Mercury Premium Edition

Large baffle

The front panel is made of 15mm high-density low-resonance aerospace aluminum, which completely eliminates the resonance of the speaker enclosure. The high hardness can almost resist all drivers' vibration. 

High-density aerospace aluminum panel makes better sound penetration.

Midrange Driver

• The world's largest, linear aluminum ribbon tweeter mid-range driver

• Nominal Impedance: 8Ohm x 1                

• Max.Power: 160W

The aluminum ribbon tweeter features with very light in weight, highly efficient in vibration, and extremely fast speed in response.

Tweeter

• 8xAMT

• Nominal Impedance: 8Ohm X 8

• Max.Power: 40Wx8

The working principle of the Air Motion Transformer is that there is a special insulating film between the two magnetic poles, and the film surface is covered with a layer of metal coils arranged in a certain direction, and the plastic film attached to the aluminum film is repeatedly folded as a diaphragm component. When the current passes through, the folded film will act due to the magnetic field, and the film wrinkles will push the air out of the fold or inhale the air, radiates sound waves in a jet like an accordion.

The AMT tweeter features with large diaphragm area, light diaphragm, a straight impedance curve, excellent high-frequency extension, fast response speed, and a strong sense of energy and penetration.

Anti-Vibration frame

Cut from high-density aerospace aluminum plate.

Suppress the resonance and improve the strength of the enclosure, reduce the distortion and noise caused by the enclosure vibration, to achieve a cleaner sound.

Manual soldering crossover system

The components of the crossover are connected by conductors on the insulating board. All components are directly pressurized and tightly matched by hand from point to point, minimizing the path of electrical signals.

Dual-Turbine Airflow Coupler

The concept of the entire sound system design is based on the "Dual-Turbine Airflow Coupler (DTAC)" to optimize the acoustic performance inside and outside the speaker. 

This design emphasizes airflow management and resonance control, and combines high-tech materials and precision engineering to enhance overall sound quality, especially in terms of low-frequency performance and sound field stability.

1. Structural design

Dual chambers and dual DSP computer control to solve the refined low-frequency management required by different spaces and preferences

• Dual turbine structure:   Two counter-rotating turbines are placed near the reflex port. This bidirectional turbine not only helps control the airflow and reduce the generation of turbulence and eddies, but also effectively manages the air pressure inside and outside the speaker, thereby improving the clarity and detail of the sound.

• Aluminum deflector:   The rigidity and low resonance characteristics of aerospace aluminum make it an ideal material to effectively reflect and guide sound waves while reducing sound distortion caused by cabinet vibration. The aluminum deflector design ensures smooth airflow and avoids low-frequency blur caused by turbulence.

2. Sound performance

 • Low-frequency enhancement: Through precise airflow control, the DTAC design can significantly enhance low-frequency performance, providing stronger and clearer bass. This greatly improves the low-frequency effect in music, making the sound more present and impactful.

 • Resonance suppression: Due to the combination of aluminum and turbine design, this design effectively suppresses the resonance inside the box and reduces unnecessary sound wave interference inside the speaker, Thereby improving the purity of low frequency and ultra-low frequency.

3. Sound field performance

 • Sound field uniformity: The DTAC system can evenly distribute sound waves, ensuring that you can enjoy a balanced sound performance no matter where you listen. This uniformity is particularly important for hiend systems, ensuring that the sound at every sound point in the sound field can be accurately presented.

 • Audio and video positioning: The combination of the turbine structure and the deflector makes the sound positioning more precise, and the listener can clearly feel the direction of the sound source, which improves the overall sense of space and depth of the sound.

4. Materials and manufacturing

• High-end materials: The use of aerospace aluminum can not only improve the stability of the structure, but also effectively dissipate heat under long-term high-power operation and maintain stable sound quality. The precision manufacturing of the turbine and deflector ensures accurate control of the airflow.

• Engineering precision: High-precision processing during the manufacturing process ensures the accurate alignment of each component and minimizes the error in assembly, which is crucial to maintaining the sound quality. The designer sets the processing accuracy to -0.07mm to ensure the consistency of the structure.

In general, the design of the DTAC "Dual-Turbine Airflow Coupler" is an innovative design that perfectly combines airflow management with acoustic performance, which is suitable for high-end audio systems that pursue extreme sound quality and precise sound field performance.

The active DSP servo control system

Active DSP mid-bass and subwoofer speakers：Mercury Premium Edition subwoofer configured with built-in DSP, which can provide flexible adjustments on high-pass / low-pass, 30-band parameter equalization, phase, Q value, voltage limiter, phase, crossover slope and other parameters. This function would super-optimize the playback effect of the bass speaker while effectively protecting the speaker from damage.

Highly efficient damping system

The Mercury Premium Edition bass column is the result of a long period of careful design by the HANOWA team.

In pursuit of the ultimate performance and aesthetics, they finally decided to use a full aerospace-grade aluminum structure.

This material is not only known for its excellent strength and lightness, but is also widely used in the aerospace field, showing extraordinary technological content.

Its excellent shock-absorbing performance allows the bass column to remain extremely stable in any environment, just like a steel-structured building, as stable as Mount Tai, and not affected by external interference.

At the same time, this structural design also perfectly demonstrates the beauty of industry. The gloss and texture of aluminum give the bass column a unique sense of modernity and futurism, standing in the space like a work of art.

Most importantly, this design ensures excellent sound quality performance. The precise structure of aerospace aluminum effectively reduces resonance and distortion, making the low-frequency sound deep and powerful, and the sound field broad and realistic, bringing an immersive auditory experience to the audience.

Through this innovative design, the HANOWA team perfectly balanced function and beauty, integrating industry and art.