Siddharth Gupta
/
BMS_BMUCore_Max_DummyData
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Dependencies: CUER_CAN DS1820 LTC2943 LTC6804 mbed
Fork of
BMS_BMUCore_Max
by 
CUER
CANParserBMU.cpp
- Committer:
- lcockerton62
- Date:
- 2016-12-22
- Revision:
- 0:0a5f554d2a16
- Child:
- 1:51477fe4851b
File content as of revision 0:0a5f554d2a16:
// Here are the functions to generate the CAN messages
#include "CANParserBMU.h"
#include "mbed.h"
using namespace CAN_IDs;
CANMessage createTemperatureTelemetry(uint8_t ID, uint32_t CMUSerialNumber, uint16_t PCBTemperature, uint16_t cellTemperature)
{
CANMessage msg;
msg.len = 8;
msg.id = BMS_BASE_ID + ID; // for voltage 0x601 - 0x6EF
CAN_Data data;
data.setLower_uLong(CMUSerialNumber);
data.set_u16(2, PCBTemperature);
data.set_u16(3, cellTemperature);
for (int i = 0; i<8; i++) {
msg.data[i] = data.get_u8(i);
}
return msg;
}
CANMessage createVoltageTelemetry(int ID, uint16_t voltage[])
{
CANMessage msg;
msg.len = 8;
msg.id = BMS_BASE_ID + ID; // for voltage 0x601 - 0x6EF @TODO
CAN_Data data;
data.set_u16(0, voltage[0]);
data.set_u16(1, voltage[1]);
data.set_u16(2, voltage[2]);
data.set_u16(3, voltage[3]);
for (int i = 0; i<8; i++) {
msg.data[i] = data.get_u8(i);
}
return msg;
}
CANMessage createPackSOC(float SOC, float percentageCharge)
{
CANMessage msg;
msg.len = 8;
msg.id = BMS_BASE_ID + BATTERY_SOC_ID;
CAN_Data data;
data.setLowerFloat(SOC);
data.setUpperFloat(percentageCharge);
for(int i=0; i<8; i++){
msg.data[i] = data.get_u8(i);
}
return msg;
}
CANMessage createPackBalanceSOC(float SOC, float percentageCharge)
{
// @TODO - check is this being used?? section 5.4 trituim BMU CAN data sheet
CANMessage msg;
msg.len = 8;
msg.id = BMS_BASE_ID + BATTERY_SOC_BASE_ID;
CAN_Data data;
data.setLowerFloat(SOC);
data.setUpperFloat(percentageCharge);
for(int i=0; i<8; i++){
msg.data[i] = data.get_u8(i);
}
return msg;
}
CANMessage createCellVoltageMAXMIN(uint16_t MAXMINVoltage[], uint8_t cellVoltageInformation[])
{
//@TODO create a structure to store this data , so that the data is stored in the correct order
CANMessage msg;
msg.len = 8;
msg.id = BMS_BASE_ID + MAX_MIN_VOLTAGE;
CAN_Data data;
data.set_u16(0,MAXMINVoltage[0]); //Min voltage
data.set_u16(1,MAXMINVoltage[1]); //Max voltage
data.set_u8(4,cellVoltageInformation[0]); //CMU number of lowest cell
data.set_u8(5,cellVoltageInformation[1]); //Cell number in CMU with lowest voltage
data.set_u8(6,cellVoltageInformation[2]); //CMU number of maxiumum cell
data.set_u8(7,cellVoltageInformation[3]); //Cell number in CMU with highest voltage
for(int i=0; i<8; i++){
msg.data[i] = data.get_u8(i);
}
return msg;
}
CANMessage createCellTemperatureMAXMIN(uint16_t MAXMINTemperature[], uint8_t cellTemperatureInformation[])
{
//@TODO create a structure to store this data , so that the data is stored in the correct order
CANMessage msg;
msg.len = 8;
msg.id = BMS_BASE_ID + MAX_MIN_TEMPERATURE;
CAN_Data data;
data.set_u16(0,MAXMINTemperature[0]); //Min temperature
data.set_u16(1,MAXMINTemperature[1]); //Max temperature
data.set_u8(4,cellTemperatureInformation[0]); //CMU number of lowest temperature cell
data.set_u8(5,BLANK_DATA); //Dummy data
data.set_u8(6,cellTemperatureInformation[1]); //CMU number of maxiumum temperature cell
data.set_u8(7,BLANK_DATA); //Dummy data
for(int i=0; i<8; i++){
msg.data[i] = data.get_u8(i);
}
return msg;
}
CANMessage createBatteryVI(uint32_t batteryVoltage,uint32_t batteryCurrent)
{
CANMessage msg;
msg.len = 8;
msg.id = BMS_BASE_ID + BATTERY_VI_ID;
CAN_Data data;
//TODO check the below lines
// data.set_u32(0,batteryVoltage);
//data.set_u32(1,batteryCurrent);
for(int i=0; i<8; i++){
msg.data[i] = data.get_u8(i);
}
return msg;
}
CANMessage createBatteryPackStatus(uint16_t voltageThreshold[], uint8_t statusFlag,uint8_t BMS_CMU_Count,uint16_t BMS_Firmware_Build)
{
CANMessage msg;
msg.len = 8;
msg.id = BMS_BASE_ID + BATTERY_PACK_STATUS_ID;
CAN_Data data;
data.set_u16(0,voltageThreshold[0]);
data.set_u16(1,voltageThreshold[1]);
data.set_16(3,BMS_Firmware_Build);
data.set_u8(4,statusFlag);
data.set_u8(5,BMS_CMU_Count);
for(int i=0; i<8; i++){
msg.data[i] = data.get_u8(i);
}
return msg;
}
CANMessage createExtendedBatteryPackStatus(uint32_t status)
{
CANMessage msg;
msg.len = 8;
msg.id = BMS_BASE_ID + BATTERY_STATUS_ID;
CAN_Data data;
data.setLower_uLong(status); //@TODO see the data sheet for this
data.set_u8(4,0x00);//Hardware version random data @TODO check this
data.set_u8(5,0x00);//Model ID @TODO check this
data.set_u16(3,0x00); // Unused
for(int i=0; i<8; i++){
msg.data[i] = data.get_u8(i);
}
return msg;
}
void convertFloatFloat(float lower, float upper, CANMessage& msg, bool littleEndian)
{
// Code taken from driver_controls
//two converters for lower and higher float
float2byte convL;
float2byte convH;
convL.f = lower;
convH.f = upper;
if(littleEndian) {
for(int i=0; i<4; i++) {
msg.data[i] = convL.b[i];
//offset for upper float
msg.data[i+4]=convH.b[i];
}
} else {
for(int i=0; i<4; i++) {
/*
* Subtract because output data is Big Endian
* i.e. convL/H is LSB --> MSB
* output is MSB --> LSB
*/
msg.data[4-i] = convL.b[i];
msg.data[7-i] = convH.b[i];
}
}
}