Certifications

iso9001
iso14001
icas
Delivery
security
warranty
roiginal
RoHS
UL
Milioni di parti elettroniche in magazzino. Quotazioni su prezzi e tempi di consegna entro 24 ore.

How to use MEMS vibration sensor to realize automotive external pickup

gen 7 2024 2024-01 Sensors Micron Technology Inc.
Article Cover
Micro-Electro-Mechanical Systems (MEMS) vibration sensor is a kind of miniature sensor whose structure can realize the perception and measurement of vibration signals. Automotive external pickup refers to the use of vibration sensors to capture the sound of the outside of the car, and analyze and process it.

Micro-Electro-Mechanical Systems (MEMS) vibration sensor is a kind of miniature sensor whose structure can realize the perception and measurement of vibration signals. Automotive external pickup refers to the use of vibration sensors to capture the sound of the outside of the car, and analyze and process it. This technology can be used in the fields of automobile driving assistance system, traffic monitoring system, etc., which is of great significance to improve traffic safety and traffic management.

The MEMS vibration sensor uses MEMS technology to manufacture a tiny structure, which contains the sensor, LM158JG amplifier and signal processing circuit. When the sensor is subjected to external vibration, the sensor will generate the corresponding electrical signal, which is amplified by the amplifier, filtered, amplified and digitized by the signal processing circuit, and finally the usable vibration signal is obtained.

Using MEMS vibration sensor to realize external vehicle pickup refers to collecting and analyzing external sound signals in real time by installing MEMS vibration sensor outside the vehicle. This technology can be used in automotive noise control, safety monitoring, intelligent driving and other applications.

A MEMS vibration sensor is a sensor based on microelectromechanical system (MEMS) technology that can measure and detect the vibration and acceleration of an object. Its working principle is to use the micro structure and sensor components in MEMS to measure the vibration and acceleration by measuring the capacitance or resistance changes caused by small vibration.

In automotive external pickup applications, MEMS vibration sensors can be installed in the chassis, door, hood and other parts of the car to collect and analyze external sound signals in real time. By analyzing these acoustic signals, we can achieve the following:

1, noise control: by analyzing the noise of the external environment, you can control the sound insulation effect of the car in real time and improve the ride comfort. For example, when the sensor detects a large noise outside the car, it can automatically adjust the volume and sound quality of the stereo inside the car to maintain the comfort of the passenger.

2, safety monitoring: by analyzing external sound signals, potential dangerous situations can be detected in real time, such as emergency brake sound, horn sound, etc. When the sensor detects these sounds, it can issue a warning to the driver in time and take corresponding measures to improve driving safety.

3, intelligent driving: Through the analysis of external sound signals, you can identify the driving state and direction of other vehicles to achieve intelligent driving functions. For example, when the sensor detects the sound of a vehicle changing lanes in front of it, it can warn the driver in time and automatically adjust the vehicle's driving trajectory to avoid a collision.

The following technical challenges need to be considered for the implementation of automotive external pickup:

1, noise suppression: due to the large noise of the external environment of the car, the sensor needs to have the ability to suppress noise to ensure that the target sound signal is accurately captured. Digital filtering, adaptive filtering and other technologies can be used to process the signal collected by the sensor to remove the noise interference.

2, signal processing: the sound signal collected by the sensor needs to go through a series of signal processing algorithms to extract useful information. We can use time domain analysis, frequency domain analysis, wavelet transform and other methods to extract and classify the signal features to realize the recognition and analysis of different sounds.

3, real-time requirements: the car external pickup needs to process the sound signal in real time, and make a corresponding response in time. Therefore, sensors and signal processing algorithms need to have high computing performance and processing speed to meet the requirements of real-time.

4, reliability and stability: the car external pickup needs to work in harsh environmental conditions, such as high temperature, low temperature, humidity, etc. The sensor needs to have high reliability and stability to ensure the normal operation for a long time.

To sum up, the use of MEMS vibration sensors to achieve automotive external pickup is a technology with great potential. Through reasonable design and optimization algorithm, accurate capture and analysis of external sounds can be achieved, bringing more possibilities for automotive noise control, safety monitoring, intelligent driving and other applications.

I prodotti a cui potresti essere interessato

AA53002-015 AA53002-015 XFRMR TOROIDAL 300VA CHAS MOUNT 8352

More on Order

62054-P2S02 62054-P2S02 XFRMR TOROIDAL 15VA CHAS MOUNT 3526

More on Order

62051-P2S02 62051-P2S02 XFRMR TOROIDAL 15VA CHAS MOUNT 3312

More on Order

62045-P2S02 62045-P2S02 XFRMR TOROIDAL 10VA CHAS MOUNT 2430

More on Order

62043-P2S02 62043-P2S02 XFRMR TOROIDAL 10VA CHAS MOUNT 5472

More on Order

62035-P2S02 62035-P2S02 XFRMR TOROIDAL 7VA CHAS MOUNT 6642

More on Order

62034-P2S02 62034-P2S02 XFRMR TOROIDAL 7VA CHAS MOUNT 7938

More on Order

62025-P2S02 62025-P2S02 XFRMR TOROIDAL 5VA CHAS MOUNT 3924

More on Order

62021-P2S02 62021-P2S02 XFRMR TOROIDAL 5VA CHAS MOUNT 5058

More on Order

62012-P2S02 62012-P2S02 XFRMR TOROIDAL 3.2VA CHAS MOUNT 3204

More on Order

62005-P2S02 62005-P2S02 XFRMR TOROIDAL 1.6VA CHAS MOUNT 7668

More on Order

62075-P2S02 62075-P2S02 XFRMR TOROIDAL 35VA CHAS MOUNT 7308

More on Order

62073-P2S02 62073-P2S02 XFRMR TOROIDAL 35VA CHAS MOUNT 5292

More on Order

70074K 70074K XFRMR TOROIDAL 35VA THRU HOLE 6840

More on Order

70054K 70054K XFRMR TOROIDAL 15VA THRU HOLE 4716

More on Order

70041K 70041K XFRMR TOROIDAL 10VA THRU HOLE 2826

More on Order

70024K 70024K XFRMR TOROIDAL 5VA THRU HOLE 8748

More on Order

70003K 70003K XFRMR TOROIDAL 1.6VA THRU HOLE 2520

More on Order

62015-P2S02 62015-P2S02 XFRMR TOROIDAL 3.2VA CHAS MOUNT 3780

More on Order

62033-P2S02 62033-P2S02 XFRMR TOROIDAL 7VA CHAS MOUNT 6480

More on Order

AC1200 AC1200 CURR SENSE XFMR 200A T/H 2142

More on Order

AC1015 AC1015 CURR SENSE XFMR 15A T/H 5166

More on Order

AC1010 AC1010 CURR SENSE XFMR 10A T/H 5963

More on Order

AC1025 AC1025 TRANSFORMER CURRENT 25.0 AMP 4230

More on Order