Plug the surge suppresser into the wall socket. Make sure it is turned off.
Open the computer box and take out the keyboard, mouse computer and cord.
Plug the end of the keyboard and mouse wires in to the back of the computer.
Unpack the monitor and place it on top of the CPU.
Open the printer box and take out the printer. Plug in the power cord. Insert the printer cable into the parallel port
in the back of the printer. Lock it in place with the two metal clips that fold inward.
Put on a pair of rubber gloves to counter static electricity. Take the Synchrodyne Interface Module and attach it to
the Parallel Printer Interface on the back of the CPU. Use a screw driver to screw in the screws securely, that are attached to the interface.
Then attach the printer cable to the back of the Interface Module. Use the screw driver to secure the screws. Make
sure the Interface and the printer cable are securely fastened together.
Unpack the Synchrodyne touching only the two silver metal handles in the sides. These are the only areas you should
touch on the metal cabinet because of the special static insulation in these areas.
Open the Testing Platform. Take the three Synchrodyne/Testing Platform Cables and attach them to the Input, Output,
and Expand Ports on the back of the Synchrodyne.
Attach the other end of the Cables to the corresponding Input, Output, and Expand Plugs on the Testing Platform.
Plug the metal end of the multi-colored Synchrodyne/Computer Interface Cord into the only port it will fit into
on the back of the Synchrodyne. There is a special Synchrodyne Interface Port in the back of the CPU. Plug the blue plastic end of the multi-colored cable into it. When you are
attaching the blue plastic end into the CPU, notice that it inserts into the port only one way. The small square piece of plastic on the side fits into the square cutout in the port.
As you push it into place, the black hooks on the top and bottom of the port will descend down over the plug to lock it into position.
The monitor should be sitting on the top of the CPU. Attach the video cable plug to the monitor hook up port on the
back of the CPU.
Insert and screw in the trigger probe with the 2 mm tip into the left Electrode Remote Set Input. Be sure to screw
down the locking ring.
Insert one end of the black coil cord into the base end of the metal Hand-Held Cylinder and the other end into the
Left Remote Input only! The right one is active only when you are using both Hand-Held Cylinders to test the over all energy of the patient prior to testing.
Attach the input plug of the foot pedal cord into the Plane input and screw down the locking ring.
Locate the Duplicating parts: black circular base, shallow well and well cover, long black interface wire with gold
ends, two red wires and square interface box.
Connect the long black cord with the gold ends to the interface. Now connect it to the back of the Synchrodyne into
the TEST input that is closest to the left side of the instrument (looking from the front), high above the serial number. Push on the circular connector. It fits on only one way.
Press down the round metal ring and turn it to the right on both the interface and the Synchrodyne until it locks into place. This is important to make sure it is locked into place.
Plug in the two red wires into the gray-blue and gray-yellow inputs. When you use the urine as a biological filter and
make the homeopathic remedy you will plug one of the red wires into the black circular base and the other into the gray-white input where the coil cord attached to the gauze cylinder.
Take the coil cord attached to the gauze covered cylinder and plug it into the black base of the duplicating cylinder.
This puts the patient into the testing loop and places their energy into the homeopathic remedy when it is made.
MAKE SURE THE SYNCHRODYNE, CPU, PRINTER, AND MONITOR ARE OFF.
Find the AC power cord for the CPU and plug it into the power cord input in the back of the CPU. Then plug the other
end into the surge suppressor. Then plug in the power cords for the printer and monitor.