MMA7260QR2 Freescale, MMA7260QR2 Datasheet

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... ZigBee™- Compliant Platform - 2.4 GHz Low Power ® Transceiver for the IEEE 802.15.4 Standard plus Microcontroller Data Sheet, document number MC1321x. © Freescale Semiconductor, Inc., 2006, 2007, 2008. All rights reserved. Document Number: AN3232 Rev. 1.1, 03/2008 Contents 1 Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . 1 2 SRB Hardware Overview . . . . . . . . . . . . . . . . 2 3 Triax Demonstration Overview ...

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... The SRB inch by 3 inch reference board that can be configured as a network node that contains the MC13213 transceiver/MCU System in a Package (SiP MHz crystal, and a printed circuit antenna. Also included is a Freescale MMA7260QR2 3-axis accelerometer that has four g-force settings: • ...

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... Provides a log and Z axes movement over a specified accelerometer threshold in the X, Y, and Z axes. Handling Also provides an indicator that shows if the SRB has been turned upside down. The Shipping and Handling applet simulates a shipping acceleration monitor for tracking sensitive packages. Accelerometer Demonstration Application Note, Rev. 1.1 Freescale Semiconductor NOTE ...

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... Once the Accelerometer Board detects movement, the board simulates a power up and the buzzer is again turned on. This is a good demonstration for a remote control board. Accelerometer Demonstration Application Note, Rev. 1.1 4 Description Description Freescale Semiconductor ...

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... Sensor Data View To accurately map the output of the MMA7260QR2 accelerometer to the “Raw Data” applet in the Triax application while the SRB is laying flat, the raw values should read approximately 0,0 for the X and Y axes. This is because the SRB is not moving in either axis. However, the Z axis should read approximately 1 because gravity is pushing down on the device at approximately 1g ...

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... Each axis value converted into g's This data is displayed as shown in Figure 4. Raw Data Demonstration Application To improve accuracy of the accelerometer readings, refer to “Setting Up the Calibration Accelerometer Demonstration Application Note, Rev. 1.1 6 Figure 3. SRB X, Y, and Z Axes Orientation Figure 4. NOTE Application”. Section 4.9, Freescale Semiconductor ...

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... Demonstration application uses the raw data sent from the accelerometers and processed by the MCU. It uses the converted data to move to the corresponding location on the display as shown in and Figure 6 (3-D). Accelerometer Demonstration Application Note, Rev. 1.1 Freescale Semiconductor Figure 5. XYZ Application (2-D) Figure 6. XYZ Application (3-D) Figure 5 (2-D) 7 ...

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... Through software, the monitor would be able to monitor the patient’s arm for movement, identify the angle of the patient’s arm, and determine if the angle of the patient’s arm has changed. Accelerometer Demonstration Application Note, Rev. 1.1 8 Figure 7. Tilt Module Figure 7. Freescale Semiconductor ...

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... The Shipping and Handling application uses the low-g accelerometers to detect shock and on which axis the shock occurred. As shown in threshold is violated or when the accelerometer is turned upside down. Figure 8. Shipping and Handling Application Accelerometer Demonstration Application Note, Rev. 1.1 Freescale Semiconductor Figure 8, this application time stamps every time a predetermined shock 9 ...

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... If a simulated unbalanced condition is not present, then the data points are drawn in blue. Accelerometer Demonstration Application Note, Rev. 1.1 10 Figure 9. Load Imbalance Application Figure 9. The application Freescale Semiconductor ...

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... PDA menu item selection item is in the X axis direction. By tilting the SRB front to back or back to front, users can change the highlighted item in the PDA menu as shown in Accelerometer Demonstration Application Note, Rev. 1.1 Freescale Semiconductor Figure 10. Figure 10. Triax PDA Scroll Application ...

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... To reduce RF traffic from the accelerometer to the PC_Radio embedded applications, the Accelerometer application only updates the PC_Radio when the X, Y, and Z axes readings have deviated from the previous values. Application choices can affect the way a wireless system performs. Accelerometer Demonstration Application Note, Rev. 1.1 12 Freescale Semiconductor ...

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... Figure 12. Triax Digitally Filtered Tilt (XY Scope View) Figure 13 displays the Digitally Filtered Tilt XY Filtered view with a 100 point moving average of the X and Y axes readings. Figure 13. Triax Digitally Filtered Tilt (Moving Average) Accelerometer Demonstration Application Note, Rev. 1.1 Freescale Semiconductor 13 ...

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... Press SW1 four times on the Accelerometer Board, pausing between each button press until LED2 and LED4 are lit. LED2 and LED4 indicate that Application Five (Anti Theft Alarm) is running the Accelerometer Board is tilted 15 degrees past nominal, the buzzer sounds on both the PC_Radio and the Accelerometer Board. Accelerometer Demonstration Application Note, Rev. 1.1 14 Freescale Semiconductor ...

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... For example, out of reset, LED4 is set to indicate that the first channel (2.405 GHz) is being used. To change channels, press SW2 on the Accelerometer Board. The buzzer chirps and LED3 is set to indicate Accelerometer Demonstration Application Note, Rev. 1.1 Freescale Semiconductor PC GUI must be running, but it is Triax.exe ...

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... LED2 OFF • LED3 ON • LED4 ON This process continues until users reach Application Six. The application then rolls back over to Application 1 and the process continues. No changes are required to the PC_Radio to switch between applications. Accelerometer Demonstration Application Note, Rev. 1.1 16 NOTE Freescale Semiconductor ...

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... To program the SRB, users must have a P&E Background Debug Module (BDM) Multilink cable. The P&E BDM Multilink cable is used with CodeWarrior™ Development Studio for the HCS08 to program the MCU and is available from Freescale. The red lead of the BDM cable must align to pin 1 of J101. ...

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... Close the Debug window and detach the P&E BDM Multilink cable from the SRB program the next SRB, repeat the steps shown in Programming”. Accelerometer Demonstration Application Note, Rev. 1.1 18 file. Accelerometer V3.mcp Section 6.1, “Setting Up the SRBs for Freescale Semiconductor ...

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... Watch LED1 on the Accelerometer Board. LED1 will blink every time the Accelerometer Board is moved. Each time the Accelerometer Board is moved, it sends a data packet to the PC_Radio Board that tells the PC_Radio Board that the position and or orientation of the Accelerometer Board has changed Accelerometer Demonstration Application Note, Rev. 1.1 Freescale Semiconductor 19 ...

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... Scroll to the “Ports” label and expand the tree by clicking the “+” sign to show the COM ports in the system. d) The COM Port selected by the system is titled “Freescale ZigBee/802.15.4 MAC COM Device (COM5)” as shown in Figure 15. COM Port Determination in Device Manager Accelerometer Demonstration Application Note, Rev ...

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... If the COM port chosen for “Freescale Zigbee/802.15.4 MAC COM Device” is not a port within Ports 1-10, then perform the following tasks: a) Double click on “Freescale Zigbee/802.15.4 MAC COM Device” in the Device Manager window and the Properties window will appear. b) Select the “Port Settings” tab and then click the “Advanced” button. ...

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... Makes the PC_Radio application aware of the Accelerometer application’s timebase Cal Values are sent periodically in the event that they have to change. The Event Packet is Application Number Specific. The gi8AppStatus tells the PC_Radio which application number is sending the event. The options format defines which event is occurring. Freescale Semiconductor ...

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... Accelerometer Demonstration Application Note, Rev. 1.1 Freescale Semiconductor 23 ...

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... Freescale Semiconductor products are not designed, intended, or authorized for use as components in systems intended for surgical implant into the body, or other applications intended to support or sustain life, or for any other application in which the failure of the Freescale Semiconductor product could create a situation where personal injury or death may occur. Should ...