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/**
*!
* \file b_drv_hlw811x.c
* \version v0.0.1
* \date 2024/08/14
* \author hmchen(chenhaimeng@189.cn)
*******************************************************************************
* @attention
*
* Copyright (c) 2020 Bean
*
* 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.
*******************************************************************************
*/
/*Includes ----------------------------------------------*/
#include "drivers/inc/b_drv_hlw811x.h"
#include "drivers/inc/HLW811x_regs.h"
#include <string.h>
#include "utils/inc/b_util_log.h"
/**
* \addtogroup B_DRIVER
* \{
*/
/**
* \addtogroup HLW8112
* \{
*/
/**
* \defgroup HLW8112_Private_TypesDefinitions
* \{
*/
/**
* \}
*/
/**
* \defgroup HLW8112_Private_Defines
* \{
*/
#define DRIVER_NAME HLW811X
/** Device Identification (Who am I) **/
/**
* \}
*/
/**
* \defgroup HLW8112_Private_Macros
* \{
*/
/**
* \}
*/
/**
* \defgroup HLW8112_Private_Variables
* \{
*/
bDRIVER_HALIF_TABLE(bHLW811X_HalIf_t, DRIVER_NAME);
static bHlw811xPrivate_t bHlw811xRunInfo[bDRIVER_HALIF_NUM(bHLW811X_HalIf_t, DRIVER_NAME)];
/* Private Constants ------------------------------------------------------------*/
/**
* @brief Commands
*/
#define HLW811X_COMMAND_ADDRESS HLW811X_REG_ADDR_Command
#define HLW811X_COMMAND_WRITE_ENABLE 0xE5
#define HLW811X_COMMAND_WRITE_CLOSE 0xDC
#define HLW811X_COMMAND_CHANNELA 0x5A
#define HLW811X_COMMAND_CHANNELB 0xA5
#define HLW811X_COMMAND_RESET 0x96
/**
* @brief CoefReg coefficients
*/
#define HLW811X_VREF 1.25f
/**
* @brief PGA coefficients
*/
static const uint8_t HLW811X_PGA_TABLE[5] = {0x00, 0x01, 0x02, 0x03, 0x04};
/**
==================================================================================
##### Private Functions #####
==================================================================================
*/
static inline int8_t
HLW811x_WriteReg(bDriverInterface_t *pdrv,
uint8_t Address, uint8_t Size, uint8_t *Data)
{
bDRIVER_GET_HALIF(_if, bHLW811X_HalIf_t, pdrv);
uint8_t Buffer[3] = {0};
int8_t Result = 0;
#if (HLW811X_CONFIG_SPI_WRITE_RETRY > 0)
uint8_t Retry = 0;
uint8_t BufferCheckTX[3] = {HLW811X_REG_ADDR_Wdata, 0, 0};
uint8_t BufferCheckRX[3] = {0};
#endif
if (Address == HLW811X_COMMAND_ADDRESS) // Special address for commands
Buffer[0] = Address;
else
Buffer[0] = Address | 0x80;
if (Size > 2)
return -1;
for (uint8_t i = 0; i < Size; i++)
Buffer[i + 1] = Data[i];
#if (HLW811X_CONFIG_SPI_WRITE_RETRY > 0)
do
{
// Write data
if (_if->is_spi)
{
bHalGpioWritePin(_if->_if._spi.cs.port, _if->_if._spi.cs.pin, 0);
bHalSpiSend(&_if->_if._spi, Buffer, Size + 1);
bHalGpioWritePin(_if->_if._spi.cs.port, _if->_if._spi.cs.pin, 1);
}
else
{
//uart
}
// Command address is not supposed to be checked
if (Address == HLW811X_COMMAND_ADDRESS)
break;
// Read WDATA register to check the written data
if (_if->is_spi)
{
bHalGpioWritePin(_if->_if._spi.cs.port, _if->_if._spi.cs.pin, 0);
bHalSpiSend(&_if->_if._spi, BufferCheckTX, 1);
bHalSpiReceive(&_if->_if._spi, BufferCheckRX, 2);
bHalGpioWritePin(_if->_if._spi.cs.port, _if->_if._spi.cs.pin, 1);
}
else
{
//uart
}
// Compare the written data with the WDATA register
Result = 0;
for (uint8_t i = 0; i < Size; i++)
{
if (Data[i] != BufferCheckRX[i])
{
Result = -1;
break;
}
}
}
while (Result < 0 && Retry++ < HLW811X_CONFIG_SPI_WRITE_RETRY);
#else
if (_if->is_spi)
{
bHalGpioWritePin(_if->_if._spi.cs.port, _if->_if._spi.cs.pin, 0);
bHalSpiSend(&_if->_if._spi, Buffer, Size + 1);
bHalGpioWritePin(_if->_if._spi.cs.port, _if->_if._spi.cs.pin, 1);
}
else
{
//uart
}
#endif
return Result;
}
static inline int8_t
HLW811x_ReadReg(bDriverInterface_t *pdrv,
uint8_t Address, uint8_t Size, uint8_t *Data)
{
bDRIVER_GET_HALIF(_if, bHLW811X_HalIf_t, pdrv);
uint8_t BufferTx[5] = {0xFF};
uint8_t BufferRx[5] = {0};
int8_t Result = 0;
#if (HLW811X_CONFIG_SPI_READ_RETRY > 0)
uint8_t Retry = 0;
uint8_t BufferCheckTX[5] = {HLW811X_REG_ADDR_Rdata, 0, 0};
uint8_t BufferCheckRX[5] = {0};
#endif
if (Address == HLW811X_COMMAND_ADDRESS) // Special address for commands
return -1;
else
BufferTx[0] = Address & 0x7F;
if (Size > 4)
return -1;
#if (HLW811X_CONFIG_SPI_READ_RETRY > 0)
do
{
// Read data
if (_if->is_spi)
{
bHalGpioWritePin(_if->_if._spi.cs.port, _if->_if._spi.cs.pin, 0);
bHalSpiSend(&_if->_if._spi, BufferTx, 1);
bHalSpiReceive(&_if->_if._spi, BufferRx, Size);
bHalGpioWritePin(_if->_if._spi.cs.port, _if->_if._spi.cs.pin, 1);
}
else
{
//uart
}
// Read RDATA register to check the read data
if (_if->is_spi)
{
bHalGpioWritePin(_if->_if._spi.cs.port, _if->_if._spi.cs.pin, 0);
bHalSpiSend(&_if->_if._spi, BufferCheckTX, 1);
bHalSpiReceive(&_if->_if._spi, BufferCheckRX, 4);
bHalGpioWritePin(_if->_if._spi.cs.port, _if->_if._spi.cs.pin, 1);
}
else
{
//uart
}
// Compare the read data with the RDATA register
Result = 0;
for (uint8_t i = 0; i < Size ; i++)
{
if (BufferRx[i] != BufferCheckRX[i])
{
Result = -1;
break;
}
}
}
while (Result < 0 && Retry++ < HLW811X_CONFIG_SPI_READ_RETRY);
#else
if (_if->is_spi)
{
bHalGpioWritePin(_if->_if._spi.cs.port, _if->_if._spi.cs.pin, 0);
bHalSpiSend(&_if->_if._spi, BufferTx, 1);
bHalSpiReceive(&_if->_if._spi, BufferRx, Size);
bHalGpioWritePin(_if->_if._spi.cs.port, _if->_if._spi.cs.pin, 1);
}
else
{
//uart
}
#endif
uint32_t check_sum = 0;
for (uint8_t i = 0; i < Size; i++)
{
check_sum += BufferRx[i];
Data[i] = BufferRx[i];
}
if(check_sum == (0xff * Size))
{
Result = -1;
}
return Result;
}
static int8_t
HLW811x_WriteReg16(bDriverInterface_t *pdrv,
uint8_t Address, uint16_t Data)
{
uint8_t Buffer[2] = {0};
Buffer[0] = (Data >> 8) & 0xFF;
Buffer[1] = Data & 0xFF;
return HLW811x_WriteReg(pdrv, Address, 2, Buffer);
}
static int8_t
HLW811x_ReadReg16(bDriverInterface_t *pdrv,
uint8_t Address, uint16_t *Data)
{
uint8_t Buffer[2] = {0};
int8_t Result = 0;
Result = HLW811x_ReadReg(pdrv, Address, 2, Buffer);
if (Result < 0)
return Result;
*Data = ((uint16_t)Buffer[0] << 8) | ((uint16_t)Buffer[1]);
return Result;
}
static int8_t
HLW811x_ReadReg24(bDriverInterface_t *pdrv,
uint8_t Address, uint32_t *Data)
{
uint8_t Buffer[3] = {0};
int8_t Result = 0;
Result = HLW811x_ReadReg(pdrv, Address, 3, Buffer);
if (Result < 0)
return Result;
*Data = ((uint32_t)Buffer[0] << 16) | ((uint32_t)Buffer[1] << 8) |
((uint32_t)Buffer[2]);
return Result;
}
static int8_t
HLW811x_ReadReg32(bDriverInterface_t *pdrv,
uint8_t Address, uint32_t *Data)
{
uint8_t Buffer[4] = {0};
int8_t Result = 0;
Result = HLW811x_ReadReg(pdrv, Address, 4, Buffer);
if (Result < 0)
return Result;
*Data = ((uint32_t)Buffer[0] << 24) | ((uint32_t)Buffer[1] << 16) |
((uint32_t)Buffer[2] << 8) | ((uint32_t)Buffer[3]);
return Result;
}
static int8_t
HLW811x_Command(bDriverInterface_t *pdrv, uint8_t Command)
{
uint8_t Buffer = Command;
return HLW811x_WriteReg(pdrv, HLW811X_COMMAND_ADDRESS, 1, &Buffer);
}
static inline int8_t
HLW811x_CommandEnableWriteOperation(bDriverInterface_t *pdrv)
{
return HLW811x_Command(pdrv, HLW811X_COMMAND_WRITE_ENABLE);
}
static inline int8_t
HLW811x_CommandCloseWriteOperation(bDriverInterface_t *pdrv)
{
return HLW811x_Command(pdrv, HLW811X_COMMAND_WRITE_CLOSE);
}
static inline int8_t
HLW811x_CommandReset(bDriverInterface_t *pdrv)
{
int8_t Result = 0;
Result = HLW811x_CommandEnableWriteOperation(pdrv);
if (Result < 0)
return HLW811X_FAIL;
Result = HLW811x_Command(pdrv, HLW811X_COMMAND_RESET);
if (Result < 0)
return HLW811X_FAIL;
Result = HLW811x_CommandCloseWriteOperation(pdrv);
if (Result < 0)
return HLW811X_FAIL;
return HLW811X_OK;
}
static int32_t
HLW811x_24BitTo32Bit(uint32_t Data)
{
int32_t Res = 0;
Data &= 0x00FFFFFF;
// convert three bytes of 2s complement into 24 bit signed integer
if (Data & 0x00800000)
Res = 0xFF000000;
Res |= Data;
// Res is now a 32-bit signed integer
return Res;
}
/**
==================================================================================
##### Public Functions #####
==================================================================================
*/
/**
* @brief Initializer function
* @param Handler: Pointer to handler
* @param Device: Device type
* @retval HLW811x_Result_t
* - HLW811X_OK: Operation was successful.
* - HLW811X_FAIL: Failed to send or receive data.
* - HLW811X_INVALID_PARAM: One of parameters is invalid.
*/
HLW811x_Result_t
HLW811x_Init(bDriverInterface_t *pdrv, HLW811x_Device_t Device)
{
if (!pdrv)
return HLW811X_INVALID_PARAM;
return HLW811X_OK;
}
/**
* @brief Deinitialize function
* @param Handler: Pointer to handler
* @retval HLW811x_Result_t
* - HLW811X_OK: Operation was successful.
* - HLW811X_FAIL: Failed to send or receive data.
*/
HLW811x_Result_t
HLW811x_DeInit(bDriverInterface_t *pdrv)
{
if (!pdrv)
return HLW811X_INVALID_PARAM;
return HLW811X_OK;
}
/**
* @brief Low level read register function
* @param Handler: Pointer to handler
* @param RegAddr: Register address
* @param Data: Pointer to buffer to store data
* @param Len: Register data length in bytes
* @retval HLW811x_Result_t
* - HLW811X_OK: Operation was successful.
* - HLW811X_FAIL: Failed to send or receive data.
*/
HLW811x_Result_t
HLW811x_ReadRegLL(bDriverInterface_t *pdrv,
uint8_t RegAddr,
uint8_t *Data,
uint8_t Len)
{
if (!pdrv || !Data)
return HLW811X_INVALID_PARAM;
if (Len == 0)
return HLW811X_INVALID_PARAM;
return ((HLW811x_ReadReg(pdrv, RegAddr, Len, Data) >= 0) ? HLW811X_OK : HLW811X_FAIL);
}
/**
* @brief Low level write register function
* @param Handler: Pointer to handler
* @param RegAddr: Register address
* @param Data: Pointer to data to write
* @param Len: Register data length in bytes
* @retval HLW811x_Result_t
* - HLW811X_OK: Operation was successful.
* - HLW811X_FAIL: Failed to send or receive data.
*/
HLW811x_Result_t
HLW811x_WriteRegLL(bDriverInterface_t *pdrv,
uint8_t RegAddr,
uint8_t *Data,
uint8_t Len)
{
int8_t Result = 0;
if (!pdrv || !Data)
return HLW811X_INVALID_PARAM;
if (Len == 0)
return HLW811X_INVALID_PARAM;
Result = HLW811x_CommandEnableWriteOperation(pdrv);
if (Result < 0)
return HLW811X_FAIL;
Result = HLW811x_WriteReg(pdrv, RegAddr, Len, Data);
if (Result < 0)
return HLW811X_FAIL;
Result = HLW811x_CommandCloseWriteOperation(pdrv);
if (Result < 0)
return HLW811X_FAIL;
return HLW811X_OK;
}
/**
* @brief Set the ratio of the resistors for current channel A
* @note This ration mentioned in the datasheet as K1
* @param Handler: Pointer to handler
* @param KIA: Ratio of the resistors for current channel A
* @retval HLW811x_Result_t
* - HLW811X_OK: Operation was successful.
*/
HLW811x_Result_t
HLW811x_SetResRatioIA(bDriverInterface_t *pdrv, float KIA)
{
bDRIVER_GET_PRIVATE(_priv, bHlw811xPrivate_t, pdrv);
_priv->ResCoef.KIA = KIA;
return HLW811X_OK;
}
/**
* @brief Set the ratio of the resistors for current channel B
* @note This ration mentioned in the datasheet as K1
* @param Handler: Pointer to handler
* @param KIA: Ratio of the resistors for current channel B
* @retval HLW811x_Result_t
* - HLW811X_OK: Operation was successful.
*/
HLW811x_Result_t
HLW811x_SetResRatioIB(bDriverInterface_t *pdrv, float KIB)
{
bDRIVER_GET_PRIVATE(_priv, bHlw811xPrivate_t, pdrv);
_priv->ResCoef.KIB = KIB;
return HLW811X_OK;
}
/**
* @brief Set the ratio of the resistors for voltage channel
* @note This ration mentioned in the datasheet as K2
* @param Handler: Pointer to handler
* @param KU: Ratio of the resistors for voltage channel
* @retval HLW811x_Result_t
* - HLW811X_OK: Operation was successful.
*/
HLW811x_Result_t
HLW811x_SetResRatioU(bDriverInterface_t *pdrv, float KU)
{
bDRIVER_GET_PRIVATE(_priv, bHlw811xPrivate_t, pdrv);
_priv->ResCoef.KU = KU;
return HLW811X_OK;
}
/**
* @brief Set the oscillator frequency
* @param Handler: Pointer to handler
* @param Freq: Frequency in Hz
* @retval HLW811x_Result_t
* - HLW811X_OK: Operation was successful.
*/
HLW811x_Result_t
HLW811x_SetCLKFreq(bDriverInterface_t *pdrv, uint32_t Freq)
{
bDRIVER_GET_PRIVATE(_priv, bHlw811xPrivate_t, pdrv);
_priv->CLKI = Freq;
return HLW811X_OK;
}
/**
* @brief Set current channel for special measurements
* @note The selected channel will be used for special measurements such as
* apparent power, power factor, phase angle, instantaneous
* apparent power and active power overload
*
* @param Handler: Pointer to handler
* @param Channel: Current channel
* @retval HLW811x_Result_t
* - HLW811X_OK: Operation was successful.
* - HLW811X_FAIL: Failed to send or receive data.
* - HLW811X_INVALID_PARAM: One of parameters is invalid.
*/
HLW811x_Result_t
HLW811x_SetSpecialMeasurementChannel(bDriverInterface_t *pdrv,
HLW811x_CurrentChannel_t Channel)
{
int8_t Result = 0;
uint8_t Command = 0;
bDRIVER_GET_PRIVATE(_priv, bHlw811xPrivate_t, pdrv);
switch (Channel)
{
case HLW811X_CURRENT_CHANNEL_A:
_priv->CurrentChannel = HLW811X_CURRENT_CHANNEL_A;
Command = HLW811X_COMMAND_CHANNELA;
break;
case HLW811X_CURRENT_CHANNEL_B:
_priv->CurrentChannel = HLW811X_CURRENT_CHANNEL_B;
Command = HLW811X_COMMAND_CHANNELB;
break;
default:
return HLW811X_INVALID_PARAM;
}
Result = HLW811x_CommandEnableWriteOperation(pdrv);
if (Result < 0)
return HLW811X_FAIL;
Result = HLW811x_Command(pdrv, Command);
if (Result < 0)
return HLW811X_FAIL;
Result = HLW811x_CommandCloseWriteOperation(pdrv);
if (Result < 0)
return HLW811X_FAIL;
return HLW811X_OK;
}
/**
* @brief Enable/Disable the channels
* @param Handler: Pointer to handler
* @param U: Voltage channel
* @param IA: Current channel A
* @param IB: Current channel B
* @retval HLW811x_Result_t
* - HLW811X_OK: Operation was successful.
* - HLW811X_FAIL: Failed to send or receive data.
*/
HLW811x_Result_t
HLW811x_SetChannelOnOff(bDriverInterface_t *pdrv,
HLW811x_EnDis_t U, HLW811x_EnDis_t IA, HLW811x_EnDis_t IB)
{
int8_t Result = 0;
uint16_t Reg = 0;
Result = HLW811x_ReadReg16(pdrv, HLW811X_REG_ADDR_SYSCON, &Reg);
if (Result < 0)
return HLW811X_FAIL;
if (U == HLW811X_ENDIS_ENABLE)
{
Reg |= (1 << HLW811X_REG_SYSCON_ADC3ON);
}
else if (U == HLW811X_ENDIS_DISABLE)
{
Reg &= ~(1 << HLW811X_REG_SYSCON_ADC3ON);
}
if (IA == HLW811X_ENDIS_ENABLE)
{
Reg |= (1 << HLW811X_REG_SYSCON_ADC1ON);
}
else if (IA == HLW811X_ENDIS_DISABLE)
{
Reg &= ~(1 << HLW811X_REG_SYSCON_ADC1ON);
}
if (IB == HLW811X_ENDIS_ENABLE)
{
Reg |= (1 << HLW811X_REG_SYSCON_ADC2ON);
}
else if (IB == HLW811X_ENDIS_DISABLE)
{
Reg &= ~(1 << HLW811X_REG_SYSCON_ADC2ON);
}
Result = HLW811x_CommandEnableWriteOperation(pdrv);
if (Result < 0)
return HLW811X_FAIL;
Result = HLW811x_WriteReg16(pdrv, HLW811X_REG_ADDR_SYSCON, Reg);
if (Result < 0)
return HLW811X_FAIL;
Result = HLW811x_CommandCloseWriteOperation(pdrv);
if (Result < 0)
return HLW811X_FAIL;
return HLW811X_OK;
}
/**
* @brief Set the PGA gain
* @param Handler: Pointer to handler
* @param U: PGA gain for voltage channel
* @param IA: PGA gain for current channel A
* @param IB: PGA gain for current channel B
* @retval HLW811x_Result_t
* - HLW811X_OK: Operation was successful.
* - HLW811X_FAIL: Failed to send or receive data.
*/
HLW811x_Result_t
HLW811x_SetPGA(bDriverInterface_t *pdrv,
HLW811x_PGA_t U, HLW811x_PGA_t IA, HLW811x_PGA_t IB)
{
int8_t Result = 0;
uint16_t Reg = 0;
bDRIVER_GET_PRIVATE(_priv, bHlw811xPrivate_t, pdrv);
Result = HLW811x_ReadReg16(pdrv, HLW811X_REG_ADDR_SYSCON, &Reg);
if (Result < 0)
return HLW811X_FAIL;
if (U < HLW811X_PGA_NONE)
{
Reg &= ~(0x07 << HLW811X_REG_SYSCON_PGAU);
Reg |= (HLW811X_PGA_TABLE[U] << HLW811X_REG_SYSCON_PGAU);
}
if (IA < HLW811X_PGA_NONE)
{
Reg &= ~(0x07 << HLW811X_REG_SYSCON_PGAIA);
Reg |= (HLW811X_PGA_TABLE[IA] << HLW811X_REG_SYSCON_PGAIA);
}
if (IB < HLW811X_PGA_NONE)
{
Reg &= ~(0x07 << HLW811X_REG_SYSCON_PGAIB);
Reg |= (HLW811X_PGA_TABLE[IB] << HLW811X_REG_SYSCON_PGAIB);
}
Result = HLW811x_CommandEnableWriteOperation(pdrv);
if (Result < 0)
return HLW811X_FAIL;
Result = HLW811x_WriteReg16(pdrv, HLW811X_REG_ADDR_SYSCON, Reg);
if (Result < 0)
return HLW811X_FAIL;
_priv->PGA.U = U;
_priv->PGA.IA = IA;
_priv->PGA.IB = IB;
Result = HLW811x_CommandCloseWriteOperation(pdrv);
if (Result < 0)
return HLW811X_FAIL;
return HLW811X_OK;
}
/**
* @brief Set the comparator on off
* @param Handler: Pointer to handler
* @param Method: Active power calculation method
* @retval HLW811x_Result_t
* - HLW811X_OK: Operation was successful.
* - HLW811X_FAIL: Failed to send or receive data.
*/
HLW811x_Result_t
HLW811x_SetComparatorOff(bDriverInterface_t *pdrv,
HLW811x_ComparatorOff_t OnOff)
{
int8_t Result = 0;
uint16_t Reg = 0;
// if (OnOff > 2)
// return HLW811X_INVALID_PARAM;
Result = HLW811x_ReadReg16(pdrv, HLW811X_REG_ADDR_EMUCON, &Reg);
if (Result < 0)
return HLW811X_FAIL;
Reg &= ~(0x01 << HLW811X_REG_EMUCON_comp_off);
Reg |= (OnOff << HLW811X_REG_EMUCON_comp_off);
Result = HLW811x_CommandEnableWriteOperation(pdrv);
if (Result < 0)
return HLW811X_FAIL;
Result = HLW811x_WriteReg16(pdrv, HLW811X_REG_ADDR_EMUCON, Reg);
if (Result < 0)
return HLW811X_FAIL;
Result = HLW811x_CommandCloseWriteOperation(pdrv);
if (Result < 0)
return HLW811X_FAIL;
return HLW811X_OK;
}
/**
* @brief Set the active power calculation method
* @param Handler: Pointer to handler
* @param Method: Active power calculation method
* @retval HLW811x_Result_t
* - HLW811X_OK: Operation was successful.
* - HLW811X_FAIL: Failed to send or receive data.
*/
HLW811x_Result_t
HLW811x_SetActivePowCalcMethod(bDriverInterface_t *pdrv,
HLW811x_ActivePowCalcMethod_t Method)
{
int8_t Result = 0;
uint16_t Reg = 0;
if (Method > 3)
return HLW811X_INVALID_PARAM;
Result = HLW811x_ReadReg16(pdrv, HLW811X_REG_ADDR_EMUCON, &Reg);
if (Result < 0)
return HLW811X_FAIL;
Reg &= ~(0x03 << HLW811X_REG_EMUCON_Pmode);
Reg |= (Method << HLW811X_REG_EMUCON_Pmode);
Result = HLW811x_CommandEnableWriteOperation(pdrv);
if (Result < 0)
return HLW811X_FAIL;
Result = HLW811x_WriteReg16(pdrv, HLW811X_REG_ADDR_EMUCON, Reg);
if (Result < 0)
return HLW811X_FAIL;
Result = HLW811x_CommandCloseWriteOperation(pdrv);
if (Result < 0)
return HLW811X_FAIL;
return HLW811X_OK;
}
/**
* @brief Set the RMS calculation mode
* @param Handler: Pointer to handler
* @param Mode: RMS calculation mode
* @retval HLW811x_Result_t
* - HLW811X_OK: Operation was successful.
* - HLW811X_FAIL: Failed to send or receive data.
*/
HLW811x_Result_t
HLW811x_SetRMSCalcMode(bDriverInterface_t *pdrv, HLW811x_RMSCalcMode_t Mode)
{
int8_t Result = 0;
uint16_t Reg = 0;
Result = HLW811x_ReadReg16(pdrv, HLW811X_REG_ADDR_EMUCON, &Reg);
if (Result < 0)
return HLW811X_FAIL;
if (Mode == HLW811X_RMS_CALC_MODE_NORMAL)
Reg &= ~(1 << HLW811X_REG_EMUCON_DC_MODE);
else
Reg |= (1 << HLW811X_REG_EMUCON_DC_MODE);
Result = HLW811x_CommandEnableWriteOperation(pdrv);
if (Result < 0)
return HLW811X_FAIL;
Result = HLW811x_WriteReg16(pdrv, HLW811X_REG_ADDR_EMUCON, Reg);
if (Result < 0)
return HLW811X_FAIL;
Result = HLW811x_CommandCloseWriteOperation(pdrv);
if (Result < 0)
return HLW811X_FAIL;
return HLW811X_OK;
}
/**
* @brief Set the zero crossing detection mode
* @param Handler: Pointer to handler
* @param Mode: Zero crossing detection mode
* @retval HLW811x_Result_t
* - HLW811X_OK: Operation was successful.
* - HLW811X_FAIL: Failed to send or receive data.
* - HLW811X_INVALID_PARAM: One of parameters is invalid.
*/
HLW811x_Result_t
HLW811x_SetZeroCrossing(bDriverInterface_t *pdrv,
HLW811x_ZeroCrossingMode_t Mode)
{
int8_t Result = 0;
uint16_t Reg = 0;
Result = HLW811x_ReadReg16(pdrv, HLW811X_REG_ADDR_EMUCON, &Reg);
if (Result < 0)
return HLW811X_FAIL;
switch (Mode)
{
case HLW811X_ZERO_CROSSING_MODE_POSITIVE:
Reg &= ~(1 << HLW811X_REG_EMUCON_ZXD0);
Reg &= ~(1 << HLW811X_REG_EMUCON_ZXD1);
break;
case HLW811X_ZERO_CROSSING_MODE_NEGATIVE:
Reg |= (1 << HLW811X_REG_EMUCON_ZXD0);
Reg &= ~(1 << HLW811X_REG_EMUCON_ZXD1);
break;
case HLW811X_ZERO_CROSSING_MODE_BOTH:
Reg &= ~(1 << HLW811X_REG_EMUCON_ZXD0);
Reg |= (1 << HLW811X_REG_EMUCON_ZXD1);
break;
default:
return HLW811X_INVALID_PARAM;
}
Result = HLW811x_CommandEnableWriteOperation(pdrv);
if (Result < 0)
return HLW811X_FAIL;
Result = HLW811x_WriteReg16(pdrv, HLW811X_REG_ADDR_EMUCON, Reg);
if (Result < 0)
return HLW811X_FAIL;
Result = HLW811x_CommandCloseWriteOperation(pdrv);
if (Result < 0)
return HLW811X_FAIL;
return HLW811X_OK;
}
/**
* @brief Set the high pass filter for digital signal
* @param Handler: Pointer to handler
* @param U: Voltage channel
* @param IA: Current channel A
* @param IB: Current channel B
* @retval HLW811x_Result_t
* - HLW811X_OK: Operation was successful.
* - HLW811X_FAIL: Failed to send or receive data.
*/
HLW811x_Result_t
HLW811x_SetDigitalHighPassFilter(bDriverInterface_t *pdrv,
HLW811x_EnDis_t U, HLW811x_EnDis_t IA, HLW811x_EnDis_t IB)
{
int8_t Result = 0;
uint16_t Reg = 0;
Result = HLW811x_ReadReg16(pdrv, HLW811X_REG_ADDR_EMUCON, &Reg);
if (Result < 0)
return HLW811X_FAIL;
if (U == HLW811X_ENDIS_ENABLE)
{
Reg &= ~(1 << HLW811X_REG_EMUCON_HPFUOFF);
}
else if (U == HLW811X_ENDIS_DISABLE)
{
Reg |= (1 << HLW811X_REG_EMUCON_HPFUOFF);
}
if (IA == HLW811X_ENDIS_ENABLE)
{
Reg &= ~(1 << HLW811X_REG_EMUCON_HPFIAOFF);
}
else if (IA == HLW811X_ENDIS_DISABLE)
{
Reg |= (1 << HLW811X_REG_EMUCON_HPFIAOFF);
}
if (IB == HLW811X_ENDIS_ENABLE)
{
Reg &= ~(1 << HLW811X_REG_EMUCON_HPFIBOFF);
}
else if (IB == HLW811X_ENDIS_DISABLE)
{
Reg |= (1 << HLW811X_REG_EMUCON_HPFIBOFF);
}
Result = HLW811x_CommandEnableWriteOperation(pdrv);
if (Result < 0)
return HLW811X_FAIL;
Result = HLW811x_WriteReg16(pdrv, HLW811X_REG_ADDR_EMUCON, Reg);
if (Result < 0)
return HLW811X_FAIL;
Result = HLW811x_CommandCloseWriteOperation(pdrv);
if (Result < 0)
return HLW811X_FAIL;
return HLW811X_OK;
}
/**
* @brief Set the PFB and PFA pulses
* @param Handler: Pointer to handler
* @param PFA: PFA pulse
* @param PFB: PFB pulse
* @retval HLW811x_Result_t
* - HLW811X_OK: Operation was successful.
* - HLW811X_FAIL: Failed to send or receive data.
*/
HLW811x_Result_t
HLW811x_SetPFPulse(bDriverInterface_t *pdrv,
HLW811x_EnDis_t PFA, HLW811x_EnDis_t PFB)
{
int8_t Result = 0;
uint16_t Reg = 0;
Result = HLW811x_ReadReg16(pdrv, HLW811X_REG_ADDR_EMUCON, &Reg);
if (Result < 0)
return HLW811X_FAIL;
if (PFA == HLW811X_ENDIS_ENABLE)
{
Reg |= (1 << HLW811X_REG_EMUCON_PARUN);
}
else if (PFA == HLW811X_ENDIS_DISABLE)
{
Reg &= ~(1 << HLW811X_REG_EMUCON_PARUN);
}
if (PFB == HLW811X_ENDIS_ENABLE)
{
Reg |= (1 << HLW811X_REG_EMUCON_PBRUN);
}
else if (PFB == HLW811X_ENDIS_DISABLE)
{
Reg &= ~(1 << HLW811X_REG_EMUCON_PBRUN);
}
Result = HLW811x_CommandEnableWriteOperation(pdrv);
if (Result < 0)
return HLW811X_FAIL;
Result = HLW811x_WriteReg16(pdrv, HLW811X_REG_ADDR_EMUCON, Reg);
if (Result < 0)
return HLW811X_FAIL;
Result = HLW811x_CommandCloseWriteOperation(pdrv);
if (Result < 0)
return HLW811X_FAIL;
return HLW811X_OK;
}
/**
* @brief Set open drain for SDO pin
* @param Handler: Pointer to handler
* @param Enable: Enable/Disable open drain for SDO pin
* @retval HLW811x_Result_t
* - HLW811X_OK: Operation was successful.
* - HLW811X_FAIL: Failed to send or receive data.
*/
HLW811x_Result_t
HLW811x_SetSDOPinOpenDrain(bDriverInterface_t *pdrv, HLW811x_EnDis_t Enable)
{
int8_t Result = 0;
uint16_t Reg = 0;
Result = HLW811x_ReadReg16(pdrv, HLW811X_REG_ADDR_EMUCON2, &Reg);
if (Result < 0)
return HLW811X_FAIL;
switch (Enable)
{
case HLW811X_ENDIS_ENABLE:
Reg |= (1 << HLW811X_REG_EMUCON2_SDOCmos);
break;
case HLW811X_ENDIS_DISABLE:
Reg &= ~(1 << HLW811X_REG_EMUCON2_SDOCmos);
break;
default:
return HLW811X_INVALID_PARAM;
}
Result = HLW811x_CommandEnableWriteOperation(pdrv);
if (Result < 0)
return HLW811X_FAIL;
Result = HLW811x_WriteReg16(pdrv, HLW811X_REG_ADDR_EMUCON2, Reg);
if (Result < 0)
return HLW811X_FAIL;
Result = HLW811x_CommandCloseWriteOperation(pdrv);
if (Result < 0)
return HLW811X_FAIL;
return HLW811X_OK;
}
/**
* @brief Set the energy clearance
* @param Handler: Pointer to handler
* @param PA: Energy clearance for channel A
* @param PB: Energy clearance for channel B
* @retval HLW811x_Result_t
* - HLW811X_OK: Operation was successful.
* - HLW811X_FAIL: Failed to send or receive data.
*/
HLW811x_Result_t
HLW811x_SetEnergyClearance(bDriverInterface_t *pdrv,
HLW811x_EnDis_t PA, HLW811x_EnDis_t PB)
{
int8_t Result = 0;
uint16_t Reg = 0;
Result = HLW811x_ReadReg16(pdrv, HLW811X_REG_ADDR_EMUCON2, &Reg);
if (Result < 0)
return HLW811X_FAIL;
if (PA == HLW811X_ENDIS_ENABLE)
{
Reg &= ~(1 << HLW811X_REG_EMUCON2_EPB_CA);
}
else if (PA == HLW811X_ENDIS_DISABLE)
{
Reg |= (1 << HLW811X_REG_EMUCON2_EPB_CA);
}
if (PB == HLW811X_ENDIS_ENABLE)
{
Reg &= ~(1 << HLW811X_REG_EMUCON2_EPB_CB);
}
else if (PB == HLW811X_ENDIS_DISABLE)
{
Reg |= (1 << HLW811X_REG_EMUCON2_EPB_CB);
}
Result = HLW811x_CommandEnableWriteOperation(pdrv);
if (Result < 0)
return HLW811X_FAIL;
Result = HLW811x_WriteReg16(pdrv, HLW811X_REG_ADDR_EMUCON2, Reg);
if (Result < 0)
return HLW811X_FAIL;
Result = HLW811x_CommandCloseWriteOperation(pdrv);
if (Result < 0)
return HLW811X_FAIL;
return HLW811X_OK;
}
/**
* @brief Set the data update frequency
* @param Handler: Pointer to handler
* @param Freq: Data update frequency
* @retval HLW811x_Result_t
* - HLW811X_OK: Operation was successful.
* - HLW811X_FAIL: Failed to send or receive data.
* - HLW811X_INVALID_PARAM: One of parameters is invalid.
*/
HLW811x_Result_t
HLW811x_SetDataUpdateFreq(bDriverInterface_t *pdrv,
HLW811x_DataUpdateFreq_t Freq)
{
int8_t Result = 0;
uint16_t Reg = 0;
uint16_t Mask = 0;
switch (Freq)
{
case HLW811X_DATA_UPDATE_FREQ_3_4HZ:
Mask = 0;
break;
case HLW811X_DATA_UPDATE_FREQ_6_8HZ:
Mask = (1 << HLW811X_REG_EMUCON2_DUPSEL);
break;
case HLW811X_DATA_UPDATE_FREQ_13_65HZ:
Mask = (2 << HLW811X_REG_EMUCON2_DUPSEL);
break;
case HLW811X_DATA_UPDATE_FREQ_27_3HZ:
Mask = (3 << HLW811X_REG_EMUCON2_DUPSEL);
break;
default:
return HLW811X_INVALID_PARAM;
}
Result = HLW811x_ReadReg16(pdrv, HLW811X_REG_ADDR_EMUCON2, &Reg);
if (Result < 0)
return HLW811X_FAIL;
Reg &= ~(3 << HLW811X_REG_EMUCON2_DUPSEL);
Reg |= Mask;
Result = HLW811x_CommandEnableWriteOperation(pdrv);
if (Result < 0)
return HLW811X_FAIL;
Result = HLW811x_WriteReg16(pdrv, HLW811X_REG_ADDR_EMUCON2, Reg);
if (Result < 0)
return HLW811X_FAIL;
Result = HLW811x_CommandCloseWriteOperation(pdrv);
if (Result < 0)
return HLW811X_FAIL;
return HLW811X_OK;
}
/**
* @brief Set the power factor functionality
* @param Handler: Pointer to handler
* @param Enable: Enable/Disable power factor functionality
* @retval HLW811x_Result_t
* - HLW811X_OK: Operation was successful.
* - HLW811X_FAIL: Failed to send or receive data.
* - HLW811X_INVALID_PARAM: One of parameters is invalid.
*/
HLW811x_Result_t
HLW811x_SetPowerFactorFunctionality(bDriverInterface_t *pdrv,
HLW811x_EnDis_t Enable)
{
int8_t Result = 0;
uint16_t Reg = 0;
Result = HLW811x_ReadReg16(pdrv, HLW811X_REG_ADDR_EMUCON2, &Reg);
if (Result < 0)
return HLW811X_FAIL;
switch (Enable)
{
case HLW811X_ENDIS_ENABLE:
Reg |= (1 << HLW811X_REG_EMUCON2_PfactorEN);
break;
case HLW811X_ENDIS_DISABLE:
Reg &= ~(1 << HLW811X_REG_EMUCON2_PfactorEN);
break;
default:
return HLW811X_INVALID_PARAM;
}
Result = HLW811x_CommandEnableWriteOperation(pdrv);
if (Result < 0)
return HLW811X_FAIL;
Result = HLW811x_WriteReg16(pdrv, HLW811X_REG_ADDR_EMUCON2, Reg);
if (Result < 0)
return HLW811X_FAIL;
Result = HLW811x_CommandCloseWriteOperation(pdrv);
if (Result < 0)
return HLW811X_FAIL;
return HLW811X_OK;
}
/**
* @brief Set the waveform data
* @param Handler: Pointer to handler
* @param Enable: Enable/Disable waveform data
* @retval HLW811x_Result_t
* - HLW811X_OK: Operation was successful.
* - HLW811X_FAIL: Failed to send or receive data.
* - HLW811X_INVALID_PARAM: One of parameters is invalid.
*/
HLW811x_Result_t
HLW811x_SetWaveformData(bDriverInterface_t *pdrv,
HLW811x_EnDis_t Enable)
{
int8_t Result = 0;
uint16_t Reg = 0;
Result = HLW811x_ReadReg16(pdrv, HLW811X_REG_ADDR_EMUCON2, &Reg);
if (Result < 0)
return HLW811X_FAIL;
switch (Enable)
{
case HLW811X_ENDIS_ENABLE:
Reg |= (1 << HLW811X_REG_EMUCON2_WaveEN);
break;
case HLW811X_ENDIS_DISABLE:
Reg &= ~(1 << HLW811X_REG_EMUCON2_WaveEN);
break;
default:
return HLW811X_INVALID_PARAM;
}
Result = HLW811x_CommandEnableWriteOperation(pdrv);
if (Result < 0)
return HLW811X_FAIL;
Result = HLW811x_WriteReg16(pdrv, HLW811X_REG_ADDR_EMUCON2, Reg);
if (Result < 0)
return HLW811X_FAIL;
Result = HLW811x_CommandCloseWriteOperation(pdrv);
if (Result < 0)
return HLW811X_FAIL;
return HLW811X_OK;
}
/**
* @brief Set the voltage sag detection
* @param Handler: Pointer to handler
* @param Enable: Enable/Disable voltage sag detection
* @retval HLW811x_Result_t
* - HLW811X_OK: Operation was successful.
* - HLW811X_FAIL: Failed to send or receive data.
* - HLW811X_INVALID_PARAM: One of parameters is invalid.
*/
HLW811x_Result_t
HLW811x_SetVoltageSagDetection(bDriverInterface_t *pdrv,
HLW811x_EnDis_t Enable)
{
int8_t Result = 0;
uint16_t Reg = 0;
Result = HLW811x_ReadReg16(pdrv, HLW811X_REG_ADDR_EMUCON2, &Reg);
if (Result < 0)
return HLW811X_FAIL;
switch (Enable)
{
case HLW811X_ENDIS_ENABLE:
Reg |= (1 << HLW811X_REG_EMUCON2_SAGEN);
break;
case HLW811X_ENDIS_DISABLE:
Reg &= ~(1 << HLW811X_REG_EMUCON2_SAGEN);
break;
default:
return HLW811X_INVALID_PARAM;
}
Result = HLW811x_CommandEnableWriteOperation(pdrv);
if (Result < 0)
return HLW811X_FAIL;
Result = HLW811x_WriteReg16(pdrv, HLW811X_REG_ADDR_EMUCON2, Reg);
if (Result < 0)
return HLW811X_FAIL;
Result = HLW811x_CommandCloseWriteOperation(pdrv);
if (Result < 0)
return HLW811X_FAIL;
return HLW811X_OK;
}
/**
* @brief Set the over voltage, current and load detection
* @param Handler: Pointer to handler
* @param Enable: Enable/Disable over voltage and current detection
* @retval HLW811x_Result_t
* - HLW811X_OK: Operation was successful.
* - HLW811X_FAIL: Failed to send or receive data.
* - HLW811X_INVALID_PARAM: One of parameters is invalid.
*/
HLW811x_Result_t
HLW811x_SetOverVolCarDetection(bDriverInterface_t *pdrv,
HLW811x_EnDis_t Enable)
{
int8_t Result = 0;
uint16_t Reg = 0;
Result = HLW811x_ReadReg16(pdrv, HLW811X_REG_ADDR_EMUCON2, &Reg);
if (Result < 0)
return HLW811X_FAIL;
switch (Enable)
{
case HLW811X_ENDIS_ENABLE:
Reg |= (1 << HLW811X_REG_EMUCON2_OverEN);
break;
case HLW811X_ENDIS_DISABLE:
Reg &= ~(1 << HLW811X_REG_EMUCON2_OverEN);
break;
default:
return HLW811X_INVALID_PARAM;
}
Result = HLW811x_CommandEnableWriteOperation(pdrv);
if (Result < 0)
return HLW811X_FAIL;
Result = HLW811x_WriteReg16(pdrv, HLW811X_REG_ADDR_EMUCON2, Reg);
if (Result < 0)
return HLW811X_FAIL;
Result = HLW811x_CommandCloseWriteOperation(pdrv);
if (Result < 0)
return HLW811X_FAIL;
return HLW811X_OK;
}
/**
* @brief Set zero crossing detection
* @param Handler: Pointer to handler
* @param Enable: Enable/Disable zero crossing detection
* @retval HLW811x_Result_t
* - HLW811X_OK: Operation was successful.
* - HLW811X_FAIL: Failed to send or receive data.
* - HLW811X_INVALID_PARAM: One of parameters is invalid.
*/
HLW811x_Result_t
HLW811x_SetZeroCrossingDetection(bDriverInterface_t *pdrv,
HLW811x_EnDis_t Enable)
{
int8_t Result = 0;
uint16_t Reg = 0;
Result = HLW811x_ReadReg16(pdrv, HLW811X_REG_ADDR_EMUCON2, &Reg);
if (Result < 0)
return HLW811X_FAIL;
switch (Enable)
{
case HLW811X_ENDIS_ENABLE:
Reg |= (1 << HLW811X_REG_EMUCON2_ZxEN);
break;
case HLW811X_ENDIS_DISABLE:
Reg &= ~(1 << HLW811X_REG_EMUCON2_ZxEN);
break;
default:
return HLW811X_INVALID_PARAM;
}
Result = HLW811x_CommandEnableWriteOperation(pdrv);
if (Result < 0)
return HLW811X_FAIL;
Result = HLW811x_WriteReg16(pdrv, HLW811X_REG_ADDR_EMUCON2, Reg);
if (Result < 0)
return HLW811X_FAIL;
Result = HLW811x_CommandCloseWriteOperation(pdrv);
if (Result < 0)
return HLW811X_FAIL;
return HLW811X_OK;
}
/**
* @brief Set the peak detection
* @param Handler: Pointer to handler
* @param Enable: Enable/Disable peak detection
* @retval HLW811x_Result_t
* - HLW811X_OK: Operation was successful.
* - HLW811X_FAIL: Failed to send or receive data.
* - HLW811X_INVALID_PARAM: One of parameters is invalid.
*/
HLW811x_Result_t
HLW811x_SetPeakDetection(bDriverInterface_t *pdrv,
HLW811x_EnDis_t Enable)
{
int8_t Result = 0;
uint16_t Reg = 0;
Result = HLW811x_ReadReg16(pdrv, HLW811X_REG_ADDR_EMUCON2, &Reg);
if (Result < 0)
return HLW811X_FAIL;
switch (Enable)
{
case HLW811X_ENDIS_ENABLE:
Reg |= (1 << HLW811X_REG_EMUCON2_PeakEN);
break;
case HLW811X_ENDIS_DISABLE:
Reg &= ~(1 << HLW811X_REG_EMUCON2_PeakEN);
break;
default:
return HLW811X_INVALID_PARAM;
}
Result = HLW811x_CommandEnableWriteOperation(pdrv);
if (Result < 0)
return HLW811X_FAIL;
Result = HLW811x_WriteReg16(pdrv, HLW811X_REG_ADDR_EMUCON2, Reg);
if (Result < 0)
return HLW811X_FAIL;
Result = HLW811x_CommandCloseWriteOperation(pdrv);
if (Result < 0)
return HLW811X_FAIL;
return HLW811X_OK;
}
HLW811x_Result_t
HLW811x_SetInternalVref(bDriverInterface_t *pdrv,
HLW811x_EnDis_t Enable)
{
int8_t Result = 0;
uint16_t Reg = 0;
Result = HLW811x_ReadReg16(pdrv, HLW811X_REG_ADDR_EMUCON2, &Reg);
if (Result < 0)
return HLW811X_FAIL;
switch (Enable)
{
case HLW811X_ENDIS_ENABLE:
Reg |= (1 << HLW811X_REG_EMUCON2_VrefSel);
break;
case HLW811X_ENDIS_DISABLE:
Reg &= ~(1 << HLW811X_REG_EMUCON2_VrefSel);
break;
default:
return HLW811X_INVALID_PARAM;
}
Result = HLW811x_CommandEnableWriteOperation(pdrv);
if (Result < 0)
return HLW811X_FAIL;
Result = HLW811x_WriteReg16(pdrv, HLW811X_REG_ADDR_EMUCON2, Reg);
if (Result < 0)
return HLW811X_FAIL;
Result = HLW811x_CommandCloseWriteOperation(pdrv);
if (Result < 0)
return HLW811X_FAIL;
return HLW811X_OK;
}
/**
* @brief Set INT1 and INT2 pins functionality
* @param Handler: Pointer to handler
* @param INT1: INT1 pin functionality
* @param INT2: INT2 pin functionality
* @retval HLW811x_Result_t
* - HLW811X_OK: Operation was successful.
* - HLW811X_FAIL: Failed to send or receive data.
* - HLW811X_INVALID_PARAM: One of parameters is invalid.
*/
HLW811x_Result_t
HLW811x_SetIntOutFunc(bDriverInterface_t *pdrv,
HLW811x_IntOutFunc_t INT1, HLW811x_IntOutFunc_t INT2)
{
int8_t Result = 0;
uint16_t Reg = 0;
Result = HLW811x_ReadReg16(pdrv, HLW811X_REG_ADDR_INT, &Reg);
if (Result < 0)
return HLW811X_FAIL;
if (INT1 < HLW811X_INTOUT_FUNC_NO_CHANGE)
{
Reg &= ~(0x0F << HLW811X_REG_INT_P1sel);
Reg |= ((INT1 & 0x0F) << HLW811X_REG_INT_P1sel);
}
if (INT2 < HLW811X_INTOUT_FUNC_NO_CHANGE)
{
Reg &= ~(0x0F << HLW811X_REG_INT_P2sel);
Reg |= ((INT2 & 0x0F) << HLW811X_REG_INT_P2sel);
}
Result = HLW811x_CommandEnableWriteOperation(pdrv);
if (Result < 0)
return HLW811X_FAIL;
Result = HLW811x_WriteReg16(pdrv, HLW811X_REG_ADDR_INT, Reg);
if (Result < 0)
return HLW811X_FAIL;
Result = HLW811x_CommandCloseWriteOperation(pdrv);
if (Result < 0)
return HLW811X_FAIL;
return HLW811X_OK;
}
/**
* @brief Set interrupt mask
* @param Handler: Pointer to handler
* @param Mask: Interrupt mask value
* @note Use the define HLW811X_REG_IE_XXX to set the mask value
* @retval HLW811x_Result_t
* - HLW811X_OK: Operation was successful.
* - HLW811X_FAIL: Failed to send or receive data.
*/
HLW811x_Result_t
HLW811x_SetIntMask(bDriverInterface_t *pdrv, uint16_t Mask)
{
int8_t Result = 0;
Result = HLW811x_CommandEnableWriteOperation(pdrv);
if (Result < 0)
return HLW811X_FAIL;
Result = HLW811x_WriteReg16(pdrv, HLW811X_REG_ADDR_IE, Mask);
if (Result < 0)
return HLW811X_FAIL;
Result = HLW811x_CommandCloseWriteOperation(pdrv);
if (Result < 0)
return HLW811X_FAIL;
return HLW811X_OK;
}
/**
* @brief Get interrupt status flag
* @note Use the define HLW811X_REG_IF_XXX to check the flag
* @param Handler: Pointer to handler
* @param Mask: Pointer to interrupt mask value
* @retval HLW811x_Result_t
* - HLW811X_OK: Operation was successful.
* - HLW811X_FAIL: Failed to send or receive data.
*/
HLW811x_Result_t
HLW811x_GetIntFlag(bDriverInterface_t *pdrv, uint16_t *Mask)
{
int8_t Result = 0;
uint16_t Reg = 0;
Result = HLW811x_ReadReg16(pdrv, HLW811X_REG_ADDR_IF, &Reg);
if (Result < 0)
return HLW811X_FAIL;
if (Mask)
*Mask = Reg;
return HLW811X_OK;
}
/**
* @brief Get reset interrupt status flag
* @note Use the define HLW811X_REG_RIF_XXX to check the flag
* @param Handler: Pointer to handler
* @param Mask: Pointer to interrupt mask value
* @retval HLW811x_Result_t
* - HLW811X_OK: Operation was successful.
* - HLW811X_FAIL: Failed to send or receive data.
*/
HLW811x_Result_t
HLW811x_GetResIntFlag(bDriverInterface_t *pdrv, uint16_t *Mask)
{
int8_t Result = 0;
uint16_t Reg = 0;
Result = HLW811x_ReadReg16(pdrv, HLW811X_REG_ADDR_RIF, &Reg);
if (Result < 0)
return HLW811X_FAIL;
if (Mask)
*Mask = Reg;
return HLW811X_OK;
}
/**
* @brief Get the RMS value of the voltage in V
* @param Handler: Pointer to handler
* @param Data: Pointer to store the data
* @retval HLW811x_Result_t
* - HLW811X_OK: Operation was successful.
* - HLW811X_FAIL: Failed to send or receive data.
*/
HLW811x_Result_t
HLW811x_GetRmsU(bDriverInterface_t *pdrv, float *Data)
{
int8_t Result = 0;
uint32_t Reg = 0;
int32_t RawValue = 0;
uint16_t CoefReg = 0;
float ResCoef = 0;
uint8_t PGA = 0;
bDRIVER_GET_PRIVATE(_priv, bHlw811xPrivate_t, pdrv);
Result = HLW811x_ReadReg24(pdrv, HLW811X_REG_ADDR_RmsU, &Reg);
if (Result < 0)
return HLW811X_FAIL;
// b_log("HLW811x_GetRmsU reg: %d \r\n",Reg);
RawValue = HLW811x_24BitTo32Bit(Reg);
CoefReg = _priv->CoefReg.RmsUC;
ResCoef = _priv->ResCoef.KU;
PGA = (1 << _priv->PGA.U);
*Data = (float)RawValue * (CoefReg / 4194304.0f / ResCoef / 100 / PGA);
return HLW811X_OK;
}
/**
* @brief Get the RMS value of the current channel A in A
* @param Handler: Pointer to handler
* @param Data: Pointer to store the data
* @retval HLW811x_Result_t
* - HLW811X_OK: Operation was successful.
* - HLW811X_FAIL: Failed to send or receive data.
*/
HLW811x_Result_t
HLW811x_GetRmsIA(bDriverInterface_t *pdrv, float *Data)
{
int8_t Result = 0;
uint32_t Reg = 0;
int32_t RawValue = 0;
uint16_t CoefReg = 0;
float ResCoef = 0;
uint8_t PGA = 0;
double DoubleBuffer = 0;
bDRIVER_GET_PRIVATE(_priv, bHlw811xPrivate_t, pdrv);
Result = HLW811x_ReadReg24(pdrv, HLW811X_REG_ADDR_RmsIA, &Reg);
if (Result < 0)
return HLW811X_FAIL;
RawValue = HLW811x_24BitTo32Bit(Reg);
CoefReg = _priv->CoefReg.RmsIAC;
ResCoef = _priv->ResCoef.KIA;
PGA = 16 >> _priv->PGA.IA;
DoubleBuffer = (double)RawValue * (CoefReg / 8388608.0 / ResCoef / 1000 * PGA);
*Data = (float)DoubleBuffer;
return HLW811X_OK;
}
/**
* @brief Get the RMS value of the current channel B in A
* @param Handler: Pointer to handler
* @param Data: Pointer to store the data
* @retval HLW811x_Result_t
* - HLW811X_OK: Operation was successful.
* - HLW811X_FAIL: Failed to send or receive data.
*/
HLW811x_Result_t
HLW811x_GetRmsIB(bDriverInterface_t *pdrv, float *Data)
{
int8_t Result = 0;
uint32_t Reg = 0;
int32_t RawValue = 0;
uint16_t CoefReg = 0;
float ResCoef = 0;
uint8_t PGA = 0;
double DoubleBuffer = 0;
bDRIVER_GET_PRIVATE(_priv, bHlw811xPrivate_t, pdrv);
Result = HLW811x_ReadReg24(pdrv, HLW811X_REG_ADDR_RmsIB, &Reg);
if (Result < 0)
return HLW811X_FAIL;
RawValue = HLW811x_24BitTo32Bit(Reg);
CoefReg = _priv->CoefReg.RmsIBC;
ResCoef = _priv->ResCoef.KIB;
PGA = 16 >> _priv->PGA.IB;
DoubleBuffer = (double)RawValue * (CoefReg / 8388608.0 / ResCoef / 10000 * PGA);
*Data = (float)DoubleBuffer;
return HLW811X_OK;
}
/**
* @brief Get active power of channel A in W
* @param Handler: Pointer to handler
* @param Data: Pointer to store the data
* @retval HLW811x_Result_t
* - HLW811X_OK: Operation was successful.
* - HLW811X_FAIL: Failed to send or receive data.
*/
HLW811x_Result_t
HLW811x_GetPowerPA(bDriverInterface_t *pdrv, float *Data)
{
int8_t Result = 0;
uint32_t Reg = 0;
int32_t RawValue = 0;
uint16_t CoefReg = 0;
double ResCoef = 0;
double PGA = 0;
double DoubleBuffer = 0;
bDRIVER_GET_PRIVATE(_priv, bHlw811xPrivate_t, pdrv);
Result = HLW811x_ReadReg32(pdrv, HLW811X_REG_ADDR_PowerPA, &Reg);
if (Result < 0)
return HLW811X_FAIL;
RawValue = *((int32_t*)&Reg);
CoefReg = _priv->CoefReg.PowerPAC;
PGA = 16 >> (_priv->PGA.U + _priv->PGA.IA);
ResCoef = _priv->ResCoef.KU * _priv->ResCoef.KIA;
DoubleBuffer = (double)RawValue * (CoefReg / 2147483648.0 / ResCoef * PGA);
*Data = (float)DoubleBuffer;
return HLW811X_OK;
}
/**
* @brief Get active power of channel B in W
* @param Handler: Pointer to handler
* @param Data: Pointer to store the data
* @retval HLW811x_Result_t
* - HLW811X_OK: Operation was successful.
* - HLW811X_FAIL: Failed to send or receive data.
*/
HLW811x_Result_t
HLW811x_GetPowerPB(bDriverInterface_t *pdrv, float *Data)
{
int8_t Result = 0;
uint32_t Reg = 0;
int32_t RawValue = 0;
uint16_t CoefReg = 0;
double ResCoef = 0;
double PGA = 0;
double DoubleBuffer = 0;
bDRIVER_GET_PRIVATE(_priv, bHlw811xPrivate_t, pdrv);
Result = HLW811x_ReadReg32(pdrv, HLW811X_REG_ADDR_PowerPB, &Reg);
if (Result < 0)
return HLW811X_FAIL;
RawValue = *((int32_t*)&Reg);
CoefReg = _priv->CoefReg.PowerPBC;
PGA = 16 >> (_priv->PGA.U + _priv->PGA.IB);
ResCoef = _priv->ResCoef.KU * _priv->ResCoef.KIB;
DoubleBuffer = (double)RawValue * (CoefReg / 2147483648.0 / ResCoef * PGA);
*Data = (float)DoubleBuffer;
return HLW811X_OK;
}
/**
* @brief Get the apparent power of selected channel in W
* @param Handler: Pointer to handler
* @param Data: Pointer to store the data
* @retval HLW811x_Result_t
* - HLW811X_OK: Operation was successful.
* - HLW811X_FAIL: Failed to send or receive data.
*/
HLW811x_Result_t
HLW811x_GetPowerS(bDriverInterface_t *pdrv, float *Data)
{
int8_t Result = 0;
uint32_t Reg = 0;
int32_t RawValue = 0;
uint16_t CoefReg = 0;
double ResCoef = 0;
double PGA = 0;
double DoubleBuffer = 0;
bDRIVER_GET_PRIVATE(_priv, bHlw811xPrivate_t, pdrv);
Result = HLW811x_ReadReg32(pdrv, HLW811X_REG_ADDR_PowerS, &Reg);
if (Result < 0)
return HLW811X_FAIL;
RawValue = *((int32_t*)&Reg);
CoefReg = _priv->CoefReg.PowerSC;
switch (_priv->CurrentChannel)
{
case HLW811X_CURRENT_CHANNEL_A:
PGA = 16 >> (_priv->PGA.U + _priv->PGA.IA);
ResCoef = _priv->ResCoef.KU * _priv->ResCoef.KIA;
break;
case HLW811X_CURRENT_CHANNEL_B:
PGA = 16 >> (_priv->PGA.U + _priv->PGA.IB);
ResCoef = _priv->ResCoef.KU * _priv->ResCoef.KIB;
break;
default:
return HLW811X_INVALID_PARAM;
}
DoubleBuffer = (double)RawValue * (CoefReg / 2147483648.0 / ResCoef * PGA);
*Data = (float)DoubleBuffer;
return HLW811X_OK;
}
/**
* @brief Get Energy of channel A in KWH
* @param Handler: Pointer to handler
* @param Data: Pointer to store the data
* @retval HLW811x_Result_t
* - HLW811X_OK: Operation was successful.
* - HLW811X_FAIL: Failed to send or receive data.
*/
HLW811x_Result_t
HLW811x_GetEnergyA(bDriverInterface_t *pdrv, float *Data)
{
int8_t Result = 0;
uint32_t RawValue = 0;
uint16_t CoefReg = 0;
float ResCoef = 0;
uint16_t PGA = 0;
double DoubleBuffer = 0;
bDRIVER_GET_PRIVATE(_priv, bHlw811xPrivate_t, pdrv);
Result = HLW811x_ReadReg24(pdrv, HLW811X_REG_ADDR_Energy_PA, &RawValue);
if (Result < 0)
return HLW811X_FAIL;
CoefReg = _priv->CoefReg.EnergyAC;
PGA = (1 << _priv->PGA.U) * (1 << _priv->PGA.IA);
ResCoef = _priv->ResCoef.KU * _priv->ResCoef.KIA;
DoubleBuffer = (double)RawValue * (CoefReg / 536870912.0 / PGA / 4096 / ResCoef) * _priv->HFconst;
*Data = (float)DoubleBuffer;
return HLW811X_OK;
}
/**
* @brief Get Energy of channel B in KWH
* @param Handler: Pointer to handler
* @param Data: Pointer to store the data
* @retval HLW811x_Result_t
* - HLW811X_OK: Operation was successful.
* - HLW811X_FAIL: Failed to send or receive data.
*/
HLW811x_Result_t
HLW811x_GetEnergyB(bDriverInterface_t *pdrv, float *Data)
{
int8_t Result = 0;
uint32_t RawValue = 0;
uint16_t CoefReg = 0;
float ResCoef = 0;
uint16_t PGA = 0;
double DoubleBuffer = 0;
bDRIVER_GET_PRIVATE(_priv, bHlw811xPrivate_t, pdrv);
Result = HLW811x_ReadReg24(pdrv, HLW811X_REG_ADDR_Energy_PB, &RawValue);
if (Result < 0)
return HLW811X_FAIL;
CoefReg = _priv->CoefReg.EnergyBC;
PGA = (1 << _priv->PGA.U) * (1 << _priv->PGA.IB);
ResCoef = _priv->ResCoef.KU * _priv->ResCoef.KIB;
DoubleBuffer = (double)RawValue * (CoefReg / 536870912.0 / PGA / 4096 / ResCoef) * _priv->HFconst;
*Data = (float)DoubleBuffer;
return HLW811X_OK;
}
/**
* @brief Get the frequency of the voltage channel in Hz
* @param Handler: Pointer to handler
* @param Data: Pointer to store the data
* @retval HLW811x_Result_t
* - HLW811X_OK: Operation was successful.
* - HLW811X_FAIL: Failed to send or receive data.
*/
HLW811x_Result_t
HLW811x_GetFreqU(bDriverInterface_t *pdrv, float *Data)
{
int8_t Result = 0;
uint16_t RawValue = 0;
bDRIVER_GET_PRIVATE(_priv, bHlw811xPrivate_t, pdrv);
Result = HLW811x_ReadReg16(pdrv, HLW811X_REG_ADDR_Ufreq, &RawValue);
if (Result < 0)
return HLW811X_FAIL;
*Data = _priv->CLKI / 8.0 / RawValue;
return HLW811X_OK;
}
/**
* @brief Get the power factor of the selected channel
* @note The power factor is a value between -1 and 1
* @param Handler: Pointer to handler
* @param Data: Pointer to store the data
* @retval HLW811x_Result_t
* - HLW811X_OK: Operation was successful.
* - HLW811X_FAIL: Failed to send or receive data.
*/
HLW811x_Result_t
HLW811x_GetPowerFactor(bDriverInterface_t *pdrv, float *Data)
{
int8_t Result = 0;
uint32_t RawValue = 0;
int32_t RawValueInt = 0;
Result = HLW811x_ReadReg24(pdrv, HLW811X_REG_ADDR_PowerFactor, &RawValue);
if (Result < 0)
return HLW811X_FAIL;
RawValueInt = HLW811x_24BitTo32Bit(RawValue);
*Data = (float)((double)RawValueInt / 8388607.0);
return HLW811X_OK;
}
/**
* @brief Get phase angle in degrees
* @param Handler: Pointer to handler
* @param Data: Pointer to store the data
* @param Freq: Frequency of the voltage channel in Hz
* @note The phase angle should be 50 or 60 Hz. The other values are invalid
* @retval HLW811x_Result_t
* - HLW811X_OK: Operation was successful.
* - HLW811X_FAIL: Failed to send or receive data.
* - HLW811X_INVALID_PARAM: One of parameters is invalid.
*/
HLW811x_Result_t
HLW811x_GetPhaseAngle(bDriverInterface_t *pdrv, float *Data, uint32_t Freq)
{
int8_t Result = 0;
uint16_t RawValue = 0;
Result = HLW811x_ReadReg16(pdrv, HLW811X_REG_ADDR_Angle, &RawValue);
if (Result < 0)
return HLW811X_FAIL;
if (Freq == 50)
*Data = (float)RawValue * 0.0805f;
else if (Freq == 60)
*Data = (float)RawValue * 0.0965f;
else
return HLW811X_INVALID_PARAM;
// while (*Data > 360.0f)
// *Data -= 360.0f;
return HLW811X_OK;
}
/**
* @brief Begin function to initialize the device and set the default values
* @note This function must be called after initializing platform dependent and
* HLW811x_Init functions.
*
* @note This function will read the coefficients from the device. It is
* mandatory to call this function before using other functions such as
* HLW811x_GetRmsU, HLW811x_GetRmsIx and etc.
*
* @param Handler: Pointer to handler
* @retval HLW811x_Result_t
* - HLW811X_OK: Operation was successful.
* - HLW811X_FAIL: Failed to send or receive data.
*/
HLW811x_Result_t
HLW811x_Coefficient_checksum(bDriverInterface_t *pdrv)
{
int8_t Result = 0;
uint16_t Reg16 = 0;
uint16_t Checksum = 0;
bDRIVER_GET_PRIVATE(_priv, bHlw811xPrivate_t, pdrv);
Result = HLW811x_ReadReg16(pdrv, HLW811X_REG_ADDR_HFConst, &Reg16);
if (Result < 0)
return HLW811X_FAIL;
_priv->HFconst = Reg16;
Result = HLW811x_ReadReg16(pdrv, HLW811X_REG_ADDR_RmsIAC, &Reg16);
if (Result < 0)
return HLW811X_FAIL;
_priv->CoefReg.RmsIAC = Reg16;
Result = HLW811x_ReadReg16(pdrv, HLW811X_REG_ADDR_RmsIBC, &Reg16);
if (Result < 0)
return HLW811X_FAIL;
_priv->CoefReg.RmsIBC = Reg16;
Result = HLW811x_ReadReg16(pdrv, HLW811X_REG_ADDR_RmsUC, &Reg16);
if (Result < 0)
return HLW811X_FAIL;
_priv->CoefReg.RmsUC = Reg16;
Result = HLW811x_ReadReg16(pdrv, HLW811X_REG_ADDR_PowerPAC, &Reg16);
if (Result < 0)
return HLW811X_FAIL;
_priv->CoefReg.PowerPAC = Reg16;
Result = HLW811x_ReadReg16(pdrv, HLW811X_REG_ADDR_PowerPBC, &Reg16);
if (Result < 0)
return HLW811X_FAIL;
_priv->CoefReg.PowerPBC = Reg16;
Result = HLW811x_ReadReg16(pdrv, HLW811X_REG_ADDR_PowerSC, &Reg16);
if (Result < 0)
return HLW811X_FAIL;
_priv->CoefReg.PowerSC = Reg16;
Result = HLW811x_ReadReg16(pdrv, HLW811X_REG_ADDR_EnergyAC, &Reg16);
if (Result < 0)
return HLW811X_FAIL;
_priv->CoefReg.EnergyAC = Reg16;
Result = HLW811x_ReadReg16(pdrv, HLW811X_REG_ADDR_EnergyBC, &Reg16);
if (Result < 0)
return HLW811X_FAIL;
_priv->CoefReg.EnergyBC = Reg16;
Checksum = 0xFFFF +
_priv->CoefReg.RmsIAC +
_priv->CoefReg.RmsIBC +
_priv->CoefReg.RmsUC +
_priv->CoefReg.PowerPAC +
_priv->CoefReg.PowerPBC +
_priv->CoefReg.PowerSC +
_priv->CoefReg.EnergyAC +
_priv->CoefReg.EnergyBC;
Checksum = ~Checksum;
Result = HLW811x_ReadReg16(pdrv, HLW811X_REG_ADDR_Coeff_chksum, &Reg16);
if (Result < 0 || Checksum != Reg16)
return HLW811X_FAIL;
return HLW811X_OK;
}
HLW811x_Result_t _bHlw811xDefaultCfg(bDriverInterface_t *pdrv)
{
bDRIVER_GET_PRIVATE(_priv, bHlw811xPrivate_t, pdrv);
_priv->ResCoef.KU = 1.0f;
_priv->ResCoef.KIA = 1.0f;
_priv->ResCoef.KIB = 1.0f;
_priv->PGA.U = HLW811X_PGA_1;
_priv->PGA.IA = HLW811X_PGA_16;
_priv->PGA.IB = HLW811X_PGA_1;
_priv->CLKI = 3579545;
if (HLW811x_SetSpecialMeasurementChannel(pdrv,
HLW811X_CURRENT_CHANNEL_A) != HLW811X_OK)
return HLW811X_FAIL;
//HLW811X_REG_ADDR_SYSCON
if (HLW811x_SetChannelOnOff(pdrv,
HLW811X_ENDIS_ENABLE, HLW811X_ENDIS_ENABLE, HLW811X_ENDIS_DISABLE) != HLW811X_OK)
return HLW811X_FAIL;
if (HLW811x_SetPGA(pdrv,
_priv->PGA.U, _priv->PGA.IA, _priv->PGA.IB) != HLW811X_OK)
return HLW811X_FAIL;
//HLW811X_REG_ADDR_EMUCON
if (HLW811x_SetComparatorOff(pdrv,
HLW811X_COMPARATOC_POS_OFF) != HLW811X_OK)
return HLW811X_FAIL;
if (HLW811x_SetActivePowCalcMethod(pdrv,
HLW811X_ACTIVE_POW_CALC_METHOD_POS_NEG_ALGEBRAIC) != HLW811X_OK)
return HLW811X_FAIL;
if (HLW811x_SetRMSCalcMode(pdrv,
HLW811X_RMS_CALC_MODE_NORMAL) != HLW811X_OK)
return HLW811X_FAIL;
if (HLW811x_SetZeroCrossing(pdrv,
HLW811X_ZERO_CROSSING_MODE_POSITIVE) != HLW811X_OK)
return HLW811X_FAIL;
if (HLW811x_SetDigitalHighPassFilter(pdrv,
HLW811X_ENDIS_DISABLE, HLW811X_ENDIS_DISABLE, HLW811X_ENDIS_DISABLE) != HLW811X_OK)
return HLW811X_FAIL;
if (HLW811x_SetPFPulse(pdrv,
HLW811X_ENDIS_DISABLE, HLW811X_ENDIS_DISABLE) != HLW811X_OK)
return HLW811X_FAIL;
//HLW811X_REG_ADDR_EMUCON2
if (HLW811x_SetEnergyClearance(pdrv,
HLW811X_ENDIS_DISABLE, HLW811X_ENDIS_DISABLE) != HLW811X_OK)
return HLW811X_FAIL;
if (HLW811x_SetDataUpdateFreq(pdrv,
HLW811X_DATA_UPDATE_FREQ_27_3HZ) != HLW811X_OK)
return HLW811X_FAIL;
if (HLW811x_SetPowerFactorFunctionality(pdrv,
HLW811X_ENDIS_ENABLE) != HLW811X_OK)
return HLW811X_FAIL;
if (HLW811x_SetWaveformData(pdrv,
HLW811X_ENDIS_ENABLE) != HLW811X_OK)
return HLW811X_FAIL;
if (HLW811x_SetVoltageSagDetection(pdrv,
HLW811X_ENDIS_ENABLE) != HLW811X_OK)
return HLW811X_FAIL;
if (HLW811x_SetOverVolCarDetection(pdrv,
HLW811X_ENDIS_ENABLE) != HLW811X_OK)
return HLW811X_FAIL;
if (HLW811x_SetZeroCrossingDetection(pdrv,
HLW811X_ENDIS_ENABLE) != HLW811X_OK)
return HLW811X_FAIL;
if (HLW811x_SetPeakDetection(pdrv,
HLW811X_ENDIS_ENABLE) != HLW811X_OK)
return HLW811X_FAIL;
if (HLW811x_SetInternalVref(pdrv,
HLW811X_ENDIS_ENABLE) != HLW811X_OK)
return HLW811X_FAIL;
return HLW811X_OK;
}
//read data unit
// mV / mA
static int _bHlw811xRead(bDriverInterface_t *pdrv, uint32_t off, uint8_t *pbuf, uint32_t len)
{
bPowerMeter_hlw811x_t hlw811x;
if (len < sizeof(bPowerMeter_hlw811x_t))
{
return -1;
}
if(HLW811x_GetRmsU(pdrv, &hlw811x.RmsU) != HLW811X_OK)
{
return -1;
}
if(HLW811x_GetRmsIA(pdrv, &hlw811x.RmsIA) != HLW811X_OK)
{
return -1;
}
if(HLW811x_GetRmsIB(pdrv, &hlw811x.RmsIB) != HLW811X_OK)
{
return -1;
}
if(HLW811x_GetPowerPA(pdrv, &hlw811x.PowerPA) != HLW811X_OK)
{
return -1;
}
if(HLW811x_GetPowerPB(pdrv, &hlw811x.PowerPB) != HLW811X_OK)
{
return -1;
}
if(HLW811x_GetPowerS(pdrv, &hlw811x.PowerSA) != HLW811X_OK)
{
return -1;
}
if(HLW811x_GetEnergyA(pdrv, &hlw811x.EnergyA) != HLW811X_OK)
{
return -1;
}
if(HLW811x_GetEnergyB(pdrv, &hlw811x.EnergyB) != HLW811X_OK)
{
return -1;
}
if(HLW811x_GetFreqU(pdrv, &hlw811x.FreqU) != HLW811X_OK)
{
return -1;
}
if(HLW811x_GetPowerFactor(pdrv, &hlw811x.PowerFactorA) != HLW811X_OK)
{
return -1;
}
if(HLW811x_GetPhaseAngle(pdrv, &hlw811x.PhaseAngleA, 50) != HLW811X_OK)
{
return -1;
}
memcpy(pbuf, &hlw811x, sizeof(bPowerMeter_hlw811x_t));
return sizeof(bPowerMeter_hlw811x_t);
}
//--------------------------------------------------------------------------------------------------
static int _bHlw811xCtl(bDriverInterface_t *pdrv, uint8_t cmd, void *param)
{
bDRIVER_GET_PRIVATE(_priv, bHlw811xPrivate_t, pdrv);
// b_log("ctl:%d\r\n", cmd);
switch (cmd)
{
case bCMD_HLW811X_REG_CALLBACK:
{
if (param == NULL)
{
return -1;
}
bHlw811xDrvCallback_t *pcb = (bHlw811xDrvCallback_t *)param;
_priv->cb.cb = pcb->cb;
_priv->cb.user_data = pcb->user_data;
}
break;
case bCMD_HLW811X_SOFT_RST:
{
HLW811x_CommandReset(pdrv);
}
break;
case bCMD_HLW811X_MODE_AC:
{
if (HLW811x_SetRMSCalcMode(pdrv,
HLW811X_RMS_CALC_MODE_NORMAL) != HLW811X_OK)
return HLW811X_FAIL;
}
break;
case bCMD_HLW811X_MODE_DC:
{
if (HLW811x_SetRMSCalcMode(pdrv,
HLW811X_RMS_CALC_MODE_DC) != HLW811X_OK)
return HLW811X_FAIL;
}
break;
case bCMD_HLW811X_SET_RESRATIO_IA:
{
if (param == NULL)
{
return -1;
}
float *pcb = (float *)param;
if (HLW811x_SetResRatioIA(pdrv,
*pcb) != HLW811X_OK)
return HLW811X_FAIL;
}
break;
case bCMD_HLW811X_SET_RESRATIO_IB:
{
if (param == NULL)
{
return -1;
}
float *pcb = (float *)param;
if (HLW811x_SetResRatioIB(pdrv,
*pcb) != HLW811X_OK)
return HLW811X_FAIL;
}
break;
case bCMD_HLW811X_SET_RESRATIO_U:
{
if (param == NULL)
{
return -1;
}
float *pcb = (float *)param;
if (HLW811x_SetResRatioU(pdrv,
*pcb) != HLW811X_OK)
return HLW811X_FAIL;
}
break;
default:
break;
}
return 0;
}
void set_nsi8241_en1(uint8_t dev_no)
{
switch(dev_no)
{
case 0 :
bHalGpioWritePin(B_HAL_GPIOC, B_HAL_PIN12, 0);
bHalGpioWritePin(B_HAL_GPIOC, B_HAL_PIN14, 0);
bHalGpioWritePin(B_HAL_GPIOC, B_HAL_PIN15, 1);
break;
case 1 :
case 2 :
case 4 :
case 5 :
case 6 :
bHalGpioWritePin(B_HAL_GPIOC, B_HAL_PIN12, 1);
bHalGpioWritePin(B_HAL_GPIOC, B_HAL_PIN14, 0);
bHalGpioWritePin(B_HAL_GPIOC, B_HAL_PIN15, 0);
break;
case 3 :
bHalGpioWritePin(B_HAL_GPIOC, B_HAL_PIN12, 0);
bHalGpioWritePin(B_HAL_GPIOC, B_HAL_PIN14, 1);
bHalGpioWritePin(B_HAL_GPIOC, B_HAL_PIN15, 0);
break;
default:
break;
}
bHalDelayMs(10);
}
/**
* \}
*/
/**
* \addtogroup LIS3DH_Exported_Functions
* \{
*/
int bHLW811X_Init(bDriverInterface_t *pdrv)
{
bDRIVER_STRUCT_INIT(pdrv, DRIVER_NAME, bHLW811X_Init);
pdrv->read = _bHlw811xRead;
pdrv->ctl = _bHlw811xCtl;
pdrv->_private._p = &bHlw811xRunInfo[pdrv->drv_no];
memset(pdrv->_private._p, 0, sizeof(bHlw811xPrivate_t));
set_nsi8241_en1(pdrv->drv_no);
if(HLW811x_Coefficient_checksum(pdrv))
{
return -1;
}
if(_bHlw811xDefaultCfg(pdrv))
{
return -1;
}
return 0;
}
#ifdef BSECTION_NEED_PRAGMA
#pragma section driver_init
#endif
bDRIVER_REG_INIT(B_DRIVER_HLW8112, bHLW811X_Init);
#ifdef BSECTION_NEED_PRAGMA
#pragma section
#endif
/**
* \}
*/
/**
* \}
*/
/**
* \}
*/
/************************ Copyright (c) 2020 Bean *****END OF FILE****/
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