SPRUJ42 User guide

SPRUJ42E March 2022 – October 2024 AM2631 , AM2631-Q1 , AM2632 , AM2632-Q1 , AM2634 , AM2634-Q1

PRODUCTION DATA

3.7.2.165 EPWM_DEMONCNT Register

7.2.165.1 EPWM_DEMONCNT Register (Offset = 820h) [reset = 0h]

DE trip monitor counter.

Table 3-921 Instance Table

Instance Name	Physical Address
EPWM0_G0	5000 0820h
EPWM0_G1	5004 0820h
EPWM0_G2	5008 0820h
EPWM0_G3	500C 0820h
EPWM1_G0	5000 1820h
EPWM1_G1	5004 1820h
EPWM1_G2	5008 1820h
EPWM1_G3	500C 1820h
EPWM2_G0	5000 2820h
EPWM2_G1	5004 2820h
EPWM2_G2	5008 2820h
EPWM2_G3	500C 2820h
EPWM3_G0	5000 3820h
EPWM3_G1	5004 3820h
EPWM3_G2	5008 3820h
EPWM3_G3	500C 3820h
EPWM4_G0	5000 4820h
EPWM4_G1	5004 4820h
EPWM4_G2	5008 4820h
EPWM4_G3	500C 4820h
EPWM5_G0	5000 5820h
EPWM5_G1	5004 5820h
EPWM5_G2	5008 5820h
EPWM5_G3	500C 5820h
EPWM6_G0	5000 6820h
EPWM6_G1	5004 6820h
EPWM6_G2	5008 6820h
EPWM6_G3	500C 6820h
EPWM7_G0	5000 7820h
EPWM7_G1	5004 7820h
EPWM7_G2	5008 7820h
EPWM7_G3	500C 7820h
EPWM8_G0	5000 8820h
EPWM8_G1	5004 8820h
EPWM8_G2	5008 8820h
EPWM8_G3	500C 8820h
EPWM9_G0	5000 9820h
EPWM9_G1	5004 9820h
EPWM9_G2	5008 9820h
EPWM9_G3	500C 9820h
EPWM10_G0	5000 A820h
EPWM10_G1	5004 A820h
EPWM10_G2	5008 A820h
EPWM10_G3	500C A820h
EPWM11_G0	5000 B820h
EPWM11_G1	5004 B820h
EPWM11_G2	5008 B820h
EPWM11_G3	500C B820h
EPWM12_G0	5000 C820h
EPWM12_G1	5004 C820h
EPWM12_G2	5008 C820h
EPWM12_G3	500C C820h
EPWM13_G0	5000 D820h
EPWM13_G1	5004 D820h
EPWM13_G2	5008 D820h
EPWM13_G3	500C D820h
EPWM14_G0	5000 E820h
EPWM14_G1	5004 E820h
EPWM14_G2	5008 E820h
EPWM14_G3	500C E820h
EPWM15_G0	5000 F820h
EPWM15_G1	5004 F820h
EPWM15_G2	5008 F820h
EPWM15_G3	500C F820h
EPWM16_G0	5001 0820h
EPWM16_G1	5005 0820h
EPWM16_G2	5009 0820h
EPWM16_G3	500D 0820h
EPWM17_G0	5001 1820h
EPWM17_G1	5005 1820h
EPWM17_G2	5009 1820h
EPWM17_G3	500D 1820h
EPWM18_G0	5001 2820h
EPWM18_G1	5005 2820h
EPWM18_G2	5009 2820h
EPWM18_G3	500D 2820h
EPWM19_G0	5001 3820h
EPWM19_G1	5005 3820h
EPWM19_G2	5009 3820h
EPWM19_G3	500D 3820h
EPWM20_G0	5001 4820h
EPWM20_G1	5005 4820h
EPWM20_G2	5009 4820h
EPWM20_G3	500D 4820h
EPWM21_G0	5001 5820h
EPWM21_G1	5005 5820h
EPWM21_G2	5009 5820h
EPWM21_G3	500D 5820h
EPWM22_G0	5001 6820h
EPWM22_G1	5005 6820h
EPWM22_G2	5009 6820h
EPWM22_G3	500D 6820h
EPWM23_G0	5001 7820h
EPWM23_G1	5005 7820h
EPWM23_G2	5009 7820h
EPWM23_G3	500D 7820h
EPWM24_G0	5001 8820h
EPWM24_G1	5005 8820h
EPWM24_G2	5009 8820h
EPWM24_G3	500D 8820h
EPWM25_G0	5001 9820h
EPWM25_G1	5005 9820h
EPWM25_G2	5009 9820h
EPWM25_G3	500D 9820h
EPWM26_G0	5001 A820h
EPWM26_G1	5005 A820h
EPWM26_G2	5009 A820h
EPWM26_G3	500D A820h
EPWM27_G0	5001 B820h
EPWM27_G1	5005 B820h
EPWM27_G2	5009 B820h
EPWM27_G3	500D B820h
EPWM28_G0	5001 C820h
EPWM28_G1	5005 C820h
EPWM28_G2	5009 C820h
EPWM28_G3	500D C820h
EPWM29_G0	5001 D820h
EPWM29_G1	5005 D820h
EPWM29_G2	5009 D820h
EPWM29_G3	500D D820h
EPWM30_G0	5001 E820h
EPWM30_G1	5005 E820h
EPWM30_G2	5009 E820h
EPWM30_G3	500D E820h
EPWM31_G0	5001 F820h
EPWM31_G1	5005 F820h
EPWM31_G2	5009 F820h
EPWM31_G3	500D F820h

Figure 3-431 EPWM_DEMONCNT Name Register

31	30	29	28	27	26	25	24
RESERVED_1
R
0h
23	22	21	20	19	18	17	16
RESERVED_1
R
0h
15	14	13	12	11	10	9	8
CNT
R
0h
7	6	5	4	3	2	1	0
CNT
R
0h

Table 3-922 EPWM_DEMONCNT Register Field Descriptions

Bit	Field	Type	Reset	Description
31:16	RESERVED_1	R	0h	Reserved
15:0	CNT	R	0h	An 16-bit counter which monitors the frequency of diode mode trip events. When TripHorTripL is active: Increment CNT [increment INCSTEP on every EPWMxSYNC] When TripHorTripL is in-active: Decrement CNT [decrement DECSTEP on every EPWMxSYNC] If[ CNT > THRESHOLD] then generate DETRIP and clear the counter. If[ [CNT - DECSTEP] < 0] then CNT = 0 If[ [CNT + INCSTEP] >= 0xFFFF] then CNT = 0xFFFF Note : CNT is cleared when DECTL.ENABLE is 0 Note: DEMONTHRES == 0x0 should not generate trip as the DEMONTHRES and DEMONCNT registers have reset value of 0x0