Used ANDO AQ6315A #9228122 for sale

ANDO AQ6315A is a versatile electronic test equipment that provides a wide range of functionality for measuring optical and electrical characteristics of optical fibers or waveguides. The unit is compact and versatile, making it ideal for use in laboratory or in field applications. AQ6315A features a wavelength range from 600 nm to 1700 nm, with a narrow resolution of 0.05 nm. For comparison, ANDO AQ6315A can measure a broad range of traditional optical power levels. Additionally, AQ6315A has a fast sweep of 4 msec and can collect data up to 1 gigahertz. The device is versatile and can measure both continuous-wave optical signals and optical pulse signals, allowing it to measure a wide range of voltage, power, and frequency parameters with high accuracy. Furthermore, ANDO AQ6315A has a built-in display, two digital keys, and an RS232 I/O port to quickly create menu-driven reports and store results without a separate personal computer. AQ6315A is designed for measuring the attenuation of optical fibers and different optical powers, as well as the return loss of optical fibers and segmented return loss of multiple-mode fibers at both single-mode wavelengths and multiple-mode wavelengths. Additionally, the device can measure optical and electrical polarization properties, dispensing with the need for additional test equipment. ANDO AQ6315A also features a built-in source module for power and frequency measurements, making it the ideal tool for measuring the reliability of optical devices. AQ6315A is also useful in characterizing and testing current and emerging optical components and modules. It can be used to quantify the transmission losses through optical components such as couplers, splices, and optical fibers. ANDO AQ6315A is also useful for optical measurements for all types of sensors, such as PON, HFC, WDM, POF, and fiber Bragg grating-based sensors. AQ6315A is designed to provide a accurate, easy-to-use, and reliable solution for optical testing. Its compact size and versatile functions allow it to quickly and accurately measure a broad range of current and emerging optical components and systems. Its built-in source module, digital interface, and user-friendly control parameters make it the ideal tool for measuring the optical power and frequency parameters of optical components and systems.