High Accuracy, 3D Magnetometer

MAG3110 No Longer Manufactured
  • This page contains information on a product that is no longer manufactured (discontinued). Specifications and information herein are available for historical reference only.

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The MAG3110 is a small, low-power digital 3D magnetic sensor with a wide dynamic range to allow operation in PCBs with high extraneous magnetic fields. The MAG3110:

  • Measures the components of the local magnetic field, the sum of the geomagnetic field and the magnetic field created by components on the circuit board
  • Can be used in conjunction with a 3-axis accelerometer so that orientation-independent accurate compass heading information may be achieved
  • Features a standard I²C serial interface and is capable of measuring local magnetic fields up to 10 Gauss with output data rates up to 80 Hz

Product Details

N true 0 PSPMAG3110en 15 Application Note Application Note t789 5 Brochure Brochure t518 1 Data Sheet Data Sheet t520 1 Fact Sheet Fact Sheet t523 1 Selector Guide Selector Guide t528 1 Supporting Information Supporting Information t531 1 User Guide User Guide t792 2 White Paper White Paper t530 3 en_US en_US en Data Sheet Data Sheet 1 1 9.2 English Freescale&#8217;s MAG3110 is a small, low-power, digital 3-axis magnetometer. The device can be used in conjunction with a 3-axis accelerometer to realize an orientation independent electronic compass that can provide accurate heading information. It features a standard I2C serial interface output and smart embedded functions. 1294413760914707434442 PSP 475.9 KB None None documents None 1294413760914707434442 /docs/en/data-sheet/MAG3110.pdf 475912 /docs/en/data-sheet/MAG3110.pdf MAG3110 documents N N 2016-10-31 Freescale MAG3110 Three-Axis, Digital Magnetometer - Data Sheet /docs/en/data-sheet/MAG3110.pdf /docs/en/data-sheet/MAG3110.pdf Data Sheet N 980000996212993340 2022-12-07 pdf N en Feb 15, 2013 980000996212993340 Data Sheet Y N Freescale MAG3110 Three-Axis, Digital Magnetometer - Data Sheet Application Note Application Note 5 2 4.0 English AN4247: This application note is intended to guide engineers in the successful design of Printed Circuit Boards (PCBs) incorporating magnetometer sensors. For convenience, the application discussed is an electronic compass (or eCompass) designed into a smartphone but the guidelines are equally applicable to other products using a magnetometer. 1304101701460727668501 PSP 332.3 KB None None documents None 1304101701460727668501 /docs/en/application-note/AN4247.pdf 332287 /docs/en/application-note/AN4247.pdf AN4247 documents N N 2016-10-31 AN4247, Layout Recommendations for PCBs Using a Magnetometer Sensor - Application Notes /docs/en/application-note/AN4247.pdf /docs/en/application-note/AN4247.pdf Application Note N 645036621402383989 2022-12-07 pdf N en Nov 13, 2015 645036621402383989 Application Note Y N AN4247, Layout Recommendations for PCBs Using a Magnetometer Sensor - Application Notes 3 1.0 English AN4249: This application note addresses the relationship between errors in the outputs from accelerometer and magnetometer sensors and the resulting errors in the roll, pitch and yaw angles computed by a tilt-compensated eCompass or 3D Pointer application. 1308237516737728147258 PSP 337.3 KB None None documents None 1308237516737728147258 /docs/en/application-note/AN4249.pdf 337314 /docs/en/application-note/AN4249.pdf AN4249 documents N N 2016-10-31 AN4249, Accuracy of Angle Estimation in eCompass and 3D Pointer Applications - Application Notes /docs/en/application-note/AN4249.pdf /docs/en/application-note/AN4249.pdf Application Note N 645036621402383989 2022-12-07 pdf N en Nov 13, 2015 645036621402383989 Application Note Y N AN4249, Accuracy of Angle Estimation in eCompass and 3D Pointer Applications - Application Notes 4 4.0 English This application note provides the theory for the in-situ calibration of a smartphone electronic compass (eCompass) for hard- and soft- iron effects. The mathematical framework is that which is developed in AN4248 &#8220;Implementing a Tilt-Compensated eCompass using Accelerometer and Magnetometer Sensors&#8221; and AN4247 &#8220;Layout Recommendations for PCBs Using a Magnetometer Sensor.&#8221; It is therefore highly recommended to read these application notes first before reading this document. 1307815370599723958283 PSP 307.1 KB None None documents None 1307815370599723958283 /docs/en/application-note/AN4246.pdf 307093 /docs/en/application-note/AN4246.pdf AN4246 documents N N 2011-06-11 Calibrating an eCompass in the Presence of Hard- and Soft-Iron Interference - Application Note /docs/en/application-note/AN4246.pdf /docs/en/application-note/AN4246.pdf Application Note N 645036621402383989 2022-12-07 pdf N en Nov 13, 2015 645036621402383989 Application Note Y N Calibrating an eCompass in the Presence of Hard- and Soft-Iron Interference - Application Note 5 4.0 English AN4248: This technical note provides the mathematics, reference source code and guidance for engineers implementing a tilt-compensated electronic compass (eCompass). The eCompass uses a three-axis accelerometer and three- axis magnetometer. The accelerometer measures the components of the earth's gravity and the magnetometer measures the components of earth's magnetic field. 1301006528855698902331 PSP 670.1 KB None None documents None 1301006528855698902331 /docs/en/application-note/AN4248.pdf 670116 /docs/en/application-note/AN4248.pdf AN4248 documents N N 2016-10-31 AN4248, Implementing a Tilt-Compensated E-Compass Using Accelerometer and Magnetometer Sensors - Application Notes /docs/en/application-note/AN4248.pdf /docs/en/application-note/AN4248.pdf Application Note N 645036621402383989 2022-12-07 pdf N en Nov 13, 2015 645036621402383989 Application Note Y N AN4248, Implementing a Tilt-Compensated E-Compass Using Accelerometer and Magnetometer Sensors - Application Notes 6 0 English This application note describes two measurement methods associated with reducing current consumption in low data rate applications for two NXP magnetometers (FXOS8700 6-Axis E-Compass and MAG3110 Digital Magnetometer): the one-shot measurement method and the power cycling measurement method. 1412983550342689833703 PSP 653.5 KB None None documents None 1412983550342689833703 /docs/en/application-note/AN4984.pdf 653524 /docs/en/application-note/AN4984.pdf AN4984 documents N N 2016-10-31 AN4984, Optimizing Magnetic Sensor Power Operations for Low Data Rates /docs/en/application-note/AN4984.pdf /docs/en/application-note/AN4984.pdf Application Note N 645036621402383989 2022-12-07 pdf N en Oct 10, 2014 645036621402383989 Application Note Y N AN4984, Optimizing Magnetic Sensor Power Operations for Low Data Rates User Guide User Guide 2 7 2 English This User&#8217;s Guide describes the operation of the NXP Sensor Toolbox e-compass and magnetic calibration software which supports MAG3110, MMA8451 and FXOS8700CQ. 1344298646122726388188 PSP 978.9 KB None None documents None 1344298646122726388188 /docs/en/user-guide/eCOMPASSSTUG.pdf 978919 /docs/en/user-guide/eCOMPASSSTUG.pdf ECOMPASSSTUG documents N N 2016-10-31 E-Compass Sensor Toolbox User’s Guide /docs/en/user-guide/eCOMPASSSTUG.pdf /docs/en/user-guide/eCOMPASSSTUG.pdf User Guide N 132339537837198660 2023-06-19 pdf N en Apr 22, 2013 132339537837198660 User Guide Y N E-Compass Sensor Toolbox User’s Guide 8 2 English The RD4247MAG3110 sensor toolbox tilt-compensated eCompass kit provides hardware and software for demonstrating the capability of the MAG3110 3-axis digital magnetometer in an eCompass application with hard- and soft-iron calibration. 1305319850557715929217 PSP 1.4 MB None None documents None 1305319850557715929217 /docs/en/user-guide/MAG3110UG.pdf 1390893 /docs/en/user-guide/MAG3110UG.pdf MAG3110UG documents N N 2016-10-31 RD4247MAG3110 Sensor Toolbox Tilt-Compensated eCompass Kit - User's Guide /docs/en/user-guide/MAG3110UG.pdf /docs/en/user-guide/MAG3110UG.pdf Y User Guide N 132339537837198660 2022-12-07 pdf N en Aug 19, 2011 132339537837198660 User Guide Y N RD4247MAG3110 Sensor Toolbox Tilt-Compensated eCompass Kit - User's Guide Brochure Brochure 1 9 2 Chinese 1306940498097721813460zh PSP 4.5 MB None None documents None 1306940498097721813460 /docs/zh/brochure/SENSPRODCAT.pdf 4516738 /docs/zh/brochure/SENSPRODCAT.pdf SENSPRODCAT documents N N 2016-10-31 Sensors NXP<sup>®</sup> Overview - Brochures /docs/zh/brochure/SENSPRODCAT.pdf /docs/zh/brochure/SENSPRODCAT.pdf Brochure N 712453003803778552 2022-12-07 zh 712453003803778552 Brochure N 飞思卡尔传感器概述 - 手册 2 English NXP&#8217;s introduction of the MAG3110 magnetometer is the first product of the expansion into magnetic sensors, complimenting our broad portfolio of inertial, pressure and touch sensors. NXP<sup>&#174;</sup> is a leading provider of sensors for the appliance, automotive, consumer, industrial and health care markets. The sensor ICs complement NXP&#8217;s broad portfolio of ZigBee &#174; technology, MCUs, microprocessors, digital signal processors, analog ICs, CodeWarrior<sup>&#174;</sup>. 1306940498097721813460 PSP 4.5 MB None None documents None 1306940498097721813460 /docs/en/brochure/SENSPRODCAT.pdf 4516738 /docs/en/brochure/SENSPRODCAT.pdf SENSPRODCAT documents N N 2016-10-31 Sensors NXP<sup>®</sup> Overview - Brochures /docs/en/brochure/SENSPRODCAT.pdf /docs/en/brochure/SENSPRODCAT.pdf Brochure N 712453003803778552 2022-12-07 pdf N en Jul 31, 2012 712453003803778552 Brochure Y N Sensors NXP<sup>®</sup> Overview - Brochures Fact Sheet Fact Sheet 1 10 3 Chinese 1294251870549734854420zh PSP 395.3 KB None None documents None 1294251870549734854420 /docs/zh/fact-sheet/MAG3110FS.pdf 395303 /docs/zh/fact-sheet/MAG3110FS.pdf MAG3110FS documents N N 2016-10-31 MAG3110 Freescale Magnetometer - Fact Sheet /docs/zh/fact-sheet/MAG3110FS.pdf /docs/zh/fact-sheet/MAG3110FS.pdf Fact Sheet N 736675474163315314 2022-12-07 zh 736675474163315314 Fact Sheet N MAG3110恩智浦磁力计 - 简介 4 English Our MAG3110 Xtrinsic 3-axis magnetometer is the latest addition to the extensive family of accelerometers, pressure and touch sensors. NXP&#8217;s MAG3110 measures the magnetic field in all three axes with ranges up to 1000 uT, at data rates up to 80 Hz. Provides full tilt-compensated electronic compass capability. 1294251870549734854420 PSP 395.3 KB None None documents None 1294251870549734854420 /docs/en/fact-sheet/MAG3110FS.pdf 395303 /docs/en/fact-sheet/MAG3110FS.pdf MAG3110FS documents N N 2016-10-31 MAG3110 Freescale Magnetometer - Fact Sheet /docs/en/fact-sheet/MAG3110FS.pdf /docs/en/fact-sheet/MAG3110FS.pdf Fact Sheet N 736675474163315314 2022-12-07 pdf N en Feb 18, 2020 736675474163315314 Fact Sheet Y N MAG3110 Freescale Magnetometer - Fact Sheet Selector Guide Selector Guide 1 11 13 English For system designers who want to work with various sensor types such as accelerometers, pressure sensors and magnetic sensors for applications in automotive, industrial IoT and medical. 1424471489332715853854 PSP 253.0 KB None None documents None 1424471489332715853854 /docs/en/product-selector-guide/SENSSELECT.pdf 252964 /docs/en/product-selector-guide/SENSSELECT.pdf SENSSELECT documents N N 2016-10-31 Sensor Product Selector Guide /docs/en/product-selector-guide/SENSSELECT.pdf /docs/en/product-selector-guide/SENSSELECT.pdf Selector Guide N 553557935274807777 2025-02-25 pdf N en May 13, 2024 553557935274807777 Selector Guide Y N Sensor Product Selector Guide Supporting Information Supporting Information 1 12 1 English Applications Collateral for the MAG3110 to Aid Customer Questions. 1294267649904709054304 PSP 121.0 KB None None documents None 1294267649904709054304 /docs/en/supporting-information/MAG3110FAQS.pdf 120961 /docs/en/supporting-information/MAG3110FAQS.pdf MAG3110FAQS documents N N 2016-10-31 MAG3110 Frequently Asked Questions - Supporting Information /docs/en/supporting-information/MAG3110FAQS.pdf /docs/en/supporting-information/MAG3110FAQS.pdf Supporting Information N 371282830530968666 2022-12-07 pdf N en May 6, 2012 371282830530968666 Supporting Information Y N MAG3110 Frequently Asked Questions - Supporting Information White Paper White Paper 3 13 2 English Low power sensors with the integrated capability to reduce power consumption play an important role in extending the battery life in portable systems. NXP has extensive capabilities in sensors, microcontrollers, power management, and RF technologies. 1365095391795722334999 PSP 381.7 KB None None documents None 1365095391795722334999 /docs/en/white-paper/LOWPOWERSENSWP.pdf 381651 /docs/en/white-paper/LOWPOWERSENSWP.pdf LOWPOWERSENSWP documents N N 2016-10-31 Low Power Sensing /docs/en/white-paper/LOWPOWERSENSWP.pdf /docs/en/white-paper/LOWPOWERSENSWP.pdf White Paper N 918633085541740938 2025-02-25 pdf N en May 20, 2015 918633085541740938 White Paper Y N Low Power Sensing 14 1 Chinese 1363970116444726555210zh PSP 3.6 MB None None documents None 1363970116444726555210 /docs/zh/white-paper/SENFEIOTLFWP.pdf 3621913 /docs/zh/white-paper/SENFEIOTLFWP.pdf SENFEIOTLFWP documents N N 2016-10-31 The Role of Sensor Fusion and Remote Emotive Computing (REC) in the Internet of Things (IoT) - White Paper /docs/zh/white-paper/SENFEIOTLFWP.pdf /docs/zh/white-paper/SENFEIOTLFWP.pdf White Paper N 918633085541740938 2025-02-24 zh Jul 9, 2013 918633085541740938 White Paper Y N 白皮书:传感器融合和远程情感计算(REC)在物联网(IoT)中的作用 1 English The age of sensor technology is upon us. These days, it&#8217;s unusual to experience an electronic consumer product that doesn&#8217;t use sensors to create new experiences for its users. Sensors are experiencing a renaissance of sorts as micro-electromechanical systems (MEMS) technology becomes less expensive and further miniaturized, in turn fueling penetration of sensors into new applications and creating new potential for the sensor market. 1363970116444726555210 PSP 3.6 MB None None documents None 1363970116444726555210 /docs/en/white-paper/SENFEIOTLFWP.pdf 3621913 /docs/en/white-paper/SENFEIOTLFWP.pdf SENFEIOTLFWP documents N N 2016-10-31 The Role of Sensor Fusion and Remote Emotive Computing (REC) in the Internet of Things (IoT) - White Paper /docs/en/white-paper/SENFEIOTLFWP.pdf /docs/en/white-paper/SENFEIOTLFWP.pdf White Paper N 918633085541740938 2025-02-24 pdf N en Jul 9, 2013 918633085541740938 White Paper Y N The Role of Sensor Fusion and Remote Emotive Computing (REC) in the Internet of Things (IoT) - White Paper 15 0 English Microsoft&#8217;s Windows Sensor and Location platform for the Windows 8 operating system provides a standardized approach to implementing sensor technology that users have come to expect in tablets, slates, laptops, and other mobile devices. 1365198568416712526634 PSP 709.4 KB None None documents None 1365198568416712526634 /docs/en/white-paper/WINDOWS8WP.pdf 709360 /docs/en/white-paper/WINDOWS8WP.pdf WINDOWS8WP documents N N 2016-10-31 Taking Advantage of a Certified Platform for Microsoft’s Windows® 8 Sensor Interface /docs/en/white-paper/WINDOWS8WP.pdf /docs/en/white-paper/WINDOWS8WP.pdf White Paper N 918633085541740938 2022-12-07 pdf N en Apr 5, 2013 918633085541740938 White Paper Y N Taking Advantage of a Certified Platform for Microsoft’s Windows® 8 Sensor Interface false 0 MAG3110 downloads en true 1 Y PSP Application Note 5 /docs/en/application-note/AN4247.pdf 2016-10-31 1304101701460727668501 PSP 2 Nov 13, 2015 Application Note AN4247: This application note is intended to guide engineers in the successful design of Printed Circuit Boards (PCBs) incorporating magnetometer sensors. For convenience, the application discussed is an electronic compass (or eCompass) designed into a smartphone but the guidelines are equally applicable to other products using a magnetometer. None /docs/en/application-note/AN4247.pdf English documents 332287 None 645036621402383989 2022-12-07 N /docs/en/application-note/AN4247.pdf AN4247, Layout Recommendations for PCBs Using a Magnetometer Sensor - Application Notes /docs/en/application-note/AN4247.pdf documents 645036621402383989 Application Note N en None Y pdf 4.0 N N AN4247, Layout Recommendations for PCBs Using a Magnetometer Sensor - Application Notes 332.3 KB AN4247 N 1304101701460727668501 /docs/en/application-note/AN4249.pdf 2016-10-31 1308237516737728147258 PSP 3 Nov 13, 2015 Application Note AN4249: This application note addresses the relationship between errors in the outputs from accelerometer and magnetometer sensors and the resulting errors in the roll, pitch and yaw angles computed by a tilt-compensated eCompass or 3D Pointer application. None /docs/en/application-note/AN4249.pdf English documents 337314 None 645036621402383989 2022-12-07 N /docs/en/application-note/AN4249.pdf AN4249, Accuracy of Angle Estimation in eCompass and 3D Pointer Applications - Application Notes /docs/en/application-note/AN4249.pdf documents 645036621402383989 Application Note N en None Y pdf 1.0 N N AN4249, Accuracy of Angle Estimation in eCompass and 3D Pointer Applications - Application Notes 337.3 KB AN4249 N 1308237516737728147258 /docs/en/application-note/AN4246.pdf 2011-06-11 1307815370599723958283 PSP 4 Nov 13, 2015 Application Note This application note provides the theory for the in-situ calibration of a smartphone electronic compass (eCompass) for hard- and soft- iron effects. The mathematical framework is that which is developed in AN4248 &#8220;Implementing a Tilt-Compensated eCompass using Accelerometer and Magnetometer Sensors&#8221; and AN4247 &#8220;Layout Recommendations for PCBs Using a Magnetometer Sensor.&#8221; It is therefore highly recommended to read these application notes first before reading this document. None /docs/en/application-note/AN4246.pdf English documents 307093 None 645036621402383989 2022-12-07 N /docs/en/application-note/AN4246.pdf Calibrating an eCompass in the Presence of Hard- and Soft-Iron Interference - Application Note /docs/en/application-note/AN4246.pdf documents 645036621402383989 Application Note N en None Y pdf 4.0 N N Calibrating an eCompass in the Presence of Hard- and Soft-Iron Interference - Application Note 307.1 KB AN4246 N 1307815370599723958283 /docs/en/application-note/AN4248.pdf 2016-10-31 1301006528855698902331 PSP 5 Nov 13, 2015 Application Note AN4248: This technical note provides the mathematics, reference source code and guidance for engineers implementing a tilt-compensated electronic compass (eCompass). The eCompass uses a three-axis accelerometer and three- axis magnetometer. The accelerometer measures the components of the earth's gravity and the magnetometer measures the components of earth's magnetic field. None /docs/en/application-note/AN4248.pdf English documents 670116 None 645036621402383989 2022-12-07 N /docs/en/application-note/AN4248.pdf AN4248, Implementing a Tilt-Compensated E-Compass Using Accelerometer and Magnetometer Sensors - Application Notes /docs/en/application-note/AN4248.pdf documents 645036621402383989 Application Note N en None Y pdf 4.0 N N AN4248, Implementing a Tilt-Compensated E-Compass Using Accelerometer and Magnetometer Sensors - Application Notes 670.1 KB AN4248 N 1301006528855698902331 /docs/en/application-note/AN4984.pdf 2016-10-31 1412983550342689833703 PSP 6 Oct 10, 2014 Application Note This application note describes two measurement methods associated with reducing current consumption in low data rate applications for two NXP magnetometers (FXOS8700 6-Axis E-Compass and MAG3110 Digital Magnetometer): the one-shot measurement method and the power cycling measurement method. None /docs/en/application-note/AN4984.pdf English documents 653524 None 645036621402383989 2022-12-07 N /docs/en/application-note/AN4984.pdf AN4984, Optimizing Magnetic Sensor Power Operations for Low Data Rates /docs/en/application-note/AN4984.pdf documents 645036621402383989 Application Note N en None Y pdf 0 N N AN4984, Optimizing Magnetic Sensor Power Operations for Low Data Rates 653.5 KB AN4984 N 1412983550342689833703 Brochure 1 /docs/en/brochure/SENSPRODCAT.pdf 2016-10-31 1306940498097721813460 PSP 9 Jul 31, 2012 Brochure NXP&#8217;s introduction of the MAG3110 magnetometer is the first product of the expansion into magnetic sensors, complimenting our broad portfolio of inertial, pressure and touch sensors. NXP<sup>&#174;</sup> is a leading provider of sensors for the appliance, automotive, consumer, industrial and health care markets. The sensor ICs complement NXP&#8217;s broad portfolio of ZigBee &#174; technology, MCUs, microprocessors, digital signal processors, analog ICs, CodeWarrior<sup>&#174;</sup>. None /docs/en/brochure/SENSPRODCAT.pdf English documents 4516738 None 712453003803778552 2022-12-07 N /docs/en/brochure/SENSPRODCAT.pdf Sensors NXP<sup>®</sup> Overview - Brochures /docs/en/brochure/SENSPRODCAT.pdf documents 712453003803778552 Brochure N en None Y pdf 2 N N Sensors NXP<sup>®</sup> Overview - Brochures 4.5 MB SENSPRODCAT N 1306940498097721813460 Data Sheet 1 /docs/en/data-sheet/MAG3110.pdf 2016-10-31 1294413760914707434442 PSP 1 Feb 15, 2013 Data Sheet Freescale&#8217;s MAG3110 is a small, low-power, digital 3-axis magnetometer. The device can be used in conjunction with a 3-axis accelerometer to realize an orientation independent electronic compass that can provide accurate heading information. It features a standard I2C serial interface output and smart embedded functions. None /docs/en/data-sheet/MAG3110.pdf English documents 475912 None 980000996212993340 2022-12-07 N /docs/en/data-sheet/MAG3110.pdf Freescale MAG3110 Three-Axis, Digital Magnetometer - Data Sheet /docs/en/data-sheet/MAG3110.pdf documents 980000996212993340 Data Sheet N en None Y pdf 9.2 N N Freescale MAG3110 Three-Axis, Digital Magnetometer - Data Sheet 475.9 KB MAG3110 N 1294413760914707434442 Fact Sheet 1 /docs/en/fact-sheet/MAG3110FS.pdf 2016-10-31 1294251870549734854420 PSP 10 Feb 18, 2020 Fact Sheet Our MAG3110 Xtrinsic 3-axis magnetometer is the latest addition to the extensive family of accelerometers, pressure and touch sensors. NXP&#8217;s MAG3110 measures the magnetic field in all three axes with ranges up to 1000 uT, at data rates up to 80 Hz. Provides full tilt-compensated electronic compass capability. None /docs/en/fact-sheet/MAG3110FS.pdf English documents 395303 None 736675474163315314 2022-12-07 N /docs/en/fact-sheet/MAG3110FS.pdf MAG3110 Freescale Magnetometer - Fact Sheet /docs/en/fact-sheet/MAG3110FS.pdf documents 736675474163315314 Fact Sheet N en None Y pdf 4 N N MAG3110 Freescale Magnetometer - Fact Sheet 395.3 KB MAG3110FS N 1294251870549734854420 Selector Guide 1 /docs/en/product-selector-guide/SENSSELECT.pdf 2016-10-31 1424471489332715853854 PSP 11 May 13, 2024 Selector Guide For system designers who want to work with various sensor types such as accelerometers, pressure sensors and magnetic sensors for applications in automotive, industrial IoT and medical. None /docs/en/product-selector-guide/SENSSELECT.pdf English documents 252964 None 553557935274807777 2025-02-25 N /docs/en/product-selector-guide/SENSSELECT.pdf Sensor Product Selector Guide /docs/en/product-selector-guide/SENSSELECT.pdf documents 553557935274807777 Selector Guide N en None Y pdf 13 N N Sensor Product Selector Guide 253.0 KB SENSSELECT N 1424471489332715853854 Supporting Information 1 /docs/en/supporting-information/MAG3110FAQS.pdf 2016-10-31 1294267649904709054304 PSP 12 May 6, 2012 Supporting Information Applications Collateral for the MAG3110 to Aid Customer Questions. None /docs/en/supporting-information/MAG3110FAQS.pdf English documents 120961 None 371282830530968666 2022-12-07 N /docs/en/supporting-information/MAG3110FAQS.pdf MAG3110 Frequently Asked Questions - Supporting Information /docs/en/supporting-information/MAG3110FAQS.pdf documents 371282830530968666 Supporting Information N en None Y pdf 1 N N MAG3110 Frequently Asked Questions - Supporting Information 121.0 KB MAG3110FAQS N 1294267649904709054304 User Guide 2 /docs/en/user-guide/eCOMPASSSTUG.pdf 2016-10-31 1344298646122726388188 PSP 7 Apr 22, 2013 User Guide This User&#8217;s Guide describes the operation of the NXP Sensor Toolbox e-compass and magnetic calibration software which supports MAG3110, MMA8451 and FXOS8700CQ. None /docs/en/user-guide/eCOMPASSSTUG.pdf English documents 978919 None 132339537837198660 2023-06-19 N /docs/en/user-guide/eCOMPASSSTUG.pdf E-Compass Sensor Toolbox User’s Guide /docs/en/user-guide/eCOMPASSSTUG.pdf documents 132339537837198660 User Guide N en None Y pdf 2 N N E-Compass Sensor Toolbox User’s Guide 978.9 KB ECOMPASSSTUG N 1344298646122726388188 /docs/en/user-guide/MAG3110UG.pdf 2016-10-31 1305319850557715929217 PSP 8 Aug 19, 2011 User Guide The RD4247MAG3110 sensor toolbox tilt-compensated eCompass kit provides hardware and software for demonstrating the capability of the MAG3110 3-axis digital magnetometer in an eCompass application with hard- and soft-iron calibration. None /docs/en/user-guide/MAG3110UG.pdf English documents 1390893 None 132339537837198660 2022-12-07 N /docs/en/user-guide/MAG3110UG.pdf RD4247MAG3110 Sensor Toolbox Tilt-Compensated eCompass Kit - User's Guide /docs/en/user-guide/MAG3110UG.pdf documents 132339537837198660 User Guide N en None Y Y pdf 2 N N RD4247MAG3110 Sensor Toolbox Tilt-Compensated eCompass Kit - User's Guide 1.4 MB MAG3110UG N 1305319850557715929217 White Paper 3 /docs/en/white-paper/LOWPOWERSENSWP.pdf 2016-10-31 1365095391795722334999 PSP 13 May 20, 2015 White Paper Low power sensors with the integrated capability to reduce power consumption play an important role in extending the battery life in portable systems. NXP has extensive capabilities in sensors, microcontrollers, power management, and RF technologies. None /docs/en/white-paper/LOWPOWERSENSWP.pdf English documents 381651 None 918633085541740938 2025-02-25 N /docs/en/white-paper/LOWPOWERSENSWP.pdf Low Power Sensing /docs/en/white-paper/LOWPOWERSENSWP.pdf documents 918633085541740938 White Paper N en None Y pdf 2 N N Low Power Sensing 381.7 KB LOWPOWERSENSWP N 1365095391795722334999 /docs/en/white-paper/SENFEIOTLFWP.pdf 2016-10-31 1363970116444726555210 PSP 14 Jul 9, 2013 White Paper The age of sensor technology is upon us. These days, it&#8217;s unusual to experience an electronic consumer product that doesn&#8217;t use sensors to create new experiences for its users. Sensors are experiencing a renaissance of sorts as micro-electromechanical systems (MEMS) technology becomes less expensive and further miniaturized, in turn fueling penetration of sensors into new applications and creating new potential for the sensor market. None /docs/en/white-paper/SENFEIOTLFWP.pdf English documents 3621913 None 918633085541740938 2025-02-24 N /docs/en/white-paper/SENFEIOTLFWP.pdf The Role of Sensor Fusion and Remote Emotive Computing (REC) in the Internet of Things (IoT) - White Paper /docs/en/white-paper/SENFEIOTLFWP.pdf documents 918633085541740938 White Paper N en None Y pdf 1 N N The Role of Sensor Fusion and Remote Emotive Computing (REC) in the Internet of Things (IoT) - White Paper 3.6 MB SENFEIOTLFWP N 1363970116444726555210 /docs/en/white-paper/WINDOWS8WP.pdf 2016-10-31 1365198568416712526634 PSP 15 Apr 5, 2013 White Paper Microsoft&#8217;s Windows Sensor and Location platform for the Windows 8 operating system provides a standardized approach to implementing sensor technology that users have come to expect in tablets, slates, laptops, and other mobile devices. None /docs/en/white-paper/WINDOWS8WP.pdf English documents 709360 None 918633085541740938 2022-12-07 N /docs/en/white-paper/WINDOWS8WP.pdf Taking Advantage of a Certified Platform for Microsoft’s Windows® 8 Sensor Interface /docs/en/white-paper/WINDOWS8WP.pdf documents 918633085541740938 White Paper N en None Y pdf 0 N N Taking Advantage of a Certified Platform for Microsoft’s Windows® 8 Sensor Interface 709.4 KB WINDOWS8WP N 1365198568416712526634 true Y Products

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