion loss and high polarization extinction ratio. It supports a broad wavelength range from 630nm to 1550nm and features an epoxy-free optical path for enhanced reliability.
Ideal for isolators, circulators, WDM systems, and optical sensing applications, the collimator is available in various lens types, working distances, connector options, and fiber lengths to meet diverse integration requirements.
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This polarization-maintaining five-fiber collimator offers multi-channel connectivity with low insertion loss and reliable polarization preservation, featuring a high extinction ratio. Supporting wavelengths from 630nm to 1550nm, it ensures an epoxy-free optical path for consistent performance across all channels.
Ideal for isolators, circulators, WDM systems, and optical sensing applications, the collimator is available with various lens types, working distances, connector options, and fiber lengths to support flexible optical system integration.
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This polarization-maintaining four-fiber collimator delivers multi-channel optical connectivity with low insertion loss and excellent polarization preservation. It operates across a wide wavelength spectrum from 630nm to 1550nm and features an epoxy-free optical path for high reliability.
Suited for isolators, circulators, WDM systems, and optical sensing applications, the collimator offers various configuration options including lens type, working distance, connector style, and fiber length to accommodate diverse system requirements.
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This polarization-maintaining nine-fiber collimator offers multi-channel optical connectivity with low insertion loss and high polarization extinction. It supports a broad wavelength range from 630nm to 1550nm and features an epoxy-free optical path for enhanced reliability.
Ideal for use in isolators, circulators, WDM systems, optical sensing, and signal processing, the collimator is available in multiple lens types, working distances, connector options, and fiber lengths to support flexible integration in various optical setups.
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This polarization-maintaining sixteen-fiber collimator provides high-density multi-channel connectivity with low insertion loss and reliable polarization preservation. It supports a wide wavelength range from 630nm to 1550nm and features an epoxy-free optical path for high stability and performance across all channels.
Ideal for multi-port isolators, circulators, WDM systems, and optical sensing applications, the collimator is available with various lens types, working distances, connector options, and fiber lengths to meet diverse system integration needs.
