Reports.HDJD-S822 History

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VB (blue wire)
VG (green wire)
VR (orange wire)
LED (yellow wire)
GND (black wire)
PWR (red wire)
to:
VB (blue wire), VG (green wire), VR (orange wire), LED (yellow wire), GND (black wire), PWR (red wire)\\
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Here is a schematic of how to connect the sensor to Arduino, it is super easy.
Left partof the sensor starting from top:
GSB0 (blue wire), GSB1 (blue wire), GSG0 (green wire), GSG1 (green wire), GSR0 (orange wire), GSR1 (orange wire)

Right part of sensor starting from top:
to:
Here is a schematic of how to connect the sensor to Arduino, it is super easy. \\
Left part of the sensor starting from
top:\\
GSB0 (blue wire), GSB1 (blue wire), GSG0 (green wire), GSG1 (green wire), GSR0 (orange wire), GSR1 (orange wire)\\

Right part of sensor starting from top:\\
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Here is a schematic of how to connect the sensor to Arduino, it is super easy.
Left partof the sensor starting from top:
GSB0 (blue wire), GSB1 (blue wire), GSG0 (green wire), GSG1 (green wire), GSR0 (orange wire), GSR1 (orange wire)

Right part of sensor starting from top:
VB (blue wire)
VG (green wire)
VR (orange wire)
LED (yellow wire)
GND (black wire)
PWR (red wire)
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[[http://fritzing.org/|Fritzing ]]pen-source software to create a pcb layout\\
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[[http://fritzing.org/|Fritzing]] open-source software to create a pcb layout\\
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[[http://www.youtube.com/watch?v=3Kg6MP163dQ | Sparkfun Product Showcase video (watch from minute 2.20)]]
[[http://www.societyofrobots.com/sensors_color.shtml| Color Sensor Tutorial]]
[[http://fritzing.org/|Fritzing pen-source software to create a pcb layout]]
to:
[[http://www.youtube.com/watch?v=3Kg6MP163dQ | Sparkfun ]] Product Showcase video (watch from minute 2.20)\\
[[http://www.societyofrobots.com/sensors_color.shtml| Color Sensor Tutorial]]\\
[[http://fritzing.org/|Fritzing ]]pen-source software to create a pcb layout\\
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Sparkfun
Add links to any reference material you used to learn about your sensor
. Cite your sources for explanations, code, and circuits.
to:
[[http://www.youtube.com/watch?v=3Kg6MP163dQ | Sparkfun Product Showcase video (watch from minute 2.20)]]
[[http://www.societyofrobots.com/sensors_color.shtml| Color Sensor Tutorial]]
[[http://fritzing.org/|Fritzing pen-source software to create a pcb layout]]
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[=[[Code.myCodeSample | Code Sample]]=]
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[[Code.myCodeSample | Code Sample]]
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List any useful tags or keywords that will make this report more searchable
.
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Color Sensor, RGB, convert light.
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To connect the sensor to the microcontroller in this case I solder headers pins, this way it can be easily hook to the breadboard.

List any hardware needed to interface this sensor to a microcontroller or computer
.
to:
To connect the sensor to Arduino I solder headers pins, this way it can be easily hook to the breadboard.
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Sparkfun
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To connect the sensor to the microcontroller in this case I solder headers pins, this way it can be easily hook to the breadboard.
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[[ Attach:HDJD-S822_header_pins.jpg ]]
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[[ Attach:HDJD_S822_mic-connection.jpg]]

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[[ Attach:HDJD_S822_mic-connection.jpg]]
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[= Attach:image.jpg =]
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[[ Attach:HDJD-S822-fritzing.jpg]]
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'''7.''' Capacitor 0.1
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'''7.''' 2 capacitors of 0.1u
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[[http://dlnmh9ip6v2uc.cloudfront.net/datasheets/Sensors/LightImaging/HDJD-S822-QR999.pdf| Datasheet]] \\
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[[http://dlnmh9ip6v2uc.cloudfront.net/datasheets/Sensors/LightImaging/HDJD-S822-QR999.pdf| Datasheet]] \\
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'''2.''' Amplifier: [[http://pcbheaven.com/datasheet/mmbt2222.pdf\MMBT2222]] NPN General Purpose Amplifier\\
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'''2.''' Amplifier: [[http://pcbheaven.com/datasheet/mmbt2222.pdf|MMBT2222]] NPN General Purpose Amplifier\\
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'''2.''' Amplifier: MMBT2222 NPN General Purpose Amplifier\\
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'''2.''' Amplifier: [[http://pcbheaven.com/datasheet/mmbt2222.pdf\MMBT2222]] NPN General Purpose Amplifier\\
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The board uses [[(Glossary/)SMD]] resistors. They are very small, so instead of color bands (as normal resistors) they have stamped numbers and letters on the top side of the component. (usefull[[http://talkingelectronics.com/projects/ResistorsMadeEasy/SMD-Resistors-EIA-Markings.html| website]] to calculate SMD resistors fast)\\
to:
The board uses [[(Glossary/)SMD]] resistors. They are very small, so instead of color bands (as normal resistors) they have stamped numbers and letters on the top side of the component. (useful [[http://talkingelectronics.com/projects/ResistorsMadeEasy/SMD-Resistors-EIA-Markings.html| website]] to calculate SMD resistors fast)\\
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The board uses [[(Glossary/)SMD]] resistors. They are very small, so instead of color bands (as normal resistors) they have stamped numbers and letters on the top side of the component.\\
to:
The board uses [[(Glossary/)SMD]] resistors. They are very small, so instead of color bands (as normal resistors) they have stamped numbers and letters on the top side of the component. (usefull[[http://talkingelectronics.com/projects/ResistorsMadeEasy/SMD-Resistors-EIA-Markings.html| website]] to calculate SMD resistors fast)\\
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[[http://talkingelectronics.com/projects/ResistorsMadeEasy/SMD-Resistors-EIA-Markings.html|usefull website to calculate resistor fast]]
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\\
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1. Sensor: HDJD-S822 Color sensor Breakboard\\
2. Amplifier: MMBT2222 NPN General Purpose Amplifier\\
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'''1.''' Sensor: HDJD-S822 Color sensor Breakboard\\
'''2.''' Amplifier: MMBT2222 NPN General Purpose Amplifier\\
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3. SMD 331 Resistor: a 330 ohm resistor.\\
4. SMD 100 Resistor: a 10 K ohm resistor.\\
5. SMD 01A Resistor: a 100 ohm resistor.\\
6. LED\\
7. Capacitor 0.1
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'''3.''' SMD 331 Resistor: a 330 ohm resistor.\\
'''4.''' SMD 100 Resistor: a 10 K ohm resistor.\\
'''5.''' SMD 01A Resistor: a 100 ohm resistor.\\
'''6.''' LED\\
'''7.''' Capacitor 0.1
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6. LED
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6. LED\\
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3. Resistor: [[(Glossary/)SMD]] a is a Thermal Resistor
4. SMD Resistor:
5. SMD
Resistor:
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Resistors:
The board uses [[(Glossary/)SMD]] resistors. They are very small, so instead of color bands (as normal resistors) they have stamped numbers and letters on the top side of the component.\\
3. SMD 331
Resistor: a 330 ohm resistor.\\
4. SMD 100 Resistor: a 10 K ohm resistor.\\
5. SMD 01A Resistor: a 100 ohm resistor.\\
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3. Resistor: a is a Thermal Resistor
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3. Resistor: [[(Glossary/)SMD]] a is a Thermal Resistor
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5. SMD Resistor:
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4. Resistor:
5. Resistor:
6. LED
7. Capacitor 0.1
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3. Resistor: a is a Thermal Resistor

[[http://talkingelectronics.com/projects/ResistorsMadeEasy/SMD-Resistors-EIA-Markings.html|usefull website to calculate resistor fast]]
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%width=400px% http://itp.nyu.edu/physcomp/sensors/uploads/HDJD-S822_components.jpg

1. Sensor: HDJD-S822 Color sensor Breakboard
2. Amplifier: MMBT2222 NPN General Purpose Amplifier
to:
%width=300px% http://itp.nyu.edu/physcomp/sensors/uploads/HDJD-S822_components.jpg

1. Sensor: HDJD-S822 Color sensor Breakboard\\
2. Amplifier: MMBT2222 NPN General Purpose Amplifier\\
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1. Sensor: HDJD-S822 Color sensor Breakboard
2. Amplifier: MMBT2222 NPN General Purpose Amplifier
3. Resistor:
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[[ Attach:HDJD-S822_components.jpg ]]
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[[ Attach:HDJD-S822_components.png ]]
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The sensor combines a photodiode array and three [[(Glossary/)transimpedance amplifiers]] in a single monolithic CMOS IC solution.
to:
The sensor combines a [[(Glossary/)photodiode]] array and three [[(Glossary/)transimpedance amplifiers]] in a single monolithic CMOS IC solution.
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Describe some typical applications of this sensor. You can often get this from the datasheet, but a few examples from companies or individuals who've used it would be useful as well.
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Give a list of the pins, and a pin diagram as appropriate. Detail the function of each pin in a short paragraph following the list.
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[[http://robosavvy.com/store/product_info.php/products_id/2095| Robossavy (Europe)]]\\ cost: 14.89
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[[http://robosavvy.com/store/product_info.php/products_id/2095| Robossavy (Europe)]] cost: 14.89
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Potential applications are such as: general color detection, industrial process, environmental lighting, cabin lighting, decorative lighting and etc. (Datasheet)
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Potential applications are such as: general color detection, industrial process, environmental lighting, cabin lighting, decorative lighting and etc.
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[[http://www.sparkfun.com/products/10904| Sparkfun]] cost: $24.95 \\
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[[http://www.sparkfun.com/products/10904| Sparkfun (US)]] cost: $24.95 \\
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This sensor is made by [[http://www.avagotech.com/pages/home/|Avago Technologies]] and distributed by [[http://www.sparkfun.com/products/10904| Sparkfun]] \\
Price
: $24.95 \\
to:
This sensor is made by [[http://www.avagotech.com/pages/home/|Avago Technologies]] and distributed by Sparkfun. \\
[[http://www.sparkfun.com/products/10904| Sparkfun]] cost: $24.95 \\
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[[http://robosavvy.com/store/product_info.php/products_id/2095| Robossavy (Europe)]]\\

Outline here where you got your sensor, how much it cost and what your experience of getting it was like
.
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[[http://robosavvy.com/store/product_info.php/products_id/2095| Robossavy (Europe)]]\\ cost: 14.89
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!!!INTRODUCTION
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!!!Introduction
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!!!Introduction
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!!!INTRODUCTION
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\\
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\\
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\\
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The HDJD-S822 is really simply to get it up and running. \\
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The HDJD-S822 is really simply to get it up and running.
\\
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The HDJD-S822 is really simply to get it up and running.

!
!!!Sources
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The HDJD-S822 is really simply to get it up and running. \\

!!!Sources
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!!!Sources
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!!!!Sources
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[[http://dlnmh9ip6v2uc.cloudfront.net/datasheets/Sensors/LightImaging/HDJD-S822-QR999.pdf| Datasheet]] \\
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Put a link to the datasheet at the top. Also link any retail sources, for example if you're using a breakout board, or any other parts that making the sensor easier.
to:

[[http://dlnmh9ip6v2uc
.cloudfront.net/datasheets/Sensors/LightImaging/HDJD-S822-QR999.pdf| Datasheet]] \\
Also link any retail sources, for example if you're using a breakout board, or any other parts that making the sensor easier.
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[= Attach:ColorSensor_pins.png =]
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Price: $24.95
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Price: $24.95 \\
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%width=500%[[|http://itp.nyu.edu/physcomp/sensors/uploads/Color%20Sensor.jpg]]%%
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!!!Introduction
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!!!Introduction
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!!HDJD-S822 Color Sensor Breakout Initial report by [[~mdl425| Manuela Donoso]] 30 03, 2012
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!HDJD-S822 Color Sensor Breakout
Initial report by [[~mdl425| Manuela Donoso]] 30 03, 2012
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!!HDJD-S822 Color Sensor Breakout
Initial report by [[~mdl425| Manuela Donoso]] 30 03, 2012
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!!HDJD-S822 Color Sensor Breakout Initial report by [[~mdl425| Manuela Donoso]] 30 03, 2012
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!!HDJD-S822 Color Sensor Breakout
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Initial report by [=[[~mdl425| Manuela Donoso]]=], 30 03, 2012
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Initial report by [[~mdl425| Manuela Donoso]] 30 03, 2012
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[[http://en.wikipedia.org/wiki/Fast_Fourier_transform | fft]]
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[[http://dlnmh9ip6v2uc.cloudfront.net/datasheets/Sensors/LightImaging/HDJD-S822-QR999.pdf| Datasheet]] \\
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[[http://robosavvy.com/store/product_info.php/products_id/2095| Robossavy (Eurpe)]]\\
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Price: $24.95
[[http:
//robosavvy.com/store/product_info.php/products_id/2095| Robossavy (Europe)]]\\
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Ideal choice of for open loop and closed loop color identification.
Potential applications are such as: general color detection, industrial process, environmental lighting, cabin lighting, decorative lighting and etc. (Datasheet)
Also can be used for monitor calibration.
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[[http://www.sparkfun.com/products/10904| Sparkfun]]
to:
This sensor is made by [[http://www.avagotech.com/pages/home/|Avago Technologies]] and distributed by [[http://www.sparkfun.com/products/10904| Sparkfun]] \\
[[http://robosavvy.com/store/product_info.php/products_id/2095| Robossavy (Eurpe)]]\\
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The sensor combines a photodiode array and three [[(Glossary/)transimpedance amplifiers]] in a single monolithic CMOS IC
solution.With a Red (R), Green (G) and Blue (B) color filters
coated over the photodiode array, the sensor converts
RGB light to analog voltage outputs, denoted by VROUT,
VGOUT and VBOUT, respectively. The sensor is packaged
in a 5x5x0.75 [mm] surface mount QFN-16 package.
to:
The sensor combines a photodiode array and three [[(Glossary/)transimpedance amplifiers]] in a single monolithic CMOS IC solution.
With a Red (R), Green (G) and Blue (B) color filters coated over the photodiode array, the sensor converts RGB light to analog voltage outputs, denoted by VROUT,
VGOUT and VBOUT, respectively. The sensor is packaged in a 5x5x0.75 [mm] surface mount QFN-16 package.
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[[http://www.sparkfun.com/products/10904| Sparkfun]]
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Initial report by [=[[~mdl425| Manuela Donoso]]=], 30 03, 2012

[= Attach:Color Sensor.jpg =]

[[http://en.wikipedia.org/wiki/Fast_Fourier_transform | fft]]

!!!Introduction

The HDJD-S822-QR999 is a high performance effective light to voltage converting sensor.
This color senor module can detect the color of an object and report it back to your processor for applications like color sorting.
The sensor combines a photodiode array and three [[(Glossary/)transimpedance amplifiers]] in a single monolithic CMOS IC
solution.With a Red (R), Green (G) and Blue (B) color filters
coated over the photodiode array, the sensor converts
RGB light to analog voltage outputs, denoted by VROUT,
VGOUT and VBOUT, respectively. The sensor is packaged
in a 5x5x0.75 [mm] surface mount QFN-16 package.

The HDJD-S822 is really simply to get it up and running.

!!!Sources

Outline here where you got your sensor, how much it cost and what your experience of getting it was like.

!!!Applications

Describe some typical applications of this sensor. You can often get this from the datasheet, but a few examples from companies or individuals who've used it would be useful as well.

!!!Electrical Characteristics
Put a link to the datasheet at the top. Also link any retail sources, for example if you're using a breakout board, or any other parts that making the sensor easier.

Give the voltage and amperage ranges, and any other relevant electrical data.

Describe the electrical changes when the sensor senses whatever physical changes it senses. Include graphs as needed.

!!! Pin Descriptions
Give a list of the pins, and a pin diagram as appropriate. Detail the function of each pin in a short paragraph following the list.


!!!Microcontroller Connections
Explain how to connect the sensor to a microcontroller or computer. Include a schematic and any other necessary diagrams. Make sure to include a list of every part in the schematic.

!!!Additional parts needed to use it
List any hardware needed to interface this sensor to a microcontroller or computer.

!!!Code Sample
Give a code sample for the microcontroller you developed the example on. Link it to the Code group of the wiki, formatting the link like this:

[=[[Code.myCodeSample | Code Sample]]=]

In your code sample, show how to do the following:
* read the sensor's output and save in a variable.
* convert the sensor's output range to a voltage range corresponding to the microcontroller's analog-to-digital range.
* convert from voltage to the physical property that the sensor measures. Provide the appropriate math in a separate function, as needed.
* print the raw sensor reading, the voltage reading, and the physical property reading serially

!!!Typical Behavior
Describe the behavior of the sensor when you use it to sense something. Note any peculiarities that you had to work around, or things that might affect someone else's use. Graphs and images are useful here.

!!!Application Notes
Describe your own application of the sensor. Link to any external documentation of your project, and discuss how you got the sensor to do what you needed it to.

!!!References/Bibliography
Add links to any reference material you used to learn about your sensor. Cite your sources for explanations, code, and circuits.

!!!Keywords

List any useful tags or keywords that will make this report more searchable.