Electric
Meters

Measuring energy:

When you think of how difficult a task it was trying to measure something
which you cannot see, cannot taste, cannot grasp and cannot hear, you
will realize how great of an accomplishment it was for engineers like

When you think of how difficult a task it was trying to measure something which you cannot see, cannot taste, cannot grasp and cannot hear, you will realize how great of an accomplishment it was for engineers like Oliver
Shallenberger at Westinghouse to invent the watt-hour electric meter.

Since 1888 many other kinds of useful
meters have been developed. When the average person thinks of a great
invention, they think of the lightbulb or television. However they don’t
realize that without good measuring devices almost none of our modern
inventions could exist!

In this page we tell just a bit about
meters and provide you links to some more technical explanations. If you
ask

In this page we tell just a bit about meters and provide you links to some more technical explanations. If you ask Robert N. Hall the inventor of the semiconductor
laser (used everywhere in the world today) what his greatest invention was, he will tell you it was the lithium drift detector. From someone who really understands technology that tells you a lot about the importance of the tools we use to measure.

1.) Types of Meters
2.) Timeline of the History of the Amp/Voltmeter
3.) Innovators of Meters

1.) Types of electric meters:

There are more types of meters, detectors, and measurement devices than
could be possibly listed here, but we will list a few of the most prominent
which have really changed our world.

Watt-hour Meter – This is one
of the most important meters ever invented. This measures the amount of
AC current used by a customer. With an accurate way to measure power devised
in 1888, this helped make the electrical grid economical and in the
1890s the electrical industry flourished. On the business side of things
it was necessary to measure use as it makes for a fair way to charge customers.
The traditional watt-hour meter uses a disk that spins due to electromagnetic
fields. A counter measures the number of rotations. The more energy one
uses, the faster the disk spins.

Galvanometer – detects electric current

This was historically the name given to an ‘ammeter’, it works by

using coils of wire on a base of a needle in between two permanent magnets.
This is one type of “moving coil meter”.

Ammeters and Galvanometers

Ammeter – measures electric current (amperes)
There are many types of ammeters today.  Digital ammeters use a shunt
resistor with volt meter and compute formulas to display the value.

Volt
Meter – measures voltage (electrical potential) across a circuit

There are many types of ammeters today. Digital ammeters use a shunt resistor with volt meter and compute formulas to display the value.- measures voltage (electrical potential) across a circuit

Voltmeters
Oscilloscopes
– displays the wave form of a variable voltage signal
The oscilloscope is extremely useful as it can show you the waveform of
the circuit you are working with. You can take a repetitive signal and
display as a static line graphed on a screen, this can allow a human to
see a pattern that was previously unobservable due to its passing at high
speed.

Above: A perfect AC signal can be shown in a graphic wave on an oscilloscope.
Changing loads and issues in a transmission
system will distort the waveform. Looking at the waveform can tell you
a lot about what is happening and where corrections need to be made. Today
computers monitor the waveform in power grids and quickly send commands
to change settings to correct the waveform. This is just one of 10,000
uses of an oscilloscope.

Scopes are used monitor wave forms, different wave forms are useful for
doing different jobs in circuits.  Without the oscilloscope most
modern technologies would never have been able to be developed.

Above: oscilloscopes from different eras at the Edison Tech Center

Voltage Regulators – these are
basically devices that keep track of voltage (the meter part) while using
a transformer to control the power coming through it. You will see these
all over the world typically as large can-like devices on power poles
and substations. Many people mistake these to be transformers.

These devices have rotating coils, which can increase the inductance
on a line or reduce it. A control panel allows utility workers to specify
a range that the regulator will operate at. These devices work as changing
power loads cause changes in voltage and the AC waveform. If there is
a sudden spike (like from lightning) there are other devices which work
faster. Newer voltage regulators have computers which send data back to
headquarters and are part of what we call “the smart grid”.
Older voltage regulators had a meter with a needle that would mark the
highest voltage that had passed through so that line workers could visit
the location and see how high things had gotten in the last x number of
hours or days.

Below: typical voltage regulators in a substation

Other types of meters:

There are now countless types of meters to measure all types of specialized
parameters for all kinds of tasks in all fields from nuclear power to
the field of radio. Great engineers like
Ernst Alexanderson, Irving Langmuir, Albert Hull and others often had
to invent new metering devices as a necessity to development of the project
at hand.

Below: Form 6 Relay Computer, smart grid technology used to actively
measure AC power and control high voltage interrupters

Above: Current Transformer, this “CT” outputs a proportion of the power going through the
line as low voltage which can be used to drive a meter. This CT is used to monitor the
power use of a major power user (a mine in Telluride, CO).

2.) Timeline of the History of Electric Meters:

Here is a short list of important events in the history by the Edison Tech Center.

1800 The electric age begins with Volta’s battery which sparks many inventors
and scientists around the world to start to experiment with electricity. There are no
standards of measurement or meters to measure this force. No one yet understands what
electricity is and therefore it takes another 90 years before more scientific explanations
help to break down electricity into its elements which then are assigned standards by the
IEC in Chicago and Paris in the 1880s-1890s.

1866 Transatlantic telegraph was completed. Basic
galvanometer-type meters were used to set up telegraph systems.

1879 Thomas Edison desperately needs a way to measure the electricity his customers would use.
He developed a chemical meter with two rods of copper in a solution, as power was used one of the electrodes dissolved, showing by mass how much power had been used. This invention was not ready for use when the Pearl Street Station started working with customers, so early customers got electricity for free. After a year Edison started using the chemical meter but it was not accurate and customers were unhappy.

Interesting Fact: JP Morgan ran 106 lamps from 3pm-6am but never paid more for this use since he only paid by the number of light sockets and for the physical bulb purchases.

1880s Elihu Thomson develops a chemical meter similar to Edison’s except it used zinc sulphate bath which worked much better. Edison’s companies immediately started using Thomson’s meter as they were desperate to solve the problem of metering.

1880s Thomson builds one of the first reliable wattmeters. He used solid silver bars and brushes with an aluminum disk with a small motor. Once again everyone including Edison used Thomson’s meter as a standard.

1880s Edison vs. the gas industry: Thomas Edison adopted Thomson’s meters and changed to a model that charged customers for electricity use, however this angered many customers who had been convinced to change over from gas lamps because of the fact that the flow of electricity was free. Edison doesn’t get enough credit for his taking the brunt of the gas vs. electricity battle. We have to thank Edison for hanging in there and operating at a loss for years before getting profit.

1886 Edward Weston develops a moving coil galvanometer type meter with stable permanent magnet which becomes the basis of Amp, Volt and Watt meters for the next 100+ years.

1880s Edward Weston refined a watt-hour based off of Thomson’s work

1887 Oliver Shallenberger develops the first accurate voltmeter at
Westinghouse with Philip Lange

1888 Oliver Shallenberger at Westinghouse develops a meter that is close
to the modern watt hour meter and sets the new standard.

1890 Only 5% of US homes were equipped with electricity. Arc lamps for
public street lighting and trolleys were the most profitable employment of the
technology. The AC revolution of the 1890s would change that.

1892 J.A. Fleming starts work on what would become the vacuum tube in the 1900s.

1890s Elihu Thomson continues to improve electric meters. Thomson has been working with AC power since the 1870s and has more experience in the area than most people around at the time.

1890s The IEC – International Electrical Congress creates standards for measurement of electricity

1896 William Stanley develops a static ground detection meter. This method is still used today to help ground vehicles and facilities as a measure of safety.

This timeline was created by the Edison Tech Center, report copyright infringement by content strippers who target timelines like this.

1916 High Voltage Measurement: Chubb and others develop meters that use predecessors to vacuum tubes and make the first somewhat accurate ways to measure this dangerous and difficult form of power. Before this point they used the crude method of measuring the distance an electric arc could travel through air or a tube to figure out the high voltage.

1922 E.B. Moullin create the first real vacuum tube voltmeters using improved triodes.

1930 The IEC establishes more standard electrical units including: Hertz, Oersted, Gauss, Maxell, Gilbert, Var, and the Weber

1957 Rosewell Gilbert (of Weston) developed the dual slope analog-to-digital conversion circuit was developed and allowed for stable noise-reduced measurement by digital means.

1970s Digital multimeters begin to appear as the cost of solid state devices drops

1970s Vacuum tube meters finally kill off moving coil galvanometers which were still in use by large companies. Many employees take the older meters home and these enter collections including the Edison Tech Center’s collection later on.

1990s Digital multimeters outnumber tube-based or magnetic multimeters

2000s Digital multimeters are produced by many companies, some reach prices as low as 90 cents per meter while others made by Fluke or Milwaukee have a higher standard of quality and reliability and fetch prices in the hundreds of dollars.

3.) Major innovators of the electric meter:

Thomas Edison

Oliver B. Shallenberger – developed the watt-hour meter in 1888
– IEEE
page on Shallenberger
– Personal
letter about Shallenberger

Oliver B. Shallenberger – developed the watt-hour meter in 1888

William
Stanley
Elihu Thomson
V. K. Zworykin
– developed the modern oscilloscope 1931. (also invented the high-vacuum
cathode ray tube)

Related Topics:

Power Transmission

Lightning
Arrestors

Transformers

Sources:
George Westinghouse: Gentile Genius. by Quentin R. Skrabec
Almost Edison, How William Sawyer and Others Lost the Race to Electrification. 2006. Donald Scott McPartland
Interview EW Rice with Elihu Thomson. June 21,1932
Interview with Historian Tom
Blalock. Edison Tech Center. 2014
Georgia State University
IEEE
Encyclopedia Britannica
Centron

Photos:
Edison Tech Center
Schenectady Museum Hall of History

Universe of Instrumentation