//***************************************************************************** // // pwm.c - API for the PWM modules // // Copyright (c) 2005-2010 Texas Instruments Incorporated. All rights reserved. // Software License Agreement // // Texas Instruments (TI) is supplying this software for use solely and // exclusively on TI's microcontroller products. The software is owned by // TI and/or its suppliers, and is protected under applicable copyright // laws. You may not combine this software with "viral" open-source // software in order to form a larger program. // // THIS SOFTWARE IS PROVIDED "AS IS" AND WITH ALL FAULTS. // NO WARRANTIES, WHETHER EXPRESS, IMPLIED OR STATUTORY, INCLUDING, BUT // NOT LIMITED TO, IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE APPLY TO THIS SOFTWARE. TI SHALL NOT, UNDER ANY // CIRCUMSTANCES, BE LIABLE FOR SPECIAL, INCIDENTAL, OR CONSEQUENTIAL // DAMAGES, FOR ANY REASON WHATSOEVER. // // This is part of revision 6459 of the Stellaris Peripheral Driver Library. // //***************************************************************************** //***************************************************************************** // //! \addtogroup pwm_api //! @{ // //***************************************************************************** #include "inc/hw_ints.h" #include "inc/hw_memmap.h" #include "inc/hw_pwm.h" #include "inc/hw_sysctl.h" #include "inc/hw_types.h" #include "driverlib/debug.h" #include "driverlib/interrupt.h" #include "driverlib/pwm.h" //***************************************************************************** // // Misc macros for manipulating the encoded generator and output defines used // by the API. // //***************************************************************************** #define PWM_GEN_BADDR(_mod_, _gen_) \ ((_mod_) + (_gen_)) #define PWM_GEN_EXT_BADDR(_mod_, _gen_) \ ((_mod_) + PWM_GEN_EXT_0 + \ ((_gen_) - PWM_GEN_0) * 2) #define PWM_OUT_BADDR(_mod_, _out_) \ ((_mod_) + ((_out_) & 0xFFFFFFC0)) #define PWM_IS_OUTPUT_ODD(_out_) \ ((_out_) & 0x00000001) //***************************************************************************** // //! \internal //! Checks a PWM generator number. //! //! \param ulGen is the generator number. //! //! This function determines if a PWM generator number is valid. //! //! \return Returnes \b true if the generator number is valid and \b false //! otherwise. // //***************************************************************************** #ifdef DEBUG static tBoolean PWMGenValid(unsigned long ulGen) { return((ulGen == PWM_GEN_0) || (ulGen == PWM_GEN_1) || (ulGen == PWM_GEN_2) || (ulGen == PWM_GEN_3)); } #endif //***************************************************************************** // //! \internal //! Checks a PWM output number. //! //! \param ulPWMOut is the output number. //! //! This function determines if a PWM output number is valid. //! //! \return Returns \b true if the output number is valid and \b false //! otherwise. // //***************************************************************************** #ifdef DEBUG static tBoolean PWMOutValid(unsigned long ulPWMOut) { return((ulPWMOut == PWM_OUT_0) || (ulPWMOut == PWM_OUT_1) || (ulPWMOut == PWM_OUT_2) || (ulPWMOut == PWM_OUT_3) || (ulPWMOut == PWM_OUT_4) || (ulPWMOut == PWM_OUT_5) || (ulPWMOut == PWM_OUT_6) || (ulPWMOut == PWM_OUT_7)); } #endif //***************************************************************************** // //! Configures a PWM generator. //! //! \param ulBase is the base address of the PWM module. //! \param ulGen is the PWM generator to configure. Must be one of //! \b PWM_GEN_0, \b PWM_GEN_1, \b PWM_GEN_2, or \b PWM_GEN_3. //! \param ulConfig is the configuration for the PWM generator. //! //! This function is used to set the mode of operation for a PWM generator. //! The counting mode, synchronization mode, and debug behavior are all //! configured. After configuration, the generator is left in the disabled //! state. //! //! A PWM generator can count in two different modes: count down mode or count //! up/down mode. In count down mode, it will count from a value down to zero, //! and then reset to the preset value. This will produce left-aligned PWM //! signals (that is the rising edge of the two PWM signals produced by the //! generator will occur at the same time). In count up/down mode, it will //! count up from zero to the preset value, count back down to zero, and then //! repeat the process. This will produce center-aligned PWM signals (that is, //! the middle of the high/low period of the PWM signals produced by the //! generator will occur at the same time). //! //! When the PWM generator parameters (period and pulse width) are modified, //! their affect on the output PWM signals can be delayed. In synchronous //! mode, the parameter updates are not applied until a synchronization event //! occurs. This allows multiple parameters to be modified and take affect //! simultaneously, instead of one at a time. Additionally, parameters to //! multiple PWM generators in synchronous mode can be updated simultaneously, //! allowing them to be treated as if they were a unified generator. In //! non-synchronous mode, the parameter updates are not delayed until a //! synchronization event. In either mode, the parameter updates only occur //! when the counter is at zero to help prevent oddly formed PWM signals during //! the update (that is, a PWM pulse that is too short or too long). //! //! The PWM generator can either pause or continue running when the processor //! is stopped via the debugger. If configured to pause, it will continue to //! count until it reaches zero, at which point it will pause until the //! processor is restarted. If configured to continue running, it will keep //! counting as if nothing had happened. //! //! The \e ulConfig parameter contains the desired configuration. It is the //! logical OR of the following: //! //! - \b PWM_GEN_MODE_DOWN or \b PWM_GEN_MODE_UP_DOWN to specify the counting //! mode //! - \b PWM_GEN_MODE_SYNC or \b PWM_GEN_MODE_NO_SYNC to specify the counter //! load and comparator update synchronization mode //! - \b PWM_GEN_MODE_DBG_RUN or \b PWM_GEN_MODE_DBG_STOP to specify the debug //! behavior //! - \b PWM_GEN_MODE_GEN_NO_SYNC, \b PWM_GEN_MODE_GEN_SYNC_LOCAL, or //! \b PWM_GEN_MODE_GEN_SYNC_GLOBAL to specify the update synchronization //! mode for generator counting mode changes //! - \b PWM_GEN_MODE_DB_NO_SYNC, \b PWM_GEN_MODE_DB_SYNC_LOCAL, or //! \b PWM_GEN_MODE_DB_SYNC_GLOBAL to specify the deadband parameter //! synchronization mode //! - \b PWM_GEN_MODE_FAULT_LATCHED or \b PWM_GEN_MODE_FAULT_UNLATCHED to //! specify whether fault conditions are latched or not //! - \b PWM_GEN_MODE_FAULT_MINPER or \b PWM_GEN_MODE_FAULT_NO_MINPER to //! specify whether minimum fault period support is required //! - \b PWM_GEN_MODE_FAULT_EXT or \b PWM_GEN_MODE_FAULT_LEGACY to specify //! whether extended fault source selection support is enabled or not //! //! Setting \b PWM_GEN_MODE_FAULT_MINPER allows an application to set the //! minimum duration of a PWM fault signal. Fault will be signaled for at //! least this time even if the external fault pin deasserts earlier. Care //! should be taken when using this mode since during the fault signal period, //! the fault interrupt from the PWM generator will remain asserted. The fault //! interrupt handler may, therefore, reenter immediately if it exits prior to //! expiration of the fault timer. //! //! \note Changes to the counter mode will affect the period of the PWM signals //! produced. PWMGenPeriodSet() and PWMPulseWidthSet() should be called after //! any changes to the counter mode of a generator. //! //! \return None. // //***************************************************************************** void PWMGenConfigure(unsigned long ulBase, unsigned long ulGen, unsigned long ulConfig) { // // Check the arguments. // ASSERT(ulBase == PWM_BASE); ASSERT(PWMGenValid(ulGen)); // // Compute the generator's base address. // ulGen = PWM_GEN_BADDR(ulBase, ulGen); // // Change the global configuration of the generator. // HWREG(ulGen + PWM_O_X_CTL) = ((HWREG(ulGen + PWM_O_X_CTL) & ~(PWM_X_CTL_MODE | PWM_X_CTL_DEBUG | PWM_X_CTL_LATCH | PWM_X_CTL_MINFLTPER | PWM_X_CTL_FLTSRC | PWM_X_CTL_DBFALLUPD_M | PWM_X_CTL_DBRISEUPD_M | PWM_X_CTL_DBCTLUPD_M | PWM_X_CTL_GENBUPD_M | PWM_X_CTL_GENAUPD_M | PWM_X_CTL_LOADUPD | PWM_X_CTL_CMPAUPD | PWM_X_CTL_CMPBUPD)) | ulConfig); // // Set the individual PWM generator controls. // if(ulConfig & PWM_X_CTL_MODE) { // // In up/down count mode, set the signal high on up count comparison // and low on down count comparison (that is, center align the // signals). // HWREG(ulGen + PWM_O_X_GENA) = (PWM_X_GENA_ACTCMPAU_ONE | PWM_X_GENA_ACTCMPAD_ZERO); HWREG(ulGen + PWM_O_X_GENB) = (PWM_X_GENB_ACTCMPBU_ONE | PWM_X_GENB_ACTCMPBD_ZERO); } else { // // In down count mode, set the signal high on load and low on count // comparison (that is, left align the signals). // HWREG(ulGen + PWM_O_X_GENA) = (PWM_X_GENA_ACTLOAD_ONE | PWM_X_GENA_ACTCMPAD_ZERO); HWREG(ulGen + PWM_O_X_GENB) = (PWM_X_GENB_ACTLOAD_ONE | PWM_X_GENB_ACTCMPBD_ZERO); } } //***************************************************************************** // //! Set the period of a PWM generator. //! //! \param ulBase is the base address of the PWM module. //! \param ulGen is the PWM generator to be modified. Must be one of //! \b PWM_GEN_0, \b PWM_GEN_1, \b PWM_GEN_2, or \b PWM_GEN_3. //! \param ulPeriod specifies the period of PWM generator output, measured //! in clock ticks. //! //! This function sets the period of the specified PWM generator block, where //! the period of the generator block is defined as the number of PWM clock //! ticks between pulses on the generator block zero signal. //! //! \note Any subsequent calls made to this function before an update occurs //! will cause the previous values to be overwritten. //! //! \return None. // //***************************************************************************** void PWMGenPeriodSet(unsigned long ulBase, unsigned long ulGen, unsigned long ulPeriod) { // // Check the arguments. // ASSERT(ulBase == PWM_BASE); ASSERT(PWMGenValid(ulGen)); // // Compute the generator's base address. // ulGen = PWM_GEN_BADDR(ulBase, ulGen); // // Set the reload register based on the mode. // if(HWREG(ulGen + PWM_O_X_CTL) & PWM_X_CTL_MODE) { // // In up/down count mode, set the reload register to half the requested // period. // ASSERT((ulPeriod / 2) < 65536); HWREG(ulGen + PWM_O_X_LOAD) = ulPeriod / 2; } else { // // In down count mode, set the reload register to the requested period // minus one. // ASSERT((ulPeriod <= 65536) && (ulPeriod != 0)); HWREG(ulGen + PWM_O_X_LOAD) = ulPeriod - 1; } } //***************************************************************************** // //! Gets the period of a PWM generator block. //! //! \param ulBase is the base address of the PWM module. //! \param ulGen is the PWM generator to query. Must be one of //! \b PWM_GEN_0, \b PWM_GEN_1, \b PWM_GEN_2, or \b PWM_GEN_3. //! //! This function gets the period of the specified PWM generator block. The //! period of the generator block is defined as the number of PWM clock ticks //! between pulses on the generator block zero signal. //! //! If the update of the counter for the specified PWM generator has yet //! to be completed, the value returned may not be the active period. The //! value returned is the programmed period, measured in PWM clock ticks. //! //! \return Returns the programmed period of the specified generator block //! in PWM clock ticks. // //***************************************************************************** unsigned long PWMGenPeriodGet(unsigned long ulBase, unsigned long ulGen) { // // Check the arguments. // ASSERT(ulBase == PWM_BASE); ASSERT(PWMGenValid(ulGen)); // // Compute the generator's base address. // ulGen = PWM_GEN_BADDR(ulBase, ulGen); // // Figure out the counter mode. // if(HWREG(ulGen + PWM_O_X_CTL) & PWM_X_CTL_MODE) { // // The period is twice the reload register value. // return(HWREG(ulGen + PWM_O_X_LOAD) * 2); } else { // // The period is the reload register value plus one. // return(HWREG(ulGen + PWM_O_X_LOAD) + 1); } } //***************************************************************************** // //! Enables the timer/counter for a PWM generator block. //! //! \param ulBase is the base address of the PWM module. //! \param ulGen is the PWM generator to be enabled. Must be one of //! \b PWM_GEN_0, \b PWM_GEN_1, \b PWM_GEN_2, or \b PWM_GEN_3. //! //! This function allows the PWM clock to drive the timer/counter for the //! specified generator block. //! //! \return None. // //***************************************************************************** void PWMGenEnable(unsigned long ulBase, unsigned long ulGen) { // // Check the arguments. // ASSERT(ulBase == PWM_BASE); ASSERT(PWMGenValid(ulGen)); // // Enable the PWM generator. // HWREG(PWM_GEN_BADDR(ulBase, ulGen) + PWM_O_X_CTL) |= PWM_X_CTL_ENABLE; } //***************************************************************************** // //! Disables the timer/counter for a PWM generator block. //! //! \param ulBase is the base address of the PWM module. //! \param ulGen is the PWM generator to be disabled. Must be one of //! \b PWM_GEN_0, \b PWM_GEN_1, \b PWM_GEN_2, or \b PWM_GEN_3. //! //! This function blocks the PWM clock from driving the timer/counter for the //! specified generator block. //! //! \return None. // //***************************************************************************** void PWMGenDisable(unsigned long ulBase, unsigned long ulGen) { // // Check the arguments. // ASSERT(ulBase == PWM_BASE); ASSERT(PWMGenValid(ulGen)); // // Disable the PWM generator. // HWREG(PWM_GEN_BADDR(ulBase, + ulGen) + PWM_O_X_CTL) &= ~(PWM_X_CTL_ENABLE); } //***************************************************************************** // //! Sets the pulse width for the specified PWM output. //! //! \param ulBase is the base address of the PWM module. //! \param ulPWMOut is the PWM output to modify. Must be one of \b PWM_OUT_0, //! \b PWM_OUT_1, \b PWM_OUT_2, \b PWM_OUT_3, \b PWM_OUT_4, \b PWM_OUT_5, //! \b PWM_OUT_6, or \b PWM_OUT_7. //! \param ulWidth specifies the width of the positive portion of the pulse. //! //! This function sets the pulse width for the specified PWM output, where the //! pulse width is defined as the number of PWM clock ticks. //! //! \note Any subsequent calls made to this function before an update occurs //! will cause the previous values to be overwritten. //! //! \return None. // //***************************************************************************** void PWMPulseWidthSet(unsigned long ulBase, unsigned long ulPWMOut, unsigned long ulWidth) { unsigned long ulGenBase, ulReg; // // Check the arguments. // ASSERT(ulBase == PWM_BASE); ASSERT(PWMOutValid(ulPWMOut)); // // Compute the generator's base address. // ulGenBase = PWM_OUT_BADDR(ulBase, ulPWMOut); // // If the counter is in up/down count mode, divide the width by two. // if(HWREG(ulGenBase + PWM_O_X_CTL) & PWM_X_CTL_MODE) { ulWidth /= 2; } // // Get the period. // ulReg = HWREG(ulGenBase + PWM_O_X_LOAD); // // Make sure the width is not too large. // ASSERT(ulWidth < ulReg); // // Compute the compare value. // ulReg = ulReg - ulWidth; // // Write to the appropriate registers. // if(PWM_IS_OUTPUT_ODD(ulPWMOut)) { HWREG(ulGenBase + PWM_O_X_CMPB) = ulReg; } else { HWREG(ulGenBase + PWM_O_X_CMPA) = ulReg; } } //***************************************************************************** // //! Gets the pulse width of a PWM output. //! //! \param ulBase is the base address of the PWM module. //! \param ulPWMOut is the PWM output to query. Must be one of \b PWM_OUT_0, //! \b PWM_OUT_1, \b PWM_OUT_2, \b PWM_OUT_3, \b PWM_OUT_4, \b PWM_OUT_5, //! \b PWM_OUT_6, or \b PWM_OUT_7. //! //! This function gets the currently programmed pulse width for the specified //! PWM output. If the update of the comparator for the specified output has //! yet to be completed, the value returned may not be the active pulse width. //! The value returned is the programmed pulse width, measured in PWM clock //! ticks. //! //! \return Returns the width of the pulse in PWM clock ticks. // //***************************************************************************** unsigned long PWMPulseWidthGet(unsigned long ulBase, unsigned long ulPWMOut) { unsigned long ulGenBase, ulReg, ulLoad; // // Check the arguments. // ASSERT(ulBase == PWM_BASE); ASSERT(PWMOutValid(ulPWMOut)); // // Compute the generator's base address. // ulGenBase = PWM_OUT_BADDR(ulBase, ulPWMOut); // // Then compute the pulse width. If mode is UpDown, set // width = (load - compare) * 2. Otherwise, set width = load - compare. // ulLoad = HWREG(ulGenBase + PWM_O_X_LOAD); if(PWM_IS_OUTPUT_ODD(ulPWMOut)) { ulReg = HWREG(ulGenBase + PWM_O_X_CMPB); } else { ulReg = HWREG(ulGenBase + PWM_O_X_CMPA); } ulReg = ulLoad - ulReg; // // If in up/down count mode, double the pulse width. // if(HWREG(ulGenBase + PWM_O_X_CTL) & PWM_X_CTL_MODE) { ulReg = ulReg * 2; } // // Return the pulse width. // return(ulReg); } //***************************************************************************** // //! Enables the PWM dead band output, and sets the dead band delays. //! //! \param ulBase is the base address of the PWM module. //! \param ulGen is the PWM generator to modify. Must be one of //! \b PWM_GEN_0, \b PWM_GEN_1, \b PWM_GEN_2, or \b PWM_GEN_3. //! \param usRise specifies the width of delay from the rising edge. //! \param usFall specifies the width of delay from the falling edge. //! //! This function sets the dead bands for the specified PWM generator, //! where the dead bands are defined as the number of \b PWM clock ticks //! from the rising or falling edge of the generator's \b OutA signal. //! Note that this function causes the coupling of \b OutB to \b OutA. //! //! \return None. // //***************************************************************************** void PWMDeadBandEnable(unsigned long ulBase, unsigned long ulGen, unsigned short usRise, unsigned short usFall) { // // Check the arguments. // ASSERT(ulBase == PWM_BASE); ASSERT(PWMGenValid(ulGen)); ASSERT(usRise < 4096); ASSERT(usFall < 4096); // // Compute the generator's base address. // ulGen = PWM_GEN_BADDR(ulBase, ulGen); // // Write the dead band delay values. // HWREG(ulGen + PWM_O_X_DBRISE) = usRise; HWREG(ulGen + PWM_O_X_DBFALL) = usFall; // // Enable the deadband functionality. // HWREG(ulGen + PWM_O_X_DBCTL) |= PWM_X_DBCTL_ENABLE; } //***************************************************************************** // //! Disables the PWM dead band output. //! //! \param ulBase is the base address of the PWM module. //! \param ulGen is the PWM generator to modify. Must be one of //! \b PWM_GEN_0, \b PWM_GEN_1, \b PWM_GEN_2, or \b PWM_GEN_3. //! //! This function disables the dead band mode for the specified PWM generator. //! Doing so decouples the \b OutA and \b OutB signals. //! //! \return None. // //***************************************************************************** void PWMDeadBandDisable(unsigned long ulBase, unsigned long ulGen) { // // Check the arguments. // ASSERT(ulBase == PWM_BASE); ASSERT(PWMGenValid(ulGen)); // // Disable the deadband functionality. // HWREG(PWM_GEN_BADDR(ulBase, ulGen) + PWM_O_X_DBCTL) &= ~(PWM_X_DBCTL_ENABLE); } //***************************************************************************** // //! Synchronizes all pending updates. //! //! \param ulBase is the base address of the PWM module. //! \param ulGenBits are the PWM generator blocks to be updated. Must be the //! logical OR of any of \b PWM_GEN_0_BIT, \b PWM_GEN_1_BIT, //! \b PWM_GEN_2_BIT, or \b PWM_GEN_3_BIT. //! //! For the selected PWM generators, this function causes all queued updates to //! the period or pulse width to be applied the next time the corresponding //! counter becomes zero. //! //! \return None. // //***************************************************************************** void PWMSyncUpdate(unsigned long ulBase, unsigned long ulGenBits) { // // Check the arguments. // ASSERT(ulBase == PWM_BASE); ASSERT(!(ulGenBits & ~(PWM_GEN_0_BIT | PWM_GEN_1_BIT | PWM_GEN_2_BIT | PWM_GEN_3_BIT))); // // Synchronize pending PWM register changes. // HWREG(ulBase + PWM_O_CTL) = ulGenBits; } //***************************************************************************** // //! Synchronizes the counters in one or multiple PWM generator blocks. //! //! \param ulBase is the base address of the PWM module. //! \param ulGenBits are the PWM generator blocks to be synchronized. Must be //! the logical OR of any of \b PWM_GEN_0_BIT, \b PWM_GEN_1_BIT, //! \b PWM_GEN_2_BIT, or \b PWM_GEN_3_BIT. //! //! For the selected PWM module, this function synchronizes the time base //! of the generator blocks by causing the specified generator counters to be //! reset to zero. //! //! \return None. // //***************************************************************************** void PWMSyncTimeBase(unsigned long ulBase, unsigned long ulGenBits) { // // Check the arguments. // ASSERT(ulBase == PWM_BASE); ASSERT(!(ulGenBits & ~(PWM_GEN_0_BIT | PWM_GEN_1_BIT | PWM_GEN_2_BIT | PWM_GEN_3_BIT))); // // Synchronize the counters in the specified generators by writing to the // module's synchronization register. // HWREG(ulBase + PWM_O_SYNC) = ulGenBits; } //***************************************************************************** // //! Enables or disables PWM outputs. //! //! \param ulBase is the base address of the PWM module. //! \param ulPWMOutBits are the PWM outputs to be modified. Must be the //! logical OR of any of \b PWM_OUT_0_BIT, \b PWM_OUT_1_BIT, \b PWM_OUT_2_BIT, //! \b PWM_OUT_3_BIT, \b PWM_OUT_4_BIT, \b PWM_OUT_5_BIT, \b PWM_OUT_6_BIT, //! or \b PWM_OUT_7_BIT. //! \param bEnable determines if the signal is enabled or disabled. //! //! This function is used to enable or disable the selected PWM outputs. The //! outputs are selected using the parameter \e ulPWMOutBits. The parameter //! \e bEnable determines the state of the selected outputs. If \e bEnable is //! \b true, then the selected PWM outputs are enabled, or placed in the active //! state. If \e bEnable is \b false, then the selected outputs are disabled, //! or placed in the inactive state. //! //! \return None. // //***************************************************************************** void PWMOutputState(unsigned long ulBase, unsigned long ulPWMOutBits, tBoolean bEnable) { // // Check the arguments. // ASSERT(ulBase == PWM_BASE); ASSERT(!(ulPWMOutBits & ~(PWM_OUT_0_BIT | PWM_OUT_1_BIT | PWM_OUT_2_BIT | PWM_OUT_3_BIT | PWM_OUT_4_BIT | PWM_OUT_5_BIT | PWM_OUT_6_BIT | PWM_OUT_7_BIT))); // // Read the module's ENABLE output control register, and set or clear the // requested bits. // if(bEnable == true) { HWREG(ulBase + PWM_O_ENABLE) |= ulPWMOutBits; } else { HWREG(ulBase + PWM_O_ENABLE) &= ~(ulPWMOutBits); } } //***************************************************************************** // //! Selects the inversion mode for PWM outputs. //! //! \param ulBase is the base address of the PWM module. //! \param ulPWMOutBits are the PWM outputs to be modified. Must be the //! logical OR of any of \b PWM_OUT_0_BIT, \b PWM_OUT_1_BIT, \b PWM_OUT_2_BIT, //! \b PWM_OUT_3_BIT, \b PWM_OUT_4_BIT, \b PWM_OUT_5_BIT, \b PWM_OUT_6_BIT, or //! \b PWM_OUT_7_BIT. //! \param bInvert determines if the signal is inverted or passed through. //! //! This function is used to select the inversion mode for the selected PWM //! outputs. The outputs are selected using the parameter \e ulPWMOutBits. //! The parameter \e bInvert determines the inversion mode for the selected //! outputs. If \e bInvert is \b true, this function will cause the specified //! PWM output signals to be inverted, or made active low. If \e bInvert is //! \b false, the specified output will be passed through as is, or be made //! active high. //! //! \return None. // //***************************************************************************** void PWMOutputInvert(unsigned long ulBase, unsigned long ulPWMOutBits, tBoolean bInvert) { // // Check the arguments. // ASSERT(ulBase == PWM_BASE); ASSERT(!(ulPWMOutBits & ~(PWM_OUT_0_BIT | PWM_OUT_1_BIT | PWM_OUT_2_BIT | PWM_OUT_3_BIT | PWM_OUT_4_BIT | PWM_OUT_5_BIT | PWM_OUT_6_BIT | PWM_OUT_7_BIT))); // // Read the module's INVERT output control register, and set or clear the // requested bits. // if(bInvert == true) { HWREG(ulBase + PWM_O_INVERT) |= ulPWMOutBits; } else { HWREG(ulBase + PWM_O_INVERT) &= ~(ulPWMOutBits); } } //***************************************************************************** // //! Specifies the level of PWM outputs suppressed in response to a fault //! condition. //! //! \param ulBase is the base address of the PWM module. //! \param ulPWMOutBits are the PWM outputs to be modified. Must be the //! logical OR of any of \b PWM_OUT_0_BIT, \b PWM_OUT_1_BIT, \b PWM_OUT_2_BIT, //! \b PWM_OUT_3_BIT, \b PWM_OUT_4_BIT, \b PWM_OUT_5_BIT, \b PWM_OUT_6_BIT, or //! \b PWM_OUT_7_BIT. //! \param bDriveHigh determines if the signal is driven high or low during an //! active fault condition. //! //! This function determines whether a PWM output pin that is suppressed in //! response to a fault condition will be driven high or low. The affected //! outputs are selected using the parameter \e ulPWMOutBits. The parameter //! \e bDriveHigh determines the output level for the pins identified by //! \e ulPWMOutBits. If \e bDriveHigh is \b true then the selected outputs //! will be driven high when a fault is detected. If it is \e false, the pins //! will be driven low. //! //! In a fault condition, pins which have not been configured to be suppressed //! via a call to PWMOutputFault() are unaffected by this function. //! //! \note This function is available only on devices which support extended //! PWM fault handling. //! //! \return None. // //***************************************************************************** void PWMOutputFaultLevel(unsigned long ulBase, unsigned long ulPWMOutBits, tBoolean bDriveHigh) { // // Check the arguments. // ASSERT(HWREG(SYSCTL_DC5) & SYSCTL_DC5_PWMEFLT); ASSERT(ulBase == PWM_BASE); ASSERT(!(ulPWMOutBits & ~(PWM_OUT_0_BIT | PWM_OUT_1_BIT | PWM_OUT_2_BIT | PWM_OUT_3_BIT | PWM_OUT_4_BIT | PWM_OUT_5_BIT | PWM_OUT_6_BIT | PWM_OUT_7_BIT))); // // Read the module's FAULT output control register, and set or clear the // requested bits. // if(bDriveHigh == true) { HWREG(ulBase + PWM_O_FAULTVAL) |= ulPWMOutBits; } else { HWREG(ulBase + PWM_O_FAULTVAL) &= ~(ulPWMOutBits); } } //***************************************************************************** // //! Specifies the state of PWM outputs in response to a fault condition. //! //! \param ulBase is the base address of the PWM module. //! \param ulPWMOutBits are the PWM outputs to be modified. Must be the //! logical OR of any of \b PWM_OUT_0_BIT, \b PWM_OUT_1_BIT, \b PWM_OUT_2_BIT, //! \b PWM_OUT_3_BIT, \b PWM_OUT_4_BIT, \b PWM_OUT_5_BIT, \b PWM_OUT_6_BIT, or //! \b PWM_OUT_7_BIT. //! \param bFaultSuppress determines if the signal is suppressed or passed //! through during an active fault condition. //! //! This function sets the fault handling characteristics of the selected PWM //! outputs. The outputs are selected using the parameter \e ulPWMOutBits. //! The parameter \e bFaultSuppress determines the fault handling //! characteristics for the selected outputs. If \e bFaultSuppress is \b true, //! then the selected outputs will be made inactive. If \e bFaultSuppress is //! \b false, then the selected outputs are unaffected by the detected fault. //! //! On devices supporting extended PWM fault handling, the state the affected //! output pins are driven to can be configured with PWMOutputFaultLevel(). If //! not configured, or if the device does not support extended PWM fault //! handling, affected outputs will be driven low on a fault condition. //! //! \return None. // //***************************************************************************** void PWMOutputFault(unsigned long ulBase, unsigned long ulPWMOutBits, tBoolean bFaultSuppress) { // // Check the arguments. // ASSERT(ulBase == PWM_BASE); ASSERT(!(ulPWMOutBits & ~(PWM_OUT_0_BIT | PWM_OUT_1_BIT | PWM_OUT_2_BIT | PWM_OUT_3_BIT | PWM_OUT_4_BIT | PWM_OUT_5_BIT | PWM_OUT_6_BIT | PWM_OUT_7_BIT))); // // Read the module's FAULT output control register, and set or clear the // requested bits. // if(bFaultSuppress == true) { HWREG(ulBase + PWM_O_FAULT) |= ulPWMOutBits; } else { HWREG(ulBase + PWM_O_FAULT) &= ~(ulPWMOutBits); } } //***************************************************************************** // //! Registers an interrupt handler for the specified PWM generator block. //! //! \param ulBase is the base address of the PWM module. //! \param ulGen is the PWM generator in question. Must be one of //! \b PWM_GEN_0, \b PWM_GEN_1, \b PWM_GEN_2, or \b PWM_GEN_3. //! \param pfnIntHandler is a pointer to the function to be called when the PWM //! generator interrupt occurs. //! //! This function will ensure that the interrupt handler specified by //! \e pfnIntHandler is called when an interrupt is detected for the specified //! PWM generator block. This function will also enable the corresponding //! PWM generator interrupt in the interrupt controller; individual generator //! interrupts and interrupt sources must be enabled with PWMIntEnable() and //! PWMGenIntTrigEnable(). //! //! \sa IntRegister() for important information about registering interrupt //! handlers. //! //! \return None. // //***************************************************************************** void PWMGenIntRegister(unsigned long ulBase, unsigned long ulGen, void (*pfnIntHandler)(void)) { unsigned long ulInt; // // Check the arguments. // ASSERT(ulBase == PWM_BASE); ASSERT(PWMGenValid(ulGen)); // // Get the interrupt number associated with the specified generator. // if(ulGen == PWM_GEN_3) { ulInt = INT_PWM3; } else { ulInt = INT_PWM0 + (ulGen >> 6) - 1; } // // Register the interrupt handler. // IntRegister(ulInt, pfnIntHandler); // // Enable the PWMx interrupt. // IntEnable(ulInt); } //***************************************************************************** // //! Removes an interrupt handler for the specified PWM generator block. //! //! \param ulBase is the base address of the PWM module. //! \param ulGen is the PWM generator in question. Must be one of //! \b PWM_GEN_0, \b PWM_GEN_1, \b PWM_GEN_2, or \b PWM_GEN_3. //! //! This function will unregister the interrupt handler for the specified //! PWM generator block. This function will also disable the corresponding //! PWM generator interrupt in the interrupt controller; individual generator //! interrupts and interrupt sources must be disabled with PWMIntDisable() and //! PWMGenIntTrigDisable(). //! //! \sa IntRegister() for important information about registering interrupt //! handlers. //! //! \return None. // //***************************************************************************** void PWMGenIntUnregister(unsigned long ulBase, unsigned long ulGen) { unsigned long ulInt; // // Check the arguments. // ASSERT(ulBase == PWM_BASE); ASSERT(PWMGenValid(ulGen)); // // Get the interrupt number associated with the specified generator. // if(ulGen == PWM_GEN_3) { ulInt = INT_PWM3; } else { ulInt = INT_PWM0 + (ulGen >> 6) - 1; } // // Disable the PWMx interrupt. // IntDisable(ulInt); // // Unregister the interrupt handler. // IntUnregister(ulInt); } //***************************************************************************** // //! Registers an interrupt handler for a fault condition detected in a PWM //! module. //! //! \param ulBase is the base address of the PWM module. //! \param pfnIntHandler is a pointer to the function to be called when the PWM //! fault interrupt occurs. //! //! This function will ensure that the interrupt handler specified by //! \e pfnIntHandler is called when a fault interrupt is detected for the //! selected PWM module. This function will also enable the PWM fault //! interrupt in the NVIC; the PWM fault interrupt must also be enabled at the //! module level using PWMIntEnable(). //! //! \sa IntRegister() for important information about registering interrupt //! handlers. //! //! \return None. // //***************************************************************************** void PWMFaultIntRegister(unsigned long ulBase, void (*pfnIntHandler)(void)) { // // Check the arguments. // ASSERT(ulBase == PWM_BASE); // // Register the interrupt handler, returning an error if one occurs. // IntRegister(INT_PWM_FAULT, pfnIntHandler); // // Enable the PWM fault interrupt. // IntEnable(INT_PWM_FAULT); } //***************************************************************************** // //! Removes the PWM fault condition interrupt handler. //! //! \param ulBase is the base address of the PWM module. //! //! This function will remove the interrupt handler for a PWM fault interrupt //! from the selected PWM module. This function will also disable the PWM //! fault interrupt in the NVIC; the PWM fault interrupt must also be disabled //! at the module level using PWMIntDisable(). //! //! \sa IntRegister() for important information about registering interrupt //! handlers. //! //! \return None. // //***************************************************************************** void PWMFaultIntUnregister(unsigned long ulBase) { // // Check the arguments. // ASSERT(ulBase == PWM_BASE); // // Disable the PWM fault interrupt. // IntDisable(INT_PWM_FAULT); // // Unregister the interrupt handler, returning an error if one occurs. // IntUnregister(INT_PWM_FAULT); } //***************************************************************************** // //! Enables interrupts and triggers for the specified PWM generator block. //! //! \param ulBase is the base address of the PWM module. //! \param ulGen is the PWM generator to have interrupts and triggers enabled. //! Must be one of \b PWM_GEN_0, \b PWM_GEN_1, \b PWM_GEN_2, or \b PWM_GEN_3. //! \param ulIntTrig specifies the interrupts and triggers to be enabled. //! //! Unmasks the specified interrupt(s) and trigger(s) by setting the //! specified bits of the interrupt/trigger enable register for the specified //! PWM generator. The \e ulIntTrig parameter is the logical OR of //! \b PWM_INT_CNT_ZERO, \b PWM_INT_CNT_LOAD, \b PWM_INT_CNT_AU, //! \b PWM_INT_CNT_AD, \b PWM_INT_CNT_BU, \b PWM_INT_CNT_BD, //! \b PWM_TR_CNT_ZERO, \b PWM_TR_CNT_LOAD, \b PWM_TR_CNT_AU, \b PWM_TR_CNT_AD, //! \b PWM_TR_CNT_BU, or \b PWM_TR_CNT_BD. //! //! \return None. // //***************************************************************************** void PWMGenIntTrigEnable(unsigned long ulBase, unsigned long ulGen, unsigned long ulIntTrig) { // // Check the arguments. // ASSERT(ulBase == PWM_BASE); ASSERT(PWMGenValid(ulGen)); ASSERT((ulIntTrig & ~(PWM_INT_CNT_ZERO | PWM_INT_CNT_LOAD | PWM_INT_CNT_AU | PWM_INT_CNT_AD | PWM_INT_CNT_BU | PWM_INT_CNT_BD | PWM_TR_CNT_ZERO | PWM_TR_CNT_LOAD | PWM_TR_CNT_AU | PWM_TR_CNT_AD | PWM_TR_CNT_BU | PWM_TR_CNT_BD)) == 0); // // Enable the specified interrupts/triggers. // HWREG(PWM_GEN_BADDR(ulBase, ulGen) + PWM_O_X_INTEN) |= ulIntTrig; } //***************************************************************************** // //! Disables interrupts for the specified PWM generator block. //! //! \param ulBase is the base address of the PWM module. //! \param ulGen is the PWM generator to have interrupts and triggers disabled. //! Must be one of \b PWM_GEN_0, \b PWM_GEN_1, \b PWM_GEN_2, or \b PWM_GEN_3. //! \param ulIntTrig specifies the interrupts and triggers to be disabled. //! //! Masks the specified interrupt(s) and trigger(s) by clearing the //! specified bits of the interrupt/trigger enable register for the specified //! PWM generator. The \e ulIntTrig parameter is the logical OR of //! \b PWM_INT_CNT_ZERO, \b PWM_INT_CNT_LOAD, \b PWM_INT_CNT_AU, //! \b PWM_INT_CNT_AD, \b PWM_INT_CNT_BU, \b PWM_INT_CNT_BD, //! \b PWM_TR_CNT_ZERO, \b PWM_TR_CNT_LOAD, \b PWM_TR_CNT_AU, \b PWM_TR_CNT_AD, //! \b PWM_TR_CNT_BU, or \b PWM_TR_CNT_BD. //! //! \return None. // //***************************************************************************** void PWMGenIntTrigDisable(unsigned long ulBase, unsigned long ulGen, unsigned long ulIntTrig) { // // Check the arguments. // ASSERT(ulBase == PWM_BASE); ASSERT(PWMGenValid(ulGen)); ASSERT((ulIntTrig & ~(PWM_INT_CNT_ZERO | PWM_INT_CNT_LOAD | PWM_INT_CNT_AU | PWM_INT_CNT_AD | PWM_INT_CNT_BU | PWM_INT_CNT_BD | PWM_TR_CNT_ZERO | PWM_TR_CNT_LOAD | PWM_TR_CNT_AU | PWM_TR_CNT_AD | PWM_TR_CNT_BU | PWM_TR_CNT_BD)) == 0); // // Disable the specified interrupts/triggers. // HWREG(PWM_GEN_BADDR(ulBase, ulGen) + PWM_O_X_INTEN) &= ~(ulIntTrig); } //***************************************************************************** // //! Gets interrupt status for the specified PWM generator block. //! //! \param ulBase is the base address of the PWM module. //! \param ulGen is the PWM generator to query. Must be one of \b PWM_GEN_0, //! \b PWM_GEN_1, \b PWM_GEN_2, or \b PWM_GEN_3. //! \param bMasked specifies whether masked or raw interrupt status is //! returned. //! //! If \e bMasked is set as \b true, then the masked interrupt status is //! returned; otherwise, the raw interrupt status will be returned. //! //! \return Returns the contents of the interrupt status register, or the //! contents of the raw interrupt status register, for the specified //! PWM generator. // //***************************************************************************** unsigned long PWMGenIntStatus(unsigned long ulBase, unsigned long ulGen, tBoolean bMasked) { // // Check the arguments. // ASSERT(ulBase == PWM_BASE); ASSERT(PWMGenValid(ulGen)); // // Compute the generator's base address. // ulGen = PWM_GEN_BADDR(ulBase, ulGen); // // Read and return the specified generator's raw or enabled interrupt // status. // if(bMasked == true) { return(HWREG(ulGen + PWM_O_X_ISC)); } else { return(HWREG(ulGen + PWM_O_X_RIS)); } } //***************************************************************************** // //! Clears the specified interrupt(s) for the specified PWM generator block. //! //! \param ulBase is the base address of the PWM module. //! \param ulGen is the PWM generator to query. Must be one of \b PWM_GEN_0, //! \b PWM_GEN_1, \b PWM_GEN_2, or \b PWM_GEN_3. //! \param ulInts specifies the interrupts to be cleared. //! //! Clears the specified interrupt(s) by writing a 1 to the specified bits //! of the interrupt status register for the specified PWM generator. The //! \e ulInts parameter is the logical OR of \b PWM_INT_CNT_ZERO, //! \b PWM_INT_CNT_LOAD, \b PWM_INT_CNT_AU, \b PWM_INT_CNT_AD, //! \b PWM_INT_CNT_BU, or \b PWM_INT_CNT_BD. //! //! \note Since there is a write buffer in the Cortex-M3 processor, it may take //! several clock cycles before the interrupt source is actually cleared. //! Therefore, it is recommended that the interrupt source be cleared early in //! the interrupt handler (as opposed to the very last action) to avoid //! returning from the interrupt handler before the interrupt source is //! actually cleared. Failure to do so may result in the interrupt handler //! being immediately reentered (since NVIC still sees the interrupt source //! asserted). //! //! \return None. // //***************************************************************************** void PWMGenIntClear(unsigned long ulBase, unsigned long ulGen, unsigned long ulInts) { // // Check the arguments. // ASSERT(ulBase == PWM_BASE); ASSERT(PWMGenValid(ulGen)); ASSERT((ulInts & ~(PWM_INT_CNT_ZERO | PWM_INT_CNT_LOAD | PWM_INT_CNT_AU | PWM_INT_CNT_AD | PWM_INT_CNT_BU | PWM_INT_CNT_BD)) == 0); // // Clear the requested interrupts by writing ones to the specified bit // of the module's interrupt enable register. // HWREG(PWM_GEN_BADDR(ulBase, ulGen) + PWM_O_X_ISC) = ulInts; } //***************************************************************************** // //! Enables generator and fault interrupts for a PWM module. //! //! \param ulBase is the base address of the PWM module. //! \param ulGenFault contains the interrupts to be enabled. Must be a logical //! OR of any of \b PWM_INT_GEN_0, \b PWM_INT_GEN_1, \b PWM_INT_GEN_2, //! \b PWM_INT_GEN_3, \b PWM_INT_FAULT0, \b PWM_INT_FAULT1, \b PWM_INT_FAULT2, //! or \b PWM_INT_FAULT3. //! //! Unmasks the specified interrupt(s) by setting the specified bits of //! the interrupt enable register for the selected PWM module. //! //! \return None. // //***************************************************************************** void PWMIntEnable(unsigned long ulBase, unsigned long ulGenFault) { // // Check the arguments. // ASSERT(ulBase == PWM_BASE); ASSERT((ulGenFault & ~(PWM_INT_GEN_0 | PWM_INT_GEN_1 | PWM_INT_GEN_2 | PWM_INT_GEN_3 | PWM_INT_FAULT0 | PWM_INT_FAULT1 | PWM_INT_FAULT2 | PWM_INT_FAULT3)) == 0); // // Read the module's interrupt enable register, and enable interrupts // for the specified PWM generators. // HWREG(ulBase + PWM_O_INTEN) |= ulGenFault; } //***************************************************************************** // //! Disables generator and fault interrupts for a PWM module. //! //! \param ulBase is the base address of the PWM module. //! \param ulGenFault contains the interrupts to be disabled. Must be a //! logical OR of any of \b PWM_INT_GEN_0, \b PWM_INT_GEN_1, \b PWM_INT_GEN_2, //! \b PWM_INT_GEN_3, \b PWM_INT_FAULT0, \b PWM_INT_FAULT1, \b PWM_INT_FAULT2, //! or \b PWM_INT_FAULT3. //! //! Masks the specified interrupt(s) by clearing the specified bits of //! the interrupt enable register for the selected PWM module. //! //! \return None. // //***************************************************************************** void PWMIntDisable(unsigned long ulBase, unsigned long ulGenFault) { // // Check the arguments. // ASSERT(ulBase == PWM_BASE); ASSERT((ulGenFault & ~(PWM_INT_GEN_0 | PWM_INT_GEN_1 | PWM_INT_GEN_2 | PWM_INT_GEN_3 | PWM_INT_FAULT0 | PWM_INT_FAULT1 | PWM_INT_FAULT2 | PWM_INT_FAULT3)) == 0); // // Read the module's interrupt enable register, and disable interrupts // for the specified PWM generators. // HWREG(ulBase + PWM_O_INTEN) &= ~(ulGenFault); } //***************************************************************************** // //! Clears the fault interrupt for a PWM module. //! //! \param ulBase is the base address of the PWM module. //! //! Clears the fault interrupt by writing to the appropriate bit of the //! interrupt status register for the selected PWM module. //! //! This function clears only the FAULT0 interrupt and is retained for //! backwards compatibility. It is recommended that PWMFaultIntClearExt() be //! used instead since it supports all fault interrupts supported on devices //! with and without extended PWM fault handling support. //! //! \note Since there is a write buffer in the Cortex-M3 processor, it may take //! several clock cycles before the interrupt source is actually cleared. //! Therefore, it is recommended that the interrupt source be cleared early in //! the interrupt handler (as opposed to the very last action) to avoid //! returning from the interrupt handler before the interrupt source is //! actually cleared. Failure to do so may result in the interrupt handler //! being immediately reentered (since NVIC still sees the interrupt source //! asserted). //! //! \return None. // //***************************************************************************** void PWMFaultIntClear(unsigned long ulBase) { // // Check the arguments. // ASSERT(ulBase == PWM_BASE); // // Write the only writeable bit in the module's interrupt register. // HWREG(ulBase + PWM_O_ISC) = PWM_ISC_INTFAULT0; } //***************************************************************************** // //! Gets the interrupt status for a PWM module. //! //! \param ulBase is the base address of the PWM module. //! \param bMasked specifies whether masked or raw interrupt status is //! returned. //! //! If \e bMasked is set as \b true, then the masked interrupt status is //! returned; otherwise, the raw interrupt status will be returned. //! //! \return The current interrupt status, enumerated as a bit field of //! \b PWM_INT_GEN_0, \b PWM_INT_GEN_1, \b PWM_INT_GEN_2, \b PWM_INT_GEN_3, //! \b PWM_INT_FAULT0, \b PWM_INT_FAULT1, \b PWM_INT_FAULT2, and //! \b PWM_INT_FAULT3. //! //***************************************************************************** unsigned long PWMIntStatus(unsigned long ulBase, tBoolean bMasked) { // // Check the arguments. // ASSERT(ulBase == PWM_BASE); // // Read and return either the module's raw or enabled interrupt status. // if(bMasked == true) { return(HWREG(ulBase + PWM_O_ISC)); } else { return(HWREG(ulBase + PWM_O_RIS)); } } //***************************************************************************** // //! Clears the fault interrupt for a PWM module. //! //! \param ulBase is the base address of the PWM module. //! \param ulFaultInts specifies the fault interrupts to clear. //! //! Clears one or more fault interrupts by writing to the appropriate bit of //! the PWM interrupt status register. The parameter \e ulFaultInts must be //! the logical OR of any of \b PWM_INT_FAULT0, \b PWM_INT_FAULT1, //! \b PWM_INT_FAULT2, or \b PWM_INT_FAULT3. //! //! When running on a device supporting extended PWM fault handling, the fault //! interrupts are derived by performing a logical OR of each of the configured //! fault trigger signals for a given generator. Therefore, these interrupts //! are not directly related to the four possible FAULTn inputs to the device //! but indicate that a fault has been signaled to one of the four possible PWM //! generators. On a device without extended PWM fault handling, the interrupt //! is directly related to the state of the single FAULT pin. //! //! \note Since there is a write buffer in the Cortex-M3 processor, it may take //! several cycles before the interrupt source is actually cleared. Therefore, //! it is recommended that the interrupt source be cleared early in the //! interrupt handler (as opposed to the very last action) to avoid returning //! from the interrupt handler before the interrupt source is actually cleared. //! Failure to do so may result in the interrupt handler being immediately //! reentered (since NVIC still sees the interrupt source asserted). //! //! \return None. // //***************************************************************************** void PWMFaultIntClearExt(unsigned long ulBase, unsigned long ulFaultInts) { // // Check the arguments. // ASSERT(ulBase == PWM_BASE); ASSERT((ulFaultInts & ~(PWM_INT_FAULT0 | PWM_INT_FAULT1 | PWM_INT_FAULT2 | PWM_INT_FAULT3)) == 0); // // Clear the supplied fault bits. // HWREG(ulBase + PWM_O_ISC) = ulFaultInts; } //***************************************************************************** // //! Configures the minimum fault period and fault pin senses for a given //! PWM generator. //! //! \param ulBase is the base address of the PWM module. //! \param ulGen is the PWM generator whose fault configuration is being set. //! Must be one of \b PWM_GEN_0, \b PWM_GEN_1, \b PWM_GEN_2, or \b PWM_GEN_3. //! \param ulMinFaultPeriod is the minimum fault active period expressed in //! PWM clock cycles. //! \param ulFaultSenses indicates which sense of each FAULT input should be //! considered the ``asserted'' state. Valid values are logical OR //! combinations of \b PWM_FAULTn_SENSE_HIGH and \b PWM_FAULTn_SENSE_LOW. //! //! This function sets the minimum fault period for a given generator along //! with the sense of each of the 4 possible fault inputs. The minimum fault //! period is expressed in PWM clock cycles and takes effect only if //! PWMGenConfigure() is called with flag \b PWM_GEN_MODE_FAULT_PER set in the //! \e ulConfig parameter. When a fault input is asserted, the minimum fault //! period timer ensures that it remains asserted for at least the number of //! clock cycles specified. //! //! \note This function is only available on devices supporting extended PWM //! fault handling. //! //! \return None. // //***************************************************************************** void PWMGenFaultConfigure(unsigned long ulBase, unsigned long ulGen, unsigned long ulMinFaultPeriod, unsigned long ulFaultSenses) { // // Check the arguments. // ASSERT(HWREG(SYSCTL_DC5) & SYSCTL_DC5_PWMEFLT); ASSERT(ulBase == PWM_BASE); ASSERT(PWMGenValid(ulGen)); ASSERT(ulMinFaultPeriod < PWM_X_MINFLTPER_M); ASSERT((ulFaultSenses & ~(PWM_FAULT0_SENSE_HIGH | PWM_FAULT0_SENSE_LOW | PWM_FAULT1_SENSE_HIGH | PWM_FAULT1_SENSE_LOW | PWM_FAULT2_SENSE_HIGH | PWM_FAULT2_SENSE_LOW | PWM_FAULT3_SENSE_HIGH | PWM_FAULT3_SENSE_LOW)) == 0); // // Write the minimum fault period. // HWREG(PWM_GEN_BADDR(ulBase, ulGen) + PWM_O_X_MINFLTPER) = ulMinFaultPeriod; // // Write the fault senses. // HWREG(PWM_GEN_EXT_BADDR(ulBase, ulGen) + PWM_O_X_FLTSEN) = ulFaultSenses; } //***************************************************************************** // //! Configures the set of fault triggers for a given PWM generator. //! //! \param ulBase is the base address of the PWM module. //! \param ulGen is the PWM generator whose fault triggers are being set. Must //! be one of \b PWM_GEN_0, \b PWM_GEN_1, \b PWM_GEN_2, or \b PWM_GEN_3. //! \param ulGroup indicates the subset of possible faults that are to be //! configured. This must be \b PWM_FAULT_GROUP_0 or \b PWM_FAULT_GROUP_1. //! \param ulFaultTriggers defines the set of inputs that are to contribute //! towards generation of the fault signal to the given PWM generator. For //! \b PWM_FAULT_GROUP_0, this will be the logical OR of \b PWM_FAULT_FAULT0, //! \b PWM_FAULT_FAULT1, \b PWM_FAULT_FAULT2, or \b PWM_FAULT_FAULT3. For //! \b PWM_FAULT_GROUP_1, this will be the logical OR of \b PWM_FAULT_DCMP0, //! \b PWM_FAULT_DCMP1, \b PWM_FAULT_DCMP2, \b PWM_FAULT_DCMP3, \b //! PWM_FAULT_DCMP4, \b PWM_FAULT_DCMP5, \b PWM_FAULT_DCMP6, or \b //! PWM_FAULT_DCMP7. //! //! This function allows selection of the set of fault inputs that will be //! combined to generate a fault condition to a given PWM generator. By //! default, all generators use only FAULT0 (for backwards compatibility) but //! if PWMGenConfigure() is called with flag \b PWM_GEN_MODE_FAULT_SRC in the //! \e ulConfig parameter, extended fault handling is enabled and this function //! must be called to configure the fault triggers. //! //! The fault signal to the PWM generator is generated by ORing together each //! of the signals whose inputs are specified in the \e ulFaultTriggers //! parameter after having adjusted the sense of each FAULTn input based on the //! configuration previously set using a call to PWMGenFaultConfigure(). //! //! \note This function is only available on devices supporting extended PWM //! fault handling. //! //! \return None. // //***************************************************************************** void PWMGenFaultTriggerSet(unsigned long ulBase, unsigned long ulGen, unsigned long ulGroup, unsigned long ulFaultTriggers) { // // Check for valid parameters. // ASSERT(HWREG(SYSCTL_DC5) & SYSCTL_DC5_PWMEFLT); ASSERT(ulBase == PWM_BASE); ASSERT(PWMGenValid(ulGen)); ASSERT((ulGroup == PWM_FAULT_GROUP_0) || (ulGroup == PWM_FAULT_GROUP_1)); ASSERT((ulGroup == PWM_FAULT_GROUP_0) && ((ulFaultTriggers & ~(PWM_FAULT_FAULT0 | PWM_FAULT_FAULT1 | PWM_FAULT_FAULT2 | PWM_FAULT_FAULT3)) == 0)); ASSERT((ulGroup == PWM_FAULT_GROUP_1) && ((ulFaultTriggers & ~(PWM_FAULT_DCMP0 | PWM_FAULT_DCMP1 | PWM_FAULT_DCMP2 | PWM_FAULT_DCMP3 | PWM_FAULT_DCMP4 | PWM_FAULT_DCMP5 | PWM_FAULT_DCMP6 | PWM_FAULT_DCMP7)) == 0)); // // Write the fault triggers to the appropriate register. // if(ulGroup == PWM_FAULT_GROUP_0) { HWREG(PWM_GEN_BADDR(ulBase, ulGen) + PWM_O_X_FLTSRC0) = ulFaultTriggers; } else { HWREG(PWM_GEN_BADDR(ulBase, ulGen) + PWM_O_X_FLTSRC1) = ulFaultTriggers; } } //***************************************************************************** // //! Returns the set of fault triggers currently configured for a given PWM //! generator. //! //! \param ulBase is the base address of the PWM module. //! \param ulGen is the PWM generator whose fault triggers are being queried. //! Must be one of \b PWM_GEN_0, \b PWM_GEN_1, \b PWM_GEN_2, or \b PWM_GEN_3. //! \param ulGroup indicates the subset of faults that are being queried. This //! must be \b PWM_FAULT_GROUP_0 or \b PWM_FAULT_GROUP_1. //! //! This function allows an application to query the current set of inputs that //! contribute towards the generation of a fault condition to a given PWM //! generator. //! //! \note This function is only available on devices supporting extended PWM //! fault handling. //! //! \return Returns the current fault triggers configured for the fault group //! provided. For \b PWM_FAULT_GROUP_0, the returned value will be a logical //! OR of \b PWM_FAULT_FAULT0, \b PWM_FAULT_FAULT1, \b PWM_FAULT_FAULT2, or //! \b PWM_FAULT_FAULT3. For \b PWM_FAULT_GROUP_1, the return value will be //! the logical OR of \b PWM_FAULT_DCMP0, \b PWM_FAULT_DCMP1, \b //! PWM_FAULT_DCMP2, \b PWM_FAULT_DCMP3, \b PWM_FAULT_DCMP4, \b PWM_FAULT_DCMP5, //! \b PWM_FAULT_DCMP6, or \b PWM_FAULT_DCMP7. // //***************************************************************************** unsigned long PWMGenFaultTriggerGet(unsigned long ulBase, unsigned long ulGen, unsigned long ulGroup) { // // Check for valid parameters. // ASSERT(HWREG(SYSCTL_DC5) & SYSCTL_DC5_PWMEFLT); ASSERT(ulBase == PWM_BASE); ASSERT(PWMGenValid(ulGen)); ASSERT((ulGroup == PWM_FAULT_GROUP_0) || (ulGroup == PWM_FAULT_GROUP_1)); // // Return the current fault triggers. // if(ulGroup == PWM_FAULT_GROUP_0) { return(HWREG(PWM_GEN_BADDR(ulBase, ulGen) + PWM_O_X_FLTSRC0)); } else { return(HWREG(PWM_GEN_BADDR(ulBase, ulGen) + PWM_O_X_FLTSRC1)); } } //***************************************************************************** // //! Returns the current state of the fault triggers for a given PWM generator. //! //! \param ulBase is the base address of the PWM module. //! \param ulGen is the PWM generator whose fault trigger states are being //! queried. Must be one of \b PWM_GEN_0, \b PWM_GEN_1, \b PWM_GEN_2, or //! \b PWM_GEN_3. //! \param ulGroup indicates the subset of faults that are being queried. This //! must be \b PWM_FAULT_GROUP_0 or \b PWM_FAULT_GROUP_1. //! //! This function allows an application to query the current state of each of //! the fault trigger inputs to a given PWM generator. The current state of //! each fault trigger input is returned unless PWMGenConfigure() has //! previously been called with flag \b PWM_GEN_MODE_LATCH_FAULT in the //! \e ulConfig parameter in which case the returned status is the latched //! fault trigger status. //! //! If latched faults are configured, the application must call //! PWMGenFaultClear() to clear each trigger. //! //! \note This function is only available on devices supporting extended PWM //! fault handling. //! //! \return Returns the current state of the fault triggers for the given PWM //! generator. A set bit indicates that the associated trigger is active. For //! \b PWM_FAULT_GROUP_0, the returned value will be a logical OR of //! \b PWM_FAULT_FAULT0, \b PWM_FAULT_FAULT1, \b PWM_FAULT_FAULT2, or //! \b PWM_FAULT_FAULT3. For \b PWM_FAULT_GROUP_1, the return value will be //! the logical OR of \b PWM_FAULT_DCMP0, \b PWM_FAULT_DCMP1, \b //! PWM_FAULT_DCMP2, \b PWM_FAULT_DCMP3, \b PWM_FAULT_DCMP4, \b PWM_FAULT_DCMP5, //! \b PWM_FAULT_DCMP6, or \b PWM_FAULT_DCMP7. // //***************************************************************************** unsigned long PWMGenFaultStatus(unsigned long ulBase, unsigned long ulGen, unsigned long ulGroup) { // // Check for valid parameters. // ASSERT(HWREG(SYSCTL_DC5) & SYSCTL_DC5_PWMEFLT); ASSERT(ulBase == PWM_BASE); ASSERT(PWMGenValid(ulGen)); ASSERT((ulGroup == PWM_FAULT_GROUP_0) || (ulGroup == PWM_FAULT_GROUP_1)); // // Return the current fault status. // if(ulGroup == PWM_FAULT_GROUP_0) { return(HWREG(PWM_GEN_EXT_BADDR(ulBase, ulGen) + PWM_O_X_FLTSTAT0)); } else { return(HWREG(PWM_GEN_EXT_BADDR(ulBase, ulGen) + PWM_O_X_FLTSTAT1)); } } //***************************************************************************** // //! Clears one or more latched fault triggers for a given PWM generator. //! //! \param ulBase is the base address of the PWM module. //! \param ulGen is the PWM generator whose fault trigger states are being //! queried. Must be one of \b PWM_GEN_0, \b PWM_GEN_1, \b PWM_GEN_2, or //! \b PWM_GEN_3. //! \param ulGroup indicates the subset of faults that are being queried. This //! must be \b PWM_FAULT_GROUP_0 or \b PWM_FAULT_GROUP_1. //! \param ulFaultTriggers is the set of fault triggers which are to be //! cleared. //! //! This function allows an application to clear the fault triggers for a given //! PWM generator. This is only required if PWMGenConfigure() has previously //! been called with flag \b PWM_GEN_MODE_LATCH_FAULT in parameter \e ulConfig. //! //! \note This function is only available on devices supporting extended PWM //! fault handling. //! //! \return None. // //***************************************************************************** void PWMGenFaultClear(unsigned long ulBase, unsigned long ulGen, unsigned long ulGroup, unsigned long ulFaultTriggers) { // // Check for valid parameters. // ASSERT(HWREG(SYSCTL_DC5) & SYSCTL_DC5_PWMEFLT); ASSERT(ulBase == PWM_BASE); ASSERT(PWMGenValid(ulGen)); ASSERT((ulGroup == PWM_FAULT_GROUP_0) || (ulGroup == PWM_FAULT_GROUP_1)); ASSERT((ulGroup == PWM_FAULT_GROUP_0) && ((ulFaultTriggers & ~(PWM_FAULT_FAULT0 | PWM_FAULT_FAULT1 | PWM_FAULT_FAULT2 | PWM_FAULT_FAULT3)) == 0)); ASSERT((ulGroup == PWM_FAULT_GROUP_1) && ((ulFaultTriggers & ~(PWM_FAULT_DCMP0 | PWM_FAULT_DCMP1 | PWM_FAULT_DCMP2 | PWM_FAULT_DCMP3 | PWM_FAULT_DCMP4 | PWM_FAULT_DCMP5 | PWM_FAULT_DCMP6 | PWM_FAULT_DCMP7)) == 0)); // // Clear the given faults. // if(ulGroup == PWM_FAULT_GROUP_0) { HWREG(PWM_GEN_EXT_BADDR(ulBase, ulGen) + PWM_O_X_FLTSTAT0) = ulFaultTriggers; } else { HWREG(PWM_GEN_EXT_BADDR(ulBase, ulGen) + PWM_O_X_FLTSTAT1) = ulFaultTriggers; } } //***************************************************************************** // // Close the Doxygen group. //! @} // //*****************************************************************************