Small Tunable Optical Filter 1064nm TOF with the INSERTION Loss Less Than 2.5dB FCAPC

Idealphotonics' MEMS tunable filter is based on the principles of MEMS (micro-electromechanical systems) technology and grating technology, and has the characteristics of small size, fast speed, long life, high stability and reliability.

PM Optical Isolator (Single-Stage) 780nm 500mW FC/APC

Innolume offers a broad portfolio of fiber isolators in the 780-1310nm wavelength range. These isolators can be provided with any single-mode fiber-coupled device (laser, SLD, SOA, gain module) purchased from our company. In such cases, the device is characterized with the isolator, and the measurement report reflects the performance at the OI output. The equipment can be spliced to avoid additional loss and feedback at the FC/APC connector. For the 1060-1310nm wavelength range, the fiber isolator features a compact (55×5.5×5.5mm) lightweight package with a maximum input power of 300-500mW. In the shorter range (780-1055nm), due to the use of a different material with lower optical power absorption, the OI is offered in a significantly larger (up to 118×37×35mm) and heavier metal package. The same material is used in high-power OIs to achieve input powers of up to

100G bandwidth 1545-1555nm 10nm tunable filter (3dB bandwidth 0.8nm)

The core component of the filter is an optical fiber Bragg grating (FBG) with a periodic variation in refractive index. When a broadband light beam is passed through the fiber Bragg grating, each small section of the fiber with the altered refractive index reflects only a specific wavelength of light, called the Bragg wavelength, while other wavelengths of light pass through. The change in strain simultaneously affects the effective refractive index of the fiber Bragg grating and the grating period, allowing for tuning of the reflected wavelength. In this device, the Bragg wavelength can be tuned to the desired wavelength by simply adjusting the grating with a fine-threaded screw.

Dual Channel Fiber Optic Array

Idealphotonics provides custom fiber arrays with different fiber types. The fiber types we currently supply include single-mode, multi-mode, and polarization maintaining. At the same time, we can also customize fiber arrays with different fiber lengths. Thanks to many years of processing experience, we can currently provide high-precision fiber grinding and alignment, and we can also glue the fibers together for grinding and polishing. Our high-precision alignment equipment can achieve a polarization-maintaining fiber alignment with an angle deviation better than 0.5deg, and our end-face observer can ensure that the end-face grinding quality meets special application areas, such as interferometers. In addition, our processing accuracy can reach a spacing as small as 5μm. At the same time, we also customize different connectors for different application requirements of customers. Welcome to contact us for processing and customized fiber arrays.

10：90 2x2 1064nm Polarization Maintaining Fiber Coupler FC/APC

PM Optical Isolator (Single-Stage) 1064nm 0.3mW FC/APC

Idealphotonics offers a broad range of fiber optic isolators within the wavelength range of 780-1310nm. These isolators can be coupled with any single-mode fiber equipment purchased from the company (such as lasers, SLDs, SOAs, and gain modules). In this configuration, the device is characterized by the isolator, with measurement reports showing the performance of the OI output. The equipment can be spliced to prevent additional loss and feedback at the FC/APC connector. For fiber optic isolators within the 1060-1310nm wavelength range, the devices feature compact (55×5.5×5.5mm) lightweight packaging with a maximum input power of 300-500mW. In the shorter range (780-1055nm), another material is used that absorbs less optical power, and the OI is provided in a larger (up to 118x37x35mm) and heavier metal package. High-power OIs use the same material to achieve input powers of up to 1

Multimode Fiber Achromatic Collimator 635nm (Waist Spot Diameter 4mm)

It is composed of a group of large numerical aperture lens systems, suitable for multimode fibers with larger numerical apertures. This system can reshape the beam emitted from the multimode fiber, or couple a collimated beam into the multimode fiber, ensuring good collimation and beam shape over long distances.

C+L band erbium-doped fiber amplifier Benchtop(saturated output 27dBm)

C+L band erbium-doped fiber power amplifier (BA amplifier for short) can be used to amplify optical signals in the power range of -6dBm~+3dBm or higher, with a maximum saturated output power of 27dBm. It is often used to increase the emission power of laser light sources.

Multimode Fiber Chromatic Aberration Collimator 1310nm (Beam Waist Spot Diameter 4mm)

It is composed of a group of large numerical aperture lens systems, suitable for multimode fibers with larger numerical apertures. This system can reshape the beam emitted from the multimode fiber, or couple a collimated beam into the multimode fiber, ensuring good collimation and beam shape over long distances.

10：90 1x2 1064nm Polarization Maintaining Fiber Coupler FC/APC

Multimode Fiber Chromatic Aberration Collimator 1064nm (Beam Waist Spot Diameter 4mm)

It is composed of a group of large numerical aperture lens systems, suitable for multimode fibers with larger numerical apertures. This system can reshape the beam emitted from the multimode fiber, or couple a collimated beam into the multimode fiber, ensuring good collimation and beam shape over long distances.

Multimode Fiber Chromatic Aberration Collimator 905nm (Beam Waist Spot Diameter 4mm)

It is composed of a group of large numerical aperture lens systems, suitable for multimode fibers with larger numerical apertures. This system can reshape the beam emitted from the multimode fiber, or couple a collimated beam into the multimode fiber, ensuring good collimation and beam shape over long distances.