iPico is totally non invasive and does not change or interfere with the harmony of the body or its functioning.

The iPico is designed on the basis of 10 years of research.  Its specifications are confirmed
by lab experimental results as well as clinical studies. iPico treatments can be marketed
in packages of three to five for fifteen minute treatments at twice the price of other devices.

All iPico upgrade sales are final.  No returns, no exchanges and no refunds are
allowed.  This has been company policy for all our devices and all their
upgrades since 2002.

iPico ELECTRONIC SCIENCE
The iPico board is handmade, ie. individually assembled by hand with nanotechnology
components. It has four layers because you cannot have a large enough power
ground planes with only two layers, therefore you would not be able to eliminate noise with only
two planes.

Its digital to analogue converter has a dual-channel, 1.2-GSPS (giga-sample-per-second), 16-
bit DAC (digital-to-analog converter) that supports the high data rates and complex modulation
schemes required for advanced multi-carrier communications. Featuring an on-chip 32-bit NCO
(numerically-controlled oscillator*) that allows flexible placement of the IF (intermediate frequency)
to help optimize system performance.
Other complementary parts include the low-voltage differential signaling interface with an eightword-
deep FIFO memory that supports a maximum sample-data-input-rate of 1.2 GSPS and 600
MSPS (mega samples per second). This constitutes high-performance conversion technology
required to bridge the analog and digital worlds.
iPico is a low power ultra low noise device that needs to be powered from within itself not from
the Mains Power supply. This feature makes the iPico completely safe, safer than anything
directly connected to the Mains.
The iPico has hundreds of ways of eliminating noise making it the world’s leader in high performance
signal processing. Without getting too technical, we will list some of the ways in which
iPico eliminates noise to establish a biologically compatible bio resonant signal.
1. Differential Output. When both wires are active the noise that is coming in on one wire is cancelled
out by the noise coming in from the other wire.
2. Ultra low noise power supply. This is necessary because it you do not have a low noise power
supply then you will be switching the power supply noise to the client.
iPico has an ultra low noise power supply. Ultra low noise power supply is what powers the
entire unit.
3, Use of high quality low noise electronics.
4. Original handmade board PCB layout.
5. Optimized filtering which means that any noise in the system is immediately filtered out.
6. At the front of the iPico machine there is a quite large XLR connection which is what microphones
and audio equipment uses to eliminate noise. Additionally, it has a small latch that
allows the leads to lock in and a special button that releases the latch. The XLR connection has
a large diameter monster cable which is in fact a microphone cable that is very flexible with a lot
of screening in it so that it to optimize noise filtering so that it does not pick up any radiated electronic
noise. Its ultra flexibility allows it to trasmit signals with the highest efficiency to ensure the
highest quality.
7. The iPico output is not referenced to ground. There is no ground leakage. For example if
the body is functioning at 600 ion energy units and you emit via the device what is equivalent of
800 ion energy units and there is ground leakage then some of the device’s output will flow to
the ground rather than into the body. This will create noise and inaccuracies because you do not
know exactly how much of the device output is actually going into the body and how much of the
device output is going to the ground. If the body is grounded the ions that are flowing into the
body will flow into the ground and will be lost. No ground leakage means that ions flow via a feedback
loop via that body without any of the ions being lost. Both gloves are active wires, therefore
ions flow from one glove to the body to the other glove but never to the ground. Therefore none of
the output of the device is lost into ground leakage.
8. Common node of rejection. In the iPico voltage output is always different because of its
adaptability to skin and muscle variations present due to individual differences.
9. iPico is also endowed with a Direct digital synthesis (DDS) mechanism. This is a method of
producing an analog waveform—usually a sine wave—by generating a time-varying signal in digital
form and then performing a digital-to-analog conversion. Because operations within a DDS device
are primarily digital, it can offer fast switching between output frequencies, fine frequency resolution,
and operation over a broad spectrum of frequencies. IELLIOS DDS has advances in design
and process technology being very compact and drawing little power. Why would one use a direct
digital synthesizer (DDS)? Aren’t there other methods for easily generating frequencies? The ability
to accurately produce and control waveforms of various frequencies and profiles has become
a key requirement of lowphase- noise variable-frequencies with good spurious performance for bio
communications. The iPico DDS technique an generate programmable analog output waveforms
simply and with high resolution and accuracy. For example, a DDS produces a sine wave
at a given frequency. The frequency depends on two variables, the reference-clock frequency and
the binary number programmed into the frequency register (tuning word). The binary number in
the frequency register provides the main input to the phase accumulator. The phase accumulator
computes a phase (angle) address for the look-up table, which outputs the digital value of amplitude—
corresponding to the sine of that phase angle—to the DAC. The DAC, in turn, converts that
number to a corresponding value of analog voltage or current. To generate a fixed-frequency sine
wave, a constant value (the phase increment—which is determined by the binary number) is added
to the phase accumulator with each clock cycle. If the phase increment is large, the phase accumulator
will step quickly through the sine look-up table and thus generate a high frequency sine
wave. If the phase increment is small, the phase accumulator will take many more steps, accordingly
generating a slower waveform and so on...