Jds uniphase RM3 backreflection meter 1310 / 1550 nm


Subject: Jds uniphase RM3 backreflection meter 1310 / 1550 nm
Dual Source 1310 / 1550 Single Mode Backreflection Meter
The JDS Uniphase Backreflection Meter is a convenient, portable, direct-display instrument used for the measurement of backreflection, insertion loss, and power of connectors, components, and systems.With a single output port, the meter is ideal for jumper manufacturers. The meter can be equipped with one or two built-in laser sources. The use of an FC/APC ultra-low backreflection connector on the output port enables the use of hybrid jumpers to accommodate measurements with various connector types without compromising the backreflection measurement range. When a device under test (DUT) is connected to the jumper and the DUT output is terminated, the backreflection of the DUT is displayed. The meter's superior optics are very stable at low backreflection levels. Insertion loss (IL) and power can be measured to - 80 dBm. Other features include compensation for extraneous backreflection, useradjustable calibration, an internal rechargeable battery for field portability, a transit carrying case, and a convenient foot pedal for data logging to a computer or serial printer via the instrument's serial port.
This instrument's two sources operate at 1309 and 1541 nm into SMF-28 fiber, FC/APC connector. Includes original users manual.
2.Insertion loss and backreflection capability
3.Typical backreflection power sensitivity of - 75 dB
4.Insertion loss and power measurements to - 80 dBm
5.Multiple connector test system (MCTS) application software
6.Direct display of measured backreflection, power, or insertion loss
7.Calibration can be verified using calibrated reference jumpers
Specifications and description are on p. 153 of http://www.jdsu.com/site/jdsu_public_website/assets/pdf/InstrumentationCatalog_2005.pdf
Users manual is at http://www.artisan-scientific.com/info/JDS_RM3_Manual.pdf
This item is slightly used, in perfect working condition and good physical shape.