JAJSMF5B september 2022 – june 2023 TPS25990
PRODUCTION DATA
Table 8-2 summarizes the device response to various fault conditions.
Event or Condition | Device Response | Fault Latched Internally | FLT Pin Status | Pin Indication Masking Option | Delay |
---|---|---|---|---|---|
Steady-state | None | N/A | H | N/A | |
Inrush | None | N/A | H | N/A | |
Overtemperature | Shutdown | Y | L | Y | |
Undervoltage (EN/UVLO) | Shutdown | N | H | N/A | |
Undervoltage (VDD UVP) | Shutdown | N | H | N/A | |
Undervoltage (VIN UVP) | Shutdown | N | H | N/A | |
Overvoltage (VIN OVP) | Shutdown | N | H | N/A | |
Transient overcurrent | None | N | H | N/A | |
Persistent overcurrent (steady-state) | Circuit-Breaker | Y | L | Y | tITIMER |
Persistent overcurrent (start-up) | Current Limit | N | H | N/A | |
Output short-circuit | Fast-trip | Y | L | Y | tFT |
Output short-circuit (Fast recovery configuration) | Fast-trip followed by current limited Start-up | N | H | N/A | |
ILIM pin open (start-up) | Shutdown | Y | L | Y | |
ILIM pin short (start-up) | Shutdown (if IOUT > IOC_BKP) | Y | L | Y | |
ILIM pin open (steady-state) | Active current sharing loop always active | N | H | N/A | |
ILIM pin short (steady-state) | Active current sharing loop disabled | N | H | N/A | |
IMON pin open (steady-state) | Shutdown | Y | L | Y | |
IMON pin short (steady-state) | Shutdown (If IOUT > IOC_BKP) | Y | L | Y | 45 μs |
IREF pin open (start-up) | Shutdown (If IOUT > IOC_BKP) | Y | L | Y | |
IREF pin open (steady-state) | Shutdown (if IOUT > IOC_BKP) | Y | L | Y | tITIMER |
IREF pin short (steady-state) | Shutdown | Y | L | Y | |
IREF pin short (start-up) | Shutdown | Y | L | Y | |
Start-up timeout | Shutdown | Y | L | N | tSU_TMR |
FET health fault (G-S) | Shutdown | Y | L | Y | 10 μs |
FET health fault (G-D) | Shutdown | Y | L | Y | |
FET health fault (D-S) | Shutdown | N | L | Y | tSU_TMR |
External fault (SWEN pulled low externally while device is not in UV or OV) | Shutdown | Y | L | Y | |
Comparator-1 fault | Configurable through DEVICE_CONFIG register | Y | L | Y | |
Comparator-2 fault | Configurable through DEVICE_CONFIG register | Y | L | Y |
GPIO2 pin is configured as FLT by default to provide an active low fault indication. FLT is an open-drain pin and must be pulled up to an external supply. Refer to GPIO_CONFIG_12 register for more details and configuration options.
The device response after a fault varies based on the RETRY_CONFIG register setting. The device latches a fault as per the table above and thereafter follows an auto-retry or latch-off response. For auto-retry configuration, the latched faults also trigger the start of the Auto-Retry Timer, while keeping the FLT pin pulled low. On expiry of the timer period (tRETRY), the FLT pin pull-down is released and the device is ready to restart automatically. When the device turns on again, it follows the usual DVDT limited start-up sequence.
The only exception to this is during Short-circuit fault when the device is configured for fast recovery using the SC_RETRY bit in the DEVICE_CONFIG register. In this case, the device turns off quickly and then automatically turns back on in a current limited manner. This allows the system to try and recover quickly from any transient faults. See Short-Circuit Protection section for more details.
For faults that are latched internally, power cycling the part or pulling the EN/UVLO pin voltage below VSD(F) clears the fault and the FLT pin is de-asserted. This action also clears the Auto-retry timer. Pulling the EN/UVLO just below the UVLO threshold has no impact on the device in this condition. This is true in case of latch-off and auto-retry configurations.
In a parallel eFuse configuration involving TPS25990 and TPS25985x, the fault response is determined by the TPS25990 as the primary device. However, if the primary device fails to register a fault, there is a fail-safe mechanism in the secondary device to take control and turn off the entire chain by pulling the SWEN pin low and enter a latch-off condition. Thereafter, the device can be turned on again only by power cycling VDD below VUVP(F) or by cycling EN/UVLO pin below VSD(F).