Tutorial.BarometricPressureWebServer History

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November 28, 2011, at 04:29 PM by Scott Fitzgerald -
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November 16, 2011, at 05:12 AM by Scott Fitzgerald -
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November 16, 2011, at 04:29 AM by Scott Fitzgerald -
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September 17, 2010, at 04:37 PM by Tom Igoe -
September 17, 2010, at 04:33 PM by Tom Igoe -
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See Also:

September 17, 2010, at 04:32 PM by Tom Igoe -
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August 15, 2010, at 06:33 AM by Christian Cerrito -
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'!!!Code'

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Code

August 15, 2010, at 06:33 AM by Christian Cerrito -
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See the Barometric Pressure Sensor example for more on how the sensor works.

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Describe what's going on here. See the Barometric Pressure Sensor example for more on how the sensor works.

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'!!!Code'

August 15, 2010, at 06:31 AM by Christian Cerrito -
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Your Barometric Pressure sensor will be attached to pins 6,7, and 11 - 13 of your Arduino/Ethernet shield combo, and powered via your device's 3.3 volt output. Connect the DRDY (Data Ready) pin on your sensor to digital pin 6 on your combo, and the CSB pin (Chip Select) to digital pin 7. Your sensor's MOSI (Master Out Slave In) pin should then be connected to digital pin 11, and it's counterpart MISO (Master In Slave Out) to digital pin 12. Finally, connect SCK, the SPI clock input on your sensor to pin 13 on your device, and make sure that the two share a common ground.

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Your Barometric Pressure sensor will be attached to pins 6,7, and 11 - 13 of your Arduino/Ethernet shield combo, and powered via your device's 3.3 volt output. Connect the DRDY (Data Ready) pin on your sensor to digital pin 6 on your combo, and the CSB pin (Chip Select) to digital pin 7. Your sensor's MOSI (Master Out Slave In) pin should then be connected to digital pin 11, and it's counterpart MISO (Master In Slave Out) to digital pin 12. Finally, connect the SCK pin, the SPI clock input on your sensor, to digital pin 13 on your device, and make sure that the two share a common ground.

After wiring your sensor, your shield should be connected to a network with an ethernet cable. You will need to change the network settings in the program to correspond to your network.

August 15, 2010, at 06:22 AM by Christian Cerrito -
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In the above image, the Arduino would be connected below the Ethernet shield.

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In the above image, the Arduino would be stacked below the Ethernet shield.

August 15, 2010, at 06:22 AM by Christian Cerrito -
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Your Barometric Pressure sensor will be attached to pins 6,7, and 11 - 13 of your Arduino/Ethernet shield combo, and powered via your device's 3.3 volt output. Connect the DRDY (Data Ready) pin on your sensor to digital pin 6 on your combo, and the CSB pin (Chip Select) to digital pin 7. Your sensor's MOSI (Master Out Slave In) pin should then be connected to digital pin 11, and it's counterpart MISO (Master In Slave Out) to digital pin 12. Finally, connect SCK, the SPI clock input on your sensor to pin 13 on your device, and make sure that the two share a common ground.

August 15, 2010, at 06:04 AM by Christian Cerrito -
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This example shows how to use SPI communications to read data from [[ http://www.sparkfun.com/commerce/product_info.php?products_id=8161 | a SCP1000 Barometric Pressure sensor, and how to then post that data to the web by using your Arduino/Ethernet Shield combo as a simple web server. Using the Ethernet library, your device will be able to answer HTTP requests by responding with just enough HTML for a browser to display the temperature and barometric pressure values outputted by your sensor. After completing your circuit and uploading the example code below, simply navigate to your Ethernet shield's IP address, in a browser, to see this information.

to:

This example shows how to use SPI communications to read data from a SCP1000 Barometric Pressure sensor, and how to then post that data to the web by using your Arduino/Ethernet Shield combo as a simple web server. Using the Ethernet library, your device will be able to answer HTTP requests by responding with just enough HTML for a browser to display the temperature and barometric pressure values outputted by your sensor. After completing your circuit and uploading the example code below, simply navigate to your Ethernet shield's IP address, in a browser, to see this information.

August 15, 2010, at 06:04 AM by Christian Cerrito -
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This example shows how to use SPI communications to read data from a SCP1000 Barometric Pressure sensor, and how to then post that data to the web by using your Arduino/Ethernet Shield combo as a simple web server. Using the Ethernet library, your device will be able to answer HTTP requests by responding with just enough HTML for a browser to display the temperature and barometric pressure values outputted by your sensor. After completing your circuit and uploading the example code below, simply navigate to your Ethernet shield's IP address, in a browser, to see this information.

to:

This example shows how to use SPI communications to read data from [[ http://www.sparkfun.com/commerce/product_info.php?products_id=8161 | a SCP1000 Barometric Pressure sensor, and how to then post that data to the web by using your Arduino/Ethernet Shield combo as a simple web server. Using the Ethernet library, your device will be able to answer HTTP requests by responding with just enough HTML for a browser to display the temperature and barometric pressure values outputted by your sensor. After completing your circuit and uploading the example code below, simply navigate to your Ethernet shield's IP address, in a browser, to see this information.

August 15, 2010, at 06:02 AM by Christian Cerrito -
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Describe

August 15, 2010, at 06:02 AM by Christian Cerrito -
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This example shows how to use SPI communications to read data from a SCP1000 Barometric Pressure sensor, and how to then post that data to the web by using your Arduino/Ethernet Shield combo as a simple web server. Using the Ethernet library, your device will be able to answer HTTP requests by responding with just enough HTML for a browser to display the temperature and barometric pressure values outputted by your sensor. After completing you circuit and uploading the example code below, simply navigate to your Ethernet shield's IP address, in a browser, to see this information.

to:

This example shows how to use SPI communications to read data from a SCP1000 Barometric Pressure sensor, and how to then post that data to the web by using your Arduino/Ethernet Shield combo as a simple web server. Using the Ethernet library, your device will be able to answer HTTP requests by responding with just enough HTML for a browser to display the temperature and barometric pressure values outputted by your sensor. After completing your circuit and uploading the example code below, simply navigate to your Ethernet shield's IP address, in a browser, to see this information.

August 15, 2010, at 06:01 AM by Christian Cerrito -
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This example shows how to use SPI communications to read data from a SCP1000 Barometric Pressure sensor, and how to then post that data to the web by using your Arduino/Ethernet Shield combo as a simple web server. Using the Ethernet library, your device will be able to answer HTTP requests by responding with just enough HTML for a browser to display the temperature and barometric pressure values outputted by your sensor. After completing you circuit and uploading the example code below, simply navigate to your Ethernet shield's IP address, in a browser, to see this information.

August 15, 2010, at 01:50 AM by Christian Cerrito -
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In the above image, the Arduino would be connected below the Ethernet shield.

August 14, 2010, at 01:19 AM by Tom Igoe -
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Describe what's going on here

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Describe what's going on here. See the Barometric Pressure Sensor example for more on how the sensor works.

August 11, 2010, at 11:50 PM by Tom Igoe -
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August 11, 2010, at 11:50 PM by Tom Igoe -
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