Description
Overview
GAOTek optical fibre tester is the new generation of intelligent meter for the detection of fibre communications systems. With the popularize of optical network construction in cities and countryside, the measurement of optical network became short and disperse, it is specially designed for that kind of application, its economic and have outstanding performance. It is manufactured with patience and carefulness, following the national standards to combine the rich experience and modern technology, subject to stringent mechanical, electronic and optical testing, quality assurance, in the other way, new design makes it smarter and more compact and multi-purpose, also it has various functions. Whether you want to detect link layer in the construction and installation of optical network or proceed efficient maintenance and troubleshooting, it can be your best assistant.
Features
- Centre wavelength 1310 nm or 1550 nm (±20 nm)
- Dynamic Range 32 dB or 30 dB
- Pulse width 10 ns,30 ns,50 ns,100 ns, 300 ns,1.0 s, 2.5 s,10 s
- Event Dead Zone 8.20 ft. (2.5 m)
- Attenuation dead zone 45.93 ft. (14 m)
- Distance Range 0.31 mi to 74.56 mi (500 m to 120 km)
- Linearity ±0.05 dB/ dB
- OTDR Other Specifications VLS
- Memory capacity 1000
- Centre wavelength 650 nm ±20
- Fibre Type SMF
- Out power <1 dBm
- Display 3.5 in (8.89 cm) LCD
- Interface FC or UPC
- Optical connector FC or SC or ST (universal connector)
- Battery NimH Smart Charge Battery
- Continuous working time x >10
- Dimensions 9.06 in x 4.72 in x 2.36 in (230 mm × 120 mm × 60 mm)
- Weight 1.98 lb (900 g)
Technical Specification
Centre Wavelength | 1310 nm or 1550 nm (±20 nm) |
Dynamic Range | 32 dB or 30 dB |
Pulse Width | 10 ns, 30 ns, 50 ns, 100 ns, 300 ns, 1.0 s, 2.5 s, 10 s |
Event Dead Zone | 8.20 ft. (2.5 m) |
Attenuation Dead Zone | 45.93 ft. (14 m) |
Distance Range | 0.31 mi to 74.56 mi (0.5 km to 120 km) |
Linearity | ±0.05 dB |
Memory Capacity | 1000 |
Fibre Type | SMF |
Out Power | <1 dBm |
Distance Measurement Accuracy | ± (3.28 ft. (1 m) + sample space + measurement distance × 0.005%) |