JAJSOH5D November 2022 – November 2023 TPS389C03-Q1
PRODUCTION DATA
Table 8-26 lists the memory-mapped registers for the BANK1 registers. All register offset addresses not listed in Table 8-26 should be considered as reserved locations and the register contents should not be modified.
| Offset | Acronym | Register Name | Section |
|---|---|---|---|
| 10h | VMON_CTL | VMON device control register. | Go |
| 11h | VMON_MISC | Miscellaneous VMON configurations. | Go |
| 12h | TEST_CFG | Built-In Self Test (BIST) execution configuration. | Go |
| 13h | IEN_UVHF | High Frequency channel Under-Voltage Interrupt Enable register | Go |
| 14h | IEN_UVLF | Low Frequency channel Under-Voltage Interrupt Enable register. | Go |
| 15h | IEN_OVHF | High Frequency channel Over-Voltage Interrupt Enable register. | Go |
| 16h | IEN_OVLF | Low Frequency channel Over-Voltage Interrupt Enable register. | Go |
| 1Bh | IEN_CONTROL | Control and Communication Fault Interrupt Enable register. | Go |
| 1Ch | IEN_TEST | Internal Test and Configuration Load Fault Interrupt Enable register | Go |
| 1Dh | IEN_VENDOR | Vendor Specific Internal Interrupt Enable register. | Go |
| 1Eh | MON_CH_EN | Channel Voltage Monitoring Enable. | Go |
| 1Fh | VRANGE_MULT | Channel Voltage Monitoring Range/Scaling. | Go |
| 30h | UV_HF[2] | Channel 2 High Frequency channel Under-Voltage threshold. | Go |
| 31h | OV_HF[2] | Channel 2 High Frequency channel Over-Voltage threshold. | Go |
| 32h | UV_LF[2] | Channel 2 Low Frequency channel Under-Voltage threshold. | Go |
| 33h | OV_LF[2] | Channel 2 Low Frequency channel Over-Voltage threshold. | Go |
| 34h | FLT_HF[2] | Channel 2 UV and OV debouncing for High Frequency thresholds comparator output. | Go |
| 35h | FC_LF[2] | Channel 2 Low Frequency Path G(s) Cutoff Frequency (-3 dB point). The register changes the filter properties of the programmable LPF such that the total frequency response G(s) meets these cutoff frequencies. | Go |
| 40h | UV_HF[3] | Channel 3 High Frequency channel Under-Voltage threshold. | Go |
| 41h | OV_HF[3] | Channel 3 High Frequency channel Over-Voltage threshold. | Go |
| 42h | UV_LF[3] | Channel 3 Low Frequency channel Under-Voltage threshold. | Go |
| 43h | OV_LF[3] | Channel 3 Low Frequency channel Over-Voltage threshold. | Go |
| 44h | FLT_HF[3] | Channel 3 UV and OV debouncing for High Frequency thresholds comparator output. | Go |
| 45h | FC_LF[3] | Channel 3 Low Frequency Path G(s) Cutoff Frequency (-3 dB point). The register changes the filter properties of the programmable LPF such that the total frequency response G(s) meets these cutoff frequencies. | Go |
| 50h | UV_HF[4] | Channel 4 High Frequency channel Under-Voltage threshold. | Go |
| 51h | OV_HF[4] | Channel 4 High Frequency channel Over-Voltage threshold. | Go |
| 52h | UV_LF[4] | Channel 4 Low Frequency channel Under-Voltage threshold. | Go |
| 53h | OV_LF[4] | Channel 4 Low Frequency channel Over-Voltage threshold. | Go |
| 54h | FLT_HF[4] | Channel 4 UV and OV debouncing for High Frequency thresholds comparator output. | Go |
| 55h | FC_LF[4] | Channel 4 Low Frequency Path G(s) Cutoff Frequency (-3 dB point). The register changes the filter properties of the programmable LPF such that the total frequency response G(s) meets these cutoff frequencies. | Go |
| 9Eh | ESM | ESM threshold time for asserting a fault. | Go |
| 9Fh | TI_CONTROL | Manual BIST/WD EN/Manual Reset via I2C/ESM deglitch/Reset delay | Go |
| A1h | AMSK_ON | Auto-mask UVLF, UVHF, and OVHF interrupts on power up transitions. | Go |
| A2h | AMSK_OFF | Auto-mask UVLF, UVHF, and OVHF interrupts on power down transitions. | Go |
| A5h | SEQ_TOUT_MSB | Timeout for UV faults during powerup and power down. | Go |
| A6h | SEQ_TOUT_LSB | Timeout for UV faults during powerup and power down. | Go |
| A8h | SEQ_UP_THLD | Threshold at which AMSK is released (VMON considered on) for power up. | Go |
| A9h | SEQ_DN_THLD | Threshold at which AMSK is released (VMON considered off) for power down. | Go |
| AAh | WDT_CFG | Max violation count for WD and Delay multiplier for Start Up Window. | Go |
| ABh | WDT_CLOSE | Close Window Time. | Go |
| ACh | WDT_OPEN | Open Window Time. | Go |
| ADh | WDT_QA_CFG | Feedback/Poly/Seed for Watchdog. | Go |
| AEh | WDT_ANSWER | Answer for the Watchdog. | Go |
| F0h | BANK_SEL | Bank Select. | Go |
Complex bit access types are encoded to fit into small table cells. Table 8-27 shows the codes that are used for access types in this section.
| Access Type | Code | Description |
|---|---|---|
| Read Type | ||
| R | R | Read |
| Write Type | ||
| W | W | Write |
| Reset or Default Value | ||
| -n | Value after reset or the default value | |
VMON_CTL is shown in Table 8-28.
Return to the Summary Table.
VMON device control register.
| Bit | Field | Type | Default | Description |
|---|---|---|---|---|
| 7-5 | RSVD | R/W | 1h | RSVD |
| 4 | FORCE_WDO_LOW | R/W | 0h | Force assertion of WDO |
| 3 | RESET_PROT | R/W | 0h | Reset_Prot = read 0, write 1 to clear Protection registers |
| 2-1 | RSVD | R/W | 0h | RSVD |
| 0 | FORCE_NIRQ_LOW | R/W | 0h | Force assertion of NIRQ |
VMON_MISC is shown in Table 8-29.
Return to the Summary Table.
Miscellaneous VMON configurations.
| Bit | Field | Type | Default | Description |
|---|---|---|---|---|
| 7 | RSVD | R/W | X | RSVD |
| 6-4 | WDO_DLY[2:0] | R/W | X | WDO_Delay (not applicable for latched WDO) |
| 3-2 | RSVD | R/W | X | RSVD |
| 1 | REQ_PEC | R/W | X | Require PEC. 0 = PEC not required 1 = PEC required |
| 0 | EN_PEC | R/W | X | Enable PEC. 0 = PEC not enabled 1 = PEC enabled |
TEST_CFG is shown in Table 8-30.
Return to the Summary Table.
Built-In Self Test (BIST) execution configuration.
| Bit | Field | Type | Default | Description |
|---|---|---|---|---|
| 7-3 | RSVD | R/W | X | RSVD |
| 2 | AT_SHDN | R/W | X | Run BIST at SHDN |
| 1 | AT_POR[1] | R/W | X | Run BIST at POR, 2nd bit for redundancy |
| 0 | AT_POR[0] | R/W | X | Run BIST at POR |
IEN_UVHF is shown in Table 8-31.
Return to the Summary Table.
High Frequency channel Under-Voltage Interrupt Enable register
| Bit | Field | Type | Default | Description |
|---|---|---|---|---|
| 7-4 | RSVD | R/W | X | RSVD |
| 3 | MON[4] | R/W | X | enabling uvhf for channel 4, Disable=0, Enable=1 |
| 2 | MON[3] | R/W | X | enabling uvhf for channel 3, Disable=0, Enable=1 |
| 1 | MON[2] | R/W | X | enabling uvhf for channel 2, Disable=0, Enable=1 |
| 0 | RSVD | R/W | X | RSVD |
IEN_UVLF is shown in Table 8-32.
Return to the Summary Table.
Low Frequency channel Under-Voltage Interrupt Enable register.
| Bit | Field | Type | Default | Description |
|---|---|---|---|---|
| 7-4 | RSVD | R/W | X | RSVD |
| 3 | MON[4] | R/W | X | enabling uvlf for channel 4, Disable=0, Enable=1 |
| 2 | MON[3] | R/W | X | enabling uvlf for channel 3, Disable=0, Enable=1 |
| 1 | MON[2] | R/W | X | enabling uvlf for channel 2, Disable=0, Enable=1 |
| 0 | RSVD | R/W | X | RSVD |
IEN_OVHF is shown in Table 8-33.
Return to the Summary Table.
High Frequency channel Over-Voltage Interrupt Enable register.
| Bit | Field | Type | Default | Description |
|---|---|---|---|---|
| 7-4 | RSVD | R/W | X | RSVD |
| 3 | MON[4] | R/W | X | enabling ovhf for channel 4, Disable=0, Enable=1 |
| 2 | MON[3] | R/W | X | enabling ovhf for channel 3, Disable=0, Enable=1 |
| 1 | MON[2] | R/W | X | enabling ovhf for channel 2, Disable=0, Enable=1 |
| 0 | RSVD | R/W | X | RSVD |
IEN_OVLF is shown in Table 8-34.
Return to the Summary Table.
Low Frequency channel Over-Voltage Interrupt Enable register.
| Bit | Field | Type | Default | Description |
|---|---|---|---|---|
| 7-4 | RSVD | R/W | X | RSVD |
| 3 | MON[4] | R/W | X | enabling ovlf for channel 4, Disable=0, Enable=1 |
| 2 | MON[3] | R/W | X | enabling ovlf for channel 3, Disable=0, Enable=1 |
| 1 | MON[2] | R/W | X | enabling ovlf for channel 2, Disable=0, Enable=1 |
| 0 | RSVD | R/W | X | RSVD |
IEN_CONTROL is shown in Table 8-35.
Return to the Summary Table.
Control and Communication Fault Interrupt Enable register.
| Bit | Field | Type | Default | Description |
|---|---|---|---|---|
| 7-5 | RSVD | R/W | X | RSVD |
| 4 | RT_CRC_Int | R/W | X | Register Run time CRC error Interrupt. Disable=0, Enable = 1 |
| 3 | RSVD | R/W | X | RSVD |
| 2 | TSD_INT | R/W | X | Thermal shutdown Interrupt. Disable=0, Enable = 1 |
| 1 | RSVD | R/W | X | RSVD |
| 0 | PEC_INT | R/W | X | PEC Error Interrupt. Disable=0, Enable = 1 |
IEN_TEST is shown in Table 8-36.
Return to the Summary Table.
Internal Test and Configuration Load Fault Interrupt Enable register
| Bit | Field | Type | Default | Description |
|---|---|---|---|---|
| 7-4 | RSVD | R/W | X | RSVD |
| 3 | ECC_SEC | R/W | X | SEC Error Interrupt. Disable=0, Enable = 1 |
| 2 | RSVD | R/W | X | RSVD |
| 1 | BIST_Complete_INT | R/W | X | BIST complete Interrupt. Disable=0, Enable = 1 |
| 0 | BIST_Fail_INT | R/W | X | BIST Fail Interrupt. Disable=0, Enable = 1 |
IEN_VENDOR is shown in Table 8-37.
Return to the Summary Table.
Vendor Specific Internal Interrupt Enable register.
| Bit | Field | Type | Default | Description |
|---|---|---|---|---|
| 7-6 | RSVD | R/W | X | RSVD |
| 5 | NRST_MISMATCH | R/W | X | NRST mismatch Interrupt. Disable=0, Enable = 1 |
| 4 | ESM_TO_WDO | R/W | X | Maps ESM fault to WDO. Not mapped=0 Mapped = 1 |
| 3 | ESM_TO_NIRQ | R/W | X | Maps ESM fault to NIRQ. Not mapped=0 Mapped = 1 |
| 2 | WDT_TO_NIRQ | R/W | X | Maps Watchdog fault to NIRQ. Not mapped=0 Mapped = 1 |
| 1 | ESM_TO_NRST | R/W | X | Maps ESM fault to NRST. Not mapped=0 Mapped = 1 |
| 0 | WDT_TO_NRST | R/W | X | Maps Watchdog fault to NRST. Not mapped=0 Mapped = 1 |
MON_CH_EN is shown in Table 8-38.
Return to the Summary Table.
Channel Voltage Monitoring Enable.
| Bit | Field | Type | Default | Description |
|---|---|---|---|---|
| 7-4 | RSVD | R/W | X | RSVD |
| 3 | MON[4] | R/W | X | Enables channel 4 monitoring. Enabled = 1, Disabled = 0 |
| 2 | MON[3] | R/W | X | Enables channel 3 monitoring. Enabled = 1, Disabled = 0 |
| 1 | MON[2] | R/W | X | Enables channel 2 monitoring. Enabled = 1, Disabled = 0 |
| 0 | RSVD | R/W | X | RSVD |
VRANGE_MULT is shown in Table 8-39.
Return to the Summary Table.
Channel Voltage Monitoring Range/Scaling.
| Bit | Field | Type | Default | Description |
|---|---|---|---|---|
| 7-4 | RSVD | R/W | X | RSVD |
| 3 | MON[4] | R/W | X | Scalar for MON_4. 1x =0, 4x = 1 |
| 2 | MON[3] | R/W | X | Scalar for MON_3. 1x =0, 4x = 1 |
| 1 | MON[2] | R/W | X | Scalar for MON_2. 1x =0, 4x = 1 |
| 0 | RSVD | R/W | X | RSVD |
UV_HF[2] is shown in Table 8-40.
Return to the Summary Table.
Channel 2 High Frequency channel Under-Voltage threshold.
| Bit | Field | Type | Default | Description |
|---|---|---|---|---|
| 7-0 | THRESHOLD[7:0] | R/W | X | Undervoltage threshold for High Frequency component of monitored channel. The 8-bit value interpretation depends on the scaling setting in register VRANGE_MULT. With scaling = 1x, the 8-bit value represents the range 0.2 V to 1.475 V with 1 LSB = 5 mV. With scaling = 4x, the 8-bit value represents the range 0.8 Vto 5.9 V with 1 LSB = 20 mV. |
OV_HF[2] is shown in Table 8-41.
Return to the Summary Table.
Channel 2 High Frequency channel Over-Voltage threshold.
| Bit | Field | Type | Default | Description |
|---|---|---|---|---|
| 7-0 | THRESHOLD[7:0] | R/W | X | Overvoltage threshold for High Frequency component of monitored channel. The 8-bit value interpretation depends on the scaling setting in register VRANGE_MULT. With scaling = 1x, the 8-bit value represents the range 0.2 V to 1.475 V with 1 LSB = 5 mV. With scaling = 4x, the 8-bit value represents the range 0.8 Vto 5.9 V with 1 LSB = 20 mV. |
UV_LF[2] is shown in Table 8-42.
Return to the Summary Table.
Channel 2 Low Frequency channel Under-Voltage threshold.
| Bit | Field | Type | Default | Description |
|---|---|---|---|---|
| 7-0 | THRESHOLD[7:0] | R/W | X | Undervoltage threshold for Low Frequency component of monitored channel. The 8-bit value interpretation depends on the scaling setting in register VRANGE_MULT. With scaling = 1x, the 8-bit value represents the range 0.2 V to 1.475 V with 1 LSB = 5 mV. With scaling = 4x, the 8-bit value represents the range 0.8 Vto 5.9 V with 1 LSB = 20 mV. |
OV_LF[2] is shown in Table 8-43.
Return to the Summary Table.
Channel 2 Low Frequency channel Over-Voltage threshold.
| Bit | Field | Type | Default | Description |
|---|---|---|---|---|
| 7-0 | THRESHOLD[7:0] | R/W | X | Overvoltage threshold for Low Frequency component of monitored channel. The 8-bit value interpretation depends on the scaling setting in register VRANGE_MULT. With scaling = 1x, the 8-bit value represents the range 0.2 V to 1.475 V with 1 LSB = 5 mV. With scaling = 4x, the 8-bit value represents the range 0.8 Vto 5.9 V with 1 LSB = 20 mV. |
FLT_HF[2] is shown in Table 8-44.
Return to the Summary Table.
Channel 2 UV and OV debouncing for High Frequency thresholds comparator output.
| Bit | Field | Type | Default | Description |
|---|---|---|---|---|
| 7-4 | OV_DEB[3:0] | R/W | X | Overvoltage comparator output debounce time (dont assert until output is stable for debounce time) for High Frequency monitoring path. 0000b = 0.1 µs 1000b = 25.6 µs 0001b = 0.2 µs 1001b = 51.2 µs 0010b = 0.4 µs 1010b = 102.4 µs 0011b = 0.8 µs 1011b = 102.4 µs 0100b = 1.6 µs 1100b = 102.4 µs 0101b = 3.2 µs 1101b = 102.4 µs 0110b = 6.4 µs 1110b = 102.4 µs 0111b = 12.8 µs 1111b = 102.4 µs |
| 3-0 | UV_DEB[3:0] | R/W | X | Undervoltage comparator output debounce time (dont assert until output is stable for debounce time) for High Frequency monitoring path. 0000b = 0.1 µs 1000b = 25.6 µs 0001b = 0.2 µs 1001b = 51.2 µs 0010b = 0.4 µs 1010b = 102.4 µs 0011b = 0.8 µs 1011b = 102.4 µs 0100b = 1.6 µs 1100b = 102.4 µs 0101b = 3.2 µs 1101b = 102.4 µs 0110b = 6.4 µs 1110b = 102.4 µs 0111b = 12.8 µs 1111b = 102.4 µs |
FC_LF[2] is shown in Table 8-45.
Return to the Summary Table.
Channel 2 Low Frequency Path G(s) Cutoff Frequency (-3 dB point). The register changes the filter properties of the programmable LPF such that the total frequency response G(s) meets these cutoff frequencies.
| Bit | Field | Type | Default | Description |
|---|---|---|---|---|
| 7-5 | RSVD | R/W | X | RSVD |
| 4 | ovhf_to_nrst | R/W | X | Maps Channel 2 ovhf fault to NRST Not mapped = 0, Mapped = 1 |
| 3 | uvhf_to_nrst | R/W | X | Maps Channel 2 uvhf fault to NRST Not mapped = 0, Mapped = 1 |
| 2-0 | Cut_off_Freq[2:0] | R/W | X | Channel 2 Cut of frequency for LF faults filter 000 =Invalid 001 =Invalid 010 =250Hz 011 = 500Hz 100 = 1kHz 101 = 2kHz 110 =4kHz 111 = Invalid |
UV_HF[3] is shown in Table 8-46.
Return to the Summary Table.
Channel 3 High Frequency channel Under-Voltage threshold.
| Bit | Field | Type | Default | Description |
|---|---|---|---|---|
| 7-0 | THRESHOLD[7:0] | R/W | X | Undervoltage threshold for High Frequency component of monitored channel. The 8-bit value interpretation depends on the scaling setting in register VRANGE_MULT. With scaling = 1x, the 8-bit value represents the range 0.2 V to 1.475 V with 1 LSB = 5 mV. With scaling = 4x, the 8-bit value represents the range 0.8 Vto 5.9 V with 1 LSB = 20 mV. |
OV_HF[3] is shown in Table 8-47.
Return to the Summary Table.
Channel 3 High Frequency channel Over-Voltage threshold.
| Bit | Field | Type | Default | Description |
|---|---|---|---|---|
| 7-0 | THRESHOLD[7:0] | R/W | X | Overvoltage threshold for High Frequency component of monitored channel. The 8-bit value interpretation depends on the scaling setting in register VRANGE_MULT. With scaling = 1x, the 8-bit value represents the range 0.2 V to 1.475 V with 1 LSB = 5 mV. With scaling = 4x, the 8-bit value represents the range 0.8 Vto 5.9 V with 1 LSB = 20 mV. |
UV_LF[3] is shown in Table 8-48.
Return to the Summary Table.
Channel 3 Low Frequency channel Under-Voltage threshold.
| Bit | Field | Type | Default | Description |
|---|---|---|---|---|
| 7-0 | THRESHOLD[7:0] | R/W | X | Undervoltage threshold for Low Frequency component of monitored channel. The 8-bit value interpretation depends on the scaling setting in register VRANGE_MULT. With scaling = 1x, the 8-bit value represents the range 0.2 V to 1.475 V with 1 LSB = 5 mV. With scaling = 4x, the 8-bit value represents the range 0.8 Vto 5.9 V with 1 LSB = 20 mV. |
OV_LF[3] is shown in Table 8-49.
Return to the Summary Table.
Channel 3 Low Frequency channel Over-Voltage threshold.
| Bit | Field | Type | Default | Description |
|---|---|---|---|---|
| 7-0 | THRESHOLD[7:0] | R/W | X | Overvoltage threshold for Low Frequency component of monitored channel. The 8-bit value interpretation depends on the scaling setting in register VRANGE_MULT. With scaling = 1x, the 8-bit value represents the range 0.2 V to 1.475 V with 1 LSB = 5 mV. With scaling = 4x, the 8-bit value represents the range 0.8 Vto 5.9 V with 1 LSB = 20 mV. |
FLT_HF[3] is shown in Table 8-50.
Return to the Summary Table.
Channel 3 UV and OV debouncing for High Frequency thresholds comparator output.
| Bit | Field | Type | Default | Description |
|---|---|---|---|---|
| 7-4 | OV_DEB[3:0] | R/W | X | Overvoltage comparator output debounce time (dont assert until output is stable for debounce time) for High Frequency monitoring path. 0000b = 0.1 µs 1000b = 25.6 µs 0001b = 0.2 µs 1001b = 51.2 µs 0010b = 0.4 µs 1010b = 102.4 µs 0011b = 0.8 µs 1011b = 102.4 µs 0100b = 1.6 µs 1100b = 102.4 µs 0101b = 3.2 µs 1101b = 102.4 µs 0110b = 6.4 µs 1110b = 102.4 µs 0111b = 12.8 µs 1111b = 102.4 µs |
| 3-0 | UV_DEB[3:0] | R/W | X | Undervoltage comparator output debounce time (dont assert until output is stable for debounce time) for High Frequency monitoring path. 0000b = 0.1 µs 1000b = 25.6 µs 0001b = 0.2 µs 1001b = 51.2 µs 0010b = 0.4 µs 1010b = 102.4 µs 0011b = 0.8 µs 1011b = 102.4 µs 0100b = 1.6 µs 1100b = 102.4 µs 0101b = 3.2 µs 1101b = 102.4 µs 0110b = 6.4 µs 1110b = 102.4 µs 0111b = 12.8 µs 1111b = 102.4 µs |
FC_LF[3] is shown in Table 8-51.
Return to the Summary Table.
Channel 3 Low Frequency Path G(s) Cutoff Frequency (-3 dB point). The register changes the filter properties of the programmable LPF such that the total frequency response G(s) meets these cutoff frequencies.
| Bit | Field | Type | Default | Description |
|---|---|---|---|---|
| 7-5 | RSVD | R/W | X | RSVD |
| 4 | ovhf_to_nrst | R/W | X | Maps Channel 3 ovhf fault to NRST Not mapped = 0, Mapped = 1 |
| 3 | uvhf_to_nrst | R/W | X | Maps Channel 3 uvhf fault to NRST Not mapped = 0, Mapped = 1 |
| 2-0 | Cut_off_Freq[2:0] | R/W | X | Channel 3 Cut of frequency for LF faults filter 000 =Invalid 001 =Invalid 010 =250Hz 011 = 500Hz 100 = 1kHz 101 = 2kHz 110 =4kHz 111 = Invalid |
UV_HF[4] is shown in Table 8-52.
Return to the Summary Table.
Channel 4 High Frequency channel Under-Voltage threshold.
| Bit | Field | Type | Default | Description |
|---|---|---|---|---|
| 7-0 | THRESHOLD[7:0] | R/W | X | Undervoltage threshold for High Frequency component of monitored channel. The 8-bit value interpretation depends on the scaling setting in register VRANGE_MULT. With scaling = 1x, the 8-bit value represents the range 0.2 V to 1.475 V with 1 LSB = 5 mV. With scaling = 4x, the 8-bit value represents the range 0.8 Vto 5.9 V with 1 LSB = 20 mV. |
OV_HF[4] is shown in Table 8-53.
Return to the Summary Table.
Channel 4 High Frequency channel Over-Voltage threshold.
| Bit | Field | Type | Default | Description |
|---|---|---|---|---|
| 7-0 | THRESHOLD[7:0] | R/W | X | Overvoltage threshold for High Frequency component of monitored channel. The 8-bit value interpretation depends on the scaling setting in register VRANGE_MULT. With scaling = 1x, the 8-bit value represents the range 0.2 V to 1.475 V with 1 LSB = 5 mV. With scaling = 4x, the 8-bit value represents the range 0.8 Vto 5.9 V with 1 LSB = 20 mV. |
UV_LF[4] is shown in Table 8-54.
Return to the Summary Table.
Channel 4 Low Frequency channel Under-Voltage threshold.
| Bit | Field | Type | Default | Description |
|---|---|---|---|---|
| 7-0 | THRESHOLD[7:0] | R/W | X | Undervoltage threshold for Low Frequency component of monitored channel. The 8-bit value interpretation depends on the scaling setting in register VRANGE_MULT. With scaling = 1x, the 8-bit value represents the range 0.2 V to 1.475 V with 1 LSB = 5 mV. With scaling = 4x, the 8-bit value represents the range 0.8 Vto 5.9 V with 1 LSB = 20 mV. |
OV_LF[4] is shown in Table 8-55.
Return to the Summary Table.
Channel 4 Low Frequency channel Over-Voltage threshold.
| Bit | Field | Type | Default | Description |
|---|---|---|---|---|
| 7-0 | THRESHOLD[7:0] | R/W | X | Overvoltage threshold for Low Frequency component of monitored channel. The 8-bit value interpretation depends on the scaling setting in register VRANGE_MULT. With scaling = 1x, the 8-bit value represents the range 0.2 V to 1.475 V with 1 LSB = 5 mV. With scaling = 4x, the 8-bit value represents the range 0.8 Vto 5.9 V with 1 LSB = 20 mV. |
FLT_HF[4] is shown in Table 8-56.
Return to the Summary Table.
Channel 4 UV and OV debouncing for High Frequency thresholds comparator output.
| Bit | Field | Type | Default | Description |
|---|---|---|---|---|
| 7-4 | OV_DEB[3:0] | R/W | X | Overvoltage comparator output debounce time (dont assert until output is stable for debounce time) for High Frequency monitoring path. 0000b = 0.1 µs 1000b = 25.6 µs 0001b = 0.2 µs 1001b = 51.2 µs 0010b = 0.4 µs 1010b = 102.4 µs 0011b = 0.8 µs 1011b = 102.4 µs 0100b = 1.6 µs 1100b = 102.4 µs 0101b = 3.2 µs 1101b = 102.4 µs 0110b = 6.4 µs 1110b = 102.4 µs 0111b = 12.8 µs 1111b = 102.4 µs |
| 3-0 | UV_DEB[3:0] | R/W | X | Undervoltage comparator output debounce time (dont assert until output is stable for debounce time) for High Frequency monitoring path. 0000b = 0.1 µs 1000b = 25.6 µs 0001b = 0.2 µs 1001b = 51.2 µs 0010b = 0.4 µs 1010b = 102.4 µs 0011b = 0.8 µs 1011b = 102.4 µs 0100b = 1.6 µs 1100b = 102.4 µs 0101b = 3.2 µs 1101b = 102.4 µs 0110b = 6.4 µs 1110b = 102.4 µs 0111b = 12.8 µs 1111b = 102.4 µs |
FC_LF[4] is shown in Table 8-57.
Return to the Summary Table.
Channel 4 Low Frequency Path G(s) Cutoff Frequency (-3 dB point). The register changes the filter properties of the programmable LPF such that the total frequency response G(s) meets these cutoff frequencies.
| Bit | Field | Type | Default | Description |
|---|---|---|---|---|
| 7-5 | RSVD | R/W | X | RSVD |
| 4 | ovhf_to_nrst | R/W | X | Maps Channel 4 ovhf fault to NRST Not mapped = 0, Mapped = 1 |
| 3 | uvhf_to_nrst | R/W | X | Maps Channel 4 uvhf fault to NRST Not mapped = 0, Mapped = 1 |
| 2-0 | Cut_off_Freq[2:0] | R/W | X | Channel 4 Cut of frequency for LF faults filter 000 =Invalid 001 =Invalid 010 =250Hz 011 = 500Hz 100 = 1kHz 101 = 2kHz 110 =4kHz 111 = Invalid |
ESM is shown in Table 8-58.
Return to the Summary Table.
ESM threshold time for asserting a fault.
| Bit | Field | Type | Default | Description |
|---|---|---|---|---|
| 7-0 | THRESHOLD[7:0] | R/W | X | Threshold value representing the ESM delay time (1ms to 864ms) |
TI_CONTROL is shown in Table 8-59.
Return to the Summary Table.
Manual BIST/WD EN/Manual Reset via I2C/ESM deglitch/Reset delay
| Bit | Field | Type | Default | Description |
|---|---|---|---|---|
| 7 | ENTER_BIST | R/W | X | Manual BIST. 1 = Enter BIST |
| 6 | WDT_EN | R/W | X | Watchdog EN to be used along with hardware WD_EN pin. 1 = Watchdog Enabled, 0 = Watchdog Disabled |
| 5 | I2C_MR | R/W | X | Manual Reset. 1 = Assert NRST low |
| 4-3 | ESM_DEB[1:0] | R/W | X | ESM debounce filter 00 = 10µs 01 = 25µs 10 =50µs 11 =100µs |
| 2-0 | RST_DLY[2:0] | R/W | X | Reset delay 000 =200µs 001 =1ms 010 =10ms 011 = 16ms 100 = 20ms 101 = 70ms 110 =100ms 111 = 200ms |
AMSK_ON is shown in Table 8-60.
Return to the Summary Table.
Auto-mask UVLF, UVHF, and OVHF interrupts on power up transitions.
| Bit | Field | Type | Default | Description |
|---|---|---|---|---|
| 7-4 | RSVD | R/W | X | RSVD |
| 3 | MON[4] | R/W | X | Automask at power on for MON 4. 0 = Disabled 1 = Enabled |
| 2 | MON[3] | R/W | X | Automask at power on for MON 3. 0 = Disabled 1 = Enabled |
| 1 | MON[2] | R/W | X | Automask at power on for MON 2. 0 = Disabled 1 = Enabled |
| 0 | RSVD | R/W | X | RSVD |
AMSK_OFF is shown in Table 8-61.
Return to the Summary Table.
Auto-mask UVLF, UVHF, and OVHF interrupts on power down transitions.
| Bit | Field | Type | Default | Description |
|---|---|---|---|---|
| 7-4 | RSVD | R/W | X | RSVD |
| 3 | MON[4] | R/W | X | Automask at power off for MON 4. 0 = Disabled 1 = Enabled |
| 2 | MON[3] | R/W | X | Automask at power off for MON 3. 0 = Disabled 1 = Enabled |
| 1 | MON[2] | R/W | X | Automask at power off for MON 2. 0 = Disabled 1 = Enabled |
| 0 | RSVD | R/W | X | RSVD |
SEQ_TOUT_MSB is shown in Table 8-62.
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Timeout for UV faults during powerup and power down.
| Bit | Field | Type | Default | Description |
|---|---|---|---|---|
| 7-0 | MILLISEC[15:8] | R/W | X | Sequence time out MSB |
SEQ_TOUT_LSB is shown in Table 8-63.
Return to the Summary Table.
Timeout for UV faults during powerup and power down.
| Bit | Field | Type | Default | Description |
|---|---|---|---|---|
| 7-0 | MILLISEC[7:0] | R/W | X | Sequence time out LSB |
SEQ_UP_THLD is shown in Table 8-64.
Return to the Summary Table.
Threshold at which AMSK is released (VMON considered on) for power up.
| Bit | Field | Type | Default | Description |
|---|---|---|---|---|
| 7-4 | RSVD | R/W | X | RSVD |
| 3 | MON[4] | R/W | X | AMSK releases at UVLF or OFF threshold for MON_4. 0 = off threshold, 1 = UVLF threshold |
| 2 | MON[3] | R/W | X | AMSK releases at UVLF or OFF threshold for MON_3. 0 = off threshold, 1 = UVLF threshold |
| 1 | MON[2] | R/W | X | AMSK releases at UVLF or OFF threshold for MON_2. 0 = off threshold, 1 = UVLF threshold |
| 0 | RSVD | R/W | X | RSVD |
SEQ_DN_THLD is shown in Table 8-65.
Return to the Summary Table.
Threshold at which AMSK is released (VMON considered off) for power down.
| Bit | Field | Type | Default | Description |
|---|---|---|---|---|
| 7-4 | RSVD | R/W | X | RSVD |
| 3 | MON[4] | R/W | X | AMSK releases at UVLF or OFF threshold for MON_4. 0 = off threshold, 1 = UVLF threshold |
| 2 | MON[3] | R/W | X | AMSK releases at UVLF or OFF threshold for MON_3. 0 = off threshold, 1 = UVLF threshold |
| 1 | MON[2] | R/W | X | AMSK releases at UVLF or OFF threshold for MON_2. 0 = off threshold, 1 = UVLF threshold |
| 0 | RSVD | R/W | X | RSVD |
WDT_CFG is shown in Table 8-66.
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Max violation count for WD and Delay multiplier for Start Up Window.
| Bit | Field | Type | Default | Description |
|---|---|---|---|---|
| 7 | RSVD | R/W | X | RSVD |
| 6-4 | MAX_VIOLATION_COUNT | R/W | X | Max violation count for Watchdog 000 =0 001 =1 010 =2 011 = 3 100 = 4 101 = 5 110 = 6 111 = 7 |
| 3 | RSVD | R/W | X | RSVD |
| 2-0 | WDT_Startup_DLY_MULTIPLIER[2:0] | R/W | X | Watchdog Startup delay multiplier 000 =0 001 =1 010 =2 011 = 3 100 = 4 101 = 5 110 = 6 111 = 7 |
WDT_CLOSE is shown in Table 8-67.
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Close Window Time.
| Bit | Field | Type | Default | Description |
|---|---|---|---|---|
| 7-0 | CLOSE[7:0] | R/W | X | Close window time (1ms to 864ms) |
WDT_OPEN is shown in Table 8-68.
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Open Window Time.
| Bit | Field | Type | Default | Description |
|---|---|---|---|---|
| 7-0 | OPEN[7:0] | R/W | X | Open window time (1ms to 864ms) |
WDT_QA_CFG is shown in Table 8-69.
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FeedbackPolt/Seed for Watchdog.
| Bit | Field | Type | Default | Description |
|---|---|---|---|---|
| 7-6 | FDBK[1:0] | R/W | 0h | Feedback used for computing answer |
| 5-4 | POLY[1:0] | R/W | 0h | Poly used for computing answer |
| 3-0 | SEED[3:0] | R/W | 0h | Seed used for computing answer |
WDT_ANSWER is shown in Table 8-70.
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Answer for the Watchdog.
| Bit | Field | Type | Default | Description |
|---|---|---|---|---|
| 7-0 | ANSWER[7:0] | R/W | 0h | Answer |
BANK_SEL is shown in Table 8-71.
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Bank Select.
| Bit | Field | Type | Default | Description |
|---|---|---|---|---|
| 7-1 | RSVD | R/W | 0h | RSVD |
| 0 | BANK_Select | R/W | 0h | Represents bank selection. 0 = Bank 0 1 = Bank 1 |