T9600XL-GE5Includes Only:
- 1x Connector Adaptor XL 7/8-28, MTP / MPO 12 x n (OPT227)
- 1x Connector Adaptor XL 7/8-28, MTP / MPO 16 x n (OPT228)
- 1x Operating manual / Quick guide QA certificate
- 1set ILAC/ NATA traceable Calibration certificate
- 1x Soft carry pouch Wrist strap
Test Applications
- Testing optical power, attenuation & continuity
- Duplex, ribbon & POF fiber
- Fiber bundles & free space
- Unusual fiber optic connectors
- Active Area to 5 mm diam or 3.5 x 7 mm
- Power from -70 dBm / 100 pW to + 15 dBm / 32 mW
- Wavelength range 350 ~ 1700 nm
Features:
- 2 calibration λ, ±2% accuracy, ISO/IEC 17025 traceable
- Small size, easy to use, rugged & reliable
- dBm / dB / linear, 0.01 dB resolution
- Display hold & max/min recording
- Tone detector with Multi-Fiber ID
- Large area detector for MPO applications
- Easy to use TamperLock mode
- Interchangeable connectors
- Full QA reports
A simple and reliable optical power meter with a large area 5 mm Ge detector for testing power and loss on fiber optic systems or free-space light beams up to +10 dBm. Ideal for: Plastic fiber, PCS, single mode, multimode, multi-fiber ribbon cable such as MMC, MPO 12 - 72 fiber up to 12 fibers wide, and LC/ SC etc fiber optic systems. This versatile meter is a popular MPO tester, providing high accuracy and simplicity of use. For all fiber optic Ethernet & Infiniband applications except 16 x 1 or 16 x 2 ribbon types.Optional connector adapter not included, order separately.
T 9600XL series Optical Power Meters / Radiometers have large area optical detectors. Typical test applications include specialty fiber optic or free space systems employing multi fiber connectors such as MPO/MT/MTP and MTRJ, large core fiber such as POF, fiber bundles, and high-power pump lasers. Up to 1% traceable accuracy, ease of use and high availability combine to achieve superior measurement confidence. Detector & calibration options cover a wide range of optical connectors, fiber types, wavelengths and power levels.Since these meters are ideal for both free space & fiber applications, they are ideal traceable transfer standards for calibrating fiber optic laboratory equipment.