Zenith, the iconic watch manufacture who introduced the Swiss watch industry’s first ever automatic chronograph El Primero in 1969, now presents a new innovation: The world’s most accurate mechanical watch equipped with a new oscillator that beats at 108,000 VpH (15 Hz)!
Zenith’s latest creation, the Defy Lab is the first and only mechanical watch embodying both an evolution and an improvement of the sprung balance principle presented in January 1675.Powering the Defy Lab is a highly exceptional self-winding mechanical
movement featuring a high precision, high beat oscillator that represents a major innovation in the watch industry since the 1675 invention of the balance and hairspring principle by scientist Christiaan Huygens.
Since 1675, the principle of the coupled balance and hairspring (sprung balance) that Christiaan Huygens presented to the French Royal Academy of Sciences in the form of a clock has remained unchallenged. While it has definitely been improved and is undoubtedly now optimised to the greatest possible extent, it has nonetheless never called into question as such, instead regarded as both timeless and invariable.
A new oscillator forming a monolithic whole, made of mono-crystalline silicon (with details finer than a human hair), replaces the sprung balance. The 30 or so components of a standard regulating organ (which requires assembly, adjustment, timing, testing and lubrication) are thus replaced by a single element measuring just 0.5 mm thick (compared with the usual 5 mm.)
This breathtaking development beats at the incredible frequency of 15 Hertz, with an amplitude of +/- 6 degrees, and is endowed with an almost 60-hour power reserve – more than 10% more than that of the El Primero – despite a three times higher frequency.
This frequency endows it with an exceptional – almost 10 times higher – degree of accuracy. Its mean daily rate is precise to within just 0.3 seconds. (By way of example, one of the criteria for COSC “chronometer” certification is the average daily rate on the first ten days of testing: from -4 seconds to +6 seconds, meaning up to 10 seconds per day).
Moreover, it remains accurate far beyond 24 hours of operation (the moment when mechanical watches begin to lose their energy and thus their accuracy). This new oscillator maintains the same degree of precision for 95% of its power reserve.
No need for oil: no more contact means no more friction or wear, and thus no need for lubrication.
Insensitivity to temperature gradients, gravity and magnetic fields eliminates the key weaknesses of the current balance-and-spring assemblies that are subject to deformation and/or dilatation, thereby leading to diminished precision.
Triple certification, including chronometer certification displayed by the viper’s head emblem awarded by Besançon Observatory, on behalf of the International Bureau of Weights and Measures. With regard to thermal behaviour, the spectrum of the ISO-3159 standard has been broadened: variations of around 0.3 seconds per day and per degree Celsius of deviation are certified, which is twice as good as the recommended figure. Finally, the watch meets the ISO-764 magnetic criteria, exceeding them by 18 times (for the completed watch), meaning it can withstand 88,000 Amperes per meter or 1,100 Gauss.
The first ten ZENITH Defy Lab watches (10 different versions, each is different) are sold in an exceptional collector’s gift box. All are already pre-sold. First watch with a case (44 mm in diameter) made from Aeronith, the world’s lightest aluminium composite material. This new material resembling an extremely solid metal foam was developed using an exclusive high-tech process and features a density of just 1.6 kg/dm3, which is 2.7 times lighter than titanium, 1.7 times lighter than aluminium and 10% lighter than carbon fibre.
In 1675, the Dutch astronomer, mathematician and physicist Christiaan Huygens demonstrated the principle of regulating time by means of a coupled balance and spring fitted inside a clock, a concept that still forms the basis of all current mechanical watches. This invention was partly based on the work of the learned mechanical scientist Ignace-Gaston Pardies, who corresponded with Newton. Pardies presented the theory of the isochronism of mechanical vibrations to the French Academy of Sciences in 1673, but unfortunately died before being able to publish his proofs. In 2017, a new scientific endeavour conducted by Guy Sémon challenges the principle invented by Christiaan Huygens 342 years earlier: namely the regulation of mechanical watches by means of a balance and hairspring assembly.
For the first time in the history of watchmaking, a technological breakthrough supersedes the Christian Huygens principle in terms of performance, aesthetic impact and simplicity.
The acknowledged champion of high-frequency chronographs, thanks to its fabled El Primero movement, the Zenith brand shifts up to ultra-high accuracy with the Defy Lab watch representing a true quantum leap in terms of performance and engineering.
Impressive key characteristics demonstrate the scope of this stunning development: an oscillator consisting of two components made of monocrystalline silicon, an unbelievable 15 Hz frequency with an amplitude of +/- 6 degrees, as well as a 60-hour power reserve, which is 10 percent more than that of the El Primero in spite of tripled frequency.
Moreover, the new Zenith Oscillator takes the form of a single piece without any mechanical linkages, instead of the customary 30 or so parts that require assembly, adjustment, setting, testing and lubrication.
With the Defy Lab, Zenith introduces a completely revamped movement called the ZO 342. This calibre measuring 32.8 mm in diameter and 8.13 mm thick reveals its distinctive nature at first glance: the barely 0.5 mm thick Zenith Oscillator appears beneath the dial.
Its functionality has been considerably optimized: the Zenith Oscillator is an all-of-a-piece organ without mechanical linkages that replaces the 30 or so ordinarily assembled, adjusted, regulated and controlled parts.
The absence of conventional mechanical couplings eliminates contact, friction, wear, slack, lubrication, assemblies and dispersions. The wheel replacing the escape wheel has a specific design and its cycle does not correspond to the traditional behaviour of a Swiss lever escapement. It is made of silicon showing superficial oxidation.
The Zenith Oscillator beats at a frequency of 15 Hz (108,000 vibrations per hour) frequency, three times higher than that of the historical El Primero movement, while enjoying a 10 percent higher power reserve. There is no sign of jerking and the permanent running seconds hand rotates smoothly around the dial. This simple comparison makes it possible to appreciate the improvement in energy consumption compared to a conventional balance & hairspring system. The amplitude is +/- 6 degrees, as against the more than 300 degrees of a conventional system.
The precision of the Defy Lab “naturally” meets the requirements of the ISO-3159 standard and in fact exceeds them. Never before in watchmaking history and in no chronometry contests has a serially produced mechanical watch ever attained such a degree of precision.
Isochronism in serial production amounts to +/- 0.5 seconds from 0 to 48 hours. By way of comparison, the best conventional serial-production systems show a variation in the range of +/- 2 seconds over just 24 hours. Beyond that, precision logically diminishes in accordance with a purely physical phenomenon. The precision of a sprung balance is dependent on its amplitude, which is not the case with the Zenith Oscillator technology.
The Defy Lab is a watch bearing the “viper’s head” emblem, meaning it is chronometer-certified by Besançon Observatory on behalf of the International Bureau of Weights and Measures.
The Zenith Oscillator is in the process of being certified as non-magnetic and meets high criteria in terms of temperature variations.
With regard to the thermal behaviour the LVMH Group Science Institute had to extend the spectrum of the ISO-3159 standard. Variations of around 0.3 seconds per day and per degree Celsius of deviation, which is twice as good as the standard recommends, are certified. This variance is also measured on the thermal spectrum -7°C to +53°C, whereas the standard is limited to +8°C to +38°C.
The watch obviously meets the magnetic criteria of ISO-764. It even exceeds them by nearly 18 times (the completed watch), that is to say 88,000 Amperes per meter or 1,100 Gauss. And there is no need for an extra inner case to achieve this.
Aeronith is a new material – for which a patent has been filed by Hublot’s R&D department under the supervision of its director Mathias Buttet–mainly distinguished by its lightness.
This characteristic is a nod to Zenith’s longstanding aeronautical tradition, notably featuring the first victorious Channel crossing by Louis Blériot in 1909 wearing a Zenith watch, as well as the extraordinary feat accomplished by Felix Baumgartner in 2012 – the highest human freefall jump from an altitude of 38,969 metres. In the process, he became the first man to cross the sound barrier in freefall, again with a Zenith watch on his wrist.
Thanks to its mastery of the Art of Fusion, Hublot has developed this material made of aluminium foam and a special polymer. The result is a new hybrid material (rather than an alloy) that is 2.7 times lighter than titanium, 1.7 times lighter than aluminium, and 10% lighter than carbon fibre.
The production process for this hybrid material involves cutting-edge technologies and begins with heating aluminium to melting point. Known for its use in naval applications, Alu 6082 has been chosen for its excellent corrosion resistance.
It is poured into a mould where a procedure internally developed by Hublot transforms it into an open-pore metal foam. These interspaces are then filled with an extremely light special polymer resistant to ultra-violet rays and anti-allergenic when in contact with the skin.
The resulting material is cooled and becomes extremely light and highly resistant, endowed with mechanical properties entirely suited to a watch case, while minimising its density and thus its weight. Its machining is as easy as with traditional precious metals.
The material used for the Zenith Oscillator is monocrystalline silicon coated with a layer of silicon oxide. The absence of conventional mechanical couplings in this system eliminates contact, friction, wear, slack, lubrication, assemblies and dispersions.
Less parts, made from pioneering materials and featuring cutting-edge technologies, deliver improved functionality, resulting in the most precise mechanical watch in history. The future of the watch industry is in the making. Like all major innovations, only 10 of these watches have been produced. Serial production is the next goal towards which the in-house teams are already working, notably with a view to creating a different and original design.
The Defy Lab watch is sold in the form of 10 exceptional gift boxes. Already pre-sold to collectors, Defy Lab is introduced in the form of 10 exceptional gift boxes to mark the event.
Model: DEFY LAB
10 unique pieces (each is different)
ZENITH OSCILLATOR (CALIBRE ZO 342)
Monolithic regulating organ (Zenith Oscillator) made out of Silicon
Diameter: 32.80 mm
Movement thickness: 8.13 mm
Frequency: 108,000 VpH (15 Hz)
Power-reserve: approx. 60 hours
Finishing: Oscillating weight adorned with “Côtes de Genève” motif
Hours, minutes and central seconds
Diameter: 44 mm
Opening diameter: 35.5 mm
Thickness: 14.5 mm
Crystal: Domed sapphire crystal with anti-reflective treatment on both sides
Case-back: Transparent sapphire crystal
Water-resistance: 5 ATM
Hour-markers: Rhodium-plated, faceted and coated with black varnish
Hands: Rhodium-plated, faceted and coated with black varnish
Black rubber with alligator leather coating
Titanium double folding clasp