Studio Monitor with 4" (10cm) Flax Cone, 1" (25mm) 'M' profile Aluminum-Magnesium and XLR, TRS, RCA connectors
THE COMPACT FUNCTIONALITY Shape 40 is the most compact studio monitor in the Focal Professional line, and the perfect solution for nearfield monitoring. These monitors can be used from 23"³ away (60cm), and they have astonishingly extended low end frequency response. Whether you have a room of less than 107ft2(10m2), or an installation where compactness is paramount, Shape 40 is the perfect solution.
The three monitors are all made in France and integrate five innovations to maximize acoustic transparency. Designed to meet the needs of nearfield monitoring, Shape monitors combine an ingenuous design and numerous settings optimized for the acoustics of small listening rooms.
These innovations provide remarkable acoustic transparency. These new work tools distinguish themselves through the wide and extremely precise stereo image. The bass register is articulated and controlled. The lower mid-range and mid-range benefit from extreme neutrality, and without any masking effects, making equalisation of these essential registers much easier. Finally, the new tweeter is what's at the source of the very high definition. It efficiently reveals any hissing, and it's also very precise in the very high end.
Tweeter with very low directivity for a flexible listening position
Designed without a port, but with a double passive radiator, allowing it to be placed near a wall.
Numerous settings for optimal integration
Accurate control, even in the very high end
Flax sandwich cone: controlled and well defined bass, natural and detailed lower mid-range and upper mid-range ranges.
Mounting mechanisms present on the back and underneath the loudspeaker: for installing on a table stand, a microphone stand, the ceiling or a wall (mounting accessories not supplied).
THE 'M' SHAPE OF THE INVERTED DOME HAS TWO MAJOR ADVANTAGES : Its directivity is even less that of the inverted dome tweeter, allowing for more flexibility in terms of listening position. Mechanically speaking, the 'M' shape gives the dome much more rigidity, while reducing distortion even more. The PoronÂ® suspension provides a more linear frequency response curve below 6kHz, improving crossover with the woofer.
The magnetic component has also been optimized thanks to a voice coil with a KaptonÂ® frame which significantly reduces the Foucault current, and consequently, distortion. Finally, the horn housing the tweeter has been designed to provide equal horizontal and vertical directivity.
FLAX SANDWICH CONE Made in France but affordable, Flax cones are oriented towards acoustic performance, high-tech and give an original design to the brand's speaker drivers! After more than five years of research and development, engineers at Focal reveal in 2013 a new cone made of high-quality flax fibers. F cone are characterized by their natural sound, with low coloration, their richness of reproduction in the midrange register and their tighter bass.
THE UNIQUE QUALITIES OF FLAX F cones are made of high-quality flax fibers core enclosed by two thin layers of glass fiber. They satisfy the key criteria of a high performance diaphragm : high internal damping, high velocity of sound and high flexural rigidity.
Rigidity All these criteria cannot be met by a mono-material cone. Sandwich technology greatly influences the neutrality of the sound produced by the cone, something, which has always been Focal's hallmark. The expertise gained from the sandwich technology of the Utopia and K2 Power ranges enabled Focal to develop a revolutionary flax-fiber cone conciliating the 3 criteria.
Lightness Flax is twice as light as fiberglass, because the fiber is hollow. It also has very low elasticity which makes it ideal to increase the flexural rigidity of a sandwich structure. Moreover, it can be obtained in non-woven bundles of considerable diameter and it can therefore produce the thickness required for a sandwich.
Internal damping Composite materials have properties suitable for applications where both rigidity and low mass are required. However, their disadvantage is that they lack damping, which leads to very poor control of vibrations. Recent developments in this field combining composites and natural fibers have brought unexpected opportunities. Flax fiber has an excellent internal damping of the same order of magnitude as the glass or KevlarÂ® fibers or aluminum.