Warning at generation stage

{ "type": "inverter", "name": "EVSPIN32G4-mini", "descVersion": 4, "contentVersion": "1.0", "PN": "EVSPIN32G4", "shortDescription": "STSPIN32G4 demonstration board for three-phase brushless motors", "longDescription": "STSPIN32G4 demonstration board for three-phase brushless motors", "link": "https://www.st.com/en/evaluation-tools/evspin32g4.html", "mcu": "STSPIN32G4", "clockSource": "internal_osc", "clockFrequency": 170, "motorDrives": [ { "name": "M1", "maxRatedVoltage": 75, "minRatedVoltage": 10, "maxRatedCurrent": 20, "resistorOffset": 0.08, "features": [ { "name": "CurrentSensing", "type": "CurrentSensing", "tRise": 61, "hwVariants": [ { "type": "ThreeShunt_RawCurrents_SingleEnded_ExternalGain", "help": "", "shuntResistor": 0.005, "offsetNetworkAttenuation": 0.88, "opAmpGain": 8.333, "polarizationOffset": 1.65, "amplifyingNetworkImax": 45, "amplifyingNetworkVm": 3.3, "amplifyingNetworkPrating": 6, "signals": { "CURRENT_SHUNT_UP": [ { "name": "PA1", "help": "", "cost": 0 } ], "CURRENT_SHUNT_VP": [ { "name": "PA7", "help": "", "cost": 0 } ], "CURRENT_SHUNT_WP": [ { "name": "PB0", "help": "", "cost": 0 } ], "CURRENT_AMPLN_U": [ { "name": "PA3", "help": "", "cost": 0 } ], "CURRENT_AMPLN_V": [ { "name": "PC5", "help": "", "cost": 0 } ], "CURRENT_AMPLN_W": [ { "name": "PB2", "help": "", "cost": 0 }, { "name": "PC5", "help": "", "cost": 0 } ], "CURRENT_AMPL_U": [ { "name": "PA2", "help": "", "cost": 0 } ], "CURRENT_AMPL_V": [ { "name": "PA6", "help": "", "cost": 0 }, { "name": "PA2", "help": "", "cost": 0 } ], "CURRENT_AMPL_W": [ { "name": "PB1", "help": "", "cost": 0 }, { "name": "PA6", "help": "", "cost": 0 } ] } }, { "type": "ThreeShunt_RawCurrents_SingleEnded_InternalGain", "help": "", "shuntResistor": 0.005, "offsetNetworkAttenuation": 0.88, "opAmpGain": 8, "polarizationOffset": 1.584, "amplifyingNetworkImax": 45.9, "amplifyingNetworkVm": 3.3, "amplifyingNetworkPrating": 6, "signals": { "CURRENT_SHUNT_UP": [ { "name": "PA1", "help": "", "cost": 0 } ], "CURRENT_SHUNT_VP": [ { "name": "PA7", "help": "", "cost": 0 } ], "CURRENT_SHUNT_WP": [ { "name": "PB0", "help": "", "cost": 0 } ] } }, { "type": "ThreeShunt_RawCurrents_Differential_ExternalGain", "help": "", "shuntResistor": 0.005, "offsetNetworkAttenuation": 0.88, "opAmpGain": 8.333, "polarizationOffset": 1.65, "amplifyingNetworkImax": 45, "amplifyingNetworkVm": 3.3, "amplifyingNetworkPrating": 6, "signals": { "CURRENT_SHUNT_UP": [ { "name": "PA1", "help": "", "cost": 0 } ], "CURRENT_SHUNT_VP": [ { "name": "PA7", "help": "", "cost": 0 } ], "CURRENT_SHUNT_WP": [ { "name": "PB0", "help": "", "cost": 0 } ], "CURRENT_SHUNT_UN": [ { "name": "PA3", "help": "", "cost": 0 } ], "CURRENT_SHUNT_VN": [ { "name": "PC5", "help": "", "cost": 0 } ], "CURRENT_SHUNT_WN": [ { "name": "PB2", "help": "", "cost": 0 } ], "CURRENT_AMPL_U": [ { "name": "PA2", "help": "", "cost": 0 } ], "CURRENT_AMPL_V": [ { "name": "PA6", "help": "", "cost": 0 } ], "CURRENT_AMPL_W": [ { "name": "PB1", "help": "", "cost": 0 } ] } }, { "type": "ThreeShunt_RawCurrents_Differential_InternalGain", "help": "", "shuntResistor": 0.005, "offsetNetworkAttenuation": 0.88, "opAmpGain": 8.333, "polarizationOffset": 1.65, "amplifyingNetworkImax": 45, "amplifyingNetworkVm": 3.3, "amplifyingNetworkPrating": 6, "signals": { "CURRENT_SHUNT_UP": [ { "name": "PA1", "help": "", "cost": 0 } ], "CURRENT_SHUNT_VP": [ { "name": "PA7", "help": "", "cost": 0 } ], "CURRENT_SHUNT_WP": [ { "name": "PB0", "help": "", "cost": 0 } ], "CURRENT_SHUNT_UN": [ { "name": "PA3", "help": "", "cost": 0 } ], "CURRENT_SHUNT_VN": [ { "name": "PC5", "help": "", "cost": 0 } ], "CURRENT_SHUNT_WN": [ { "name": "PB2", "help": "", "cost": 0 } ] } }, { "type": "SingleShunt_RawCurrents_SingleEnded_ExternalGain", "help": "1. Remove the heatsink and the thermal interposer to simplify the following two steps\n2. Close the two solder jumpers JP1 and JP2 located on the bottom side of the board in proximity of the\nshunt resistors. Make sure to close both the solder jumpers for their entire length to ensure good electrical\nconnection and to avoid malfunctions\n3. Disconnect shunt resistors R31, R32, R35 and R36.\n4. Mount again the heatsink with thermal interposer", "cost": 10, "shuntResistor": 0.005, "offsetNetworkAttenuation": 0.88, "opAmpGain": 8.333, "polarizationOffset": 1.65, "amplifyingNetworkImax": 45, "amplifyingNetworkVm": 3.3, "amplifyingNetworkPrating": 6, "signals": { "CURRENT_SHUNT_P": [ { "name": "PA7", "help": "1. Remove the heatsink and the thermal interposer to simplify the following two steps\n2. Close the two solder jumpers JP1 and JP2 located on the bottom side of the board in proximity of the\nshunt resistors. Make sure to close both the solder jumpers for their entire length to ensure good electrical\nconnection and to avoid malfunctions\n3. Disconnect shunt resistors R31, R32, R35 and R36.\n4. Mount again the heatsink with thermal interposer", "cost": 10 } ], "CURRENT_AMPLN": [ { "name": "PC5", "help": "", "cost": 0 } ], "CURRENT_AMPL": [ { "name": "PA6", "help": "", "cost": 0 } ] } }, { "type": "SingleShunt_RawCurrents_SingleEnded_InternalGain", "help": "1. Remove the heatsink and the thermal interposer to simplify the following two steps\n2. Close the two solder jumpers JP1 and JP2 located on the bottom side of the board in proximity of the\nshunt resistors. Make sure to close both the solder jumpers for their entire length to ensure good electrical\nconnection and to avoid malfunctions.\n3. Disconnect shunt resistors R31, R32, R35 and R36.\n4. Mount again the heatsink with thermal interposer", "cost": 10, "shuntResistor": 0.005, "offsetNetworkAttenuation": 0.88, "opAmpGain": 8, "polarizationOffset": 1.584, "amplifyingNetworkImax": 45.9, "amplifyingNetworkVm": 3.3, "amplifyingNetworkPrating": 6, "signals": { "CURRENT_SHUNT_P": [ { "name": "PA7", "help": "1. Remove the heatsink and the thermal interposer to simplify the following two steps\n2. Close the two solder jumpers JP1 and JP2 located on the bottom side of the board in proximity of the\nshunt resistors. Make sure to close both the solder jumpers for their entire length to ensure good electrical\nconnection and to avoid malfunctions.\n3. Disconnect shunt resistors R31, R32, R35 and R36.\n4. Mount again the heatsink with thermal interposer", "cost": 0 } ] } } ] }, { "name": "PhaseVoltageGeneration", "type": "PhaseVoltageGeneration", "driverName": "G4_COMPLEX_LP_DRIVER", "driverPN": "STSPIN32G4", "minDeadTime": 500, "maxSwitchingFreq": 100, "tNoise": 1200, "hwVariants": [ { "type": "PoweringHighAndLowSides", "deadTime": 1000, "help": "", "signals": { "GD_CHU_H": [ { "name": "GHS1", "help": "", "cost": 0 } ], "GD_CHV_H": [ { "name": "GHS2", "help": "", "cost": 0 } ], "GD_CHW_H": [ { "name": "GHS3", "help": "", "cost": 0 } ], "GD_CHU_L": [ { "name": "GLS1", "help": "", "cost": 0 } ], "GD_CHV_L": [ { "name": "GLS2", "help": "", "cost": 0 } ], "GD_CHW_L": [ { "name": "GLS3", "help": "", "cost": 0 } ] } } ] }, { "name": "SpeedAndPositionSensing", "type": "SpeedAndPositionSensing", "hwVariants": [ { "type": "HallEffectSensor", "help": "The solder jumpers R84, R87 and R89 on the bottom side of the board, allow to select the sensors supply voltage (only one solder jumper must be mounted). Refer to the documentation of the board.", "signals": { "HALLSENSOR_H1": [ { "name": "PB6", "help": "", "cost": 0 } ], "HALLSENSOR_H2": [ { "name": "PB7", "help": "", "cost": 0 } ], "HALLSENSOR_H3": [ { "name": "PB8-BOOT0", "help": "", "cost": 0 } ] } }, { "type": "QuadratureEncoderRelative", "help": "In case of high resolution encoders replace R81, R82 and R83 with 330 ohm resistors.\nThe solder jumpers R84, R87 and R89 on the bottom side of the board, allow to select the sensors supply voltage (only one solder jumper must be mounted). Refer to the documentation of the board.", "cost": 10, "signals": { "QENC_A": [ { "name": "PB6", "help": "In case of high resolution encoders, replace R81 with 330 ohm resistor.", "cost": 10 } ], "QENC_B": [ { "name": "PB7", "help": "In case of high resolution encoders, replace R82 with 330 ohm resistor.", "cost": 10 } ] } }, { "type": "QuadratureEncoderAbsolute", "help": "The solder jumpers R84, R87 and R89 on the bottom side of the board, allow to select the sensors supply voltage (only one solder jumper must be mounted). Refer to the documentation of the board.", "cost": 10, "signals": { "QENC_A": [ { "name": "PB6", "help": "In case of high resolution encoders, replace R81 with 330 ohm resistor.", "cost": 10 } ], "QENC_B": [ { "name": "PB7", "help": "In case of high resolution encoders, replace R82 with 330 ohm resistor.", "cost": 10 } ], "QENC_Z": [ { "name": "PA8-BOOT0", "help": "In case of high resolution encoders, replace R83 with 330 ohm resistor.", "cost": 10 } ] } }, { "type": "BEMFSensingADCFixedDivider", "help": "enabled by default", "signals": { "BEMF_U": [ { "name": "PC0", "help": "", "cost": 0 } ], "BEMF_V": [ { "name": "PC1", "help": "", "cost": 0 } ], "BEMF_W": [ { "name": "PC2", "help": "", "cost": 0 } ] }, "dividingNetworkR1": 95000, "dividingNetworkR2": 3900 } ] }, { "name": "VBusSensing", "type": "VBusSensing", "busVoltageDivider": 25, "hwVariants": [ { "type": "VBusSensing", "help": "", "signals": { "VBUS": [ { "name": "PC3", "help": "", "cost": 0 } ] }, "busVoltageDivider": 24, "busVoltageDividerR1": 100, "busVoltageDividerR2": 6.8, "busVoltageDividerR3": null } ] } ] } ], "features": [ { "name": "SerialPortCommunication", "type": "SerialPortCommunication", "hwVariants": [ { "type": "Uart2WiresCommunication", "help": "", "signals": { "UART_TX": [ { "name": "PA9", "help": "", "cost": 0 } ], "UART_RX": [ { "name": "PA10", "help": "", "cost": 0 } ] } } ] } ] }