Pair of Near-Ultraviolet 420nm Gooseneck Lamps for LED-6W and LED-312W Illuminators

SKU: FB-6W-420X2

Availability: In Stock

Regular price $181.99 $120.99

The Higher the Magnification - The More Detail You'll See

Magnification 40x
Magnification 1000x
Magnification 2500x

Magnification is the ability of your microscope to make small objects seem larger. As the magnification increases the area being viewed will be decrease is size but the detail of the area being viewed will improve.

Amscope microscopes come with multiple magnifications to aid you in finding the proper magnification for viewing each specimen.

Camera Connection Types

When comaring 2.0 and 3.0 there are few major differences. First the transfer rates. USB 2.0 offers transfer rates of 480 Mbps and USB 3.0 offers transfer rates of 4.8 Gbps - that's 10 times faster.

Camera Resolution

The most important factor in ensuring successful microscopic imaging is choosing the appropriate optics and camera for your application that gives you more data and higher image quality. When selecting a microscope camera, it is best to base your decision on the most important requirements for your microscopic observation.

Key Features

  • Two 420nm near-UV LED gooseneck lamps for LED-6W, LED-11C, and LED-312W
  • Flexible 22" gooseneck

This is a pair of 420nm near-ultraviolet LED gooseneck lamps for our LED-6W, LED-11C, and LED-312W illuminators. They are 22" in length, with 4-pin electrical connectors. They provide LED-generated violet light output in the 420 nanometer range, which can be used for fluorescence applications, curing, or sample-irradiation.

illuminator design Metal
illuminator shape Single Gooseneck
illuminator_light_type UV-420 Light
light shape Illuminator-Single Gooseneck
light type UV Light
Manufacturer AmScope
Prop 65 Prop 65 Warning

This is a pair of 420nm near-ultraviolet LED gooseneck lamps for our LED-6W, LED-11C, and LED-312W illuminators. They are 22" in length, with 4-pin electrical connectors. They provide LED-generated violet light output in the 420 nanometer range, which can be used for fluorescence applications, curing, or sample-irradiation.

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