Vibration motor meets the Headphone jack

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Although vibration motors are common in Mobile phones, procuring button sized vibration motors were the ultimate challenge. (There were a couple of good ones on ebay, but couldn’t find one at this point of time)

But once that was resolved, one of the leads of the vibration motor was connected to the headphone jack and the ground of the headphone jack to the other lead.

Now square wave signals are played through the headphone jack using Audacity. Although one can feel the motors vibrating, using an operational amplifier such as LM324 helps to intensify the vibrations. ( Power source to LM324 – Battery/Arduino )

drawing

 

 

Note:

One of the weirdest but yet satisfying experience with the vibration motor is when you connect the vibration motor through the audio jack without any amplifier. You can hear the music being played through the vibration motor. The motors seems to be dancing to the music being played. We tried so hard to capture the phenomenon but the sound was too feeble to be picked up. That shouldn’t stop you from giving it a shot.

The anatomy of a headphone jack

Most of us live under the simple algorithm : Plug a headphone into the jack and move on with life. But the beauty of it is what happens during those instances when you insert the jack and the mobile/laptop recognizes the device to be indeed a headphone jack.

Most modern smart-phones and laptops detect a headphone using the following simple principle :

Establish a potential difference between the mic and the ground ( ~ 2- 3 V ) and observe the resistance. If its high, its air and probably nothing has been inserted. If its really low, then a headphone jack has been inserted.

drawing

And the fact that a potential difference is constantly being given between the mic and the ground allows us to plug in a led and light it up .

Corollary 😉 :

All that the phone is looking for low resistance value. You can very easily fool the phone to think that an aluminum foil is a headphone jack.

Older headphone jacks

This answer by Rick on stackexchange answers this question so accurately :

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” Headphone jacks have extra contacts inside, which act as switches. The the drawing below, pins 4 and 5 are intended for sensing that the plug was inserted. They are not intended for audio signal. When the plug is not present, the switche, which are formed by 2 & 4 and 3 & 5, are closed.

When the plug is inserted, these switches are open. The plug flexes 2 and 3 slightly, and they break contact with 4 and 5. You could insert a 3.5mm plastic rod [a dummy] into the jack, which will open the contacts, and the phone might think that earphones are plugged in. ”

 

Headphone jack plugged in or not ? (Software end)

In a previous post , we talked in depth about the /dev/input directory in Linux.  This video talks about how the computer knows whether a headphone jack has been plugged in or not from a software point of view.

The ultimate guide to using LEDs with headphone jack

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Lighting up an LED using the headphone jack is probably one of most easiest tasks. Take the mic of the TRRS pin ( or left in a TRS ) and connect it to the shorter end of the LED. Take the ground and connect it to the longer end of the led and you are good to go !

A potential difference of ~3V exists between the two pins that is sufficient to light up a LED. Why is there a potential difference in the first place ? Well, this will answered in great detail in one of our post on the Anatomy of a headphone jack.

Now no one wants to stop with just lightning up a LED, so let’s improvise..

 

Controlling LED brightness

Like we said: A potential difference of ~3V exists between the two pins that is sufficient to light up a LED.  By controlling the volume, we can reduce this potential difference and thereby dim the LED.

 

You can control 2 LEDs (min.) with a single headphone jack

With a simple headphone jack, one is capable of controlling 2 LEDs at the very minimum. Take 2 LEDs and connect them both to the Left/Right in the configuration shown below:

drawing-1

If one plays a square wave through the Left/Right then the first LED would light during the positive half of the cycle and the second one during the negative half. This is because LEDs are conductive only in one direction.

You can watch a demonstration of this in the following video.

And as a bonus, we did a frequency sweep  from 1 – 30 Hz (Square Wave) and here is how that looks:

Hang on a second!

If you can do that, then you play songs and also visually witness Beats phenomenon right? Absolutely!

Visualizing songs using LED

Beats phenomenon

Headphone jack as a switch

In all our above setups, we connected the jack directly to the LED. But one might need the LED to be brighter. So, to do that we had to bring in a operational amplifier ( LM324 ). This can be powered using a OTG (On-the-go) cable or using an Arduino.

drawing-2

Now using this we can use the headphone to perform switching operations. And this is what we demonstrate in the following series of videos:

Schematics/Circuit diagrams will be uploaded soon! Thank you.

 

 

 

The headphone jack meets an actual spark gap!

So, we had the opportunity to test out the headphone jack with an actual spark gap and it was absolutely wonderful. Check it out:

With the data we can actualy find out the frequency of the spark occurrence. In our case it turned out to be ~ 34 – 36 Hz. And since this is in the Audible range we can actually hear this (somehow we missed this when making the video)

Screenshot from 2017-06-10 20:01:07

Audio file : GoogleDrive

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Part – I – Lightning detector with a simple headphone jack

Part – II – Detecting switching ON/OFF of Tube Light using headphone jack

Part – III – Cigarette lighter spark detection using headphone jack

 

It is ridiculously easy to generate any audio signal using Python

Updated: May 15,2019

Now it comes as a surprise to many people when I tell them that generating an audio waveform is extremely simple.

One needs to have basic understanding on how audio signals work and basic python programming to generate any audio wave form. This post will show you exactly how.

Python packages needed: Numpy, Scipy

Screenshot_2019-05-15_11-06-02

How to play the audio the generated audio file on computer ?

1. Command line using SoX

play -t raw -r 44.1k -e signed -b 8 -c 1 test.wav

where -r = sampling rate -b = sampling precision (bits) -c = number of channels

2. Use Audacity (check video)

 

Link to code : GitHub

You can find a list of other waveforms that can be generated using SciPy here

Known Issues:

[1] This does add any headers to the audio file and therefore you cannot play it on any media player as is . Check this reddit post if you really want to have one.

[2] Adding headers to the above code seems to be making it slower. And this is a problem if you want to make larger audio files.

[3] The code generates only 8-bit audio signal. Feel free to play around with the code to change it to other formats.

[4] A lot of technical details were conveniently not included in code in order to appeal to the theme of this post. And therefore this code is not “efficient”.

Detect switching ON/OFF of Tube-light with a simple headphone jack

Now in our previous post, we established that the headphone jack can be used to successfully detect electromagnetic disturbances ( Sparks and Lightning ). In this post, we explore the interaction of the tube light with the headphone jack.

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Here is a close up of the peak that you saw in the video:

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Nowadays of course, we have moved on Non-flickering tubelights and it is highly unlikely that we might be able to detect the peculiar peaks that you see on this. But to be sure we are currently working on this and we will keep you guys posted on the results.

Also if we could incorporate this into a IoT network, things will go crazy!!!

 

*   Image Source