Measure

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Revision as of 07:51, 12 January 2008 by Arjs (talk | contribs) (building temperature probe)
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Activity-measure.svg This activity was bundled
TST Measure
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OlpcProject.png Adviser: Walter, Core Development: Arjun, Contributor(s): Cody Lodrige (drawing code optimization), Nathalia (translations)

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Measure Activity on the XO
Analog Input port on the XO (in pink)




What is the Measure Activity ? (Introduction)

The Measure Activity is a tool on the XO that allows kids to indulge in "learning by doing". It provides an interface for the kids to connect with the physical world and an opportunity to view and understand through a visual and statistical representation of the physical phenomena.

Using the Measure Activity on the XO, one can -

  • Connect sensors (light, heat, magnetic field etc) and view their signal. Thus it is possible to view and study physical phenomena
  • Input voltages and signals into the XO laptop and use it as an oscilloscope and
  • Log data at a specified interval and store and retrieve waveforms


Learning Activities

Introduction

Children learn by doing things. It is said "Give a child a hammer, and the world becomes his nails". This activity is a tool that allows kids to express their curiosity. It is a tool that allows kids to explore and learn by doing, by connecting and observing, span physical phenomena and real world events.

Activity activities (hands on learning activities)

See the projects page for detailed instructions on a few projects. Also see the hardware page for other ideas.

Some threads for interesting learning experiments are below -

  1. Record animal sounds , for example, sounds of birds and observe their waveforms. Which of these are high frequency sounds, which are the low frequency ones ? Adjust the frequency sliders accordingly.
  2. Whistle into the mic and compare the loudness and frequency of whistles by observing the waveforms.
  3. Get two people to try to whistle the same note, and look into Beat Frequencies.
  4. Turn the sensitivity slider up to the maximum and observe ambient noise - in a quiet room, near a noisy road
  5. Measure the voltage of an AA size pencil cell. What settings do you use ? AC or DC ?
  6. Measure resistance of water , other liquids
  7. Log temperature using a temperature sensor at one hour intervals. When in the day is it the hottest ? The coldest ?
  8. Some very interesting sensor ideas given by Arnans Roger , see - http://padthai.media.mit.edu:8080/cocoon/gogosite/documentation/makingSensors.xsp?lang=en


Let's measure Temperature! ( Featured activity of the month )

Construction

You should build the probe as outlined in how to connect sensors before moving forward


You would need a temperature sensor like this one LM35. A link is here- http://search.digikey.com/scripts/DkSearch/dksus.dll?Detail?name=LM35DZ-ND
Taken from the data sheet of the temperature sensor, Vs is where we would supply the "+ve" (positive supply voltage), gnd is where would connect "-ve" (ground) and Vout is the sensor output which we will connect to "Vinput"
So we connect the "Gnd" to the righten-most terminal of the sensor
And connect the "+ve" to the left-most terminal of the sensor
You might want to keep insulation tape handy at this time
Apply the insulation tape over both the terminals
Now lets connect the "Vin" connector from the audio jack to the center terminal of the sensor, called as "Vout"
Insert the audio connector to the Mic jack (pink)
Measure tut 1 24.jpg
Connect the USB connector to the USB port. Our temperature sensing probe is ready!

Operation and measurement

Learning activities

Downloading the Activity

Please visit the download page to download the latest stable and unstable releases of the Activity.


Getting started

The software

Signal in time domain

Input:One can connect sensors/give input voltage through the pink Mic jack on the left side of the display screen. When nothing is connected there, the default signal is the sound signal from the built in Mic on the XO. Graph: The green moving line on the screen indicates the signal


Grid and background: The light grey lines that form a criss cross grid allow one to estimate the values of the signal at different instants of time. To get a value, multiply the scale value that appears when one clicks on the "Show values" button in the Measure Toolbar with the number of divisions the grid represents.


Slider on the right: The slider on the right controls the magnification (gain) of the waveform. Move it up if the waveform that you see is too small and move it down is the waveform is going out of the screen.

Signal in frequency domain


Measure Toolbar: Use this to view and modify the signal. AC/DC button -- This button selects whether you want to give a DC input or an AC input. Batteries, light sensors and temperature sensors have DC input. The microphone has an AC input. Bias control button -- Some sensors would require this ON to work properly, most of the times you wouldn't need to touch this button. The built in mic requires this to be OFF. Time/frequency button -- View the signal representation or a real time representation of the signal. Selecting this option is most fun when one is whistling into the microphone. This wouldn't be of much use when connecting external sensors. Slider -- Move it to the position that allows you to best view the waveform. This slider controls the frequency range. Show details -- Press this button when you want to see statistical data about the signal. The scales are shown in this option - the X axis scale and the Y axis scale.


Log Toolbar: Use this when you want to record data Snapshot/1 second/1 minute/1 hour -- Select the way you want to record data. Snapshot means taking a picture of the current waveform that you see on the screen. 1 second/1 minute/1 hour selects at what interval one can record data. Show saved data -- Shows you the saved waveform. Press it again to remove the display of the saved waveform.


Displaying result of a logging session
Showing the statistics about the signal


How to connect sensors (How to build a probe to connect sensors to the XO)

It'd be good to have these tools - A soldering iron, some soldering wire, a wire cutter/wire stripper and some insulating tape
Wire stripper
Soldering wire
Some connecting wires
3.5mm audio jack (stereo or mono, any would do)
A USB cable, or even a USB connector would do
The audio jack/connector
Cut two pieces of wire and strip them at the ends
Solder the wires to the connector as shown. Do make sure to have an identification mark (eg. a knot) to differentiate between both the wires.Call the wire connected to the central terminal as "Vin" the wire connected to the outer terminal as "Gnd"
Take the USB cable/connector
Cut it in the middle and strip the wires
We only need the red and the black wires.The USB port provides us with a source of +5V supply. Let's call the red wire as "+ve" and the black as "Gnd" and make the black one and the "Gnd" defined in audio connector as one, by connecting them together.
The audio connector goes into the pink MIC input jack
The USB connector goes into the USB port

To summarize, do remember that we have identified three terminals

  1. The "Vin" terminal
  2. The "+ve" terminal
  3. The "Gnd" terminal (the Gnd of audio connector is connected to Gnd of USB connector"

Getting involved

Educators

Software developers

Help is needed from volunteers from Python developers. Please visit this page to find out details. If you have experience in writing optimized Python code, please leave a note on the discussion tab of this page and someone will get in touch with you.

Hardware enthusiasts

Do interesting hardware projects around the XO. Visit the Measure hardware page to learn more. You might also want to see the projects page.

A note about safety

Cautionary warning -- Caution.png

SAFETY FIRST!

  • Make measurements of AC line voltages with the proper equipment only -- for example, a multimeter designed for the purpose. The laptop is not a multimeter.
  • If you don't know what you are doing or are unsure, don't do it. Electricity can be dangerous.


Future plans

  1. Comparison of many graphs
  2. Sharing of the graphs
  3. Analog Input support into TamTam jam


Acknowledgments

  • Walter Bender - (my adviser) providing invaluable guidance, encouragement and support at all stages of development. I have had immense learning during the development of the Activity and I hope to allow kids to experience learning while using the Activity as much as I experienced while making the Activity.
  • Thanks to Mitch Bradley and John Watlington for their help and suggestions during the development of the Activity.
  • Thanks for Bernardo Innocenti and Michael Stone for their valuable inputs towards code design.


Contact

Contact Arjun Sarwal through -

Email : arjun@laptop.org

IRC : arjs on #olpc #sugar





Give a child a hammer and the world becomes his nails...