Amadeus Philharmonia speakers now shipping
New high-end speakers co-designed by world-renowned architect Jean Nouvel are aimed at both the pro-audio and hi-fi markets.
French pro-audio manufacturer Amadeus, renowned for live, installed, and custom studio sound reinforcement systems, announced during the 38th edition of the Paris HI-FI Show on 17 and 18 October that their new ‘Philharmonia’ speakers are now shipping.
Unveiled as a ‘concept-speaker’ during the last Frankfurt Prolight + Sound and Munich High End Society trade shows, the Philharmonia is a very high definition monitoring system combining innovation and technology with style and a pristine sonic character. The new speakers were initially created specifically for the Philharmonie de Paris recording and mastering studios, which were built to capture performances by the world’s most prestigious symphonic orchestras. The new speakers were designed by Michel Deluc, Amadeus’ director of research & development, along with world-renown architect Jean Nouvel, who designed the new Philharmonie de Paris concert hall.
Bernard Byk (pictured, below), co-founder and CEO of Amadeus, says: “Imagine a reference sound system with exceptional design, ergonomics and acoustics, that for Amadeus is recognition that we have achieved the highest level of creative and technical collaboration in our company's history! Jean Nouvel’s imagination, exuberance and creative genius, combined with Michel Deluc’s engineering, brought a brilliant solution to life. Amadeus especially praises tradition, and the new speakers combine innovation as well as timeless beauty; christened ‘Philharmonia’, they embody the know-how, the creativity, and the values with which Amadeus has been building its history for more than 35 years.”
The Philharmonia features a curved structure that is both simple and complex, consisting of 547 wood veneers accurately machined and assembled, offering a distinctive look and volume. It features a unique hybrid laminar port using progressive termination. Deluc reveals: “The distinctive construction technique of Philharmonia helps neutralise standing waves affecting sonic clarity and low-frequency definition, through an extremely complex internal structure using a combination of interlocking panels arranged in two perpendicular planes, each hosting several tuned notch resonators.”
“This allows a dramatic decrease in sound coloration through a crossed structure of longitudinal and trans-verse reinforcements,” Deluc continues. “This proprietary technique is in part inspired by Amadeus-designed professional Mains monitoring systems used in large recording studios, the ‘crossed structure’ itself drawing on aircraft manufacturing processes, particularly wing design.”
Philharmonia was born from the prestigious legacy of Amadeus in the professional audio world over the last 25 years. The company’s users include the greatest sound engineers, mixers and producers in France and throughout the world.
Gaetan Byk, marketing manager at Amadeus, continues describing the genesis of the Philharmonia speakers: “This project, under the direction of Jean Nouvel, is the result of a unique collaboration between professionals with talents, sensitivities and careers, both original and complementary. They have achieved a stunning look as well as a transparent sound with Philharmonia. We have been pursuing this quest for the ultimate timbral neutrality, along with musicians, recording engineers and artists who use our products, for a very long time. The process of technological reflection at Amadeus was led by the needs and demands of the leading sound engineers who will work in the studios of the Philharmonie de Paris.”
Award-winning architect Jean Nouvel, who co-designed the Amadeus Philharmonia.
Opening on 14 January, 2015, the Philharmonie de Paris concert hall has already hosted the Berliner Philharmoniker, the Orchestre de Paris, the London Symphony Orchestra, the Royal Concertgebouw Orchestra of Amsterdam and the New York Philharmonic, among others. “Designed to record the major orchestras of the world, the studios within the Philharmonie de Paris concert hall were destined to have state-of-the-art reference loudspeakers,” adds Gaetan Byk.
The new Philharmonia two-way, self-powered speakers feature a 28mm soft-domed tweeter and a custom eight-inch woofer, and boast analogue and digital inputs with a customised integrated DAC and an amplitude linearity range (±2dB) from 43 Hz to 22 KHz. The high-frequency driver features very low dielectric losses and high thermal conductivity, loaded behind a fast exponential waveguide machined in wood, which yields exceptional control over spatial dispersion.
The cabinets are custom manufactured from layered birch and stand 1.6 metres tall, the casing contains the electronics inside the lower part of the speaker enclosure. Each speaker is comprised of 547 wood veneers, accurately machined, aligned and glued, yielding a look that’s both simple and complex, and yet timeless. Each speaker features a unique hybrid laminar port using progressive termination for reproducing low frequencies. Machined into the wood material along the full height of the speaker system, the very low velocity port yields optimal linearity for the lowest possible distortion.
When the Philharmonia speakers were unveiled at the Prolight + Sound expo in Frankfurt in April 2015 they received an enthusiastic response from top engineers, producers, and the press. On hearing a prototype of the new speakers for the first time, Thierry Coduys, a top recording engineer, musician and artist, recalls: “Experiencing the Philharmonia, perceiving their transparency, smoothness, and accuracy – and discovering or rediscovering musical masterpieces – is a unique, sensory and artistic experience.” He has worked with a diverse clientele of superstar classical composers including Karlheinz Stockhausen, Luciano Berio, Philip Glass, Steve Reich, Pascal Dusapin, and the performing duo Marielle and Katia Labéque, among many others.
Philharmonia is bi-amplified using two dedicated very high resonance digital custom-built amplifiers; each amp delivers 700 Watts under eight ohms. These proprietary PPM-PWM fixed frequency class-D amplifiers are equipped with a high-efficiency switched mode power supply. Each speaker channel is under control by a powerful, 64-bit digital processing unit capable of a 118 dB dynamic range. Each of these on-board DSP units include a module dedicated to managing core system parameters including system EQ, time alignment between sections, limiting, transducer thermal protection. This level of control makes Philharmonia fully protected and able to operate at the full extent of its abilities.
With line-level XLR analogue input, Philharmonia lets users choose their own DAC, while at the same time, given that digital-to-analogue conversion should happen at the latest possible stage in an electro-acoustical monitoring system, Philharmonia also integrates two digital inputs/outputs conforming to the AES3 digital audio data transfer standard. These are coupled with a high-resolution 24-bit/96kHz converter placed as close as possible to the electronic amplifiers, thus working together in perfect combination. The speakers also feature an RJ-45 network input allowing remote control of its DSP processor for optimal adjustment via dedicated software to match the speakers to the acoustical properties of each listening space. The software is an app that runs on Apple Macintosh and iPad, and Microsoft Windows computers.
As always, a huge part of speaker design is the components. “They have been carefully selected, evaluated, listened to, and combined,” explains Deluc. “The amplifier includes a built-in DSP module, with digital filtering functions such as system EQ, time alignment between HF and LF sections, limiter parameters, thermal protection of the transducers, and more.” He adds a personal note about the low-frequency port: “The aerodynamics of Philharmonia's tuning ports is a masterpiece. It has been largely empirical, inspired by aesthetic aspects, and based on hybrid low-velocity laminar ports using progressive termination. This leads to a rather complex and major technological innovation, whose theory is still in its infancy.”