1x4 Multimode MEMS Optical Switch (Module)

Idealphotonics's MEMS 1x4 optical switch is an optical switch based on MEMS (Micro Electro Mechanical Systems) technology that allows channel selection between a single input light and four output lights. It has the characteristics of small size, long lifespan, and stable reliability, and is widely used in optical network fields such as OADM and OXC.

1050nm DFB Laser Diode 50mW (Without Isolator)

1050nm 14PIN Butterfly Package DFB Laser, with integrated TEC, lens, thermistor, and PD in a 14PIN butterfly package. The hermetically sealed design meets telecom-grade operating requirements, featuring narrow linewidth and high power (50mW). It supports PM980 or HI1060 fiber output, and also offers custom pin definitions as requested by the customer.

1390 nm 45° Faraday rotato

Idealphotonics’ Faraday rotator is a device that achieves precise non-reciprocal rotation of laser polarization. It provides non-reciprocal rotation while maintaining the linear polarization of the beam. In conjunction with a polarizer, it can block the return light in the optical path. Device for precise nonreciprocal rotation of laser polarization Faraday rotators provide non-reciprocal rotation while maintaining the linear polarization of the light beam. When light passes through the Faraday rotator in a certain direction, the polarization state will rotate 45 °; when the light beam passes through the Faraday rotator in the opposite direction, the polarization state will rotate another 45 ° in the same direction relative to the magnetic field. Based on this principle, in combination with a polarizer, the return light in the optical path can be blocked. The Faraday rotator provided by our company is made of magneto-optical crystal with high Verdet constant and low absorption coefficient, which is highly reliable. M2 degradation is small. Combined with high damage threshold technology, the maximum product’s average power can reach 500W, with a wavelength range of 355 nm-4500nm.

1036nm DFB Laser Diode 30mW

1036nm 14PIN Butterfly Package DFB Laser, with integrated TEC, lens, thermistor, and PD in a 14PIN butterfly package. The hermetically sealed design meets telecom-grade operating requirements, featuring narrow linewidth and high power (50mW). It supports PM980 or HI1060 fiber output, and also offers custom pin definitions as requested by the customer.

1028nm DFB Laser Diode 30mW

1028nm 14PIN Butterfly Package DFB Laser, with integrated TEC, lens, thermistor, and PD in a 14PIN butterfly package. The hermetically sealed design meets telecom-grade operating requirements, featuring narrow linewidth and high power (50mW). It supports PM980 or HI1060 fiber output, and also offers custom pin definitions as requested by the customer.

1240nm DFB (Distributed Feedback) Semiconductor Laser

1240nm 14PIN Butterfly Package DFB Laser, with integrated TEC, lens, thermistor, and PD in a 14PIN butterfly package. The hermetically sealed design meets telecom-grade operating requirements, featuring narrow linewidth and high power (50mW). It supports PM980 or HI1060 fiber output, and also offers custom pin definitions as requested by the customer.

1194nm DFB Laser Diode 30mW

1194nm 14PIN Butterfly Package DFB Laser, with integrated TEC, lens, thermistor, and PD in a 14PIN butterfly package. The hermetically sealed design meets telecom-grade operating requirements, featuring narrow linewidth and high power (50mW). It supports PM980 or HI1060 fiber output, and also offers custom pin definitions as requested by the customer.

6362E Spectrometer

A high-speed, high-performance spectrum analyzer with a wide wavelength range based on diffraction grating spectrometry technology. The 1200-2400nm spectrum range not only covers the communication wavelength band, but also covers the SWIR region. It can be applied to optical system testing such as DWDM and optical amplifiers; testing of optical active devices such as LEDs, FP-LDs, DFB-LDs, and optical transceivers; testing of optical passive devices such as optical fibers and fiber gratings, as well as measurement testing of environmental sensing and medical applications.

1310 nm 45° Faraday rotato

Idealphotonics’ Faraday rotator is a device that achieves precise non-reciprocal rotation of laser polarization. It provides non-reciprocal rotation while maintaining the linear polarization of the beam. In conjunction with a polarizer, it can block the return light in the optical path. Device for precise nonreciprocal rotation of laser polarization Faraday rotators provide non-reciprocal rotation while maintaining the linear polarization of the light beam. When light passes through the Faraday rotator in a certain direction, the polarization state will rotate 45 °; when the light beam passes through the Faraday rotator in the opposite direction, the polarization state will rotate another 45 ° in the same direction relative to the magnetic field. Based on this principle, in combination with a polarizer, the return light in the optical path can be blocked. The Faraday rotator provided by our company is made of magneto-optical crystal with high Verdet constant and low absorption coefficient, which is highly reliable. M2 degradation is small. Combined with high damage threshold technology, the maximum product’s average power can reach 500W, with a wavelength range of 355 nm-4500nm.

1178nm DFB Laser Diode 30mW

1178nm 14PIN Butterfly Package DFB Laser, with integrated TEC, lens, thermistor, and PD in a 14PIN butterfly package. The hermetically sealed design meets telecom-grade operating requirements, featuring narrow linewidth and high power (50mW). It supports PM980 or HI1060 fiber output, and also offers custom pin definitions as requested by the customer.

6362D Spectrometer

The high-resolution, large dynamic range, high-speed and high-performance optical spectrum analyzer is suitable for testing optical systems such as DWDM and optical amplifiers in the 600-1700nm spectrum range; testing optical active devices such as LED, FP-LD, DFB-LD, and optical transceivers; and testing optical passive devices such as optical fibers and fiber gratings.

6362C Spectrometer

It can measure visible light to near-infrared bands, between 350nm and 1200nm, with high wavelength resolution and wide dynamic range, and can clearly characterize spectral details and accurately restore spectral features. It has a wide range of applications and can accelerate the development and manufacturing of short-wavelength lasers, passive devices and LEDs, as well as equipment using these devices in the fields of biomedicine, material processing, consumer products and healthcare.