Created in the true spirit of OMEGA, the Globemaster houses the brand’s most advanced mechanical movement and features a design inspired by early Constellation models that represent horological expertise and OMEGA’s legacy of precision and outstanding performance. Each watch is certified through a series of independent tests – a revolutionary process that establishes a new quality standard in the watch industry.
OMEGA’s history influenced the Globemaster’s caseback, where a medallion has been stamped with an image of an observatory, representing the precision awards that the watchmaker received during the famous chronometer observatory trials.
Eight stars in the sky above the observatory symbolize the most important precision records that OMEGA set and, reflecting how the brand’s commitment to quality has endured, the stars also signify the eight METAS-certified criteria that a timepiece and its movement must pass in order to receive Master Chronometer status.
Two design features that define the Globemaster are also its dial, which is created in a style that watch collectors have long referred to as a pie-pan dial, and the “fluted” bezel, an element that has decorated several famous Constellation watches.In December of 2014, OMEGA held a press conference together with the Swiss Federal Institute of Metrology (METAS) to announce a new watch certification process that would become active in 2015. The Globemaster is the first watch to be tested and approved
according to this new process, which, in addition to measuring the performance of the watch in daily wearing conditions, ensures that it functions properly when exposed to strong magnetic fields up to 15,000 gauss. Any watch brand can submit its watches for these METAS-approved tests in order to receive Master Chronometer standing, a label that at once makes a statement about the quality of not only the mechanical movement but also of the watch itself.
Before the watch is exposed to the magnetic field and its performance is measured according to the criteria approved by METAS, the movement must pass the tests established by the Contrôle Officiel Suisse des Chronomètres (COSC). Along with their watch, customers will receive a certification card that includes an identification number which they can use to see how their watches performed on each test. This documentationis proof that the watch has been certified by METAS.
1999
The first practical new watch escapement to be invented in some 250 years, the Co-Axial escapement, was launched in the calibre 2500 .
2007
The OMEGA Co-Axial calibre 8500 was the first of the brand’s exclusive Co-Axial movements to be created in-house.
2008
The brand introduced the anti-magnetic silicon balance spring in its exclusive OMEGA Co-Axial calibres.
2013
The OMEGA Co-Axial calibre 8508 becomes known as the world’s first truly anti-magnetic mechanical movement.
2014
Anti-magnetic technology is industrialised and incorporated into mechanical movements for men’s and women’s watches, starting with the new OMEGA Master Co-Axial Calibre 8500.
2015
OMEGA introduces a series of eight tests certified by METAS that measure the precision of a watch and its movement during and after exposure to 15,000 gauss. Watches that pass the tests receive Master Chronometer standing.
The eight criteria that are measured during the certification process are:
1. AVERAGE DAILY PRECISION OF THE WATCH
This test runs over 4 days and checks the daily precision of the watch in real life wearing conditions. The watch is initially placed in six different positions and two alternating temperatures, then exposed to magnetism of 15,000 gauss, then demagnetized, then finally checked again in the same differing positions and temperatures. For each step, a photograph is taken of the watch and checked 24 hours later for accuracy against UTC time.
2. FUNCTION OF COSC-APPROVED MOVEMENT DURING EXPOSURE TO 15,000 GAUSS MAGNETIC FIELD
This test examines the movement of the watch only, placing it in two different positions, and subjecting it to a magnetic force of 15,000 gauss. During a time of 30 seconds in each position, the functioning of the movement is audibly checked using a microphone.
3. FUNCTION OF WATCH DURING EXPOSURE TO 15,000 GAUSS MAGNETIC FIELD
This test is similar to the second. On this occasion, instead of just the movement being tested, the entire watch is subjected to magnetic fields of 15,000 gauss, with the functioning being checked by way of audio. In today’s modern world, magnetism is all around us, in places such as tablets, phones, hairdryers and even the metallic clasps of women’s handbags. Mechanical watches without anti-magnetic innovation can suffer long-term effects in their accuracy when exposed to these magnetic fields.
4. DEVIATION OF DAILY PRECISION AFTER EXPOSURE TO 15,000 GAUSS MAGNETIC FIELD
This test works out the average deviation of the watch between day 2 and 3 of the first test. The result shows the daily precision of the watch before and after exposure to a magnetic field of 15,000 gauss.
5. WATER RESISTANCE
This test submerges the watch underwater, gradually applying more pressure up the point of the stated water resistance. For certain watches, it also goes beyond. This ensures that each watch is properly tested for underwater conditions.
6. POWER RESERVE
This test checks the power reserve of the watch by taking pictures at the beginning and end of the expected limit. Checking any deviation again, this proves that each watch functions accurately for its stated time. For wearers, it’s valuable to know that, even after a weekend on the bedside table, your watch will still be performing well.
7. DEVIATION OF RATE BETWEEN 100% AND 33% OF POWER RESERVE
This test puts the watch in six different positions, similar to each side of a dice. With the watch at full power, the watch spends 30 seconds in each position, with average precision recorded by way of audio . The power reserve is then reduced by two thirds and checked again, to ensure that precision is kept even when the watch is not at full power.
8. DEVIATION OF RATE IN SIX POSITIONS
This test is similar to the previous test, and checks for any deviation in the running time when the watch is placed in six different positions, similar again to each side of a dice. With 30 seconds in each position, the results are recorded through audio. By placing a watch in different positions, we can ensure a watch’s performance no matter what the wearer is doing, whether it’s sitting at a desk or actively playing sport.
3. PRODUCTS
CLASSIC DESIGN MEETS TECHNOLOGY OF THE FUTURE
Available in a wide range of materials including 18K Sedna™ gold, 18K yellow gold and stainless steel, the Globemaster will forever be recognised as the first Master Chronometer.
The 39 mm timepiece features the iconic pie-pan dial made famous by the Constellation models in 1952. The central hour, minute and seconds hands match the indexes, all of which are coated in Super-LumiNova – as are the hour and minute hands. There is also a date indication at 6 o’clock on the dial.
Surrounding the dial is a fluted bezel whose top ridges are smoothed, giving the Globemaster a unique look that ensures it will remain immediately identifiable for generations to come. The bezel on the stainless steel models are made of a hard metal
GMT 05:38 2016 Thursday ,16 June
OMEGA launches planet ocean deep black collectionGMT 13:23 2016 Sunday ,01 May
OMEGA has reopened its newly-designed flagship boutiqueMaintained and developed by Arabs Today Group SAL.
All rights reserved to Arab Today Media Group 2023 ©
Maintained and developed by Arabs Today Group SAL.
All rights reserved to Arab Today Media Group 2023 ©