Breguet contributes to the improvement of watchmaking principles, which he was already known for, and develops an abundance of innovations. His first major break-through is the creation of the self-winding watch, or perpetuelle. A short time later, he invents the gong-springs, creates its own aesthetic codes, which include the first engine-turned dials (guilloche), innovates with the terminal curve spring or Breguet balance spring, and launches the one hand subscription watch.
The balance spring gives time rhythm and sets its rate – the key to a watch’s precision.
The balance-spring is a small spring which through its elasticity regulates the oscillations of the balance. It is attached at its inner extremity to the axis of the balance and at its outer extremity to the cock. The flat balance spring, invented by the Dutch mathematician Huygens in 1675, had established a degree of isochronism which still left something to be desired. The flat balance-spring was made of copper or iron and had only a few coils. Though imperfect, it gave the balance what it needed to become as accurate as the pendulum of a clock.
In 1795 Abraham-Louis Breguet solved the problem by upraising the spring’s last coil and reducing its curvature, to ensure the concentric development of the balance-spring.
Thus endowed with the "Breguet overcoil", the balance spring henceforth became concentric in form. Watches gained in precision, and the balance-staff erode less quickly. Breguet also perfected a bimetallic compensation bar in order to cancel out the effects of changes in temperature on the balance spring.
The breguet balance spring was adopted by all the great watchmaking firms, who continue to use it to this day for high precision pieces. Between 1880 and 1910, many manufacturers inscribed the words "Spiral Breguet" or "Breguet overcoil" in large letters on the cuvettes of their watches.
In 2006, Breguet introduced its first wristwatches with silicon balance spring and escapement. It combines the advantages and qualities of the earlier experiments. Silicon also possesses advantages of its own.
Silicon is totally impervious to magnetic fields, lighter than metal and thus less prone to deformation caused by the pull of gravity. Silicon also provides far superior resistance to corrosion and is less vulnerable to shocks. Moreover, components fashioned from silicon are subjected to a special process that greatly improves their resistance to handling and shocks.
After several years of service in various watch movements, Breguet can report satisfactory results with flat silicon balance springs. The next step was to turn out silicon balance springs featuring the celebrated "Breguet" terminal curve.
Actually putting a curve into a sliver of silicon represented no mean exploit in the world of watchmaking. Getting silicon, devoid of the malleability of metal, to form a bend rising up from the coil required a complete rethinking of the production process, a technical challenge brilliantly mastered by Breguet technicians.
The innovative spirit of the Breguet brand has contributed to a number of inventions that have improved time measurement.
The Classique Chronométrie, for instance, equipped with twin 180° symmetrically deploying balance springs, thereby balancing out their respective forces exercised on the balance-staff as well as contributing to the stability of the oscillator and hence to improved timing precision.
These technical achievements, made possible by silicon, considerably improve the regulating performance of the watch.
The result is a regulating power equivalent to around 830 microwatts, an achievement when one considers that the regulating capacity of the best chronometers is between 300 and 400 microwatts.