CoolLED pE400max
- Broad spectrum white light from 365-635 nm, ranging from DAPI through YFP to Cy5.
- 4 channels can be individually controlled, with any simultaneously running at 100%
- Optional inline excitation filter holders: no moving parts for high-speed imaging
- <10 µs global and channel TTL triggering for high-speed imaging
- Direct fit variant available for higher irradiance with selected/all major microscope models
- pE-400max LightBridge graphical user interface (GUI) for intuitive digital operation
Description
Building on the success of the popular pE-300 Series, the pE-400max is the most advanced Illumination System of the pE-400 Series. Four powerful LEDs can be individually controlled via software, TTL, Lightbridge GUI and manual control pod for demanding everyday fluorescence microscopy and optogenetics applications using the most popular fluorophores, ranging from DAPI through YFP to Cy5. To capture high-speed events the pE-400max offers both global and individual channel TTL triggering. For capturing fast events in multi-stained samples, users can capitalize on high-speed <10 µs TTL triggering by utilizing optional filter holders. These can accommodate single-band excitation filters in the optical path of each channel, Optional filter holders sold separately available as pE 400max LG with filter holders and pod and pE-400max liquid light guide with optional filter holders attached. High-speed imaging is achieved with the pE-400max thanks to <10 µs TTL triggering and optional filter holders. In this setup, individual LED channel switching is controlled via TTL triggering, and single-band excitation filters are housed in the Light Source as part of a Pinkel configuration (where multi-band dichroic and emission filters are housed in a filter cube). This overcomes the cost and latency restrictions of a filter wheel, presenting a cost-effective approach to multi-channel imaging. For live cell imaging applications, events can now be captured that might previously have been missed. Read our white paper to compare the benefits and trade-offs of different possible illumination configurations. The popular Sequence Runner program combines the versatility of software with high-speed TTL, with minimal requirement for expensive electronic hardware. Once an LED and irradiance sequence are specified, the sequence cycles through automatically – with triggering synchronized via the global TTL-in of the pE-400max and a single TTL-out from a camera. When combined with inline filters, this transforms a manual microscope into a cost-effective four-channel automated imaging system.  Tight hardware synchronization not only increases temporal resolution, but also means samples are exposed only during acquisition, protecting against photobleaching and phototoxicity and pushing the boundaries of time-lapse studies.  In the LightBridge graphical user interface (see below), live samples can be further protected by balancing the irradiance to the lowest level possible while still maintaining image quality, with control in 1% steps up to 100%. And the more life-like a cell behaves, the more valuable a data set becomes. For quick and simple operation, the pE-400max can be controlled with manual control pod. For more complex experiments, sophisticated control is possible with third-party imaging software such as µManager (via USB Type B connection). The compact pE-400max is compatible with the majority of microscope models, with two light delivery configurations available: direct fit and liquid light guide.  Direct fit variants achieve higher irradiance by directly connecting to the microscope via dedicated microscope adaptors, with a simple once-only adjustment optimizing the optical path of the microscope. Not only do these variants avoid extra loss of irradiance as the liquid light guide degrades over time, but they are also more cost-effective. This is because they avoid the need to replace the liquid light guide when it comes to the end of its life.
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