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The MPU6050 is the world’s first integrated 6-axis MotionTracking device that combines a 3-axis gyroscope, 3-axis accelerometer, and a Digital Motion Processor™ (DMP) all in a small 4x4x0.9mm package. With its dedicated I2C sensor bus, it directly accepts inputs from an external 3-axis compass to provide a complete 9-axis MotionFusion™ output. The MPU6050 MotionTracking device, with its 6-axis integration, on-board MotionFusion™, and run-time calibration firmware, enables manufacturers to eliminate the costly and complex selection, qualification, and system level integration of discrete devices, guaranteeing optimal motion performance for consumers. The MPU6050 is also designed to interface with multiple non-inertial digital sensors, such as pressure sensors, on its auxiliary I2C port. The MPU6050 is footprint compatible with the MPU30X0 family.The MPU6050 features three 16-bit analog-to-digital converters (ADCs) for digitizing the gyroscope outputs and three 16-bit ADCs for digitizing the accelerometer outputs. For precision tracking of both fast and slow motions, the parts feature a user-programmable gyroscope full-scale range of ±250, ±500, ±1000, and ±2000°/sec (dps) and a user-programmable accelerometer full-scale range of ±2g, ±4g, ±8g, and ±16g.
LibDriver MPU6050 is the full function driver of mpu6050 launched by LibDriver. It provides acceleration reading, angular velocity reading, attitude angle reading, dmp reading, tap detection and other functions. LibDriver is MISRA compliant.
/src includes LibDriver MPU6050 source files.
/interface includes LibDriver MPU6050 IIC platform independent template.
/test includes LibDriver MPU6050 driver test code and this code can test the chip necessary function simply.
/example includes LibDriver MPU6050 sample code.
/doc includes LibDriver MPU6050 offline document.
/datasheet includes MPU6050 datasheet.
/project includes the common Linux and MCU development board sample code. All projects use the shell script to debug the driver and the detail instruction can be found in each project's README.md.
/misra includes the LibDriver MISRA code scanning results.
Reference /interface IIC platform independent template and finish your platform IIC driver.
Add the /src directory, the interface driver for your platform, and your own drivers to your project, if you want to use the default example drivers, add the /example directory to your project.
You can refer to the examples in the /example directory to complete your own driver. If you want to use the default programming examples, here's how to use them.
#include "driver_mpu6050_basic.h"
uint8_t res;
uint32_t i;
uint32_t times;
float g[3];
float dps[3];
float degrees;
mpu6050_address_t addr;
/* init */
addr = MPU6050_ADDRESS_AD0_LOW;
res = mpu6050_basic_init(addr);
if (res != 0)
{
return 1;
}
...
/* read all */
times = 3;
for (i = 0; i < times; i++)
{
/* read */
if (mpu6050_basic_read(g, dps) != 0)
{
(void)mpu6050_basic_deinit();
return 1;
}
...
if (mpu6050_basic_read_temperature(°rees) != 0)
{
(void)mpu6050_basic_deinit();
return 1;
}
...
/* output */
mpu6050_interface_debug_print("mpu6050: %d/%d.n", i + 1, times);
mpu6050_interface_debug_print("mpu6050: acc x is %0.2fg.n", g[0]);
mpu6050_interface_debug_print("mpu6050: acc y is %0.2fg.n", g[1]);
mpu6050_interface_debug_print("mpu6050: acc z is %0.2fg.n", g[2]);
mpu6050_interface_debug_print("mpu6050: gyro x is %0.2fdps.n", dps[0]);
mpu6050_interface_debug_print("mpu6050: gyro y is %0.2fdps.n", dps[1]);
mpu6050_interface_debug_print("mpu6050: gyro z is %0.2fdps.n", dps[2]);
mpu6050_interface_debug_print("mpu6050: temperature %0.2fC.n", degrees);
...
/* delay 1000 ms */
mpu6050_interface_delay_ms(1000);
...
}
...
/* deinit */
(void)mpu6050_basic_deinit();
return 0;
#include "driver_mpu6050_fifo.h"
uint32_t i;
uint32_t times;
uint16_t len;
uint8_t (*g_gpio_irq)(void) = NULL;
static int16_t gs_accel_raw[128][3];
static float gs_accel_g[128][3];
static int16_t gs_gyro_raw[128][3];
static float gs_gyro_dps[128][3];
mpu6050_address_t addr;
/* gpio init */
if (gpio_interrupt_init() != 0)
{
return 1;
}
g_gpio_irq = mpu6050_fifo_irq_handler;
/* init */
addr = MPU6050_ADDRESS_AD0_LOW;
if (mpu6050_fifo_init(addr) != 0)
{
g_gpio_irq = NULL;
(void)gpio_interrupt_deinit();
return 1;
}
/* delay 100 ms */
mpu6050_interface_delay_ms(100);
...
times = 3;
for (i = 0; i < times; i++)
{
len = 128;
/* read */
if (mpu6050_fifo_read(gs_accel_raw, gs_accel_g,
gs_gyro_raw, gs_gyro_dps, &len) != 0)
{
(void)mpu6050_fifo_deinit();
g_gpio_irq = NULL;
(void)gpio_interrupt_deinit();
return 1;
}
...
/* output */
mpu6050_interface_debug_print("mpu6050: %d/%d.n", i + 1, times);
mpu6050_interface_debug_print("mpu6050: fifo %d.n", len);
mpu6050_interface_debug_print("mpu6050: acc x[0] is %0.2fg.n", gs_accel_g[0][0]);
mpu6050_interface_debug_print("mpu6050: acc y[0] is %0.2fg.n", gs_accel_g[0][1]);
mpu6050_interface_debug_print("mpu6050: acc z[0] is %0.2fg.n", gs_accel_g[0][2]);
mpu6050_interface_debug_print("mpu6050: gyro x[0] is %0.2fdps.n", gs_gyro_dps[0][0]);
mpu6050_interface_debug_print("mpu6050: gyro y[0] is %0.2fdps.n", gs_gyro_dps[0][1]);
mpu6050_interface_debug_print("mpu6050: gyro z[0] is %0.2fdps.n", gs_gyro_dps[0][2]);
...
/* delay 100 ms */
mpu6050_interface_delay_ms(100);
...
}
...
/* deinit */
(void)mpu6050_fifo_deinit();
g_gpio_irq = NULL;
(void)gpio_interrupt_deinit();
return 0;
#include "driver_mpu6050_dmp.h"
uint32_t i;
uint32_t times;
uint32_t cnt;
uint16_t len;
uint8_t (*g_gpio_irq)(void) = NULL;
static int16_t gs_accel_raw[128][3];
static float gs_accel_g[128][3];
static int16_t gs_gyro_raw[128][3];
static float gs_gyro_dps[128][3];
static int32_t gs_quat[128][4];
static float gs_pitch[128];
static float gs_roll[128];
static float gs_yaw[128];
mpu6050_address_t addr;
static void a_receive_callback(uint8_t type)
{
switch (type)
{
case MPU6050_INTERRUPT_MOTION :
{
mpu6050_interface_debug_print("mpu6050: irq motion.n");
break;
}
case MPU6050_INTERRUPT_FIFO_OVERFLOW :
{
mpu6050_interface_debug_print("mpu6050: irq fifo overflow.n");
break;
}
case MPU6050_INTERRUPT_I2C_MAST :
{
mpu6050_interface_debug_print("mpu6050: irq i2c master.n");
break;
}
case MPU6050_INTERRUPT_DMP :
{
mpu6050_interface_debug_print("mpu6050: irq dmpn");
break;
}
case MPU6050_INTERRUPT_DATA_READY :
{
mpu6050_interface_debug_print("mpu6050: irq data readyn");
break;
}
default :
{
mpu6050_interface_debug_print("mpu6050: irq unknown code.n");
break;
}
}
}
static void a_dmp_tap_callback(uint8_t count, uint8_t direction)
{
switch (direction)
{
case MPU6050_DMP_TAP_X_UP :
{
mpu6050_interface_debug_print("mpu6050: tap irq x up with %d.n", count);
break;
}
case MPU6050_DMP_TAP_X_DOWN :
{
mpu6050_interface_debug_print("mpu6050: tap irq x down with %d.n", count);
break;
}
case MPU6050_DMP_TAP_Y_UP :
{
mpu6050_interface_debug_print("mpu6050: tap irq y up with %d.n", count);
break;
}
case MPU6050_DMP_TAP_Y_DOWN :
{
mpu6050_interface_debug_print("mpu6050: tap irq y down with %d.n", count);
break;
}
case MPU6050_DMP_TAP_Z_UP :
{
mpu6050_interface_debug_print("mpu6050: tap irq z up with %d.n", count);
break;
}
case MPU6050_DMP_TAP_Z_DOWN :
{
mpu6050_interface_debug_print("mpu6050: tap irq z down with %d.n", count);
break;
}
default :
{
mpu6050_interface_debug_print("mpu6050: tap irq unknown code.n");
break;
}
}
}
static void a_dmp_orient_callback(uint8_t orientation)
{
switch (orientation)
{
case MPU6050_DMP_ORIENT_PORTRAIT :
{
mpu6050_interface_debug_print("mpu6050: orient irq portrait.n");
break;
}
case MPU6050_DMP_ORIENT_LANDSCAPE :
{
mpu6050_interface_debug_print("mpu6050: orient irq landscape.n");
break;
}
case MPU6050_DMP_ORIENT_REVERSE_PORTRAIT :
{
mpu6050_interface_debug_print("mpu6050: orient irq reverse portrait.n");
break;
}
case MPU6050_DMP_ORIENT_REVERSE_LANDSCAPE :
{
mpu6050_interface_debug_print("mpu6050: orient irq reverse landscape.n");
break;
}
default :
{
mpu6050_interface_debug_print("mpu6050: orient irq unknown code.n");
break;
}
}
}
/* init */
if (gpio_interrupt_init() != 0)
{
return 1;
}
g_gpio_irq = mpu6050_dmp_irq_handler;
/* run dmp function */
addr = MPU6050_ADDRESS_AD0_LOW;
if (mpu6050_dmp_init(addr, a_receive_callback,
a_dmp_tap_callback, a_dmp_orient_callback) != 0)
{
g_gpio_irq = NULL;
(void)gpio_interrupt_deinit();
return 1;
}
/* delay 500 ms */
mpu6050_interface_delay_ms(500);
...
times = 3;
for (i = 0; i < times; i++)
{
len = 128;
/* read */
if (mpu6050_dmp_read_all(gs_accel_raw, gs_accel_g,
gs_gyro_raw, gs_gyro_dps,
gs_quat,
gs_pitch, gs_roll, gs_yaw,
&len) != 0)
{
(void)mpu6050_dmp_deinit();
g_gpio_irq = NULL;
(void)gpio_interrupt_deinit();
return 1;
}
/* output */
mpu6050_interface_debug_print("mpu6050: %d/%d.n", i + 1, times);
mpu6050_interface_debug_print("mpu6050: fifo %d.n", len);
mpu6050_interface_debug_print("mpu6050: pitch[0] is %0.2fdeg.n", gs_pitch[0]);
mpu6050_interface_debug_print("mpu6050: roll[0] is %0.2fdeg.n", gs_roll[0]);
mpu6050_interface_debug_print("mpu6050: yaw[0] is %0.2fdeg.n", gs_yaw[0]);
mpu6050_interface_debug_print("mpu6050: acc x[0] is %0.2fg.n", gs_accel_g[0][0]);
mpu6050_interface_debug_print("mpu6050: acc y[0] is %0.2fg.n", gs_accel_g[0][1]);
mpu6050_interface_debug_print("mpu6050: acc z[0] is %0.2fg.n", gs_accel_g[0][2]);
mpu6050_interface_debug_print("mpu6050: gyro x[0] is %0.2fdps.n", gs_gyro_dps[0][0]);
mpu6050_interface_debug_print("mpu6050: gyro y[0] is %0.2fdps.n", gs_gyro_dps[0][1]);
mpu6050_interface_debug_print("mpu6050: gyro z[0] is %0.2fdps.n", gs_gyro_dps[0][2]);
/* delay 500 ms */
mpu6050_interface_delay_ms(500);
....
/* get the pedometer step count */
res = mpu6050_dmp_get_pedometer_counter(&cnt);
if (res != 0)
{
(void)mpu6050_dmp_deinit();
g_gpio_irq = NULL;
(void)gpio_interrupt_deinit();
return 1;
}
...
}
...
/* deinit */
(void)mpu6050_dmp_deinit();
g_gpio_irq = NULL;
(void)gpio_interrupt_deinit();
return 0;
Online documents: https://www.libdriver.com/docs/mpu6050/index.html.
Offline documents: /doc/html/index.html.
Please refer to CONTRIBUTING.md.
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