SPRUJ42E March 2022 – October 2024 AM2631 , AM2631-Q1 , AM2632 , AM2632-Q1 , AM2634 , AM2634-Q1
PRODUCTION DATA
Trip Zone Control Register.
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| Instance Name | Physical Address |
|---|---|
| EPWM0_G0 | 5000 0108h |
| EPWM0_G1 | 5004 0108h |
| EPWM0_G2 | 5008 0108h |
| EPWM0_G3 | 500C 0108h |
| EPWM1_G0 | 5000 1108h |
| EPWM1_G1 | 5004 1108h |
| EPWM1_G2 | 5008 1108h |
| EPWM1_G3 | 500C 1108h |
| EPWM2_G0 | 5000 2108h |
| EPWM2_G1 | 5004 2108h |
| EPWM2_G2 | 5008 2108h |
| EPWM2_G3 | 500C 2108h |
| EPWM3_G0 | 5000 3108h |
| EPWM3_G1 | 5004 3108h |
| EPWM3_G2 | 5008 3108h |
| EPWM3_G3 | 500C 3108h |
| EPWM4_G0 | 5000 4108h |
| EPWM4_G1 | 5004 4108h |
| EPWM4_G2 | 5008 4108h |
| EPWM4_G3 | 500C 4108h |
| EPWM5_G0 | 5000 5108h |
| EPWM5_G1 | 5004 5108h |
| EPWM5_G2 | 5008 5108h |
| EPWM5_G3 | 500C 5108h |
| EPWM6_G0 | 5000 6108h |
| EPWM6_G1 | 5004 6108h |
| EPWM6_G2 | 5008 6108h |
| EPWM6_G3 | 500C 6108h |
| EPWM7_G0 | 5000 7108h |
| EPWM7_G1 | 5004 7108h |
| EPWM7_G2 | 5008 7108h |
| EPWM7_G3 | 500C 7108h |
| EPWM8_G0 | 5000 8108h |
| EPWM8_G1 | 5004 8108h |
| EPWM8_G2 | 5008 8108h |
| EPWM8_G3 | 500C 8108h |
| EPWM9_G0 | 5000 9108h |
| EPWM9_G1 | 5004 9108h |
| EPWM9_G2 | 5008 9108h |
| EPWM9_G3 | 500C 9108h |
| EPWM10_G0 | 5000 A108h |
| EPWM10_G1 | 5004 A108h |
| EPWM10_G2 | 5008 A108h |
| EPWM10_G3 | 500C A108h |
| EPWM11_G0 | 5000 B108h |
| EPWM11_G1 | 5004 B108h |
| EPWM11_G2 | 5008 B108h |
| EPWM11_G3 | 500C B108h |
| EPWM12_G0 | 5000 C108h |
| EPWM12_G1 | 5004 C108h |
| EPWM12_G2 | 5008 C108h |
| EPWM12_G3 | 500C C108h |
| EPWM13_G0 | 5000 D108h |
| EPWM13_G1 | 5004 D108h |
| EPWM13_G2 | 5008 D108h |
| EPWM13_G3 | 500C D108h |
| EPWM14_G0 | 5000 E108h |
| EPWM14_G1 | 5004 E108h |
| EPWM14_G2 | 5008 E108h |
| EPWM14_G3 | 500C E108h |
| EPWM15_G0 | 5000 F108h |
| EPWM15_G1 | 5004 F108h |
| EPWM15_G2 | 5008 F108h |
| EPWM15_G3 | 500C F108h |
| EPWM16_G0 | 5001 0108h |
| EPWM16_G1 | 5005 0108h |
| EPWM16_G2 | 5009 0108h |
| EPWM16_G3 | 500D 0108h |
| EPWM17_G0 | 5001 1108h |
| EPWM17_G1 | 5005 1108h |
| EPWM17_G2 | 5009 1108h |
| EPWM17_G3 | 500D 1108h |
| EPWM18_G0 | 5001 2108h |
| EPWM18_G1 | 5005 2108h |
| EPWM18_G2 | 5009 2108h |
| EPWM18_G3 | 500D 2108h |
| EPWM19_G0 | 5001 3108h |
| EPWM19_G1 | 5005 3108h |
| EPWM19_G2 | 5009 3108h |
| EPWM19_G3 | 500D 3108h |
| EPWM20_G0 | 5001 4108h |
| EPWM20_G1 | 5005 4108h |
| EPWM20_G2 | 5009 4108h |
| EPWM20_G3 | 500D 4108h |
| EPWM21_G0 | 5001 5108h |
| EPWM21_G1 | 5005 5108h |
| EPWM21_G2 | 5009 5108h |
| EPWM21_G3 | 500D 5108h |
| EPWM22_G0 | 5001 6108h |
| EPWM22_G1 | 5005 6108h |
| EPWM22_G2 | 5009 6108h |
| EPWM22_G3 | 500D 6108h |
| EPWM23_G0 | 5001 7108h |
| EPWM23_G1 | 5005 7108h |
| EPWM23_G2 | 5009 7108h |
| EPWM23_G3 | 500D 7108h |
| EPWM24_G0 | 5001 8108h |
| EPWM24_G1 | 5005 8108h |
| EPWM24_G2 | 5009 8108h |
| EPWM24_G3 | 500D 8108h |
| EPWM25_G0 | 5001 9108h |
| EPWM25_G1 | 5005 9108h |
| EPWM25_G2 | 5009 9108h |
| EPWM25_G3 | 500D 9108h |
| EPWM26_G0 | 5001 A108h |
| EPWM26_G1 | 5005 A108h |
| EPWM26_G2 | 5009 A108h |
| EPWM26_G3 | 500D A108h |
| EPWM27_G0 | 5001 B108h |
| EPWM27_G1 | 5005 B108h |
| EPWM27_G2 | 5009 B108h |
| EPWM27_G3 | 500D B108h |
| EPWM28_G0 | 5001 C108h |
| EPWM28_G1 | 5005 C108h |
| EPWM28_G2 | 5009 C108h |
| EPWM28_G3 | 500D C108h |
| EPWM29_G0 | 5001 D108h |
| EPWM29_G1 | 5005 D108h |
| EPWM29_G2 | 5009 D108h |
| EPWM29_G3 | 500D D108h |
| EPWM30_G0 | 5001 E108h |
| EPWM30_G1 | 5005 E108h |
| EPWM30_G2 | 5009 E108h |
| EPWM30_G3 | 500D E108h |
| EPWM31_G0 | 5001 F108h |
| EPWM31_G1 | 5005 F108h |
| EPWM31_G2 | 5009 F108h |
| EPWM31_G3 | 500D F108h |
| 15 | 14 | 13 | 12 | 11 | 10 | 9 | 8 |
| RESERVED_1 | DCBEVT2 | DCBEVT1 | |||||
| R | R/W | R/W | |||||
| 0h | 0h | 0h | |||||
| 7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
| DCAEVT2 | DCAEVT1 | TZB | TZA | ||||
| R/W | R/W | R/W | R/W | ||||
| 0h | 0h | 0h | 0h | ||||
| Bit | Field | Type | Reset | Description |
|---|---|---|---|---|
| 15:12 | RESERVED_1 | R | 0h | Reserved |
| 11:10 | DCBEVT2 | R/W | 0h | Digital Compare Output B Event 2 Action On EPWMxB 00:High-impedance [EPWMxB = High-impedance state] 01:Force EPWMxB to a high state. 10:Force EPWMxB to a low state. 11:Do Nothing, trip action is disabled |
| 9:8 | DCBEVT1 | R/W | 0h | Digital Compare Output B Event 1 Action On EPWMxB 00:High-impedance [EPWMxB = High-impedance state] 01:Force EPWMxB to a high state. 10:Force EPWMxB to a low state. 11:Do Nothing, trip action is disabled |
| 7:6 | DCAEVT2 | R/W | 0h | Digital Compare Output A Event 2 Action On EPWMxA 00:High-impedance [EPWMxA = High-impedance state] 01:Force EPWMxA to a high state. 10:Force EPWMxA to a low state. 11:Do Nothing, trip action is disabled |
| 5:4 | DCAEVT1 | R/W | 0h | Digital Compare Output A Event 1 Action On EPWMxA 00:High-impedance [EPWMxA = High-impedance state] 01:Force EPWMxA to a high state. 10:Force EPWMxA to a low state. 11:Do Nothing, trip action is disabled |
| 3:2 | TZB | R/W | 0h | TZ1 to TZ6, DCAEVT1/2, DCBEVT1/2Trip Action On EPWMxB When a trip event occurs the following action is taken on output EPWMxB. Which trip-zone pins can cause an event is defined in the TZSEL register. 00:High-impedance [EPWMxB = High-impedance state] 01:Force EPWMxB to a high state 10:Force EPWMxB to a low state 11:Do nothing, no action is taken on EPWMxB. |
| 1:0 | TZA | R/W | 0h | TZ1 to TZ6, DCAEVT1/2, DCBEVT1/2 Trip Action On EPWMxA When a trip event occurs the following action is taken on output EPWMxA. Which trip-zone pins can cause an event is defined in the TZSEL register. 00:High-impedance [EPWMxA = High-impedance state] 01:Force EPWMxA to a high state 10:Force EPWMxA to a low state 11:Do nothing, no action is taken on EPWMxA. |