Custom-Cal has a high success rate in the repair of the ANRITSU MT9083A. A calibration by Custom-Cal is performed by engineers with extensive OEM experience. We have the expertise and the necessary standards to perform the ANRITSU MT9083A Calibration, onsite calibration may be available. We specialize in quick turnaround times and we can handle expedited deliveries upon request.

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   ANRITSU MT9083A   Description / Specification:    

The Anritsu MT9083A ACCESS Master OTDR with full 1 × 64 PON support, up to 42 dB, delivers full featured OTDR performance plus loss test set and quality of service measurement in a surprisingly small and lightweight package. At only 28.4 cm wide × 20 cm tall × 7.7 cm deep and 2.2 kg (4.8 lbs.), it is field portable, yet rugged enough to withstand the outside plant environment. When equipped with power meter, visual light source and IP test options, it replaces several, larger pieces of test equipment. An event dead zone of less than 1 m (80 cm typical) and a sampling resolution of 5 centimeters allow the MT9083B to evaluate connections and troubleshoot central office, FTTx and intra-building faults with ease. In addition to its superb high-resolution performance, the MT9083A also features up to 38.5 dB of dynamic range allowing it to easily test 200 + km spans making it a very useful tool for any network type. Compare current and stored trace data to easily assess changes over time and to locate problems before they effect service or compare traces at different wavelengths to identify installation issues such as macrobending.

Display: 6.5 inch TFT-LCD (640 × 480, with backlight, transparent type).
Interface: USB 1.1, Type A × 1 (memory), Type B × 1 (USB mass storage).
Data Storage: Internal memory; 440 MB (up to 1000 traces), External memory (USB); up to 30,000 traces with 512 MB.
Vertical Scale: 0.13, 0.33, 0.65, 1.3, 3.25, 6.5, 13 dB/div.
IOR Setting: 1.400000 to 1.699999 (0.000001 steps).
Units: km, m, kft, ft, mi.
Sampling Resolution: 5 cm (min.).
Reflectance Accuracy: Single mode: ±2 dB, multimode: ±4 dB.
Distance Accuracy: ±1 m ±3 × measurement distance × 10-5 ± marker resolution (excluding IOR uncertainty).
Distance Range: 0.5, 1, 2.5, 5, 10, 25, 50, 100, 200 km (SM), 0.5, 1, 2.5, 5, 10, 25, 50, 100 km (MM).

050, 1310 nm SM.
051, 1550 nm SM.
052, 1650 nm SM.
053, 1310/1550 nm SM.
054, 1550 and 1650 nm SM.
055, 1310/1550 nm, 1650 nm SM.
056, 1310/1490/1550 nm SM.
057, 1310/1550/1625 nm SM.
058, 1310/1490/1550/1625 nm SM.
059, 1310/1383/1550/1625 nm SM.
060, 1490 nm SM.
061, 1625 nm SM.
062, 780 nm SM.
068, 780/1550 nm SM.
063, 1310/1550 nm SM, 850/1300 nm MM.
064, 850/1300 nm MM.
065, 850 nm MM.
010, Protector option (includes rubber bumpers, display cover and shoulder strap).
001, IP Network Connection Check Function.
011, Gigabit Ethernet Upgrade (requires option 001).
004, SMF Optical Power Meter (UPC only).
005, SMF High Power Optical Power Meter (UPC/APC).
007, SMF/MMF Optical Power Meter (UPC/APC).
002, Visible Laser Diode.


Related Optical Terms and Definitions. For a complete list go to our  Terms and Definitions Page.

Optical power referenced to 1 millimatt

Multimode Fiber
Multimode Fiber has a large core (almost always 62.5 microns - a micron is one one millionth of a meter - but sometimes 50 microns) and is used with LED sources at wavelengths of 850 and 1300 nm for short distance, lower speed networks like LANs. Both multimode and singlemode fiber have an outside diameter of 125 microns - about 5 thousandths of an inch - just slightly larger than a human hair.

Power Repeatability
Power Repeatability is the random uncertainty in reproducing the power level after changing and re-setting the power level. The power repeatability is ± half the span (in dB) between the highest and lowest actual power. Note: - The long-term power repeatability can be obtained by taken the power repeatability and power stability into account.

Refractive Index
The refractive index or index of refraction of a substance is a measure of the speed of light in that substance. It is expressed as a ratio of the speed of light in vacuum relative to that in the considered medium. The velocity at which light travels in vacuum is a physical constant, and the fastest speed at which energy or information can be transferred. However, light travels slower through any given material, or medium, that is not vacuum.

Total insertion loss
A measure of the loss of light within an optical component

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