Eclipse avoids high-speed drive-unit vibrations with its die-cast zinc diffusion stay. Because the diffusion stay 'floats' the drive unit inside the enclosure, it better suppresses the transmission of vibrations to the structure.
TECHNOLOGY
Superior construction for superior sound
THREE TECHNOLOGY
The ECLIPSE TD series' unique innovations overturn traditional notions of speaker construction and turn Time Domain theory into reality.
They include:
Single small-diameter drive-units that function to the maximum power level.
Construction, which eliminates undesirable vibrations and reflected sounds.
A unique shape and form to ensure a close to perfect impulse response.
The internal structure of a TD712z
Sound reproduction becomes more accurate the closer the waveforms of the input signal (impulse) and output signal (impulse response) resemble each other.
Conventional Speakers
ECLIPSE TD Series Speaker
1. Diffusion stay
2. High-mass anchor
To counter the need for a rigid mounting, Eclipse TD attaches a high-mass conical anchor weight to the rear of the drive-unit magnet. This grounds the drive-unit to ensure that nothing interferes with air movement produced by tracking the original musical performance.
3. Eggshell construction
A rigid external 10mm-thick external egg shape largely eliminates standing waves from the front of the speaker, vibrations to the rear and altogether avoids diffraction waves product in conventional speakers' corners. A three-topcoat finish completes the picture of this top-of-the-range design. Our high-performance models use a high-density bulk mould compound.
* Eclipse TD speakers eliminate the unwanted diffraction effects that plague other, lesser speakers.
This eliminates both resonance from the internal sound wave reflection and the diffracted waves that would normally be generated from the corners of a box-shaped enclosure. The innovative geometry and revolutionary internal structure of the ECLIPSE TD have been created through our continuous and uncompromising pursuit of truly original sound, based upon the use of time domain theory.
