4.240μm low power benchtop ICL-DFB tunable continuous wave laser 5mW (with TDLAS phase-locking control module)

The 4.240μm ICL-DFB laser is a tunable continuous-wave laser developed by Idealphotonics . It features a narrow linewidth, high power, and low power consumption, making it ideal for gas sensing applications, particularly for testing hydrocarbons and other related gases. The desktop ICL-DFB laser module integrates a driver and temperature control module, and also allows software-based control of the laser's temperature and operating current, ensuring stable operation and maintaining the accuracy of measurement values. Additionally, the module includes an FPGA (optional, at extra cost), facilitating the processing of gas concentration measurements.

C-band gain flat Erbium-doped fiber amplifier, saturated output power: 14dbm, single mode, FC/APC connector, benchtop

The gain-flattened erbium-doped fiber amplifier is specially used in fiber laser or fiber communication systems. It can simultaneously amplify multiple wavelength signals in the C band and keep the gain between each wavelength consistent. The gain flatness is ≤1.5 dB. It has the ability to simultaneously amplify multiple wavelengths in a wide spectrum, as well as the advantages of gain flatness, adjustable gain, high gain and low noise

Polarization-Maintaining Fiber Collimator 780nm (Working Distance 100mm)

It is composed of polarization-maintaining fiber pigtail and focusing lens with precise positioning and packaging, which can transform the outgoing light of fiber transmission into parallel beam (Gaussian beam), or focus and couple the parallel light from the outside into the fiber. It can be used alone to achieve the specified size spot at the required position; it can also be used in pairs, adding filters, isolators and other optical components between a pair of probes to achieve the purpose of customer use. In the interferometric fiber sensor based on optical coherence detection, the use of polarization-maintaining fiber can ensure that the linear polarization direction remains unchanged, improve the coherent signal-to-noise ratio, and achieve high-precision measurement of physical quantities.

915nm high power desktop single mode pumped FBG wavelength stable light source

Our modular laser control is based on an advanced microprocessor control system, combined with high-precision ATC and ACC (APC) control circuits to achieve high stability of laser output, while ensuring that the light source is quick and intuitive to operate. We can also provide corresponding communication interfaces and control software according to user requirements to achieve computer control. This light source uses a one-key recovery function (Run/Stop button), which can effectively help customers return to the previous working state. This is a highly integrated modular system light source, which uses PC-side software intelligent control. Customers can set the required working temperature and current according to their needs. It is very suitable for experimental scientific research and production testing. In addition, we need to modulate the laser for some application fields. We have connected two modulation ports, one for high frequency and one for low frequency, to better meet customers' needs for multiple uses of one machine.

400-1100nm Silicon Photoelectric Balanced Detector 350MHz

The high-speed low-noise photoelectric balanced detection module integrates two matched ultra-low noise analog PIN detectors, a low-noise broadband transimpedance amplifier and an ultra-low noise power supply. It has the characteristics of high gain, high sensitivity, high bandwidth, low noise, high common mode rejection ratio, etc. It can effectively reduce the common mode noise of the signal and improve the signal-to-noise ratio of the system. Product model: BPD-Si-100M-B, BPD-Si-200M-B, BPD-Si-350M-B, BPD-Si-500M-B, BPD-Si-1G-B.

400-1100nm Silicon Photoelectric Balanced Detector 200MHz

The high-speed low-noise photoelectric balanced detection module integrates two matched ultra-low noise analog PIN detectors, a low-noise broadband transimpedance amplifier and an ultra-low noise power supply. It has the characteristics of high gain, high sensitivity, high bandwidth, low noise, high common mode rejection ratio, etc. It can effectively reduce the common mode noise of the signal and improve the signal-to-noise ratio of the system. Product model: BPD-Si-100M-B, BPD-Si-200M-B, BPD-Si-350M-B, BPD-Si-500M-B, BPD-Si-1G-B.

780nm 1X2 Polarization Maintaining Fiber Coupler

Idealphotonics’s 780nm fiber coupler can couple the optical signal transmitted in the optical fiber in the coupling area of the special structure, redistribute the optical power, and can be monitored in real time as needed. Fused taper splitters are widely used in fiber lasers, communication systems and OCT systems.

1030nm In-line Polarizer Hi1060 fiber

Idealphotonics’In-line Polarizer is designed to pass a specified polarization and block other polarizations. Its function is to convert unpolarized light into linearly polarized light to achieve a high extinction rate. It is also used to improve the extinction rate of precision measurement systems, fiber optic sensors, high-speed test instruments, etc. We have designed an in-line polarizer specifically for the ring gyro system, and its components are tested under full temperature conditions. In addition, its mini size is very suitable for our cost-effective fiber optic gyro system

1.0~2.6 um extended InGaAs photodiode

24.3m Nanosecond Fiber Delay Line

Compact, low-loss fiber coils made by Idealphotonics requires attention, precision, and skill. Our F-TDC Compact time delay coils feature a proprietary manufacturing process that provides extremely low insertion loss while fitting your budget and small space.

2.28m Nanosecond Fiber Delay Line

Compact, low-loss fiber coils made by Idealphotonics requires attention, precision, and skill. Our F-TDC Compact time delay coils feature a proprietary manufacturing process that provides extremely low insertion loss while fitting your budget and small space.

C-band gain flat Erbium-doped fiber amplifier, saturated output power: 14dbm, polarizing, FC/APC connector, module

The gain-flattened erbium-doped fiber amplifier is specially used in fiber laser or fiber communication systems. It can simultaneously amplify multiple wavelength signals in the C band and keep the gain between each wavelength consistent. The gain flatness is ≤1.5 dB. It has the ability to simultaneously amplify multiple wavelengths in a wide spectrum, as well as the advantages of gain flatness, adjustable gain, high gain and low noise