rt-thread/bsp/ti/c28x/libraries/tms320f28379d/headers/include/F2837xD_eqep.h

268 lines
13 KiB
C

//###########################################################################
//
// FILE: F2837xD_eqep.h
//
// TITLE: EQEP 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_EQEP_H__
#define __F2837xD_EQEP_H__
#ifdef __cplusplus
extern "C" {
#endif
//---------------------------------------------------------------------------
// EQEP Individual Register Bit Definitions:
struct QDECCTL_BITS { // bits description
Uint16 rsvd1:5; // 4:0 Reserved
Uint16 QSP:1; // 5 QEPS input polarity
Uint16 QIP:1; // 6 QEPI input polarity
Uint16 QBP:1; // 7 QEPB input polarity
Uint16 QAP:1; // 8 QEPA input polarity
Uint16 IGATE:1; // 9 Index pulse gating option
Uint16 SWAP:1; // 10 CLK/DIR Signal Source for Position Counter
Uint16 XCR:1; // 11 External Clock Rate
Uint16 SPSEL:1; // 12 Sync output pin selection
Uint16 SOEN:1; // 13 Sync output-enable
Uint16 QSRC:2; // 15:14 Position-counter source selection
};
union QDECCTL_REG {
Uint16 all;
struct QDECCTL_BITS bit;
};
struct QEPCTL_BITS { // bits description
Uint16 WDE:1; // 0 QEP watchdog enable
Uint16 UTE:1; // 1 QEP unit timer enable
Uint16 QCLM:1; // 2 QEP capture latch mode
Uint16 QPEN:1; // 3 Quadrature postotion counter enable
Uint16 IEL:2; // 5:4 Index event latch
Uint16 SEL:1; // 6 Strobe event latch
Uint16 SWI:1; // 7 Software init position counter
Uint16 IEI:2; // 9:8 Index event init of position count
Uint16 SEI:2; // 11:10 Strobe event init
Uint16 PCRM:2; // 13:12 Postion counter reset
Uint16 FREE_SOFT:2; // 15:14 Emulation mode
};
union QEPCTL_REG {
Uint16 all;
struct QEPCTL_BITS bit;
};
struct QCAPCTL_BITS { // bits description
Uint16 UPPS:4; // 3:0 Unit position event prescaler
Uint16 CCPS:3; // 6:4 eQEP capture timer clock prescaler
Uint16 rsvd1:8; // 14:7 Reserved
Uint16 CEN:1; // 15 Enable eQEP capture
};
union QCAPCTL_REG {
Uint16 all;
struct QCAPCTL_BITS bit;
};
struct QPOSCTL_BITS { // bits description
Uint16 PCSPW:12; // 11:0 Position compare sync pulse width
Uint16 PCE:1; // 12 Position compare enable/disable
Uint16 PCPOL:1; // 13 Polarity of sync output
Uint16 PCLOAD:1; // 14 Position compare of shadow load
Uint16 PCSHDW:1; // 15 Position compare of shadow enable
};
union QPOSCTL_REG {
Uint16 all;
struct QPOSCTL_BITS bit;
};
struct QEINT_BITS { // bits description
Uint16 rsvd1:1; // 0 Reserved
Uint16 PCE:1; // 1 Position counter error interrupt enable
Uint16 QPE:1; // 2 Quadrature phase error interrupt enable
Uint16 QDC:1; // 3 Quadrature direction change interrupt enable
Uint16 WTO:1; // 4 Watchdog time out interrupt enable
Uint16 PCU:1; // 5 Position counter underflow interrupt enable
Uint16 PCO:1; // 6 Position counter overflow interrupt enable
Uint16 PCR:1; // 7 Position-compare ready interrupt enable
Uint16 PCM:1; // 8 Position-compare match interrupt enable
Uint16 SEL:1; // 9 Strobe event latch interrupt enable
Uint16 IEL:1; // 10 Index event latch interrupt enable
Uint16 UTO:1; // 11 Unit time out interrupt enable
Uint16 rsvd2:4; // 15:12 Reserved
};
union QEINT_REG {
Uint16 all;
struct QEINT_BITS bit;
};
struct QFLG_BITS { // bits description
Uint16 INT:1; // 0 Global interrupt status flag
Uint16 PCE:1; // 1 Position counter error interrupt flag
Uint16 PHE:1; // 2 Quadrature phase error interrupt flag
Uint16 QDC:1; // 3 Quadrature direction change interrupt flag
Uint16 WTO:1; // 4 Watchdog timeout interrupt flag
Uint16 PCU:1; // 5 Position counter underflow interrupt flag
Uint16 PCO:1; // 6 Position counter overflow interrupt flag
Uint16 PCR:1; // 7 Position-compare ready interrupt flag
Uint16 PCM:1; // 8 eQEP compare match event interrupt flag
Uint16 SEL:1; // 9 Strobe event latch interrupt flag
Uint16 IEL:1; // 10 Index event latch interrupt flag
Uint16 UTO:1; // 11 Unit time out interrupt flag
Uint16 rsvd1:4; // 15:12 Reserved
};
union QFLG_REG {
Uint16 all;
struct QFLG_BITS bit;
};
struct QCLR_BITS { // bits description
Uint16 INT:1; // 0 Global interrupt clear flag
Uint16 PCE:1; // 1 Clear position counter error interrupt flag
Uint16 PHE:1; // 2 Clear quadrature phase error interrupt flag
Uint16 QDC:1; // 3 Clear quadrature direction change interrupt flag
Uint16 WTO:1; // 4 Clear watchdog timeout interrupt flag
Uint16 PCU:1; // 5 Clear position counter underflow interrupt flag
Uint16 PCO:1; // 6 Clear position counter overflow interrupt flag
Uint16 PCR:1; // 7 Clear position-compare ready interrupt flag
Uint16 PCM:1; // 8 Clear eQEP compare match event interrupt flag
Uint16 SEL:1; // 9 Clear strobe event latch interrupt flag
Uint16 IEL:1; // 10 Clear index event latch interrupt flag
Uint16 UTO:1; // 11 Clear unit time out interrupt flag
Uint16 rsvd1:4; // 15:12 Reserved
};
union QCLR_REG {
Uint16 all;
struct QCLR_BITS bit;
};
struct QFRC_BITS { // bits description
Uint16 rsvd1:1; // 0 Reserved
Uint16 PCE:1; // 1 Force position counter error interrupt
Uint16 PHE:1; // 2 Force quadrature phase error interrupt
Uint16 QDC:1; // 3 Force quadrature direction change interrupt
Uint16 WTO:1; // 4 Force watchdog time out interrupt
Uint16 PCU:1; // 5 Force position counter underflow interrupt
Uint16 PCO:1; // 6 Force position counter overflow interrupt
Uint16 PCR:1; // 7 Force position-compare ready interrupt
Uint16 PCM:1; // 8 Force position-compare match interrupt
Uint16 SEL:1; // 9 Force strobe event latch interrupt
Uint16 IEL:1; // 10 Force index event latch interrupt
Uint16 UTO:1; // 11 Force unit time out interrupt
Uint16 rsvd2:4; // 15:12 Reserved
};
union QFRC_REG {
Uint16 all;
struct QFRC_BITS bit;
};
struct QEPSTS_BITS { // bits description
Uint16 PCEF:1; // 0 Position counter error flag.
Uint16 FIMF:1; // 1 First index marker flag
Uint16 CDEF:1; // 2 Capture direction error flag
Uint16 COEF:1; // 3 Capture overflow error flag
Uint16 QDLF:1; // 4 eQEP direction latch flag
Uint16 QDF:1; // 5 Quadrature direction flag
Uint16 FIDF:1; // 6 The first index marker
Uint16 UPEVNT:1; // 7 Unit position event flag
Uint16 rsvd1:8; // 15:8 Reserved
};
union QEPSTS_REG {
Uint16 all;
struct QEPSTS_BITS bit;
};
struct EQEP_REGS {
Uint32 QPOSCNT; // Position Counter
Uint32 QPOSINIT; // Position Counter Init
Uint32 QPOSMAX; // Maximum Position Count
Uint32 QPOSCMP; // Position Compare
Uint32 QPOSILAT; // Index Position Latch
Uint32 QPOSSLAT; // Strobe Position Latch
Uint32 QPOSLAT; // Position Latch
Uint32 QUTMR; // QEP Unit Timer
Uint32 QUPRD; // QEP Unit Period
Uint16 QWDTMR; // QEP Watchdog Timer
Uint16 QWDPRD; // QEP Watchdog Period
union QDECCTL_REG QDECCTL; // Quadrature Decoder Control
union QEPCTL_REG QEPCTL; // QEP Control
union QCAPCTL_REG QCAPCTL; // Qaudrature Capture Control
union QPOSCTL_REG QPOSCTL; // Position Compare Control
union QEINT_REG QEINT; // QEP Interrupt Control
union QFLG_REG QFLG; // QEP Interrupt Flag
union QCLR_REG QCLR; // QEP Interrupt Clear
union QFRC_REG QFRC; // QEP Interrupt Force
union QEPSTS_REG QEPSTS; // QEP Status
Uint16 QCTMR; // QEP Capture Timer
Uint16 QCPRD; // QEP Capture Period
Uint16 QCTMRLAT; // QEP Capture Latch
Uint16 QCPRDLAT; // QEP Capture Period Latch
Uint16 rsvd1; // Reserved
};
//---------------------------------------------------------------------------
// EQEP External References & Function Declarations:
//
#ifdef CPU1
extern volatile struct EQEP_REGS EQep1Regs;
extern volatile struct EQEP_REGS EQep2Regs;
extern volatile struct EQEP_REGS EQep3Regs;
#endif
#ifdef CPU2
extern volatile struct EQEP_REGS EQep1Regs;
extern volatile struct EQEP_REGS EQep2Regs;
extern volatile struct EQEP_REGS EQep3Regs;
#endif
#ifdef __cplusplus
}
#endif /* extern "C" */
#endif
//===========================================================================
// End of file.
//===========================================================================