Category Archives: Basic Analog Circuits

Eric Rosenthal Basic Analog Circuits

Binding Posts and Banana Jacks/Plugs

I’ve been using binding posts, banana jacks/plugs since childhood. Rumor has it that they have been around since 1924. They come in a few different styles but they all pretty much do hte same thing. The caveat is that the ones that I like to use all have “flattened sides.”
bindingpost7004-700577691

This means that if you want to use them without their rotating in the panel, you need to drill a hole and then do a lot of filing. “Double-D” punches either do not exist, or the salespeople at Digi-Key, Newark, McMaster-Carr, and a few other places, don’t know their stuff.

I was fortunate to be able to use a laser to cut out a faceplate with double-d geometries, and indicator lights, and a hole pattern for mounting on to a standard 1900 (4″ square) electrical box. Send me a note if you would like the illustrator file.

Peter Terezakis
ITP Master’s Candidate
Tisch School of the Arts
http://www.itpme.info
http://www.terezakis.com

All Keystone binding posts are designed to prevent accidental contact with current carrying parts. They feature a “limited opening” captivated head to insure safety. Ideal for audio circuitry, R.F. circuitry, oscilloscopes, power supplies and various other applications.

  • MATERIAL:
  • Stud: Brass per QQ-B-626
  • Plating: Nickel Plate
  • Insulation: Nylon
  • Current Rating: 15 Amps, 1000V AC Working

These multi-purpose binding posts feature high current rating, captivated heads and anti-rotation stud mounting.

Note: Binding Posts accept .175” (4.5) Banana Plugs, .080” (2.08) Tip Plugs, Spade Lugs, Alligator Clips,Wires and EZ hooks.

Tesla Bifilar Coil 1893 – 2013

120 years later, still a New York original
120 years later, still a New York original
UNITED STATES PATENT OFFICE NIKOLA TESLA, OF NEW YORK, N.Y.COIL FOR ELECTRO-MAGNETS SPECIFICATION forming part of Letters Patent No. 512,340, dated January 9, 1894.Application filed July 7, 1893. Serial No. 479,804. (No model.)To all whom it may concern:Be it known that I, NIKOLA TESLA, a citizen of the United States, residing at New York, in the county and State of New York, have invented certain new and useful Improvements in Coils for Electro-Magnets and other Apparatus, of which the following is a specification, reference being had to the drawings accompanying and forming a part of the same.

In electric apparatus or systems in which alternating currents are employed the self-induction of the coils or conductors may, and in fact, in many cases does operate disadvantagely by giving rise to false currents which often reduce what is known as the commercial efficiency of the apparatus composing the system or operate detrimentally in other respects. The effects of self-induction, above referred to, are known to be neutralized by proportioning to a proper degree the capacity of the circuit with relation to the self-induction and frequency of the currents. This has been accomplished heretofore by the use of condensers constructed and applied as separate instruments.

My present invention has for its object to avoid the employment of condensers which are expensive, cumbersome and difficult to maintain in perfect condition, and to so construct the coils themselves as to accomplish the same ultimate object.

I would here state that by the term coils I desire to include generally helices, solenoids, or, in fact, any conductor the different parts of which by the requirements of its application or use are brought into such relations with each other as to materially increase the self-induction.

I have found that in every coil there exists a certain relation between its self-induction and capacity that permits a current of given frequency and potential to pass through it with no other opposition than that of ohmic resistance, or, in other words, as though it possessed no self-induction. This is due to the mutual relations existing between the special character of the current and the self-induction and capacity of the coil, the latter quantity being just capable of neutralizing the self-induction for that frequency. It is well-known that the higher the frequency or potential difference of the current the smaller the capacity required to counteract the self-induction; hence, in any coil, however small the capacity, it may be sufficient for the purpose stated if the proper conditions in other respects be secured. In the ordinary coils the difference of potential between adjacent turns or spires is very small, so that while they are in a sense condensers, they possess but very small capacity and the relations between the two quantities, self-induction and capacity, are not such as under any ordinary conditions satisfy the requirements herein contemplated, because the capacity relatively to the self-induction is very small.

In order to attain my object and to properly increase the capacity of any given coil, I wind it in such way as to secure a greater difference of potential between its adjacent turns or convolutions, and since the energy stored in the coil considering – the latter as a condenser, is proportionate to the square of the potential difference between its adjacent convolutions, it is evident that I may in this way secure by a proper disposition of these convolutions a greatly increased capacity for a given increase in potential difference between the turns.

I have illustrated diagrammatically in the accompanying drawings the general nature of the plan which I adopt for carrying out this invention.

Figure 1 is a diagram of a coil wound in the ordinary manner.
Figure 2 is a diagram of a winding designed to secure the objects of my invention.

Let A, Figure 1, designate any given coil the spires or convolutions of which are wound upon and insulated from each other. Let it be assumed that the terminals of this coil show a potential difference of one hundred volts, and that there are one thousand convolutions; then considering any two contiguous points on adjacent convolutions let it be assumed that there will exist between them a potential difference of one-tenth of a volt.

If now, as shown in Figure 2, a conductor B be wound parallel with the conductor A and insulated from it, and the end of A be connected with the starting point of B, the aggregate length of the two conductors being such that the assumed number of convolutions or turns is the same, viz., one thousand, then the potential difference between any two points in A and B will be fifty volts, and as the capacity effect is proportionate to the square of this difference,
the energy stored in the coil as a whole will now be two hundred and fifty thousand as great.

Following out this principle, I may wind any given coil either in whole or in part, not only in the specific manner herein illustrated, but in a great variety of ways, well-known in the art, so as to secure between adjacent convolutions such potential difference as will give the proper capacity to neutralize the self-induction for any given current that may be employed. Capacity secured in this particular way possesses an additional advantage in that it is evenly distributed, a consideration of the greatest importance in many cases, and the results, both as to efficiency and economy, are the more readily and easily obtained as the size of the coils, the potential difference, or frequency of the currents are increased.

Coils composed of independent strands or conductors wound side by side and connected in series are not in themselves new, and I do not regard a more detailed description of the same as necessary. But heretofore, so far as I am aware, the objects in view have been essentially different from mine, and the results which I obtain even if an incident to such forms of winding have not been appreciated or taken advantage of.

In carrying out my invention it is to be observed that certain facts are well understood by those skilled in the art, viz: the relations of capacity, self-induction, and the frequency and potential difference of the current. What capacity, therefore, in any given case it is desirable to obtain and what special winding will secure it, are readily determinable from the other factors which are known.

What I claim as my invention is:

A coil for electric apparatus the adjacent convolutions of which form parts of the circuit between which there exists a potential difference sufficient to secure in the coil a capacity capable of neutralizing its self-induction, as herein before described.

A coil composed of contiguous or adjacent insulated conductors electrically connected in series and having a potential difference of such value as to give to the coil as a whole, a capacity sufficient to neutralize its self-induction, as set forth.

NIKOLA TESLA

Witnesses:

Robt. F. Gaylord
Parker W. Page

Mystery at Clark Dry Lake

Exiled to the desert southwest in 2001, I would get lost once in a while… heck, often.

Anza-Borrego Desert, Terezakis 2004
Anza-Borrego Desert, Terezakis 2004

On one of these wanderings, I found a place that was hours away from any highway; among some of the most remote locations as I have ever experienced. Even in this area I discovered bits and pieces of wire, porcelain insulators, the detritus of man.

Clark Dry Lake, Anza Borrego Desert, California
Clark Dry Lake, Anza Borrego Desert, California
Clark Lake Antenna, circa 1958
Clark Lake Antenna, circa 1958
Clark Lake Antenna, circa 1958
Clark Lake Antenna, circa 1958

Clark Lake Antenna, circa 1958

Clark Lake Antenna, circa 1958
Clark Lake Antenna, circa 1958
Gathering, Peter Terezakis, Clark Dry Lake, California 2005
Gathering, Peter Terezakis and Allyson Green, Clark Dry Lake, California 2005

 

1898 Tesla patented drone technology

Tesla boat1

In September of 1898, Tesla demonstrated the remote controlled boat in the image above at Madison Square Garden during the First Annual Electrical Exhibition. It was controlled by means of tuned circuit technology which enabled the machine to be steered in different directions, stop, start, and flash lights, all by means of a controller held by Tesla.

Tesla referred to the boat as an “automaton” and believed that the technology would one day be used to fight wars.

You can download his patent here


PBS link to Tesla and robots
.

Tesla boat

Schumann Frequency

c = λ × f λ = c / f = c × T f = c / λ
Wave frequency in Hz = 1/s and wavelength in nm = 10−9 m
frequency = f and wavelength λ

A 7.43 Hz wave is 40348917.63122477 meters (132378338.68512061 feet) in length.
This means that the length of wire to construct a quarter wave antenna would have to measure 10087229.4078061925 meters (33094584.6712801525 feet) 6267.91 miles in length.

There has to be an easier way than hoisting a satellite into space….

Clarendon Bell

Some batteries last longer than others. This one has been running since at least 1840, possibly fifteen years earlier.

Clarendon Bell – running since 1840 on same dry pile batteries.

More on the Oxford Electric Bell or Clarendon Dry Pile – one of the longest running science experiments in the world.

More on the battery:
Zamboni/Duluc Dry Pile

Oxford Electric Bell

Interestingly, the Clarendon/Oxford Bell is a permutation of a Lightning Bell invented in 1742 and used by Ben Franklin in 1752.