- OmniCure® S2000
- The OmniCure® S2000 UV/Visible Spot Curing System is the most intelligent system of its kind on the market; ideal for applications requiring precision, control and repeatability.
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The light output can be adjusted in 1% increments for very precise UV exposure. The proprietary Closed-Loop Feedback technology, unique to the OmniCure® S2000, continuously monitors and controls the UV output, ensuring a repeatable process and improving manufacturing yields.
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The OmniCure® High-Power Fiber Light Guide uses a proprietary arrangement of fibers to supplies an equal distribution of light energy to multiple cure areas. This ensures even curing of the adhesive to maintain critical alignment in the final components.
Please click here to find our more about EXFO's UV Spot Curing products and how they will benefit your assembly process.
- VCSEL Modules
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For the telecommunications industry, the VCSEL's uniform, single mode beam profile is desirable for coupling into optical fibres. VCSELs are commonly used as the laser diodes for transmitter devices in optical networks. Their excellent modulation properties, high reliability and single emission geometry has enabled VCSELs to dominate this market and replace conventional edge-emitting lasers.
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Although the VCSEL production process is labour and material intensive, the yield can be controlled to a more predictable outcome. UV curing technology plays a key role in achieving higher yields in VCSEL production. Manufacturers of VCSEL modules will benefit from using EXFO's OmniCure® S2000 UV/Visible Spot Curing System with a dual High Power Fiber Light Guide to ensure that each component of the VCSEL module receives the precise and repeatable dosage of UV light to insure a quick, dependable and optimized cure.
Please click here to download the application note for the assembly of VCSEL modules.
- TOSA/ROSA Modules
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Optical modules are the core devices for any optical communication system. They enable high-speed voice, video and data communications for networking, storage and wireless applications. One type is known as Receptacle Modules. This type is represented by TOSA (Transmitter Optical Sub-Assembly) and ROSA (Receiver Optical Sub-Assembly) Assemblies.
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The main features of the TOSA (Transmitter Optical Sub Assembly) and ROSA (Receiver Optical Sub Assembly) receptacle modules are simplicity in assembly and low cost, compared to the conventional receptacle modules. This is the reason why they became key components of transceivers for optical data links. The OmniCure® S2000 UV/Visible Spot Curing System and a High Power Fiber Light Guide will help manufacturers of TOSA / ROSA receptacle modules to improve the reliability of their products while also reducing assembly costs.
Please click here to download the application note for the assembly of TOSA/ROSA modules.
- WDM Modules
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Wavelength Division Multiplexing (WDM) technology provides a cost-effective way to upgrade optical networks for meeting the ever increasing demand for bandwidth. WDM technology couples many wavelengths into the same fiber, thus effectively increasing the aggregate bandwidth per fiber for applications including reconfigurable optical add drop multiplexing (ROADM).
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The assembly of a WDM module involves the precision alignment and bonding of multiple components. WDM component manufacturers can benefit from using the OmniCure® S2000 UV/Visible Spot Curing System with Closed-Loop Feedback technology and High Power Fiber Light Guides to make the assembly of WDM modules faster, more dependable and more cost-effective.
Please click here to download the application note for the assembly of WDM modules.