Ultra-wide mid-infrared beam quality analyzer (without M2 test, active area: 10.8×8.7mm

IdealPhotonics' infrared beam quality analyzer can detect light spots and analyze parameters in the 1.2-15μm range. It offers spatial analysis accuracy down to the 10μm level, featuring an ultra-wide sensitivity range, a large target area, ultra-high resolution, and multi-functional software capabilities

4.257um low power Benchtop ICL-DFB tunable continuous light laser (TDLAS integrated control module) 5mW

The 4.257um ICL-DFB laser is a tunable continuous light laser developed by Idealphotonics. It has narrow line width, high power, and low power consumption. It can meet the gas sensing test, especially for the test of hydrocarbons and other related gases. In addition, the desktop ICL-DFB laser module integrates the driver and temperature control module. The temperature and working current of the tuned laser can also be controlled by software, which can make the laser work stably and maintain the accuracy of the measured value. FPGA is also added inside the laser module to facilitate the processing of the concentration of the measured gas.

Ultraminiature piezoelectric PZT drive module (0 to +150V ±5mA

The M2691 is an ultra-compact and lightweight piezoelectric voltage driver, capable of outputting up to +150V. Applications include PZT voltage driving (PZT lasers, PZT modulators), MEMS voltage driving (MEMS lasers, MEMS filters), and control systems for piezoelectric motors. It features protection against short circuits, current overloads, and high temperatures.

4.257μm Low Power Benchtop ICL-DFB Tunable Continuous Wave Laser (Benchtop Light Source

The 4.257μm 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. Additionally, the benchtop ICL-DFB laser module integrates a driver and temperature control module, and it can be tuned via software to control the laser's temperature and operating current. This ensures stable operation of the laser and maintains the accuracy of the measurement values. The module also includes an FPGA, which facilitates the processing of gas concentration measurements

4.240um low-power benchtop ICL-DFB tunable continuous-wave laser (Pure Benchtop light source)

The 4.240um 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 suitable for gas sensing tests, especially for testing hydrocarbons and other related gases. Additionally, the desktop ICL-DFB laser module integrates a driver and temperature control module, and allows for software-controlled tuning of the laser's temperature and operating current. This ensures stable laser operation and maintains measurement accuracy. The module also includes an optional FPGA (available for an additional fee), which facilitates the processing of gas concentration measurements.

3.348μm low-power ICL-DFB tunable continuous wave laser (pure drive Benchtop light source) 5mW

The 3.348um 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 tests, especially for detecting hydrocarbons and other related gases. Additionally, the desktop ICL-DFB laser module integrates a driver and temperature control module. It can be controlled via software to adjust the laser’s temperature and operating current, ensuring stable operation and maintaining measurement accuracy. The laser module also includes an optional FPGA (available for an additional fee) to facilitate the processing of gas concentration measurements.

3.348um Low Power Benchtop ICL-DFB Tunable Continuous Wave Laser 5mW (with TDLAS Phase-Locked Control Module)

The 3.348um 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 tests, especially for detecting hydrocarbons and other related gases. Additionally, the desktop ICL-DFB laser module integrates a driver and temperature control module. It can be controlled via software to adjust the laser’s temperature and operating current, ensuring stable operation and maintaining measurement accuracy. The laser module also includes an optional FPGA (available for an additional fee) to facilitate the processing of gas concentration measurements.

Aspheric Fiber Collimator 1550nm

The light outlet of the pigtail is polished at an angle and coated with an anti-reflection film to reduce the return light at the light outlet end. The long-focus collimator uses a bent housing to accommodate the light output angle caused by the tilted pigtail; the short-focus collimator can ignore the light output angle caused by the tilted pigtail, and these models use a straight-through housing. The other end of the pigtail has a narrow-key FC/PC, FC/APC and SMA905 connector with a standard; various spot diameters and non-magnetic packaging can also be customized.

Adjustable Focus Aspheric Fiber Collimator 1050-1700nm (Focal Length 11mm Beam Waist Diameter 2.1 FC/APC)

The design uses springs to assemble a suitable optical lens inside the mechanical part, which is used for the collimator output of the optical fiber beam and can also be used for fiber-to-fiber coupling. By rotating the sleeve outside the collimator, the internal optical lens can be translated forward and backward along the optical axis, thereby adjusting the distance between the lens and the end face of the optical fiber to obtain different spot sizes.

400-1100nm Silicon Photoelectric Balanced Detector 1GHz

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 500MHz

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.

C-band gain-flattened erbium-doped fiber amplifier, saturated output power: 23/25dbm, single mode, 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