Double Cone Bipolar Tesla Coil

My Research

Ideal Tesla Magnifier System
Spiral & Solenoid Combination Coil
Flat Spiral Secondary and Longitudinal Waves
Trifilar Wye Secondary Coil
Tesla Magnifier Experiment
Magnetic Quenching Experiment
Bilfilar Electromagnet Experiment
Bucking Magnet Experiment
Fluorescent Tube Battery
Electrolytic Rectifier
Tesla Propulsion
Periodic Tables

Tesla Resources

Known Tesla Publications
Articles About Tesla and His Work
Tesla Notes
Tesla Photos

QADI Web Sites

Quantum AetherDynamics Institute
Aether Physics Model
Aether Wizard
Conductance Yoga
Herbal Folklore
Lambdoma Music
Secrets of the Aether
Unified Force Theory
James Clerk Maxwell

Domains For Sale
Privacy Policy

Content on this page requires a newer version of Adobe Flash Player.

Get Adobe Flash player

Vajra Periodic Table print
Vajra Periodic Table
by Aether Wizard


My Inductance Formula
Relationships of Frequency
Experimenter's Handbook
Wheeler - formulas for inductance
Measure Inductance w/o LCR Meter

Of Interest

Tesla Coil Mailing List
High Voltage

Electrolytic Rectifier Schematic

Electrolytic Rectifier Schematic

A kind of electrical one-way valve is formed by a cell having its electrodes made from iron and from aluminum or zinc-aluminum alloy and having its electrolyte made of a solution of ammonium phosphate.  In actual practice, four of these cells are used to form the rectifier so that both waves of the alternating current may be used.  The connections are shown in the figure at the right. 

Current is able to flow from the iron to the aluminum without resistance.  Upon a reversal of the direction, when current attempts to pass from the aluminum to the iron, the aluminum electrode immediately becomes covered with a film of aluminum hydroxide and this compound is an electrical insulator which prevents passage of the electricity in this direction.  As soon as current again flows from the iron to the aluminum, the hydroxide film is broken down so that the resistance vanishes.

Considering the diagram of connections, the alternating current supply is at the top, while the direct current leads are at the bottom.  The direction of the current waves used for the positive side of the direct current is shown in full line arrows, while the waves used for the negative of the direct current are shown in dotted arrows.  It will be seen that the arrows of the alternating current supply line run in both directions which is, of course, the actual case with the current impulses.

It will be seen that one side of the alternating circuit is connected with two of the cells in such a manner that it reaches one aluminum and one iron electrode, while the other side of the alternating supply is similarly connected with the remaining two cells.  Current impulses from an alternating current line will pass to the iron electrode, thence to the aluminum and, as both aluminum electrodes are connected with the positive side of the direct circuit, the current will always flow from this positive line.

Returning from the negative side of the direct current line, as shown by dotted arrows, the flow passes to the two iron electrodes, thence to the two aluminum electrodes.  One of these aluminum electrodes is connected with one side of the alternating supply, while the other electrode is connected with the other alternating current wire.  The current then returns to the side of the alternating lines that is opposite the side from which that particular impulse started.  Upon a reversal of the alternating impulse direction, the remaining two cells will be used, but the flow will take place in the same manner as just described.

The above text is copied from Automobile Battery Care and Repair by Harold P. Manly, 1920.