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The image contains a Studio Monitor that is placed on a speaker stand in a cozy, modern living room. The loudspeaker cabinet is made out of Wallnut wood. There is a small tweeter waveguide cnc-machined into the front panel. There is a bass reflex opening. The wooden surface is dark, slightly glossy and smooth.

Unaltered
Sound
Reproduction.

Simulation results from a finite-element analysis of the loudspeaker enclosure.

Spot-on.

An measurement instrument (Accelerometer) placed on the loudspeaker enclosure to measure its vibration

Diligent.

Technical drafts and notes on a black board

Detailed.

This is a picture of an amplifier. There is a green printed circuit-board with small electronic components on it. There are transistors, blue capacitors, orange power resistors. A soft light is reflecting on the circuit board surface. The design looks very clean and ordered. The heat of the power transistors is conducted to the back panel.

Low Distortion.

Draft of the outdoor measurement setup on a roman bridge. A loudspeaker hanging on a rope. The bridge is 24 meters tall and the loudspeaker is hovering in 12 meters height. This allows to measure the loudspeaker without reflections and for free. In nature.



Meticulous.

Wallnut texture of the enclosure with smooth lighting. There are black screws which compress the housing so that it is more rigid.

Rigid.
This means that all musical Instruments will be equally loud. The 2 Motors are working together and acting as one motor.

Here we can see the response of tha bass reflex opening.

This means that the sound will not change a lot when you move around while listening. It has to do with Loudspeaker Directivity.

Clap your hands to create a 'spike'. We want to see how good the loudspeaker can recreate such a spike. One spike means that you will hear spacial ques from the recording well. If you listen at home you will think you're in another room.

A Phase response of 0 degrees means that low and high pitches will arrive at the same time. It is needed to hear spacial ques from the recording space.

The Distortion shows how many new, unwanted tones the loudspeaker adds to the music. If there is a lot it will sound fuzzy and rough.

This Frequency response was taken on a 20 Meter tall crane. After the measurement a filter was developed to flatten the response. If there were resonances we would see sharp spikes. As you can see there are almost none.


An measurement instrument (Accelerometer) placed on the loudspeaker enclosure to measure its vibration



Proven

An measurement instrument (Accelerometer) placed on the loudspeaker enclosure to measure its vibration


     Nuts

An measurement instrument (Accelerometer) placed on the loudspeaker enclosure to measure its vibration
Product Specification
   
Unit 1 (single)
Dimensions: 21 cm x 50.8cm x 50.8 cm (w,h,d)
Weight: 19.3 kg.
Input Voltage: 115V and 230V 50/60Hz
Power: 1100 Watt
Amplification: Integrated Class D
Inputs: Analog XLR, Digital AES XLR, Coax, Optical
Outputs: Analog XLR, Digital AES XLR
Equalization: User Programmable
Gain: Configurable
Standby: Configurable with auto wake-up
Listening Distance: 2-3 Meters
Brake-in time: None
Pair matching: No need. Individually Calibrated.
Cross-over: 2'500Hz
Cut-off -6dB: 28Hz-22kHz
Linearity: +-1dB
Tweeter: 1 inch aluminium dome
Woofer: 6.5 inch Fibre mix, pulp/paper like
SPL Peak Woofer: 112dB at 1 Meter
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Our products are designed and built with utmost attention to detail in Zurich Switzerland.

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