Sound Sensors: How They Work & Applications

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Discussion Overview

The discussion centers around the functioning of sound-controlled sensors, particularly in toys, and their applications. Participants explore the principles of sound propagation, the mechanics of sound detection, and the differences in complexity between toy sensors and more advanced devices like phone receivers.

Discussion Character

  • Exploratory
  • Technical explanation
  • Debate/contested

Main Points Raised

  • One participant suggests that sound is a wave that travels through a medium, and disturbances in the air can be detected mechanically by sensors.
  • Another participant describes how a transducer in a phone converts sound waves into electrical signals, which trigger actions.
  • There is skepticism about the complexity of sound sensors in toys compared to those in phones.
  • A participant discusses the basic principles of microphones and speakers, relating them to the concept of sound transmission over distances.
  • Some participants argue that toy sound sensors do not need to be as accurate as phone sensors, which must accurately replicate human voice frequencies.
  • It is noted that sound sensors may vary in sensitivity and response based on their design and materials used, such as quartz.

Areas of Agreement / Disagreement

Participants express differing views on the complexity and accuracy of sound sensors in toys compared to those in phones. There is no consensus on whether toy sensors can be as sophisticated as phone sensors, with some arguing they can be simpler while others believe they can be quite effective.

Contextual Notes

Participants mention various types of sound sensors and their characteristics, but there are unresolved questions regarding the specific designs and operational principles of toy sound sensors compared to more advanced devices.

Who May Find This Useful

This discussion may be of interest to those exploring the principles of sound detection, the design of audio sensors, and applications in consumer electronics, particularly in toys.

irony of truth
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On sound

Hi everyone... how does a sound controlled sensor work, like those in the toys?
 
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I am guessing...If you think about how the sound propagates, we know the sound is a form of wave that travels through the medium such as air. So when the sound is created there must be some disturbance in the air which can be sensiable mechanically by well designed detector. Imagine you're in the water. If disturbe the water by swinging my hand under the water next to you won't you feel the disturbance? I think that will triggers the what ever the action the toy will take
 
The receiver on a phone, for instance is a transducer which converts air pressure signals (i.e. sound) into electric signals. When a sound wave impinges on the transducer, it converts it into an electrical signal, which is then used to set of whatever it is supposed to set off.

Claude.
 
I doubt a toy would have a sound sencor as complicated on a phone.
 
What kind of toy? Are we speaking of a common microphone? Like a sound wave can move an eardrum, it can move a magnet, and moving a magnet besides a wire will generate a current in the wire. That's a mike.

Now if the wire is 1 km long, you almost got a telephone.

Put another magnet attached to a membrane on the other end of the wire, and its current will make the magnet-membrane do the same airwaves that originally made the current. That's a speaker, and completes the telephone. That's the concept.
 
Nenad said:
I doubt a toy would have a sound sencor as complicated on a phone.

I disagree. Go to Radio Shack and by a small condensor mic for a couple of dollars. Same deal.
 
A sound sensor in a toy does not have to be as accurate as a phone which must replicate the human voice quite accurately for it to be understood and to identify a person. Some sensors may be quite sensitive to particular sound frequencies and not to others, especially ones using acoustically active materials such as quartz.
Sensors are usually desribed by their sensitivity and spectral/spacial response which vary considerably depending on their size and construction.
Ray
 

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