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/* ************************************************************************** */
/* VINFAST */
/* Description: LIN Description file */
/* Configuration: VinFast */
/* Bus: LIN_1_V10_00 */
/* Created: VinFast */
/* */
/* ************************************************************************** */
LIN_description_file;
LIN_protocol_version = "2.1";
LIN_language_version = "2.1";
LIN_speed = 19.2 kbps;
Nodes {
Master: BCM, 5 ms, 0.1 ms;
Slaves: SCM, BAS, RLS ;
}
Signals {
RS_L_WiperSpeed: 3, 0, RLS, BCM;
RS_F_LightSensor: 2, 0, RLS, BCM;
RS_F_RainSensor: 2, 0, RLS, BCM;
RS_F_Communication: 1, 0, RLS, BCM;
RS_F_Voltage: 2, 0, RLS, BCM;
RS_St_LampReq: 2, 0, RLS, BCM;
RS_St_CurrentRain: 3, 0, RLS, BCM;
RS_St_SplashCmd: 2, 0, RLS, BCM;
RS_Sol_L: 8, 0, RLS, BCM;
RS_Sol_R: 8, 0, RLS, BCM;
RS_TunnelDetection: 1, 0, RLS, BCM;
RS_F_OpticalInitialization: 1, 0, RLS, BCM;
RS_F_Temperature: 1, 0, RLS, BCM;
RS_St_LightSensorActive: 1, 0, RLS, BCM;
RS_F_HUD_Sensor: 1, 0, RLS, BCM;
RS_HUD_illuminance: 16, 0, RLS, BCM;
ERR_ST_INTL_00_SZL_LIN: 2, 0, SCM, BCM;
ERR_ST_INTL_01_SZL_LIN: 2, 0, SCM, BCM;
ERR_ST_INTL_02_SZL_LIN: 2, 0, SCM, BCM;
ERR_ST_INTL_03_SZL_LIN: 2, 0, SCM, BCM;
ERR_ST_INTL_04_SZL_LIN: 2, 0, SCM, BCM;
ERR_ST_DRS_00_SZL_LIN: 2, 0, SCM, BCM;
ERR_ST_DRS_01_SZL_LIN: 2, 0, SCM, BCM;
ERR_ST_DRS_02_SZL_LIN: 2, 0, SCM, BCM;
ERR_ST_SWS_00_SZL_LIN: 2, 0, SCM, BCM;
ERR_ST_SWS_01_SZL_LIN: 2, 0, SCM, BCM;
ERR_ST_KRL_00_SZL_LIN: 2, 0, SCM, BCM;
ERR_ST_AIC_00_SZL_LIN: 2, 0, SCM, BCM;
ERR_ST_KRL_01_SZL_LIN: 2, 0, SCM, BCM;
ERR_ST_KL_SZL_LIN: 2, 0, SCM, BCM;
ERR_ST_DIM_SZL_LIN: 2, 0, SCM, BCM;
OP_WISW_SZL_LIN: 8, 0, SCM, BCM;
OP_WIPO_SZL_LIN: 3, 0, SCM, BCM;
COMM_ERR_SZL_LIN: 1, 0, SCM, BCM;
OP_COLS_SZL_LIN: 8, 0, SCM, BCM;
ALIV_WISW_SZL_LIN: 4, 0, SCM, BCM;
NOD_ERR_SZL_LIN: 2, 0, SCM, BCM;
ST_KL_SZL_LIN: 4, 15, BCM, BAS, SCM;
CTR_LED_STWH_SZL_LIN: 2, 3, BCM, SCM;
CTR_LED_WI_SZL_LIN: 2, 3, BCM, SCM;
CTR_WI_FN_SZL_LIN: 4, 15, BCM, SCM;
BC_Button: 2, 0, SCM, BCM;
WiperSensitivityInterval: 3, 0, BCM, RLS;
WiperFront: 3, 0, BCM, RLS;
WashMode_FW: 2, 0, BCM, RLS;
STAT_Terminal: 3, 0, BCM, RLS;
Wiper_Parked_Low: 1, 0, BCM, RLS;
Temperature: 8, 0, BCM, RLS;
VehicleSpeed: 16, 0, BCM, RLS;
U_BATT: 14, 0, BAS, BCM;
Reserved: 2, 0, BAS, BCM;
I_BATT_High: 16, 0, BAS, BCM;
I_BATT_LOW: 8, 0, BAS, BCM;
IBATT_QUIESCENT: 8, 0, BAS, BCM;
T_BATT: 8, 0, BAS, BCM;
Resp_Error: 1, 0, BAS, BCM;
FLAG_INCONSTENCY: 1, 0, BAS, BCM;
EBS_error: 1, 0, BAS, BCM;
FLAG_DISCONNECT: 1, 0, BAS, BCM;
Reserved1: 4, 0, BAS, BCM;
SOC: 8, 255, BAS, BCM;
SOH_SUL: 8, 255, BAS, BCM;
SOFV_StopEnable: 8, 15, BAS, BCM;
SOFV_Restart: 8, 15, BAS, BCM;
SOH_LAM: 8, 127, BAS, BCM;
SOH_COR: 8, 15, BAS, BCM;
SOC_STATE: 2, 3, BAS, BCM;
SOH_SUL_STATE: 2, 3, BAS, BCM;
SOFV_StopEnableState: 2, 3, BAS, BCM;
SOFV_RestartState: 2, 3, BAS, BCM;
SOH_LAM_STATE: 2, 3, BAS, BCM;
SOH_COR_STATE: 2, 3, BAS, BCM;
Q_Charge: 16, 8191, BAS, BCM;
Q_Discharge: 16, 8191, BAS, BCM;
}
Diagnostic_signals {
MasterReqB0: 8, 0 ;
MasterReqB1: 8, 0 ;
MasterReqB2: 8, 0 ;
MasterReqB3: 8, 0 ;
MasterReqB4: 8, 0 ;
MasterReqB5: 8, 0 ;
MasterReqB6: 8, 0 ;
MasterReqB7: 8, 0 ;
SlaveRespB0: 8, 0 ;
SlaveRespB1: 8, 0 ;
SlaveRespB2: 8, 0 ;
SlaveRespB3: 8, 0 ;
SlaveRespB4: 8, 0 ;
SlaveRespB5: 8, 0 ;
SlaveRespB6: 8, 0 ;
SlaveRespB7: 8, 0 ;
}
Frames {
CTR_SZL_LIN: 34, BCM, 2 {
ST_KL_SZL_LIN, 0 ;
CTR_LED_STWH_SZL_LIN, 4 ;
CTR_LED_WI_SZL_LIN, 6 ;
CTR_WI_FN_SZL_LIN, 12 ;
}
BCM_MSG: 43, BCM, 7 {
WiperSensitivityInterval, 0 ;
WiperFront, 3 ;
WashMode_FW, 6 ;
STAT_Terminal, 8 ;
Wiper_Parked_Low, 24 ;
Temperature, 25 ;
VehicleSpeed, 40 ;
}
ERR_ST_SZL_LIN: 31, SCM, 8 {
ERR_ST_INTL_00_SZL_LIN, 0 ;
ERR_ST_INTL_01_SZL_LIN, 2 ;
ERR_ST_INTL_02_SZL_LIN, 4 ;
ERR_ST_INTL_03_SZL_LIN, 6 ;
ERR_ST_INTL_04_SZL_LIN, 8 ;
ERR_ST_DRS_00_SZL_LIN, 10 ;
ERR_ST_DRS_01_SZL_LIN, 12 ;
ERR_ST_DRS_02_SZL_LIN, 14 ;
ERR_ST_SWS_00_SZL_LIN, 20 ;
ERR_ST_SWS_01_SZL_LIN, 22 ;
ERR_ST_KRL_00_SZL_LIN, 24 ;
ERR_ST_AIC_00_SZL_LIN, 26 ;
ERR_ST_KRL_01_SZL_LIN, 28 ;
ERR_ST_KL_SZL_LIN, 40 ;
ERR_ST_DIM_SZL_LIN, 42 ;
}
ST_SZL_LIN: 33, SCM, 8 {
OP_WISW_SZL_LIN, 0 ;
OP_WIPO_SZL_LIN, 8 ;
COMM_ERR_SZL_LIN, 15 ;
OP_COLS_SZL_LIN, 16 ;
ALIV_WISW_SZL_LIN, 24 ;
NOD_ERR_SZL_LIN, 30 ;
}
BAS_Measured_Data: 52, BAS, 8 {
U_BATT, 0 ;
Reserved, 14 ;
I_BATT_High, 16 ;
I_BATT_LOW, 32 ;
IBATT_QUIESCENT, 40 ;
T_BATT, 48 ;
Resp_Error, 56 ;
FLAG_INCONSTENCY, 57 ;
EBS_error, 58 ;
FLAG_DISCONNECT, 59 ;
Reserved1, 60 ;
}
BAS_SOC_information: 53, BAS, 8 {
SOC, 0 ;
SOH_SUL, 8 ;
SOFV_StopEnable, 16 ;
SOFV_Restart, 24 ;
SOH_LAM, 32 ;
SOH_COR, 40 ;
SOC_STATE, 50 ;
SOH_SUL_STATE, 52 ;
SOFV_StopEnableState, 54 ;
SOFV_RestartState, 56 ;
SOH_LAM_STATE, 58 ;
SOH_COR_STATE, 60 ;
}
BAS_Battery_Data: 54, BAS, 8 {
Q_Charge, 0 ;
Q_Discharge, 16 ;
}
RS_SENSOR_01: 14, RLS, 8 {
RS_L_WiperSpeed, 0 ;
RS_F_LightSensor, 3 ;
RS_F_RainSensor, 5 ;
RS_F_Communication, 7 ;
RS_F_Voltage, 8 ;
RS_St_LampReq, 11 ;
RS_St_CurrentRain, 13 ;
RS_St_SplashCmd, 24 ;
RS_Sol_L, 26 ;
RS_Sol_R, 34 ;
RS_TunnelDetection, 42 ;
RS_F_OpticalInitialization, 43 ;
RS_F_Temperature, 44 ;
RS_St_LightSensorActive, 45 ;
RS_F_HUD_Sensor, 46 ;
RS_HUD_illuminance, 47 ;
}
SCM_BC_Button: 35, SCM, 8 {
BC_Button, 0 ;
}
}
Diagnostic_frames {
MasterReq: 0x3c {
MasterReqB0, 0 ;
MasterReqB1, 8 ;
MasterReqB2, 16 ;
MasterReqB3, 24 ;
MasterReqB4, 32 ;
MasterReqB5, 40 ;
MasterReqB6, 48 ;
MasterReqB7, 56 ;
}
SlaveResp: 0x3d {
SlaveRespB0, 0 ;
SlaveRespB1, 8 ;
SlaveRespB2, 16 ;
SlaveRespB3, 24 ;
SlaveRespB4, 32 ;
SlaveRespB5, 40 ;
SlaveRespB6, 48 ;
SlaveRespB7, 56 ;
}
}
Node_attributes {
SCM{
LIN_protocol = "2.1";
configured_NAD = 0x21;
initial_NAD = 0x21;
product_id = 0xB, 0x1301, 0;
response_error = COMM_ERR_SZL_LIN;
fault_state_signals = IntTest;
P2_min = 150 ms;
ST_min = 15 ms;
N_As_timeout = 1000 ms ;
N_Cr_timeout = 1000 ms ;
configurable_frames {ERR_ST_SZL_LIN ;
ST_SZL_LIN ;
CTR_SZL_LIN;
BCM_MSG ;
SCM_BC_Button ;
}
}
BAS{
LIN_protocol = "2.1";
configured_NAD = 0x47;
initial_NAD = 0x47;
product_id = 0x2, 0x1400, 0;
response_error = Resp_Error;
fault_state_signals = IntTest;
P2_min = 150 ms;
ST_min = 15 ms;
N_As_timeout = 1000 ms ;
N_Cr_timeout = 1000 ms ;
configurable_frames {BAS_SOC_information ;
BAS_Battery_Data ;
BAS_Measured_Data ;
CTR_SZL_LIN ;
}
}
RLS{
LIN_protocol = "2.1";
configured_NAD = 0x1B;
initial_NAD = 0x1B;
product_id = 0x5, 0x1, 1;
response_error = RS_F_Communication;
fault_state_signals = IntTest;
P2_min = 50 ms;
ST_min = 0 ms;
N_As_timeout = 1000 ms ;
N_Cr_timeout = 1000 ms ;
configurable_frames {RS_SENSOR_01 ;
BCM_MSG ;
}
}
}
Schedule_tables {
DIAG {
SlaveResp delay 10 ms ;
MasterReq delay 10 ms ;
}
RUN_MAIN {
CTR_SZL_LIN delay 10 ms ;
BCM_MSG delay 10 ms ;
ERR_ST_SZL_LIN delay 10 ms ;
ST_SZL_LIN delay 10 ms ;
BCM_MSG delay 10 ms ;
BAS_Measured_Data delay 10 ms ;
BAS_SOC_information delay 10 ms ;
BAS_Battery_Data delay 10 ms ;
BCM_MSG delay 10 ms ;
RS_SENSOR_01 delay 10 ms ;
SCM_BC_Button delay 10 ms ;
}
}
Signal_encoding_types {
RS_L_WiperSpeed_Encoding {
logical_value, 0, "OFF" ;
logical_value, 1, "Low speed Signal" ;
logical_value, 2, "low speed continuous" ;
logical_value, 3, "high speed continuous" ;
logical_value, 4, "Reserved" ;
logical_value, 5, "Reserved" ;
logical_value, 6, "Reserved" ;
logical_value, 7, "Signal invalid" ;
}
RS_F_LightSensor_Encoding {
logical_value, 0, "No Error" ;
logical_value, 1, "The light sensor error" ;
logical_value, 2, "Reserved" ;
logical_value, 3, "Signal invalid" ;
}
RS_F_RainSensor_Encoding {
logical_value, 0, "No Error" ;
logical_value, 1, "Rain Sensor error" ;
logical_value, 2, "Reserved" ;
logical_value, 3, "Signal Invalid" ;
}
RS_F_Communication_Encoding {
logical_value, 0, "No Error" ;
logical_value, 1, "Communication Error" ;
}
RS_F_Voltage_Encoding {
logical_value, 0, "No Error" ;
logical_value, 1, "high voltage fault" ;
logical_value, 2, "low voltage fault" ;
logical_value, 3, "Signal Invalid" ;
}
RS_St_LampReq_Encoding {
logical_value, 0, "Lamp Off" ;
logical_value, 1, "Lamp On" ;
logical_value, 2, "Reserved" ;
logical_value, 3, "Signal invalid" ;
}
RS_St_CurrentRain_Encoding {
logical_value, 0, "No Rain" ;
logical_value, 1, "Level 1 (Light rain)" ;
logical_value, 2, "level 2(moderate rain)" ;
logical_value, 3, "level 3(heavy rain)" ;
logical_value, 4, "Reserved" ;
logical_value, 5, "Reserved" ;
logical_value, 6, "Reserved" ;
logical_value, 7, "Signal Invalid" ;
}
RS_St_SplashCmd_Encoding {
logical_value, 0, "splash off" ;
logical_value, 1, "splash on" ;
logical_value, 2, "Reserved" ;
logical_value, 3, "Signal Invalid" ;
}
RS_Sol_L_Encoding {
physical_value, 0, 50, 5.0, 0.0, "W/m^2" ;
logical_value, 254, "HW failure solar sensor" ;
logical_value, 255, "Signal Invalid" ;
}
RS_Sol_R_Encoding {
physical_value, 0, 50, 5.0, 0.0, "W/m^2" ;
logical_value, 254, "HW failure solar sensor" ;
logical_value, 255, "Signal Invalid" ;
}
RS_TunnelDetection_Encoding {
logical_value, 0, "No Tunnel Detection" ;
logical_value, 1, "Tunnel Detection" ;
}
RS_F_OpticalInitialization_Encoding {
logical_value, 0, "No Error" ;
logical_value, 1, "Optical Initialization Error" ;
}
RS_F_Temperature_Encoding {
logical_value, 0, "No Error" ;
logical_value, 1, "Temperature Error" ;
}
RS_St_LightSensorActive_Encoding {
logical_value, 0, "Not active" ;
logical_value, 1, "Light Sensor actived" ;
}
RS_F_HUD_Sensor_Encoding {
physical_value, 0, 1, 1.0, 0.0, "cd/m2" ;
logical_value, 0, "No error" ;
logical_value, 1, "HUD error" ;
}
RS_HUD_illuminance_Encoding {
physical_value, 0, 10000, 1.0, 0.0, "cd/m2" ;
logical_value, 65535, "Invalid" ;
}
ERR_ST_INTL_00_SZL_LIN_Encoding {
logical_value, 0, "No Error" ;
logical_value, 1, "Error Active" ;
logical_value, 3, "Signal Invalid" ;
}
ERR_ST_INTL_01_SZL_LIN_Encoding {
logical_value, 0, "No Error" ;
logical_value, 1, "Error Active" ;
logical_value, 3, "Signal Invalid" ;
}
ERR_ST_INTL_02_SZL_LIN_Encoding {
logical_value, 0, "No Error" ;
logical_value, 1, "Error Active" ;
logical_value, 3, "Signal Invalid" ;
}
ERR_ST_INTL_03_SZL_LIN_Encoding {
logical_value, 0, "No Error" ;
logical_value, 1, "Error Active" ;
logical_value, 3, "Signal Invalid" ;
}
ERR_ST_INTL_04_SZL_LIN_Encoding {
logical_value, 0, "No Error" ;
logical_value, 1, "Error Active" ;
logical_value, 3, "Signal Invalid" ;
}
ERR_ST_DRS_00_SZL_LIN_Encoding {
logical_value, 0, "No Error" ;
logical_value, 1, "Error Active" ;
logical_value, 3, "Signal Invalid" ;
}
ERR_ST_DRS_01_SZL_LIN_Encoding {
logical_value, 0, "No Error" ;
logical_value, 1, "Error Active" ;
logical_value, 3, "Signal Invalid" ;
}
ERR_ST_DRS_02_SZL_LIN_Encoding {
logical_value, 0, "No Error" ;
logical_value, 1, "Error Active" ;
logical_value, 3, "Signal Invalid" ;
}
ERR_ST_SWS_00_SZL_LIN_Encoding {
logical_value, 0, "No Error" ;
logical_value, 1, "Error Active" ;
logical_value, 3, "Signal Invalid" ;
}
ERR_ST_SWS_01_SZL_LIN_Encoding {
logical_value, 0, "No Error" ;
logical_value, 1, "Error Active" ;
logical_value, 3, "Signal Invalid" ;
}
ERR_ST_KRL_00_SZL_LIN_Encoding {
logical_value, 0, "No Error" ;
logical_value, 1, "Error Active" ;
logical_value, 3, "Signal Invalid" ;
}
ERR_ST_AIC_00_SZL_LIN_Encoding {
logical_value, 0, "No Error" ;
logical_value, 1, "Error Active" ;
logical_value, 3, "Signal Invalid" ;
}
ERR_ST_KRL_01_SZL_LIN_Encoding {
logical_value, 0, "No Error" ;
logical_value, 1, "Error Active" ;
logical_value, 3, "Signal Invalid" ;
}
ERR_ST_KL_SZL_LIN_Encoding {
logical_value, 0, "No Error" ;
logical_value, 1, "Error Active" ;
logical_value, 3, "Signal Invalid" ;
}
ERR_ST_DIM_SZL_LIN_Encoding {
logical_value, 0, "No Error" ;
logical_value, 1, "Error Active" ;
logical_value, 3, "Signal Invalid" ;
}
OP_WISW_SZL_LIN_Encoding {
logical_value, 0, "No action" ;
logical_value, 255, "Signal Invalid" ;
}
OP_WIPO_SZL_LIN_Encoding {
logical_value, 0, "Step 1" ;
logical_value, 1, "Step 2" ;
logical_value, 2, "Step 3" ;
logical_value, 4, "Step 4" ;
logical_value, 7, "Signal Invalid" ;
}
COMM_ERR_SZL_LIN_Encoding {
logical_value, 0, "No error" ;
logical_value, 1, "Error active" ;
}
OP_COLS_SZL_LIN_Encoding {
logical_value, 0, "No action" ;
logical_value, 255, "Signal Invalid" ;
}
NOD_ERR_SZL_LIN_Encoding {
logical_value, 0, "NO error" ;
logical_value, 1, "error aktiv" ;
logical_value, 2, "error Stat change" ;
logical_value, 3, "Signal invalid" ;
}
ST_KL_SZL_LIN_Encoding {
logical_value, 0, "Init" ;
logical_value, 1, "Reserve" ;
logical_value, 2, "KL30" ;
logical_value, 3, "KL30F-change" ;
logical_value, 4, "KL30F-ON" ;
logical_value, 5, "KL30B-change" ;
logical_value, 6, "KL30B-ON" ;
logical_value, 7, "KLR-change" ;
logical_value, 8, "KLR-ON" ;
logical_value, 9, "KL15-change" ;
logical_value, 10, "KL15-ON" ;
logical_value, 11, "KL15-delay" ;
logical_value, 12, "KL15-change" ;
logical_value, 13, "KL15-ON" ;
logical_value, 14, "error" ;
logical_value, 15, "Signal invalid" ;
}
CTR_LED_STWH_SZL_LIN_Encoding {
logical_value, 0, "LED OFF" ;
logical_value, 1, "LED ON" ;
logical_value, 3, "Signal invalid" ;
}
CTR_LED_WI_SZL_LIN_Encoding {
logical_value, 0, "LED OFF" ;
logical_value, 1, "LED ON" ;
logical_value, 3, "Signal invalid" ;
}
CTR_WI_FN_SZL_LIN_Encoding {
logical_value, 0, "No action" ;
logical_value, 1, "Intervall/Automatic" ;
logical_value, 2, "Step 1" ;
logical_value, 3, "Step 2" ;
logical_value, 8, "Tipp wipe" ;
logical_value, 15, "Signal Invalid" ;
}
BC_Button_Encoding {
logical_value, 0, "Button not Pressed" ;
logical_value, 1, "Short Press" ;
logical_value, 2, "Long Press" ;
logical_value, 3, "Signal invalid" ;
}
WiperSensitivityInterval_Encoding {
logical_value, 0, "Reserved" ;
logical_value, 1, "Step 1" ;
logical_value, 2, "Step 2" ;
logical_value, 3, "Step 3" ;
logical_value, 4, "Step 4" ;
logical_value, 5, "Reserved" ;
logical_value, 6, "Reserved" ;
logical_value, 7, "Invalid" ;
}
WiperFront_Encoding {
logical_value, 0, "OFF" ;
logical_value, 1, "Mist" ;
logical_value, 2, "IntermittentAuto" ;
logical_value, 3, "Low Speed" ;
logical_value, 4, "High Speed" ;
logical_value, 5, "Reserved" ;
logical_value, 6, "Reserved" ;
logical_value, 7, "Invalid" ;
}
WashMode_FW_Encoding {
logical_value, 0, "Wash normal OFF" ;
logical_value, 1, "Wash normal ON" ;
logical_value, 2, "Reserved" ;
logical_value, 3, "Invalid" ;
}
STAT_Terminal_Encoding {
physical_value, 0, 7, 1.0, 0.0, "Bit" ;
logical_value, 7, "Signal invalid" ;
logical_value, 6, "Reserved" ;
logical_value, 5, "Reserved" ;
logical_value, 4, "SW Update OTA" ;
logical_value, 3, "Engine start (eMotor running)" ;
logical_value, 2, "ON (Driver Present)" ;
logical_value, 1, "ACC (Park)" ;
logical_value, 0, "OFF(Comfort Enable)" ;
}
Wiper_Parked_Low_Encoding {
logical_value, 0, "else" ;
logical_value, 1, "Wiper lever in parking position" ;
}
Temperature_Encoding {
physical_value, 0, 250, 0.5, -40.0, "Degree C" ;
}
VehicleSpeed_Encoding {
physical_value, 0, 22400, 0.015625, 0.0, "km/h" ;
}
U_BATT_Encoding {
physical_value, 0, 15360, 0.0009765625, 3.0, "V" ;
logical_value, 16363, "Invalid" ;
}
I_BATT_High_Encoding {
physical_value, 0, 65533, 0.03125, -1536.0, "A" ;
logical_value, 65534, "Signal out of range" ;
logical_value, 65535, "Invalid" ;
}
I_BATT_LOW_Encoding {
physical_value, 0, 254, 0.1220703125, -15.625, "mA" ;
}
IBATT_QUIESCENT_Encoding {
physical_value, 0, 252, 0.00390625, 0.0, "A" ;
logical_value, 253, "Outside quiescent current range" ;
logical_value, 254, "Reserved" ;
logical_value, 255, "Invalid" ;
}
T_BATT_Encoding {
physical_value, 0, 145, 1.0, -40.0, "Degree C" ;
logical_value, 255, "Invalid" ;
}
Resp_Error_Encoding {
logical_value, 0, "No Error" ;
logical_value, 1, "Error" ;
}
FLAG_INCONSTENCY_Encoding {
logical_value, 0, "No battery inconsistency" ;
logical_value, 1, "Battery inconsistency" ;
}
EBS_error_Encoding {
logical_value, 0, "No Error" ;
logical_value, 1, "Error" ;
}
FLAG_DISCONNECT_Encoding {
logical_value, 0, "No battery disconnection" ;
logical_value, 1, "Battery disconnection" ;
}
SOC_Encoding {
physical_value, 0, 100, 1.0, 0.0, "%" ;
logical_value, 255, "Signal invalid" ;
}
SOH_SUL_Encoding {
physical_value, 0, 100, 1.0, 0.0, "%" ;
logical_value, 255, "Signal invalid" ;
}
SOFV_StopEnable_Encoding {
physical_value, 0, 254, 0.0625, 0.0, "V" ;
logical_value, 255, "Signal invalid" ;
}
SOFV_Restart_Encoding {
physical_value, 0, 254, 0.0625, 0.0, "V" ;
logical_value, 255, "Signal invalid" ;
}
SOH_LAM_Encoding {
physical_value, 0, 508, 0.5, 0.0, "Ah" ;
logical_value, 255, "Signal invalid" ;
}
SOH_COR_Encoding {
physical_value, 0, 254, 0.0625, 0.0, "V" ;
logical_value, 255, "Signal invalid" ;
}
SOC_STATE_Encoding {
logical_value, 0, "deviation > 15%, " ;
logical_value, 1, "deviation < 15%" ;
logical_value, 2, "deviation < 10%" ;
logical_value, 3, "invalid" ;
}
SOH_SUL_STATE_Encoding {
logical_value, 0, "Not learned" ;
logical_value, 1, "Learned" ;
logical_value, 2, "Reserved" ;
logical_value, 3, "Signal invalid" ;
}
SOFV_StopEnableState_Encoding {
logical_value, 0, "inaccurate" ;
logical_value, 1, "accurate (deviation < 400mV)" ;
logical_value, 2, "Reserved" ;
logical_value, 3, "invalid" ;
}
SOFV_RestartState_Encoding {
logical_value, 0, "inaccurate" ;
logical_value, 1, "accurate (deviation < 400mV)" ;
logical_value, 2, "Reserved" ;
logical_value, 3, "invalid" ;
}
SOH_LAM_STATE_Encoding {
logical_value, 0, "Not learned at all" ;
logical_value, 1, "Learned at last once" ;
logical_value, 2, "Reserved" ;
logical_value, 3, "Signal invalid" ;
}
SOH_COR_STATE_Encoding {
logical_value, 0, "Not learned at all" ;
logical_value, 1, "Inaccurate" ;
logical_value, 2, "Accurate (deviation <400mV)" ;
logical_value, 3, "Signal invalid" ;
}
Q_Charge_Encoding {
physical_value, 0, 65534, 0.125, 0.0, "Ah" ;
logical_value, 65535, "Invalid" ;
}
Q_Discharge_Encoding {
physical_value, 0, 65534, 0.125, 0.0, "Ah" ;
logical_value, 65535, "Invalid" ;
}
}
Signal_representation {
RS_L_WiperSpeed_Encoding: RS_L_WiperSpeed ;
RS_F_LightSensor_Encoding: RS_F_LightSensor ;
RS_F_RainSensor_Encoding: RS_F_RainSensor ;
RS_F_Communication_Encoding: RS_F_Communication ;
RS_F_Voltage_Encoding: RS_F_Voltage ;
RS_St_LampReq_Encoding: RS_St_LampReq ;
RS_St_CurrentRain_Encoding: RS_St_CurrentRain ;
RS_St_SplashCmd_Encoding: RS_St_SplashCmd ;
RS_Sol_L_Encoding: RS_Sol_L ;
RS_Sol_R_Encoding: RS_Sol_R ;
RS_TunnelDetection_Encoding: RS_TunnelDetection ;
RS_F_OpticalInitialization_Encoding: RS_F_OpticalInitialization ;
RS_F_Temperature_Encoding: RS_F_Temperature ;
RS_St_LightSensorActive_Encoding: RS_St_LightSensorActive ;
RS_F_HUD_Sensor_Encoding: RS_F_HUD_Sensor ;
RS_HUD_illuminance_Encoding: RS_HUD_illuminance ;
ERR_ST_INTL_00_SZL_LIN_Encoding: ERR_ST_INTL_00_SZL_LIN ;
ERR_ST_INTL_01_SZL_LIN_Encoding: ERR_ST_INTL_01_SZL_LIN ;
ERR_ST_INTL_02_SZL_LIN_Encoding: ERR_ST_INTL_02_SZL_LIN ;
ERR_ST_INTL_03_SZL_LIN_Encoding: ERR_ST_INTL_03_SZL_LIN ;
ERR_ST_INTL_04_SZL_LIN_Encoding: ERR_ST_INTL_04_SZL_LIN ;
ERR_ST_DRS_00_SZL_LIN_Encoding: ERR_ST_DRS_00_SZL_LIN ;
ERR_ST_DRS_01_SZL_LIN_Encoding: ERR_ST_DRS_01_SZL_LIN ;
ERR_ST_DRS_02_SZL_LIN_Encoding: ERR_ST_DRS_02_SZL_LIN ;
ERR_ST_SWS_00_SZL_LIN_Encoding: ERR_ST_SWS_00_SZL_LIN ;
ERR_ST_SWS_01_SZL_LIN_Encoding: ERR_ST_SWS_01_SZL_LIN ;
ERR_ST_KRL_00_SZL_LIN_Encoding: ERR_ST_KRL_00_SZL_LIN ;
ERR_ST_AIC_00_SZL_LIN_Encoding: ERR_ST_AIC_00_SZL_LIN ;
ERR_ST_KRL_01_SZL_LIN_Encoding: ERR_ST_KRL_01_SZL_LIN ;
ERR_ST_KL_SZL_LIN_Encoding: ERR_ST_KL_SZL_LIN ;
ERR_ST_DIM_SZL_LIN_Encoding: ERR_ST_DIM_SZL_LIN ;
OP_WISW_SZL_LIN_Encoding: OP_WISW_SZL_LIN ;
OP_WIPO_SZL_LIN_Encoding: OP_WIPO_SZL_LIN ;
COMM_ERR_SZL_LIN_Encoding: COMM_ERR_SZL_LIN ;
OP_COLS_SZL_LIN_Encoding: OP_COLS_SZL_LIN ;
NOD_ERR_SZL_LIN_Encoding: NOD_ERR_SZL_LIN ;
ST_KL_SZL_LIN_Encoding: ST_KL_SZL_LIN ;
CTR_LED_STWH_SZL_LIN_Encoding: CTR_LED_STWH_SZL_LIN ;
CTR_LED_WI_SZL_LIN_Encoding: CTR_LED_WI_SZL_LIN ;
CTR_WI_FN_SZL_LIN_Encoding: CTR_WI_FN_SZL_LIN ;
BC_Button_Encoding: BC_Button ;
WiperSensitivityInterval_Encoding: WiperSensitivityInterval ;
WiperFront_Encoding: WiperFront ;
WashMode_FW_Encoding: WashMode_FW ;
STAT_Terminal_Encoding: STAT_Terminal ;
Wiper_Parked_Low_Encoding: Wiper_Parked_Low ;
Temperature_Encoding: Temperature ;
VehicleSpeed_Encoding: VehicleSpeed ;
U_BATT_Encoding: U_BATT ;
I_BATT_High_Encoding: I_BATT_High ;
I_BATT_LOW_Encoding: I_BATT_LOW ;
IBATT_QUIESCENT_Encoding: IBATT_QUIESCENT ;
T_BATT_Encoding: T_BATT ;
Resp_Error_Encoding: Resp_Error ;
FLAG_INCONSTENCY_Encoding: FLAG_INCONSTENCY ;
EBS_error_Encoding: EBS_error ;
FLAG_DISCONNECT_Encoding: FLAG_DISCONNECT ;
SOC_Encoding: SOC ;
SOH_SUL_Encoding: SOH_SUL ;
SOFV_StopEnable_Encoding: SOFV_StopEnable ;
SOFV_Restart_Encoding: SOFV_Restart ;
SOH_LAM_Encoding: SOH_LAM ;
SOH_COR_Encoding: SOH_COR ;
SOC_STATE_Encoding: SOC_STATE ;
SOH_SUL_STATE_Encoding: SOH_SUL_STATE ;
SOFV_StopEnableState_Encoding: SOFV_StopEnableState ;
SOFV_RestartState_Encoding: SOFV_RestartState ;
SOH_LAM_STATE_Encoding: SOH_LAM_STATE ;
SOH_COR_STATE_Encoding: SOH_COR_STATE ;
Q_Charge_Encoding: Q_Charge ;
Q_Discharge_Encoding: Q_Discharge ;
}
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