LLLT with our 10W 12V RGB LEDs
Question: What would you say the wavelengths of 10W12V RGB LED lights are?
Answer:
A typical 10 watt 12 volt RGB LED light fixture would contain the following wavelengths for each color:
Red LED: Wavelength range: 620-630nm
Green LED: Wavelength range: 515-535nm
Blue LED: Wavelength range: 460-485nm
An RGB LED light uses separate red, green, and blue LEDs
which can be controlled individually to produce a range of colors by mixing different intensities of the red, green and blue light.
So in summary:
Red: 620-630nm Green: 515-535nm Blue: 460-485nm
The red range, from 620-630nm, overlaps somewhat with the therapeutic window used in photobiomodulation and low-level laser therapy, which is typically 600-1000nm. So there may be some beneficial bio-stimulative effects from the red component. But the other colors would likely contribute less therapeutic benefit.
Question: What about the mixed colors wavelengths in orange, yellow purple and light blue?
Answer:
Here are the approximate wavelength ranges a 10W 12V RGB LED light would produce for those specific colors:
Orange (Red + Green): Wavelength range: 585-630nm
Yellow (Red + Green): Wavelength range: 565-630nm
Purple (Red + Blue): Wavelength range: 430-630nm
Light Blue (Green + Blue): Wavelength range: 460-535nm
To explain further:
Orange and Yellow: Mixing intensities of the Red (620-630nm) and Green (515-535nm) LEDs makes shades like orange and yellow. This spans 565-630nm approximately.
Purple: Mixing Red (620-630) and Blue (460-485nm) creates purple tones in a range around 430-630nm.
Light Blue: Blending the Green (515-535nm) and Blue (460-485nm) LEDs makes light blue, spanning 460-535nm.
So, of those colors, the orange and yellow wavelengths from the red and green mix come closest to the optimal LLLT photobiomodulation range of 600-1000nm. But all the colors likely have some positive biological activity, 600-1000 have the most.
Question: What would you say the wavelengths of 10W12V RGB LED lights are?
Answer:
A typical 10 watt 12 volt RGB LED light fixture would contain the following wavelengths for each color:
Red LED: Wavelength range: 620-630nm
Green LED: Wavelength range: 515-535nm
Blue LED: Wavelength range: 460-485nm
An RGB LED light uses separate red, green, and blue LEDs
which can be controlled individually to produce a range of colors by mixing different intensities of the red, green and blue light.
So in summary:
Red: 620-630nm Green: 515-535nm Blue: 460-485nm
The red range, from 620-630nm, overlaps somewhat with the therapeutic window used in photobiomodulation and low-level laser therapy, which is typically 600-1000nm. So there may be some beneficial bio-stimulative effects from the red component. But the other colors would likely contribute less therapeutic benefit.
Question: What about the mixed colors wavelengths in orange, yellow purple and light blue?
Answer:
Here are the approximate wavelength ranges a 10W 12V RGB LED light would produce for those specific colors:
Orange (Red + Green): Wavelength range: 585-630nm
Yellow (Red + Green): Wavelength range: 565-630nm
Purple (Red + Blue): Wavelength range: 430-630nm
Light Blue (Green + Blue): Wavelength range: 460-535nm
To explain further:
Orange and Yellow: Mixing intensities of the Red (620-630nm) and Green (515-535nm) LEDs makes shades like orange and yellow. This spans 565-630nm approximately.
Purple: Mixing Red (620-630) and Blue (460-485nm) creates purple tones in a range around 430-630nm.
Light Blue: Blending the Green (515-535nm) and Blue (460-485nm) LEDs makes light blue, spanning 460-535nm.
So, of those colors, the orange and yellow wavelengths from the red and green mix come closest to the optimal LLLT photobiomodulation range of 600-1000nm. But all the colors likely have some positive biological activity, 600-1000 have the most.
How it works Step-By-Step
- The LED light is funneled into an approximately 1-inch reflecting tube (depending on the size of the crystal) and
- forms a concentrated beam
- flowing into a high-vibrational natural clear quartz wand,
- surrounded by a protective orgone matrix.
- The orgonite surrounding the crystal transforms any DOR (deadly orgone energy) that comes from the LEDs and our environment and turns it into positive POR (positive orgone energy),
- and this enhances the energy system of our bodies, commonly called the aura.