MIGHTEX LED DRIVER DOWNLOAD

You may also be interested in: For this reason LED microscope light sources are fast becoming the leading choice for quantitative measurements. Finally, the long lifetime of LEDs translates into low cost of ownership and trouble-free operation possibly for the lifetime of the microscope. LEDs also have a fast response time, in some cases as short as 10ns. Another feature of LEDs is their high stability and repeatability of output intensity compared to that of short-arc lamps. With the state-of-the-art high-brightness technology spectral density of LEDs have reached or exceeded that of some short-arc lamps.

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With 9 wavelengths at your disposal, you are unlikely to run out of options for exciting the majority of fluorescent dyes.

LEDs also have a fast response time, in some cases as short as 10ns. Microscope LED intensity can be directly modulated through driving current.

With the state-of-the-art high-brightness technology spectral density of LEDs have reached or exceeded that of some short-arc lamps.

These light sources also employ aspherical collimating optics to generate uniform illumination at the sample plane. Talk to us about which option would be most suitable for your application and to know more about LED microscope prices. The WheeLED microscope LED light source, developed and produced by Mightex Systems, les a switchable wavelength unit, ready to be mounted on existing lamp ports of various microscopes to replace traditional light sources such as incandescent lamps and arc lamps.

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This gives you accurate control over intensity, which means less bleaching and phototoxicity, and no need for neutral density filters. Another feature of LEDs is their high stability and repeatability of output intensity compared to that of short-arc lamps. For this reason LED microscope light sources are fast becoming the leading choice for quantitative measurements.

LEDs may also be pulsed at a current much higher than the normal rating, resulting in higher output Visit the BioLED range page to see how this makes a difference. Many applications require wavelength-switchable sources. It is easy to coordinate LED illumination time with camera acquisition time, decreasing the likelihood of bleaching and phototoxicity.

This is ideal for the patch clamper who wants to eliminate vibrations on the setup. Brochure Dimensions Request A Demo. LEDs have many desirable features for fluorescence microscopy applications: The light exiting the unit is collimated into a mivhtex light guide, which is connected to the microscope epifluorescence LED microscope illuminator via a collimating adapter.

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Switchable wavelength collimated microscope LED | MCI

Finally, the long lifetime of LEDs translates into low cost of ownership and trouble-free operation possibly for the lifetime of the microscope. Light is collimated in migghtex way that optimizes light delivery, which means that you lose the minimum amount of light before it arrives at the sample level.

It is a great option for researchers who require the flexibility of having access to a wide range of wavelengths up to 9 wavelength modules per unittypically offered by Arc lamps, but who also want to benefit from the LED characteristics. You may also be interested in: LED light sources are also compact and dissipating less heat than many other light sources, leading to healthier samples.