What are the actual output units? I doubt it's some absolute units, so is it just basically some arbitrary ones to get the ratios only? Also, I'm pretty sure that are laser safety glasses, so, uh.. why? 😂😅
It's using standard uv measurement units of uW/cm2. (Also, the glasses? UV Safety Glasses TK-3-SG. Similar in color to laser safety glasses for certain types of lasers.)
@@robreynolds6546 Is it just me or do the numbers in the video not make sense logically? 66uW/cm2 is like 0.66W/m2 which is a uv index of over 25. I bought one of these and simply being under the sun read values of over 1000 which would be deadly exposure in UV index. I think it may be more like uW/m2 because that's the only one I can see being reasonable.
Any chance to get a grip of the step file for handheld enclosure? Looks nice for a quick hookup!
Can you please explain how to change the addresses of the sensors
Why won’t you give any Pi-5 pre-order updates?
So is it capeable to measure a the sun also? So I can decide do I need to apply any protection.
Yes, absolutely! I got solid reading outdoors.
Is there a difference between the two modules aside from the PCB layout / size?
No difference other than the layout. If you check out the schematics on the product pages, they're the same circuit.
@@robreynolds6546 Thanks 😀
What are the actual output units? I doubt it's some absolute units, so is it just basically some arbitrary ones to get the ratios only? Also, I'm pretty sure that are laser safety glasses, so, uh.. why? 😂😅
It's using standard uv measurement units of uW/cm2. (Also, the glasses? UV Safety Glasses TK-3-SG. Similar in color to laser safety glasses for certain types of lasers.)
@@robreynolds6546 Is it just me or do the numbers in the video not make sense logically? 66uW/cm2 is like 0.66W/m2 which is a uv index of over 25. I bought one of these and simply being under the sun read values of over 1000 which would be deadly exposure in UV index. I think it may be more like uW/m2 because that's the only one I can see being reasonable.