# Title: 13DOF Click Board™ ## Description: The BME680 is a digital 4-in-1 sensor with gas, humidity, pressure and temperature measurement based on proven sensing principles, housed in an extremely compact metal-lid LGA package. Its small dimensions and its low power consumption enable the integration in battery-powered or frequency-coupled devices, such as handsets or wearables. The BMM150 geomagnetic sensor, a three-axis geomagnetic sensor and the BMI088 sensor module are both featured prominently and are key parts of the 13DOF Click Board™. How Does The 13DOF Click Board™ Work? The 13DOF Click Board™ is based on the BME680 and the BMM150 sensor ICs. Also, the click contains BMI088 - a small, versatile 6DoF sensor module from Bosch. Altogether, this Click board™ integrates a triaxial accelerometer, triaxial gyroscope, triaxial geomagnetic, gas, humidity, pressure and temperature sensors on the single board. This allows very high integration and very small dimensions, at an affordable cost. The output of each MEMS is processed, digitized and available through the I2C communication interface. The data can be oversampled by the sensor ICs by themselves, in order to achieve as reliable data readings as possible. As already mentioned, the features of this click are numerous. The BMM150 geomagnetic sensor from Bosch is a standalone sensor for consumer market applications. It allows measurements of the magnetic field in three perpendicular axes. The sensor is carefully tuned and a perfect match for the demanding requirements of all 3-axis mobile apps such as electronic compass, navigation or augmented reality. An application-specific circuit (ASIC) converts the output of the geomagnetic sensor to digital results which can be read out over the industry-standard digital I2C interface. The package and interfaces of the BMM150 have been designed to match a multitude of hardware requirements. As the sensor features an ultra-small footprint and a flat package, it is ingeniously suited for mobile applications, such as cell phones, handhelds, computer peripherals, man-machine interfaces, virtual reality features, game controllers, and others. The BMI088 is an inertial measurement unit (IMU) for the detection of movements and rotations in 6 degrees of freedom (6DoF). It reflects the full functionality of a triaxial, low-g acceleration sensor and at the same time, it is capable to measure angular rates. Both – acceleration and angular rate – in three perpendicular room dimensions, the x-, y- and z-axis. The BMI088 is designed to meet all requirements for consumer applications such as gaming and pointing devices, HMI and image stabilization (DSC and camera-phone). It also senses tilt, motion, inactivity and shock vibration in cell phones, handhelds, computer peripherals, HMI interfaces, virtual reality features and game controllers. An ASIC converts the output of the MEMS, developed, produced and tested in BOSCH facilities. To provide maximum performance and reliability each device is tested and ready-to-use calibrated. On the other side, the BME680 - a small, high performance, low power, the 4-in-1 sensor is in charge of the gas, humidity, pressure and temperature measurements. It also features very low power consumption, for example, 3.7 µA is typical at 1 Hz humidity, pressure and temperature measurement mode. It also features a very high accuracy humidity sensor (tolerance ±3% r.H. and hysteresis ±1.5% r.H.), a pressure sensor with only 0.12 Pa RMS Noise (equivalent to 1.7 cm of altitude) and a very low temperature offset drift, and a gas sensor with direct indoor air quality (IAQ) index output system. In principle, the IAQ index output is in an index that can have values between 0 and 500 with a resolution of 1 to indicate or quantify the quality of the air available in the surrounding. It greatly simplifies the categorization of the air quality measurements. The 13DOF Click Board™ supports the I2C communication interface, allowing it to be used with a wide range of different MCUs. The I2C slave address for the communication can be selected by moving SMD jumpers grouped under the COMM SEL to an appropriate position. The 13DOF Click Board™ is designed to be operated only with a 3.3V logic level. A proper logic voltage level conversion should be performed before the Click board™ is used with MCUs with logic levels of 5V. SPECIFICATIONS Type Acceleration,Environmental,Gyroscope,Motion Applications It is a perfect solution for the development of different types of motion detection and MotionTracking™ applications: motion-based game controllers, 3D and gesture controllers, IoT applications, wearable motion-sensing applications, and similar applications. On-board modules BMM150 - geomagnetic sensor from Bosch, BME680 – Low power gas, pressure, temperature and humidity sensor from Bosch, BMI088 – small, versatile 6Dof sensor module from Bosch Key Features small dimensions and its low power consumption enable the integration in battery-powered or frequency-coupled devices Interface I2C Compatibility mikroBUS Click board size M (42.9 x 25.4 mm) Input Voltage 3.3V PINOUT DIAGRAM This table shows how the pinout on the 13DOF Click Board™ corresponds to the pinout on the mikroBUS™ socket (the latter shown in the two middle columns). Notes Pin Pin Notes NC 1 AN PWM 16 NC NC 2 RST INT 15 NC NC 3 CS RX 14 NC NC 4 SCK TX 13 NC NC 5 MISO SCL 12 SCL I2C Clock NC 6 MOSI SDA 11 SDA I2C Data Power Supply 3.3V 7 3.3V 5V 10 NC Ground GND 8 GND GND 9 GND Ground ONBOARD SETTINGS AND INDICATORS Label Name Default Description LD1 PWR - Power LED Indicator JP1-JP5 ADD SEL Left Slave I2C address LSB selection: left position 0, right position 1 ## Product type: Click Board ## Vendor: Mikroelektronika d.o.o. ## Tags: 13DOF, Bosch Sensortec, Click Board, MikroE, Motion, Sensor ## Price range: 40.6 - 40.6 GBP ## Link: https://thedebugstore.com/products/mikroe-3775-13dof-click-board-uk ## Compare-at price range: 58.0 - 58.0 GBP ## Options - Title: Default Title ## Collections - [New Products](https://thedebugstore.com/a/llms/collections/new-products-debug-store) - [Mikroelektronika d.o.o. (MikroE)](https://thedebugstore.com/a/llms/collections/mikroelektronika-catalogue-uk) - [Bosch Sensortec Device Support: Development Boards & Tools for MEMS Sensors](https://thedebugstore.com/a/llms/collections/device-bosch-sensortec) - [Sensor Click Boards™](https://thedebugstore.com/a/llms/collections/sensor-click-boards-catalogue) - [MikroE Click Boards™](https://thedebugstore.com/a/llms/collections/mikroe-click-boards-catalogue-uk) - [Motion Sensor Click Boards™](https://thedebugstore.com/a/llms/collections/motion-sensor-click-boards-catalogue) - [Click Boards™ Summer Sale](https://thedebugstore.com/a/llms/collections/inventory-sale) - [MikroE Sale](https://thedebugstore.com/a/llms/collections/mikroe-sale) - [MIKROE Stock](https://thedebugstore.com/a/llms/collections/mikroe-products-in-stock-sale) ## Variants - Default Title, SKU: MIKROE-3775, Available: yes, Inventory: 1 ## Metafields - full_description:

The BME680 is a digital 4-in-1 sensor with gas, humidity, pressure and temperature measurement based on proven sensing principles, housed in an extremely compact metal-lid LGA package. Its small dimensions and its low power consumption enable the integration in battery-powered or frequency-coupled devices, such as handsets or wearables. The BMM150 geomagnetic sensor, a three-axis geomagnetic sensor and the BMI088 sensor module are both featured prominently and are key parts of the 13DOF Click Board™.

How Does The 13DOF Click Board™ Work?

The 13DOF Click Board™ is based on the BME680 and the BMM150 sensor ICs. Also, the click contains BMI088 - a small, versatile 6DoF sensor module from Bosch. Altogether, this Click board™ integrates a triaxial accelerometer, triaxial gyroscope, triaxial geomagnetic, gas, humidity, pressure and temperature sensors on the single board. This allows very high integration and very small dimensions, at an affordable cost. The output of each MEMS is processed, digitized and available through the I2C communication interface. The data can be oversampled by the sensor ICs by themselves, in order to achieve as reliable data readings as possible. As already mentioned, the features of this click are numerous.

Shop Click Boards Sensors 13DOF Click

The BMM150 geomagnetic sensor from Bosch is a standalone sensor for consumer market applications. It allows measurements of the magnetic field in three perpendicular axes. The sensor is carefully tuned and a perfect match for the demanding requirements of all 3-axis mobile apps such as electronic compass, navigation or augmented reality. An application-specific circuit (ASIC) converts the output of the geomagnetic sensor to digital results which can be read out over the industry-standard digital I2C interface. The package and interfaces of the BMM150 have been designed to match a multitude of hardware requirements. As the sensor features an ultra-small footprint and a flat package, it is ingeniously suited for mobile applications, such as cell phones, handhelds, computer peripherals, man-machine interfaces, virtual reality features, game controllers, and others.

The BMI088 is an inertial measurement unit (IMU) for the detection of movements and rotations in 6 degrees of freedom (6DoF). It reflects the full functionality of a triaxial, low-g acceleration sensor and at the same time, it is capable to measure angular rates. Both – acceleration and angular rate – in three perpendicular room dimensions, the x-, y- and z-axis. The BMI088 is designed to meet all requirements for consumer applications such as gaming and pointing devices, HMI and image stabilization (DSC and camera-phone). It also senses tilt, motion, inactivity and shock vibration in cell phones, handhelds, computer peripherals, HMI interfaces, virtual reality features and game controllers. An ASIC converts the output of the MEMS, developed, produced and tested in BOSCH facilities. To provide maximum performance and reliability each device is tested and ready-to-use calibrated.

On the other side, the BME680 - a small, high performance, low power, the 4-in-1 sensor is in charge of the gas, humidity, pressure and temperature measurements. It also features very low power consumption, for example, 3.7 µA is typical at 1 Hz humidity, pressure and temperature measurement mode. It also features a very high accuracy humidity sensor (tolerance ±3% r.H. and hysteresis ±1.5% r.H.), a pressure sensor with only 0.12 Pa RMS Noise (equivalent to 1.7 cm of altitude) and a very low temperature offset drift, and a gas sensor with direct indoor air quality (IAQ) index output system. In principle, the IAQ index output is in an index that can have values between 0 and 500 with a resolution of 1 to indicate or quantify the quality of the air available in the surrounding. It greatly simplifies the categorization of the air quality measurements.

The 13DOF Click Board™ supports the I2C communication interface, allowing it to be used with a wide range of different MCUs. The I2C slave address for the communication can be selected by moving SMD jumpers grouped under the COMM SEL to an appropriate position.

The 13DOF Click Board™ is designed to be operated only with a 3.3V logic level. A proper logic voltage level conversion should be performed before the Click board™ is used with MCUs with logic levels of 5V.

SPECIFICATIONS

Type Acceleration,Environmental,Gyroscope,Motion
Applications It is a perfect solution for the development of different types of motion detection and MotionTracking™ applications: motion-based game controllers, 3D and gesture controllers, IoT applications, wearable motion-sensing applications, and similar applications.
On-board modules BMM150 - geomagnetic sensor from Bosch, BME680 – Low power gas, pressure, temperature and humidity sensor from Bosch, BMI088 – small, versatile 6Dof sensor module from Bosch
Key Features small dimensions and its low power consumption enable the integration in battery-powered or frequency-coupled devices
Interface I2C
Compatibility mikroBUS
Click board size M (42.9 x 25.4 mm)
Input Voltage 3.3V

PINOUT DIAGRAM

This table shows how the pinout on the 13DOF Click Board™ corresponds to the pinout on the mikroBUS™ socket (the latter shown in the two middle columns).

Notes Pin Mikrobus logo.png Pin Notes
NC 1 AN PWM 16 NC
NC 2 RST INT 15 NC
NC 3 CS RX 14 NC
NC 4 SCK TX 13 NC
NC 5 MISO SCL 12 SCL I2C Clock
NC 6 MOSI SDA 11 SDA I2C Data
Power Supply 3.3V 7 3.3V 5V 10 NC
Ground GND 8 GND GND 9 GND Ground

ONBOARD SETTINGS AND INDICATORS

Label Name Default  Description
LD1 PWR - Power LED Indicator
JP1-JP5 ADD SEL Left Slave I2C address LSB selection: left position 0, right position 1

 

- description_tag: Explore the 13DOF Click Board for accurate sensor fusion. Perfect for gaming, navigation, mobile devices, and more. Comes with mikroSDK support. Get yours now! - title_tag: MikroE 13DOF Click Board™ (MIKROE-3775) - manufacturer: Mikroelektronika d.o.o. - warranty: 12 months - amazon_enable: TRUE - amazon_title: 13DOF Click Board - amazon_product_type: computercomponent - amazon_block: FALSE - amazon_prime_enable: FALSE - amazon_search: MikroElektronika Microelectronica MIKROE-1100 - amazon_uk_price: 30.8 - amazon_uk_currency: GBP - amazon_de_currency: EUR - amazon_de_price: 34.804 - amazon_fr_currency: EUR - amazon_fr_price: 34.804 - amazon_es_currency: EUR - amazon_es_price: 34.804 - amazon_nl_currency: EUR - amazon_nl_price: 34.804 - amazon_it_currency: EUR - amazon_it_price: 34.804 - amazon_se_curency: SEK - amazon_se_price: 351.12 - amazon_product_id: 8606018719990 - amazon_product_id_type: EAN - amazon_update: Update - amazon_short_description: The 13DOF Click Board™ Board is an advanced 13-axis motion tracking Click Board™, which utilizes three different sensor ICs onboard: BME680, a digital gas, humidity, pressure and temperature sensor and BMM150, a geomagnetic sensor and a BMI088, small, versatile 6DoF sensor module. All integrated sensors ICs are made by Bosch Sensortec, featuring the state-of-the-art sensor technology processes, in order to fulfill the requirements for immersive gaming and navigation applications, which require highly accurate sensor data fusion. Besides that, 13DOF Click Board™ is also perfectly suited for use in many other applications such as mobile phones, tablet PCs, GPS systems, Smart watches, Sport and fitness devices, and many more. - amazon_long_description:

The BME680 is a digital 4-in-1 sensor with gas, humidity, pressure and temperature measurement based on proven sensing principles, housed in an extremely compact metal-lid LGA package. Its small dimensions and its low power consumption enable the integration in battery-powered or frequency-coupled devices, such as handsets or wearables. The BMM150 geomagnetic sensor, a three-axis geomagnetic sensor and the BMI088 sensor module, are both featured prominently and are key parts of this 13DOF Click board™.

How Does The 13DOF Click Board Work?

13DOF click is based on the BME680 and the BMM150 sensor ICs. Also, the click contains BMI088 - a small, versatile 6DoF sensor module from Bosch. Altogether, this Click board™ integrates a triaxial accelerometer, triaxial gyroscope, triaxial geomagnetic, gas, humidity, pressure and temperature sensors on the single board. This allows very high integration and very small dimensions, at an affordable cost. The output of each MEMS is processed, digitised and available through the I2C communication interface. The data can be over-sampled by the sensor ICs by themselves, in order to achieve as reliable data readings as possible. As already mentioned, the features of this click are numerous.

Shop Click Boards Sensors 13DOF Click

The BMM150 geomagnetic sensor from Bosch is a standalone sensor for consumer market applications. It allows measurements of the magnetic field in three perpendicular axes. The sensor is carefully tuned and a perfect match for the demanding requirements of all 3-axis mobile apps such as electronic compass, navigation or augmented reality.An application specific circuit (ASIC) converts the output of the geomagnetic sensor to digital results which can be read out over the industry standard digital I2C interface. Package and interfaces of the BMM150 have been designed to match a multitude of hardware requirements. As the sensor features an ultra-small footprint and a flat package, it is ingeniously suited for mobile applications, such as cell phones, handhelds, computer peripherals, man-machine interfaces, virtual reality features, game controllers, and other.

The BMI088 is an inertial measurement unit (IMU) for the detection of movements and rotations in 6 degrees of freedom (6DoF). It reflects the full functionality of a triaxial, low-g acceleration sensor and at the same time it is capable to measure angular rates. Both – acceleration and angular rate – in three perpendicular room dimensions, the x-, y- and z-axis. The BMI088 is designed to meet all requirements for consumer applications such as gaming and pointing devices, HMI and image stabilization (DSC and camera-phone). It also senses tilt, motion, inactivity and shock vibration in cell phones, handhelds, computer peripherals, HMI interfaces, virtual reality features and game controllers. An ASIC converts the output of the MEMS, developed, produced and tested in BOSCH facilities. To provide maximum performance and reliability each device is tested and ready-to-use calibrated.

On the other side, the BME680 - a small, high performance, low power, 4-in-1 sensor is in charge for the gas, humidity, pressure and temperature measurements. It also features very low power consumption, for example, 3.7 µA is typical at 1 Hz humidity, pressure and temperature measurement mode. It also features a very high accuracy humidity sensor (tolerance ±3% r.H. and hysteresis ±1.5% r.H.), pressure sensor with only 0.12 Pa RMS Noise (equivalent to to 1.7 cm of altitude) and a very low temperature offset drift, and a gas sensor with direct indoor air quality (IAQ) index output system. In principle, the IAQ index output is in an index that can have values between 0 and 500 with a resolution of 1 to indicate or quantify the quality of the air available in the surrounding. It greatly simplifies the categorization of the air quality measurements.

13DOF click supports I2C communication interface, allowing it to be used with a wide range of different MCUs. The I2C slave address for the communication can be selected by moving SMD jumpers grouped under the COMM SEL to an appropriate position.

This Click Board™ is designed to be operated only with 3.3V logic level. A proper logic voltage level conversion should be performed before the Click board™ is used with MCUs with logic levels of 5V.

- amazon_main_image: https://www.thedebugstore.com/images/product/lg-13dof-click-3775-front_1.jpg - amazon_other_image_1: https://www.thedebugstore.com/images/product/lg-13dof-click-3775-back_1.jpg - amazon_other_image_2: https://www.thedebugstore.com/images/product/lg-13dof-click-3775-in-use_1.jpg - amazon_other_image_3: https://www.thedebugstore.com/images/product/lg-13dof-click-3775-in-use_1.jpg - amazon_browse_node: 428655031 - related_products: MIKROE-3827,MIKROE-4153,MIKROE-3869 - mpn: MIKROE-3775 - backorder_label: If no stock shown above, check availability - config: {"keyword":"13DOF Click","meta_title":"MIKROE-3775 | 13DOF Click Board™ | The Debug Store UK","meta_desc":"The 13DOF Click Board™ is an advanced 13-axis motion tracking Click Board™, which utilizes three different sensor ICs onboard: BME680, a digital gas, humidity, pressure and temperature sensor and BMM150, a geomagnetic sensor and a BMI088, small, v...","override_title":false,"override_desc":false,"block_via_noindex":false} - condition: new - examples:

We provide a library for the 13DOF Click Board™ on our LibStock page, as well as a demo application (example), developed using MikroElektronika compilers. The demo can run on all the main MikroElektronika development boards.

Library Description

The library covers all the necessary functions to control the 13DOF Click Board™. The library performs a standard I2C interface communication.

Key Functions

Example Description

The application is composed of three sections :

void applicationTask()
{
    temperature = c13dof_bme680_getTemperature();
    Delay_10ms();

    mikrobus_logWrite( "                 |       BME680       |", _LOG_LINE );
    mikrobus_logWrite( "----------------------------------------------------------", _LOG_LINE );
    mikrobus_logWrite( "             ", _LOG_TEXT );
    mikrobus_logWrite( " Temperature    : ", _LOG_TEXT );
    FloatToStr( temperature, logText );
    mikrobus_logWrite( logText, _LOG_TEXT );
    mikrobus_logWrite( degCel, _LOG_LINE );

    humidity = c13dof_bme680_getHumidity();
    Delay_10ms();
    mikrobus_logWrite( "             ", _LOG_TEXT );
    mikrobus_logWrite( " Humidity       : ", _LOG_TEXT );
    FloatToStr( humidity, logText );
    mikrobus_logWrite( logText, _LOG_TEXT );
    mikrobus_logWrite( " %", _LOG_LINE );

    pressure = c13dof_bme680_getPressure();
    Delay_10ms();
    mikrobus_logWrite( "             ", _LOG_TEXT );
    mikrobus_logWrite( " Pressure       : ", _LOG_TEXT );
    FloatToStr( pressure, logText );
    mikrobus_logWrite( logText, _LOG_TEXT );
    mikrobus_logWrite( " mbar", _LOG_LINE );

    gasRes = c13dof_bme680_getGasResistance();
    Delay_10ms();
    mikrobus_logWrite( "             ", _LOG_TEXT );
    mikrobus_logWrite( " Gas Resistance : ", _LOG_TEXT );
    LongWordToStr( gasRes, logText );
    ltrim( logText );
    mikrobus_logWrite( logText, _LOG_LINE );
    mikrobus_logWrite( "----------------------------------------------------------", _LOG_LINE );

    readyCheck = c13dof_bmm150_checkReady();

    while ( readyCheck != _C13DOF_BMM150_DATA_READY )
    {
        readyCheck = c13dof_bmm150_checkReady();
    }

    c13dof_bmi088_readAccel( &accelX, &accelY, &accelZ );
    Delay_10ms();
    c13dof_bmi088_readGyro( &gyroX, &gyroY, &gyroZ );
    Delay_10ms();
    c13dof_bmm150_readGeoMagData( &magX, &magY, &magZ, &RHall );
    Delay_10ms();


    mikrobus_logWrite( "                BMI088                |     BMM150", _LOG_LINE );
    mikrobus_logWrite( "----------------------------------------------------------", _LOG_LINE );
    mikrobus_logWrite( "|     Accel       |       Gyro        |       Mag        |",_LOG_LINE );
    mikrobus_logWrite( "----------------------------------------------------------", _LOG_LINE );

    mikrobus_logWrite( " Accel X :", _LOG_TEXT );
    IntToStr( accelX, logText );
    mikrobus_logWrite( logText, _LOG_TEXT );
    mikrobus_logWrite( "  |  ", _LOG_TEXT );
    mikrobus_logWrite( " Gyro X :", _LOG_TEXT );
    IntToStr( gyroX, logText );
    mikrobus_logWrite( logText, _LOG_TEXT );
    mikrobus_logWrite( "  |  ", _LOG_TEXT );
    mikrobus_logWrite( " Mag X :", _LOG_TEXT );
    IntToStr( magX, logText );
    mikrobus_logWrite( logText, _LOG_TEXT );
    mikrobus_logWrite( "  |  ", _LOG_LINE );

    mikrobus_logWrite( " Accel Y :", _LOG_TEXT );
    IntToStr( accelY, logText );
    mikrobus_logWrite( logText, _LOG_TEXT );
    mikrobus_logWrite( "  |  ", _LOG_TEXT );
    mikrobus_logWrite( " Gyro Y :", _LOG_TEXT );
    IntToStr( gyroY, logText );
    mikrobus_logWrite( logText, _LOG_TEXT );
    mikrobus_logWrite( "  |  ", _LOG_TEXT );
    mikrobus_logWrite( " Mag Y :", _LOG_TEXT );
    IntToStr( magY, logText );
    mikrobus_logWrite( logText, _LOG_TEXT );
    mikrobus_logWrite( "  |  ", _LOG_LINE );

    mikrobus_logWrite( " Accel Z :", _LOG_TEXT );
    IntToStr( accelZ, logText );
    mikrobus_logWrite( logText, _LOG_TEXT );
    mikrobus_logWrite( "  |  ", _LOG_TEXT );
    mikrobus_logWrite( " Gyro Z :", _LOG_TEXT );
    IntToStr( gyroZ, logText );
    mikrobus_logWrite( logText, _LOG_TEXT );
    mikrobus_logWrite( "  |  ", _LOG_TEXT );
    mikrobus_logWrite( " Mag Z :", _LOG_TEXT );
    IntToStr( magZ, logText );
    mikrobus_logWrite( logText, _LOG_TEXT );
    mikrobus_logWrite( "  |  ", _LOG_LINE );
    mikrobus_logWrite( "----------------------------------------------------------", _LOG_LINE );
    mikrobus_logWrite( "----------------------------------------------------------", _LOG_LINE );

    Delay_1sec();
    Delay_1sec();
}

The full application code, and ready to use projects can be found on our LibStock page.

Other mikroE Libraries used in the example:

Additional Notes and Information

Depending on the development board you are using, you may need a USB UART click, USB UART 2 click or RS232 click to connect to your PC, for development systems with no UART to USB interface available on the board. The terminal available in all MikroElektronika compilers, or any other terminal application of your choice, can be used to read the message.

MIKROSDK

The 13DOF Click Board™ is supported with mikroSDK - MikroElektronika Software Development Kit. To ensure proper operation of mikroSDK compliant Click board™ demo applications, mikroSDK should be downloaded from the LibStock and installed for the compiler you are using.

- attachments: [{"download_file":[{"download_file":"13DOF Click Board™ Schematic"}],"download_filetype":[{"download_filetype":"pdf"}]},{"download_file":[{"download_file":"Bosch Geomagnetic Sensor Datasheet"}],"download_filetype":[{"download_filetype":"pdf"}]},{"download_file":[{"download_file":"Bosch BM1088 6-DOF Sensor Datasheet"}],"download_filetype":[{"download_filetype":"pdf"}]},{"download_file":[{"download_file":"Bosch BM680 Gas, Humidity, Temperature and Pressure Sensor Datasheet"}],"download_filetype":[{"download_filetype":"pdf"}]}] - condition: new - custom_product: false - mpn: MIKROE-3775 - google_product_category: Electronics - custom_label_0: Click Board - device_vendor: Bosch Sensortec, Bosch Sensortech - device_type: BMM150, BME680, BMI088 - warranty: 12 months - brand: MikroE - key_feature_1: Thirteen-Axis Motion Tracking Board - target_keyword: 13DOF Click Board - original_description:

The 13DOF Click Board™ is an advanced 13-axis motion tracking Click Board™, which utilizes three different sensors ICs onboard: BME680, a digital gas, humidity, pressure and temperature sensor and BMM150, a geomagnetic sensor and a BMI088, small, versatile 6DOF sensor module. All integrated sensors ICs are made by Bosch Sensortec, featuring state-of-the-art sensor technology processes, in order to fulfil the requirements for immersive gaming and navigation applications, which require highly accurate sensor data fusion.

Besides that, 13DOF Click Board™ is also perfectly suited for use in many other applications such as mobile phones, tablet PCs, GPS systems, Smartwatches, Sport and fitness devices, and many more.

- manufacturer: Mikroelektronika d.o.o. - badge: - widget:

Customer Reviews

Be the first to write a review
0%
(0)
0%
(0)
0%
(0)
0%
(0)
0%
(0)
- brands: gid://shopify/Metaobject/56256004319 - breadcrumbs: ["gid://shopify/Collection/447955239135","gid://shopify/Collection/241680580797","gid://shopify/Collection/241545969853"] - customhs_code: 847330 - detailed_description: {"type":"root","children":[{"type":"paragraph","children":[{"type":"text","value":"The BME680 is a digital 4-in-1 sensor with gas, humidity, pressure and temperature measurement based on proven sensing principles, housed in an extremely compact metal-lid LGA package. Its small dimensions and its low power consumption enable the integration in battery-powered or frequency-coupled devices, such as handsets or wearables. The BMM150 geomagnetic sensor, a three-axis geomagnetic sensor and the BMI088 sensor module are both featured prominently and are key parts of the "},{"type":"text","value":"13DOF Click Board™","bold":true,"italic":true},{"type":"text","value":"."}]},{"type":"heading","level":3,"children":[{"type":"text","value":"How Does The 13DOF Click Board™ Work?"}]},{"type":"paragraph","children":[{"type":"text","value":"The "},{"type":"text","value":"13DOF Click Board™ ","bold":true},{"type":"text","value":"is based on the BME680 and the BMM150 sensor ICs. Also, the click contains BMI088 - a small, versatile 6DoF sensor module from Bosch. Altogether, this Click board™ integrates a triaxial accelerometer, triaxial gyroscope, triaxial geomagnetic, gas, humidity, pressure and temperature sensors on the single board. This allows very high integration and very small dimensions, at an affordable cost. The output of each MEMS is processed, digitized and available through the I2C communication interface. The data can be oversampled by the sensor ICs by themselves, in order to achieve as reliable data readings as possible. As already mentioned, the features of this click are numerous."}]},{"type":"paragraph","children":[{"type":"text","value":""}]},{"type":"paragraph","children":[{"type":"text","value":"The BMM150 geomagnetic sensor from Bosch is a standalone sensor for consumer market applications. It allows measurements of the magnetic field in three perpendicular axes. The sensor is carefully tuned and a perfect match for the demanding requirements of all 3-axis mobile apps such as electronic compass, navigation or augmented reality. An application-specific circuit (ASIC) converts the output of the geomagnetic sensor to digital results which can be read out over the industry-standard digital I2C interface. The package and interfaces of the BMM150 have been designed to match a multitude of hardware requirements. As the sensor features an ultra-small footprint and a flat package, it is ingeniously suited for mobile applications, such as cell phones, handhelds, computer peripherals, man-machine interfaces, virtual reality features, game controllers, and others."}]},{"type":"paragraph","children":[{"type":"text","value":"The BMI088 is an inertial measurement unit (IMU) for the detection of movements and rotations in 6 degrees of freedom (6DoF). It reflects the full functionality of a triaxial, low-g acceleration sensor and at the same time, it is capable to measure angular rates. Both – acceleration and angular rate – in three perpendicular room dimensions, the x-, y- and z-axis. The BMI088 is designed to meet all requirements for consumer applications such as gaming and pointing devices, HMI and image stabilization (DSC and camera-phone). It also senses tilt, motion, inactivity and shock vibration in cell phones, handhelds, computer peripherals, HMI interfaces, virtual reality features and game controllers. An ASIC converts the output of the MEMS, developed, produced and tested in BOSCH facilities. To provide maximum performance and reliability each device is tested and ready-to-use calibrated."}]},{"type":"paragraph","children":[{"type":"text","value":"On the other side, the BME680 - a small, high performance, low power, the 4-in-1 sensor is in charge of the gas, humidity, pressure and temperature measurements. It also features very low power consumption, for example, 3.7 µA is typical at 1 Hz humidity, pressure and temperature measurement mode. It also features a very high accuracy humidity sensor (tolerance ±3% r.H. and hysteresis ±1.5% r.H.), a pressure sensor with only 0.12 Pa RMS Noise (equivalent to 1.7 cm of altitude) and a very low temperature offset drift, and a gas sensor with direct indoor air quality (IAQ) index output system. In principle, the IAQ index output is in an index that can have values between 0 and 500 with a resolution of 1 to indicate or quantify the quality of the air available in the surrounding. It greatly simplifies the categorization of the air quality measurements."}]},{"type":"paragraph","children":[{"type":"text","value":"The "},{"type":"text","value":"13DOF Click Board™","bold":true},{"type":"text","value":" supports the I2C communication interface, allowing it to be used with a wide range of different MCUs. The I2C slave address for the communication can be selected by moving SMD jumpers grouped under the COMM SEL to an appropriate position."}]},{"type":"paragraph","children":[{"type":"text","value":"The "},{"type":"text","value":"13DOF Click Board™","bold":true},{"type":"text","value":" is designed to be operated only with a 3.3V logic level. A proper logic voltage level conversion should be performed before the Click board™ is used with MCUs with logic levels of 5V."}]},{"type":"heading","level":3,"children":[{"type":"text","value":"SPECIFICATIONS"}]},{"type":"paragraph","children":[{"type":"text","value":"Type\nAcceleration,Environmental,Gyroscope,Motion\nApplications\nIt is a perfect solution for the development of different types of motion detection and MotionTracking™ applications: motion-based game controllers, 3D and gesture controllers, IoT applications, wearable motion-sensing applications, and similar applications.\nOn-board modules\nBMM150 - geomagnetic sensor from Bosch, BME680 – Low power gas, pressure, temperature and humidity sensor from Bosch, BMI088 – small, versatile 6Dof sensor module from Bosch\nKey Features\nsmall dimensions and its low power consumption enable the integration in battery-powered or frequency-coupled devices\nInterface\nI2C\nCompatibility\nmikroBUS\nClick board size\nM (42.9 x 25.4 mm)\nInput Voltage\n3.3V"}]},{"type":"heading","level":3,"children":[{"type":"text","value":"PINOUT DIAGRAM"}]},{"type":"paragraph","children":[{"type":"text","value":"This table shows how the pinout on the "},{"type":"text","value":"13DOF Click Board™","bold":true},{"type":"text","value":" corresponds to the pinout on the mikroBUS™ socket (the latter shown in the two middle columns)."}]},{"type":"paragraph","children":[{"type":"text","value":"Notes\nPin\nPin\nNotes\nNC\n1\nAN\nPWM\n16\nNC\nNC\n2\nRST\nINT\n15\nNC\nNC\n3\nCS\nRX\n14\nNC\nNC\n4\nSCK\nTX\n13\nNC\nNC\n5\nMISO\nSCL\n12\nSCL\nI2C Clock\nNC\n6\nMOSI\nSDA\n11\nSDA\nI2C Data\nPower Supply\n3.3V\n7\n3.3V\n5V\n10\nNC\nGround\nGND\n8\nGND\nGND\n9\nGND\nGround"}]},{"type":"heading","level":3,"children":[{"type":"text","value":"ONBOARD SETTINGS AND INDICATORS"}]},{"type":"paragraph","children":[{"type":"text","value":"Label\nName\nDefault\n Description\nLD1\nPWR\n-\nPower LED Indicator\nJP1-JP5\nADD SEL\nLeft\nSlave I2C address LSB selection: left position 0, right position 1"}]},{"type":"heading","level":3,"children":[{"type":"text","value":" "}]}]} - summary:

Enhance your projects with the cutting-edge 13DOF Click Board. This remarkable board takes motion tracking to a new level of accuracy and functionality, catering to a wide range of applications, from immersive gaming to precise navigation.

The 13DOF Click Board integrates three high-performance sensor ICs by Bosch Sensortec, ensuring exceptional sensor data fusion. It features the BME680 sensor for digital gas, pressure, humidity, and temperature sensing, as well as the BMM150 geomagnetic sensor for enhanced location-based accuracy.

Developers working on mobile phones, smartwatches, fitness devices, or GPS systems can rely on the 13DOF Click Board for unparalleled precision and reliability in sensor data acquisition. The board is supported by a mikroSDK compliant library, simplifying software development, and comes fully tested and ready for immediate use in mikroBUS socket equipped systems.

Stay ahead in the rapidly evolving tech landscape with the 13DOF Click Board. This board is designed to meet the demands of modern technology, offering a perfect blend of accuracy, performance, and versatility to elevate user experiences across different platforms.

Specifications: