NEW YAMASAKI OPTICAL TECH. Y90 SALES and YAMASAKI OPTICAL TECH. Y90 CALIBRATION
 
Custom-Cal has for sale a new YAMASAKI OPTICAL TECH. Y90. Also, short calibration turn times minimize downtime and reasonable rates decrease your long-term cost of ownership and minimizes downtime of the YAMASAKI OPTICAL TECH. Y90. We specialize in quick turnaround times and we can handle expedited deliveries upon request.

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List Price for a new YAMASAKI OPTICAL TECH. Y90, $3,850.00   YAMASAKI OPTICAL TECH. Y90   Description / Specification:    
YAMASAKI OPTICAL TECH. Y90 Optical Fiber Fusion Splicer

The Yamasaki Y90 Fusion Splicer is a small, portable machine designed for use in FTTH, making everyday splicing easy. The fusion splicer is used to connect 2 cables together with a low loss of 0.02db (SM) and 0.01db (MM). The Y90 features a simple navigation pad and an invertible super bright 5 inch color LCD screen. Utilising the latest in core alignment technology, the Y90 gives a novice user ability to perform the best quality of splice. Specifications. Splicing Method: Core Alignment. Splice Time: 9 seconds. Fiber Types: Singlemode and Multimode. Fiber Cladding: 80 ~ 150 µm. Fiber Coating: 100 ~ 1000 µm. Fiber Cleaved Length: 16mm (Standard). Average Fusion Loss: 0.02 dB(SM),0.01 dB(MM). Return loss: >60 dB. Storage of Splice Result: 4000 splice entries. Working Mode: Auto/Manual. Operating Temperature: -10°C to +50°C . Humidity: 0 ~ 95% RH. Altitude: 0-4000m. Heater : 30s (standard) or adjust heating time to suit the environment. Splice Protector Sizes: 40-60mm. Power Supply: AC: 100V-260V 50Hz, 30W (Mains) DC: 12V, 25W (Car adaptor) or Internal battery.



 



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

Coherence Length
Average distance over which superimposed waves lose their phase relationships

Linewidth
Linewidth is the width of a spectral line in terms of wavelength, wave number and frequency.

Power Flatness Versus Wavelength
When changing the wavelength at constant power setting and recording the differences between actual and displayed power levels, the power flatness is ± half the span (in dB) between the maximum and the minimum of the measured power levels.

Spectral Width
Spectral Width is the wavelength interval over which the magnitude of all spectral components is equal to or greater than a specified fraction of the magnitude of the component having the maximum value. In optical communications applications, the usual method of specifying spectral width is the full width at half maximum. This is the same convention used in bandwidth, defined as the frequency range where power drops by less than half (at most -3 dB).

Telecom Bands
Optical fiber communications typically operate in a wavelength region corresponding to one of the following Bands. O Band (original): 1260–1360 nm. E Band (extended): 1360–1460 nm. S Band (short wavelengths): 1460–1530 nm. C Band (conventional): 1530–1565 nm. L Band (long wavelengths): 1565–1625 nm. U Band (ultralong wavelengths): 1625–1675 nm


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