Telephone Instrument for communicating by voice over long distances were invented
by US inventor Alexander Graham Bell 1876. The transmitter (mouthpiece) consists
of a carbon micro-phone, with a diaphragm that vibrates when a person speaks
into it. The diaphragm vibrations compress grains of carbon to a greater or
lesser extent, altering their resistance to an electric current passing through
them. This sets up variable electrical signals, which travel along the telephone
lines to the receiver of the person being called. There they cause the magnetism
of an electromagnet to vary, making a diaphragm above the electromagnet vibrate
and give out sound waves, which mirror those that entered the mouthpiece originally. n4g13gs
The Microphone Primary is a component in a sound-reproducing system, whereby
the mechanical energy of sound waves is converted into electrical signals by
means of a transducer. One of the simplest is the telephone receiver mouthpiece,
invented by Scottish-US inventor Alexander Graham Bell in 1876; other types
of microphone are used with broadcasting and sound-film apparatus.
Telephones have a carbon microphone, which reproduces only a narrow range of
frequencies. For live music, a moving-coil microphone is often used. In it,
a diaphragm that vibrates with sound waves moves a coil through a magnetic field,
thus generating an electric current. The ribbon microphone combines the diaphragm
and coil. The condenser microphone is most commonly used in recording and works
by a capacitor.
Telecommunications and Communications over a distance is generally made by electronic
means.
Long-distance voice communication was pioneered 1876 by Scottish scientist Alexander
Graham Bell when he invented the telephone. Today it is possible to communicate
with most countries by telephone cable, or by satellite or microwave link, with
over 100,000 simultaneous conversations and several television channels being
carried by the latest satellites. Integrated-Services Digital Network (ISDN)
makes videophones and high-quality fax possible; the world's first large-scale
center of ISDN began operating in Japan 1988. ISDN is a system that transmits
voice and image data on a single transmission line by changing them into digital
signals. The chief method of relaying long-distance calls on land is microwave
radio transmission.
The first mechanical telecomunications systems were the semaphore and heliograph
(using flashes of sunlight), invented in the mid-19th century, but the forerunner
of the present telecommunications age was the electric telegraph. The earliest
practicable telegraph instrument was invented by William Cooke and Charles Wheatstone
in Britain 1837 and used by railroad companies. In the US, Samuel Morse invented
a signaling code, Morse code , which is still used, and a recording telegraph,
first used commercially between England and France 1851. Following German physicist
Heinrich Hertz's discoveries using electromagnetic waves, Italian inventor Guglielmo
Marconi pioneered a `wireless' telegraph, ancestor of the radio. He established
wireless communication between England and France 1899 and across the Atlantic
1901. The modern telegraph uses teleprinters to send coded messages along telecommunications
lines. Telegraphs are keyboard-operated machines that transmit a five-unit Baudot
code. The receiving teleprinter automatically prints the received message.
The drawback to long-distance voice communication via microwave radio transmission
is that the transmissions follow a straight line from tower to tower, so that
over the sea the system becomes impracticable. A solution was put forward 1945
by the science-fiction writer Arthur C Clarke, when he proposed a system of
communications satellites in an orbit 35,900 km/22,300 mi above the equator,
where they would circle the Earth in exactly 24 hours, and thus appear fixed
in the sky. Such a system is now in operation internationally, by Intelsat .
The satellites are called geostationary satellites (syncoms). The first to be
successfully launched, by Delta rocket from Cape Canaveral, was Syncom 2 in
July 1963. Many such satellites are now in use, concentrated over heavy traffic
areas such as the Atlantic, Indian, and Pacific oceans. Telegraphy, telephony,
and television transmissions are carried simultaneously by high-frequency radio
waves. They are beamed to the satellites from large dish antennae or Earth stations,
which connect with international networks. Recent advances include the use of
fiber-optic cables consisting of fine fiberglass for telephone lines instead
of the usual copper cables. The telecommunications signals are transmitted along
the fibers on pulses of laser light. telecommunications Satellite dish. Geostationary communications satellites over
the Earth's equator which orbit in 24 hours permit connections between all points
on the Earth's surface to be made using such dishes. Satellite dishes are commonly
used by European households to receive television channels broadcast by satellite.