If the Heuer Carrera Mikrograph 1/100
th Second Chronograph is to watchmaking what walking on the moon is to space history, then the TAG Heuer Mikrotimer Flying 1000 Concept Chronograph is the equivalent of the first manned landing on Mars.
In 1/1000th of a second… - Usain Bolt ran 1.2 centimeters while establishing his new 100 m world record of 9.58 seconds
- a cheetah at top speed travels 3 centimeters
- the Maglev train between Pudong International Airport and Shanghai travels 14 centimeters
- an Airbus 380 between Zurich and Singapore flies 24 centimeters
- a supersonic airplane breaking Mach 1 flies 33 centimeters
- a M16 bullet flies 97 centimeters
- Apollo 10 traveled 10 meters while establishing the fastest-ever speed for a manned craft in 1969
- the Earth rotates 29.8 meters around the Sun
- a fast neutron travels 10 kilometers
- light travels 300 kilometers
TAG Heuer:
Challenging the Fundamental Principles of Watchmaking
In recent years, TAG Heuer watchmasters and engineers have taken on a bold challenge: to completely rethink the way a mechanical watch generates, stores, transmits and regulates energy and displays time.
In 2004, it introduced the Monaco V4 Concept watch, the first belt-driven mechanical movement. In 2010, it unveiled the TAG Heuer Pendulum, the first mechanical watch regulated by magnetic fields instead of a hairspring and beating at 6Hz, the equivalent of 43,200 beats per hour, an exceptionally high frequency for mechanical watchmaking.
Now, taking the next step, TAG Heuer has broadened it research into spiral-based regulating systems. The result, an escapement developed together with Atokalpa and vibrating at the mind-blowing speed of 3,600,000 beats-per-hour — more than 3 times faster than the pistons of an F1 engine cranked to maximum speed — opens a new chapter in the glorious history of Swiss watchmaking, and reinforces TAG Heuer’s status as the absolute master of “Grande Complications” chronograph manufacturing.
The fastest mechanical regulating organ ever designed,
developed and engineered:
3,600,000 beats per hour!
As in racecar construction, the principal concern in chronograph engineering is precision, speed and readability. This is determined by the chronograph’s oscillating power and construction.
Traditionally, oscillators used in chronograph manufacturing beat at 3, 4 or 5Hz, which is the equivalent of 21,600, 28,800, 36,000 beats per hour respectively.
Both the TAG Heuer Calibre 360 launched in 2005 and The Heuer Carrera Mikrograph 1/100
th Second Chronograph launched in January 2011 are equipped with 50Hz oscillators – ten times faster than the fastest conventional ones. They are to this day the 1
st and only ever and have been commercialized since late 2005 for the former and mid 2011 for the later.
The Mikrotimer Flying 1000 Concept Chronograph pushes the concept even further, beyond what anyone dreamed possible — and past what everyone said was impossible. Using complex differential kinematics, TAG Heuer watchmasters and engineers have designed an ultra-high-frequency 500Hz spring oscillating system that vibrates a phenomenal 3,600,000 beats per hour, 125 times faster than most existing mechanical chronographs ever created and 10 times quicker than the former world-record holders TAG Heuer Calibre 360 and Heuer Carrera Mikrograph 1/100
th Second Chronograph.
The 100% TAG Heuer-built Mikrotimer Flying 1000 Concept Chronograph capitalizes on the construction of the integrated Heuer Carrera Mikrograph 1/100
th Second Chronograph and is equipped with two escapements:
Regular time: 4Hz, 28,800 beats per hour, 42-hour power reserve.
Ultra fast time: 500 Hz, 3,600,000 beats per hour.
It relies on an unprecedented 11 patents pending. The chronograph movement’s most remarkable innovations are:
- There is no balance wheel system (patent pending). Its absence de facto eliminates all forms of isochronous errors normally caused by this conventional watch movement component, such as dilatation and inertial imperfection.
- The mechanical regulating body, a high frequency 500Hz spiral (patent pending), developed together with Swiss watch component high-end manufacturer Atokalpa, is conceptually based on existing spirals but with an optimized rigidity and a reduced length. This gives static stability and extremely high dynamism with limited dilation. It also reduces gravity effects and shocks, while its low amplitude increases the isochronous precision of the pulse.
3) A dynamic lever/wheel transmission (patent pending) generates a hyper-velocity impulse unencumbered by pallet/teeth slippage: the lever literally rebounds on the wheel instead of sliding.
- Unlike the self-starting balance wheel-spiral systems usually found watches, the Mikrotimer Flying 1000 Concept Chronograph uses a Launcher-Hub-Brake system (patent pending) controlled by a column wheel and made possible because of the increased rigidity of the spiral. “START” activates the launcher by putting it in solid contact with the radial escapement. "STOP" radially pushes the launcher onto the hub, instantly stopping the movement of the spring.
Unique 2-Chain Architecture
Since 1969, the year TAG Heuer launched the world’s first automatic chronograph movement, coupling watch movement with chronograph function has become standard operation procedure. There is a serious “hitch”, however, with this isochronous system: its wheel chain gear system increases energy loss.
This is one of the greatest quandaries of chronograph design — how to keep chronograph operation from disrupting watch operation.
Then came the TAG Heuer Calibre 360 in March 2005 and the TAG Heuer Mikrograph 1/100
th of a second Chronograph in January 2011, which combined two independent kinematic chains — one for the watch and one for the chronograph — in an integrated movement for the Heuer CARRERA MIKROGRAPH 1/100
th Second Chronograph, thereby eliminating the need for a clutch. The system displays 1/100ths of a second on the central hand and beats at a very high frequency of 360,000 vibrations per hour. Separating the watch chain from the chronograph chain eliminates the risks of the chronograph influencing the watch and vice-versa; but most importantly, it reduces energy loss and optimizes the precision of the chronograph’s regulating organ. It allows the Heuer CARRERA MIKROGRAPH 1/100
th Second Chronograph to be COSC across the board — i.e. with the chronograph function running, a feat virtually impossible to achieve by conventional mono-frequency chronographs.
The Mikrotimer Flying 1000 Concept is an integrated chronograph using this same patent-pending two-chain architecture. The changes to the regulating body, however, make it 10 times more accurate than the Heuer Carrera Mikrograph 1/100
th Second Chronograph — and 125 times more accurate than the fastest “high-end” oscillators found in most existing mechanical chronographs.
Displaying 1,000th of a second effortlessly and at a glance
Creating a mechanical chronograph that measures 1/1,000
th of a second requires serious engineering. Making it easy to read — 10ths, 100ths, 1,000ths and minutes at a glance — requires even more.
The flying central hand of the Mikrotimer Flying 1000 makes an astounding 10 rotations per second, indicating 1/1000
th of a second and 1/100
th of a second on a scale on the external part of the dial, which has 100 graduations over 360°. A second, smaller central hand indicates minutes (TAG Heuer Patent pending) and 1/12
th of a minute on a 150-second scale. A counter at 6 o’clock displays 1/10
th of a second, calibrated to 5 seconds.
This unique dial-scale display system allows direct, instantaneous reading of minutes, seconds and 1/1,000
th , making this the only mechanical chronograph for sporting events like the Formula 1, where 1,000-of-a-second accuracy is essential. Above and beyond everything, it is one of the most stunning “Grande Complication” ever developed in mechanical watchmaking.
Stunningly beautiful, with its black Titanium Carbide coated case with titanium horns and the black ruthenium-treated movement inside, the Mikrotimer Flying 1000 is still in the Concept Stage. As was the case of the Monaco V4, further development will be needed to ensure the same over-time reliability and precision that have characterized every TAG Heuer masterpiece commercialized over the last 151 years.
Once again, TAG Heuer demonstrates in style its innovation leadership and unrivalled mastery of mechanical watchmaking at high, very-high and ultra-high frequencies. Now, this 95-year epic domination and the brand’s accumulated know-how have, for the first time ever, made possible the measuring and reading of the 1/1000
th of a second… with a mechanical chronograph.