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LilyGo-LoRa-Series/lib/SensorLib/examples/BHI260AP_Activity/BHI260AP_Activity.ino
lewisxhe 4fdc6077b7 Update SensorLib
2026-04-08 09:28:20 +08:00

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/**
*
* @license MIT License
*
* Copyright (c) 2025 lewis he
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in all
* copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
* SOFTWARE.
*
* @file BHI260AP_Activity .ino
* @author Lewis He (lewishe@outlook.com)
* @date 2025-02-04
* @note Changed from Boschsensortec API https://github.com/boschsensortec/BHY2_SensorAPI
*/
#include <Wire.h>
#include <SPI.h>
#include <Arduino.h>
#include <SensorBHI260AP.hpp>
#include <bosch/BoschSensorDataHelper.hpp>
// #define USE_I2C_INTERFACE true
// #define USE_SPI_INTERFACE true
#if !defined(USE_I2C_INTERFACE) && !defined(USE_SPI_INTERFACE)
#define USE_I2C_INTERFACE
#warning "No interface type is selected, use I2C interface"
#endif
#if defined(USE_SPI_INTERFACE)
#ifndef SPI_MOSI
#define SPI_MOSI 33
#endif
#ifndef SPI_MISO
#define SPI_MISO 34
#endif
#ifndef SPI_SCK
#define SPI_SCK 35
#endif
// If BHI260_IRQ is set to -1, sensor interrupts are not used and the sensor polling method is used instead.
#ifndef BHI260_IRQ
#define BHI260_IRQ 37
#endif
#ifndef BHI260_CS
#define BHI260_CS 36
#endif
#else //* I2C */
#ifndef BHI260_SDA
#define BHI260_SDA 2
#endif
#ifndef BHI260_SCL
#define BHI260_SCL 3
#endif
// If BHI260_IRQ is set to -1, sensor interrupts are not used and the sensor polling method is used instead.
#ifndef BHI260_IRQ
#define BHI260_IRQ 8
#endif
#endif /*USE_SPI_INTERFACE*/
#ifndef BHI260_RST
#define BHI260_RST -1
#endif
SensorBHI260AP bhy;
SensorActivity activity(bhy);
// The firmware runs in RAM and will be lost if the power is off. The firmware will be loaded from RAM each time it is run.
#define BOSCH_APP30_SHUTTLE_BHI260_FW
// #define BOSCH_APP30_SHUTTLE_BHI260_AUX_BMM150FW
// #define BOSCH_APP30_SHUTTLE_BHI260_BME68X
// #define BOSCH_APP30_SHUTTLE_BHI260_BMP390
// #define BOSCH_APP30_SHUTTLE_BHI260_TURBO
// #define BOSCH_BHI260_AUX_BEM280
// #define BOSCH_BHI260_AUX_BMM150_BEM280
// #define BOSCH_BHI260_AUX_BMM150_BEM280_GPIO
// #define BOSCH_BHI260_AUX_BMM150_GPIO
// #define BOSCH_BHI260_GPIO
// Firmware is stored in flash and booted from flash,Depends on BHI260 hardware connected to SPI Flash
// #define BOSCH_APP30_SHUTTLE_BHI260_AUX_BMM150_FLASH
// #define BOSCH_APP30_SHUTTLE_BHI260_BME68X_FLASH
// #define BOSCH_APP30_SHUTTLE_BHI260_BMP390_FLASH
// #define BOSCH_APP30_SHUTTLE_BHI260_FLASH
// #define BOSCH_APP30_SHUTTLE_BHI260_TURBO_FLASH
// #define BOSCH_BHI260_AUX_BEM280_FLASH
// #define BOSCH_BHI260_AUX_BMM150_BEM280_FLASH
// #define BOSCH_BHI260_AUX_BMM150_BEM280_GPIO_FLASH
// #define BOSCH_BHI260_AUX_BMM150_GPIO_FLASH
// #define BOSCH_BHI260_GPIO_FLASH
#include <BoschFirmware.h>
// Force update of current firmware, whether it exists or not.
// Only works when external SPI Flash is connected to BHI260.
// After uploading firmware once, you can change this to false to speed up boot time.
bool force_update_flash_firmware = true;
#if BHI260_IRQ > 0
#define USING_SENSOR_IRQ_METHOD
#endif
#ifdef USING_SENSOR_IRQ_METHOD
volatile bool isInterruptTriggered = false;
void dataReadyISR()
{
isInterruptTriggered = true;
}
#endif /*USING_SENSOR_IRQ_METHOD*/
// Firmware update progress callback
void progress_callback(uint32_t total, uint32_t transferred, void *user_data)
{
float progress = (float)transferred / total * 100;
Serial.print("Upload progress: ");
Serial.print(progress);
Serial.println("%");
}
void setup()
{
Serial.begin(115200);
while (!Serial);
// Set the reset pin
bhy.setPins(BHI260_RST);
Serial.println("Initializing Sensors...");
// Set the firmware array address and firmware size
bhy.setFirmware(bosch_firmware_image, bosch_firmware_size, bosch_firmware_type, force_update_flash_firmware);
// Set the firmware update processing progress callback function
// bhy.setUpdateProcessCallback(progress_callback, NULL);
// Set the maximum transfer bytes of I2C/SPI,The default size is I2C 32 bytes, SPI 256 bytes.
// bhy.setMaxiTransferSize(256);
// Set the processing fifo data buffer size,The default size is 512 bytes.
// bhy.setProcessBufferSize(1024);
// Set to load firmware from flash
bhy.setBootFromFlash(bosch_firmware_type);
Serial.println("Initializing Sensors...");
#ifdef USE_I2C_INTERFACE
// Using I2C interface
// BHI260AP_SLAVE_ADDRESS_L = 0x28
// BHI260AP_SLAVE_ADDRESS_H = 0x29
if (!bhy.begin(Wire, BHI260AP_SLAVE_ADDRESS_L, BHI260_SDA, BHI260_SCL)) {
Serial.print("Failed to initialize sensor - error code:");
Serial.println(bhy.getError());
while (1) {
delay(1000);
}
}
#endif
#ifdef USE_SPI_INTERFACE
// Using SPI interface
if (!bhy.begin(SPI, BHI260_CS, SPI_MOSI, SPI_MISO, SPI_SCK)) {
Serial.print("Failed to initialize sensor - error code:");
Serial.println(bhy.getError());
while (1) {
delay(1000);
}
}
#endif
Serial.println("Initializing the sensor successfully!");
// Output all sensors info to Serial
BoschSensorInfo info = bhy.getSensorInfo();
#ifdef ARDUINO
ArduinoStreamPrinter printer(Serial);
info.printInfo(printer);
#else
info.printInfo([](const char *format, ...) -> int {
va_list args;
va_start(args, format);
int result = vprintf(format, args);
va_end(args);
return result;
});
#endif
float sample_rate = 1.0;
uint32_t report_latency_ms = 0;
/**
* Configure the activity recognition sensor of the BHI260AP sensor.
*
* This function sets the sampling rate and report latency for the activity recognition sensor.
* The sampling rate determines how often the sensor takes measurements, and the report latency
* determines the delay between when a measurement is taken and when it is reported.
* The activity recognition sensor will only be triggered when there is a change.
* @param samplingRate The sampling rate of the sensor. A value greater than 1 enables the sensor,
* while a value of 0 disables it.
* @param latencyMs The report latency in milliseconds.
*/
activity.enable(sample_rate, report_latency_ms);
#ifdef USING_SENSOR_IRQ_METHOD
// Set the specified pin (BHI260_IRQ) to an input pin.
// This makes the pin ready to receive external signals.
// If the interrupt is already connected, if BHI260_IRQ is equal to -1 then the polling method will be used
pinMode(BHI260_IRQ, INPUT);
// Attach an interrupt service routine (ISR) to the specified pin (BHI260_IRQ).
// The ISR 'dataReadyISR' will be called whenever a rising edge is detected on the pin.
attachInterrupt(BHI260_IRQ, dataReadyISR, RISING);
#endif
}
void loop()
{
if (activity.hasUpdated()) {
if (activity.isActivitySet(SensorActivity::STILL_ACTIVITY_ENDED)) {
Serial.println("Still activity ended is set.");
}
if (activity.isActivitySet(SensorActivity::WALKING_ACTIVITY_ENDED)) {
Serial.println("Walking activity ended is set.");
}
if (activity.isActivitySet(SensorActivity::RUNNING_ACTIVITY_ENDED)) {
Serial.println("Running activity ended is set.");
}
if (activity.isActivitySet(SensorActivity::ON_BICYCLE_ACTIVITY_ENDED)) {
Serial.println("On Bicycle activity ended is set.");
}
if (activity.isActivitySet(SensorActivity::IN_VEHICLE_ACTIVITY_ENDED)) {
Serial.println("In Vehicle activity ended is set.");
}
if (activity.isActivitySet(SensorActivity::TILTING_ACTIVITY_ENDED)) {
Serial.println("Tilting activity ended is set.");
}
if (activity.isActivitySet(SensorActivity::IN_VEHICLE_STILL_ENDED)) {
Serial.println("In Vehicle still ended is set.");
}
if (activity.isActivitySet(SensorActivity::STILL_ACTIVITY_STARTED)) {
Serial.println("Still activity started is set.");
}
if (activity.isActivitySet(SensorActivity::WALKING_ACTIVITY_STARTED)) {
Serial.println("Walking activity started is set.");
}
if (activity.isActivitySet(SensorActivity::RUNNING_ACTIVITY_STARTED)) {
Serial.println("Running activity started is set.");
}
if (activity.isActivitySet(SensorActivity::ON_BICYCLE_ACTIVITY_STARTED)) {
Serial.println("On Bicycle activity started is set.");
}
if (activity.isActivitySet(SensorActivity::IN_VEHICLE_ACTIVITY_STARTED)) {
Serial.println("In Vehicle activity started is set.");
}
if (activity.isActivitySet(SensorActivity::TILTING_ACTIVITY_STARTED)) {
Serial.println("Tilting activity started is set.");
}
if (activity.isActivitySet(SensorActivity::IN_VEHICLE_STILL_STARTED)) {
Serial.println("In Vehicle still started is set.");
}
}
#ifdef USING_SENSOR_IRQ_METHOD
if (isInterruptTriggered) {
isInterruptTriggered = false;
#endif /*USING_SENSOR_IRQ_METHOD*/
/* If the interrupt is connected to the sensor and BHI260_IRQ is not equal to -1,
* the interrupt function will be enabled, otherwise the method of polling the sensor is used
*/
bhy.update();
#ifdef USING_SENSOR_IRQ_METHOD
}
#endif /*USING_SENSOR_IRQ_METHOD*/
delay(50);
}
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