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Membrane Cover Substrate ASIC die MEMS die MEMS Microphone Document: Sonion Academy Poster Doc code: 306 Version: 001 Release date: 2015-08-24 Sound inlet How it works 1 A sound wave enters the sound inlet and front volume of the microphone. 2 The ASIC inside the MEMS microphone uses a charge pump to place a fixed charge on the microphone membrane. 3 The rear volume of the microphone creates a pressure reference for the membrane. Incoming sound creates a pressure difference between front and rear volume. This pressure difference moves the membrane of the MEMS die. 4 The ASIC then measures the voltage variations caused when the capacitance between the membrane and the fixed backplate chang- es due to the motion of the membrane. 5 The amplifier converts the high impedance of the cart- ridge to a low impedance. Due to this the voltage swing at the output terminal represents the potential change at the membrane and is consequently proportional to the incoming sound level.

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Membrane

Cover

Substrate

ASIC die

MEMS die

MEMS Microphone

Document: Sonion Academy PosterDoc code: 306Version: 001Release date: 2015-08-24

Sound inlet

How it works

1 A sound wave enters the sound inlet and front volume of the microphone.

2 The ASIC inside the MEMS microphone uses a charge pump to place a fixed charge on the microphone membrane.

3 The rear volume of the microphone creates a pressure reference for the membrane. Incoming sound creates a pressure differ-ence between front and rear volume. This pressure difference moves the mem-brane of the MEMS die.

4 The ASIC then measures the voltage variations caused when the capacitance be-tween the membrane and the fixed backplate chang-es due to the motion of the membrane.

5 The amplifier converts the high impedance of the cart-ridge to a low impedance. Due to this the voltage swing at the output terminal represents the potential change at the membrane and is consequently proportional to the incoming sound level.

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