/*******************************************************************************
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* CTS_HAL.c - Hardware abstraction of various combinations of modules to
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* perform a capacitance measurement.
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*
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* Copyright (C) 2011 Texas Instruments Incorporated - http://www.ti.com/
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions
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* are met:
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*
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* Redistributions of source code must retain the above copyright
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* notice, this list of conditions and the following disclaimer.
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*
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* Redistributions in binary form must reproduce the above copyright
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* notice, this list of conditions and the following disclaimer in the
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* documentation and/or other materials provided with the
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* distribution.
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*
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* Neither the name of Texas Instruments Incorporated nor the names of
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* its contributors may be used to endorse or promote products derived
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* from this software without specific prior written permission.
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*
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* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
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* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
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* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
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* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
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* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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*
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******************************************************************************/
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/***************************************************************************//**
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* @file CTS_HAL.c
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*
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* @brief
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*
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* @par Project:
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* MSP430 Capacitive Touch Library
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*
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* @par Developed using:
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* IAR Version : 5.10.6 [Kickstart] (5.10.6.30180)
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* CCS Version : 4.2.1.00004, w/support for GCC extensions (--gcc)
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*
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*
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* @version 1.0.0 Initial Release
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*
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* @par Supported Hardware Configurations:
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* - TI_CTS_RO_COMPAp_TA0_WDTp_HAL()
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* - TI_CTS_fRO_COMPAp_TA0_SW_HAL()
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* - TI_CTS_fRO_COMPAp_SW_TA0_HAL()
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* - TI_CTS_RO_COMPAp_TA1_WDTp_HAL()
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* - TI_CTS_fRO_COMPAp_TA1_SW_HAL()
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* - TI_CTS_RC_PAIR_TA0_HAL()
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* - TI_CTS_RO_PINOSC_TA0_WDTp_HAL()
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* - TI_CTS_RO_PINOSC_TA0_HAL()
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* - TI_CTS_fRO_PINOSC_TA0_SW_HAL()
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* - TI_CTS_RO_COMPB_TA0_WDTA_HAL()
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* - TI_CTS_RO_COMPB_TA1_WDTA_HAL()
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* - TI_CTS_fRO_COMPB_TA0_SW_HAL()
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* - TI_CTS_fRO_COMPB_TA1_SW_HAL()
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******************************************************************************/
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/***************************************************************************//**
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* @addtogroup CTS_HAL
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* @{
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******************************************************************************/
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#include "CTS_HAL.h"
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#ifdef RO_COMPAp_TA0_WDTp
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/***************************************************************************//**
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* @brief RO method capactiance measurement using CompA+, TimerA0, and WDT+
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*
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* \n Schematic Description of CompA+ forming relaxation oscillator and
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* coupling (connection) between the relaxation oscillator and TimerA0.
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* \n <- Output
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* \n -> Input
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* \n R Resistor (typically 100Kohms)
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* \n
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* \n +-<-Px.y (reference)
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* \n |
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* \n R
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* \n |
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* \n +---+-->COMPA+
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* \n | |
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* \n R R
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* \n | |
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* \n GND |
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* \n |
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* \n +-->TACLK
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* \n |
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* \n element-+-R--+-<-CAOUT
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* \n |
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* \n +------->COMPA-
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* \n
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* \n The WDT+ interval represents the measurement window. The number of
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* counts within the TA0R that have accumulated during the measurement
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* window represents the capacitance of the element.
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*
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* @param group Address of the structure describing the Sensor to be measured
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* @param counts Address to where the measurements are to be written
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* @return none
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******************************************************************************/
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void TI_CTS_RO_COMPAp_TA0_WDTp_HAL(const struct Sensor *group, uint16_t *counts)
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{
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uint8_t i;
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//** Context Save
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// Status Register:
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// WDTp: IE1, WDTCTL
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// TIMERA0: TACTL, TACCTL1
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// COMPAp: CACTL1, CACTL2, CAPD
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// Ports: caoutDIR, caoutSel, txclkDIR, txclkSel, caoutSel2, txclkSel2, refout, refdir
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uint8_t contextSaveSR;
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uint8_t contextSaveIE1;
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uint16_t contextSaveWDTCTL;
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uint16_t contextSaveTACTL,contextSaveTACCTL1,contextSaveTACCR1;
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uint8_t contextSaveCACTL1,contextSaveCACTL2,contextSaveCAPD;
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uint8_t contextSaveCaoutDir,contextSaveCaoutSel;
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uint8_t contextSavetxclkDir,contextSavetxclkSel;
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uint8_t contextSaveRefDir,contextSaveRefOutSel;
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#ifdef SEL2REGISTER
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uint8_t contextSaveCaoutSel2,contextSaveTxclkSel2;
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contextSaveCaoutSel2 = *(group->caoutSel2Register);
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contextSaveTxclkSel2 = *(group->txclkSel2Register);
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#endif
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contextSaveSR = __get_SR_register();
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contextSaveIE1 = IE1;
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contextSaveWDTCTL = WDTCTL;
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contextSaveWDTCTL &= 0x00FF;
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contextSaveWDTCTL |= WDTPW;
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contextSaveTACTL = TACTL;
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contextSaveTACCTL1 = TACCTL1;
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contextSaveTACCR1 = TACCR1;
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contextSaveCACTL1 = CACTL1;
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contextSaveCACTL2 = CACTL2;
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contextSaveCAPD = CAPD;
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contextSaveCaoutDir = *(group->caoutDirRegister);
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contextSaveCaoutSel = *(group->caoutSelRegister);
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contextSavetxclkDir = *(group->txclkDirRegister);
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contextSavetxclkSel = *(group->txclkSelRegister);
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contextSaveRefDir = *(group->refPxdirRegister);
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contextSaveRefOutSel = *(group->refPxoutRegister);
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TACTL = TASSEL_0+MC_2; // TACLK, cont mode
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TACCTL1 = CM_3+CCIS_2+CAP; // Pos&Neg,GND,Cap
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*(group->caoutDirRegister) |= group->caoutBits;
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*(group->txclkDirRegister) &= ~group->txclkBits;
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*(group->caoutSelRegister) |= group->caoutBits;
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*(group->txclkSelRegister) |= group->txclkBits;
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#ifdef SEL2REGISTER
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*(group->caoutSel2Register) |= group->caoutBits;
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*(group->txclkSel2Register) |= group->txclkBits;
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#endif
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*(group->refPxdirRegister) |= group->refBits;
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*(group->refPxoutRegister) |= group->refBits;
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CACTL1 |= CAON; // Turn on comparator
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CAPD |= (group->capdBits);
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IE1 |= WDTIE; // enable WDT interrupt
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for (i = 0; i<(group->numElements); i++)
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{
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CACTL2= group->refCactl2Bits + (group->arrayPtr[i])->inputBits;
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//** Setup Gate Timer *****************************************************
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// Set duration of sensor measurment
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WDTCTL = WDTPW+WDTTMSEL+ group->measGateSource + group->accumulationCycles;
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TACTL |= TACLR; // Clear Timer_A TAR
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__bis_SR_register(LPM0_bits+GIE); // Wait for WDT interrupt
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TACCTL1 ^= CCIS0; // Create SW capture of CCR1
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counts[i] = TACCR1; // Save result
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WDTCTL = WDTPW + WDTHOLD; // Stop watchdog timer
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}
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// End Sequence
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//** Context Restore
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// WDTp: IE1, WDCTL
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// TIMERA0: TACTL, TACCTL1
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// COMPAp: CACTL1, CACTL2, CAPD
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// Ports: caoutDIR, caoutSel, txclkDIR, txclkSel, caoutSel2, txclkSel2, refout, refdir
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#ifdef SEL2REGISTER
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*(group->caoutSel2Register) = contextSaveCaoutSel2;
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*(group->txclkSel2Register) = contextSaveTxclkSel2;
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#endif
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__bis_SR_register(contextSaveSR);
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if(!(contextSaveSR & GIE))
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{
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__bic_SR_register(GIE); // Wait for WDT interrupt
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}
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IE1 = contextSaveIE1;
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WDTCTL = contextSaveWDTCTL;
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TACTL = contextSaveTACTL;
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TACCTL1 = contextSaveTACCTL1;
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TACCR1 = contextSaveTACCR1;
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CACTL1 = contextSaveCACTL1;
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CACTL2 = contextSaveCACTL2;
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CAPD = contextSaveCAPD;
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*(group->caoutDirRegister) = contextSaveCaoutDir;
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*(group->caoutSelRegister) = contextSaveCaoutSel;
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*(group->txclkDirRegister) = contextSavetxclkDir;
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*(group->txclkSelRegister) = contextSavetxclkSel;
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*(group->refPxdirRegister) = contextSaveRefDir;
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*(group->refPxoutRegister) = contextSaveRefOutSel;
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}
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#endif
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#ifdef fRO_COMPAp_TA0_SW
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/***************************************************************************//**
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* @brief RO method capactiance measurement using CompA+, TimerA0, and SW loop
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*
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* \n Schematic Description of CompA+ forming relaxation oscillator.
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|
* \n <- Output
|
|
* \n -> Input
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|
* \n R Resistor (typically 100Kohms)
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* \n
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* \n +-<-Px.y (reference)
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* \n |
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* \n R
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* \n |
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* \n +---+-->COMPA+
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* \n | |
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* \n R R
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* \n | |
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* \n GND |
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* \n |
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* \n +-->TACLK
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* \n |
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* \n element-+-R--+-<-CAOUT
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* \n |
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* \n +------->COMPA-
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* \n
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* \n The timer counts to TA0CCR0 representing the measurement window. The
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* number of counts within the SW loop that have accumulated during the
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* measurement window represents the capacitance of the element.
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*
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* @param group Address of the structure describing the Sensor to be measured
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* @param counts Address to where the measurements are to be written
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* @return none
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******************************************************************************/
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void TI_CTS_fRO_COMPAp_TA0_SW_HAL(const struct Sensor *group, uint16_t *counts)
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{
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uint8_t i;
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uint16_t j;
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//** Context Save
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// Status Register:
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// TIMERA0: TACTL, TACCTL0
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// COMPAp: CACTL1, CACTL2, CAPD
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// Ports: caoutDIR, caoutSel, txclkDIR, txclkSel, caoutSel2, txclkSel2, refout, refdir
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uint16_t contextSaveTACTL,contextSaveTACCTL0,contextSaveTACCR0;
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uint8_t contextSaveCACTL1,contextSaveCACTL2,contextSaveCAPD;
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uint8_t contextSaveCaoutDir,contextSaveCaoutSel;
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uint8_t contextSavetxclkDir,contextSavetxclkSel;
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uint8_t contextSaveRefDir,contextSaveRefOutSel;
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#ifdef SEL2REGISTER
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uint8_t contextSaveCaoutSel2,contextSaveTxclkSel2;
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contextSaveCaoutSel2 = *(group->caoutSel2Register);
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contextSaveTxclkSel2 = *(group->txclkSel2Register);
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#endif
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contextSaveTACTL = TACTL;
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contextSaveTACCTL0 = TACCTL0;
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contextSaveTACCR0 = TACCR0;
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contextSaveCACTL1 = CACTL1;
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contextSaveCACTL2 = CACTL2;
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contextSaveCAPD = CAPD;
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contextSaveCaoutDir = *(group->caoutDirRegister);
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contextSaveCaoutSel = *(group->caoutSelRegister);
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contextSavetxclkDir = *(group->txclkDirRegister);
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contextSavetxclkSel = *(group->txclkSelRegister);
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contextSaveRefDir = *(group->refPxdirRegister);
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contextSaveRefOutSel = *(group->refPxoutRegister);
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//** Setup Measurement timer***************************************************
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// Configure Timer TA0
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TACCR0 =(group->accumulationCycles);
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TACCTL0 &= ~CAP;
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// setup connections between CAOUT and TA0
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*(group->caoutDirRegister) |= group->caoutBits;
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*(group->txclkDirRegister) &= ~group->txclkBits;
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*(group->caoutSelRegister) |= group->caoutBits;
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*(group->txclkSelRegister) |= group->txclkBits;
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#ifdef SEL2REGISTER
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*(group->caoutSel2Register) |= group->caoutBits;
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*(group->txclkSel2Register) |= group->txclkBits;
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#endif
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// setup reference
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*(group->refPxdirRegister) |= group->refBits;
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*(group->refPxoutRegister) |= group->refBits;
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CACTL1 |= CAON; // Turn on comparator
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CAPD |= (group->capdBits);
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for (i = 0; i<(group->numElements); i++)
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{
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j=0;
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CACTL2= group->refCactl2Bits + (group->arrayPtr[i])->inputBits;
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//** Setup Gate Timer **************
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// Set duration of sensor measurment
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TACTL = TASSEL_0+TACLR+MC_1; // TACLK
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while(!(TACTL & TAIFG))
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{
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j++;
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} // end accumulation
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counts[i] = j;
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}
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// End Sequence
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//** Context Restore
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// TIMERA0: TACTL, TACCTL1
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// COMPAp: CACTL1, CACTL2, CAPD
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// Ports: caoutDIR, caoutSel, txclkDIR, txclkSel, caoutSel2, txclkSel2, refout, refdir
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#ifdef SEL2REGISTER
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*(group->caoutSel2Register) = contextSaveCaoutSel2;
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*(group->txclkSel2Register) = contextSaveTxclkSel2;
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#endif
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TACTL = contextSaveTACTL;
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TACCTL0 = contextSaveTACCTL0;
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TACCR0 = contextSaveTACCR0;
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CACTL1 = contextSaveCACTL1;
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CACTL2 = contextSaveCACTL2;
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CAPD = contextSaveCAPD;
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*(group->caoutDirRegister) = contextSaveCaoutDir;
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*(group->caoutSelRegister) = contextSaveCaoutSel;
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*(group->txclkDirRegister) = contextSavetxclkDir;
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*(group->txclkSelRegister) = contextSavetxclkSel;
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*(group->refPxdirRegister) = contextSaveRefDir;
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*(group->refPxoutRegister) = contextSaveRefOutSel;
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}
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#endif
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#ifdef fRO_COMPAp_SW_TA0
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/***************************************************************************//**
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* @brief RO method capactiance measurement using CompA+, TimerA0, and SW loop
|
|
*
|
|
* \n Schematic Description of CompA+ forming relaxation oscillator.
|
|
* \n <- Output
|
|
* \n -> Input
|
|
* \n R Resistor (typically 100Kohms)
|
|
* \n
|
|
* \n +-<-Px.y (reference)
|
|
* \n |
|
|
* \n R
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|
* \n |
|
|
* \n +---+-->COMPA+
|
|
* \n | |
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|
* \n R R
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|
* \n | |
|
|
* \n GND |
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* \n |
|
|
* \n |
|
|
* \n element-+-R--+-<-CAOUT
|
|
* \n |
|
|
* \n +------->COMPA-
|
|
* \n
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|
* \n The SW loop counts to 'n' accumulationCycles, representing the
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|
* \n measurement window. The number of timer counts within TA0R register
|
|
* \n represents the capacitance of the element.
|
|
*
|
|
* @param group Address of the structure describing the Sensor to be measured
|
|
* @param counts Address to where the measurements are to be written
|
|
* @return none
|
|
******************************************************************************/
|
|
void TI_CTS_fRO_COMPAp_SW_TA0_HAL(const struct Sensor *group, uint16_t *counts)
|
|
{
|
|
uint8_t i;
|
|
uint16_t j;
|
|
//** Context Save
|
|
// Status Register:
|
|
// TIMERA0: TACTL, TACCTL0, TACCTL1
|
|
// COMPAp: CACTL1, CACTL2, CAPD
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|
// Ports: caoutDIR, caoutSel, caoutSel2, refout, refdir
|
|
uint16_t contextSaveTACTL,contextSaveTACCTL0,contextSaveTACCTL1;
|
|
uint16_t contextSaveTACCR0,contextSaveTACCR1;
|
|
uint8_t contextSaveCACTL1,contextSaveCACTL2,contextSaveCAPD;
|
|
uint8_t contextSaveCaoutDir,contextSaveCaoutSel;
|
|
uint8_t contextSaveRefDir,contextSaveRefOutSel;
|
|
#ifdef SEL2REGISTER
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|
uint8_t contextSaveCaoutSel2,contextSaveTxclkSel2;
|
|
|
|
contextSaveCaoutSel2 = *(group->caoutSel2Register);
|
|
#endif
|
|
contextSaveTACTL = TACTL;
|
|
contextSaveTACCTL0 = TACCTL0;
|
|
contextSaveTACCTL1 = TACCTL1;
|
|
contextSaveTACCR0 = TACCR0;
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|
contextSaveTACCR1 = TACCR1;
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|
contextSaveCACTL1 = CACTL1;
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|
contextSaveCACTL2 = CACTL2;
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|
contextSaveCAPD = CAPD;
|
|
contextSaveCaoutDir = *(group->caoutDirRegister);
|
|
contextSaveCaoutSel = *(group->caoutSelRegister);
|
|
contextSaveRefDir = *(group->refPxdirRegister);
|
|
contextSaveRefOutSel = *(group->refPxoutRegister);
|
|
//** Setup Measurement timer***************************************************
|
|
|
|
// Configure Timer TA0
|
|
TACCTL0 = CM_3+CCIS_2+CAP; // Pos&Neg,GND,Cap
|
|
TACCTL1 = CM_3+CCIS_2+CAP; // Pos&Neg,GND,Cap
|
|
|
|
// setup connections between CAOUT and TA0
|
|
*(group->caoutDirRegister) |= group->caoutBits;
|
|
*(group->caoutSelRegister) |= group->caoutBits;
|
|
|
|
#ifdef SEL2REGISTER
|
|
*(group->caoutSel2Register) |= group->caoutBits;
|
|
#endif
|
|
// setup reference
|
|
*(group->refPxdirRegister) |= group->refBits;
|
|
*(group->refPxoutRegister) |= group->refBits;
|
|
CACTL1 |= CAON; // Turn on comparator
|
|
CAPD |= (group->capdBits);
|
|
for (i = 0; i<(group->numElements); i++)
|
|
{
|
|
CACTL2= group->refCactl2Bits + (group->arrayPtr[i])->inputBits;
|
|
//** Setup Gate Timer **************
|
|
// Set duration of sensor measurment
|
|
TACTL = group->measureGateSource+group->sourceScale+TACLR+MC_2;
|
|
TACCTL0 ^= CCIS0; // Create SW capture of CCR0
|
|
for(j = group->accumulationCycles; j > 0; j--)
|
|
{
|
|
CACTL1 &= ~CAIFG;
|
|
while(!(CACTL1 & CAIFG));
|
|
}
|
|
TACCTL1 ^= CCIS0; // Create SW capture of CCR1
|
|
counts[i] = TACCR1; // Save result
|
|
counts[i] -= TACCR0; // Save result
|
|
TACCTL0 &= ~CCIFG;
|
|
TACCTL1 &= ~CCIFG;
|
|
}
|
|
// End Sequence
|
|
//** Context Restore
|
|
// WDTp: IE1, WDCTL
|
|
// TIMERA0: TACTL, TACCTL0, TACCTL1, TACCR0, TACCR1
|
|
// COMPAp: CACTL1, CACTL2, CAPD
|
|
// Ports: caoutDIR, caoutSel, txclkDIR, caoutSel2, refout, refdir
|
|
#ifdef SEL2REGISTER
|
|
*(group->caoutSel2Register) = contextSaveCaoutSel2;
|
|
#endif
|
|
TACTL = contextSaveTACTL;
|
|
TACCTL0 = contextSaveTACCTL0;
|
|
TACCTL1 = contextSaveTACCTL1;
|
|
TACCR0 = contextSaveTACCR0;
|
|
TACCR1 = contextSaveTACCR1;
|
|
CACTL1 = contextSaveCACTL1;
|
|
CACTL2 = contextSaveCACTL2;
|
|
CAPD = contextSaveCAPD;
|
|
*(group->caoutDirRegister) = contextSaveCaoutDir;
|
|
*(group->caoutSelRegister) = contextSaveCaoutSel;
|
|
*(group->refPxdirRegister) = contextSaveRefDir;
|
|
*(group->refPxoutRegister) = contextSaveRefOutSel;
|
|
}
|
|
#endif
|
|
|
|
#ifdef RO_COMPAp_TA1_WDTp
|
|
/***************************************************************************//**
|
|
* @brief RO method capactiance measurement using CompA+, TimerA1, and WDT+
|
|
*
|
|
* Schematic Description of CompA+ forming relaxation oscillator and
|
|
* coupling (connection) between the relaxation oscillator and TimerA0.
|
|
* \n <- Output
|
|
* \n -> Input
|
|
* \n R Resistor (typically 100Kohms)
|
|
* \n
|
|
* \n +-<-Px.y (reference)
|
|
* \n |
|
|
* \n R
|
|
* \n |
|
|
* \n +---+-->COMPA+
|
|
* \n | |
|
|
* \n R R
|
|
* \n | |
|
|
* \n GND |
|
|
* \n |
|
|
* \n +-->TA1CLK
|
|
* \n |
|
|
* \n element-+-R--+-<-CAOUT
|
|
* \n |
|
|
* \n +------->COMPA-
|
|
* \n
|
|
* The WDT+ interval represents the measurement window. The number of
|
|
* counts within the TA0R that have accumulated during the measurement
|
|
* window represents the capacitance of the element.
|
|
*
|
|
* @param group Address of the structure describing the Sensor to be measured
|
|
* @param counts Address to where the measurements are to be written
|
|
* @return none
|
|
******************************************************************************/
|
|
void TI_CTS_RO_COMPAp_TA1_WDTp_HAL(const struct Sensor *group, uint16_t *counts)
|
|
{
|
|
uint8_t i;
|
|
//** Context Save
|
|
// Status Register:
|
|
// WDTp: IE1, WDTCTL
|
|
// TIMERA0: TA1CTL, TA1CCTL1
|
|
// COMPAp: CACTL1, CACTL2, CAPD
|
|
// Ports: caoutDIR, caoutSel, txclkDIR, txclkSel, caoutSel2, txclkSel2, refout, refdir
|
|
uint8_t contextSaveSR;
|
|
uint8_t contextSaveIE1;
|
|
uint16_t contextSaveWDTCTL;
|
|
uint16_t contextSaveTA1CTL,contextSaveTA1CCTL1;
|
|
uint16_t contextSaveTA1CCR1;
|
|
uint8_t contextSaveCACTL1,contextSaveCACTL2,contextSaveCAPD;
|
|
uint8_t contextSaveCaoutDir,contextSaveCaoutSel;
|
|
uint8_t contextSavetxclkDir,contextSavetxclkSel;
|
|
uint8_t contextSaveRefDir,contextSaveRefOutSel;
|
|
#ifdef SEL2REGISTER
|
|
uint8_t contextSaveCaoutSel2,contextSaveTxclkSel2;
|
|
|
|
contextSaveCaoutSel2 = *(group->caoutSel2Register);
|
|
contextSaveTxclkSel2 = *(group->txclkSel2Register);
|
|
#endif
|
|
contextSaveSR = __get_SR_register();
|
|
contextSaveIE1 = IE1;
|
|
contextSaveWDTCTL = WDTCTL;
|
|
contextSaveWDTCTL &= 0x00FF;
|
|
contextSaveWDTCTL |= WDTPW;
|
|
contextSaveTA1CTL = TA1CTL;
|
|
contextSaveTA1CCTL1 = TA1CCTL1;
|
|
contextSaveTA1CCR1 = TA1CCR1;
|
|
contextSaveCACTL1 = CACTL1;
|
|
contextSaveCACTL2 = CACTL2;
|
|
contextSaveCAPD = CAPD;
|
|
contextSaveCaoutDir = *(group->caoutDirRegister);
|
|
contextSaveCaoutSel = *(group->caoutSelRegister);
|
|
contextSavetxclkDir = *(group->txclkDirRegister);
|
|
contextSavetxclkSel = *(group->txclkSelRegister);
|
|
contextSaveRefDir = *(group->refPxdirRegister);
|
|
contextSaveRefOutSel = *(group->refPxoutRegister);
|
|
//** Setup Measurement timer***************************************************
|
|
// Choices are TA0,TA1,TB0,TB1,TD0,TD1 these choices are pushed up into the
|
|
// capacitive touch layer.
|
|
|
|
TA1CTL = TASSEL_0+MC_2; // TA1CLK, cont mode
|
|
TA1CCTL1 = CM_3+CCIS_2+CAP; // Pos&Neg,GND,Cap
|
|
|
|
*(group->caoutDirRegister) |= group->caoutBits;
|
|
*(group->txclkDirRegister) &= ~group->txclkBits;
|
|
*(group->caoutSelRegister) |= group->caoutBits;
|
|
*(group->txclkSelRegister) |= group->txclkBits;
|
|
|
|
#ifdef SEL2REGISTER
|
|
*(group->caoutSel2Register) |= group->caoutBits;
|
|
*(group->txclkSel2Register) |= group->txclkBits;
|
|
#endif
|
|
|
|
*(group->refPxdirRegister) |= group->refBits;
|
|
*(group->refPxoutRegister) |= group->refBits;
|
|
CACTL1 |= CAON; // Turn on comparator
|
|
CAPD |= (group->capdBits);
|
|
IE1 |= WDTIE; // enable WDT interrupt
|
|
|
|
for (i = 0; i<(group->numElements); i++)
|
|
{
|
|
CACTL2= group->refCactl2Bits + (group->arrayPtr[i])->inputBits;
|
|
//** Setup Gate Timer *****************************************************
|
|
// Set duration of sensor measurment
|
|
WDTCTL = WDTPW+WDTTMSEL+ group->measGateSource + group->accumulationCycles;
|
|
TA1CTL |= TACLR; // Clear Timer_A TAR
|
|
__bis_SR_register(LPM0_bits+GIE); // Wait for WDT interrupt
|
|
TA1CCTL1 ^= CCIS0; // Create SW capture of CCR1
|
|
counts[i] = TA1CCR1; // Save result
|
|
WDTCTL = WDTPW + WDTHOLD; // Stop watchdog timer
|
|
}
|
|
// End Sequence
|
|
//** Context Restore
|
|
// WDTp: IE1, WDCTL
|
|
// TIMERA0: TACTL, TACCTL1
|
|
// COMPAp: CACTL1, CACTL2, CAPD
|
|
// Ports: caoutDIR, caoutSel, txclkDIR, txclkSel, caoutSel2, txclkSel2, refout, refdir
|
|
#ifdef SEL2REGISTER
|
|
*(group->caoutSel2Register) = contextSaveCaoutSel2;
|
|
*(group->txclkSel2Register) = contextSaveTxclkSel2;
|
|
#endif
|
|
__bis_SR_register(contextSaveSR);
|
|
if(!(contextSaveSR & GIE))
|
|
{
|
|
__bic_SR_register(GIE); // Wait for WDT interrupt
|
|
}
|
|
IE1 = contextSaveIE1;
|
|
WDTCTL = contextSaveWDTCTL;
|
|
TA1CTL = contextSaveTA1CTL;
|
|
TA1CCTL1 = contextSaveTA1CCTL1;
|
|
TA1CCR1 = contextSaveTA1CCR1;
|
|
CACTL1 = contextSaveCACTL1;
|
|
CACTL2 = contextSaveCACTL2;
|
|
CAPD = contextSaveCAPD;
|
|
*(group->caoutDirRegister) = contextSaveCaoutDir;
|
|
*(group->caoutSelRegister) = contextSaveCaoutSel;
|
|
*(group->txclkDirRegister) = contextSavetxclkDir;
|
|
*(group->txclkSelRegister) = contextSavetxclkSel;
|
|
*(group->refPxdirRegister) = contextSaveRefDir;
|
|
*(group->refPxoutRegister) = contextSaveRefOutSel;
|
|
}
|
|
#endif
|
|
|
|
#ifdef fRO_COMPAp_TA1_SW
|
|
/***************************************************************************//**
|
|
* @brief RO method capactiance measurement using CompA+, TimerA1, and SW loop
|
|
*
|
|
* Schematic Description of CompA+ forming relaxation oscillator.
|
|
* \n <- Output
|
|
* \n -> Input
|
|
* \n R Resistor (typically 100Kohms)
|
|
* \n
|
|
* \n +-<-Px.y (reference)
|
|
* \n |
|
|
* \n R
|
|
* \n |
|
|
* \n +---+-->COMPA+
|
|
* \n | |
|
|
* \n R R
|
|
* \n | |
|
|
* \n GND |
|
|
* \n |
|
|
* \n +-->TA1CLK
|
|
* \n |
|
|
* \n element-+-R--+-<-CAOUT
|
|
* \n |
|
|
* \n +------->COMPA-
|
|
* \n
|
|
* \n The timer counts to TA1CCR0 representing the measurement window. The
|
|
* number of counts within the SW loop that have accumulated during the
|
|
* measurement window represents the capacitance of the element.
|
|
*
|
|
* @param group Address of the structure describing the Sensor to be measured
|
|
* @param counts Address to where the measurements are to be written
|
|
* @return none
|
|
******************************************************************************/
|
|
void TI_CTS_fRO_COMPAp_TA1_SW_HAL(const struct Sensor *group, uint16_t *counts)
|
|
{
|
|
uint8_t i;
|
|
uint16_t j;
|
|
//** Context Save
|
|
// Status Register:
|
|
// TIMERA0: TA1CTL, TA1CCTL0
|
|
// COMPAp: CACTL1, CACTL2, CAPD
|
|
// Ports: caoutDIR, caoutSel, txclkDIR, txclkSel, caoutSel2, txclkSel2, refout, refdir
|
|
uint16_t contextSaveTA1CTL,contextSaveTA1CCTL0,contextSaveTA1CCR0;
|
|
uint8_t contextSaveCACTL1,contextSaveCACTL2,contextSaveCAPD;
|
|
uint8_t contextSaveCaoutDir,contextSaveCaoutSel;
|
|
uint8_t contextSavetxclkDir,contextSavetxclkSel;
|
|
uint8_t contextSaveRefDir,contextSaveRefOutSel;
|
|
#ifdef SEL2REGISTER
|
|
uint8_t contextSaveCaoutSel2,contextSaveTxclkSel2;
|
|
|
|
contextSaveCaoutSel2 = *(group->caoutSel2Register);
|
|
contextSaveTxclkSel2 = *(group->txclkSel2Register);
|
|
#endif
|
|
contextSaveTA1CTL = TA1CTL;
|
|
contextSaveTA1CCTL0 = TA1CCTL0;
|
|
contextSaveTA1CCR0 = TA1CCR0;
|
|
contextSaveCACTL1 = CACTL1;
|
|
contextSaveCACTL2 = CACTL2;
|
|
contextSaveCAPD = CAPD;
|
|
contextSaveCaoutDir = *(group->caoutDirRegister);
|
|
contextSaveCaoutSel = *(group->caoutSelRegister);
|
|
contextSavetxclkDir = *(group->txclkDirRegister);
|
|
contextSavetxclkSel = *(group->txclkSelRegister);
|
|
contextSaveRefDir = *(group->refPxdirRegister);
|
|
contextSaveRefOutSel = *(group->refPxoutRegister);
|
|
//** Setup Measurement timer***************************************************
|
|
|
|
// Configure Timer TA0
|
|
TA1CCR0 =(group->accumulationCycles);
|
|
// setup connections between CAOUT and TA0
|
|
*(group->caoutDirRegister) |= group->caoutBits;
|
|
*(group->txclkDirRegister) &= ~group->txclkBits;
|
|
*(group->caoutSelRegister) |= group->caoutBits;
|
|
*(group->txclkSelRegister) |= group->txclkBits;
|
|
|
|
#ifdef SEL2REGISTER
|
|
*(group->caoutSel2Register) |= group->caoutBits;
|
|
*(group->txclkSel2Register) |= group->txclkBits;
|
|
#endif
|
|
// setup reference
|
|
*(group->refPxdirRegister) |= group->refBits;
|
|
*(group->refPxoutRegister) |= group->refBits;
|
|
CACTL1 |= CAON; // Turn on comparator
|
|
CAPD |= (group->capdBits);
|
|
|
|
for (i = 0; i<(group->numElements); i++)
|
|
{
|
|
j=0;
|
|
CACTL2= group->refCactl2Bits + (group->arrayPtr[i])->inputBits;
|
|
//** Setup Gate Timer **************
|
|
// Set duration of sensor measurment
|
|
TA1CTL = TASSEL_0+TACLR+MC_1; // TACLK
|
|
while(!(TACTL & TAIFG))
|
|
{
|
|
j++;
|
|
} // end accumulation
|
|
counts[i] = j;
|
|
}
|
|
// End Sequence
|
|
//** Context Restore
|
|
// WDTp: IE1, WDCTL
|
|
// TIMERA0: TACTL, TACCTL1
|
|
// COMPAp: CACTL1, CACTL2, CAPD
|
|
// Ports: caoutDIR, caoutSel, txclkDIR, txclkSel, caoutSel2, txclkSel2, refout, refdir
|
|
#ifdef SEL2REGISTER
|
|
*(group->caoutSel2Register) = contextSaveCaoutSel2;
|
|
*(group->txclkSel2Register) = contextSaveTxclkSel2;
|
|
#endif
|
|
TA1CTL = contextSaveTA1CTL;
|
|
TA1CCTL0 = contextSaveTA1CCTL0;
|
|
TA1CCR0 = contextSaveTA1CCR0;
|
|
CACTL1 = contextSaveCACTL1;
|
|
CACTL2 = contextSaveCACTL2;
|
|
CAPD = contextSaveCAPD;
|
|
*(group->caoutDirRegister) = contextSaveCaoutDir;
|
|
*(group->caoutSelRegister) = contextSaveCaoutSel;
|
|
*(group->txclkDirRegister) = contextSavetxclkDir;
|
|
*(group->txclkSelRegister) = contextSavetxclkSel;
|
|
*(group->refPxdirRegister) = contextSaveRefDir;
|
|
*(group->refPxoutRegister) = contextSaveRefOutSel;
|
|
}
|
|
#endif
|
|
|
|
/***************************************************************************//**
|
|
* @brief RC method capactiance measurement using a Pair of GPIO and TimerA0
|
|
*
|
|
* Schematic Description of two GPIO forming RC measruement.
|
|
* \n <- Output
|
|
* \n -> Input
|
|
* \n R Resistor (typically 1Mohms)
|
|
* \n
|
|
* \n +-<-Px.y (reference)
|
|
* \n |
|
|
* \n R
|
|
* \n |
|
|
* \n Element---+-->Pa.b
|
|
* \n
|
|
* \n Charge and Discharge Cycle
|
|
* \n +
|
|
* \n + +
|
|
* \n + +
|
|
* \n + +
|
|
* \n + +
|
|
* \n Start Timer After n cycles Stop Timer
|
|
* \n The TAR reister value is the number of SMCLK periods within n charge
|
|
* and discharge cycles. This value is directly proportional to the
|
|
* capacitance of the element measured. 'n' is defined by the variable
|
|
* accumulation_cycles.
|
|
*
|
|
* @param group Address of the structure describing the Sensor to be measured
|
|
* @param counts Address to where the measurements are to be written
|
|
* @return none
|
|
******************************************************************************/
|
|
#ifdef RC_PAIR_TA0
|
|
void TI_CTS_RC_PAIR_TA0_HAL(const struct Sensor *group, unsigned int *counts)
|
|
{
|
|
uint8_t i;
|
|
uint16_t j;
|
|
|
|
//** Context Save
|
|
// TIMERA0: TA0CTL
|
|
// Port: inputPxout, inputPxdir, referencePxout, referencePxdir
|
|
|
|
uint8_t contextSaveinputPxout,contextSaveinputPxdir,contextSavereferencePxout;
|
|
uint8_t contextSavereferencePxdir;
|
|
|
|
#ifdef __MSP430_HAS_SFR__
|
|
uint16_t contextSaveTA0CTL,contextSaveTA0CCR0;
|
|
|
|
contextSaveTA0CTL = TA0CTL;
|
|
contextSaveTA0CCR0 = TA0CCR0;
|
|
#else
|
|
uint16_t contextSaveTACTL,contextSaveTACCR0;
|
|
|
|
contextSaveTACTL = TACTL;
|
|
contextSaveTACCR0 = TACCR0;
|
|
#endif
|
|
|
|
//** Setup Measurement timer****************************************************
|
|
// Choices are TA0,TA1,TB0,TB1,TD0,TD1 these choices are pushed up into the
|
|
// capacitive touch layer.
|
|
#ifdef __MSP430_HAS_SFR__
|
|
TA0CCR0 = 0xFFFF;
|
|
#else
|
|
TACCR0 = 0xFFFF;
|
|
#endif
|
|
for (i = 0; i<(group->numElements); i++)
|
|
{
|
|
// Context Save
|
|
contextSaveinputPxout = *((group->arrayPtr[i])->inputPxoutRegister);
|
|
contextSaveinputPxdir = *((group->arrayPtr[i])->inputPxdirRegister);
|
|
contextSavereferencePxout = *((group->arrayPtr[i])->referencePxoutRegister);
|
|
contextSavereferencePxdir = *((group->arrayPtr[i])->referencePxdirRegister);
|
|
j = (group->accumulationCycles);
|
|
#ifdef __MSP430_HAS_SFR__
|
|
TA0CTL = TASSEL_2+TACLR; // SMCLK, up mode
|
|
#else
|
|
TACTL = TASSEL_2+TACLR; // SMCLK, up mode
|
|
#endif
|
|
while(j--)
|
|
{
|
|
//******************************************************************************
|
|
// Positive cycle
|
|
// SENSOR ---+---- Input (low to high)
|
|
// R
|
|
// +---- Rerefence (high)
|
|
//******************************************************************************
|
|
// Input low
|
|
*((group->arrayPtr[i])->inputPxoutRegister) &= ~((group->arrayPtr[i])->inputBits);
|
|
*((group->arrayPtr[i])->inputPxdirRegister) |= (group->arrayPtr[i])->inputBits;
|
|
// Reference High
|
|
*((group->arrayPtr[i])->referencePxdirRegister) |= (group->arrayPtr[i])->referenceBits;
|
|
*((group->arrayPtr[i])->referencePxoutRegister) |= ((group->arrayPtr[i])->referenceBits);
|
|
// Wait until low
|
|
while((*((group->arrayPtr[i])->inputPxinRegister)) & ((group->arrayPtr[i])->inputBits));
|
|
// Change to an input
|
|
*((group->arrayPtr[i])->inputPxdirRegister) &= ~(group->arrayPtr[i])->inputBits;
|
|
//**************************************************************************
|
|
// This mechanism is traditianally an LPM with the ISR calculating the
|
|
// delta between when the first snapshot and the ISR event. If this is
|
|
// included within the library the entire port ISR would not be available
|
|
// to the calling application. In this example the polling is done with the
|
|
// CPU at expense of power and MIPS but preserves the port ISR for other
|
|
// interruptible functions.
|
|
//**************************************************************************
|
|
#ifdef __MSP430_HAS_SFR__
|
|
TA0CTL |= MC_1; // start timer
|
|
#else
|
|
TACTL |= MC_1; // start timer
|
|
#endif
|
|
//wait until voltage reaches Vih of port
|
|
while(!((*((group->arrayPtr[i])->inputPxinRegister) & (group->arrayPtr[i])->inputBits)));
|
|
#ifdef __MSP430_HAS_SFR__
|
|
TA0CTL &= ~ MC_3; // stop timer
|
|
#else
|
|
TACTL &= ~ MC_3; // stop timer
|
|
#endif
|
|
//******************************************************************************
|
|
// Negative cycle
|
|
// SENSOR ---+---- Input (high to low)
|
|
// R
|
|
// +---- Rerefence (low)
|
|
//******************************************************************************
|
|
// Input High
|
|
*((group->arrayPtr[i])->inputPxoutRegister) |= ((group->arrayPtr[i])->inputBits);
|
|
*((group->arrayPtr[i])->inputPxdirRegister) |= (group->arrayPtr[i])->inputBits;
|
|
// Reference Low
|
|
*((group->arrayPtr[i])->referencePxoutRegister) &= ~((group->arrayPtr[i])->referenceBits);
|
|
// Change to an input
|
|
*((group->arrayPtr[i])->inputPxdirRegister) &= ~((group->arrayPtr[i])->inputBits);
|
|
#ifdef __MSP430_HAS_SFR__
|
|
TA0CTL |= MC_1; // start timer
|
|
#else
|
|
TACTL |= MC_1; // start timer
|
|
#endif
|
|
//wait until voltage reaches Vil of port
|
|
while((*((group->arrayPtr[i])->inputPxinRegister)) & ((group->arrayPtr[i])->inputBits));
|
|
#ifdef __MSP430_HAS_SFR__
|
|
TA0CTL &= ~ MC_3; // stop timer
|
|
#else
|
|
TACTL &= ~ MC_3; // stop timer
|
|
#endif
|
|
} // END accumulation loop for a single element
|
|
#ifdef __MSP430_HAS_SFR__
|
|
counts[i] = TA0R;
|
|
#else
|
|
counts[i] = TAR;
|
|
#endif
|
|
// Context Restore
|
|
*((group->arrayPtr[i])->inputPxoutRegister) = contextSaveinputPxout;
|
|
*((group->arrayPtr[i])->inputPxdirRegister) = contextSaveinputPxdir;
|
|
*((group->arrayPtr[i])->referencePxoutRegister) = contextSavereferencePxout;
|
|
*((group->arrayPtr[i])->referencePxdirRegister) = contextSavereferencePxdir;
|
|
} // END FOR loop which cycles through elements within sensor
|
|
|
|
//** Context Restore
|
|
#ifdef __MSP430_HAS_SFR__
|
|
TA0CTL = contextSaveTA0CTL;
|
|
TA0CCR0 = contextSaveTA0CCR0;
|
|
#else
|
|
TACTL = contextSaveTACTL;
|
|
TACCR0 = contextSaveTACCR0;
|
|
#endif
|
|
|
|
}
|
|
#endif
|
|
|
|
/***************************************************************************//**
|
|
* @brief fRO method capactiance measurement using the PinOsc and TimerA0
|
|
*
|
|
* \n Charge and Discharge Cycle
|
|
* \n +
|
|
* \n + +
|
|
* \n + +
|
|
* \n + +
|
|
* \n + +
|
|
* \n Start Timer After n cycles Stop Timer
|
|
* \n The TAR reister value is the number of SW loops (function of MCLK)
|
|
* within n charge and discharge cycles. This value is directly
|
|
* proportional to the capacitance of the element measured. 'n' is
|
|
* defined by the variable accumulation_cycles.
|
|
*
|
|
* @param group Address of the structure describing the Sensor to be measured
|
|
* @param counts Address to where the measurements are to be written
|
|
* @return none
|
|
******************************************************************************/
|
|
#ifdef fRO_PINOSC_TA0_SW
|
|
void TI_CTS_fRO_PINOSC_TA0_SW_HAL(const struct Sensor *group, unsigned int *counts)
|
|
{
|
|
uint8_t i;
|
|
uint16_t j;
|
|
//** Context Save
|
|
// TIMERA0: TA0CTL
|
|
// Ports: PxSEL, PxSEL2
|
|
uint16_t contextSaveTA0CTL;
|
|
uint8_t contextSaveSel,contextSaveSel2;
|
|
|
|
contextSaveTA0CTL = TA0CTL;
|
|
// Setup Measurement timer
|
|
TACCR0 =(group->accumulationCycles);
|
|
for (i =0; i< (group->numElements); i++)
|
|
{
|
|
j = 0;
|
|
// Context Save
|
|
contextSaveSel = *((group->arrayPtr[i])->inputPxselRegister);
|
|
contextSaveSel2 = *((group->arrayPtr[i])->inputPxsel2Register);
|
|
// start single oscillation (rise then fall and trigger on fall)
|
|
*((group->arrayPtr[i])->inputPxselRegister) &= ~((group->arrayPtr[i])->inputBits);
|
|
*((group->arrayPtr[i])->inputPxsel2Register) |= ((group->arrayPtr[i])->inputBits);
|
|
TA0CTL = TASSEL_3+TACLR+MC_1; // INCLK , up mode
|
|
// start timer in up mode
|
|
while(!(TA0CTL & TAIFG))
|
|
{
|
|
j++;
|
|
} // end accumulation
|
|
counts[i] = j;
|
|
TA0CTL &= ~MC_1;
|
|
// Context Restore
|
|
*((group->arrayPtr[i])->inputPxselRegister) = contextSaveSel;
|
|
*((group->arrayPtr[i])->inputPxsel2Register) = contextSaveSel2;
|
|
}
|
|
// End Sequence
|
|
// Context Restore
|
|
TA0CTL = contextSaveTA0CTL;
|
|
}
|
|
#endif
|
|
|
|
#ifdef RO_PINOSC_TA0_WDTp
|
|
/***************************************************************************//**
|
|
* @brief RO method capactiance measurement using PinOsc IO, TimerA0, and WDT+
|
|
*
|
|
* Schematic Description:
|
|
*
|
|
* \n element-----+->Px.y
|
|
*
|
|
* \n The WDT+ interval represents the measurement window. The number of
|
|
* counts within the TA0R that have accumulated during the measurement
|
|
* window represents the capacitance of the element.
|
|
*
|
|
* @param group Pointer to the structure describing the Sensor to be measured
|
|
* @param counts Pointer to where the measurements are to be written
|
|
* @return none
|
|
******************************************************************************/
|
|
void TI_CTS_RO_PINOSC_TA0_WDTp_HAL(const struct Sensor *group, unsigned int *counts)
|
|
{
|
|
uint8_t i;
|
|
|
|
//** Context Save
|
|
// Status Register:
|
|
// WDTp: IE1, WDTCTL
|
|
// TIMERA0: TA0CTL, TA0CCTL1
|
|
// Ports: PxSEL, PxSEL2
|
|
uint8_t contextSaveSR;
|
|
uint8_t contextSaveIE1;
|
|
uint16_t contextSaveWDTCTL;
|
|
uint16_t contextSaveTA0CTL,contextSaveTA0CCTL1,contextSaveTA0CCR1;
|
|
uint8_t contextSaveSel,contextSaveSel2;
|
|
|
|
contextSaveSR = __get_SR_register();
|
|
contextSaveIE1 = IE1;
|
|
contextSaveWDTCTL = WDTCTL;
|
|
contextSaveWDTCTL &= 0x00FF;
|
|
contextSaveWDTCTL |= WDTPW;
|
|
contextSaveTA0CTL = TA0CTL;
|
|
contextSaveTA0CCTL1 = TA0CCTL1;
|
|
contextSaveTA0CCR1 = TA0CCR1;
|
|
|
|
//** Setup Measurement timer***************************************************
|
|
// Choices are TA0,TA1,TB0,TB1,TD0,TD1 these choices are pushed up into the
|
|
// capacitive touch layer.
|
|
|
|
// Configure and Start Timer
|
|
TA0CTL = TASSEL_3+MC_2; // TACLK, cont mode
|
|
TA0CCTL1 = CM_3+CCIS_2+CAP; // Pos&Neg,GND,Cap
|
|
IE1 |= WDTIE; // enable WDT interrupt
|
|
for (i = 0; i<(group->numElements); i++)
|
|
{
|
|
// Context Save
|
|
contextSaveSel = *((group->arrayPtr[i])->inputPxselRegister);
|
|
contextSaveSel2 = *((group->arrayPtr[i])->inputPxsel2Register);
|
|
// Configure Ports for relaxation oscillator
|
|
*((group->arrayPtr[i])->inputPxselRegister) &= ~((group->arrayPtr[i])->inputBits);
|
|
*((group->arrayPtr[i])->inputPxsel2Register) |= ((group->arrayPtr[i])->inputBits);
|
|
//** Setup Gate Timer ********************************************************
|
|
// Set duration of sensor measurment
|
|
WDTCTL = (WDTPW+WDTTMSEL+group->measGateSource+group->accumulationCycles);
|
|
TA0CTL |= TACLR; // Clear Timer_A TAR
|
|
if(group->measGateSource == GATE_WDT_ACLK)
|
|
{
|
|
__bis_SR_register(LPM3_bits+GIE); // Wait for WDT interrupt
|
|
}
|
|
else
|
|
{
|
|
__bis_SR_register(LPM0_bits+GIE); // Wait for WDT interrupt
|
|
}
|
|
TA0CCTL1 ^= CCIS0; // Create SW capture of CCR1
|
|
counts[i] = TA0CCR1; // Save result
|
|
WDTCTL = WDTPW + WDTHOLD; // Stop watchdog timer
|
|
// Context Restore
|
|
*((group->arrayPtr[i])->inputPxselRegister) = contextSaveSel;
|
|
*((group->arrayPtr[i])->inputPxsel2Register) = contextSaveSel2;
|
|
}
|
|
// End Sequence
|
|
// Context Restore
|
|
__bis_SR_register(contextSaveSR);
|
|
if(!(contextSaveSR & GIE))
|
|
{
|
|
__bic_SR_register(GIE); //
|
|
}
|
|
IE1 = contextSaveIE1;
|
|
WDTCTL = contextSaveWDTCTL;
|
|
TA0CTL = contextSaveTA0CTL;
|
|
TA0CCTL1 = contextSaveTA0CCTL1;
|
|
TA0CCR1 = contextSaveTA0CCR1;
|
|
}
|
|
#endif
|
|
|
|
#ifdef RO_PINOSC_TA0
|
|
/***************************************************************************//**
|
|
* @brief RO method capactiance measurement using PinOsc IO, and TimerA0
|
|
*
|
|
* Schematic Description:
|
|
*
|
|
* \n element-----+->Px.y
|
|
*
|
|
* \n The measurement window is accumulation_cycles/ACLK. The ACLK is
|
|
* used to generate a capture event via the internal connection CCIOB.
|
|
* The counts within the TA0R that have accumulated during the
|
|
* measurement window represents the capacitance of the element.
|
|
*
|
|
* @param group Pointer to the structure describing the Sensor to be measured
|
|
* @param counts Pointer to where the measurements are to be written
|
|
* @return none
|
|
******************************************************************************/
|
|
void TI_CTS_RO_PINOSC_TA0_HAL(const struct Sensor *group, unsigned int *counts)
|
|
{
|
|
uint8_t i;
|
|
uint16_t j;
|
|
//** Context Save
|
|
// TIMERA0: TA0CTL, TA0CCTL0
|
|
// Ports: PxSEL, PxSEL2
|
|
uint16_t contextSaveTA0CTL,contextSaveTA0CCTL0,contextSaveTA0CCR0;
|
|
uint8_t contextSaveSel,contextSaveSel2;
|
|
|
|
contextSaveTA0CTL = TA0CTL;
|
|
contextSaveTA0CCTL0 = TA0CCTL0;
|
|
contextSaveTA0CCR0 = TA0CCR0;
|
|
|
|
//** Setup Measurement timer***************************************************
|
|
// Choices are TA0,TA1,TB0,TB1,TD0,TD1 these choices are pushed up into the
|
|
// capacitive touch layer.
|
|
|
|
// Configure and Start Timer
|
|
TA0CTL = TASSEL_3+MC_2; // TACLK, cont mode
|
|
for (i =0; i< (group->numElements); i++)
|
|
{
|
|
// Context Save
|
|
contextSaveSel = *((group->arrayPtr[i])->inputPxselRegister);
|
|
contextSaveSel2 = *((group->arrayPtr[i])->inputPxsel2Register);
|
|
// Configure Ports for relaxation oscillator
|
|
j = (group->accumulationCycles);
|
|
*((group->arrayPtr[i])->inputPxselRegister) &= ~((group->arrayPtr[i])->inputBits);
|
|
*((group->arrayPtr[i])->inputPxsel2Register) |= ((group->arrayPtr[i])->inputBits);
|
|
TA0CCTL0 = CM_3+CCIS_1+CAP; // Pos&Neg,ACLK (CCI0B),Cap
|
|
while(!(TA0CCTL0 & CCIFG)); // wait for capture event
|
|
TA0CTL |= TACLR; // Clear Timer_A TAR
|
|
while(j--)
|
|
{
|
|
TA0CCTL0 = CM_3+CCIS_1+CAP; // Pos&Neg,ACLK (CCI0B),Cap
|
|
while(!(TA0CCTL0 & CCIFG)); // wait for capture event
|
|
}
|
|
TA0CTL &= ~MC_2;
|
|
counts[i] = TA0CCR0; // Save result
|
|
// Context Restore
|
|
*((group->arrayPtr[i])->inputPxselRegister) = contextSaveSel;
|
|
*((group->arrayPtr[i])->inputPxsel2Register) = contextSaveSel2;
|
|
}
|
|
// End Sequence
|
|
// Context Restore
|
|
TA0CTL = contextSaveTA0CTL;
|
|
TA0CCTL0 = contextSaveTA0CCTL0;
|
|
TA0CCR0 = contextSaveTA0CCR0;
|
|
}
|
|
#endif
|
|
|
|
#ifdef RO_COMPB_TA0_WDTA
|
|
/***************************************************************************//**
|
|
* @brief RO method capactiance measurement using CompB, TimerA0, and WDTA
|
|
*
|
|
* \n Schematic Description of CompB forming relaxation oscillator and
|
|
* coupling (connection) between the relaxation oscillator and TimerA0.
|
|
* \n <- Output
|
|
* \n -> Input
|
|
* \n R Resistor (typically 100Kohms)
|
|
*
|
|
* \n element---R----<-CBOUT/TA0CLK
|
|
*
|
|
* \n The WDTA interval represents the measurement window. The number of
|
|
* counts within the TA0R that have accumulated during the measurement
|
|
* window represents the capacitance of the element.
|
|
*
|
|
* @param group Address of the structure describing the Sensor to be measured
|
|
* @param counts Address to where the measurements are to be written
|
|
* @return none
|
|
******************************************************************************/
|
|
void TI_CTS_RO_COMPB_TA0_WDTA_HAL(const struct Sensor *group, unsigned int *counts)
|
|
{
|
|
unsigned char i;
|
|
|
|
//** Context Save
|
|
// Status Register:
|
|
// WDTA: IE1, WDTCTL
|
|
// TIMERA0: TA0CTL, TA0CCTL1
|
|
// COMPAp: CACTL1, CACTL2, CAPD
|
|
// Ports: CboutDIR, CboutSel
|
|
uint8_t contextSaveSR;
|
|
uint16_t contextSaveSFRIE1;
|
|
uint16_t contextSaveWDTCTL;
|
|
uint16_t contextSaveTA0CTL,contextSaveTA0CCTL1,contextSaveTA0CCR1;
|
|
uint16_t contextSaveCBCTL0,contextSaveCBCTL1;
|
|
uint16_t contextSaveCBCTL2,contextSaveCBCTL3;
|
|
uint8_t contextSaveCboutDir,contextSaveCboutSel;
|
|
|
|
contextSaveSR = __get_SR_register();
|
|
contextSaveSFRIE1 = SFRIE1;
|
|
contextSaveWDTCTL = WDTCTL;
|
|
contextSaveWDTCTL &= 0x00FF;
|
|
contextSaveWDTCTL |= WDTPW;
|
|
contextSaveTA0CTL = TA0CTL;
|
|
contextSaveTA0CCTL1 = TA0CCTL1;
|
|
contextSaveTA0CCR1 = TA0CCR1;
|
|
|
|
contextSaveCBCTL0 = CBCTL0;
|
|
contextSaveCBCTL1 = CBCTL1;
|
|
contextSaveCBCTL2 = CBCTL2;
|
|
contextSaveCBCTL3 = CBCTL3;
|
|
contextSaveCboutDir = *(group->cboutTAxDirRegister);
|
|
contextSaveCboutSel = *(group->cboutTAxSelRegister);
|
|
|
|
//** Setup Measurement timer***************************************************
|
|
// connect CBOUT with TA0
|
|
*(group->cboutTAxDirRegister) |= (group->cboutTAxBits);
|
|
*(group->cboutTAxSelRegister) |= (group->cboutTAxBits);
|
|
|
|
CBCTL2 = CBREF14+CBREF13 + CBREF02;
|
|
|
|
// Configure Timer TA0
|
|
TA0CTL = TASSEL_0+MC_2; // TACLK, cont mode
|
|
TA0CCTL1 = CM_3+CCIS_2+CAP; // Pos&Neg,GND,Cap
|
|
|
|
// Turn on Comparator
|
|
CBCTL1 = CBON + CBF; // Turn on comparator with filter
|
|
// Vcc to resistor ladder
|
|
|
|
CBCTL3 |= (group->cbpdBits); // set CPD bits to disable
|
|
// I/O buffer
|
|
SFRIE1 |= WDTIE; // enable WDT interrupt
|
|
CBCTL2 |= CBRS_1; // Turn on reference
|
|
for (i = 0; i<(group->numElements); i++)
|
|
{
|
|
CBCTL0 = CBIMEN + (group->arrayPtr[i])->inputBits;
|
|
|
|
//** Setup Gate Timer ********************************************************
|
|
// Set duration of sensor measurment
|
|
WDTCTL = WDTPW+WDTTMSEL+ group->measGateSource + group->accumulationCycles;
|
|
TA0CTL |= TACLR; // Clear Timer_A TAR
|
|
__bis_SR_register(LPM0_bits+GIE); // Wait for WDT interrupt
|
|
TA0CCTL1 ^= CCIS0; // Create SW capture of CCR1
|
|
counts[i] = TA0CCR1; // Save result
|
|
WDTCTL = WDTPW + WDTHOLD; // Stop watchdog timer
|
|
}
|
|
// End Sequence
|
|
//** Context Restore
|
|
// WDTA: IE1, WDCTL
|
|
// TIMERA0: TACTL, TACCTL1
|
|
// COMPB: CBCTL0, CBCTL1, CBCTL2, CBCTL3
|
|
// Ports: CboutDIR, CboutSel
|
|
__bis_SR_register(contextSaveSR);
|
|
if(!(contextSaveSR & GIE))
|
|
{
|
|
__bic_SR_register(GIE); // Wait for WDT interrupt
|
|
}
|
|
SFRIE1 = contextSaveSFRIE1;
|
|
WDTCTL = contextSaveWDTCTL;
|
|
TA0CTL = contextSaveTA0CTL;
|
|
TA0CCTL1 = contextSaveTA0CCTL1;
|
|
TA0CCR1 = contextSaveTA0CCR1;
|
|
CBCTL0 = contextSaveCBCTL0;
|
|
CBCTL1 = contextSaveCBCTL1;
|
|
CBCTL2 = contextSaveCBCTL2;
|
|
CBCTL3 = contextSaveCBCTL3;
|
|
*(group->cboutTAxDirRegister) = contextSaveCboutDir;
|
|
*(group->cboutTAxSelRegister) = contextSaveCboutSel;
|
|
}
|
|
#endif
|
|
|
|
#ifdef RO_COMPB_TA1_WDTA
|
|
/***************************************************************************//**
|
|
* @brief RO method capactiance measurement using CompB, TimerA1, and WDTA
|
|
*
|
|
* Schematic Description of CompB forming relaxation oscillator and
|
|
* coupling (connection) between the relaxation oscillator and TimerA1.
|
|
* <- Output
|
|
* -> Input
|
|
* R Resistor (typically 100Kohms)
|
|
*
|
|
* element---R----<-CBOUT/TA1CLK
|
|
*
|
|
* The WDTA interval represents the measurement window. The number of
|
|
* counts within the TA1R that have accumulated during the measurement
|
|
* window represents the capacitance of the element.
|
|
*
|
|
* @param group Address of the structure describing the Sensor to be measured
|
|
* @param counts Address to where the measurements are to be written
|
|
* @return none
|
|
******************************************************************************/
|
|
void TI_CTS_RO_COMPB_TA1_WDTA_HAL(const struct Sensor *group, unsigned int *counts)
|
|
{
|
|
uint8_t i=0;
|
|
|
|
//** Context Save
|
|
// Status Register:
|
|
// WDTA: IE1, WDTCTL
|
|
// TIMERA1: TA1CTL, TA1CCTL1
|
|
// COMPB: CBCTL0, CBCTL1, CBCTL2, CBCTL3
|
|
// Ports: CboutDIR, CboutSel
|
|
uint8_t contextSaveSR;
|
|
uint16_t contextSaveSFRIE1;
|
|
uint16_t contextSaveWDTCTL;
|
|
uint16_t contextSaveTA1CTL,contextSaveTA1CCTL1,contextSaveTA1CCR1;
|
|
uint16_t contextSaveCBCTL0,contextSaveCBCTL1;
|
|
uint16_t contextSaveCBCTL2,contextSaveCBCTL3;
|
|
uint8_t contextSaveCboutDir,contextSaveCboutSel;
|
|
|
|
contextSaveSR = __get_SR_register();
|
|
contextSaveSFRIE1 = SFRIE1;
|
|
contextSaveWDTCTL = WDTCTL;
|
|
contextSaveWDTCTL &= 0x00FF;
|
|
contextSaveWDTCTL |= WDTPW;
|
|
contextSaveTA1CTL = TA1CTL;
|
|
contextSaveTA1CCTL1 = TA1CCTL1;
|
|
contextSaveTA1CCR1 = TA1CCR1;
|
|
|
|
contextSaveCBCTL0 = CBCTL0;
|
|
contextSaveCBCTL1 = CBCTL1;
|
|
contextSaveCBCTL2 = CBCTL2;
|
|
contextSaveCBCTL3 = CBCTL3;
|
|
contextSaveCboutDir = *(group->cboutTAxDirRegister);
|
|
contextSaveCboutSel = *(group->cboutTAxSelRegister);
|
|
|
|
//** Setup Measurement timer***************************************************
|
|
// connect CBOUT with TA1
|
|
*(group->cboutTAxDirRegister) |= (group->cboutTAxBits);
|
|
*(group->cboutTAxSelRegister) |= (group->cboutTAxBits);
|
|
// Setup Comparator
|
|
CBCTL2 = CBREF14+CBREF13 + CBREF02;
|
|
// Configure Timer TA1
|
|
TA1CTL = TASSEL_0+MC_2; // TACLK, cont mode
|
|
TA1CCTL1 = CM_3+CCIS_2+CAP; // Pos&Neg,GND,Cap
|
|
// Turn on Comparator
|
|
CBCTL1 = CBON + CBF; // Turn on comparator with filter
|
|
CBCTL3 |= (group->cbpdBits); // set CPD bits to disable
|
|
SFRIE1 |= WDTIE; // enable WDT interrupt
|
|
CBCTL2 |= CBRS_1; // Turn on reference
|
|
for (i = 0; i<(group->numElements); i++)
|
|
{
|
|
CBCTL0 = CBIMEN + (group->arrayPtr[i])->inputBits;
|
|
//** Setup Gate Timer ********************************************************
|
|
// Set duration of sensor measurment
|
|
WDTCTL = WDTPW+WDTTMSEL+WDTCNTCL+ group->measGateSource + group->sourceScale;
|
|
TA1CTL |= TACLR; // Clear Timer_A TAR
|
|
__bis_SR_register(LPM0_bits+GIE); // Wait for WDT interrupt
|
|
TA1CCTL1 ^= CCIS0; // Create SW capture of CCR1
|
|
counts[i] = TA1CCR1; // Save result
|
|
WDTCTL = WDTPW + WDTHOLD; // Stop watchdog timer
|
|
CBCTL3 &= ~((group->arrayPtr[i])->inputBits);
|
|
}
|
|
// End Sequence
|
|
//** Context Restore
|
|
// WDTA: IE1, WDCTL
|
|
// TIMERA0: TACTL, TACCTL1
|
|
// COMPB: CBCTL0, CBCTL1, CBCTL2, CBCTL3
|
|
// Ports: CboutDIR, CboutSel
|
|
__bis_SR_register(contextSaveSR);
|
|
if(!(contextSaveSR & GIE))
|
|
{
|
|
__bic_SR_register(GIE); // Wait for WDT interrupt
|
|
}
|
|
SFRIE1 = contextSaveSFRIE1;
|
|
WDTCTL = contextSaveWDTCTL;
|
|
TA1CTL = contextSaveTA1CTL;
|
|
TA1CCTL1 = contextSaveTA1CCTL1;
|
|
TA1CCR1 = contextSaveTA1CCR1;
|
|
CBCTL0 = contextSaveCBCTL0;
|
|
CBCTL1 = contextSaveCBCTL1;
|
|
CBCTL2 = contextSaveCBCTL2;
|
|
CBCTL3 = contextSaveCBCTL3;
|
|
*(group->cboutTAxDirRegister) = contextSaveCboutDir;
|
|
*(group->cboutTAxSelRegister) = contextSaveCboutSel;
|
|
}
|
|
#endif
|
|
|
|
#ifdef fRO_COMPB_TA0_SW
|
|
/***************************************************************************//**
|
|
* @brief fRO method capactiance measurement using CompB, TimerA0
|
|
*
|
|
* Schematic Description of CompB forming relaxation oscillator and
|
|
* coupling (connection) between the relaxation oscillator and TimerA0.
|
|
* <- Output
|
|
* -> Input
|
|
* R Resistor (typically 100Kohms)
|
|
*
|
|
* element---R----<-CBOUT
|
|
*
|
|
* The TAR reister value is the number of SW loops (function of MCLK)
|
|
* within n charge and discharge cycles. This value is directly
|
|
* proportional to the capacitance of the element measured. 'n' is
|
|
* defined by the variable accumulation_cycles.
|
|
*
|
|
* @param group Address of the structure describing the Sensor to be measured
|
|
* @param counts Address to where the measurements are to be written
|
|
* @return none
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******************************************************************************/
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void TI_CTS_fRO_COMPB_TA0_SW_HAL(const struct Sensor *group, unsigned int *counts)
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{
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uint8_t i;
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uint16_t j;
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//** Context Save
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// TIMERA0: TA0CTL, TA0CCR1
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// COMPB: CBCTL0, CBCTL1, CBCTL2, CBCTL3
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// Ports: CboutDIR, CboutSel
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uint16_t contextSaveTA0CTL,contextSaveTA0CCR0;
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uint16_t contextSaveCBCTL0,contextSaveCBCTL1;
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uint16_t contextSaveCBCTL2,contextSaveCBCTL3;
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uint8_t contextSaveCboutDir,contextSaveCboutSel;
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contextSaveTA0CTL = TA0CTL;
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contextSaveTA0CCR0 = TA0CCR0;
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contextSaveCBCTL0 = CBCTL0;
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contextSaveCBCTL1 = CBCTL1;
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contextSaveCBCTL2 = CBCTL2;
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contextSaveCBCTL3 = CBCTL3;
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contextSaveCboutDir = *(group->cboutTAxDirRegister);
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contextSaveCboutSel = *(group->cboutTAxSelRegister);
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//** Setup Measurement timer***************************************************
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// connect CBOUT with TA0
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*(group->cboutTAxDirRegister) |= (group->cboutTAxBits);
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*(group->cboutTAxSelRegister) |= (group->cboutTAxBits);
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CBCTL2 = CBREF14+CBREF13 + CBREF02;
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// Configure Timer TA0
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TA0CCR0 =(group->accumulationCycles);
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// Turn on Comparator
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CBCTL1 = CBON + CBF; // Turn on comparator with filter
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// Vcc to resistor ladder
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CBCTL3 |= (group->cbpdBits); // set CPD bits to disable
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// I/O buffer
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CBCTL2 |= CBRS_1; // Turn on reference
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for (i = 0; i<(group->numElements); i++)
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{
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j=0;
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CBCTL0 = CBIMEN + (group->arrayPtr[i])->inputBits;
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//** Setup Gate Timer ********************************************************
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// Set duration of sensor measurment
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TA0CTL = TASSEL_0+TACLR+MC_1; // TACLK
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while(!(TA0CTL & TAIFG))
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{
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j++;
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} // end accumulation
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counts[i] = j;
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}
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// End Sequence
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//** Context Restore
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// TIMERA0: TACTL, TACCTL1
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// COMPB: CBCTL0, CBCTL1, CBCTL2, CBCTL3
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// Ports: CboutDIR, CboutSel
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TA0CTL = contextSaveTA0CTL;
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TA0CCR0 = contextSaveTA0CCR0;
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CBCTL0 = contextSaveCBCTL0;
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CBCTL1 = contextSaveCBCTL1;
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CBCTL2 = contextSaveCBCTL2;
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CBCTL3 = contextSaveCBCTL3;
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*(group->cboutTAxDirRegister) = contextSaveCboutDir;
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*(group->cboutTAxSelRegister) = contextSaveCboutSel;
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}
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#endif
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#ifdef fRO_COMPB_TA1_SW
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/***************************************************************************//**
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* @brief fRO method capactiance measurement using CompB, TimerA1
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*
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* Schematic Description of CompB forming relaxation oscillator and
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* coupling (connection) between the relaxation oscillator and TimerA1.
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* <- Output
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* -> Input
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|
* R Resistor (typically 100Kohms)
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|
*
|
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* element---R----<-CBOUT
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|
*
|
|
* The TAR reister value is the number of SW loops (function of MCLK)
|
|
* within n charge and discharge cycles. This value is directly
|
|
* proportional to the capacitance of the element measured. 'n' is
|
|
* defined by the variable accumulation_cycles.
|
|
*
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* @param group Address of the structure describing the Sensor to be measured
|
|
* @param counts Address to where the measurements are to be written
|
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* @return none
|
|
******************************************************************************/
|
|
void TI_CTS_fRO_COMPB_TA1_SW_HAL(const struct Sensor *group, unsigned int *counts)
|
|
{
|
|
uint8_t i;
|
|
uint16_t j;
|
|
//** Context Save
|
|
// TIMERA0: TA1CTL, TA1CCTL1
|
|
// COMPB: CBCTL0, CBCTL1, CBCTL2, CBCTL3
|
|
// Ports: CboutDIR, CboutSel
|
|
|
|
uint16_t contextSaveTA1CTL,contextSaveTA1CCR0;
|
|
uint16_t contextSaveCBCTL0,contextSaveCBCTL1;
|
|
uint16_t contextSaveCBCTL2,contextSaveCBCTL3;
|
|
uint8_t contextSaveCboutDir,contextSaveCboutSel;
|
|
|
|
contextSaveTA1CTL = TA1CTL;
|
|
contextSaveTA1CCR0 = TA1CCR0;
|
|
|
|
contextSaveCBCTL0 = CBCTL0;
|
|
contextSaveCBCTL1 = CBCTL1;
|
|
contextSaveCBCTL2 = CBCTL2;
|
|
contextSaveCBCTL3 = CBCTL3;
|
|
contextSaveCboutDir = *(group->cboutTAxDirRegister);
|
|
contextSaveCboutSel = *(group->cboutTAxSelRegister);
|
|
//** Setup Measurement timer***************************************************
|
|
// connect CBOUT with TA1
|
|
*(group->cboutTAxDirRegister) |= (group->cboutTAxBits);
|
|
*(group->cboutTAxSelRegister) |= (group->cboutTAxBits);
|
|
CBCTL2 = CBREF14+CBREF13 + CBREF02;
|
|
// Configure Timer TA1
|
|
TA1CCR0 =(group->accumulationCycles);
|
|
|
|
// Turn on Comparator
|
|
CBCTL1 = CBON + CBF; // Turn on comparator with filter
|
|
// Vcc to resistor ladder
|
|
CBCTL3 |= (group->cbpdBits); // set CPD bits to disable
|
|
// I/O buffer
|
|
CBCTL2 |= CBRS_1; // Turn on reference
|
|
for (i = 0; i<(group->numElements); i++)
|
|
{
|
|
j=0;
|
|
CBCTL0 = CBIMEN + (group->arrayPtr[i])->inputBits;
|
|
//** Setup Gate Timer ********************************************************
|
|
// Set duration of sensor measurment
|
|
TA1CTL = TASSEL_0+TACLR+MC_1; // TACLK
|
|
while(!(TA1CTL & TAIFG))
|
|
{
|
|
j++;
|
|
} // end accumulation
|
|
counts[i] = j;
|
|
//P1SEL &=~BIT4;
|
|
}
|
|
// End Sequence
|
|
//** Context Restore
|
|
// TIMERA0: TACTL, TACCTL1
|
|
// COMPB: CBCTL0, CBCTL1, CBCTL2, CBCTL3
|
|
// Ports: CboutDIR, CboutSel
|
|
TA1CTL = contextSaveTA1CTL;
|
|
TA1CCR0 = contextSaveTA1CCR0;
|
|
CBCTL0 = contextSaveCBCTL0;
|
|
CBCTL1 = contextSaveCBCTL1;
|
|
CBCTL2 = contextSaveCBCTL2;
|
|
CBCTL3 = contextSaveCBCTL3;
|
|
*(group->cboutTAxDirRegister) = contextSaveCboutDir;
|
|
*(group->cboutTAxSelRegister) = contextSaveCboutSel;
|
|
}
|
|
#endif
|
|
|
|
#ifdef WDT_GATE
|
|
// Watchdog Timer interrupt service routine
|
|
#pragma vector=WDT_VECTOR
|
|
__interrupt void watchdog_timer(void)
|
|
{
|
|
__bic_SR_register_on_exit(LPM3_bits); // Exit LPM3 on reti
|
|
}
|
|
#endif
|
|
|
|
/***************************************************************************//**
|
|
* @}
|
|
******************************************************************************/
|