1043 User Guide: Difference between revisions

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__NOINDEX__
<metadesc>The PhidgetSpatial 0/0/3 Precision has 3-axis, ±8g accelerometer with high resolution measurements at low magnitudes.</metadesc>
[[Category:UserGuide]]
[[Category:UserGuide]]
==Getting Started==
==Getting Started==
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Next, you will need to connect the pieces:
Next, you will need to connect the pieces:
[[Image:1049_0_Connecting_The_Hardware.jpg|400px|right|link=]]
[[Image:1049_0_Connecting_The_Hardware.jpg|500px|right|link=]]
# Connect the PhidgetSpatial to your computer using the USB cable.
# Connect the PhidgetSpatial to your computer using the USB cable.


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{{ugAccelerometer|1043|, labelled ''PhidgetSpatial Precision 0/0/3 High Resolution'''}}
{{ugAccelerometer|1043|, labelled ''PhidgetSpatial Precision 0/0/3 High Resolution'''}}


{{ugAddressingInformation}}
{{ugUsingYourOwnProgram|1043}}


==Technical Details==
==Technical Details==
The PhidgetSpatial 0/0/3 has a 3-Axis accelerometer that can measure ±8 g’s (±78 m/s2) per axis.  It will measure both dynamic acceleration (change in velocity) and static acceleration (gravity vector).  The Phidgetspatial 3-Axis 0/0/3 is internally calibrated.
===General===
The 1043 has a 3-Axis accelerometer that can measure ±8 g’s (±78 m/s2) per axis.  It will measure both dynamic acceleration (change in velocity) and static acceleration (gravity vector).  The Phidgetspatial 3-Axis 0/0/3 is internally calibrated.
 
===Orientation===
 
[[File:1041 0 Axis Diagram.jpg|500px|link=]]
 
When working with an accelerometer it is important to know which is the positive and negative direction on each of the axes.  This can be determined by orienting the accelerometer along each axis and checking the output. The above image shows what the axis readings should be for each orientation of the 1043.
 


===High Resolution Mode===
===High Resolution Mode===
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===Further Reading===
===Further Reading===
For more information on testing and calibrating this device, check the [[Accelerometer Primer]].
For more information on testing and calibrating this device, check the [[Accelerometer Guide]].




{{UGnext|}}
{{UGnext|}}

Latest revision as of 19:51, 1 June 2023


Getting Started

Welcome to the 1043 user guide! In order to get started, make sure you have the following hardware on hand:


Next, you will need to connect the pieces:

1049 0 Connecting The Hardware.jpg
  1. Connect the PhidgetSpatial to your computer using the USB cable.


Now that you have everything together, let's start using the 1043!

Using the 1043

Phidget Control Panel

In order to demonstrate the functionality of the 1043, the Phidget Control Panel running on a Windows machine will be used.


The Phidget Control Panel is available for use on both macOS and Windows machines.

Windows

To open the Phidget Control Panel on Windows, find the Ph.jpg icon in the taskbar. If it is not there, open up the start menu and search for Phidget Control Panel

Windows PhidgetTaskbar.PNG

macOS

To open the Phidget Control Panel on macOS, open Finder and navigate to the Phidget Control Panel in the Applications list. Double click on the Ph.jpg icon to bring up the Phidget Control Panel.


For more information, take a look at the getting started guide for your operating system:


Linux users can follow the getting started with Linux guide and continue reading here for more information about the 1043.

First Look

After plugging the 1043 into your computer and opening the Phidget Control Panel, you will see something like this:

1043 Panel.jpg


The Phidget Control Panel will list all connected Phidgets and associated objects, as well as the following information:

  • Serial number: allows you to differentiate between similar Phidgets.
  • Channel: allows you to differentiate between similar objects on a Phidget.
  • Version number: corresponds to the firmware version your Phidget is running. If your Phidget is listed in red, your firmware is out of date. Update the firmware by double-clicking the entry.


The Phidget Control Panel can also be used to test your device. Double-clicking on an object will open an example.

Accelerometer

Double-click on the Accelerometer object , labelled PhidgetSpatial Precision 0/0/3 High Resolution' in order to run the example:

1043 Accelerometer Example.jpg


General information about the selected object will be displayed at the top of the window. You can also experiment with the following functionality:

  • Modify the change trigger and/or data interval value by dragging the sliders. For more information on these settings, see the data interval/change trigger page.
  • The measured values reported in g-force can be seen via labels as well as graphical dials. Try tilting the 1043 in different directions to see the labels and graphics change.
  • An extremely accurate timestamp is also reported with the g-force values.


Finding The Addressing Information

Before you can access the device in your own code, and from our examples, you'll need to take note of the addressing parameters for your Phidget. These will indicate how the Phidget is physically connected to your application. For simplicity, these parameters can be found by clicking the button at the top of the Control Panel example for that Phidget.

The locate Phidget button is found in the device information box

In the Addressing Information window, the section above the line displays information you will need to connect to your Phidget from any application. In particular, note the Channel Class field as this will be the API you will need to use with your Phidget, and the type of example you should use to get started with it. The section below the line provides information about the network the Phidget is connected on if it is attached remotely. Keep track of these parameters moving forward, as you will need them once you start running our examples or your own code.

All the information you need to address your Phidget

Using Your Own Program

You are now ready to start writing your own code for the device. The best way to do that is to start from our Code Samples.

Select your programming language of choice from the drop-down list to get an example for your device. You can use the options provided to further customize the example to best suit your needs.

Code Sample Choose Language.png


Once you have your example, you will need to follow the instructions on the page for your programming language to get it running. To find these instructions, select your programming language from the Programming Languages page.

Technical Details

General

The 1043 has a 3-Axis accelerometer that can measure ±8 g’s (±78 m/s2) per axis. It will measure both dynamic acceleration (change in velocity) and static acceleration (gravity vector). The Phidgetspatial 3-Axis 0/0/3 is internally calibrated.

Orientation

1041 0 Axis Diagram.jpg

When working with an accelerometer it is important to know which is the positive and negative direction on each of the axes. This can be determined by orienting the accelerometer along each axis and checking the output. The above image shows what the axis readings should be for each orientation of the 1043.


High Resolution Mode

When the PhidgetSpatial High Resolution 0/0/3 measures an acceleration value with magnitude less than 2g, it will acquire its data from a higher precision accelerometer chip. For these measurements, the average white noise on each axis will be reduced by approximately a factor of ten, and the resolution will increase from 976 μg to 76 μg. The transition from normal to high precision or vice-versa is seamless, with no additional code or equations needed.

Further Reading

For more information on testing and calibrating this device, check the Accelerometer Guide.


What to do Next

  • Programming Languages - Find your preferred programming language here and learn how to write your own code with Phidgets!
  • Phidget Programming Basics - Once you have set up Phidgets to work with your programming environment, we recommend you read our page on to learn the fundamentals of programming with Phidgets.