AltIMU-10 v5 Gyroscope, Accelerometer, Compass and Altimeter (LSM6DS33, LIS3MDL and LPS25H) View larger

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AltIMU-10 v5 Gyroscope, Accelerometer, Compass and Altimeter (LSM6DS33, LIS3MDL and LPS25H)

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The Pololu AltIMU-10 v5 is an inertial measurement unit (IMU) and altimeter that features the same LSM6DS33 gyro and accelerometer and LIS3MDL magnetometer as the MinIMU-9 v5, and adds an LPS25H digital barometer. An I2C interface accesses ten independent pressure, rotation, acceleration, and magnetic measurements that can be used to calculate the sensor’s altitude and absolute orientation. The board operates from 2.5 to 5.5 V and has a 0.1" pin spacing.


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Overview

The Pololu AltIMU-10 v5 is a compact (1.0" x 0.5") board that combines ST’s LSM6DS33 3-axis gyroscope and 3-axis accelerometer, LIS3MDL 3-axis magnetometer, and LPS25H digital barometer to form an inertial measurement unit (IMU) and altimeter; we therefore recommend careful reading of the LSM6DS33 datasheet (1MB pdf), LIS3MDL datasheet (2MB pdf), and LPS25H datasheet (1MB pdf) before using this product. These sensors are great ICs, but their small packages make them difficult for the typical student or hobbyist to use. They also operate at voltages below 3.6 V, which can make interfacing difficult for microcontrollers operating at 5 V. The AltIMU-10 v5 addresses these issues by incorporating additional electronics, including a voltage regulator and a level-shifting circuit, while keeping the overall size as compact as possible. The board ships fully populated with its SMD components, including the LSM6DS33, LIS3MDL, and LPS25H, as shown in the product picture.

Compared to the previous AltIMU-10 v4, the v5 version uses newer MEMS sensors that provide some increases in accuracy (lower noise and zero-rate offsets). The AltIMU-10 v5 is pin-compatible with the AltIMU-10 v4, but because it uses different sensor chips, software written for older IMU versions will need to be changed to work with the v5.

The AltIMU-10 v5 is also pin-compatible with the MinIMU-9 v5 and offers the same functionality augmented by a digital barometer that can be used to obtain pressure and altitude measurements. It includes a second mounting hole and is only 0.2" longer than the MinIMU-9 v5. Any code written for the MinIMU-9 v5 should also work with the AltIMU-10 v5.


Side-by-side comparison of the MinIMU-9 v5 with the AltIMU-10 v5.


The LSM6DS33, LIS3MDL, and LPS25H have many configurable options, including dynamically selectable sensitivities for the gyro, accelerometer, and magnetometer and selectable resolutions for the barometer. Each sensor also has a choice of output data rates. The three ICs can be accessed through a shared I2C/TWI interface, allowing the sensors to be addressed individually via a single clock line and a single data line. Additionally, a slave address configuration pin allows users to change the sensors’ I2C addresses and have two AltIMUs connected on the same I2C bus. (For additional information, see the I2C Communication section below.)

The nine independent rotation, acceleration, and magnetic readings provide all the data needed to make an attitude and heading reference system (AHRS), and readings from the absolute pressure sensor can be easily converted to altitudes, giving you a total of ten independent measurements (sometimes called 10DOF). With an appropriate algorithm, a microcontroller or computer can use the data to calculate the orientation and height of the AltIMU board. The gyro can be used to very accurately track rotation on a short timescale, while the accelerometer and compass can help compensate for gyro drift over time by providing an absolute frame of reference. The respective axes of the two chips are aligned on the board to facilitate these sensor fusion calculations. (For an example of such a system using an Arduino, see the picture below and the Sample Code section at the bottom of this page.)


Visualization of AHRS orientation calculated from MinIMU-9 readings.


The carrier board includes a low-dropout linear voltage regulator that provides the 3.3 V required by the LSM6DS33, LIS3MDL, and LPS25H, allowing the module to be powered from a single 2.5 V to 5.5 V supply. The regulator output is available on the VDD pin and can supply almost 150 mA to external devices. The breakout board also includes a circuit that shifts the I2C clock and data lines to the same logic voltage level as the supplied VIN, making it simple to interface the board with 5 V systems. The board’s 0.1" pin spacing makes it easy to use with standard solderless breadboards and 0.1" perfboards.


Specifications

• Dimensions: 1.0" x 0.5" x 0.1" (25 mm x 13 mm x 3 mm)

• Weight without header pins: 0.8 g (0.03 oz)

• Operating voltage: 2.5 V to 5.5 V

• Supply current: 5 mA

• Output format (I2C):

○ Gyro: one 16-bit reading per axis

○ Accelerometer: one 16-bit reading per axis

○ Magnetometer: one 16-bit reading per axis

○ Barometer: 24-bit pressure reading (4096 LSb/mbar)

• Sensitivity range:

○ Gyro: ±125, ±245, ±500, ±1000, or ±2000°/s

○ Accelerometer: ±2, ±4, ±8, or ±16 g

○ Magnetometer: ±4, ±8, ±12, or ±16 gauss

○ Barometer: 260 mbar to 1260 mbar (26 kPa to 126 kPa)


Using the AltIMU-10 v5

Connections

A minimum of four connections is necessary to use the AltIMU-10 v5: VIN, GND, SCL, and SDA. VIN should be connected to a 2.5 V to 5.5 V source, GND to 0 volts, and SCL and SDA should be connected to an I2C bus operating at the same logic level as VIN. (Alternatively, if you are using the board with a 3.3 V system, you can leave VIN disconnected and bypass the built-in regulator by connecting 3.3 V directly to VDD.)




Pololu AltIMU-10 v5 gyro, accelerometer, compass, and altimeter pinout.


Two Pololu AltIMU-10 v5 modules in a breadboard.


Pinout

PIN Description
SCL Level-shifted I2C clock line: HIGH is VIN, LOW is 0 V
SDA Level-shifted I2C data line: HIGH is VIN, LOW is 0 V
GND The ground (0 V) connection for your power supply. Your I2C control source must also share a common ground with this board.
VIN This is the main 2.5 V to 5.5 V power supply connection. The SCL and SDA level shifters pull the I2C bus high bits up to this level.
VDD 3.3 V regulator output or low-voltage logic power supply, depending on VIN. When VIN is supplied and greater than 3.3 V, VDD is a regulated 3.3 V output that can supply up to approximately 150 mA to external components. Alternatively, when interfacing with a 2.5 V to 3.3 V system, VIN can be left disconnected and power can be supplied directly to VDD. Never supply voltage to VDD when VIN is connected, and never supply more than 3.6 V to VDD.
SA0 3.3V-logic-level input to determine I2C slave addresses of the three ICs (see below). It is pulled high by default through 10 kΩ resistor. This pin is not level-shifted and is not 5V-tolerant.

The CS, data ready, and interrupt pins of the LSM6DS33, LIS3MDL, and LPS25H are not accessible on the AltIMU-10 v5. In particular, the absence of the CS pin means that the optional SPI interface of these ICs is not available. If you want these features, consider using our LSM6DS33 carrier, LIS3MDL carrier, and LPS25H carrier boards.


Schematic Diagram


The above schematic shows the additional components the carrier board incorporates to make the LSM6DS33, LIS3MDL, and LPS25H easier to use, including the voltage regulator that allows the board to be powered from a single 2.5 V to 5.5 V supply and the level-shifter circuit that allows for I2C communication at the same logic voltage level as VIN. This schematic is also available as a downloadable pdf: AltIMU-10 v5 schematic (119k pdf).


I2C Communication

The LSM6DS33’s gyro and accelerometer, the LIS3MDL’s magnetometer, and the LPS25H’s barometer can be queried and configured through the I2C bus. Each of the four sensors acts as a slave device on the same I2C bus (i.e. their clock and data lines are tied together to ease communication). Additionally, level shifters on the I2C clock (SCL) and data lines (SDA) enable I2C communication with microcontrollers operating at the same voltage as VIN (2.5 V to 5.5 V). A detailed explanation of the protocols used by each device can be found in the LSM6DS33 datasheet (1MB pdf), the LIS3MDL datasheet (2MB pdf), and the LPS25H datasheet (1MB pdf). More detailed information about I²C in general can be found in NXP’s I2C-bus specification (1MB pdf).

The LSM6DS33, LIS3MDL, and LPS25H each have separate slave addresses on the I2C bus. The board connects the slave address select pins (SA0 or SA1) of the three ICs together and pulls them all to VDD through a 10 kΩ resistor. You can drive the pin labeled SA0 low to change the slave address. This allows you to have two AltIMUs (or an AltIMU v5 and a MinIMU v5) connected on the same I2C bus. The following table shows the slave addresses of the sensors:

Sensor Slave Address (default) Slave Address (SA0 driven low)
LSM6DS33 (gyro and accelerometer) 1101011b 1101010b
LIS3MDL (magnetometer) 0011110b 0011100b
LPS25H (barometer) 1011101b 1011100b


All three chips on the AltIMU-10 v5 are compliant with fast mode (400 kHz) I2C standards as well as with the normal mode.


Sample Code

We have written a basic LSM6DS33 Arduino library, LIS3MDL Arduino library, and LPS25H Arduino library that make it easy to interface the AltIMU-10 v5 with an Arduino or Arduino-compatible board like an A-Star. They also make it simple to configure the sensors and read the raw gyro, accelerometer, magnetometer, and pressure data.

For a demonstration of what you can do with this data, you can turn an Arduino connected to a AltIMU-10 v5 into an attitude and heading reference system, or AHRS, with this Arduino program. It uses the data from the AltIMU-10 v5 to calculate estimated roll, pitch, and yaw angles, and you can visualize the output of the AHRS with a 3D test program on your PC (as shown in a screenshot above). This software is based on the work of Jordi Munoz, William Premerlani, Jose Julio, and Doug Weibel.


Protocol Hints

The datasheets provide all the information you need to use the sensors on the AltIMU-10 v5, but picking out the important details can take some time. Here are some pointers for communicating with and configuring the LSM6DS33, LIS3MDL, and LPS25H that we hope will get you up and running a little bit faster:

• The gyro, accelerometer, magnetometer, and pressure sensor are all in power-down mode by default. You have to turn them on by setting the correct configuration registers.

• You can read or write multiple registers in the LIS3MDL or LPS25H with a single I2C command by asserting the most significant bit of the register address to enable address auto-increment.

• The register address in the LSM6DS33 automatically increments during a multiple byte access, allowing you to read or write multiple registers in a single I2C command. Unlike how some other ST sensors work, the auto-increment is enabled by default; you can turn it off with the IF_INC field in the CTRL3_C register.

• In addition to the datasheets, ST provides application notes for the LSM6DS33 (1MB pdf) and LIS3MDL (598k pdf) containing additional information and hints about using them.


Specifications

Dimensions

Size: 1.0" x 0.5" x 0.1"1
Weight: 0.8 g1


General specifications

Interface: I2C
Minimum operating voltage: 2.5 V
Maximum operating voltage: 5.5 V
Axes: pitch (x), roll (y), and yaw (z)
Measurement range: ±125, ±245, ±500, ±1000, or ±2000°/s (gyro)
±2, ±4, ±8, or ±16 g (accelerometer)
±4, ±8, ±12, or ±16 gauss (magnetometer)
26 kPa to 126 kPa (barometer)2
Supply current: 5 mA


Notes:

1 Without included optional headers.
2 User-configurable.


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AltIMU-10 v5 Gyroscope, Accelerometer, Compass and Altimeter (LSM6DS33, LIS3MDL and LPS25H)

AltIMU-10 v5 Gyroscope, Accelerometer, Compass and Altimeter (LSM6DS33, LIS3MDL and LPS25H)

The Pololu AltIMU-10 v5 is an inertial measurement unit (IMU) and altimeter that features the same LSM6DS33 gyro and accelerometer and LIS3MDL magnetometer as the MinIMU-9 v5, and adds an LPS25H digital barometer. An I2C interface accesses ten independent pressure, rotation, acceleration, and magnetic measurements that can be used to calculate the sensor’s altitude and absolute orientation. The board operates from 2.5 to 5.5 V and has a 0.1" pin spacing.


See description for more details about the product.

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