THE ENGINE THAT RUNS ITSELF

         (word processor parameters LM=1, RM=70, TM=2, BM=2)

              Taken from KeelyNet BBS (214) 324-3501

                   Sponsored by Vangard Sciences

                            PO BOX 1031

                        Mesquite, TX 75150

                          March 23, 1990

This article on the EMA-4 engine was one that appeared in a

magazine called `The Probe The Unknown' in June 1973.   It was in

one of my boxes marked STUFF.  I don't know where I had picked it

up, but I thought it might be of some interest to you.  If anyone

has more information on this please let us know, so that it can be

included on the KeelyNet BBS.

                                                     Ron Barker

                    THE ENGINE THAT RUNS ITSELF

        An unconventional approach to harnessing energy has

   created a motor that requires no fuel and produces no waste.

            It's inventor say it is the answer to man's

                transportation and power problems.

                         By Jack Scagnetti

     Rationing in Effect as Winter Catches U.S. Short of Fuel.

              Fuel shortage May Curtail Rail Service.

             Smog-Proofed Autos Choking on Own Fumes.

               U.S. May Approve Gasoline Rationing.

             Pace Picks up in Quest for Clean Engines.

             - Newspaper headlines from January, 1973

     Catastrophic Problems, aren't they?  Not only are we taking

more out of the earth than the earth has to give, but we're also

using what we take to ruin the air above.

     Sitting in a small laboratory in Van Nuys, California is a

curious creation which, based on the results of dynamometer tests

and other rigid trials, claims to be the solution.  It's called

the EMA (electro-magnetic association) motor and, in technical

jargon, is described as "digital-pulsed," "time-phased" and

"servo-controlled."   Developed by EvGray Enterprises, an

independent research and development firm, the unique engine runs

on the principle of electro-magnetic transformation.

     In terms more meaningful to the layman, the EMA motor

requires no fossil fuel, recycles its own energy, creates no

waste and is extremely quiet. Its size, weight and horsepower

ratios are comparable to motors and turbines now in use.

     The EMA's only external power source consists of four 6-volt

batteries which never need recharging and which have the same life

expectancy as the standard automobile battery.    EvGray claims

the motor duplicates the power and torque characteristics of

internal combustion engines of similar size and weight, and the

Federal and State Air Resources Board has granted the inventors a

permit to further prove this claim by installing the EMA in test

vehicles.

     Edwin Gray, Sr., president of EvGray, predicts production

                              Page 1

costs of the EMA will be comparable to present motors and

maintenance costs will be far less. "The EMA motor promises to

make the world a cleaner place in which to live," says Gray, who

has spent 12 years developing the engine.   "Perfection of the EMA

motor as a generating source could mean the availability of

inexpensive power to underdeveloped nations."

     EvGray expects the EMA Motor - when tailored for specific

applications - to become a desired replacement for virtually all

power systems now in use.   The full spectrum of possibilities

includes:

     (1) industrial engines for application of portable welding

         generators, standby electric generators, portable battery

         charger, portable power tools, portable lifting

         equipment, and industrial utility vehicles;

     (2) engines for agricultural equipment for use on lawn

         tractors, lawn mowers, soil and harvesting equipment,

         horticultural equipment, and irrigation booster pumps;

     (3) engines for building and construction equipment,

         including portable building equipment, concrete mixers,

         portable conveyors, portable compressors, and

         construction machinery;

     (4) aircraft, automotive and marine engines, including

         automobiles, trucks, outboard motorboats, auxiliary yacht

         engines, lifeboats, light aircraft, and auxiliary glider

         engines

     (5) engines for household and recreational equipment,

         including small lawn mower, snowmobiles, golf carts and

         snow blowers;

     (6) engines for heavy transportation and stationary uses,

         including railroad locomotives, ships, pumping sets for

         atomic reactors, generator sets, and jet aircraft

         engines;

     (7) miscellaneous applications, including fire-fighting

         pumps, airconditioning units for buses, refrigeration

         units for trucks, and special military purposes

         (generator sets, gas turbine, starter units, etc.).

                   LIGHTING AND "ENERGY SPIKES"

     Gray describes the operation of his EMA motor as "similar to

re-creating lightning."   He says the engineering and scientific

world has known this re-creation is possible but hasn't known how

to do it.   "When lightning hits the ground, causing a 10-million-

volt buildup, where does energy come from to make it from a static

charge to a lethal charge?    Nobody really knows."

     Richard B. Hackenberger, Sr., vice-president in engineering

for EvGray, explains how the EMA motor system operates.   "Power

from the high-voltage section," says Hackenberger, "is put through

a system of electrical circuitry to produce a series of high-

voltage `energy spikes.'   The spikes are transferred to a small

control unit, which in turn operates the major motor unit.

     The control unit, acting in a manner similar to that of a

distributor in an internal combustion engine, regulates the

spikes, determines their polarity (whether they be north or south)

and directs their power to selected electro-magnets in the main

unit.

                              Page 2

     While this occurs, the recycle/regeneration system is

recharging the batteries with 60 to 120-amp pulses.    The

electro-magnets are located on both the rotor and stator of the

large motor.  Attraction and repulsion between the two sets of

magnets causes the motor to operate and generate horsepower.

     Once in motion, the motor recharges the batteries as a result

of the recycle/regeneration system.   To prevent condensation in

the main cylinder, a half-pound of air pressure has to be

maintained.  Air is routed through the programmer for functional

purposes. When the ambient temperature is 90 degrees, the motor

operates at 170 degrees."

     In short, the principle of the engine is to create

electricity and recycle energy by the factor that every time

magnets are energized off the peak of transients, a charge goes

back into the battery.

     It's not a constant charge, but a pulse charge of 60 amps or

better; thus, the battery must be of high quality.   The batteries

for the EMA motor are furnished by McCulloch Electronic

Corporation of Los Angeles.

     After extensive research and testing, EvGray chose the model

110-75 Energy Center, which is said to produce maximum power for

its weight and volume over an exceptionally long life span.  This

is achieved partly by use of an ultra-lightweight plastic case

that minimizes dead weight (energy-storing components comprise

more than 90 percent of the battery's weight).

     Features of the battery include extra-large plates separated

by indestructible glass-rubber separators and a specially

formulated lead oxide composition.   Two of the 6-volt batteries

are used for operation, while the other two serve as a reservoir.

     Mallory Electric Corporation of Carson City, Nevada, has also

made a major contribution toward the design of the electronic

pulsing system.

                      LONG-RANGE AND POWERFUL

     Electric-powered vehicles are not new, of course, but the

poor energy-storage factor of batteries and their heavy, large

size have thus far made them impractical for use in any vehicles

requiring a long-range capacity.

     This drawback has restricted the market for electric power to

small limited performance vehicles.  The maximum range of these

vehicles when driven at 40 miles per hour has been approximately

150 miles. Range is affected by the number of stops and starts,

grades traversed, and acceleration demands.

     The EMA motor needs only to run at 500 rpm for the normal

recharging system to work.   In fact, it recharging capabilities

are such that the EvGray's next version of the engine won't have

an alternator or air pump.  The air pump will be replaced by

blades on the rotor.

     "The idea of a self-sustaining electric motor," says Gray,

"at first appears to go against much of the theory of electricity

                              Page 3

and conservation of energy.   The EMA motor does not, however,

violate the basic laws of physics, but rather utilizes them in a

unique integration in a system in order to maximize upon the

characteristics and interrelationships between electrical,

magnetic, and physical components.   The EMA prototype motor has

had considerable operating test time and has been adapted to

standard and automatic automobile transmissions."

     Dynamometer tests have recorded the rpm's of EvGray's motor

at 2550 constant, the torque at 66 pounds constant.   Brake

horsepower is 32.5 After a test run of 21 1/2 minutes, the battery

voltage reading was 25.7.

     Only three surfaces make physical contact with the motor a

feature which dramatically limits friction and increases

efficiency.   "An internal combustion engine is only 30 percent

efficient," says Gray.  "Our engine is 90 percent efficient." A

prime factor in friction control is the so-called "magnetic

vacuum," created in the drum, which literally takes the pressure

off of end bearings and allows the rotor to float within the drum.

     "Our motor creates power surges-one behind the other-in

microseconds," says Gray.   "By doing this, we are able to direct

the magnetic flux field.   The magnetic flux is a coolant source,

so we need no cooling system."

     Gray says the engine is not affected by rain, heat, cold any

other type of inclement weather, or by driving through tunnels.

"All this motor needs is oxygen.   The only external magnetic

effect is that another field system cannot operate within this

same battery system. The magnetic field orientation is 360 degrees

in all directions."

     The new EMA prototype will weigh about 320 pounds, less than

most present internal combustion engines.   It will measure 12

inches in diameter, 18 inches in length.   (Size is linear to

horsepower required.)   According to Gray, further research should

make it possible to possible to reduce the size and weight through

the use of lighter metals and more sophisticated circuitry.

     Gray says most of the motor's components can be built in a

machine shop with a mill and lathe.   The exceptions are the drum

itself, the electro-magnets, and a few miscellaneous items bought

over the counter in an auto supply store.   The company plans to

enter into worldwide licensing agreements to manufacture the

motor.

     The safety features of the EMA are impressive.   There's no

fan, no exposed high-voltage component parts, no exhaust fumes, no

fuel tanks to explode, and no water reservoirs to clog up, freeze

or overheat.

     EvGray believes the reliability of the engine will be

excellent, and maintenance should be the engine will be excellent,

and maintenance should be minimal because there's no carbon, water

varnish or other impurities - which occur normally as a result of

burning oil or gasoline - to damage parts.   There is no

carburetor to clean and adjust, no oil filter to change, no gas

filter, smog valve, gaskets, radiator, water pump ot timing chain.

Plug-in type construction makes replacing parts quick and easy.

                              Page 4

Gray says the training time for EMA mechanics is less than that

for mechanics working with a standard electric motor and far less

than that for those preparing to work on internal combustion

engines.

     The EMA also favors the eardrums of mankind. Its noise

emission is far less than that of all other power sources, and

Gray claims there will be no increase in noise as the engine ages.

In fact, electric-motor noise is almost imperceptible when

properly suppressed.

     Perhaps the reason Edwin Gray, now 48, has been able to

create such an unconventional engine is his unconventional

education. One of 14 children, he began tinkering with magnets and

electricity as a boy.   He left home when he was 15 and served a

year in the U.S. Army before it was discovered he was under age

and he was given an honorable discharge.  During that year, he

attended an Army school for advanced engineering. After the attack

on Pearl Harbor, he reenlisted, this time entering the Navy. After

serving three years of combat duty in the Pacific zone, he

returned to civilian life and found work in the field of

mechanics. Resuming his experiments with electro-magnetic power,

he seriously examined the theory of energy used is energy spent.

     After years of research an experimentation, Gray conducted

his first test of the EMA motor in 1961.   The engine ran briefly

and then broke down.   Discouraged but not defeated, he

constructed a second electro-magnetic motor, which ran for an hour

and a half before failing.

     A third prototype ran for 32 days attached to various

automotive transmissions and test equipment.   It was then

dismantled for analysis, and detailed reports were prepared.

After rejection by large corporations and money promoters, Gray

formed a limited partnership in 1971 and constructed the fourth

EMA prototype.

     With assistance from nearly 200 private citizens, EvGray

Enterprises has spent $1.1-million in the attempt to recycle

present lost energy and redirect magnetic forces with the EMA

motor.

     Dick Hackenberger, who comes from a more conventional

background, compliments Gray's raw genius with 25 years of

diversified functional and management experience in the

engineering field.   He holds an EE degree from Northeastern

University and is a senior engineer in the Institute of Electrical

and Electronic Engineers.   Hackenberger has held positions with

the Sony Corporation of America and Sylvania Commercial

Electronics, and he has served as an engineering consultant to the

U.S. Navy.

     Other EvGray officials include Arthur M. Lange, vice-

president in charge of public relations, and George C.  Demos,

vice-president in charge marketing.   Lange has served in

management and public relations capacities with both Ford and

General Motors, while Demos has worded as division general manager

for Control Data, director of marketing for RCA, and president of

his own manufacturing firm.

                              Page 5

                      RAISING A FEW EYEBROWS

     The electro-magnetic motor has attracted attention from

important government agencies, including the Environmental

Protection Agency, the Air Resources Board, and the Department of

Transportation.   Governor Ronald Reagan of California last year

presented Gray and his wife, Evelyn, with a certificate of merit.

Others indicating interest in the project are congressmen Barry

Goldwater, Jr., Edward R.  Roybal, Del Clawson and James C.

Corman, U.S. Senator Alan Cranston, and state senators Alfred E.

Alquist and Nicholas C. Petris.

     John Brogan, head of the Environmental Protection Agency's

advanced automotive power systems development division, says his

25-man staff has looked at approximately 20 alternate engine

proposals each week for the past two years.

     He says nearly half of the proposals are of "perpetual

motion" machines; that is, machinery that would produce continuous

movement without any outside energy source. The concept of

perpetual motion violates all known laws of thermodynamics.

     According to EvGray, some experts believe the EMA is a

perpetual-motion engine and is, therefore, invalid.   Gray himself

refutes this belief.   "The EMA motor is definitely not perpetual

motion," he insists.   "Only those in the scientific world who

understand the theories of physics are able to comprehend how our

motor works. There's only a handful of such persons.

     "The programmer directs which magnets are to be energized for

what length of time and in what polarity.   There are several

attractions and repulsions taking place at the same time."

     The search for the clean engine has seen the federal

government contribute $23-million to the development of new

engines in the past two years.   General Motors, spent $36-million

last year alone, and Ford laid out $20-million.  Senator John V.

Tunney of California has proposed legislation to divert $900-

million from the Highway Trust Fund into a three-year crash

program to develop a clean engine.

     Meanwhile, Edwin Gray, after 12 years of research and

development, believes he has found the answer for a comparatively

meager $1.1-million.   Time will tell whether or not he is right.

                 EMA-4 MOTOR PRELIMINARY TEST DATA

Input Power         12 volts dc (of a 24 volt dc system, making

                    use of a 12 volt standard starter motor).

RPM                 2550 RPM constant.

Torque              66 lbs. / constant.

Horsepower          100 HP

Brake Horsepower    32.05

Foot-pounds/minute  1.057.650

                              Page 6

Foot-pounds/second  755 lbs. (includes 110 lbs for four 6-volt

                    batteries).

Volume              42" long x 18" wide x 22" high. (This is

                    overall geometry. including control unit, etc.

                    - The basic motor is a 16" dia. x 24"

                    cylinder, which can be repackaged into a 9"

                    dia. x 12" cylinder).

Test Run Time       21.5 minutes.

Battery Voltage     25.7 volts.

Reading at test

completion

Ambient Temperature 84 degrees constant.

Humidity            51%

Fuel Consumption    None (other than air).

Cooling             Conduction / 1/2 pound (flow through) air

                    pressure.

Magnetic Field      360 degrees-all directions during motor

Orientation         operation.

Lubrication         High temperature bearing grease (2 bearings).

Vibration           Negligible

Noise Level         No direct reading taken - without shielding,

                    no louder than small kitchen appliance,  e.g.,

                    fan, etc.

Power Hazard        Fully secure - full design safety features.

Start Mode          Simple push button - standard 12V starter

                    motor.

Operating Mode      Rheostat principle with switchable RPM

                    range(500-1300-1950-2550-3350-4100 RPM's)

Physical Condition  Motor mounted on wheeled test stand - no

                    external connections to stand.

                              Page 7

                 EMA - 4 MOTOR BLOCK DIAGRAM

                        $$$$$$$$$$$$$$$$$$$$$$$$$$$$

                        $  Mechanical Conversion   $

                        $     of Power-Drive       $

                        $ Shaft-Transmission, etc. $<$$$$

                        $$$$$$$$$$$$$$$$$$$$$$$$$$$$    $

                                                        $

                                                        $

$$$$$$$$$     $$$$$$$$$$$$$$   $$$$$$$$$$$$$$     $$$$$$$$$

$ 24 V  $     $High Voltage$   $            $     $Motor- $

$Power  $$$$$>$ Generator  $$$>$Control Unit$$$$$>$Rotor/ $

$Supply $<$$  $  Circuits  $   $            $ $$$>$Stator $

$$$$$$$$$  $  $$$$$$$$$$$$$$   $$$$$$$$$$$$$$ $   $$$$$$$$$

   $$$$$$$$$                                  $       $  $

   $                             $$$$$$$$$$$$$$$$$$   $  $

   $<$$$$$$$$$$$$$$$$$$$$$$$$$$$$$  Regeneration- $   $  $

   $    $$$$$$$$$$$$$$$$$$$$$$$$$$  Recycle Unit  $   $  $

   $    $Electronic Pulsators (C)$                $   $  $

   $    $$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$   $  $

   $                                  $$$$$$$$$$$$$$$$$  $

   $              $$$$$$$$$$$$$       $   $$$$$$$$$$$$   $

   $$$$$$$$$$$$$$$$ Alternator$$<$$$$$$   $ Air Pump $$<$$

                  $    (B)    $           $    (A)   $

                  $$$$$$$$$$$$$           $$$$$$$$$$$$

BLOCK DIAGRAM OF THE EMA-4 shows how energy is transmitted from

the four 6-volt batteries (power supply) to the various stages of

the engine and returned.

Both the air pump (A) and the alternator (B) are optional

equipment. The air pump prevents condensation around the drum and

provides added assurance of air in some environments.

The alternator is not needed for most applications, including use

in vehicles, but may be desirable in heavy generator rigs.

The electric pulsators (C), which are contained in the

regeneration-recycle unit, are capable of pulsing at 200,000 times

per minute, and the pulsation at 60-to-120 amps is fed back to the

batteries.

                               Submitted by : Ronald Barker,

                                              Vangard Sciences

                              FINIS

                              Page 8