How does it work?
The electrostatic loudspeaker is very simple in concept, but difficult to construct successfully in practice. lts operation relies on electrostatic attraction and repulsion, in much the same way as a piece of thin paper attracted to a rubber balloon that is charged by rubbing it against fabric.

The electrically charged ultra-thin conductive film diaphragm is tensioned and placed close between two metal grids. When a high voltage audio signal is applied to the metal grids, the diaphragm moves in response to the signal, moving towards the grid which at that instant is oppositely charged, and away from the grid which has the same charge as the diaphragm. The diaphragm responds in an essentially linear manner, producing sound waves which are a very accurate reproduction of the original sound.
Why is it better?
Imagine a normal speaker as a point source, from which the sound waves produced diffract at a great angle. This causes rapid decrease in volume and quality over a short distance.
Then imagine a flat electrostatic panel producing sound from the same input signal. This time the sound waves are produced over a large, flat area, therefore have very little diffraction and the volume decreases much less over the same distance.

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Audio Quality
Frequency Response
1Hz - 50KHz (-3dB at 50Vrms out)
Input Impedance
Rated Input Level
150mV (100V Output)
Max. Output Voltage
>300Vrms (<1% THD)
Signal to Noise Ratio
>100dB (re. 100V output A-weighted)
Bass Boost
+9dB at 20Hz, +3dB at 100Hz
Harmonic distortion
0.01%(at 100Vrms/1kHz output)
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Physical Specifications
Dimension (mm)
170(W) * 265(H) * 60(D)