ECD Digital Title (ECD) A true Digital Title of Ownership

15 July 2020

Table of Contents

1. Introduction 1 1.1 Understanding the Field of the Invention 1 1.2 Brief Summary of the Inventions Operation 19 1.3 Objects and Advantages of the Invention over other Energy Sources 19 1.4 Description of the Drawing Reference Numerals and Letters 20 1.5 Description of the Views of the Drawings 20 1.6 Detailed Description of the Inventions Operation 22 1.7 Alternative Embodiments 22 1.8 Invention Drawings 23 2. The Reward-Based Crowd-Funding Campaign 52 3. Key Team Members 53 4. The ECD Digital Title 53

4.1 Purpose 53 4.2 Digital Title Tokens (DTT) 54 4.3 The ECD Guarantee 54 5. Token launch (ECD Digital Title) 54

5.1 Token Launch Summary 54 5.2 The Title Distribution 55

6. ECD FAQ 56

1. Introduction

ECD Energy Corp has a patent pending for a new type of energy device like none before it. The company

calls it a "Electro-kinetic Combination Dive" (ECD). The ECD converts sub-atomic electro-kinetic energy

generated by the sinuous form of electrons within an atomically aligned conductive material into

electricity. We view our invention as a true gift to "We the People" that will revolutionize and set a new

paradigm for the energy industry.

One day, we see a miniaturized ECD device powering the hand-held smart phone or the computer that

you are reading this website on and it will never have to be charged.

But, how many times have we all heard about a new energy device or invention and then it simply

disappears?

Well, it took a while to take its form, but we think that we have finally managed to find a fantastic solution

to ensure that our device gets in the hands of "We the People", therein guaranteeing that everyone can

benefit from this technology.

Instead of drawing from the institutional, private investors or venture capitalist and possible losing control

of our invention, we chose to take a different road to build the initial devices. Our solution is a reward-

based crowd funding campaign (See section 2. herein) that will directly grant the "We the People"

contributors a right of ownership to the very first residential devices manufactured. The process will

include the immediate receipt of a digital title to the contributor's to-be-manufactured device.

1.1. Understanding the Field of the Invention.

Have you ever watched a visible force of

unbelievable energy such as a lightning

storm and thought what if we could only

harvest energy from such an event?

Well, this invention harvests energy from

the very atomic forces that create such

unbelievable events as lightning and to

comprehend how together we must go on

a brief journey of understanding.

The understanding that energy, along with

matter, constitutes the basis of all

phenomena that takes place in the

universe.

We shall begin by discovering what things

are made of. We will investigate the atom,

the smallest unit of matter, as well as the fundamental particles that it is made up of. We will explore how

and why things move, as well as the forces that are required to put things in motion.

What if We Could Harness the Power of Lightning?, Lightning During Nighttime’ by Johannes Plenio,

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Along this journey, we will learn of ways to multiply forces and facilitate certain types of work that would

otherwise be burdensome, or even outright impossible, for a single human being to perform.

Together we will conclude our journey of understanding with an essential review of many types of energy

sources currently available, along with their advantages and disadvantages.

Our Journey Now Begins

Democritus, a Greek philosopher born in the middle of the

fifth century B.C., had a brilliant idea: it occurred to him that

all things were made up of small indivisible particles, which

he called atoms.

Around the same time, other Greek philosophers decided

that all things were the result of the combination of four

basic elements: earth, air, water, and fire.

Today, we know that atoms are divided and that the matter

that surrounds us is a combination of many different natural

elements. We continue to gain a deeper understanding of

the structure of matter and the way in which atoms

combine.

Matter

Anything that takes up space and has a certain Mass

is considered to be matter.

According to this definition, matter is something

perceptible to human senses, without leaving out

that which cannot be seen or touched, such as air or

subatomic particles. It includes any physical entity in

the universe that can be measured.

In addition, it has been known since Albert Einstein,

a twentieth-century scientific icon, that matter and

energy are interchangeable, as given by his famous

equation E=MC2.

Democtritus (460 BC – 370 BC), ‘Democritus, ancient Greek philosopher.’ by Tomisti.

Albert Einstein’s Famous Equation: E = mc^2, ‘Close-up of Text’ by Public Domain Pictures

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Atoms

In the classical definition (which considers anything that has mass to be matter) matter is composed of

atoms and appears in three fundamental states of aggregation: solid, liquid and gas. Different types of

matter possess different properties that make them useful for certain applications. For example, copper is

a good conductor of current but plastics are not. For a long time, the atom was thought to be the

elementary and indivisible particle of the universe, but it has now lost that label.

Today it is well known that atoms are

made up of smaller particles, which in

turn, can be subdivided into even

smaller, more primordial particles.

The atom, however, continues to be

considered the smallest part of a

chemical element that preserves the

properties of that element.

For example, a gold atom is the smallest

particle that maintains the properties of

gold. If a gold atom was divided, the

resulting protons, neutrons, and

electrons would not differ in any way

from those that make up the atoms of,

let's say yourself.

These three types of particles (protons, neutrons, and electrons) differ from one another, in particular, by

the type of electric charge they have. The first two (protons and neutrons) form the atomic nucleus. The

nucleus is made up of protons (with a positive charge [+1]) and neutrons (with a neutral charge.) There

are typically about the same number of protons as neutrons. Electrons orbit the nucleus, and their charge

is negative (-).

They are much smaller than protons and neutrons; about 1,840 electrons collectively would have the

same mass as one proton. The electrons orbit in two shells located at different distances from the

nucleus. The first and closest shell accepts only up to two electrons. The second and outer shell accepts

up to eight electrons. The forces that keep the electrons orbiting the nucleus are called electromagnetic.

An electrically neutral atom would have as many orbiting -electrons as protons in its nucleus because the

charges equalize. A charged (positively or negatively) atom is considered unstable. For an atom to be

stable, it must have eight electrons in its outer valence shell. This is the case with noble gases, which are

not very reactive with other atoms (the naturally occurring noble gases are Helium, Neon, Argon, Krypton,

Xenon, and Radon.)

100g Fine Gold Bars, ‘Gold Bars’ by Michael Steinberg

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Atomic Bonds

When the number of valence shell electrons differs from eight, atoms try to obtain, give up, or share

electrons with other atoms, in order for each to have eight valence electrons. In the process, they form

bonds and therefore, create molecules with new properties.

An ionic bond is generated when electrons are transferred from one atom to another, which occurs in

general between metals and non-metals. Table salt, the union of chlorine and sodium, is a good example.

Sodium has one electron in its valence shell, unlike chlorine, which has seven. When sodium gives up its

electron to chlorine, it is stabilized because its new Outermost shell will have eight electrons.

However, it will remain positively charged. Chlorine, in exchange, obtains the electron it lacks to complete

the eight in its valence shell and becomes negatively charged. The opposite charges attract and the union

is sealed.

A covalent bond is when atoms join together but do not lose or gain electrons; instead, they share them.

This is the case for carbon dioxide (CO2), water (H2O), and methane (CH4). Carbon dioxide, a gas we

exhale, consists of one atom of carbon with four electrons in its valence shell and two atoms of oxygen,

which each have six valence electrons. Thus, each atom of carbon shares two of its valence electrons with

each atom of oxygen, and all three obtain the eight atoms for their outermost energy level.

A Metallic bond occurs between the metallic elements. Here, the electrons are not gained, lost, or hared;

rather, they float freely in a kind of sea of electrons. This characteristic is what permits metals to be good

conductors of electric current: electric current is nothing other than a current of electrons.

H2O (Water) – A Hydrogen and Oxygen Atom Share Electrons

Otherwise Known as a Covalent Bond, ‘Clear Water Drops’ by

Public Domain Pictures

NaCl (Table Salt) – A Sodium Atom Gives Up Its One Electron in Its

Valence Shell to Chlorine Yielding an Ionic Bond, ‘Selective Focus

Photography of Clear Glass Condiment Shaker’ by Artem Bali.

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Manifestations of Energy: Force

We live in a world in motion and for there to be motion,

there must be forces that generate a series of effects.

Although the word force usually brings to mind a

powerful locomotive or a weight lifter in the midst of a

competition, to physicists this concept must be defined

in terms of any interaction capable of moving an object

at rest or changing the velocity or direction of an object

already in motion.

Understanding the concept of force and determining its

nature and how it functions were great unsolved

mysteries until the end of the seventeenth century

when Isaac Newton wrote what is considered the first

modern definition of this phenomenon.

Newton’s Laws

Newton's first law states that an object remains at rest or in motion

without changing state unless an outside force acts on it.

Newton's second law states that upon applying a force, an object

changes its state (from rest to motion, a change in direction or in

speed) and that the change is related to the strength of the force. The

third law states that for every action there is an equal and opposite

reaction.

Today we recognize a Newton as a unit to measure force. A Newton is

equivalent to the force that when applied to a mass of 1 kilogram,

experiences an acceleration of 1 meter per second per second (s 2).

Anatomy of a Push

A basic example of force acting on an object would be a cue

stick striking a cue ball at rest, imparting a force that results

in motion. The cue ball does the same thing with the other

balls after colliding with them. In the game of pool, the

forces are “contact forces,” because contact is necessary in

order for there to be any interaction between the object and

the force. Magnetism and Gravity, on the other hand, can be

defined as noncontact forces, or forces that act at a

distance.

The Force of a Mallet onto an Egg, ‘Brown Wooden Mallet Near Brown Chicken Egg’ by Pixabay,

Issac Newton (1642 – 1727) ‘Portrait of Isaac Newton (1642-1727)…’ by Yeenosaurus

A Cue Ball Ready to be Struck in a Game of Billiards, ‘Male Holding Cue Stick Ready to Hit the Ball’ by napp

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Combining and Balancing Forces

Forces can be combined and balanced to

generate different effects. When balancing, the

strongest forces prevail, although they are

perturbed by the action of others.

An arm wrestling tournament is a good example

of balancing forces; the wrestler that applies the

most force with his arm is the winner. And thanks

to the combination of different forces, a sailboat

can travel windward (that is, in the direction from

which the wind is blowing.)

Fundamental Forces

Physicists, concerned with describing the basic forces of

nature, discovered four fundamental interactions with

matter that cannot be broken down into other simple

ones; Gravity, Electromagnetic, Strong Nuclear Force

and Weak Nuclear Force.

Electromagnetic, Strong Nuclear Force and Weak

Nuclear Force are all forces on an atomic or subatomic

level. Electromagnetic is the force that links the

electrons to the atomic nuclei and it is what gives

structure to material. Strong Nuclear Force is what

keeps the protons and neutrons together within the atomic nucleus. Weak Nuclear Force is a force that

acts on a subatomic level-within the proton and neutrons and it is purely an attractive force.

Motion

From atoms to stars and planets, the entire universe is in a

constant state of motion. However, it took thousands of

years for humans to comprehend this phenomenon and

postulate the first laws that explain it; which were born from

the acute Observation of Isaac Newton. An object needs a

force to change its motion.

An object in motion follows a trajectory, which depends on

the type of forces that act over it. When an object’s velocity

varies, we call this “acceleration.” If the variation has a

constant value, then the motion is “uniformly accelerated,”

or “uniformly decelerated” if the variation is negative. An object on the surface of the Earth would

experience a force (resistance) that is produced by its contact with the air; this is called friction. This

object’s horizontal velocity would decrease from this resistance, as its vertical velocity increases from the

Earth’s gravitational force of attraction.

Arm Wrestling is an Example of Balancing Forces, ‘50 U.s. Dollar

Banknote’ by Gratisography

One of the Fundamental Forces – Gravity, ‘Man Wearing White Full-face Motorcycle Helmet’ by Pixabay,

Time Lapsed Motion Showing Light Trails from Automobiles. ‘Light Trails on Highway at Night’ by Pixabay

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Friction

When two bodies come into contact, frictional forces are

generated between them that act as resistance to the

motion.

Thanks to these forces, your shoes grip the floor, car

brakes function, and we are able to grasp objects with our

hands. Because friction turns the kinetic energy of bodies

into heat, we can strike a match.

Objects cannot change their state of rest or Motion by

themselves; they require an outside force to do so. This

property is termed “inertia.” Therefore, in a vacuum (such

as space) away from any masses, an object in motion would

conserve its motion indefinitely.

Circular Motion

16.6 miles per second is the velocity at which the Earth

travels through space relative to the Sun. However,

thanks to inertia, we hardly notice it. This circular motion

is easily observed in car wheels and in ceiling fans.

An object on the surface of the circle is attracted to the

center of the circle, which forces it to constantly change

direction. This attractive force that pulls an object toward

the center is called “centripetal force." An object in a

circular motion also experiences a "centrifugal force"

that, contrary to the centripetal force, gives the

impression of propelling it outside the circle. However, in

reality, this is not a force but inertia.

Machines

Simple machines are simple and ingenious, and they

ease daily chores. They are plentiful in any Mechanical

device that has mechanical components, and they start

with a basic premise: they must be capable of modifying

forces by magnifying them, decreasing them, or changing

their sense of direction.

However, because of the law of conservation of energy,

the energy input to a machine will be exactly equal to

the output, although likely distributed differently.

The Friction of Striking the Side of a Matchbox Causes the Match to Light, ‘Lighted Matchbox’ by Karol D

A Satellite Orbiting the Earth in a Circular/Elliptical Motion ‘Gray and White Satellite’ by Pixabay

A Pulley is an Example of a Simple Machine ‘Brown Rope on a Pulley’ by Skitterphoto

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Multiplying Forces

The simple act of riding a bicycle implies making use of a

series of simple machines, such as “gears” that allow us, by

barely moving our feet, to travel at a speed much greater

than we could reach by running.

Gears are especially useful for magnifying or decreasing a

force, as well as for changing its direction. If a toothed gear is

meshed with another one with more teeth, then the second

one will turn more slowly, but with less effort.In a bicycle,

this gear relationship is used to go uphill. The bicycle feels

“lighter” but requires more pedaling not to lose speed. If a

toothed gear is meshed with another one with fewer teeth,

then the second one will turn faster, but it will require more

effect.

Cyclists use this relationship to achieve greater speeds with less pedaling, although the bicycle feels

“heavier.” When force is applied to an axle, as in the case of bicycles, the speed is multiplied because the

edge of the wheels spin faster. With each turn of the axle, the wheel will travel a greater distance because

it has a greater circumference. If the force is applied to the edge of the wheel, then it becomes possible to

multiply the force at the axle. Ninety percent is a bicycle’s energy efficiency ratio: that is to say, the

percentage of energy that is converted into useful work. That of an automobile is only 25 percent.

Complex Machine

A complex machine is a machine that is made up of more

than one simple machine.

In the bicycle, for example, we can find multiple simple

machines such as gears, axles, pulleys, and wheels that

optimize the bicycle's performance.

Energy

The universe’s energy is a unified force and it is never lost. It can only

adopt different forms, be transformed, and even remain latent,

manifesting itself under certain conditions-, as in the case of an object

suspended in air that is then suddenly dropped. Light, heat, and

electricity are some of the forms in which energy is manifested. In the

functioning of each subatomic particle and of each living being, in the

occurrence of any terrestrial or atmospheric event, regardless of its

scale, energy performs an essential role. However, it is not a thing, not

something tangible.

In general, when people speak of energy, they are really referring to its

visible effects, such as light, heat, or motion. Energy, moreover cannot

The Rear Gear on this Bicycle has Fewer Teeth than the Gear at the Foot Pedals, a Good Ratio for Flat Terrain Riding

‘Black Bicycle’ by Pixabay.

A Complex Machine, Such as this 21-Speed Bicycle, is Comprised of Numerous Simple Machines, ‘Black

Bicycle’ by Pixabay

Energy Transformed for a Plasma Globe ‘Plasma Ball Illustration’ by Pixabay

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be created or destroyed. It only changes form; it is transformed. To better understand it, it is possible to

classify it according to the characteristics by which it manifests itself.

Mechanics of Motion

The concept of mechanical energy arises from the study of

objects from the standpoint of their position and velocity.

This energy is basically the sum of two others: kinetic

energy and potential energy.

Kinetic Energy

Objects in motion possess kinetic energy, in as much as

they are capable of producing movement, that is to say,

of moving other bodies.

The magnitude of an object's kinetic energy depends on

the object's mass and velocity. The greater the mass and

velocity, the greater the kinetic energy.

A Bicycle in Motion Exhibiting a Sum of Kinetic and Potential Energy ‘Man Riding Bicycle on City Street’ by Snapwire.

A Roller Coaster Exhibiting a Large Component of Kinetic Energy ‘Roller Coaster Ride’ by Angie

Potential Energy

Potential energy is the energy stored in a system or the energy that the

system is capable of delivering. Potential energy is also related to an object's

position.

At rest, a stone possesses a given potential energy, which increases if it is

suspended above the ground. The same thing occurs with the ends of a

spring when they are pulled apart, as the spring stretches, its potential

energy increases.

A Bow Being Drawn Exhibiting a Large Component of Potential Energy 'Woman Aiming Bow' by Pixaboy

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Electro-kinetic Energy

Some metals, such as copper and

iron, have the capacity for generating

noncontact forces of attraction and

repulsion, a characteristic you may

know as magnetism.

The particles that make up an object

are usually aligned randomly and the

atomic forces (charges) cancel each

other. By aligning all of the particles

in the same direction, a conductive

object will generate a magnetic force.

A magnetic object generates an electro-kinetic energy field around itself with two poles, a positive pole (+)

and a negative pole (-). These poles represent the areas where the maximum forces concentrate. Poles

with the same sign tend to repel each other, and those with different signs tend to attract each other.

This phenomenon has a microscopic origin (it arises from the spin of electrons within atoms) but it has an

impact on a very big level. In fact, the Earth behaves like a huge magnet. The iron core and the currents of

molten rock flowing underneath the Earth’s crust generate a magnetic field around the planet. The

precise mechanism by which this field is produced continues to be a mystery to humankind. For centuries,

magnets were considered magical objects. Only relatively recently has science been able to reveal their

secrets.

Since the late nineteenth century, the phenomenon of magnetism has found countless applications in

diverse fields. Diagnostic methods such as Magnetic Resonance (MRI) and Computerized Axial

Tomography (CAT), which have revolutionized medicine, are based on the principles of magnetism.

The magnetic levitation train (MAGLEV) moves without touching the rails, thanks to the repulsion caused

between two like magnetic poles. This allows the train to travel at high speeds (greater than 370 miles per

hour.) The intimate relationship between magnetism and electricity made possible the development of

the telephone, the television, the radio, and a great number of electric devices used today.

MAGLEV Train Leaving the Pudong International Airport in Shanghai, ‘A maglev train is coming out of the Pudong International Airport’ by Alex Needham at the Wikipedia project

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Electricity

Few disruptions to daily life exist that are comparable to a blackout of

electricity. In the absence of electric lights, a working refrigerator,

televisions, desktop computers, or air conditioning a blackout is

probably the only time in which we truly stop taking energy for granted

and take a moment to realize the importance of one of the most

common types of energy in the world. The phenomenon known as

electricity originates at the atomic level and has to do with the

behavior and movement of free electrons (electrons separated from

the atomic nucleus) in certain media. Understanding electricity begins

with describing its effects.

One way to begin is to examine interactions that occur when electricity

is at rest or static electricity. Static electricity can be seen at work when

long hair is combed on a cold, dry day. As the comb is pulled through the

hair, strands of hair standout stiffly. Some kind of force seems to pull the

hair upward and toward the comb.

As explained above, in an atom there is an equal number of positively charged protons and negatively

charged electrons, and such an atom is said to be neutral. If a neutral atom loses one or more of its

electrons, it has an excess number of protons and it becomes positively charged. If a neutral atom gains

one or more electrons, it has an excess number of electrons and it becomes negatively charged.

How does this simple atomic model relate to the hair, the

comb, and static electricity? With the right conditions

when your hair is combed, the hair loses electrons and

the comb gains them, producing hair that is positively

charged and a comb that is negatively charged. The

combing action (friction) created charged objects

because it tears electrons loose from your hair and

transfers them to the comb. This is called electron

capture, (the process in which an atom or ion passes

through a material medium and either loses or gains one

or more orbital electrons). One of the most prolific minds

in history belongs to Benjamin Franklin, who was a

politician, printer, journalist, inventor and a founding

father of the United States of America as well as a pioneer in the study of electricity. He is remembered as

the scientist behind the famous experiment that demonstrated that lightning is an electric discharge and

that clouds are charged with electricity. A discovery he made when he lifted a metal kite during a lightning

storm.

Today we know that inside stormy clouds called cumulonimbus clouds, ice particles that are constantly in

movement are often electrically charged by friction with each other. In a cloud, the positively charged

particles tend to be located at the upper levels of the cloud and the negatively charged particles move to

the base of the cloud.

Sometimes a powerful discharge is produced between the base of the cloud, which is negatively charged,

and the Earth’s surface, which is positively charged. We have labeled this phenomenon as lightning.

Benjamin Franklin (1706–1790), 1778 By Joseph Duplessis (Uploaded By Pixel8tor)

A Powerful Discharge from the Base of a Cloud to the Earth’s Surface, also Known as Lightning, ‘Photo of Lightning’ by

Philippe Donn

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Conductors and Insulators

Materials can be classified as either capable or incapable

of conducting electricity. Remember that within atoms of

conductor materials, electrons are weakly joined with

their nucleus.

This makes it easy for these electrons to flow as electric

energy. In insulators, the bond between the nucleus and

the electrons of the atoms is strong. For this reason, the

flow of electrons is either much more complex or simply

does not occur.

Electric Current

Much like water flowing in a river, running freely from

one point to another, free electrons will flow through

conductor materials and manifest themselves in the

form of energy. When a difference of potential energy is

applied between the ends of a conductor, freed

electrons will flow, thus generating electric current.

In other words, a negatively charged terminal with an

excess of electrons compared with a positively charged

terminal that is lacking in electrons produces a difference

in electron potential energy (an attractive force.)

When the terminals are connected via a conductor, the excess electrons will flow (transfer) to the

terminal that lacks electrons, thus generating the electron current that we call "electricity." This current

allows electricity to be transported for subsequent distribution and use in electrical devices.

Electric current flows through a conductor in two ways: as a direct current or as an alternating current. In

direct current, electrons flow in one direction.

Today, this type of current is common in electric devices fed by batteries. In alternating current, the

polarity of its terminals is repeatedly reversed (alternated)within the generator.

High Voltage Power Lines Utiltizing Conductors and Insulators for the Purpose of Transmitting Energy, ‘Low Angle View of

Electric Post’ by icon0.com

Electric Current Flow is Often Depicted or Described as Water Flow ‘‘Timelapse Photography of Lake’ by Taras Makarenko

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Circuits

In order for electricity to flow and be readily available whenever it

is needed at outlets throughout our homes (or each time a device

powered by batteries required it), it is transported by means of a

circuit with no breaks or interruptions along the way.

Thus, the electric current travels in a loop. All along this loop,

the electric current powers electric devices and encounters diverse

mechanisms capable of modifying the electrical energy.

Electric Units

There are many units for measuring electricity. An Ampere is

used to measure the strength of an electric current, that is,

the quantity of electrons moving through a given part of the

circuit per second. The Volt is used to measure electric

potential, that is, the electromotive force derived from the

potential difference between the negative and positive poles

in a circuit. A Watt is the power generated from a potential

difference of one volt and an electric current of one ampere.

In the United States, power is delivered to residential homes

as alternating current. For example, when a lamp is switched

on, electrons (vibrate) back and forth within the filament to

create light. The electrons that move in the filament are not

the same electrons that were deflected in the generator at

the power plant.

When the lamp is turned on, it lights up instantly because the electric field produced in the generator loop

travels through the circuit at close to the speed of light, roughly 300 million meters per second. As the

field passes along the conductor, electrons in the conductor interact with the field. It is the electric energy

carried by the field that moves the electrons in the circuit. It is energy, not the charge that flows from the

electrical outlet in your home. The electric charges that move in the lamp are already in the lamp. Thus

electric companies bill you not for electrons but for electrical energy. The charges on an electric bill are

based on Kilowatt-hours (1,000-watt-hours.) A kilowatt is a unit of power or energy consumed per time

unit. So a kilowatt-hour is a unit of energy.

Today the definition of a “Generator” is any machine by which mechanical power is transformed into

electric power, this invention will alter that definition. Although limited amounts of electricity can be

generated by many means, today electric power generation generally implies large scale production of

electricity in stationary plants. The generating units in these plants convert mechanical energy from falling

water, coal, petroleum, natural gas, and nuclear fuel to electric energy. Most of today’s large electric

generators are driven either by hydraulic turbines, for conversion of falling water energy, or by steam or

gas turbines, for conversion of nonrenewable fuel energy resources.

A Fundamental Depiction of an Electrical Circuit – Ohm’s Law: v (Voltage) = i (Current) x R (Resistance) ‘Ohm’s Law”

by GorillaWarfare

Light Bulb Powered by Electrical Energy, ‘Light Bulb’ by LED Supermarket

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Sources of Energy

Since the invention of the steam engine, humans have relied more and more on nonrenewable sources of

energy, especially coal, petroleum, and natural gas; the reserves of which are limited. To a lesser extent,

they have made use of renewable resources, such as water power from rivers to produce electricity,

which nevertheless comes at a cost to the environment. Thus, one of the greatest challenges of today is

how to obtain energy in an economical, safe, and clean way from renewable sources. Besides the

importance of availability, the impact that sources of energy produce on the environment counts a great

deal. The non-renewable sources of energy coal, petroleum, and natural gas make up eighty one percent

of the world's production of energy. Their consumption on such a massive scale contributes to the

greenhouse effect.

Coal and Petroleum

Coal and petroleum are the main energy sources in the developed world.

They come from ancient organic deposits that have been buried in the

bowels of the Earth for hundreds of millions of years.

Petroleum’s pure state is called crude oil, which is a mixture of different

hydrocarbons of little use. Hence, the oil must first be distilled to separate

its components. These resources, which pollute the atmosphere when

burned, are available only in limited reserves.

Industrial Plant in the Daylight, ‘Electric Towers during Golden Hour’ by Pixabay

Coal is one of the Main Energy Sources in the World ,‘Coal_jpg’ by the USGS

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Natural Gas

After petroleum, natural gas slowly rose to a position of

importance in the global balance of energy sources

because of its availability and efficiency. It has a

reputation of being the cleanest fossil fuel. Technological

advances, especially in the discovery of deposits, have

produced an explosion in the reserve statistics in the last

15 years. These developments have been accompanied

by an ever-increasing dependency on natural gas in

different parts of the planet. Natural gas is known as "the

phantom energy" because it is a colorless, odorless fluid

that contains between seventy to ninety percent

methane, the component that makes it useful as a

source of energy.

Biofuels

Gasoline or diesel with added alcohol (ethanol)

produced from crops such as corn appears more and

more promising as solutions to the problems posed

by the eventual exhaustion of the Earth's coal and

petroleum reserves, as well as the high cost of fossil

fuels on the global markets. However, this type of

energy presents new challenges. One item of

environmental concern is the possibility that massive

exploitation of biofuels could lead to the

replacement of jungles and woodlands with single

crop plantations meant only for the production of

raw plant materials.

Ethanol is the alcohol in the medicine cabinets of our homes. It can be used in its pure form as fuel or

combined with gasoline in different proportions. Two common mixtures are EIO and E85, which have 10

percent and 85 percent ethanol, respectively. 70 percent of the world’s ethanol production is accounted

for by Brazil and the United States. In Brazil, ethanol is made from sugarcane, and in the USA, it is made

from corn.

Biodigesters

A biodigester is when anaerobic bacteria (bacteria that does

not require oxygen to live) decompose organic material

through processes such as rotting and fermentation, they

release biogas that can be used as an energy resource for

heating and for generating electricity. They also create mud

with very high nutritional value, which can be used in

agriculture or fish production. This technology appears

promising as an energy alternative and laboratory tests

have demonstrated that the bio digestion process kills up

to eighty-five percent of the harmful pathogenic agents

Stove Flame Utilizing Natural Gas, ‘Burning Stove’ by Pixabay

Corn, a Food Source, is Used to Manufacture Ethanol in the USA, ‘Yellow Corn’ by mali maeder

The Anaerobic Lagoon at the Cal Poly Dairy 25KW Power Plant using the Biogas Created, ‘‘View of the anaerobic lagoon at the

dairy at California Polytechnic State University…’ ECD Energy Corp 2020 15

present in the organic waste, pathogens which would otherwise be released into the environment. Biogas

contains about fifty-five to seventy percent methane, its energy-producing component.

Nuclear Energy

Today another efficient method for obtaining

electric energy is through a controlled nuclear

reaction. The nuclei of certain atoms, like uranium

235, can be broken apart when bombarded by

neutrons. In doing so, they release great amounts

of energy and new neutrons that can break down

the nuclei of other atoms, generating a chain

reaction called nuclear fission.

To achieve the breakdown of the nucleus, the

neutrons must collide at a specific speed, which is

governed by a moderating substance, such as

water, heavy water, or graphite.

The purpose of nuclear fission is to create very hot steam to operate turbines and electrical generators.

The high temperatures are achieved by using nuclear energy from the reactor. Although this technology

has been used for half a century, it continues to be at the center of debate because of the risks it poses to

the environment and health and because of the vast amounts of highly toxic waste it creates.

Hydroelectric Energy

About 20 percent of the world's electricity is generated by

the force of rivers through the use of hydroelectric power

plants. The kinetic energy of rivers is transformed into

mechanical energy by turbines and then into electrical

energy by generators.

This technology, which has been used since the

nineteenth century, employs a renewable, non-polluting

resource, although the technology's impact on the

environment is high.

According to the United Nations, two third of the world’s

hydroelectric potential is currently being used, especially

in North America and Europe.

An Aerial View of the Palo Verde Nuclear Generating Station in Arizona, ‘Aerial view of the Palo Verde nuclear generating station in Arizona’ by

Cuhlik

Aerial view of Hoover Dam Showing Four Intake Towers which Gradually Funnel Water Towards the Powerhouse ‘Aerial view of

Hoover Dam, Nevada-Arizona’ by Mariordo (Mario Roberto Durán Ortiz)

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Solar Energy

The harnessing of solar energy to produce

electricity and heat for everyday use is gaining

popularity. Applications of this clean, unlimited

form of energy range from charging batteries in

telecommunications satellites, to public

transportation, all the way to the solar

households being built in greater numbers

throughout the world. Photovoltaic Energy, the

energy obtained from sunlight, requires the use

of solar or photovoltaic cells. The energy is

essentially formed by a thin layer of

semiconductor material (silicon, for example),

where the photovoltaic effect (the transformation

of light into electrical energy) takes place. The sun shines on the cell where energetic photons (sunlight)

move (vibrates) electrons and make them jump to the illuminated face of the cell. The negatively charged

electrons generate a negative terminal on the illuminated face and leave an empty space in the now

positively charged dark face (the positive terminal).

Once the circuit is closed, there is a constant flow of electrons (electric current) from the negative

terminal to the positive one. The current is maintained as long as the Sun illuminates the cell. Another use

of sunlight is as a source for heating water as well as for heating homes. In this case, solar collectors are

used; unlike photovoltaic cells, the solar collectors do not produce electric energy. The collectors work

using the greenhouse effect: It absorbs the heat from the sun and then prevents this heat from being lost.

In doing so, it warms a pipe, through which the fluid (water or gas) flows, which in turn heats a water tank.

The water from the tank is ready for domestic use of heating.

Wind Energy

In recent years one of the most promising

renewable energy resources is the use of wind

to produce electricity by driving enormous wind

turbines (windmill).

The turbines convert the wind into electrical

energy through the use of simple technology

based on mechanical gears. The wind moves the

blades of the wind turbine, producing

mechanical energy, which is then converted into

electrical energy. Eolic power is an

inexhaustible, clean, non-polluting source of

energy with some disadvantages. The most

important disadvantages are our inability to

predict precisely the force and direction of the

wind and the negative impact that groups of large

towers have on the local landscape.

A Closeup of Solar Panels, ‘Black and Silver Solar Panels’ by Pixabay,

Wind Turbines on a Seashore Utilizing a lot of Land Yielding Very Little Gain, ‘Windmills on Seashore Under White Clouds’ by Jem Sanchez

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Geothermal Energy

Geothermal energy is another clean and

promising source of energy. The first

geothermal plant started operating more than

One hundred years ago. Geothermal plants

generate electricity from the heat that

emanates from the Earth’s interior.

Geothermal power plants, however, suffer

from some limitations, such as the fact that

they must be constructed in regions with high

volcanic activity. The possibility of this kind of

plant becoming defunct due to a reduction in

such volcanic activity is always present, along

with the obvious dangers of such technology.

Hydrogen

Some people consider hydrogen fuel cells the

energy source of the future and predict that in the

short term it will gain widespread use in place of

fossil fuels. Hydrogen fuel cells produce electricity

from the energy released during the chemical

reaction of combining hydrogen and oxygen. In the

cell, hydrogen collects at the anode and oxygen at

the cathode. A catalyst separates the hydrogen

electrons from their nuclei. Hydrogen nuclei cross

the electrolytic layer without their electrons. Freed

electrons, which cannot cross the electrolytic layer,

flow through the circuit until they reach the

cathode, thereby producing electric current.

The by-products of the process are water and heat, the reaction continues as long as fuel is supplied.

Among the advantages of hydrogen-based energy are its very low pollution level and its inexhaustibility (it

can be recycled and reused.) Disadvantages include the complications inherent in handling pure hydrogen,

its costs, and the wide-scale conversion that would be necessary for petroleum-fueled engines and

systems.

A Geothermal Power Plant in Iceland Using Heat Generated by the Earth’s Interior‘The Nesjavellir Geothermal Power Plant in Þingvellir, Iceland’ by

Gretar Ívarsson

An MBTA Hydrogen Fuel Cell Bus, ‘MBTA hydrogen fuel cell bus at Malden Center, December 2016’ by Jason Lawrence

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1.2. Brief Summary of the Invention

The invention through the strategic combination and balancing of electro-kinetic energy at twenty-four

individual reaction points converts kinetic energy into circular motion. The established perpetual circular

motion is then used to capture excited electrons at six electron capture stations. Where the relative

motion is used to establish a magnetic flux within an air gap and as a result, a voltage is induced within a

set of coils producing electron flow which we call “electricity”. The actual life span of the electro-kinetic

energy emitters used in the invention is estimated to last for 6 generations, over 400 years. Therefore,

today a single word definition cannot be located to describe the invention or its electrical energy

generation capabilities.

1.3. Objects and Advantages of the Invention

Accordingly, a few objects of this invention was to provide safe, clean, economical and easy to use electrical energy.

The advantages of the resulting invention over all forms of known energy resources are far too many to possibly list, but to list a few;

- This invention produces clean free electrical energy- This invention is completely self-sufficient- This invention is portable- This invention uses safe regenerative electro-kinetic energy

Over coal, petroleum, and natural gas;

- This invention does not have to be mined, drilled or distilled- This invention does not consume a nonrenewable resource- This invention does not create a pollutant- This invention does not require manpower to operate

Over nuclear fission;

- This invention can be safely operated by the common individual- This invention does not create a toxic waste- This invention does not require massive manpower to operate

Over the sun, wind, and water;

- This invention does not require sunlight to create electricity- This invention does not require the force of wind to create electricity- This invention does not require a river to create electricity- This invention does not require a river to create electricity

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1.4. Description of the Drawing Reference Numerals and Letters

Number 1 = Electro-kinetic Combination Drive Number 2 = Electron Capture System Number 3 = Electron Capture Station Number 4 = Stabilizer Housing Number 5 = 4 Point Centripetal Drive Disk Number 6 = Electro-kinetic Energy Emitting Sectional Plate Number 7 = Plate Retainer Ring Number 8 = Shaft Placement Hole Number 9 = Triangular Electro-kinetic Energy Emitter Number 10 = Electron Capture Station Housing Number 11 = Housing Cylindrical Electro-kinetic Energy Emitter Number 12 = Epoxy Coil Assembly Number 13 = Individuals Coils Number 14 = Shaft Through Way Number 15 = Device Shaft Number 16 = Bearing Number 17 = Modified Electron Capture Station Housing Reference A = Clockwise Circular Motion Reference B = Air Gap Reference C = Simulated Electro-kinetic Energy Reference D = Reaction Point

1.5. Description of the Views of the Drawings

For a further understanding of the nature and object of the invention, reference should be made to the detailed descriptions herein, taken in conjunction with the accompanying drawings in which elements are given a reference number or letter and wherein: Figure 1 (FIG 1) = is a front and right side view transparent line drawing of the Electro-kinetic Combination Drive Item #1. Figure 2 (FIG 2) = is a top view transparent line drawing of the Electro-kinetic Combination Drive Item #1. Figure 3 (FIG 3) = is an X-Ray view of the Electro-kinetic Combination Drive Item #1. Figure 4 (FIG 4) = is a right side view transparent line drawing of the Electro- Kinetic Combination Drive Item #1. Figure 5 (FIG 5) = is a 3D Isometric transparent line drawing of the Electro-kinetic Combination Drive Item #1. Figure 6 (FIG 6) = is a partially exploded view of the Electro-Kinetic Combination Drive. Figure 7 (FIG 7) = is a partially exploded sub-assembly view of the Electro-kinetic Combination Drive. Figure 8 (FIG 8) = is a partially exploded sub-assembly X-Ray view of the Electro-kinetic Combination Drive.

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Figure 9 (FIG 9) = the illustration on the left is a 3D transparent exploded view of a left side Stabilizer Housing Item #4 and a Bearing #16. The illustration on the right is a 3D transparent exploded view of a Modified Electron Capture Station. Figure 10 (FIG 10) = is a 3D transparent exploded view of a right side Stabilizer Housing Item #4 and the Bearing Item #16. Figure 11 (FIG 11) = is a 3D exploded view of the Modified Electron Capture Station. Figure 12 (FIG 12) = is a 3D exploded view of an Electron Capture Station Item #3. Figure 13 (FIG 13) = is a 3D exploded X-Ray view of an Electron Capture Station. Figure 14 (FIG 14) = is a 3D exploded view of the right side Electron Capture Station. Figure 15 (FIG 15) = is a 3D exploded X-Ray view of the right side Electron Capture Station. Figure 16 (FIG 16) = is a 2D transparent line drawing with dimensions of the left side Stabilizer Housing Item #4. Figure 17 (FIG 17) = is a 2D transparent line drawing with dimensions of the Modified Electron Capture Station Housing #17 and a Housing Cylindrical Electro-kinetic Energy Emitter #11. Figure 18 (FIG 18) = is a 3D Isometric transparent line drawing of the Modified Electron Capture Housing Item #17. Figure 19 (FIG 19) = is a 2D transparent line drawing of an Electron Capture Station Housing Item #10 and the Housing Cylindrical Electro-kinetic Energy Emitter Item #11. Figure 20 (FIG 20) = is a 3D Isometric transparent line drawing of an Electron Capture Station Housing Item #10. Figure 21 (FIG 21) = is a 4 Point Centripetal Drive Disk Item #5 in a 3D state, a 2D front view line drawing with dimensions and a 3D transparent right side view with dimensions. A Triangular Electro-kinetic Energy Emitter Item #9 is shown in a 3D Isometric transparent state. Figure 22 (FIG 22) = is an Electro-kinetic Energy Emitting Sectional Plate Item #6 in a 3D state, a 2D front view line drawing with dimensions and a 3D transparent right side view with dimensions. Figure 23 (FIG 23) = is a Plate Retainer Ring Item #7 shown in a 3D state, a 3D front line drawing with dimensions and a right side view with dimensions. Figure 24 (FIG 24) = is an Epoxy Coil Assembly Item #12 shown in a 3D state, a 2D line drawing with dimensions and a transparent right side view with dimensions. Figure 25 (FIG 25) = is the eight Individual Coils Item #13 shown in an assembled 3D state, an assembled 2D front view line drawing with dimensions and an assembled transparent right side view with dimensions. A single coil is shown in a 2D line drawing with dimensions and a 3D transparent state.

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Figure 26 (FIG 26) = is the Device Shaft Item #15 shown in a 3D state, a 3D front view line drawing with dimensions and a right side view line drawing with dimensions. Figure 27 (FIG 27) = is a right side view of the Electro-kinetic Combination Drive Item #1. Identified is Circular Motion (A), Electro-kinetic Energy (C) and Reaction Points (D). Figure 28 (FIG 28) = is a top view of the Electro-kinetic Combination Drive Item #1. Identified is Air Gaps (B) between the Epoxy Coil Assembly and the 4 Point Centripetal Drive Disk.

1.6. Detailed Description of the Inventions Operation

While the detailed descriptions and drawings herein contain many specificities, they should not be construed as limitations on the spirit and the scope of the invention, but rather as an exemplification of a few embodiments thereof. This invention converts electro-kinetic energy into kinetic energy in the form of circular motion. The energy conversion is illustrated in FIG 27 within an Electron Capture Station Item #3. The simulated Electro-kinetic Energy (C) emitted by the Housing Cylindrical Electro-kinetic Energy Emitters Item #11 is balanced against the like poles of the Triangular Electro-kinetic Energy Emitters Item #9 secured within the circumference of the 4 Point Centripetal Drive Disk Item #5. As a result of the strategic combination and balancing of these noncontact forces, the stronger force prevails and the disk's stationary position converts to a Clockwise Circular Motion (A). In a standard device, this conversion will be performed on six disk at 24 individual Reaction Points (D). The disk(s) are aligned, so the reaction points are equally spread over one complete rotation to maximize the resulting circular motion. Reference point (B) in FIG 28 identifies an air gap between the 4 Point Centripetal Drive Disk Item #5 and the Epoxy Coil Assembly Item #12 and as a result of the circular motion, the Electro-kinetic Energy Emitting Sectional Plate's Item #6 secured on the side of the disk establishes a magnet flux (a sea of spinning electrons) within the air gaps that encompass the coil assembly. A voltage is induced within the Individual Coils Item #13 as a result of this magnetic flux. In other words, freed electrons are captured by the individual coils as the disk rotates on the shaft.

1.7. Alternative Embodiments

The invention may be modified or built to generate a higher or lower output by adding or removing electron capture systems or stations to accommodate for different needs of the users. The invention could be used to power electric vehicles, therefore, providing an unbelievable range and eliminating the need to recharge from an outside electrical source. Alternately, miniaturized embodiments of this invention could be built and combined with any home appliance or electrical device creating countless cordless portable electrical devices that could be used anywhere at any time. Other types of suitable Electro-kinetic energy may be used in this invention, for example; the Housing Electro-kinetic Energy Emitters 11 could be replaced with computerized electromagnetic technology. The device should be built using only high-density Teflon or Plastic materials. No conducting materials should be used unless otherwise specified.

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Many construction means (e.g., stamping, carbon fiber and/or other composites, etc.) may be used for a large scale production of the energy device if so desired. It will be apparent to those skilled in the art that changes and modifications may be made in the embodiments illustrated, without departing from the spirit and scope of the invention. Thus, the invention is not to be limited to the particular forms herein shown and described.

1.8. Invention Drawings

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2. Reward-Based Crowdfunding Campaign

Reward-based crowd-funding is a type of small business financing in which a company takes financial

contributions from individuals in return for a to-be-manufactured product. In the ECD Energy Corp “We

the People” rewards campaign, for a contribution of $100 USD the backers will receive one of our

revolutionary residential energy devices for their contribution when it is manufactured.

This campaign is designed to provide a ONE-TIME opportunity for the common person who would

otherwise not be able to afford/purchase one of our devices.

About the ECD residential device being offered as part of the campaign!

The reward-based residential device will be around the size of a standard home air-conditioning

condenser unit (the unit that is on the outside of your house). It will provide enough electricity to power a

standard 4,000 sqft home for our life-time and then some. This is because the electro-kinetic energy used

to operate the device is estimated to last for around 400 years. No additional fuel or consumable resource

will ever be needed to power the device.

If I participate/contribute to the campaign today, when can I expect delivery and installation of my device?

It is our plan to start manufacturing within 6 months after the success of the campaign. During that time

frame, we will contract all willing existing gasoline-powered electric generator manufactures to

immediately convert their facilities to build our device. At the same time, we will also contract all willing

major hardware, home and building supply stores to provide immediate delivery and installation services

for our company.

How do I contribute to the campaign and secure/obtain a energy device?

We have two available campaign options. You can go to the Internationally known crowd-funding website

of Indiegogo.com, register and contribute on our campaign page or you can simply join the ECD Members

Area and contribute there.For your contribution you will immediately receive a one-of-a-kind digital

title/asset to your device. At the publishing of this information, we are not aware of a similar digital

title/asset anywhere in the world. We have coded two separate digital titles, one for each campaign.

What is your crowdfunding goal?

The initial funding goal is only around $7 million USD (70,000 reward contributions/titles). Upon the

achievement of this goal ECD Energy Corp will move into the start-up stage and start manufacturing of the

contributors devices.

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Stage two of manufacturing is expected to be around $40 million USD, for which, we have coded and

allotted an additional 400,000 reward titles. Because of the importance of our energy device for the

future of mankind, we expect that our funding goals will be very easily achieved and that “ECD” will soon

be a common house-hold name.

Why have we chosen the Ethereum blockchain?

1. Security and predictability (as opposed to, for example, having to run an independent blockchain

network);

2. Use of robust and well- supported clients (Ethereum- based tokens can be managed with official

Ethereum clients):

3. High liquidity (interchangeable with other Ethereum- based tokens or Ether);

4. Easier listing on exchanges with infrastructure already in place;

5. Ethereum smart contracts enable a very transparent and secure way of Title sharing among the title

holders.

6. ERC20 defines a set of six functions that other smart contracts within the Ethereum ecosystem will

understand and recognize.

3. Key Team Members

Anissa Jarrett - Founder, CEO & Co-Treasurer

Matthew Anderson - President & Co-Treasurer

Edward Bavolar - Chief IT Officer

Nick Wellens - Chief Titles Officer

Mark Donato - Chief Engineer

Joanna Wukie - Corporate Secretary

4. The ECD Digital Title

4.1 Purpose

In the ECD Energy Corp 'We the People' rewards campaign, the purchaser of a ECD Digital Title Token will

receive one of our revolutionary residential energy devices once manufactured. This campaign is designed

to provide a one-time opportunity for the common person who may not otherwise be able to purchase

one of our devices.

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The device is capable of generating sufficient energy for a standard 4,000 sqft household. The ECD Digital

Title is an electronic-title issued as an ERC-20 token secured by the Ethereum blockchain.

The ECD Digital Title is a commitment from ECD Energy Corp that represents ownership to a residential

energy device and can only be obtained by participating in our reward-based crowd-funding campaign.

4.2. Digital Title Tokens (DTT)

ERC-20 tokens can represent a diverse range of digital assets. Like other crypto assets, they can have a

value and be sent and received.

The difference between ERC-20 tokens and cryptocurrencies such as Bitcoin, Ethereum, Litecoin…is that

ERC-20 tokens don’t have their own blockchain but reside on top of the Ethereum blockchain.

ERC-20 tokens have many uses. For example, they can act as project shares, asset-ownership certificates,

loyalty points, or even just pure cryptocurrencies. It’s also possible for ERC-20 tokens to simultaneously

fulfill several of these roles.

Our ECD Digital represent an actual Title of ownership to a physical Device comparable to a deed of a

house, and only that. The holder of the ECD digital Title is the true legitimate owner of one of our

revolutionary energy devices. We see our ECD as a different breed of ERC-20 token.

We designate our ECD Digital Title to be true Digital Title Tokens or DTT’s. Other than being simple

payment tokens or other than being Security tokens or Asset tokens (that represent assets and

underlying’s) or even other than utility tokens (that provide access to future goods or services of the

project) are DTT’s real digital representations of ownership.

Our DTT’s are only given out once, as part of our one-time crowdfunding campaign. ECD Energy Corp is so

strongly committing to hold its promise of this crowdfund that it is willing to issue a guarantee to whoever

purchases one of the ECD Digital title tokens.

4.3. The ECD Guarantee

ECD Energy Corp guarantees that whoever owns a ECD Title of Ownership or a ECD Digital Title is entitled

to receive one ECD residential device with the matching serial number. Once the campaign has completed

and the manufacturing process starts, you can exchange your ECD Title and arrange for the delivery and

installation of your residential device.

5. Token launch (ECD Digital Title)

5.1. Token Launch Summary

Our goal is to raise a maximum of $40 million USD and a minimum of $7 million USD. The main

cryptocurrencies and USD are accepted as payment for our ECD Titles. Some of the numbers may change

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with USD exchange rates and volatility, but the following numbers are best effort estimates as of July 1,

2020.

• Maximum financing: $40 million USD or 400,000 ECD - this may change with exchange rates.

• Minimum financing: $7 million USD or 70,000 ECD

• Exchange rate: 1 ECD = 100 USD

Token contract address: 0x8bbd40be65aff304bc81b76880dcf31de77b3416

• Launch date and time: TBA

• Token launch time-frame: 6 months or until full funding is secured

• Token launch completion: Token launch will end when either the maximum number of ECD are sold or

when the 6 month time frame has passed, whichever comes first.

• Token available to public at launch: 400,000 ECD

• No early adopters nor company officials will be rewarded with any ECD.

• 15% will be allocated for the Affiliate program.

• Unsold ECD after the launch and crowdfunding campaign will be send to a burn address. No further ECD

Digital Titles will be issued after the initial campaign.

5.2. The Title Distribution

Crowdfunding Sale: 85% of total outstanding: 340,000 ECD

Affiliate Allocation: 15% of total outstanding: 60,000 ECD

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6. ECD FAQ

What does ECD stand for and what is it?

In the ECD Energy Corp "We the People" rewards campaign, the purchaser of a ECD Digital Title Token will receive one of our revolutionary residential energy devices once manufactured.

This campaign is designed to provide a one-time opportunity for the common person who may not otherwise be able to purchase one of our devices. The device is capable of generating sufficient energy for a standard 4,000 sq. ft household.

What do ECD’s represent?

ECD is an electronic-title issued as an ERC-20 token secured by the Ethereum blockchain. They are not

refundable, nor are they securities or for speculation. ECD’s give no rights in the company and do not

represent participation in the company. ECD’s are solely sold as a Title of Ownership of one of our to be

produced residential energy devices. Any value received by the company may be spent without

conditions.

What amount is being raised? What’s the cap of tokens? Will there be a follow-on offering?

We are targeting to raise at least $7 million USD and a maximum of $47 million USD. We have a limited

cap on our ECD of 400,000. This is a final supply set in the ETH contract. We do not plan to have a follow-

on offering of any of our ECD Titles of Ownership. It truly is a one-time campaign to fund our company.

What crypto-currencies are accepted in the crowd sale?

During our crowdfund campaign we want to give the opportunity to as many people as possible to

purchase a title of our energy devices. Besides having the more common payment options such as credit

cards and PayPal available, we also accept crypto-currencies. In our web shop you can pay for our ECD

Digital Titles with BTC, ETH, LTC, XMR, XRP and also Decred and Doge.

When will the Crowd sale happen?

The exact time of the launch of our crowdfunding campaign has not been decided on yet. We have set a

countdown timer on our website. Once we are ready and have decided on the final launch date, we will

update the clock and the displayed date will be the final launch date.

What is the price of ECD?

As part of the ONE-TIME “We the People” reward-based crowd-funding campaign you can purchase an

ECD Digital Title for ” $100 “ USD in our ECD Digital Title Shop.

How will ECD Energy Corp use the funds raised during the token launch?

The funds received in the crowd sale will be used by ECD Energy Corp to start up the company and build

out the production of the ECD Energy Devices for which the ECD token is a Title of ownership.

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How will ECD store the received crypto-currencies?

ECD Energy Corp sees the use of the ECD token and the acceptance of crypto-currencies merely as a

means to an end. The company will therefore convert as much and as soon as possible the crypto-

currencies to USD via our payment processors BitPay and Globee. Any crypto-currencies that would be

kept and stored even for a short period of time, will be done in multi-signature accounts.

Are ECD Digital Titles transferable?

Our ECD Digital titles are as ERC-20 tokens immediately transferable to ERC-20 compatible wallets.

However the ECD Digital titles are not resalable for now. We are planning to build our own ECD Energy

exchange where these tokens can be sold or exchanged for an ECD Energy device.

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