====== Fault list of DC module ======


^Fault Name ^Trigger Criterion ^System Phenomenon^Screening method^
|Bus overvoltage|Internal bus or external bus voltage > 930V for 10ms\\ OR Internal bus or external bus voltage under the grid-tied > 930V for 2s\\ OR Internal bus or external bus voltage under the grid-tied > 920V for 10s\\ OR Internal bus or external bus voltage under the off-grid > 870V for 2s \\ OR Internal bus or external bus voltage under the off-grid > 860V for 10s |Warning ‘DC bus overvoltage', the DC module is stopped, triggering DC fault record, and automatically clear after the fault is recovered. |The actual battery voltage cannot be higher than the setting of float charge and topping charge voltage; \\ \\ The topping charge voltage setting is much higher than the actual battery voltage|
|Bus undervoltage|Internal bus or external bus voltage < topping charge voltage of the battery -325V for 10ms\\ OR Internal bus or external bus voltage < topping charge voltage of the battery -225V for 50ms\\ OR Internal bus or external bus voltage < topping charge voltage of the battery -65V for 500ms\\ OR Internal bus or external bus voltage < topping charge voltage of the battery -25V for 5s|Warning ‘DC bus undervoltage', the DC module is stopped, triggering DC fault record, and automatically clear after the fault is recovered. |AC startup mode, the Warning disappears automatically after the AC module is turned on, and the Warning is continuously displayed in the shutdown state; \\ DC startup mode, the actual battery voltage is much lower than the topping charge and float charge voltage setting; \\ The AC load power is much larger than the DC module power in the off-grid mode|
|Module current asymmetric|When the total current >50A or the single-phase inductor current >17A, the judgment starts:\\ OR The difference between 3 times of single-phase inductance current and total current > 50A for 10s\\ OR The difference between the single-phase inductance current and the average value of the three-phase inductance current > 50A for 10s|Warning 'DC module current asymmetric', the DC module is stopped, triggering DC fault record, and need to power off or manually clear the fault|Set DC current <50A to run, and see if the three inductor currents are divided equally in the DC details; \\ Single-phase inductor current sampling problem; \\ Single-phase IGBT open circuit|
|Battery overvoltage|The internal or external DC voltage > 890V for 10ms\\ OR Internal DC or external DC voltage in battery mode> maximum topping charge voltage +68V for 100ms\\ OR Internal DC or external DC voltage in battery mode> maximum topping charge voltage +8V for 357ms\\ OR Internal DC or external DC voltage in PV mode > maximum topping charge voltage +118V for 100ms\\ OR Internal DC or external DC voltage in PV mode > maximum topping charge voltage +58V for 357ms\\ OR Internal DC or external DC voltage in DC source mode> maximum topping charge voltage +60V for 100ms\\ OR DC source mode internal DC or external DC voltage > maximum charging voltage for 357ms|Warning ‘DC battery overvoltage', the DC module is stopped, triggering DC fault record, and automatically clear after the fault is recovered. |BMS control battery disconnected during charging; \\ The actual battery voltage is higher than the topping charge and float charge voltage setting; \\ The DC voltage has a large fluctuation in the DC source mode; \\ PV voltage is too high in PV mode|
|Battery undervoltage|The internal DC or external DC voltage in battery mode < Battery EOD voltage for 357ms\\ OR The internal DC or external DC voltage in battery mode < Battery EOD voltage -150V for 100ms\\ OR The internal DC or external DC voltage in PV mode < Battery EOD voltage -50V for 357ms\\ OR The internal DC or external DC voltage in PV mode < Battery EOD voltage -200V for 100ms\\ OR The internal DC or external DC voltage in DC source mode < Given voltage -150V for 357ms\\ OR The internal DC or external DC voltage in DC source mode < Given voltage -300V for 100ms|Warning ‘DC battery undervoltage', the DC module is stopped, triggering DC fault record, and automatically clear after the fault is recovered. |The actual battery voltage is lower than the battery EOD voltage setting; \\ The DC load power is too high or the output voltage fluctuates greatly in the DC source mode. PV low voltage in PV mode|
|Battery undervoltage break trip locked|In the battery mode, if there are 10 times of battery undervoltage occur within 1 hour, or the battery undervoltage continues for 1 hour, then the battery undervoltage Warning is locked and the DC breaker is tripped. |Warning 'DC battery undervoltage', the DC module is stopped, triggering DC fault record, the DC breaker is tripped, and need to power off to clear the fault. |If the actual battery voltage is lower than the battery EOD voltage setting, check why the battery undervoltage occurs repeatedly, or why the battery undervoltage for more than 1 hour; |
|Battery overcurrent|Single-phase inductor current >60A or battery current >180A or power >100K for 20ms\\ OR Battery current >170A or battery current > current limit +25A or power >80K for 2s\\ OR Battery current >160A or battery current > current limit +15A or power >73K for 20s\\ OR Battery current > current limit +5A for 60s|Warning 'DC battery overcurrent', the DC module is stopped, triggering DC fault record, and the fault is automatically cleared after 3 minutes. |AC overloaded under the off-grid; \\ DC load power is too high or DC output is shorted in DC source mode; \\  The IGBT short circuit|
|Battery overcurrent break trip locked|If the battery overcurrent fault occurs three times within one hour, the battery overcurrent Warning will be locked and automatically cleared after 1 hour. |Warning 'DC battery overcurrent', the DC module is stopped, triggering DC fault record, and the fault is automatically cleared after 1 hour. |The same reason as the battery overcurrent|
|Battery not connected|In the battery mode, the battery voltage < 50V for 20ms. |Warning ‘DC battery undervoltage', the DC module is stopped, and automatically clear after the fault is recovered. |Check if the battery is reversed; \\ Whether the battery is not connected|
|24V power fault|The auxiliary power supply 24V appears overvoltage or undervoltage, hardware signal. |Warning ‘DC 24V power fault', the DC module is stopped, and automatically clear after the fault is recovered. |Replace the module|
|15V power fault|The auxiliary power supply 15V appears overvoltage or undervoltage, hardware signal. |Warning ‘DC 15V power fault', the DC module is stopped, and automatically clear after the fault is recovered. |Replace the module|
|Emergency stop|Emergency stop button action, hardware signal|Warning 'DC emergency stop', the DC module is stopped, triggering DC fault record, and need to power off or manually clear the fault. |Manually operate the emergency stop button; \\ Check if the emergency stop button signal is disturbed and is triggered; \\ If there is only a single DC Warning emergency shutdown, it may be the internal hardware problem of the DC|
|Module over temperature|IGBT temperature > 85 degrees for 1s. |Warning 'DC module over temperature', the DC module is stopped, triggering DC fault record, and automatically cleared after the temperature drops for 5 minutes. |The ambient temperature is too high; \\ The rack air duct is blocked and the ventilation is not good; \\ Module fan problem, rack fan problem|
|Module over temperature break trip|IGBT temperature > 90 degrees for 500ms. |Warning 'DC module over temperature', the DC module is stopped, triggering DC fault record, the DC breaker is tripped, and automatically cleared after the temperature drops for 100s. |The ambient temperature is too high; \\ The rack air duct is blocked and the ventilation is not good; \\ Module fan problem, rack fan problem|
|Fan fault|When controlling the fan to start , the fan can't work normally, and the processing fan's fault hardware signal|Warning 'DC fan fault', the DC module is stopped, and need to power off to clear the fault. |Block rotation of module fans or non-rotation of individual fans; \\ Module fan speed is abnormal|
|Battery relay open circuit|When the main relay on the DC side is closed, the internal and external DC voltage difference >20V for 200ms. |Warning 'DC battery relay open circuit', the DC module is stopped, triggering DC fault record, and need to power off to clear the fault. |The DC side main relay is open circuit damaged; \\ The internal and external DC voltages are not calibrated well, and the voltage difference is too large, resulting in false Warnings; \\ There is a large fluctuation in the DC side voltage, resulting in false positives|
|Battery relay short circuit|Both the main relay and the <del>pre-charge</del> pre-charge relay on the DC side are disconnected, and when the internal and external DC voltage >90V, the internal and external DC voltage difference <15V for 80s|Warning 'DC battery relay short circuit', the DC module is stopped, triggering DC fault record, and need to power off to clear the fault. |Adhesion of main relay on DC side; \\ Adhesion of soft-start relay on DC side|
|Bus relay open circuit|When the main relay on the BUS side is closed, the internal and external BUS voltage difference >30V for 200ms. |Warning 'DC bus relay open circuit', the DC module is stopped, triggering DC fault record, and need to power off to clear the fault. |The bus side main relay is open circuit damaged; \\ The internal and external bus voltages are not well calibrated, and the voltage difference is too large, resulting in false Warnings; \\ There is a large fluctuation in the voltage on the bus side, resulting in false Warnings|
|Bus relay short circuit|Both the main relay and the <del>pre-charge</del> pre-charge relay on the BUS side are disconnected, and when the internal and external BUS voltage >120V, the internal and external DC voltage difference <15V for 80s|Warning 'DC bus relay short circuit', the DC module is stopped, triggering DC fault record, and need to power off to clear the fault. |Adhesion of main relay on bus side; \\ Adhesion of <del>pre-charge</del> pre-charge relay on bus side|
|Calibration parameters abnormal|There are analog quantities that are not calibrated|The Warning 'DC calibration parameters abnormal'does not affect the power on, and can be cleared after power-on after calibration.| Eliminate after calibrating analog quantity; | 
|Monitoring setup fault| Monitoring failed to complete the power-on initialization setting parameters| Warning 'DC monitoring setup fault', the DC module is stopped, and the fault is cleared after the monitoring completes the initialization parameter setting. |CANA communication channel is seriously disturbed; \\ CANA bus matching resistor is not equal to 60Ω; \\ The DC does not match the monitoring software version|
|Battery <del>pre-charge</del> pre-charge fault|The internal and external DC voltage difference is inconsistent for 120s when starting from the DC side, and The bus voltage cannot reach the target value for 90s when starting from the DC side. \\ OR The internal and external DC voltage difference is inconsistent for 120s when starting from the BUS side|Warning 'DC battery <del>pre-charge</del> pre-charge fault', the DC module is stopped, triggering DC fault record, and need to power off to clear the fault. |DC side <del>pre-charge</del> pre-charge relay open circuit damage; \\ The <del>pre-charge</del> pre-charge resistor of DC side is damaged; \\ IGBT open circuit or auxiliary power supply problems|
|Bus <del>pre-charge</del> pre-charge fault|The internal and external DC voltage difference is inconsistent for 120s when starting from the BUS side\\ OR Bus <del>pre-charge</del> pre-charge relay is closed when starting from the DC side, the external bus voltage <120V for 3s|Warning 'DC bus <del>pre-charge</del> pre-charge fault', the DC module is stopped, triggering DC fault record, and need to power off to clear the fault. |Open circuit damage of <del>pre-charge</del> pre-charge relay on bus side; \\ <del>pre-charge</del> Pre-charge resistor on bus side is damaged|
|CANA communication fault|Unable to communicate with monitor successfully, unable to receive monitor life frame for 10s|Warning 'DC CAN A communication fault', the DC module is stopped, and it is automatically cleared after successful communication with the monitor. |CAN A communication channel is seriously disturbed; \\ CAN A bus matching resistor is not equal to 60Ω; \\ The DC does not match the monitoring software version|
|CANB communication fault|The number of CAN A online is not equal to the number of CAN B online for 8s. |Warning 'DC CAN B communication fault', the DC module is stopped, and it is automatically cleared after successful communication with other modules. |CAN B communication channel is seriously disturbed; \\ CAN B bus matching resistor is not equal to 60Ω; \\ The DC does not match the monitoring software version|
|U2 communication fault 1|CAN A cannot communicate with U2 board for 1min|Warning 'DC U2 communication fault 1' does not affect the booting, and it is automatically cleared after successful communication with U2 board. |CAN A communication channel is seriously disturbed; \\ CAN A bus matching resistor is not equal to 60Ω; \\ The DC does not match the monitoring software version; \\ U2 board has no burning program or U2CAN A damage|
|DSP version fault|Error reading Bootloader version|Warning 'DC DSP version fault', the DC module is stopped, and the fault is cleared after re-burning the program. |Bootloader burning error; \\ Bootloader and DC software version do not match|
|CPLD version fault|Error reading CPLD version|Warning 'DC CPLD version fault', the DC module is stopped, and the fault is cleared after re-burning the program. |CPLD burning error; \\ CPLD and DC software version do not match|
|Subsystem conflict fault|If the float charge voltage setting is higher than the topping charge voltage, the fault will occur\\ OR If the topping charge voltage setting is higher than the allowable range of the model, the fault will occur.\\In the photovoltaic bus mode, if the DC access type is set to non-battery, the fault will occur. |Warning 'DC subsystem conflict fault', the DC module is stopped, and the fault is cleared after the setting is correct. |The topping charge and float charge voltage settings are incorrect; \\ The microgrid type setting does not match the DC access type|
|Microgrid photovoltaic energy is low|When the actual voltage of the battery branch < the battery EOD voltage +5V or 20V (the grid-tied is separated from the off-grid), the battery branch will stop and give an Warning after the photovoltaic enters the dormant state. |Warning 'DC photovoltaic battery low energy', the DC module is stopped, triggering DC fault record, and the fault is automatically cleared after the PV wakes up. |Check whether the actual battery voltage is too close to the EOD voltage; \\ Whether the pv is not power on|
|Microgrid battery has low energy|When the actual voltage of the battery branch <the battery EOD voltage +5V or 20V (the grid-tied is separated from the off-grid), the DC source branch will shutdown and give an Warning. |Warning 'DC micro-grid battery energy is low', the DC module is stopped, triggering DC fault record, and the battery voltage rises to EOD+(Vtopping charge-Veod)/2 or more after the battery branch is running, the fault is automatically cleared. |Check whether the actual battery voltage is too close to the EOD voltage; \\ The battery should be charged at low voltage and no discharge is allowed|
|Same module number fault|Within the same frame, the DC module has the same number|Warning 'DC same module number fault', the DC module is stopped, and the fault is cleared after the duplicate is corrected and then re-powered. |Check whether the DC module has duplicate numbers in the same frame|