Features

Flexible combination – dual-channel plug-in system.

The Q8221 utilizes a dual-channel plug-in system. Various types of optical sensors and light sources are available as plug-in units. Both channels can be used independently or simultaneously. By using the desired combination of optical sensors and light sources, the Q8221 can handle a wide variety of applications.

High measurement accuracy.

Ensure accuracy over the entire power and wavelength range.

The Q8221’s optical sensors ensure a high accuracy of ±2.5% at the calibration point (short-wavelength sensors: Q82214 calibrated at 780nm; long-wavelength sensors: Q82208. Q82215. and Q82216 calibrated at 1300nm; Q82227 and Q82232 calibrated at 1550nm). In the broadband wavelength region, they ensure ±4.5% accuracy by compensating for the sensitivity curve at each sensor wavelength. In the broadband wavelength region, they ensure ±4.5% accuracy by compensating the sensitivity curve at each sensor wavelength. In addition, a linearity of ±0.5% is ensured. Not only in the calibration point, but also in the broadband wavelength region and at the level to be measured.

High Sensitivity Sensors

Noise level: -94 dBm.

The Q82208 and Q82232 optical sensors achieve high sensitivity by cooling the InGaAs photodiode. the Q82208. in particular, achieves -94 dBm. all three types are capable of measuring high power up to +10 dBm with high linearity. These sensors meet a wide range of user requirements for polarization correlation, return loss, and sensor type. They meet a wide range of measurement requirements.

High Power Input Optical Sensors (Q82227)

Maximum input power: +27 dBm

The Q82227 is suitable for long wavelength, high sensitivity and high power light. The sensor is capable of measuring optical inputs up to +27 dBm. Therefore, it is suitable for measuring the output of fiber-optic amplifiers, pump sources for fiber-optic amplifiers, and high-output devices (e.g., LDs for optical CATV). In addition, the Q82227 has a noise level of -80 dBm, so it can be used for measurements requiring a wide dynamic range.