This FPGA based data acquisition unit synchronizes the output control and the acquisition of the input data. This device seamlessly integrates with Doric Neuroscience Studio, which provides the user-interface for multi-channel photometry experiments.
-11 Item Items
Warning: Last items in stock!
This FPGA based data acquisition unit synchronizes the output control and the acquisition of the input data. This device seamlessly integrates with Doric Neuroscience Studio that provides user interface for multi-channel photometry experiments. The software interface enables control over the CW excitation light pulses, or sinusoidal waveform trig of an external source (i.e. LED driver) with 4 TTL and 4 analog voltage outputs. The software interface displays real-time recording data of up to 4 detector input signals. Signal processing as averaging, subtraction, multiplication to calculate deltaF/F and other new functionalities are being developed. Updates will be freely available as they are released.
|Dimensions||360 x 99 x 37 mm³|
|Analog Output Voltage||±4.75 V|
|Analog Input Voltage||±10.0 V|
|Analog Output Impedance||6 Ω|
|Analog Input Impedance||100 - 124 kΩ|
|Analog Input Sample Rate||15 kS/s|
|Analog Output Sample Rate||25 MS/s|
Doric programmable LED Drivers are available in 1-, 2-, and 4-channel versions. When connected to a Connectorized LED having an eprom memory, the LED Driver recognizes the LED wavelength and automatically sets the maximum current value to avoid accidental overdriving.
This Single-channel Two-color Fiber Photometry System measures the background autofluorescence produced by a 405 nm excitation wavelength and the fluorescence of targeted GFP-like fluorophores produced by a 465 nm excitation wavelength.
This Single-channel Two-color Fiber Photometry System contains all the items necessary to do photometry measurements of two independent colors in freely-moving animals for GFP-like and RFP-like fluorophores.
When used in conjunction with a modulated light source and a lock-in amplifier to reduce the measurement bandwidth, the Newport Photoreceiver Module achieves sensitivity levels in the femtowatt range.
Our vast product line allows you to build different applications such as miniaturized fluorescence microscopy, fiber pho-tometry or optogenetically synchronized electrophysiology. In order to help you implementing the best applications, we created an intuitive software which allows you to control the hardware and acquire all the required...