3. INTRODUCTIONINTRODUCTION
MEMS technology provides a promising
implementation for microphones.
Here, we discuss the design ,
characteristics & applications of MEMS
microphone.
4. MEMS TECHNOLOGYMEMS TECHNOLOGY
MEMS is a process technology used
to create tiny integrated devices or
systems that combine mechanical
and electrical components.
They are fabricated by integrated
circuit (IC) batch processing
techniques.
5. MEMS TECHNOLOGY …..MEMS TECHNOLOGY …..
Can range from a few micrometers to
millimeters.
These devices have the ability to
sense , control and actuate on the
micro scale and generate effects on
macro scales.
9. WORKING…WORKING…
Transduction principle is the coupled capacity
change between a fixed plate and a movable plate.
Change in air pressure created by sound waves
cause the thin membrane to flex while the thicker
back-plate remains stationery .
The movement of membrane creates a change in
capacitance between the membrane and back plate,
which is translated to an electrical signal by an
interface IC.
10. Performance parameters…Performance parameters…
Sensitivity
It is the measure of microphones response to
a given sound.
Sensitivity of microphone can be adjusted by
changing the gain.
Normally specified in dB FS (for digital mic)
or dBV (for analog mic).
Sensitivity of microphone sensor is an important
factor in determining the SNR.
Sensors with higher sensitivity increases the SNR.
11. Performance parameters…Performance parameters… ((cntd)cntd)
Noise floor
It is the measure of amount of noise created by
itself.
The noise floor of the microphone is its output
amplitude in the absence of sound.
Normally specified in dB FS (for digital mic)
or dBV (for analog mic).
12. Performance parameters…Performance parameters… ((cntd)cntd)
Signal to noise ratio
It is defined as the difference between its
sensitivity and its noise floor.
Sound pressure level
Sound pressure level is the logarithmic measure
of change in air pressure caused by sound
and specified in dB SPL .
Acoustic overload point
it is the maximum sound level that a microphone
can faithfully capture.
13. Performance parameters…Performance parameters… ((cntd)cntd)
Dynamic range
The dynamic range of microphone is the
difference between its acoustic
overload point and its noise floor . It is
Measured in dB.
14. TYPES OF MEMS MICROPHONE …TYPES OF MEMS MICROPHONE …
Analog type: which converts
sound input to corresponding voltage
output
Digital type: Gives a digit output
typically a pulse density modulation
16. ADVANTAGES…ADVANTAGES…
Can be manufactured using surface mount
technology
Can withstand high temperature , vibrations
Easily integrated with CMOS process
Provides Improved noise cancellation
Low power consumption
High signal to noise ratio (70 dB)
Very small size (1.05 mm)
17. CONCLUSIONCONCLUSION
MEMS technology provides a promising
implementation for microphones.
MEMS microphone is an excellent choice for applications
with size constraints.
18. ReferencesReferences
S. D. Senturia, Microsystems Design. New York: Kluwer
Academic, 2001.
V. P. Klimashin, “Mems technology,” Pribory i Tekhnika
Eksperimenta,
Internet
www.st.com/microelectronics