Nano Pulse LED light source with interchangeable wavelengths of several types and compatible with SMA, FC optical fibers, and lens output.
The HQ501-PL Nano Pulse Driver can generate high-output pulses on the order of 10 nanoseconds at wavelengths from UV to 1050 nm by driving high-output (up to 3 W) LEDs. Other wavelengths (up to 1650 nm) are also possible.
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basic information
This is a LED nanopulse light source with a pulse width on the order of 10 nsec. By exchanging the wavelength, it allows for a wide range of experiments to be conducted very conveniently and at a low cost. Additionally, by changing the internal capacitor, it is also possible to achieve pulses on the order of a few nsec. By driving a high-output LED capable of 3W injection power with a high-speed MOSFET, peak outputs on the order of 100 mW can be obtained (output depends on the wavelength). Furthermore, by exchanging the output section, it is possible to attach optical fiber connectors (SMA, FC connectors) and various lenses. The current flowing through the LED is an exponential function of the applied voltage. Therefore, constant voltage driving can cause damage to the LED. The HQ501-PL Driver circuit operates in a constant current driving mode by flowing a constant charge, charged in a capacitor, to the LED over a fixed period of time.
Price range
P2
Delivery Time
P4
※The delivery time is three weeks.
Applications/Examples of results
High-speed imaging of printer droplets High-speed microscopy imaging For detector inspection
Detailed information
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- By replacing the LED part, pulses ranging from 265nm to 1650nm can be obtained. - By replacing the output section, options for light fiber (SMA, FC connector), lens, and bare (direct irradiation) are available. - It can also be fixed with a support rod.
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Company information
Hamamatsu Quantum Co., Ltd. conducts research, development, manufacturing, and sales of scientific instruments for detecting infrared ultra-weak light emission and weak spectroscopy, as well as electron beam devices. We provide a single-photon emission observation device and a single-photon spectroscopy device that focus on the quantum aspects of light. In our pursuit of understanding the reality of quantum, we aim to create new quantum frontiers and foster the quantum industry.