Bringing OEM Innovation Together
You know when you need to run metrology tests on 1,000 wafers in record time but your aging arc lamp freaks out just before you start, flickering or dying on you?
Yep, that panic moment is exactly when you realise: LEDs could’ve saved you hours (or more). If you’ve ever been there, you’ll want to tune in to the OEM Network Webinar on 30 September 2025, where CoolLED joins Prior Scientific, Teledyne Photometrics, and CrestOptics to talk real-world applications, not just fancy technical jargon.
This is not your usual product-pitch seminar. It’s all about how life science imaging, high throughput screening, industrial inspection and quality control work when everything is playing nicely together: LEDs, optics, cameras, stages – the whole suite.
What to Expect + Why You’ll Care
Here’s a snapshot of what each company’s bringing, and why their tech matters in practice:
CoolLED
You already know the struggle of chasing consistency under arc or metal halide lamps. CoolLED lives in the world of “turn on, get the same light output at 9am as at 5pm,” with LEDs that warm up instantly, throw off less heat, and deliver homogenous, stable illumination. In industrial inspection, that means fewer failures due to drift or burnt-out bulbs; in life sciences, it means more reproducible data from long time-lapse or multi-channel experiments.
Teledyne Photometrics
Their cameras are built for sensitivity and speed. Imagine doing live-cell calcium imaging in a neuroscience lab, trying to catch fleeting neuronal spikes – or inspecting fast‐moving production lines where you’re trying to spot very small defects.
You want high signal, low noise, and frame rates that actually keep up with the process. That’s what Teledyne promises in both fields.
Prior Scientific
Precision stages, smooth focus drives, reliability under heavy use. Picture an automated imaging rig that needs to scan samples overnight (maybe for spatial biology), or a semiconductor inspection rig where fine alignment is essential. If your stages drift or your focus shifts, all that throughput gets wasted. Prior’s gear aims to make that kind of drift nearly invisible.
CrestOptics
Spinning disk confocal, optics that let you do fast imaging with depth, clarity, and minimal photobleaching. In life sciences, you might want to track a neuron firing deep in tissue or watch subcellular structures moving in 3D. On the industrial side, maybe you have layered materials or coatings, and you need depth resolution to see defects between layers. CrestOptics helps you do that with speed.
Why You Should Register
-
Faster integration: If you’re designing a system (for neuroscience, quality control, semiconductor inspection, etc.), knowing how light sources, cameras, sensors and optics work together from day one saves time.
-
Reduced risk: Components that are already proven to play nicely together mean fewer surprises later.
-
Real use cases: See exactly how labs or production lines are using these OEM collaborations right now – not in theory, but what they’ve already built (or are building).
If you’ve ever been held back by inconsistent illumination, twitchy cameras, or an alignment stage that won’t stay put, this webinar is going to hit close to home. Register, bring your questions – it’ll be worth it!
