Our technology is based upon two principles:
Before QEY technology emerged as we know it today, many decades were spent to experiment on plants, animals and humans in order to develop a consistent field that is healthy for biological systems. We call this Biomimicry which is a science and artform founded by scientist Janine Benyus that strives to imitate the genius systems of nature in the development and design of products, systems and processes. The word is derived from the Greek words ‘bios‘ which means life and ‘mimesis’ meaning to imitate. Literally meaning: to imitate life by learning from nature. Think of a solar cell constructed by imitating a leaf or coating for airplanes based upon shark skin structure which reduces erosion and friction in the air.In QEY technology the structure of plants is used in the power circuit that forms the base of every QEY application. The metal frame of the QEY application functions as an antenna that is connected with the power circuit. The antenna picks up electromagnetic radiation from its surroundings and transforms this into an electromagnetic field that is healthier for people, animals and plants.
Utilizing products or things the world uses daily for extra vitality of the users is what we call the Vitality of Things
The function of our products can be best understood as the one of an electronic transformer. External (EMF) in a broad surrounding field is transformed by the internal circuit into a biological, natural field. The more powerful the radiation, the stronger the field that is produced by our product.
We can adapt both the PCB (Printed Circuit Board) as well as the circuits used to your specific needs. We can provide the entire spectrum from powerful circuits to cover a large range down to smd (Service Mount Device) pcbs that can be integrated in a device or on a section of an existing to facilitate assembly efficiency.
Over the years we have conducted and collected a substantial and highly qualitative research portfolio. This involves both our own research as well as external parties auditing the effectiveness of QEY products. Please have a look at our QEY Research Guide, an overview providing you background information about the research and results with the use of QEY technology. We hope it will inspire you to do research on QEY with your company. If you would like to investigate the specific ways of auditing that would work for your business, please contact us so we can set up a meeting and discuss the options.
If you would like to take a quick look on the effectiveness of our products, please check out below a very recent study on the Vitality of Things products by a German Research institute.
Measurement 23: reference measurement without anything in the field of the antenna. So what you see are the signals (radiation) produced from a transmitting antenna to a receiving antenna. ‘Leer’ means ‘Empty’.
Abbreviations:
RBW – Resolution Band Width : the resolution of the measured differences in the received signal.
VBW – Video Band Width: The resolution of the received signal after filtering
SWT – Sweep Time: the time elapse between measurement of the lowest until the highest frequency.
All measurements were made with the help of a near field H-Loop antenna allowing for monitoring the magnetic near field of QEY products.
The type of signals that are being measured:
Measurement 24: measurement of the damping (muting) of radiation signals by the Home set.
The graphs show the results at different frequencies, starting at 400MHz at the left to 2.999GHz at the right. All these frequencies were stepped through by doing a sweep of 290 seconds in total to get to the pictures you see. So for example: the empty measurement (23: Leer) started at a measurable power received at the receiving antenna of approx. -32dBm. Just for reference: -30dBm is equal to 1 microWatt. And in measurement 24 with the Home set, at the midpoint of 1700 MHz (400 MHz plus 5 times the division of approx. 260 MHz), the value was -36dBm.
As you can see, the damping/lessening of the power of the signal is approximately 2dBm at the lower frequencies on the left, rising to between 6dBm and 8dBm at the higher frequencies on the right when you compare the empty measurement (23: Leer) with the Home set measurement (24). A 6dBm difference is equivalent to a damping/lessening of 75% of the signal strength. So even regardless of the effect of the Home set at other levels, even at the crude signal strength level there is a definite positive effect.
Measurement 6: reference measurement without anything in the field of the antenna.
Measurement 9: measurement of the damping by QEY technology. Damping means that the disturbing signals of radiation are reduced, literally muted by QEY technology.
The graphs show the results at different frequencies, starting at 700MHz at the left to 2.8GHz at the right. All these frequencies were stepped through by doing a sweep of 225 seconds in total to get to the pictures you see. So for example: the empty measurement (6: Leer) started at a measurable power received at the receiving antenna of approx. -92dBm. And in measurement 9 with the Computer/PC device, at the midpoint of 1750MHz (400MHz plus 5 times the division of 210MHz), the value was -83dBm.
As you can see, the damping/lessening of the power of the signal is approximately 1 to 2dBm from around 1000 MHz, rising to between 8dBm and 10dBm at the higher frequencies on the right when you compare the empty measurement (6: Leer) with the QEY Computer/PC measurement (9). A 10dBm difference is equivalent to a damping/lessening of 90% of the signal strength. So with the QEY Computer/PC, even at the crude signal strength level there is also a positive effect.
Measurement 2: reference measurement without anything in the field of the antenna.
Measurement 4: measurement of the damping by the Personal device.
The graphs show the results at different frequencies, starting at 250 MHz at the left to 700 MHz at the right. All these frequencies were stepped through by doing a sweep of 450 seconds in total to get to the pictures you see. So for example: the empty measurement (2: Leer) started at a measurable power received at the receiving antenna of approx. -90 dBm. And in measurement 2 with the use of the Personal device, at the midpoint of 475MHz (250MHz plus 5 times the division of 45MHz), the value was -91dBm.
As you can see, the damping/lessening of the power of the signal is approximately 5dBm from around 250MHz to approximately 4dBm at the higher frequencies on the right when you compare the empty measurement (2: Leer) with the Personal device measurement (4). A 6dBm difference is equivalent to a damping/lessening of 75% of the signal strength. So with the Personal device there is also a positive effect.
