Ferdinand Berthoud Chronomètre FB 3SPC


Ferdinand Berthoud Chronomètre FB 3SPC

Chronomètre FB 3SPC

Ferdinand Berthoud remaps the hairspring
La Cote des Montres - September 12th, 2023

In October 2022, Chronométrie Ferdinand Berthoud unveiled the Chronomètre FB 3SPC, the third pillar of its collections inspired by and following in the tradition of the famed 18th-century watchmaker for whom the brand was named. The FB 3SPC incorporates key elements of marine chronometers such as those produced by the historical atelier of Ferdinand Berthoud, one of those elements being the cylindrical hairspring.

Cylindrical hairsprings, as opposed to the more familiar flat spiral hairsprings, are particularly associated with the precision timekeepers used in marine exploration, due to their greater stability and isochronism. However, their use is not well adapted to wristwatches since their size and form can introduce chronometric error when the watch is in the vertical position. Chronométrie Ferdinand Berthoud undertook three years of research and development to create the FB 3SPC, the first and only wristwatch with a cylindrical hairspring that has been officially certified as a chronometer by the Contrôle Officiel Suisse des Chronomètres (COSC). In doing so, Chronométrie Ferdinand Berthoud opened up a new frontier of knowledge, as the marine explorers of bygone centuries did when they relied on fine chronometric instruments to guide their journeys to uncharted worlds.

Decimal watch no. 26, Louis Berthoud, 1793

Ex Libris
Ferdinand Berthoud

(From the library of Ferdinand Berthoud — an archival inspiration)  

The origins of the Chronomètre FB 3SPC lie in the No. 26 decimal watch made in 1793 by Louis Berthoud, Ferdinand Berthoud’s nephew and successor. This was a high-precision pocket chronometer with a cylindrical hairspring, a feature highly appreciated and championed by Louis Berthoud, who frequently implemented it in the timepieces that he personally considered as his best creations.

One of the principal factors determining the ability of a hairspring to measure time precisely is how it develops — or “breathes” — when energy is supplied to it via the movement gear train. A hairspring that develops concentrically, maintaining the same centre of gravity throughout its period of oscillation, is more mechanically stable, subject to fewer perturbing forces while in operation, and therefore more reliable. A hairspring that develops irregularly, with inconsistent spacing between its coils or with uneven expansion and contraction patterns, leads to a shifting centre of gravity. This, in its turn, introduces friction at the balance pivots, disrupting the overall chronometric ability of the watch, especially when the mainspring barrel is near the end of its power reserve and the balance exhibits low amplitude.

Due to its form, which consists of a series of diametrically congruent coils, a cylindrical (or helical) hairspring has far greater potential to develop concentrically than a flat spiral hairspring. It was established horological knowledge, however, that this was only true in the horizontal position, when the axis of the cylindrical hairspring was perpendicular to the ground. In the vertical position, the increased mass of a cylindrical hairspring compared to a flat spiral hairspring could theoretically multiply the rate of chronometric error. In a practical sense, this meant that cylindrical hairsprings were unsuitable for use in wristwatches, since their chronometric advantage would only be manifested if the watch was always kept in the horizontal position.

At Chronométrie Ferdinand Berthoud, this was not seen as a dead-end conclusion, but as a portal that opened onto an unknown land, ripe for exploration. President and founder of Chronométrie Ferdinand Berthoud, Karl-Friedrich Scheufele recalls: “Initially, we were told that it would be impossible to achieve chronometer certification with a cylindrical hairspring. That was all the impetus we needed to rise to the challenge.”

The three main escapement organs: cylindrical balance-spring, pallet-lever and escape-wheel

Hic Sunt Leones

(Here be lions — proceed with care)  

Mechanical horology is a métier that has existed for half a millennium, and there are established standards and processes for almost every aspect of watchmaking knowledge. Libraries of data and analyses are available on any subject conceivable, even esoteric areas such as the optimal chemical composition of hairsprings or the thermal expansion coefficients of various alloys.

In all this wealth of information, the one topic that remained dark, an unmapped terrain that confounded the research and development team at Chronométrie Ferdinand Berthoud, was the question of how to adapt a cylindrical hairspring for a wristwatch. When traveling to unknown lands, one must be on the lookout for hidden perils and unexpected pitfalls. The team knew that the geometry of the hairspring itself was the most important part of the equation that would result in a chronometer-certified wristwatch with cylindrical hairspring, but everything else was a mystery. The watchmakers and engineers of Chronométrie Ferdinand Berthoud went through an unlit and unfamiliar tunnel that might lead out into the sun, into a lion’s den, or perhaps nowhere at all.

The first tests at Chronométrie Ferdinand Berthoud were conducted with a cylindrical hairspring with purpose-designed terminal curves, though not yet assembled within a movement. The isolated hairspring performed according to all expectations, but once the hairspring was pinned to its collet in preparation to mount it within the movement, the team noticed that the hairspring exhibited a tendency to “breathe” asymmetrically — a response to the additional mass of the pin and collet. The obvious solution was to reduce the weight of the collet and re-centre the hairspring’s centre of gravity.

As in a carefully balanced mathematical formula, changing one variable involves adjusting the others as well. Reducing the weight of the collet necessitated redesigning the terminal curves. This changed the inner attachment point of the hairspring, which in turn required a re-engineering of the collet profile itself, so that both the inner and outer attachment points of the hairspring maintained the correct angular displacement in relation to each other.

The cylindrical hairspring is the result of a carefully balanced mathematical formula
All in all, over three years of careful study and experimentation with hairspring geometry were needed; three years of simulating hairspring terminal curves and building a solid foundation on which to base the new Chronomètre FB 3SPC. A new horological land awaited.

Terra Nova,
Terra Incognita

(A new, unknown land — creating the first maps)  

With the FB 3SPC, the research and development team at Chronométrie Ferdinand Berthoud were obliged to start with a blank slate, given the scarcity of established studies in the area of regulating cylindrical hairsprings. Taking cues from Ferdinand Berthoud himself, whose horological experiments and assays were a key part of his work, the Chronométrie Ferdinand Berthoud team adopted the scientific method: hypothesis, testing and iterative refinement.

Creating a roadmap that shows how to obtain COSC certification for a wristwatch movement with cylindrical hairspring requires deliberate and meticulous steps. As there is no textbook on adjusting a cylindrical hairspring and balance, each completed FB 3SPC requires a master’s touch, a master’s perspective, and a master’s experience. The ultimate aim is perfection: in mechanical construction, in energy equilibrium, and in chronometric performance.

The results have spoken for themselves. As of 2023, every single movement created for the Chronomètre FB 3SPC has individually achieved COSC certification. On average, the COSC-tested movements exhibit a daily rate of 2.08 seconds per day, falling within the optimal middle zone of the COSC-mandated margins of -4 to +6 seconds per day. On an individual basis, the daily variation for 80 per cent of tested movements is between -1 and +3 seconds per day, exceeding COSC precision standards by a factor of 2.5.

The Chronomètre FB 3SPC is a glorious tribute to the patrimony and spirit of the eponymous watchmaker, both in embodying the principles of precision horology and in expanding the world of mechanical knowledge.

About Chronométrie
Ferdinand Berthoud


Ferdinand Berthoud (1727 - 1807), Master Clockmaker-Mechanic by appointment to the French King and Navy, member of the Royal Society in London and the French Academy of Sciences, as well as author of numerous reference works on horology, is renowned for the design and production of Marine Clocks. Their accuracy made it possible to calculate longitude at sea and thus encouraged the development of scientific expeditions during the Age of Enlightenment.

On the initiative of Karl-Friedrich Scheufele, Chronométrie Ferdinand Berthoud – located in Ferdinand Berthoud’s native Swiss Val-de-Travers region – transposes the quest for precision initiated by the master horologist into contemporary watchmaking language.

The design of these timepieces is inspired by the Longitude Clocks and other original creations of the master chronometer-maker. Their original movements resulting from many years of research and development combine traditional expertise with cutting-edge technology and COSC-certified chronometric precision.

The first collection resulting from this work, Chronomètre FB 1, was launched in 2015. It is based on a movement with a unique pillar-type structure, driven by a “constant force” fusee-and-chain mechanism with tourbillon and central seconds, all housed within a contemporary octagonal case.

Chronomètre FB 2 unveiled in 2020 offers a more traditional approach. Its round case is equipped with a fusee-and-chain movement incorporating a remontoire mechanism driving a natural deadbeat seconds display in the dial centre.

Chronomètre FB 3 was presented in 2022. Powered by a mechanical movement with a cylindrical balance-spring, it is the only one of its kind to be awarded “chronometer” certification by the COSC. The slimness of its 42 mm case inspired by 19th century pocket watches enables one to appreciate the movement geometry designed to highlight the regulating organ.

Only a few dozen of these timepieces are made each year. They are entirely designed, crafted and decorated by hand before being adjusted and checked – all in accordance with the most demanding quality criteria – within Chronométrie Ferdinand Berthoud’s workshops in Fleurier (Switzerland).