with a mechanical 1/6s "sweep" movement, while the right one has a more common 12-hour dial and a "1s"
quartz movement. , showing its movement. , it is the first transparent watch, c. 1890. The movement is fitted with a cylinder escapement. The
movement of a watch is the mechanism that measures the passage of time and displays the current time (and possibly other information including date, month, and day). Movements may be entirely mechanical, entirely electronic (potentially with no moving parts), or they might be a blend of both. Most watches intended mainly for timekeeping today have electronic movements, with mechanical hands on the
watch face indicating the time.
Mechanical Compared to electronic movements, mechanical watches are less accurate, often with errors of seconds per day; are sensitive to position, temperature, and magnetism; are costly to produce; require regular maintenance and adjustments; and are more prone to failures. Nevertheless, mechanical watches attract interest from consumers, particularly among watch collectors.
Skeleton watches are designed to display the mechanism for aesthetic purposes. A mechanical movement uses an
escapement mechanism to control and limit the unwinding and winding parts of a spring, converting what would otherwise be a simple unwinding into a controlled and periodic energy release. The movement also uses a
balance wheel, together with the
balance spring (also known as a hairspring), to control the gear system's motion in a manner analogous to the
pendulum of a
pendulum clock. The
tourbillon, an optional part for mechanical movements, is a rotating frame for the escapement, used to cancel out or reduce
gravitational bias. Due to the complexity of designing a tourbillon, they are expensive, and typically found in prestigious watches. The
pin-lever escapement (called the Roskopf movement after its inventor,
Georges Frederic Roskopf), which is a cheaper version of the fully levered movement, was manufactured in huge quantities by many Swiss manufacturers, as well as by
Timex, until it was replaced by quartz movements. Introduced by
Bulova in 1960,
tuning-fork watches use a type of electromechanical movement with a precise frequency (most often ) to drive a mechanical watch. The task of converting electronically pulsed fork vibration into rotary movements is done via two tiny jeweled fingers, called pawls. Tuning-fork watches were rendered obsolete when electronic quartz watches were developed. Traditional mechanical watch movements use a spiral spring called a
mainspring as its power source that must be rewound periodically by the user by turning the watch crown. Antique pocket watches were wound by inserting a key into the back of the watch and turning it. While most modern watches are designed to run on a winding, requiring winding daily, some run for several days; a few have 192-hour mainsprings, requiring once-weekly winding. Some mechanical watches are wound by the movement of the wearer's wrist. A small weight rotates freely as the wrist changes position, thus mechanically winding the watch. If the watch is not worn for a few days, it will run out of power and need to be manually wound.
Automatic watches : An eccentric weight, called a rotor, swings with the movement of the wearer's body and winds the spring. Automatic watch A
self-winding or
automatic watch is one that rewinds the mainspring of a mechanical movement by the natural motions of the wearer's body. The first self-winding mechanism was invented for pocket watches in 1770 by Abraham-Louis Perrelet, but the first "
self-winding", or "automatic", wristwatch was the invention of a British watch repairer named
John Harwood in 1923. This type of watch winds itself without requiring any special action by the wearer. It uses an eccentric weight, called a winding rotor, which rotates with the movement of the wearer's wrist. The back-and-forth motion of the winding rotor couples to a
ratchet to wind the mainspring automatically. Self-winding watches usually can also be wound manually to keep them running when not worn or if the wearer's wrist motions are inadequate to keep the watch wound. In April 2013, the
Swatch Group launched the
sistem51 wristwatch. It has a mechanical movement consisting of only 51 parts, including 19
jewels and a novel self-winding mechanism with a transparent oscillating weight. Ten years after its introduction, it is still the only mechanical movement manufactured entirely on a fully automated assembly line, including adjustment of the balance wheel and the escapement for accuracy by
laser. The low parts count and the fully automated assembly make it an inexpensive automatic Swiss watch.
Electronic Electronic movements, also known as quartz movements, have few or no moving parts, except a
quartz crystal which is made to vibrate by the
piezoelectric effect. A varying electric voltage is applied to the crystal, which responds by changing its shape so, in combination with some electronic components, it functions as an
oscillator. It
resonates at a specific highly stable frequency, which is used to accurately pace a timekeeping mechanism. Most quartz movements are primarily electronic but are geared to drive mechanical hands on the face of the watch to provide a traditional analog display of the time, a feature most consumers still prefer. In 1959
Seiko placed an order with
Epson (a subsidiary company of Seiko and the 'brain' behind the quartz revolution) to start developing a quartz wristwatch. The project was codenamed 59A. By the
1964 Tokyo Summer Olympics, Seiko had a working prototype of a portable quartz watch which was used as the time measurements throughout the event. The first prototypes of an electronic quartz wristwatch (not just quartz watches as the Seiko timekeeping devices at the Tokyo Olympics in 1964) were made by the CEH research laboratory in
Neuchâtel, Switzerland. From 1965 through 1967 pioneering development work was done on a miniaturized 8192 Hz quartz oscillator, a thermo-compensation module, and an in-house-made, dedicated integrated circuit (unlike the hybrid circuits used in the later Seiko Astron wristwatch). As a result, the BETA 1 prototype set new timekeeping performance records at the International Chronometric Competition held at the
Observatory of Neuchâtel in 1967. In 1970, 18 manufacturers exhibited production versions of the beta 21 wristwatch, including the
Omega Electroquartz as well as
Patek Philippe,
Rolex Oysterquartz and
Piaget. , 1969 (Deutsches Uhrenmuseum, Inv. 2010-006) The first quartz watch to enter production was the
Seiko 35 SQ Astron, which hit the shelves on 25 December 1969, swiftly followed by the Swiss Beta 21, and then a year later the prototype of one of the world's most accurate wristwatches to date: the
Omega Marine Chronometer. Since the technology having been developed by contributions from Japanese, American and Swiss, nobody could patent the whole movement of the quartz wristwatch, thus allowing other manufacturers to participate in the rapid growth and development of the quartz watch market. This ended – in less than a decade – almost 100 years of dominance by the mechanical wristwatch legacy. Modern quartz movements are produced in very large quantities, and even the cheapest wristwatches typically have quartz movements. Whereas mechanical movements can typically be off by several seconds a day, an inexpensive quartz movement in a child's wristwatch may still be accurate to within half a second per day – ten times more accurate than a mechanical movement. After a consolidation of the mechanical watch industry in Switzerland during the 1970s, mass production of quartz wristwatches took off under the leadership of the
Swatch Group of companies, a Swiss conglomerate with vertical control of the production of Swiss watches and related products. For quartz wristwatches, subsidiaries of Swatch manufacture
watch batteries (
Renata), oscillators (
Oscilloquartz, now Micro Crystal AG) and integrated circuits (Ebauches Electronic SA, renamed
EM Microelectronic-Marin). The launch of the new
SWATCH brand in 1983 was marked by bold new styling, design, and marketing. Today, the Swatch Group maintains its position as the world's largest watch company.
Seiko's efforts to combine the quartz and mechanical movements bore fruit after 20 years of research, leading to the introduction of the Seiko
Spring Drive, first in a limited domestic market production in 1999 and to the world in September 2005. The Spring Drive keeps time within quartz standards without the use of a battery, using a traditional mechanical gear train powered by a spring, without the need for a balance wheel either. In 2010,
Miyota (
Citizen Watch) of
Japan introduced a newly developed movement that uses a 3-pronged quartz crystal that was exclusively produced for
Bulova to be used in the Precisionist or Accutron II line, a new type of quartz watch with ultra-high frequency (262.144 kHz) which is claimed to be accurate to +/− 10 seconds a year and has a smooth sweeping second hand rather than one that jumps each second. wristwatch,
Junghans Mega (analog model) Radio time signal watches are a type of electronic quartz watch that synchronizes (
time transfers) its time with an external
time source such as in
atomic clocks, time signals from
GPS navigation satellites, the German
DCF77 signal in Europe,
WWVB in the US, and others. Movements of this type may, among others, synchronize the time of day and the date, the
leap-year status and the state of
daylight saving time (on or off). However, other than the radio receiver, these watches are normal quartz watches in all other aspects. Electronic watches require electricity as a power source, and some mechanical movements and hybrid electronic-mechanical movements also require electricity. Usually, the electricity is provided by a replaceable
battery. The first use of electrical power in watches was as a substitute for the mainspring, to remove the need for winding. The first electrically powered watch, the Hamilton Electric 500, was released in 1957 by the
Hamilton Watch Company of
Lancaster, Pennsylvania. Watch batteries (strictly speaking cells, as a battery is composed of multiple cells) are specially designed for their purpose. They are very small and provide tiny amounts of power continuously for very long periods (several years or more). In most cases, replacing the battery requires a trip to a watch-repair shop or watch dealer; this is especially true for watches that are water-resistant, as special tools and procedures are required for the watch to remain water-resistant after battery replacement. Silver-oxide and lithium batteries are popular today; mercury batteries, formerly quite common, are no longer used, for environmental reasons. Cheap batteries may be alkaline, of the same size as silver-oxide cells but providing shorter life. Rechargeable batteries are used in some
solar-powered watches. Some electronic watches are powered by the movement of the wearer. For instance, Seiko's
kinetic-powered quartz watches use the motion of the wearer's arm: turning a rotating weight which causes a tiny
generator to supply power to charge a rechargeable battery that runs the watch. The concept is similar to that of self-winding spring movements, except that electrical power is generated instead of mechanical spring tension.
Solar powered watches are powered by light. A
photovoltaic cell on the face (
dial) of the watch converts light to electricity, which is used to charge a
rechargeable battery or
capacitor. The movement of the watch draws its power from the rechargeable battery or capacitor. As long as the watch is regularly exposed to fairly strong light (such as sunlight), it never needs a battery replacement. Some models need only a few minutes of sunlight to provide weeks of energy (as in the Citizen
Eco-Drive). Some of the early solar watches of the 1970s had innovative and unique designs to accommodate the array of solar cells needed to power them (Synchronar, Nepro, Sicura, and some models by Cristalonic,
Alba, Seiko, and Citizen). As the decades progressed and the efficiency of the solar cells increased while the power requirements of the movement and display decreased, solar watches began to be designed to look like other conventional watches. A rarely used power source is the temperature difference between the wearer's arm and the surrounding environment (as applied in the
Citizen Eco-Drive Thermo). == Display ==