//########################################################################### // // FILE: F2837xD_epwm.h // // TITLE: EPWM Register Definitions. // //########################################################################### // $TI Release: F2837xD Support Library v3.05.00.00 $ // $Release Date: Tue Jun 26 03:15:23 CDT 2018 $ // $Copyright: // Copyright (C) 2013-2018 Texas Instruments Incorporated - http://www.ti.com/ // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions // are met: // // Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // // Redistributions in binary form must reproduce the above copyright // notice, this list of conditions and the following disclaimer in the // documentation and/or other materials provided with the // distribution. // // Neither the name of Texas Instruments Incorporated nor the names of // its contributors may be used to endorse or promote products derived // from this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // $ //########################################################################### #ifndef __F2837xD_EPWM_H__ #define __F2837xD_EPWM_H__ #ifdef __cplusplus extern "C" { #endif //--------------------------------------------------------------------------- // EPWM Individual Register Bit Definitions: struct TBCTL_BITS { // bits description Uint16 CTRMODE:2; // 1:0 Counter Mode Uint16 PHSEN:1; // 2 Phase Load Enable Uint16 PRDLD:1; // 3 Active Period Load Uint16 SYNCOSEL:2; // 5:4 Sync Output Select Uint16 SWFSYNC:1; // 6 Software Force Sync Pulse Uint16 HSPCLKDIV:3; // 9:7 High Speed TBCLK Pre-scaler Uint16 CLKDIV:3; // 12:10 Time Base Clock Pre-scaler Uint16 PHSDIR:1; // 13 Phase Direction Bit Uint16 FREE_SOFT:2; // 15:14 Emulation Mode Bits }; union TBCTL_REG { Uint16 all; struct TBCTL_BITS bit; }; struct TBCTL2_BITS { // bits description Uint16 rsvd1:5; // 4:0 Reserved Uint16 rsvd2:1; // 5 Reserved Uint16 OSHTSYNCMODE:1; // 6 One shot sync mode Uint16 OSHTSYNC:1; // 7 One shot sync Uint16 rsvd3:4; // 11:8 Reserved Uint16 SYNCOSELX:2; // 13:12 Syncout selection Uint16 PRDLDSYNC:2; // 15:14 PRD Shadow to Active Load on SYNC Event }; union TBCTL2_REG { Uint16 all; struct TBCTL2_BITS bit; }; struct TBSTS_BITS { // bits description Uint16 CTRDIR:1; // 0 Counter Direction Status Uint16 SYNCI:1; // 1 External Input Sync Status Uint16 CTRMAX:1; // 2 Counter Max Latched Status Uint16 rsvd1:13; // 15:3 Reserved }; union TBSTS_REG { Uint16 all; struct TBSTS_BITS bit; }; struct CMPCTL_BITS { // bits description Uint16 LOADAMODE:2; // 1:0 Active Compare A Load Uint16 LOADBMODE:2; // 3:2 Active Compare B Load Uint16 SHDWAMODE:1; // 4 Compare A Register Block Operating Mode Uint16 rsvd1:1; // 5 Reserved Uint16 SHDWBMODE:1; // 6 Compare B Register Block Operating Mode Uint16 rsvd2:1; // 7 Reserved Uint16 SHDWAFULL:1; // 8 Compare A Shadow Register Full Status Uint16 SHDWBFULL:1; // 9 Compare B Shadow Register Full Status Uint16 LOADASYNC:2; // 11:10 Active Compare A Load on SYNC Uint16 LOADBSYNC:2; // 13:12 Active Compare B Load on SYNC Uint16 rsvd3:2; // 15:14 Reserved }; union CMPCTL_REG { Uint16 all; struct CMPCTL_BITS bit; }; struct CMPCTL2_BITS { // bits description Uint16 LOADCMODE:2; // 1:0 Active Compare C Load Uint16 LOADDMODE:2; // 3:2 Active Compare D load Uint16 SHDWCMODE:1; // 4 Compare C Block Operating Mode Uint16 rsvd1:1; // 5 Reserved Uint16 SHDWDMODE:1; // 6 Compare D Block Operating Mode Uint16 rsvd2:3; // 9:7 Reserved Uint16 LOADCSYNC:2; // 11:10 Active Compare C Load on SYNC Uint16 LOADDSYNC:2; // 13:12 Active Compare D Load on SYNC Uint16 rsvd3:2; // 15:14 Reserved }; union CMPCTL2_REG { Uint16 all; struct CMPCTL2_BITS bit; }; struct DBCTL_BITS { // bits description Uint16 OUT_MODE:2; // 1:0 Dead Band Output Mode Control Uint16 POLSEL:2; // 3:2 Polarity Select Control Uint16 IN_MODE:2; // 5:4 Dead Band Input Select Mode Control Uint16 LOADREDMODE:2; // 7:6 Active DBRED Load Mode Uint16 LOADFEDMODE:2; // 9:8 Active DBFED Load Mode Uint16 SHDWDBREDMODE:1; // 10 DBRED Block Operating Mode Uint16 SHDWDBFEDMODE:1; // 11 DBFED Block Operating Mode Uint16 OUTSWAP:2; // 13:12 Dead Band Output Swap Control Uint16 DEDB_MODE:1; // 14 Dead Band Dual-Edge B Mode Control Uint16 HALFCYCLE:1; // 15 Half Cycle Clocking Enable }; union DBCTL_REG { Uint16 all; struct DBCTL_BITS bit; }; struct DBCTL2_BITS { // bits description Uint16 LOADDBCTLMODE:2; // 1:0 DBCTL Load from Shadow Mode Select Uint16 SHDWDBCTLMODE:1; // 2 DBCTL Load mode Select Uint16 rsvd1:13; // 15:3 Reserved }; union DBCTL2_REG { Uint16 all; struct DBCTL2_BITS bit; }; struct AQCTL_BITS { // bits description Uint16 LDAQAMODE:2; // 1:0 Action Qualifier A Load Select Uint16 LDAQBMODE:2; // 3:2 Action Qualifier B Load Select Uint16 SHDWAQAMODE:1; // 4 Action Qualifer A Operating Mode Uint16 rsvd1:1; // 5 Reserved Uint16 SHDWAQBMODE:1; // 6 Action Qualifier B Operating Mode Uint16 rsvd2:1; // 7 Reserved Uint16 LDAQASYNC:2; // 9:8 AQCTLA Register Load on SYNC Uint16 LDAQBSYNC:2; // 11:10 AQCTLB Register Load on SYNC Uint16 rsvd3:4; // 15:12 Reserved }; union AQCTL_REG { Uint16 all; struct AQCTL_BITS bit; }; struct AQTSRCSEL_BITS { // bits description Uint16 T1SEL:4; // 3:0 T1 Event Source Select Bits Uint16 T2SEL:4; // 7:4 T2 Event Source Select Bits Uint16 rsvd1:8; // 15:8 Reserved }; union AQTSRCSEL_REG { Uint16 all; struct AQTSRCSEL_BITS bit; }; struct PCCTL_BITS { // bits description Uint16 CHPEN:1; // 0 PWM chopping enable Uint16 OSHTWTH:4; // 4:1 One-shot pulse width Uint16 CHPFREQ:3; // 7:5 Chopping clock frequency Uint16 CHPDUTY:3; // 10:8 Chopping clock Duty cycle Uint16 rsvd1:5; // 15:11 Reserved }; union PCCTL_REG { Uint16 all; struct PCCTL_BITS bit; }; struct VCAPCTL_BITS { // bits description Uint16 VCAPE:1; // 0 Valley Capture mode Uint16 VCAPSTART:1; // 1 Valley Capture Start Uint16 TRIGSEL:3; // 4:2 Capture Trigger Select Uint16 rsvd1:2; // 6:5 Reserved Uint16 VDELAYDIV:3; // 9:7 Valley Delay Mode Divide Enable Uint16 EDGEFILTDLYSEL:1; // 10 Valley Switching Mode Delay Select Uint16 rsvd2:5; // 15:11 Reserved }; union VCAPCTL_REG { Uint16 all; struct VCAPCTL_BITS bit; }; struct VCNTCFG_BITS { // bits description Uint16 STARTEDGE:4; // 3:0 Counter Start Edge Selection Uint16 rsvd1:3; // 6:4 Reserved Uint16 STARTEDGESTS:1; // 7 Start Edge Status Bit Uint16 STOPEDGE:4; // 11:8 Counter Start Edge Selection Uint16 rsvd2:3; // 14:12 Reserved Uint16 STOPEDGESTS:1; // 15 Stop Edge Status Bit }; union VCNTCFG_REG { Uint16 all; struct VCNTCFG_BITS bit; }; struct HRCNFG_BITS { // bits description Uint16 EDGMODE:2; // 1:0 ePWMxA Edge Mode Select Bits Uint16 CTLMODE:1; // 2 ePWMxA Control Mode Select Bits Uint16 HRLOAD:2; // 4:3 ePWMxA Shadow Mode Select Bits Uint16 SELOUTB:1; // 5 EPWMB Output Selection Bit Uint16 AUTOCONV:1; // 6 Autoconversion Bit Uint16 SWAPAB:1; // 7 Swap EPWMA and EPWMB Outputs Bit Uint16 EDGMODEB:2; // 9:8 ePWMxB Edge Mode Select Bits Uint16 CTLMODEB:1; // 10 ePWMxB Control Mode Select Bits Uint16 HRLOADB:2; // 12:11 ePWMxB Shadow Mode Select Bits Uint16 rsvd1:1; // 13 Reserved Uint16 rsvd2:2; // 15:14 Reserved }; union HRCNFG_REG { Uint16 all; struct HRCNFG_BITS bit; }; struct HRPWR_BITS { // bits description Uint16 rsvd1:2; // 1:0 Reserved Uint16 rsvd2:1; // 2 Reserved Uint16 rsvd3:1; // 3 Reserved Uint16 rsvd4:1; // 4 Reserved Uint16 rsvd5:1; // 5 Reserved Uint16 rsvd6:4; // 9:6 Reserved Uint16 rsvd7:5; // 14:10 Reserved Uint16 CALPWRON:1; // 15 Calibration Power On }; union HRPWR_REG { Uint16 all; struct HRPWR_BITS bit; }; struct HRMSTEP_BITS { // bits description Uint16 HRMSTEP:8; // 7:0 High Resolution Micro Step Value Uint16 rsvd1:8; // 15:8 Reserved }; union HRMSTEP_REG { Uint16 all; struct HRMSTEP_BITS bit; }; struct HRCNFG2_BITS { // bits description Uint16 EDGMODEDB:2; // 1:0 Dead-Band Edge-Mode Select Bits Uint16 CTLMODEDBRED:2; // 3:2 DBRED Control Mode Select Bits Uint16 CTLMODEDBFED:2; // 5:4 DBFED Control Mode Select Bits Uint16 rsvd1:8; // 13:6 Reserved Uint16 rsvd2:1; // 14 Reserved Uint16 rsvd3:1; // 15 Reserved }; union HRCNFG2_REG { Uint16 all; struct HRCNFG2_BITS bit; }; struct HRPCTL_BITS { // bits description Uint16 HRPE:1; // 0 High Resolution Period Enable Uint16 PWMSYNCSEL:1; // 1 PWMSYNC Source Select Uint16 TBPHSHRLOADE:1; // 2 TBPHSHR Load Enable Uint16 rsvd1:1; // 3 Reserved Uint16 PWMSYNCSELX:3; // 6:4 PWMSYNCX Source Select Bit: Uint16 rsvd2:9; // 15:7 Reserved }; union HRPCTL_REG { Uint16 all; struct HRPCTL_BITS bit; }; struct TRREM_BITS { // bits description Uint16 TRREM:11; // 10:0 Translator Remainder Bits Uint16 rsvd1:5; // 15:11 Reserved }; union TRREM_REG { Uint16 all; struct TRREM_BITS bit; }; struct GLDCTL_BITS { // bits description Uint16 GLD:1; // 0 Global Shadow to Active load event control Uint16 GLDMODE:4; // 4:1 Shadow to Active Global Load Pulse Selection Uint16 OSHTMODE:1; // 5 One Shot Load mode control bit Uint16 rsvd1:1; // 6 Reserved Uint16 GLDPRD:3; // 9:7 Global Reload Strobe Period Select Register Uint16 GLDCNT:3; // 12:10 Global Reload Strobe Counter Register Uint16 rsvd2:3; // 15:13 Reserved }; union GLDCTL_REG { Uint16 all; struct GLDCTL_BITS bit; }; struct GLDCFG_BITS { // bits description Uint16 TBPRD_TBPRDHR:1; // 0 Global load event configuration for TBPRD:TBPRDHR Uint16 CMPA_CMPAHR:1; // 1 Global load event configuration for CMPA:CMPAHR Uint16 CMPB_CMPBHR:1; // 2 Global load event configuration for CMPB:CMPBHR Uint16 CMPC:1; // 3 Global load event configuration for CMPC Uint16 CMPD:1; // 4 Global load event configuration for CMPD Uint16 DBRED_DBREDHR:1; // 5 Global load event configuration for DBRED:DBREDHR Uint16 DBFED_DBFEDHR:1; // 6 Global load event configuration for DBFED:DBFEDHR Uint16 DBCTL:1; // 7 Global load event configuration for DBCTL Uint16 AQCTLA_AQCTLA2:1; // 8 Global load event configuration for AQCTLA/A2 Uint16 AQCTLB_AQCTLB2:1; // 9 Global load event configuration for AQCTLB/B2 Uint16 AQCSFRC:1; // 10 Global load event configuration for AQCSFRC Uint16 rsvd1:5; // 15:11 Reserved }; union GLDCFG_REG { Uint16 all; struct GLDCFG_BITS bit; }; struct EPWMXLINK_BITS { // bits description Uint16 TBPRDLINK:4; // 3:0 TBPRD:TBPRDHR Link Uint16 CMPALINK:4; // 7:4 CMPA:CMPAHR Link Uint16 CMPBLINK:4; // 11:8 CMPB:CMPBHR Link Uint16 CMPCLINK:4; // 15:12 CMPC Link Uint16 CMPDLINK:4; // 19:16 CMPD Link Uint16 rsvd1:8; // 27:20 Reserved Uint16 GLDCTL2LINK:4; // 31:28 GLDCTL2 Link }; union EPWMXLINK_REG { Uint32 all; struct EPWMXLINK_BITS bit; }; struct EPWMREV_BITS { // bits description Uint16 REV:8; // 7:0 EPWM Silicon Revision bits Uint16 TYPE:8; // 15:8 EPWM Type Bits }; union EPWMREV_REG { Uint16 all; struct EPWMREV_BITS bit; }; struct AQCTLA_BITS { // bits description Uint16 ZRO:2; // 1:0 Action Counter = Zero Uint16 PRD:2; // 3:2 Action Counter = Period Uint16 CAU:2; // 5:4 Action Counter = Compare A Up Uint16 CAD:2; // 7:6 Action Counter = Compare A Down Uint16 CBU:2; // 9:8 Action Counter = Compare B Up Uint16 CBD:2; // 11:10 Action Counter = Compare B Down Uint16 rsvd1:4; // 15:12 Reserved }; union AQCTLA_REG { Uint16 all; struct AQCTLA_BITS bit; }; struct AQCTLA2_BITS { // bits description Uint16 T1U:2; // 1:0 Action when event occurs on T1 in UP-Count Uint16 T1D:2; // 3:2 Action when event occurs on T1 in DOWN-Count Uint16 T2U:2; // 5:4 Action when event occurs on T2 in UP-Count Uint16 T2D:2; // 7:6 Action when event occurs on T2 in DOWN-Count Uint16 rsvd1:8; // 15:8 Reserved }; union AQCTLA2_REG { Uint16 all; struct AQCTLA2_BITS bit; }; struct AQCTLB_BITS { // bits description Uint16 ZRO:2; // 1:0 Action Counter = Zero Uint16 PRD:2; // 3:2 Action Counter = Period Uint16 CAU:2; // 5:4 Action Counter = Compare A Up Uint16 CAD:2; // 7:6 Action Counter = Compare A Down Uint16 CBU:2; // 9:8 Action Counter = Compare B Up Uint16 CBD:2; // 11:10 Action Counter = Compare B Down Uint16 rsvd1:4; // 15:12 Reserved }; union AQCTLB_REG { Uint16 all; struct AQCTLB_BITS bit; }; struct AQCTLB2_BITS { // bits description Uint16 T1U:2; // 1:0 Action when event occurs on T1 in UP-Count Uint16 T1D:2; // 3:2 Action when event occurs on T1 in DOWN-Count Uint16 T2U:2; // 5:4 Action when event occurs on T2 in UP-Count Uint16 T2D:2; // 7:6 Action when event occurs on T2 in DOWN-Count Uint16 rsvd1:8; // 15:8 Reserved }; union AQCTLB2_REG { Uint16 all; struct AQCTLB2_BITS bit; }; struct AQSFRC_BITS { // bits description Uint16 ACTSFA:2; // 1:0 Action when One-time SW Force A Invoked Uint16 OTSFA:1; // 2 One-time SW Force A Output Uint16 ACTSFB:2; // 4:3 Action when One-time SW Force B Invoked Uint16 OTSFB:1; // 5 One-time SW Force A Output Uint16 RLDCSF:2; // 7:6 Reload from Shadow Options Uint16 rsvd1:8; // 15:8 Reserved }; union AQSFRC_REG { Uint16 all; struct AQSFRC_BITS bit; }; struct AQCSFRC_BITS { // bits description Uint16 CSFA:2; // 1:0 Continuous Software Force on output A Uint16 CSFB:2; // 3:2 Continuous Software Force on output B Uint16 rsvd1:12; // 15:4 Reserved }; union AQCSFRC_REG { Uint16 all; struct AQCSFRC_BITS bit; }; struct DBREDHR_BITS { // bits description Uint16 rsvd1:1; // 0 Reserved Uint16 rsvd2:7; // 7:1 Reserved Uint16 rsvd3:1; // 8 Reserved Uint16 DBREDHR:7; // 15:9 DBREDHR High Resolution Bits }; union DBREDHR_REG { Uint16 all; struct DBREDHR_BITS bit; }; struct DBRED_BITS { // bits description Uint16 DBRED:14; // 13:0 Rising edge delay value Uint16 rsvd1:2; // 15:14 Reserved }; union DBRED_REG { Uint16 all; struct DBRED_BITS bit; }; struct DBFEDHR_BITS { // bits description Uint16 rsvd1:1; // 0 Reserved Uint16 rsvd2:7; // 7:1 Reserved Uint16 rsvd3:1; // 8 Reserved Uint16 DBFEDHR:7; // 15:9 DBFEDHR High Resolution Bits }; union DBFEDHR_REG { Uint16 all; struct DBFEDHR_BITS bit; }; struct DBFED_BITS { // bits description Uint16 DBFED:14; // 13:0 Falling edge delay value Uint16 rsvd1:2; // 15:14 Reserved }; union DBFED_REG { Uint16 all; struct DBFED_BITS bit; }; struct TBPHS_BITS { // bits description Uint16 TBPHSHR:16; // 15:0 Extension Register for HRPWM Phase (8-bits) Uint16 TBPHS:16; // 31:16 Phase Offset Register }; union TBPHS_REG { Uint32 all; struct TBPHS_BITS bit; }; struct CMPA_BITS { // bits description Uint16 CMPAHR:16; // 15:0 Compare A HRPWM Extension Register Uint16 CMPA:16; // 31:16 Compare A Register }; union CMPA_REG { Uint32 all; struct CMPA_BITS bit; }; struct CMPB_BITS { // bits description Uint16 CMPBHR:16; // 15:0 Compare B High Resolution Bits Uint16 CMPB:16; // 31:16 Compare B Register }; union CMPB_REG { Uint32 all; struct CMPB_BITS bit; }; struct GLDCTL2_BITS { // bits description Uint16 OSHTLD:1; // 0 Enable reload event in one shot mode Uint16 GFRCLD:1; // 1 Force reload event in one shot mode Uint16 rsvd1:14; // 15:2 Reserved }; union GLDCTL2_REG { Uint16 all; struct GLDCTL2_BITS bit; }; struct TZSEL_BITS { // bits description Uint16 CBC1:1; // 0 TZ1 CBC select Uint16 CBC2:1; // 1 TZ2 CBC select Uint16 CBC3:1; // 2 TZ3 CBC select Uint16 CBC4:1; // 3 TZ4 CBC select Uint16 CBC5:1; // 4 TZ5 CBC select Uint16 CBC6:1; // 5 TZ6 CBC select Uint16 DCAEVT2:1; // 6 DCAEVT2 CBC select Uint16 DCBEVT2:1; // 7 DCBEVT2 CBC select Uint16 OSHT1:1; // 8 One-shot TZ1 select Uint16 OSHT2:1; // 9 One-shot TZ2 select Uint16 OSHT3:1; // 10 One-shot TZ3 select Uint16 OSHT4:1; // 11 One-shot TZ4 select Uint16 OSHT5:1; // 12 One-shot TZ5 select Uint16 OSHT6:1; // 13 One-shot TZ6 select Uint16 DCAEVT1:1; // 14 One-shot DCAEVT1 select Uint16 DCBEVT1:1; // 15 One-shot DCBEVT1 select }; union TZSEL_REG { Uint16 all; struct TZSEL_BITS bit; }; struct TZDCSEL_BITS { // bits description Uint16 DCAEVT1:3; // 2:0 Digital Compare Output A Event 1 Uint16 DCAEVT2:3; // 5:3 Digital Compare Output A Event 2 Uint16 DCBEVT1:3; // 8:6 Digital Compare Output B Event 1 Uint16 DCBEVT2:3; // 11:9 Digital Compare Output B Event 2 Uint16 rsvd1:4; // 15:12 Reserved }; union TZDCSEL_REG { Uint16 all; struct TZDCSEL_BITS bit; }; struct TZCTL_BITS { // bits description Uint16 TZA:2; // 1:0 TZ1 to TZ6 Trip Action On EPWMxA Uint16 TZB:2; // 3:2 TZ1 to TZ6 Trip Action On EPWMxB Uint16 DCAEVT1:2; // 5:4 EPWMxA action on DCAEVT1 Uint16 DCAEVT2:2; // 7:6 EPWMxA action on DCAEVT2 Uint16 DCBEVT1:2; // 9:8 EPWMxB action on DCBEVT1 Uint16 DCBEVT2:2; // 11:10 EPWMxB action on DCBEVT2 Uint16 rsvd1:4; // 15:12 Reserved }; union TZCTL_REG { Uint16 all; struct TZCTL_BITS bit; }; struct TZCTL2_BITS { // bits description Uint16 TZAU:3; // 2:0 Trip Action On EPWMxA while Count direction is UP Uint16 TZAD:3; // 5:3 Trip Action On EPWMxA while Count direction is DOWN Uint16 TZBU:3; // 8:6 Trip Action On EPWMxB while Count direction is UP Uint16 TZBD:3; // 11:9 Trip Action On EPWMxB while Count direction is DOWN Uint16 rsvd1:3; // 14:12 Reserved Uint16 ETZE:1; // 15 TZCTL2 Enable }; union TZCTL2_REG { Uint16 all; struct TZCTL2_BITS bit; }; struct TZCTLDCA_BITS { // bits description Uint16 DCAEVT1U:3; // 2:0 DCAEVT1 Action On EPWMxA while Count direction is UP Uint16 DCAEVT1D:3; // 5:3 DCAEVT1 Action On EPWMxA while Count direction is DOWN Uint16 DCAEVT2U:3; // 8:6 DCAEVT2 Action On EPWMxA while Count direction is UP Uint16 DCAEVT2D:3; // 11:9 DCAEVT2 Action On EPWMxA while Count direction is DOWN Uint16 rsvd1:4; // 15:12 Reserved }; union TZCTLDCA_REG { Uint16 all; struct TZCTLDCA_BITS bit; }; struct TZCTLDCB_BITS { // bits description Uint16 DCBEVT1U:3; // 2:0 DCBEVT1 Action On EPWMxA while Count direction is UP Uint16 DCBEVT1D:3; // 5:3 DCBEVT1 Action On EPWMxA while Count direction is DOWN Uint16 DCBEVT2U:3; // 8:6 DCBEVT2 Action On EPWMxA while Count direction is UP Uint16 DCBEVT2D:3; // 11:9 DCBEVT2 Action On EPWMxA while Count direction is DOWN Uint16 rsvd1:4; // 15:12 Reserved }; union TZCTLDCB_REG { Uint16 all; struct TZCTLDCB_BITS bit; }; struct TZEINT_BITS { // bits description Uint16 rsvd1:1; // 0 Reserved Uint16 CBC:1; // 1 Trip Zones Cycle By Cycle Int Enable Uint16 OST:1; // 2 Trip Zones One Shot Int Enable Uint16 DCAEVT1:1; // 3 Digital Compare A Event 1 Int Enable Uint16 DCAEVT2:1; // 4 Digital Compare A Event 2 Int Enable Uint16 DCBEVT1:1; // 5 Digital Compare B Event 1 Int Enable Uint16 DCBEVT2:1; // 6 Digital Compare B Event 2 Int Enable Uint16 rsvd2:9; // 15:7 Reserved }; union TZEINT_REG { Uint16 all; struct TZEINT_BITS bit; }; struct TZFLG_BITS { // bits description Uint16 INT:1; // 0 Global Int Status Flag Uint16 CBC:1; // 1 Trip Zones Cycle By Cycle Flag Uint16 OST:1; // 2 Trip Zones One Shot Flag Uint16 DCAEVT1:1; // 3 Digital Compare A Event 1 Flag Uint16 DCAEVT2:1; // 4 Digital Compare A Event 2 Flag Uint16 DCBEVT1:1; // 5 Digital Compare B Event 1 Flag Uint16 DCBEVT2:1; // 6 Digital Compare B Event 2 Flag Uint16 rsvd1:9; // 15:7 Reserved }; union TZFLG_REG { Uint16 all; struct TZFLG_BITS bit; }; struct TZCBCFLG_BITS { // bits description Uint16 CBC1:1; // 0 Latched Status Flag for CBC1 Trip Latch Uint16 CBC2:1; // 1 Latched Status Flag for CBC2 Trip Latch Uint16 CBC3:1; // 2 Latched Status Flag for CBC3 Trip Latch Uint16 CBC4:1; // 3 Latched Status Flag for CBC4 Trip Latch Uint16 CBC5:1; // 4 Latched Status Flag for CBC5 Trip Latch Uint16 CBC6:1; // 5 Latched Status Flag for CBC6 Trip Latch Uint16 DCAEVT2:1; // 6 Latched Status Flag for Digital Compare Output A Event 2 Uint16 DCBEVT2:1; // 7 Latched Status Flag for Digital Compare Output B Event 2 Uint16 rsvd1:8; // 15:8 Reserved }; union TZCBCFLG_REG { Uint16 all; struct TZCBCFLG_BITS bit; }; struct TZOSTFLG_BITS { // bits description Uint16 OST1:1; // 0 Latched Status Flag for OST1 Trip Latch Uint16 OST2:1; // 1 Latched Status Flag for OST2 Trip Latch Uint16 OST3:1; // 2 Latched Status Flag for OST3 Trip Latch Uint16 OST4:1; // 3 Latched Status Flag for OST4 Trip Latch Uint16 OST5:1; // 4 Latched Status Flag for OST5 Trip Latch Uint16 OST6:1; // 5 Latched Status Flag for OST6 Trip Latch Uint16 DCAEVT1:1; // 6 Latched Status Flag for Digital Compare Output A Event 1 Uint16 DCBEVT1:1; // 7 Latched Status Flag for Digital Compare Output B Event 1 Uint16 rsvd1:8; // 15:8 Reserved }; union TZOSTFLG_REG { Uint16 all; struct TZOSTFLG_BITS bit; }; struct TZCLR_BITS { // bits description Uint16 INT:1; // 0 Global Interrupt Clear Flag Uint16 CBC:1; // 1 Cycle-By-Cycle Flag Clear Uint16 OST:1; // 2 One-Shot Flag Clear Uint16 DCAEVT1:1; // 3 DCAVET1 Flag Clear Uint16 DCAEVT2:1; // 4 DCAEVT2 Flag Clear Uint16 DCBEVT1:1; // 5 DCBEVT1 Flag Clear Uint16 DCBEVT2:1; // 6 DCBEVT2 Flag Clear Uint16 rsvd1:7; // 13:7 Reserved Uint16 CBCPULSE:2; // 15:14 Clear Pulse for CBC Trip Latch }; union TZCLR_REG { Uint16 all; struct TZCLR_BITS bit; }; struct TZCBCCLR_BITS { // bits description Uint16 CBC1:1; // 0 Clear Flag for Cycle-By-Cycle (CBC1) Trip Latch Uint16 CBC2:1; // 1 Clear Flag for Cycle-By-Cycle (CBC2) Trip Latch Uint16 CBC3:1; // 2 Clear Flag for Cycle-By-Cycle (CBC3) Trip Latch Uint16 CBC4:1; // 3 Clear Flag for Cycle-By-Cycle (CBC4) Trip Latch Uint16 CBC5:1; // 4 Clear Flag for Cycle-By-Cycle (CBC5) Trip Latch Uint16 CBC6:1; // 5 Clear Flag for Cycle-By-Cycle (CBC6) Trip Latch Uint16 DCAEVT2:1; // 6 Clear Flag forDCAEVT2 selected for CBC Uint16 DCBEVT2:1; // 7 Clear Flag for DCBEVT2 selected for CBC Uint16 rsvd1:8; // 15:8 Reserved }; union TZCBCCLR_REG { Uint16 all; struct TZCBCCLR_BITS bit; }; struct TZOSTCLR_BITS { // bits description Uint16 OST1:1; // 0 Clear Flag for Oneshot (OST1) Trip Latch Uint16 OST2:1; // 1 Clear Flag for Oneshot (OST2) Trip Latch Uint16 OST3:1; // 2 Clear Flag for Oneshot (OST3) Trip Latch Uint16 OST4:1; // 3 Clear Flag for Oneshot (OST4) Trip Latch Uint16 OST5:1; // 4 Clear Flag for Oneshot (OST5) Trip Latch Uint16 OST6:1; // 5 Clear Flag for Oneshot (OST6) Trip Latch Uint16 DCAEVT1:1; // 6 Clear Flag for DCAEVT1 selected for OST Uint16 DCBEVT1:1; // 7 Clear Flag for DCBEVT1 selected for OST Uint16 rsvd1:8; // 15:8 Reserved }; union TZOSTCLR_REG { Uint16 all; struct TZOSTCLR_BITS bit; }; struct TZFRC_BITS { // bits description Uint16 rsvd1:1; // 0 Reserved Uint16 CBC:1; // 1 Force Trip Zones Cycle By Cycle Event Uint16 OST:1; // 2 Force Trip Zones One Shot Event Uint16 DCAEVT1:1; // 3 Force Digital Compare A Event 1 Uint16 DCAEVT2:1; // 4 Force Digital Compare A Event 2 Uint16 DCBEVT1:1; // 5 Force Digital Compare B Event 1 Uint16 DCBEVT2:1; // 6 Force Digital Compare B Event 2 Uint16 rsvd2:9; // 15:7 Reserved }; union TZFRC_REG { Uint16 all; struct TZFRC_BITS bit; }; struct ETSEL_BITS { // bits description Uint16 INTSEL:3; // 2:0 EPWMxINTn Select Uint16 INTEN:1; // 3 EPWMxINTn Enable Uint16 SOCASELCMP:1; // 4 EPWMxSOCA Compare Select Uint16 SOCBSELCMP:1; // 5 EPWMxSOCB Compare Select Uint16 INTSELCMP:1; // 6 EPWMxINT Compare Select Uint16 rsvd1:1; // 7 Reserved Uint16 SOCASEL:3; // 10:8 Start of Conversion A Select Uint16 SOCAEN:1; // 11 Start of Conversion A Enable Uint16 SOCBSEL:3; // 14:12 Start of Conversion B Select Uint16 SOCBEN:1; // 15 Start of Conversion B Enable }; union ETSEL_REG { Uint16 all; struct ETSEL_BITS bit; }; struct ETPS_BITS { // bits description Uint16 INTPRD:2; // 1:0 EPWMxINTn Period Select Uint16 INTCNT:2; // 3:2 EPWMxINTn Counter Register Uint16 INTPSSEL:1; // 4 EPWMxINTn Pre-Scale Selection Bits Uint16 SOCPSSEL:1; // 5 EPWMxSOC A/B Pre-Scale Selection Bits Uint16 rsvd1:2; // 7:6 Reserved Uint16 SOCAPRD:2; // 9:8 EPWMxSOCA Period Select Uint16 SOCACNT:2; // 11:10 EPWMxSOCA Counter Register Uint16 SOCBPRD:2; // 13:12 EPWMxSOCB Period Select Uint16 SOCBCNT:2; // 15:14 EPWMxSOCB Counter }; union ETPS_REG { Uint16 all; struct ETPS_BITS bit; }; struct ETFLG_BITS { // bits description Uint16 INT:1; // 0 EPWMxINTn Flag Uint16 rsvd1:1; // 1 Reserved Uint16 SOCA:1; // 2 EPWMxSOCA Flag Uint16 SOCB:1; // 3 EPWMxSOCB Flag Uint16 rsvd2:12; // 15:4 Reserved }; union ETFLG_REG { Uint16 all; struct ETFLG_BITS bit; }; struct ETCLR_BITS { // bits description Uint16 INT:1; // 0 EPWMxINTn Clear Uint16 rsvd1:1; // 1 Reserved Uint16 SOCA:1; // 2 EPWMxSOCA Clear Uint16 SOCB:1; // 3 EPWMxSOCB Clear Uint16 rsvd2:12; // 15:4 Reserved }; union ETCLR_REG { Uint16 all; struct ETCLR_BITS bit; }; struct ETFRC_BITS { // bits description Uint16 INT:1; // 0 EPWMxINTn Force Uint16 rsvd1:1; // 1 Reserved Uint16 SOCA:1; // 2 EPWMxSOCA Force Uint16 SOCB:1; // 3 EPWMxSOCB Force Uint16 rsvd2:12; // 15:4 Reserved }; union ETFRC_REG { Uint16 all; struct ETFRC_BITS bit; }; struct ETINTPS_BITS { // bits description Uint16 INTPRD2:4; // 3:0 EPWMxINTn Period Select Uint16 INTCNT2:4; // 7:4 EPWMxINTn Counter Register Uint16 rsvd1:8; // 15:8 Reserved }; union ETINTPS_REG { Uint16 all; struct ETINTPS_BITS bit; }; struct ETSOCPS_BITS { // bits description Uint16 SOCAPRD2:4; // 3:0 EPWMxSOCA Period Select Uint16 SOCACNT2:4; // 7:4 EPWMxSOCA Counter Register Uint16 SOCBPRD2:4; // 11:8 EPWMxSOCB Period Select Uint16 SOCBCNT2:4; // 15:12 EPWMxSOCB Counter Register }; union ETSOCPS_REG { Uint16 all; struct ETSOCPS_BITS bit; }; struct ETCNTINITCTL_BITS { // bits description Uint16 rsvd1:10; // 9:0 Reserved Uint16 INTINITFRC:1; // 10 EPWMxINT Counter Initialization Force Uint16 SOCAINITFRC:1; // 11 EPWMxSOCA Counter Initialization Force Uint16 SOCBINITFRC:1; // 12 EPWMxSOCB Counter Initialization Force Uint16 INTINITEN:1; // 13 EPWMxINT Counter Initialization Enable Uint16 SOCAINITEN:1; // 14 EPWMxSOCA Counter Initialization Enable Uint16 SOCBINITEN:1; // 15 EPWMxSOCB Counter Initialization Enable }; union ETCNTINITCTL_REG { Uint16 all; struct ETCNTINITCTL_BITS bit; }; struct ETCNTINIT_BITS { // bits description Uint16 INTINIT:4; // 3:0 EPWMxINT Counter Initialization Bits Uint16 SOCAINIT:4; // 7:4 EPWMxSOCA Counter Initialization Bits Uint16 SOCBINIT:4; // 11:8 EPWMxSOCB Counter Initialization Bits Uint16 rsvd1:4; // 15:12 Reserved }; union ETCNTINIT_REG { Uint16 all; struct ETCNTINIT_BITS bit; }; struct DCTRIPSEL_BITS { // bits description Uint16 DCAHCOMPSEL:4; // 3:0 Digital Compare A High COMP Input Select Uint16 DCALCOMPSEL:4; // 7:4 Digital Compare A Low COMP Input Select Uint16 DCBHCOMPSEL:4; // 11:8 Digital Compare B High COMP Input Select Uint16 DCBLCOMPSEL:4; // 15:12 Digital Compare B Low COMP Input Select }; union DCTRIPSEL_REG { Uint16 all; struct DCTRIPSEL_BITS bit; }; struct DCACTL_BITS { // bits description Uint16 EVT1SRCSEL:1; // 0 DCAEVT1 Source Signal Uint16 EVT1FRCSYNCSEL:1; // 1 DCAEVT1 Force Sync Signal Uint16 EVT1SOCE:1; // 2 DCAEVT1 SOC Enable Uint16 EVT1SYNCE:1; // 3 DCAEVT1 SYNC Enable Uint16 rsvd1:1; // 4 Reserved Uint16 rsvd2:2; // 6:5 Reserved Uint16 rsvd3:1; // 7 Reserved Uint16 EVT2SRCSEL:1; // 8 DCAEVT2 Source Signal Uint16 EVT2FRCSYNCSEL:1; // 9 DCAEVT2 Force Sync Signal Uint16 rsvd4:2; // 11:10 Reserved Uint16 rsvd5:1; // 12 Reserved Uint16 rsvd6:2; // 14:13 Reserved Uint16 rsvd7:1; // 15 Reserved }; union DCACTL_REG { Uint16 all; struct DCACTL_BITS bit; }; struct DCBCTL_BITS { // bits description Uint16 EVT1SRCSEL:1; // 0 DCBEVT1 Source Signal Uint16 EVT1FRCSYNCSEL:1; // 1 DCBEVT1 Force Sync Signal Uint16 EVT1SOCE:1; // 2 DCBEVT1 SOC Enable Uint16 EVT1SYNCE:1; // 3 DCBEVT1 SYNC Enable Uint16 rsvd1:1; // 4 Reserved Uint16 rsvd2:2; // 6:5 Reserved Uint16 rsvd3:1; // 7 Reserved Uint16 EVT2SRCSEL:1; // 8 DCBEVT2 Source Signal Uint16 EVT2FRCSYNCSEL:1; // 9 DCBEVT2 Force Sync Signal Uint16 rsvd4:2; // 11:10 Reserved Uint16 rsvd5:1; // 12 Reserved Uint16 rsvd6:2; // 14:13 Reserved Uint16 rsvd7:1; // 15 Reserved }; union DCBCTL_REG { Uint16 all; struct DCBCTL_BITS bit; }; struct DCFCTL_BITS { // bits description Uint16 SRCSEL:2; // 1:0 Filter Block Signal Source Select Uint16 BLANKE:1; // 2 Blanking Enable/Disable Uint16 BLANKINV:1; // 3 Blanking Window Inversion Uint16 PULSESEL:2; // 5:4 Pulse Select for Blanking & Capture Alignment Uint16 EDGEFILTSEL:1; // 6 Edge Filter Select Uint16 rsvd1:1; // 7 Reserved Uint16 EDGEMODE:2; // 9:8 Edge Mode Uint16 EDGECOUNT:3; // 12:10 Edge Count Uint16 EDGESTATUS:3; // 15:13 Edge Status }; union DCFCTL_REG { Uint16 all; struct DCFCTL_BITS bit; }; struct DCCAPCTL_BITS { // bits description Uint16 CAPE:1; // 0 Counter Capture Enable Uint16 SHDWMODE:1; // 1 Counter Capture Mode Uint16 rsvd1:11; // 12:2 Reserved Uint16 CAPSTS:1; // 13 Latched Status Flag for Capture Event Uint16 CAPCLR:1; // 14 DC Capture Latched Status Clear Flag Uint16 CAPMODE:1; // 15 Counter Capture Mode }; union DCCAPCTL_REG { Uint16 all; struct DCCAPCTL_BITS bit; }; struct DCAHTRIPSEL_BITS { // bits description Uint16 TRIPINPUT1:1; // 0 Trip Input 1 Select to DCAH Mux Uint16 TRIPINPUT2:1; // 1 Trip Input 2 Select to DCAH Mux Uint16 TRIPINPUT3:1; // 2 Trip Input 3 Select to DCAH Mux Uint16 TRIPINPUT4:1; // 3 Trip Input 4 Select to DCAH Mux Uint16 TRIPINPUT5:1; // 4 Trip Input 5 Select to DCAH Mux Uint16 TRIPINPUT6:1; // 5 Trip Input 6 Select to DCAH Mux Uint16 TRIPINPUT7:1; // 6 Trip Input 7 Select to DCAH Mux Uint16 TRIPINPUT8:1; // 7 Trip Input 8 Select to DCAH Mux Uint16 TRIPINPUT9:1; // 8 Trip Input 9 Select to DCAH Mux Uint16 TRIPINPUT10:1; // 9 Trip Input 10 Select to DCAH Mux Uint16 TRIPINPUT11:1; // 10 Trip Input 11 Select to DCAH Mux Uint16 TRIPINPUT12:1; // 11 Trip Input 12 Select to DCAH Mux Uint16 rsvd1:1; // 12 Reserved Uint16 TRIPINPUT14:1; // 13 Trip Input 14 Select to DCAH Mux Uint16 TRIPINPUT15:1; // 14 Trip Input 15 Select to DCAH Mux Uint16 rsvd2:1; // 15 Reserved }; union DCAHTRIPSEL_REG { Uint16 all; struct DCAHTRIPSEL_BITS bit; }; struct DCALTRIPSEL_BITS { // bits description Uint16 TRIPINPUT1:1; // 0 Trip Input 1 Select to DCAL Mux Uint16 TRIPINPUT2:1; // 1 Trip Input 2 Select to DCAL Mux Uint16 TRIPINPUT3:1; // 2 Trip Input 3 Select to DCAL Mux Uint16 TRIPINPUT4:1; // 3 Trip Input 4 Select to DCAL Mux Uint16 TRIPINPUT5:1; // 4 Trip Input 5 Select to DCAL Mux Uint16 TRIPINPUT6:1; // 5 Trip Input 6 Select to DCAL Mux Uint16 TRIPINPUT7:1; // 6 Trip Input 7 Select to DCAL Mux Uint16 TRIPINPUT8:1; // 7 Trip Input 8 Select to DCAL Mux Uint16 TRIPINPUT9:1; // 8 Trip Input 9 Select to DCAL Mux Uint16 TRIPINPUT10:1; // 9 Trip Input 10 Select to DCAL Mux Uint16 TRIPINPUT11:1; // 10 Trip Input 11 Select to DCAL Mux Uint16 TRIPINPUT12:1; // 11 Trip Input 12 Select to DCAL Mux Uint16 rsvd1:1; // 12 Reserved Uint16 TRIPINPUT14:1; // 13 Trip Input 14 Select to DCAL Mux Uint16 TRIPINPUT15:1; // 14 Trip Input 15 Select to DCAL Mux Uint16 rsvd2:1; // 15 Reserved }; union DCALTRIPSEL_REG { Uint16 all; struct DCALTRIPSEL_BITS bit; }; struct DCBHTRIPSEL_BITS { // bits description Uint16 TRIPINPUT1:1; // 0 Trip Input 1 Select to DCBH Mux Uint16 TRIPINPUT2:1; // 1 Trip Input 2 Select to DCBH Mux Uint16 TRIPINPUT3:1; // 2 Trip Input 3 Select to DCBH Mux Uint16 TRIPINPUT4:1; // 3 Trip Input 4 Select to DCBH Mux Uint16 TRIPINPUT5:1; // 4 Trip Input 5 Select to DCBH Mux Uint16 TRIPINPUT6:1; // 5 Trip Input 6 Select to DCBH Mux Uint16 TRIPINPUT7:1; // 6 Trip Input 7 Select to DCBH Mux Uint16 TRIPINPUT8:1; // 7 Trip Input 8 Select to DCBH Mux Uint16 TRIPINPUT9:1; // 8 Trip Input 9 Select to DCBH Mux Uint16 TRIPINPUT10:1; // 9 Trip Input 10 Select to DCBH Mux Uint16 TRIPINPUT11:1; // 10 Trip Input 11 Select to DCBH Mux Uint16 TRIPINPUT12:1; // 11 Trip Input 12 Select to DCBH Mux Uint16 rsvd1:1; // 12 Reserved Uint16 TRIPINPUT14:1; // 13 Trip Input 14 Select to DCBH Mux Uint16 TRIPINPUT15:1; // 14 Trip Input 15 Select to DCBH Mux Uint16 rsvd2:1; // 15 Reserved }; union DCBHTRIPSEL_REG { Uint16 all; struct DCBHTRIPSEL_BITS bit; }; struct DCBLTRIPSEL_BITS { // bits description Uint16 TRIPINPUT1:1; // 0 Trip Input 1 Select to DCBL Mux Uint16 TRIPINPUT2:1; // 1 Trip Input 2 Select to DCBL Mux Uint16 TRIPINPUT3:1; // 2 Trip Input 3 Select to DCBL Mux Uint16 TRIPINPUT4:1; // 3 Trip Input 4 Select to DCBL Mux Uint16 TRIPINPUT5:1; // 4 Trip Input 5 Select to DCBL Mux Uint16 TRIPINPUT6:1; // 5 Trip Input 6 Select to DCBL Mux Uint16 TRIPINPUT7:1; // 6 Trip Input 7 Select to DCBL Mux Uint16 TRIPINPUT8:1; // 7 Trip Input 8 Select to DCBL Mux Uint16 TRIPINPUT9:1; // 8 Trip Input 9 Select to DCBL Mux Uint16 TRIPINPUT10:1; // 9 Trip Input 10 Select to DCBL Mux Uint16 TRIPINPUT11:1; // 10 Trip Input 11 Select to DCBL Mux Uint16 TRIPINPUT12:1; // 11 Trip Input 12 Select to DCBL Mux Uint16 rsvd1:1; // 12 Reserved Uint16 TRIPINPUT14:1; // 13 Trip Input 14 Select to DCBL Mux Uint16 TRIPINPUT15:1; // 14 Trip Input 15 Select to DCBL Mux Uint16 rsvd2:1; // 15 Reserved }; union DCBLTRIPSEL_REG { Uint16 all; struct DCBLTRIPSEL_BITS bit; }; struct EPWM_REGS { union TBCTL_REG TBCTL; // Time Base Control Register union TBCTL2_REG TBCTL2; // Time Base Control Register 2 Uint16 rsvd1[2]; // Reserved Uint16 TBCTR; // Time Base Counter Register union TBSTS_REG TBSTS; // Time Base Status Register Uint16 rsvd2[2]; // Reserved union CMPCTL_REG CMPCTL; // Counter Compare Control Register union CMPCTL2_REG CMPCTL2; // Counter Compare Control Register 2 Uint16 rsvd3[2]; // Reserved union DBCTL_REG DBCTL; // Dead-Band Generator Control Register union DBCTL2_REG DBCTL2; // Dead-Band Generator Control Register 2 Uint16 rsvd4[2]; // Reserved union AQCTL_REG AQCTL; // Action Qualifier Control Register union AQTSRCSEL_REG AQTSRCSEL; // Action Qualifier Trigger Event Source Select Register Uint16 rsvd5[2]; // Reserved union PCCTL_REG PCCTL; // PWM Chopper Control Register Uint16 rsvd6[3]; // Reserved union VCAPCTL_REG VCAPCTL; // Valley Capture Control Register union VCNTCFG_REG VCNTCFG; // Valley Counter Config Register Uint16 rsvd7[6]; // Reserved union HRCNFG_REG HRCNFG; // HRPWM Configuration Register union HRPWR_REG HRPWR; // HRPWM Power Register Uint16 rsvd8[4]; // Reserved union HRMSTEP_REG HRMSTEP; // HRPWM MEP Step Register union HRCNFG2_REG HRCNFG2; // HRPWM Configuration 2 Register Uint16 rsvd9[5]; // Reserved union HRPCTL_REG HRPCTL; // High Resolution Period Control Register union TRREM_REG TRREM; // Translator High Resolution Remainder Register Uint16 rsvd10[5]; // Reserved union GLDCTL_REG GLDCTL; // Global PWM Load Control Register union GLDCFG_REG GLDCFG; // Global PWM Load Config Register Uint16 rsvd11[2]; // Reserved union EPWMXLINK_REG EPWMXLINK; // EPWMx Link Register Uint16 rsvd12[4]; // Reserved union EPWMREV_REG EPWMREV; // EPWM Revision Register Uint16 rsvd13; // Reserved union AQCTLA_REG AQCTLA; // Action Qualifier Control Register For Output A union AQCTLA2_REG AQCTLA2; // Additional Action Qualifier Control Register For Output A union AQCTLB_REG AQCTLB; // Action Qualifier Control Register For Output B union AQCTLB2_REG AQCTLB2; // Additional Action Qualifier Control Register For Output B Uint16 rsvd14[3]; // Reserved union AQSFRC_REG AQSFRC; // Action Qualifier Software Force Register Uint16 rsvd15; // Reserved union AQCSFRC_REG AQCSFRC; // Action Qualifier Continuous S/W Force Register Uint16 rsvd16[6]; // Reserved union DBREDHR_REG DBREDHR; // Dead-Band Generator Rising Edge Delay High Resolution Mirror Register union DBRED_REG DBRED; // Dead-Band Generator Rising Edge Delay High Resolution Mirror Register union DBFEDHR_REG DBFEDHR; // Dead-Band Generator Falling Edge Delay High Resolution Register union DBFED_REG DBFED; // Dead-Band Generator Falling Edge Delay Count Register Uint16 rsvd17[12]; // Reserved union TBPHS_REG TBPHS; // Time Base Phase High Uint16 TBPRDHR; // Time Base Period High Resolution Register Uint16 TBPRD; // Time Base Period Register Uint16 rsvd18[6]; // Reserved union CMPA_REG CMPA; // Counter Compare A Register union CMPB_REG CMPB; // Compare B Register Uint16 rsvd19; // Reserved Uint16 CMPC; // Counter Compare C Register Uint16 rsvd20; // Reserved Uint16 CMPD; // Counter Compare D Register Uint16 rsvd21[2]; // Reserved union GLDCTL2_REG GLDCTL2; // Global PWM Load Control Register 2 Uint16 rsvd22[2]; // Reserved Uint16 SWVDELVAL; // Software Valley Mode Delay Register Uint16 rsvd23[8]; // Reserved union TZSEL_REG TZSEL; // Trip Zone Select Register Uint16 rsvd24; // Reserved union TZDCSEL_REG TZDCSEL; // Trip Zone Digital Comparator Select Register Uint16 rsvd25; // Reserved union TZCTL_REG TZCTL; // Trip Zone Control Register union TZCTL2_REG TZCTL2; // Additional Trip Zone Control Register union TZCTLDCA_REG TZCTLDCA; // Trip Zone Control Register Digital Compare A union TZCTLDCB_REG TZCTLDCB; // Trip Zone Control Register Digital Compare B Uint16 rsvd26[5]; // Reserved union TZEINT_REG TZEINT; // Trip Zone Enable Interrupt Register Uint16 rsvd27[5]; // Reserved union TZFLG_REG TZFLG; // Trip Zone Flag Register union TZCBCFLG_REG TZCBCFLG; // Trip Zone CBC Flag Register union TZOSTFLG_REG TZOSTFLG; // Trip Zone OST Flag Register Uint16 rsvd28; // Reserved union TZCLR_REG TZCLR; // Trip Zone Clear Register union TZCBCCLR_REG TZCBCCLR; // Trip Zone CBC Clear Register union TZOSTCLR_REG TZOSTCLR; // Trip Zone OST Clear Register Uint16 rsvd29; // Reserved union TZFRC_REG TZFRC; // Trip Zone Force Register Uint16 rsvd30[8]; // Reserved union ETSEL_REG ETSEL; // Event Trigger Selection Register Uint16 rsvd31; // Reserved union ETPS_REG ETPS; // Event Trigger Pre-Scale Register Uint16 rsvd32; // Reserved union ETFLG_REG ETFLG; // Event Trigger Flag Register Uint16 rsvd33; // Reserved union ETCLR_REG ETCLR; // Event Trigger Clear Register Uint16 rsvd34; // Reserved union ETFRC_REG ETFRC; // Event Trigger Force Register Uint16 rsvd35; // Reserved union ETINTPS_REG ETINTPS; // Event-Trigger Interrupt Pre-Scale Register Uint16 rsvd36; // Reserved union ETSOCPS_REG ETSOCPS; // Event-Trigger SOC Pre-Scale Register Uint16 rsvd37; // Reserved union ETCNTINITCTL_REG ETCNTINITCTL; // Event-Trigger Counter Initialization Control Register Uint16 rsvd38; // Reserved union ETCNTINIT_REG ETCNTINIT; // Event-Trigger Counter Initialization Register Uint16 rsvd39[11]; // Reserved union DCTRIPSEL_REG DCTRIPSEL; // Digital Compare Trip Select Register Uint16 rsvd40[2]; // Reserved union DCACTL_REG DCACTL; // Digital Compare A Control Register union DCBCTL_REG DCBCTL; // Digital Compare B Control Register Uint16 rsvd41[2]; // Reserved union DCFCTL_REG DCFCTL; // Digital Compare Filter Control Register union DCCAPCTL_REG DCCAPCTL; // Digital Compare Capture Control Register Uint16 DCFOFFSET; // Digital Compare Filter Offset Register Uint16 DCFOFFSETCNT; // Digital Compare Filter Offset Counter Register Uint16 DCFWINDOW; // Digital Compare Filter Window Register Uint16 DCFWINDOWCNT; // Digital Compare Filter Window Counter Register Uint16 rsvd42[2]; // Reserved Uint16 DCCAP; // Digital Compare Counter Capture Register Uint16 rsvd43[2]; // Reserved union DCAHTRIPSEL_REG DCAHTRIPSEL; // Digital Compare AH Trip Select union DCALTRIPSEL_REG DCALTRIPSEL; // Digital Compare AL Trip Select union DCBHTRIPSEL_REG DCBHTRIPSEL; // Digital Compare BH Trip Select union DCBLTRIPSEL_REG DCBLTRIPSEL; // Digital Compare BL Trip Select Uint16 rsvd44[39]; // Reserved Uint16 HWVDELVAL; // Hardware Valley Mode Delay Register Uint16 VCNTVAL; // Hardware Valley Counter Register Uint16 rsvd45; // Reserved }; //--------------------------------------------------------------------------- // EPWM External References & Function Declarations: // #ifdef CPU1 extern volatile struct EPWM_REGS EPwm1Regs; extern volatile struct EPWM_REGS EPwm2Regs; extern volatile struct EPWM_REGS EPwm3Regs; extern volatile struct EPWM_REGS EPwm4Regs; extern volatile struct EPWM_REGS EPwm5Regs; extern volatile struct EPWM_REGS EPwm6Regs; extern volatile struct EPWM_REGS EPwm7Regs; extern volatile struct EPWM_REGS EPwm8Regs; extern volatile struct EPWM_REGS EPwm9Regs; extern volatile struct EPWM_REGS EPwm10Regs; extern volatile struct EPWM_REGS EPwm11Regs; extern volatile struct EPWM_REGS EPwm12Regs; #endif #ifdef CPU2 extern volatile struct EPWM_REGS EPwm1Regs; extern volatile struct EPWM_REGS EPwm2Regs; extern volatile struct EPWM_REGS EPwm3Regs; extern volatile struct EPWM_REGS EPwm4Regs; extern volatile struct EPWM_REGS EPwm5Regs; extern volatile struct EPWM_REGS EPwm6Regs; extern volatile struct EPWM_REGS EPwm7Regs; extern volatile struct EPWM_REGS EPwm8Regs; extern volatile struct EPWM_REGS EPwm9Regs; extern volatile struct EPWM_REGS EPwm10Regs; extern volatile struct EPWM_REGS EPwm11Regs; extern volatile struct EPWM_REGS EPwm12Regs; #endif #ifdef __cplusplus } #endif /* extern "C" */ #endif //=========================================================================== // End of file. //===========================================================================