Test program for magnetometer
Dependencies: mbed AES BLE_API nRF51822 smallAES
accelService.h
- Committer:
- f3d
- Date:
- 2019-09-30
- Revision:
- 2:4871b5ad7938
File content as of revision 2:4871b5ad7938:
/* mbed Microcontroller Library * Copyright (c) 2006-2013 ARM Limited * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #ifndef __BLE_ACCEL_SERVICE_H__ #define __BLE_ACCEL_SERVICE_H__ #include <mbed.h> // Accelerometer : LSM303 I2C i2c(P0_30, P0_0); // SDA is on P0_30, SCL is on P0_0 const int LSM303_ADDRESS = (0x19<<1); //const int MMA8653_ID = 0x5a; class ACCELService { public: const static uint16_t ACCEL_SERVICE_UUID = 0xA012; const static uint16_t ACCEL_X_CHARACTERISTIC_UUID = 0xA013; const static uint16_t ACCEL_Y_CHARACTERISTIC_UUID = 0xA014; const static uint16_t ACCEL_Z_CHARACTERISTIC_UUID = 0xA015; ACCELService(BLEDevice &_ble, int16_t initialValueForACCELCharacteristic) : ble(_ble), AccelX(ACCEL_X_CHARACTERISTIC_UUID, &initialValueForACCELCharacteristic),AccelY(ACCEL_Y_CHARACTERISTIC_UUID, &initialValueForACCELCharacteristic),AccelZ(ACCEL_Z_CHARACTERISTIC_UUID, &initialValueForACCELCharacteristic) { GattCharacteristic *charTable[] = {&AccelX,&AccelY,&AccelZ}; GattService AccelService(ACCEL_SERVICE_UUID, charTable, sizeof(charTable) / sizeof(GattCharacteristic *)); ble.addService(AccelService); // Wake the accelerometer from sleep mode by writing disabling low power mode, setting freq to 10Hz and enabling all three axes char Data[8]; // Declare a buffer for data transfer int Status; Data[0]=0x20; // wake up LSM303 (max speed, all accel channels) Data[1]=0x77; Status = i2c.write(LSM303_ADDRESS,Data,2); // Write data to register Data[0]=0x23; // enable high resolution mode Data[1]=0x0e; Status = i2c.write(LSM303_ADDRESS,Data,2); // Write data to register } GattAttribute::Handle_t getValueHandle() const { return AccelX.getValueHandle(); } void updateAccelX(uint16_t newValue) { ble.gattServer().write(AccelX.getValueHandle(), (uint8_t *)&newValue, sizeof(uint16_t)); } void updateAccelY(uint16_t newValue) { ble.gattServer().write(AccelY.getValueHandle(), (uint8_t *)&newValue, sizeof(uint16_t)); } void updateAccelZ(uint16_t newValue) { ble.gattServer().write(AccelZ.getValueHandle(), (uint8_t *)&newValue, sizeof(uint16_t)); } void poll() { char Data[8]; // Declare a buffer for data transfer int Status; int16_t X; Data[0]=0x80 + 0x28; // Register number 0x28 has the X data (2 bytes) Status = i2c.write(LSM303_ADDRESS,Data,1,true); // Write register number Status = i2c.read(LSM303_ADDRESS,Data,2); // Read register contents X = Data[1]; X = (X << 8) + Data[0]; int16_t Y; Data[0]=0x80 + 0x2a; // Register number 0x2a has the Y data (2 bytes) Status = i2c.write(LSM303_ADDRESS,Data,1,true); // Write register number Status = i2c.read(LSM303_ADDRESS,Data,2); // Read register contents Y = Data[1]; Y = (Y << 8) + Data[0]; int16_t Z; Data[0]=0x80 + 0x2c; // Register number 0x2c has the Z data (2 bytes) Status = i2c.write(LSM303_ADDRESS,Data,1,true); // Write register number Status = i2c.read(LSM303_ADDRESS,Data,2); // Read register contents Z = Data[1]; Z = (Z << 8) + Data[0]; updateAccelX(X); updateAccelY(Y); updateAccelZ(Z); } private: BLEDevice &ble; ReadOnlyGattCharacteristic<int16_t> AccelX; ReadOnlyGattCharacteristic<int16_t> AccelY; ReadOnlyGattCharacteristic<int16_t> AccelZ; }; #endif /* #ifndef __BLE_ACCEL_SERVICE_H__ */