//########################################################################### // // FILE: F2806x_Mcbsp.h // // TITLE: F2806x Device McBSP Register Definitions. // //########################################################################### // $TI Release: F2806x Support Library v2.04.00.00 $ // $Release Date: Mon May 27 06:46:38 CDT 2019 $ // $Copyright: // Copyright (C) 2009-2019 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 F2806x_McBSP_H #define F2806x_McBSP_H #ifdef __cplusplus extern "C" { #endif // // McBSP Individual Register Bit Definitions: // struct DRR2_BITS { Uint16 HWLB:8; // 7:0 High word low byte Uint16 HWHB:8; // 15:8 High word high byte }; union DRR2_REG { Uint16 all; struct DRR2_BITS bit; }; struct DRR1_BITS { Uint16 LWLB:8; // 7:0 Low word low byte Uint16 LWHB:8; // 15:8 Low word high byte }; union DRR1_REG { Uint16 all; struct DRR1_BITS bit; }; struct DXR2_BITS { Uint16 HWLB:8; // 7:0 High word low byte Uint16 HWHB:8; // 15:8 High word high byte }; union DXR2_REG { Uint16 all; struct DXR2_BITS bit; }; struct DXR1_BITS { Uint16 LWLB:8; // 7:0 Low word low byte Uint16 LWHB:8; // 15:8 Low word high byte }; union DXR1_REG { Uint16 all; struct DXR1_BITS bit; }; struct SPCR2_BITS { Uint16 XRST:1; // 0 Transmitter reset Uint16 XRDY:1; // 1 Transmitter ready Uint16 XEMPTY:1; // 2 Transmitter empty Uint16 XSYNCERR:1; // 3 Transmit sync error INT flag Uint16 XINTM:2; // 5:4 Transmit Interupt mode bits Uint16 GRST:1; // 6 Sample rate generator reset Uint16 FRST:1; // 7 Frame sync logic reset Uint16 SOFT:1; // 8 SOFT bit Uint16 FREE:1; // 9 FREE bit Uint16 rsvd1:6; // 15:10 Reserved }; union SPCR2_REG { Uint16 all; struct SPCR2_BITS bit; }; struct SPCR1_BITS { Uint16 RRST:1; // 0 Receiver reset Uint16 RRDY:1; // 1 Receiver ready Uint16 RFULL:1; // 2 Receiver full Uint16 RSYNCERR:1; // 3 Receive sync error INT flag Uint16 RINTM:2; // 5:4 Receive Interupt mode bits Uint16 rsvd1:1; // 6 Reserved Uint16 DXENA:1; // 7 DX delay enable Uint16 rsvd2:3; // 10:8 Reserved Uint16 CLKSTP:2; // 12:11 Clock stop mode Uint16 RJUST:2; // 14:13 Rx sign extension and justification mode Uint16 DLB:1; // 15 Digital loopback }; union SPCR1_REG { Uint16 all; struct SPCR1_BITS bit; }; struct RCR2_BITS { Uint16 RDATDLY:2; // 1:0 Receive data delay Uint16 RFIG:1; // 2 Receive frame sync ignore Uint16 RCOMPAND:2; // 4:3 Receive Companding Mode selects Uint16 RWDLEN2:3; // 7:5 Receive word length 2 Uint16 RFRLEN2:7; // 14:8 Receive Frame length 2 Uint16 RPHASE:1; // 15 Receive Phase }; union RCR2_REG { Uint16 all; struct RCR2_BITS bit; }; struct RCR1_BITS { Uint16 rsvd1:5; // 4:0 Reserved Uint16 RWDLEN1:3; // 7:5 Receive word length 1 Uint16 RFRLEN1:7; // 14:8 Receive Frame length 1 Uint16 rsvd2:1; // 15 Reserved }; union RCR1_REG { Uint16 all; struct RCR1_BITS bit; }; struct XCR2_BITS { Uint16 XDATDLY:2; // 1:0 Transmit data delay Uint16 XFIG:1; // 2 Transmit frame sync ignore Uint16 XCOMPAND:2; // 4:3 Transmit Companding Mode selects Uint16 XWDLEN2:3; // 7:5 Transmit word length 2 Uint16 XFRLEN2:7; // 14:8 Transmit Frame length 2 Uint16 XPHASE:1; // 15 Transmit Phase }; union XCR2_REG { Uint16 all; struct XCR2_BITS bit; }; struct XCR1_BITS { Uint16 rsvd1:5; // 4:0 Reserved Uint16 XWDLEN1:3; // 7:5 Transmit word length 1 Uint16 XFRLEN1:7; // 14:8 Transmit Frame length 1 Uint16 rsvd2:1; // 15 Reserved }; union XCR1_REG { Uint16 all; struct XCR1_BITS bit; }; struct SRGR2_BITS { Uint16 FPER:12; // 11:0 Frame-sync period Uint16 FSGM:1; // 12 Frame sync generator mode Uint16 CLKSM:1; // 13 Sample rate generator mode Uint16 rsvd1:1; // 14 Reserved Uint16 GSYNC:1; // 15 CLKG sync }; union SRGR2_REG { Uint16 all; struct SRGR2_BITS bit; }; struct SRGR1_BITS { Uint16 CLKGDV:8; // 7:0 CLKG divider Uint16 FWID:8; // 15:8 Frame width }; union SRGR1_REG { Uint16 all; struct SRGR1_BITS bit; }; struct MCR2_BITS { Uint16 XMCM:2; // 1:0 Transmit multichannel mode Uint16 XCBLK:3; // 4:2 Transmit current block Uint16 XPABLK:2; // 6:5 Transmit partition A Block Uint16 XPBBLK:2; // 8:7 Transmit partition B Block Uint16 XMCME:1; // 9 Transmit multi-channel enhance mode Uint16 rsvd1:6; // 15:10 Reserved }; union MCR2_REG { Uint16 all; struct MCR2_BITS bit; }; struct MCR1_BITS { Uint16 RMCM:1; // 0 Receive multichannel mode Uint16 rsvd1:1; // 1 Reserved Uint16 RCBLK:3; // 4:2 Receive current block Uint16 RPABLK:2; // 6:5 Receive partition A Block Uint16 RPBBLK:2; // 8:7 Receive partition B Block Uint16 RMCME:1; // 9 Receive multi-channel enhance mode Uint16 rsvd2:6; // 15:10 Reserved }; union MCR1_REG { Uint16 all; struct MCR1_BITS bit; }; struct RCERA_BITS { Uint16 RCEA0:1; // 0 Receive Channel enable bit Uint16 RCEA1:1; // 1 Receive Channel enable bit Uint16 RCEA2:1; // 2 Receive Channel enable bit Uint16 RCEA3:1; // 3 Receive Channel enable bit Uint16 RCEA4:1; // 4 Receive Channel enable bit Uint16 RCEA5:1; // 5 Receive Channel enable bit Uint16 RCEA6:1; // 6 Receive Channel enable bit Uint16 RCEA7:1; // 7 Receive Channel enable bit Uint16 RCEA8:1; // 8 Receive Channel enable bit Uint16 RCEA9:1; // 9 Receive Channel enable bit Uint16 RCEA10:1; // 10 Receive Channel enable bit Uint16 RCEA11:1; // 11 Receive Channel enable bit Uint16 RCEA12:1; // 12 Receive Channel enable bit Uint16 RCEA13:1; // 13 Receive Channel enable bit Uint16 RCEA14:1; // 14 Receive Channel enable bit Uint16 RCEA15:1; // 15 Receive Channel enable bit }; union RCERA_REG { Uint16 all; struct RCERA_BITS bit; }; struct RCERB_BITS { Uint16 RCEB0:1; // 0 Receive Channel enable bit Uint16 RCEB1:1; // 1 Receive Channel enable bit Uint16 RCEB2:1; // 2 Receive Channel enable bit Uint16 RCEB3:1; // 3 Receive Channel enable bit Uint16 RCEB4:1; // 4 Receive Channel enable bit Uint16 RCEB5:1; // 5 Receive Channel enable bit Uint16 RCEB6:1; // 6 Receive Channel enable bit Uint16 RCEB7:1; // 7 Receive Channel enable bit Uint16 RCEB8:1; // 8 Receive Channel enable bit Uint16 RCEB9:1; // 9 Receive Channel enable bit Uint16 RCEB10:1; // 10 Receive Channel enable bit Uint16 RCEB11:1; // 11 Receive Channel enable bit Uint16 RCEB12:1; // 12 Receive Channel enable bit Uint16 RCEB13:1; // 13 Receive Channel enable bit Uint16 RCEB14:1; // 14 Receive Channel enable bit Uint16 RCEB15:1; // 15 Receive Channel enable bit }; union RCERB_REG { Uint16 all; struct RCERB_BITS bit; }; struct XCERA_BITS { Uint16 XCERA0:1; // 0 Transmit Channel enable bit Uint16 XCERA1:1; // 1 Transmit Channel enable bit Uint16 XCERA2:1; // 2 Transmit Channel enable bit Uint16 XCERA3:1; // 3 Transmit Channel enable bit Uint16 XCERA4:1; // 4 Transmit Channel enable bit Uint16 XCERA5:1; // 5 Transmit Channel enable bit Uint16 XCERA6:1; // 6 Transmit Channel enable bit Uint16 XCERA7:1; // 7 Transmit Channel enable bit Uint16 XCERA8:1; // 8 Transmit Channel enable bit Uint16 XCERA9:1; // 9 Transmit Channel enable bit Uint16 XCERA10:1; // 10 Transmit Channel enable bit Uint16 XCERA11:1; // 11 Transmit Channel enable bit Uint16 XCERA12:1; // 12 Transmit Channel enable bit Uint16 XCERA13:1; // 13 Transmit Channel enable bit Uint16 XCERA14:1; // 14 Transmit Channel enable bit Uint16 XCERA15:1; // 15 Transmit Channel enable bit }; union XCERA_REG { Uint16 all; struct XCERA_BITS bit; }; struct XCERB_BITS { Uint16 XCERB0:1; // 0 Transmit Channel enable bit Uint16 XCERB1:1; // 1 Transmit Channel enable bit Uint16 XCERB2:1; // 2 Transmit Channel enable bit Uint16 XCERB3:1; // 3 Transmit Channel enable bit Uint16 XCERB4:1; // 4 Transmit Channel enable bit Uint16 XCERB5:1; // 5 Transmit Channel enable bit Uint16 XCERB6:1; // 6 Transmit Channel enable bit Uint16 XCERB7:1; // 7 Transmit Channel enable bit Uint16 XCERB8:1; // 8 Transmit Channel enable bit Uint16 XCERB9:1; // 9 Transmit Channel enable bit Uint16 XCERB10:1; // 10 Transmit Channel enable bit Uint16 XCERB11:1; // 11 Transmit Channel enable bit Uint16 XCERB12:1; // 12 Transmit Channel enable bit Uint16 XCERB13:1; // 13 Transmit Channel enable bit Uint16 XCERB14:1; // 14 Transmit Channel enable bit Uint16 XCERB15:1; // 15 Transmit Channel enable bit }; union XCERB_REG { Uint16 all; struct XCERB_BITS bit; }; struct PCR_BITS { Uint16 CLKRP:1; // 0 Receive Clock polarity Uint16 CLKXP:1; // 1 Transmit clock polarity Uint16 FSRP:1; // 2 Receive Frame synchronization polarity Uint16 FSXP:1; // 3 Transmit Frame synchronization polarity Uint16 rsvd1:1; // 4 Reserved Uint16 rsvd2:1; // 5 Reserved Uint16 rsvd3:1; // 6 Reserved Uint16 SCLKME:1; // 7 Sample clock mode selection Uint16 CLKRM:1; // 8 Receiver Clock Mode Uint16 CLKXM:1; // 9 Transmit Clock Mode. Uint16 FSRM:1; // 10 Receive Frame Synchronization Mode Uint16 FSXM:1; // 11 Transmit Frame Synchronization Mode Uint16 rsvd4:4; // 15:12 Reserved }; union PCR_REG { Uint16 all; struct PCR_BITS bit; }; struct RCERC_BITS { Uint16 RCEC0:1; // 0 Receive Channel enable bit Uint16 RCEC1:1; // 1 Receive Channel enable bit Uint16 RCEC2:1; // 2 Receive Channel enable bit Uint16 RCEC3:1; // 3 Receive Channel enable bit Uint16 RCEC4:1; // 4 Receive Channel enable bit Uint16 RCEC5:1; // 5 Receive Channel enable bit Uint16 RCEC6:1; // 6 Receive Channel enable bit Uint16 RCEC7:1; // 7 Receive Channel enable bit Uint16 RCEC8:1; // 8 Receive Channel enable bit Uint16 RCEC9:1; // 9 Receive Channel enable bit Uint16 RCEC10:1; // 10 Receive Channel enable bit Uint16 RCEC11:1; // 11 Receive Channel enable bit Uint16 RCEC12:1; // 12 Receive Channel enable bit Uint16 RCEC13:1; // 13 Receive Channel enable bit Uint16 RCEC14:1; // 14 Receive Channel enable bit Uint16 RCEC15:1; // 15 Receive Channel enable bit }; union RCERC_REG { Uint16 all; struct RCERC_BITS bit; }; struct RCERD_BITS { Uint16 RCED0:1; // 0 Receive Channel enable bit Uint16 RCED1:1; // 1 Receive Channel enable bit Uint16 RCED2:1; // 2 Receive Channel enable bit Uint16 RCED3:1; // 3 Receive Channel enable bit Uint16 RCED4:1; // 4 Receive Channel enable bit Uint16 RCED5:1; // 5 Receive Channel enable bit Uint16 RCED6:1; // 6 Receive Channel enable bit Uint16 RCED7:1; // 7 Receive Channel enable bit Uint16 RCED8:1; // 8 Receive Channel enable bit Uint16 RCED9:1; // 9 Receive Channel enable bit Uint16 RCED10:1; // 10 Receive Channel enable bit Uint16 RCED11:1; // 11 Receive Channel enable bit Uint16 RCED12:1; // 12 Receive Channel enable bit Uint16 RCED13:1; // 13 Receive Channel enable bit Uint16 RCED14:1; // 14 Receive Channel enable bit Uint16 RCED15:1; // 15 Receive Channel enable bit }; union RCERD_REG { Uint16 all; struct RCERD_BITS bit; }; struct XCERC_BITS { Uint16 XCERC0:1; // 0 Transmit Channel enable bit Uint16 XCERC1:1; // 1 Transmit Channel enable bit Uint16 XCERC2:1; // 2 Transmit Channel enable bit Uint16 XCERC3:1; // 3 Transmit Channel enable bit Uint16 XCERC4:1; // 4 Transmit Channel enable bit Uint16 XCERC5:1; // 5 Transmit Channel enable bit Uint16 XCERC6:1; // 6 Transmit Channel enable bit Uint16 XCERC7:1; // 7 Transmit Channel enable bit Uint16 XCERC8:1; // 8 Transmit Channel enable bit Uint16 XCERC9:1; // 9 Transmit Channel enable bit Uint16 XCERC10:1; // 10 Transmit Channel enable bit Uint16 XCERC11:1; // 11 Transmit Channel enable bit Uint16 XCERC12:1; // 12 Transmit Channel enable bit Uint16 XCERC13:1; // 13 Transmit Channel enable bit Uint16 XCERC14:1; // 14 Transmit Channel enable bit Uint16 XCERC15:1; // 15 Transmit Channel enable bit }; union XCERC_REG { Uint16 all; struct XCERC_BITS bit; }; struct XCERD_BITS { Uint16 XCERD0:1; // 0 Transmit Channel enable bit Uint16 XCERD1:1; // 1 Transmit Channel enable bit Uint16 XCERD2:1; // 2 Transmit Channel enable bit Uint16 XCERD3:1; // 3 Transmit Channel enable bit Uint16 XCERD4:1; // 4 Transmit Channel enable bit Uint16 XCERD5:1; // 5 Transmit Channel enable bit Uint16 XCERD6:1; // 6 Transmit Channel enable bit Uint16 XCERD7:1; // 7 Transmit Channel enable bit Uint16 XCERD8:1; // 8 Transmit Channel enable bit Uint16 XCERD9:1; // 9 Transmit Channel enable bit Uint16 XCERD10:1; // 10 Transmit Channel enable bit Uint16 XCERD11:1; // 11 Transmit Channel enable bit Uint16 XCERD12:1; // 12 Transmit Channel enable bit Uint16 XCERD13:1; // 13 Transmit Channel enable bit Uint16 XCERD14:1; // 14 Transmit Channel enable bit Uint16 XCERD15:1; // 15 Transmit Channel enable bit }; union XCERD_REG { Uint16 all; struct XCERD_BITS bit; }; struct RCERE_BITS { Uint16 RCEE0:1; // 0 Receive Channel enable bit Uint16 RCEE1:1; // 1 Receive Channel enable bit Uint16 RCEE2:1; // 2 Receive Channel enable bit Uint16 RCEE3:1; // 3 Receive Channel enable bit Uint16 RCEE4:1; // 4 Receive Channel enable bit Uint16 RCEE5:1; // 5 Receive Channel enable bit Uint16 RCEE6:1; // 6 Receive Channel enable bit Uint16 RCEE7:1; // 7 Receive Channel enable bit Uint16 RCEE8:1; // 8 Receive Channel enable bit Uint16 RCEE9:1; // 9 Receive Channel enable bit Uint16 RCEE10:1; // 10 Receive Channel enable bit Uint16 RCEE11:1; // 11 Receive Channel enable bit Uint16 RCEE12:1; // 12 Receive Channel enable bit Uint16 RCEE13:1; // 13 Receive Channel enable bit Uint16 RCEE14:1; // 14 Receive Channel enable bit Uint16 RCEE15:1; // 15 Receive Channel enable bit }; union RCERE_REG { Uint16 all; struct RCERE_BITS bit; }; struct RCERF_BITS { Uint16 RCEF0:1; // 0 Receive Channel enable bit Uint16 RCEF1:1; // 1 Receive Channel enable bit Uint16 RCEF2:1; // 2 Receive Channel enable bit Uint16 RCEF3:1; // 3 Receive Channel enable bit Uint16 RCEF4:1; // 4 Receive Channel enable bit Uint16 RCEF5:1; // 5 Receive Channel enable bit Uint16 RCEF6:1; // 6 Receive Channel enable bit Uint16 RCEF7:1; // 7 Receive Channel enable bit Uint16 RCEF8:1; // 8 Receive Channel enable bit Uint16 RCEF9:1; // 9 Receive Channel enable bit Uint16 RCEF10:1; // 10 Receive Channel enable bit Uint16 RCEF11:1; // 11 Receive Channel enable bit Uint16 RCEF12:1; // 12 Receive Channel enable bit Uint16 RCEF13:1; // 13 Receive Channel enable bit Uint16 RCEF14:1; // 14 Receive Channel enable bit Uint16 RCEF15:1; // 15 Receive Channel enable bit }; union RCERF_REG { Uint16 all; struct RCERF_BITS bit; }; struct XCERE_BITS { Uint16 XCERE0:1; // 0 Transmit Channel enable bit Uint16 XCERE1:1; // 1 Transmit Channel enable bit Uint16 XCERE2:1; // 2 Transmit Channel enable bit Uint16 XCERE3:1; // 3 Transmit Channel enable bit Uint16 XCERE4:1; // 4 Transmit Channel enable bit Uint16 XCERE5:1; // 5 Transmit Channel enable bit Uint16 XCERE6:1; // 6 Transmit Channel enable bit Uint16 XCERE7:1; // 7 Transmit Channel enable bit Uint16 XCERE8:1; // 8 Transmit Channel enable bit Uint16 XCERE9:1; // 9 Transmit Channel enable bit Uint16 XCERE10:1; // 10 Transmit Channel enable bit Uint16 XCERE11:1; // 11 Transmit Channel enable bit Uint16 XCERE12:1; // 12 Transmit Channel enable bit Uint16 XCERE13:1; // 13 Transmit Channel enable bit Uint16 XCERE14:1; // 14 Transmit Channel enable bit Uint16 XCERE15:1; // 15 Transmit Channel enable bit }; union XCERE_REG { Uint16 all; struct XCERE_BITS bit; }; struct XCERF_BITS { Uint16 XCERF0:1; // 0 Transmit Channel enable bit Uint16 XCERF1:1; // 1 Transmit Channel enable bit Uint16 XCERF2:1; // 2 Transmit Channel enable bit Uint16 XCERF3:1; // 3 Transmit Channel enable bit Uint16 XCERF4:1; // 4 Transmit Channel enable bit Uint16 XCERF5:1; // 5 Transmit Channel enable bit Uint16 XCERF6:1; // 6 Transmit Channel enable bit Uint16 XCERF7:1; // 7 Transmit Channel enable bit Uint16 XCERF8:1; // 8 Transmit Channel enable bit Uint16 XCERF9:1; // 9 Transmit Channel enable bit Uint16 XCERF10:1; // 10 Transmit Channel enable bit Uint16 XCERF11:1; // 11 Transmit Channel enable bit Uint16 XCERF12:1; // 12 Transmit Channel enable bit Uint16 XCERF13:1; // 13 Transmit Channel enable bit Uint16 XCERF14:1; // 14 Transmit Channel enable bit Uint16 XCERF15:1; // 15 Transmit Channel enable bit }; union XCERF_REG { Uint16 all; struct XCERF_BITS bit; }; struct RCERG_BITS { Uint16 RCEG0:1; // 0 Receive Channel enable bit Uint16 RCEG1:1; // 1 Receive Channel enable bit Uint16 RCEG2:1; // 2 Receive Channel enable bit Uint16 RCEG3:1; // 3 Receive Channel enable bit Uint16 RCEG4:1; // 4 Receive Channel enable bit Uint16 RCEG5:1; // 5 Receive Channel enable bit Uint16 RCEG6:1; // 6 Receive Channel enable bit Uint16 RCEG7:1; // 7 Receive Channel enable bit Uint16 RCEG8:1; // 8 Receive Channel enable bit Uint16 RCEG9:1; // 9 Receive Channel enable bit Uint16 RCEG10:1; // 10 Receive Channel enable bit Uint16 RCEG11:1; // 11 Receive Channel enable bit Uint16 RCEG12:1; // 12 Receive Channel enable bit Uint16 RCEG13:1; // 13 Receive Channel enable bit Uint16 RCEG14:1; // 14 Receive Channel enable bit Uint16 RCEG15:1; // 15 Receive Channel enable bit }; union RCERG_REG { Uint16 all; struct RCERG_BITS bit; }; struct RCERH_BITS { Uint16 RCEH0:1; // 0 Receive Channel enable bit Uint16 RCEH1:1; // 1 Receive Channel enable bit Uint16 RCEH2:1; // 2 Receive Channel enable bit Uint16 RCEH3:1; // 3 Receive Channel enable bit Uint16 RCEH4:1; // 4 Receive Channel enable bit Uint16 RCEH5:1; // 5 Receive Channel enable bit Uint16 RCEH6:1; // 6 Receive Channel enable bit Uint16 RCEH7:1; // 7 Receive Channel enable bit Uint16 RCEH8:1; // 8 Receive Channel enable bit Uint16 RCEH9:1; // 9 Receive Channel enable bit Uint16 RCEH10:1; // 10 Receive Channel enable bit Uint16 RCEH11:1; // 11 Receive Channel enable bit Uint16 RCEH12:1; // 12 Receive Channel enable bit Uint16 RCEH13:1; // 13 Receive Channel enable bit Uint16 RCEH14:1; // 14 Receive Channel enable bit Uint16 RCEH15:1; // 15 Receive Channel enable bit }; union RCERH_REG { Uint16 all; struct RCERH_BITS bit; }; struct XCERG_BITS { Uint16 XCERG0:1; // 0 Transmit Channel enable bit Uint16 XCERG1:1; // 1 Transmit Channel enable bit Uint16 XCERG2:1; // 2 Transmit Channel enable bit Uint16 XCERG3:1; // 3 Transmit Channel enable bit Uint16 XCERG4:1; // 4 Transmit Channel enable bit Uint16 XCERG5:1; // 5 Transmit Channel enable bit Uint16 XCERG6:1; // 6 Transmit Channel enable bit Uint16 XCERG7:1; // 7 Transmit Channel enable bit Uint16 XCERG8:1; // 8 Transmit Channel enable bit Uint16 XCERG9:1; // 9 Transmit Channel enable bit Uint16 XCERG10:1; // 10 Transmit Channel enable bit Uint16 XCERG11:1; // 11 Transmit Channel enable bit Uint16 XCERG12:1; // 12 Transmit Channel enable bit Uint16 XCERG13:1; // 13 Transmit Channel enable bit Uint16 XCERG14:1; // 14 Transmit Channel enable bit Uint16 XCERG15:1; // 15 Transmit Channel enable bit }; union XCERG_REG { Uint16 all; struct XCERG_BITS bit; }; struct XCERH_BITS { Uint16 XCERH0:1; // 0 Transmit Channel enable bit Uint16 XCERH1:1; // 1 Transmit Channel enable bit Uint16 XCERH2:1; // 2 Transmit Channel enable bit Uint16 XCERH3:1; // 3 Transmit Channel enable bit Uint16 XCERH4:1; // 4 Transmit Channel enable bit Uint16 XCERH5:1; // 5 Transmit Channel enable bit Uint16 XCERH6:1; // 6 Transmit Channel enable bit Uint16 XCERH7:1; // 7 Transmit Channel enable bit Uint16 XCERH8:1; // 8 Transmit Channel enable bit Uint16 XCERH9:1; // 9 Transmit Channel enable bit Uint16 XCERH10:1; // 10 Transmit Channel enable bit Uint16 XCERH11:1; // 11 Transmit Channel enable bit Uint16 XCERH12:1; // 12 Transmit Channel enable bit Uint16 XCERH13:1; // 13 Transmit Channel enable bit Uint16 XCERH14:1; // 14 Transmit Channel enable bit Uint16 XCERH15:1; // 15 Transmit Channel enable bit }; union XCERH_REG { Uint16 all; struct XCERH_BITS bit; }; struct MFFINT_BITS { Uint16 XINT:1; // 0 XINT interrupt enable Uint16 rsvd1:1; // 1 Reserved Uint16 RINT:1; // 2 RINT interrupt enable Uint16 rsvd2:13; // 15:3 Reserved }; union MFFINT_REG { Uint16 all; struct MFFINT_BITS bit; }; struct McBSP_REGS { union DRR2_REG DRR2; // Data receive register bits 31-16 union DRR1_REG DRR1; // Data receive register bits 15-0 union DXR2_REG DXR2; // Data transmit register bits 31-16 union DXR1_REG DXR1; // Data transmit register bits 15-0 union SPCR2_REG SPCR2; // Control register 2 union SPCR1_REG SPCR1; // Control register 1 union RCR2_REG RCR2; // Receive Control register 2 union RCR1_REG RCR1; // Receive Control register 1 union XCR2_REG XCR2; // Transmit Control register 2 union XCR1_REG XCR1; // Transmit Control register 1 union SRGR2_REG SRGR2; // Sample rate generator register 2 union SRGR1_REG SRGR1; // Sample rate generator register 1 union MCR2_REG MCR2; // Multi-channel register 2 union MCR1_REG MCR1; // Multi-channel register 1 union RCERA_REG RCERA; // Receive channel enable partition A union RCERB_REG RCERB; // Receive channel enable partition B union XCERA_REG XCERA; // Transmit channel enable partition A union XCERB_REG XCERB; // Transmit channel enable partition B union PCR_REG PCR; // Pin Control register union RCERC_REG RCERC; // Receive channel enable partition C union RCERD_REG RCERD; // Receive channel enable partition D union XCERC_REG XCERC; // Transmit channel enable partition C union XCERD_REG XCERD; // Transmit channel enable partition D union RCERE_REG RCERE; // Receive channel enable partition E union RCERF_REG RCERF; // Receive channel enable partition F union XCERE_REG XCERE; // Transmit channel enable partition E union XCERF_REG XCERF; // Transmit channel enable partition F union RCERG_REG RCERG; // Receive channel enable partition G union RCERH_REG RCERH; // Receive channel enable partition H union XCERG_REG XCERG; // Transmit channel enable partition G union XCERH_REG XCERH; // Transmit channel enable partition H Uint16 rsvd1[4]; // Reserved union MFFINT_REG MFFINT; // Interrupt enable }; // // Mcbsp External References & Function Declarations: // extern volatile struct McBSP_REGS McbspaRegs; #ifdef __cplusplus } #endif /* extern "C" */ #endif // end of F2806x_McBSP_H definition // // End of file. //