Our robust and compact modules couple high brightness LEDs into different types of optical fibers via an FC receptacle that allows change or replacement of the fiber-optic patch cord.
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Our compact Connectorized LEDs couple high brightness LEDs into an FC receptacle compatible with an FC connectorized fiber-optic patch cord. Each LED module is actively aligned for optimum output power and its optical design provides the maximum fiber-coupling efficiency into multimode optical fibers.
Our Connectorized LED modules include an eprom memory enabling its identification by the driver. The wavelength is recognized and the maximum current is automatically set to avoid accidental overdrive.
The Connectorized LED is screwed on a baseplate for a basic passive cooling of the module suitable for low power and pulsed operations. During high power cw applications, an optimum passive cooling is obtained by screwing the baseplate on an optical breadboard such as Doric Optical Breadboard for Connectorized LED (LEDB). This is essential to ensure stable performances in terms of output power and wavelength stability. The Optical Breadboard for Connectorized LED also ensures the longevity of the device.
Our Optogenetics TTL Pulse Generator allows you to generate up to 8 signals to master your experiments.
Doric programmable LED Drivers are available in one-, two-, and four-channel versions. When connected to an LED module having an eprom memory, the LED Driver recognizes the module wavelength and automatically sets the maximum current value to avoid accidental overdriving.
During high power cw applications, an optimum passive cooling is obtained with an Optical Breadboard for Connectorized LED ensuring stable performances in terms of output power and wavelength stability. The Optical Breadboard for Connectorized LED ensures the longevity of the device and allows an easy mounting on an optical table.