Swedpat
Flashlight Enthusiast
I have discussed this issue earlier and met as well positive and negative responses.
I believe in that shining a light upon the ceiling above a light meter is a very accurate method of measuring percentual differences of total light output. Though likely not completely as accurate as using an IS sphere it's very useful.
The basis for my belief of the ceiling bounce as a decent method is following:
*the total light amount reflexed from the ceiling is the same undependent of the distance I hold the flashlight from the ceiling. (this makes the demand of a clearly limited beam, so that no light spreads out to the walls)
*the received values of lux reduces with longer distances/wider beams, because of that the light from the periphery of beam is more distant from the sensor.
*according to the previous point I therefore always take in consider the beam width of different lights and hold, for example a Maglite, closer to the ceiling than a Fenix. Actually the differences of beam widths will be less important the closer to the ceiling I hold the light. I can also simply hold the light very close to the ceiling and note the brightest available value of the light meter by varying the position of the light.
*If holding different lights at that distance from the ceiling that the projected beam profiles have equal diameter and position above the sensor of the lightmeter (in my case laying on my livingroom table) is the same, the total light amount reaching the sensor has to be very accurate and comparable.
According to optical laws and that above mentioned requirements are fulfilled I can not find any reason that ceiling bounce test would not be a trustworty method to measure differences of the total light output of flashlights.
I welcome commentaries,
Regards, Patric
I believe in that shining a light upon the ceiling above a light meter is a very accurate method of measuring percentual differences of total light output. Though likely not completely as accurate as using an IS sphere it's very useful.
The basis for my belief of the ceiling bounce as a decent method is following:
*the total light amount reflexed from the ceiling is the same undependent of the distance I hold the flashlight from the ceiling. (this makes the demand of a clearly limited beam, so that no light spreads out to the walls)
*the received values of lux reduces with longer distances/wider beams, because of that the light from the periphery of beam is more distant from the sensor.
*according to the previous point I therefore always take in consider the beam width of different lights and hold, for example a Maglite, closer to the ceiling than a Fenix. Actually the differences of beam widths will be less important the closer to the ceiling I hold the light. I can also simply hold the light very close to the ceiling and note the brightest available value of the light meter by varying the position of the light.
*If holding different lights at that distance from the ceiling that the projected beam profiles have equal diameter and position above the sensor of the lightmeter (in my case laying on my livingroom table) is the same, the total light amount reaching the sensor has to be very accurate and comparable.
According to optical laws and that above mentioned requirements are fulfilled I can not find any reason that ceiling bounce test would not be a trustworty method to measure differences of the total light output of flashlights.
I welcome commentaries,
Regards, Patric