Product and Technology


Comparison of Quantum Invention Lamp Driver with a Current Driver
– AdvanceBallast, Model 3599 

Shown above is the Advance Ballast, Model 3599 with a Phillips TUV PL-L-24W/4P HG bulb.  As displayed the lumens-per-watt/PARS intensity for 254nm is 32,000, 430nm is 15,000, and 550nm is 19,000.  The lower the light intensity the less effective the UV-C (254nm) is in deactivating harmful bacteria DNA,and the longer time is required to deactivate them.





Quantum Inventions’ Patented Lamp Driver (Ballast) Performance

Exhibited above is Quantum Inventions lamp driver, using the same Phillips TUV PL-L- 24W/4P HG bulb.  As shown, with our patented lamp driver, the lumens output almost doubled to 60,000 for 254nm, 30,000 for 430nm, and 49,000 for 550nm.  As a result, not only it takes less time to kill the harmful bacteria this lamp driver also consumes < 2/3 of the energy required by other lamp drivers.
 
With double the intensity and multiple wavelengths bombarding the same bacterial/viruses, our technology not just disables the virus DNA,  it kills the bacteria/viruses so they cannot continue to mutate.  


Selective Tunning to a Specific Wavelength with the Quantum Invention Lamp Driver 
– DOUBLE the Output with 1/3rd Energy Savings

Displayed above is Quantum Invention’s lamp driver selectively tunning and boosting specific wavelengths using the same Phillips TUV PL-L-24W/4P HG bulb.  As shown, Quantum Invention’s patented lamp driver can tune to wavelengths range from less than 200nm (Far UV) all the way to 800nm (infrared).  In this example, the lamp driver amplified the UVC light (254nm) and the regular light spectrum of 430nm and 550nm.  All the intensities of other wavelengths were deliberately reduced.  Our patented technology provides a regular lamp such as the Phillips TUV PL-L-24W/4P HG greater sterilization strength as compared to products available in the market today.





Comparison of MalLiE’s technology and the current competition

Quantum Inventions’ Ballast/Lamp Driver

1. Uses Lower Voltage, High Frequency Signal To Control Power And To Respond Rapidly To lamp Feedback.

2. High Frequency Ballasts Require Smaller Transformers.

3. Enables Lamps To Burn Cooler, Last Longer And Produce high intensity output While Using Less Electricity.

4. Simultaneously Power And Drive A Wide Range Of Lamp Sizes Without Modification – Significantly Increasing lamp Output. 

5. >5x Longer lamp operating Life Due To Low Voltage And High-frequency Elimination Of Filament Fluttering

6. Work with Quantum Invention’s proprietary bulbs that do NOT Containing Mercury gas

7. Current-sensing Power-factor Control And Current Adjustment Capabilities

8. High-intensity Multi Wavelength emission ranging from 180nm to 800+nm (UV/Visible/IR) Killing Pathogenic Microbes

9. Enables Power Factor Correction And Surge Protection

10. Remote Controlled capability 

11. Operable in Low-temperature environment without having to Pre-heat The bulb Filament

Current Ballast/Lamp Driver

1. Uses Higher Voltage, Low Frequency Signal To Activate Lamps.

2. Low Frequency Ballasts Need Large Bulky Transformers

3. Transformer Inefficiency Produces Excessive Wasted Heat

4. Drive Specific Impedance To A Matching Lamp 

5. Inferior Lamp Life Of Less Than One Year – Due To Burn-out Degradation Of Filaments At Low Frequency and High Voltage

6. Requires Bulbs Containing Toxic Mercury gas

7. No Adjustment to Power Input When One Or More Lamps Burn Out Or Otherwise Fails. 

8. Produce One Single High-intensity Wavelength



MalLiE Proprietary Bulbs / Lamps

Proprietary Multi-Wavelength Bulbs/Lamps design significantly reduces costs by eliminating five components used in current UVC Lamps

•No need for Filament

• No need for Mercury Pellets to gasify and produce UVC gas wavelength

• No need for high-quality Soft or Quartz Glass Tubing (Rigid)

• No need for Glass Stem

• No Need for Cathode Shield



MalLiE Far UVC controls the spread of airborne-mediated microbial diseases

We have developed an approach to UV-based sterilization using single-wavelength far-UVC light generated by our lamps, which selectively inactivate microorganisms, but does not produce biological damage to exposed mammalian cells and tissues

MalLiE