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Ultra High Power LEDs

                     USA/Canada: +1 (248) 436-8085

Introduction

The Ultra High Power LED provides almost x10 increase of power in comparison with regular High Power LED devices. The Ultra High Power LEDs are an effective replacement of Mercury and Xenon lamps as well as lasers in many power-demanding applications, such as fluorescence microscopy, optogenetics, chemical reaction activation, uncaging and numerous others.

Prizmatix’s Ultra High Power LED head features built-in adjustable aspheric collimator to provide collimated beam suitable for direct connection to epi-fluorescence port of microscope. The Ultra High Power LED head can be easily modified for fiberoptics applications by an efficient Fiber Coupler adaptor specially designed for high NA fibers to maximize light coupling efficiency. This feature makes possible to achieve extreme light power from the distal end of fiber suitable for optogenetics applications.

The Ultra High Power LED can be used with a full range of other Prizmatix OptiBlocks such as Fiber Coupler, Liquid Light Guide coupler, Beam Combiner, Filter Wheel, Beam Switcher, Rotary Joint and others to form comprehensive Optogenetics Toolbox.

Ultra-High-Power-Microscope-LED

  Ultra-High-Power-Microscope-LED-405nm
 



Key Features

  • Single chip Ultra High Power LED
  • TTL external triggering
  • Easy connection to microscopes, fiberoptics or lightguides by simple adaptors.
  • Excellent for fluorescence excitation
  • LED spectrum can be narrowed by optional band pass filter installed inside the head.
  • Stable precisely adjustable power
  • Long life (no lamp or laser tube replacement required)
  • Speckle free
  • Rapid warm up time



Applications

  • Optogenetics: Photostimulation of Channelrhodopsin ChR1, ChR2 Halorhodopsin (NhPR
  • Fluorescence Microscopy
  • Whole body imaging of small animals in-vivo
  • Photo activation (PA) and uncaging
  • Fluorescence recovery after photo bleach (FRAP)
  • Fluorescence in situ hybridization (FISH)
  • Bio analysis
  • Machine Vision



Optional Accessories


 
Accessories
 

All Prizmatix's LED light sources can be easily configured for use in a wide variety of applications by simply adding further components. These use a standard 1.035” 40TPI thread (SM1 compatible) or Prizmatix's 4-pin connection system.

Following table summarizes the most popular accessories according to applications. The following table summarizes the most popular accessories according to application, further information on individual part can be found below the table. Custom solutions are also often available at a low cost: please contact us with your specific requirements.

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Accessories

Common Applications

 

Fiber delivery, Spectroscopy


Microscopy and Imaging


 

Optogenetics  in- vivo


Optogenetics  in-vitro

 1 Prizmatix Ultra High Power LED Light Source
           
 2 Beam Combiner – Combines several LEDs into one beam using a dichroic mirror
           
 3 FCA – Fiber Coupler Adaptor couples an optical fiber to LED: SMA or FC connectors            
 4 Fiber Patch Cord – Polymer / silica optical fiber (single or multiple branches), SMA or FC connectors            
 5 Rotary-Joint – Fiber optic Rotary Joint for in-vivo optogenetics            
 6 Beam Switcher – Changes direction of beam output (e.g. microscope to fiber)            
 7 Filter wheel – Takes up to six 1” filters            
 8 Microscope Adaptors - Adaptors for epi-fluorescence ports of Nikon / Olympus / Zeiss / Leica microscopes            
 9 LLG-A - Couples Liquid Light Guide to LED system            
10 LLG-3 / LLG-5 - Liquid Light Guide: 3mm or 5mm core            
11 LLG-C - Collimates Light Guide beam for fluorescent microscope            
12 C-Mount Adaptor - Used to mount LED on camera port of microscope            
13 Fiber Collimator – Specially designed to collimate high NA optical fibers            
14 Reference Photodiode - Monitors LED system power output            
15 Optogenetics-Fiber - For in-vivo applications, single or bilateral dual fiber            
16 Implantable Cannulae - Used with fiber patch cord in optogenetics            
17 Optogenetics-Fiber - For in-vitro applications: bare fiber protruding from thin stainless steel tubing            
18 Pulser – Programmable TTL pulse train generator            
19 USB-TTL Interface - To control Prizmatix LEDs from Imaging software (e.g. microManager) via USB connection            



 Prizmatix Ultra High Power LED Light Source [1]

Any type of Prizmatix Ultra High Power LEDs can be combined to form multi-wavelength system. For more information on specific types please see following links:  UHP-Mic-LED,  UHP-T-LED, Mic-LED

Beam Combiner [2]

Beam Combiner module joins two discrete Prizmatix LEDs into one output beam using a built-in dichroic mirror at specified cut-off wavelength .
The beam combiner has additional port that can be used for connection of monitoring photodiode.

FCA - Fiber Coupler Adaptor [3]

Collimator [13]

See more info...

Reference Photodiode [14]

Prizmatix reference photodiode is useful in order to monitor LED source power over time in experiments required exceptional stability over long time period.

Optogenetics-Fiber for in-vivo [15]

Prizmatix provides a full solution to the optogenetics in-vivo and in-vitro fiber optics. Made of silica or polymer high NA fibers, the high NA fibers are assembled to fit any research set-up with various combinations of connectors, ferrules, core diameters and lengths. This is example of a Y-shaped fiber for simultaneous in-vivo stimulation of two hemispheres. See more info...

Implantable Cannulae [16]

Prizmatix Implantable Fiberoptic Cannulae / Ferrules allow direct light stimulation of certain deep brain regions in living animals. Each Cannula consists of a Zirconia ferrule accommodating a high NA Silica optical fiber, protruding from the Zirconia ferrule at a desired length. See more info...

Optogenetics-Fiber for in-vitro [17]

Prizmatix provides a full solution to the optogenetics in-vivo and in-vitro fiber optics. Made of silica or polymer fibers, the high NA fibers are assembled to fit any research set-up with various combinations of connectors, ferrules, core diameters and lengths. This is example of a fiber with stainless steel tip with protruding bare fiber for in-vitro activation of brain slices under a microscope. See more info...

Pulser [18]

The Pulser USB to TTL interface box with user friendly software is an easy way to generate trains of pulses for Optogenetics activation directly from your computer. See more info...

USB-TTL Interface [19]

The microprocessor based device enabling simple control of Prizmatix LED sources from Windows based computer via USB.

 
   

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