Yokogawa Test & Measurement releases sensor modules for AQ2200 Test System
Yokogawa Test & Measurement Corporation announces that it has developed the AQ2200-212 sensor module and the AQ2200-222 dual sensor module for the AQ2200 series multi-application test system, and will be releasing them on July 14. These new optical sensor modules are ideal for the production line testing and inspection of semiconductor lasers, optical transceivers, optical fiber cables, and other essential components of optical communication networks.
The main features:
1. Suitable for a wider range of applications
The AQ2200-212 sensor module with a single high-speed optical power meter and the AQ2200-222 dual-sensor module with two high-speed optical power meters improve measurement throughput on optical equipment production lines by reducing averaging times to as little as 100 μs. In addition, the AQ2200-212 sensor module is equipped with an analog output port that enables high-speed monitoring of variations in power levels.
2. Wide wavelength and power ranges
The wavelengths commonly used in optical communications (e.g. 850, 1310, 1550 nm) can all be covered with a single AQ2200-212 or AQ2200-222 module. Both modules can also measure optical power levels of up to +15 dBm (decibel per mW) to meet the measurement needs of today’s high-power semiconductor lasers and optical transceivers.
3. High-speed, seamless measurement of wide power level changes
The ability to quickly and seamlessly measure optical power level changes as wide as 30 dB is required to measure the current-light output (I-L) characteristics of optical components such as optical transceivers and laser modules. Conventional measurement solutions lack this capability as it is often required to change the gain of the amplifier circuit. With the extension of their single-range power range to 30 dB, the AQ2200-212 and AQ2200-222 modules can quickly and seamlessly measure I-L characteristics.
Company profile: Yokogawa
|© "Test & Measuring Instruments and Systems" ("KIPiS"), 2000-2020|