1 /* -------------------------------- Arctic Core ------------------------------
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2 * Arctic Core - the open source AUTOSAR platform http://arccore.com
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4 * Copyright (C) 2009 ArcCore AB <contact@arccore.com>
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6 * This source code is free software; you can redistribute it and/or modify it
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7 * under the terms of the GNU General Public License version 2 as published by the
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8 * Free Software Foundation; See <http://www.gnu.org/licenses/old-licenses/gpl-2.0.txt>.
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10 * This program is distributed in the hope that it will be useful, but
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11 * WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
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12 * or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
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14 * -------------------------------- Arctic Core ------------------------------*/
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17 /* In order to support multiple hw units we need to match group to a certain hw controller.
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18 * We handle this in a very simple way i.e. group 0-99 -> hwUnitId 0, group 100-199 -> hwUnitId 1 etc.*
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21 /* ----------------------------[includes]------------------------------------*/
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25 #include "Std_Types.h"
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26 #include "mpc55xx.h"
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27 #include "Modules.h"
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35 #include "Adc_Internal.h"
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36 /* ----------------------------[private define]------------------------------*/
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39 /* Uncomment and use DMA for 5606 only if you now what you are doing */
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40 #define DONT_USE_DMA_IN_ADC_MPC560X
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42 /* Are we gonna use Dma? */
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43 #if ( defined(CFG_MPC5606S) && !defined(DONT_USE_DMA_IN_ADC_MPC560X) )
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44 #define ADC_USES_DMA
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48 #if ( defined(ADC_USES_DMA) && !defined(USE_DMA) )
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49 #error Adc is configured to use Dma but the module is not enabled.
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53 #if defined(CFG_MPC5668)
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54 #define ADC0_EOC_INT ADC_A_EOC
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55 #define ADC0_ER_INT ADC_A_ERR
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56 #define ADC0_WD_INT ADC_A_WD
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57 #define ADC1_EOC_INT ADC_B_EOC
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58 #define ADC1_ER_INT ADC_B_ERR
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59 #define ADC1_WD_INT ADC_B_WD
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62 #define GET_HW_CONTROLLER(_controller) \
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63 ((struct ADC_tag *)(0xFFE00000 + 0x4000*(_controller)))
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65 #define GET_HWUNITID_FROM_GROUP(_group) (_group / ADC_NOF_GROUP_PER_CONTROLLER)
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67 /* ----------------------------[private macro]-------------------------------*/
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68 /* ----------------------------[private typedef]-----------------------------*/
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69 /* ----------------------------[private function prototypes]-----------------*/
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70 /* ----------------------------[private variables]---------------------------*/
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72 /* static variable declarations */
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73 static Adc_StateType adcState = ADC_UNINIT;
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74 static const Adc_ConfigType *AdcGlobalConfigPtr; /* Pointer to configuration structure. */
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76 /* ----------------------------[private functions]---------------------------*/
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78 /* Function prototypes. */
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79 static void Adc_ConfigureADC (const Adc_ConfigType *AdcConfigPtr);
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80 static void Adc_ConfigureADCInterrupts (const Adc_ConfigType *AdcConfigPtr);
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81 void Adc_GroupConversionComplete (Adc_GroupType group, const Adc_ConfigType *AdcConfigPtr, volatile struct ADC_tag *hwPtr);
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83 static const Adc_ConfigType * Adc_GetControllerConfigPtrFromHwUnitId(int unit)
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85 const Adc_ConfigType *AdcConfigPtr = NULL;
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87 if(adcState == ADC_INIT){
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88 for (int configId = 0; configId < ADC_ARC_CTRL_CONFIG_CNT; configId++) {
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89 if(unit == AdcGlobalConfigPtr[configId].hwConfigPtr->hwUnitId){
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90 AdcConfigPtr = &AdcGlobalConfigPtr[configId];
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96 return AdcConfigPtr;
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99 static const Adc_ConfigType * Adc_GetControllerConfigPtrFromGroupId(Adc_GroupType group)
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101 return Adc_GetControllerConfigPtrFromHwUnitId(GET_HWUNITID_FROM_GROUP(group));
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103 /* ----------------------------[public functions]----------------------------*/
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105 #if (ADC_DEINIT_API == STD_ON)
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108 volatile struct ADC_tag *hwPtr;
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109 boolean okToClear = TRUE;
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111 for (int configId = 0; configId < ADC_ARC_CTRL_CONFIG_CNT; configId++) {
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112 const Adc_ConfigType *AdcConfigPtr = &AdcGlobalConfigPtr[configId];
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114 if (E_OK == Adc_CheckDeInit(adcState, AdcConfigPtr))
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116 hwPtr = GET_HW_CONTROLLER(AdcGlobalConfigPtr[configId].hwConfigPtr->hwUnitId);
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117 for(Adc_GroupType group = (Adc_GroupType)0; group < AdcConfigPtr->nbrOfGroups; group++)
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119 /* Set group status to idle. */
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120 AdcConfigPtr->groupConfigPtr[group].status->groupStatus = ADC_IDLE;
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123 /* Disable DMA transfer*/
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124 #ifndef CFG_MPC5604B
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125 hwPtr->DMAE.B.DMAEN = 0;
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127 /* Power down ADC */
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128 hwPtr->MCR.R = 0x0001;
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130 /* Disable all interrupt*/
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135 /* Not ok to change adcState if any unit is running */
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142 /* Clean internal status. */
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143 AdcGlobalConfigPtr = (Adc_ConfigType *)NULL;
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144 adcState = ADC_UNINIT;
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149 void Adc_Init (const Adc_ConfigType *ConfigPtr)
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151 if (E_OK == Adc_CheckInit(adcState, ConfigPtr))
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153 /* First of all, store the location of the global configuration data. */
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154 AdcGlobalConfigPtr = ConfigPtr;
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156 for (int configId = 0; configId < ADC_ARC_CTRL_CONFIG_CNT; configId++)
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158 const Adc_ConfigType *AdcConfigPtr = &AdcGlobalConfigPtr[configId];
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161 Adc_ConfigureADC(AdcConfigPtr);
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163 Adc_ConfigureADCInterrupts(AdcConfigPtr);
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166 /* Move on to INIT state. */
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167 adcState = ADC_INIT;
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171 Std_ReturnType Adc_SetupResultBuffer (Adc_GroupType group, Adc_ValueGroupType *bufferPtr)
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173 Std_ReturnType returnValue = E_NOT_OK;
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175 const Adc_ConfigType *AdcConfigPtr = Adc_GetControllerConfigPtrFromGroupId(group);
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177 /* Check for development errors. */
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178 if (E_OK == Adc_CheckSetupResultBuffer (adcState, AdcConfigPtr, group))
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180 AdcConfigPtr->groupConfigPtr[group%ADC_NOF_GROUP_PER_CONTROLLER].status->resultBufferPtr = bufferPtr;
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182 returnValue = E_OK;
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185 return (returnValue);
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188 Adc_StreamNumSampleType Adc_GetStreamLastPointer(Adc_GroupType group, Adc_ValueGroupType** PtrToSamplePtr)
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190 const Adc_ConfigType *AdcConfigPtr = Adc_GetControllerConfigPtrFromGroupId(group);
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191 Adc_StreamNumSampleType nofSample = 0;
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194 /* Check for development errors. */
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195 if (E_OK == Adc_CheckGetStreamLastPointer (adcState, AdcConfigPtr, group))
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197 Adc_GroupDefType *groupPtr = (Adc_GroupDefType *)&AdcConfigPtr->groupConfigPtr[group%ADC_NOF_GROUP_PER_CONTROLLER];
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199 if (groupPtr->status->groupStatus != ADC_BUSY)
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201 /* Set resultPtr to application buffer. */
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202 if(groupPtr->status->currSampleCount > 0){
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203 *PtrToSamplePtr = &groupPtr->status->resultBufferPtr[groupPtr->status->currSampleCount-1];
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206 if ((ADC_CONV_MODE_ONESHOT == groupPtr->conversionMode) &&
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207 (ADC_STREAM_COMPLETED == groupPtr->status->groupStatus))
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209 /** @req ADC327. */
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210 groupPtr->status->groupStatus = ADC_IDLE;
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212 else if ((ADC_CONV_MODE_CONTINOUS == groupPtr->conversionMode) &&
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213 (ADC_ACCESS_MODE_STREAMING == groupPtr->accessMode) &&
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214 (ADC_STREAM_BUFFER_LINEAR == groupPtr->streamBufferMode) &&
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215 (ADC_STREAM_COMPLETED == groupPtr->status->groupStatus))
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217 /** @req ADC327. */
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218 groupPtr->status->groupStatus = ADC_IDLE;
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220 else if ( (ADC_CONV_MODE_CONTINOUS == groupPtr->conversionMode) &&
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221 ((ADC_STREAM_COMPLETED == groupPtr->status->groupStatus) ||
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222 (ADC_COMPLETED == groupPtr->status->groupStatus)) )
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224 /* Restart continous mode, and reset result buffer */
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225 if ((ADC_CONV_MODE_CONTINOUS == groupPtr->conversionMode) &&
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226 (ADC_STREAM_COMPLETED == groupPtr->status->groupStatus))
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228 /* Start continous conversion again */
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229 Adc_StartGroupConversion(group);
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234 else{/* Keep status. */}
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238 /* Some condition not met */
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239 *PtrToSamplePtr = NULL;
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244 /* Some condition not met */
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245 *PtrToSamplePtr = NULL;
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252 #if (ADC_READ_GROUP_API == STD_ON)
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253 Std_ReturnType Adc_ReadGroup (Adc_GroupType group, Adc_ValueGroupType *dataBufferPtr)
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255 Std_ReturnType returnValue = E_OK;
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257 const Adc_ConfigType *AdcConfigPtr = Adc_GetControllerConfigPtrFromGroupId(group);
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259 if (E_OK == Adc_CheckReadGroup (adcState, AdcConfigPtr, group))
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261 Adc_GroupDefType *groupPtr = (Adc_GroupDefType *)&AdcConfigPtr->groupConfigPtr[group%ADC_NOF_GROUP_PER_CONTROLLER];
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263 /* Copy the result to application buffer. */
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264 for (channel = 0; channel < groupPtr->numberOfChannels; channel++)
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266 if(groupPtr->status->currSampleCount > 0){
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267 dataBufferPtr[channel] = (&(groupPtr->status->resultBufferPtr[groupPtr->status->currSampleCount-1]))[channel];
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269 dataBufferPtr[channel] = groupPtr->status->resultBufferPtr[channel];
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273 if ((ADC_CONV_MODE_ONESHOT == groupPtr->conversionMode) &&
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274 (ADC_STREAM_COMPLETED == groupPtr->status->groupStatus))
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276 /** @req ADC330. */
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277 groupPtr->status->groupStatus = ADC_IDLE;
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279 else if ((ADC_CONV_MODE_CONTINOUS == groupPtr->conversionMode) &&
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280 (ADC_STREAM_BUFFER_LINEAR == groupPtr->streamBufferMode) &&
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281 (ADC_ACCESS_MODE_STREAMING == groupPtr->accessMode) &&
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282 (ADC_STREAM_COMPLETED == groupPtr->status->groupStatus))
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284 /** @req ADC330. */
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285 groupPtr->status->groupStatus = ADC_IDLE;
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287 else if ((ADC_CONV_MODE_CONTINOUS == groupPtr->conversionMode) &&
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288 ((ADC_STREAM_COMPLETED == groupPtr->status->groupStatus) ||
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289 (ADC_COMPLETED == groupPtr->status->groupStatus)))
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292 /* Restart continous mode, and reset result buffer */
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293 if ((ADC_CONV_MODE_CONTINOUS == groupPtr->conversionMode) &&
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294 (ADC_STREAM_COMPLETED == groupPtr->status->groupStatus))
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296 /* Start continous conversion again */
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297 Adc_StartGroupConversion(group);
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302 else{/* Keep status. */}
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306 /* An error have been raised from Adc_CheckReadGroup(). */
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307 returnValue = E_NOT_OK;
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310 return (returnValue);
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314 void Adc_GroupConversionComplete (Adc_GroupType group, const Adc_ConfigType *AdcConfigPtr, volatile struct ADC_tag *hwPtr)
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316 Adc_GroupDefType *adcGroup = (Adc_GroupDefType *)&AdcConfigPtr->groupConfigPtr[group%ADC_NOF_GROUP_PER_CONTROLLER];
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318 if(ADC_ACCESS_MODE_SINGLE == adcGroup->accessMode )
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320 adcGroup->status->groupStatus = ADC_STREAM_COMPLETED;
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322 /* Disable trigger normal conversions for ADC0 */
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323 hwPtr->MCR.B.NSTART=0;
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325 /* Call notification if enabled. */
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326 #if (ADC_GRP_NOTIF_CAPABILITY == STD_ON)
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327 if (adcGroup->status->notifictionEnable && adcGroup->groupCallback != NULL)
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329 adcGroup->groupCallback();
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335 if(ADC_STREAM_BUFFER_LINEAR == adcGroup->streamBufferMode)
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337 adcGroup->status->currSampleCount++;
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338 if(adcGroup->status->currSampleCount < adcGroup->streamNumSamples)
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340 adcGroup->status->currResultBufPtr += adcGroup->numberOfChannels;
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341 adcGroup->status->groupStatus = ADC_COMPLETED;
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343 #if defined (ADC_USES_DMA)
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344 /* Increase current result buffer ptr */
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345 Dma_ConfigureDestinationAddress((uint32_t)adcGroup->status->currResultBufPtr, adcGroup->dmaResultChannel);
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348 hwPtr->IMR.B.MSKECH = 1;
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349 hwPtr->MCR.B.NSTART=1;
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353 /* All sample completed. */
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354 adcGroup->status->groupStatus = ADC_STREAM_COMPLETED;
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356 /* Disable trigger normal conversions for ADC0 */
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357 hwPtr->MCR.B.NSTART=0;
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359 /* Call notification if enabled. */
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360 #if (ADC_GRP_NOTIF_CAPABILITY == STD_ON)
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361 if (adcGroup->status->notifictionEnable && adcGroup->groupCallback != NULL){
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362 adcGroup->groupCallback();
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367 else if(ADC_STREAM_BUFFER_CIRCULAR == adcGroup->streamBufferMode)
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369 adcGroup->status->currSampleCount++;
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370 if(adcGroup->status->currSampleCount < adcGroup->streamNumSamples)
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372 adcGroup->status->currResultBufPtr += adcGroup->numberOfChannels;
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373 #if defined (ADC_USES_DMA)
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374 /* Increase current result buffer ptr */
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375 Dma_ConfigureDestinationAddress((uint32_t)adcGroup->status->currResultBufPtr, adcGroup->dmaResultChannel);
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377 adcGroup->status->groupStatus = ADC_COMPLETED;
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379 hwPtr->IMR.B.MSKECH = 1;
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380 hwPtr->MCR.B.NSTART=1;
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384 /* Sample completed. */
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386 /* Disable trigger normal conversions for ADC*/
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387 hwPtr->MCR.B.NSTART=0;
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389 adcGroup->status->groupStatus = ADC_STREAM_COMPLETED;
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390 /* Call notification if enabled. */
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391 #if (ADC_GRP_NOTIF_CAPABILITY == STD_ON)
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392 if (adcGroup->status->notifictionEnable && adcGroup->groupCallback != NULL)
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394 adcGroup->groupCallback();
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406 void Adc_Group0ConversionComplete (int unit)
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408 volatile struct ADC_tag *hwPtr = GET_HW_CONTROLLER(unit);
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409 const Adc_ConfigType *AdcConfigPtr = Adc_GetControllerConfigPtrFromHwUnitId(unit);
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411 /* Clear ECH Flag and disable interruput */
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412 hwPtr->ISR.B.ECH = 1;
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413 hwPtr->IMR.B.MSKECH = 0;
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415 // Check which group is busy, only one is allowed to be busy at a time in a hw unit
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416 for (int group = 0; group < AdcConfigPtr->nbrOfGroups; group++)
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418 if((AdcConfigPtr->groupConfigPtr[group].status->groupStatus == ADC_BUSY) ||
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419 (AdcConfigPtr->groupConfigPtr[group].status->groupStatus == ADC_COMPLETED))
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421 #if !defined (ADC_USES_DMA)
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422 /* Copy to result buffer */
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423 for(uint8 index=0; index < AdcConfigPtr->groupConfigPtr[group].numberOfChannels; index++)
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425 #if defined(CFG_MPC5606S)
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426 AdcConfigPtr->groupConfigPtr[group].status->currResultBufPtr[index] = hwPtr->CDR[32+AdcConfigPtr->groupConfigPtr[group].channelList[index]].B.CDATA;
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428 AdcConfigPtr->groupConfigPtr[group].status->currResultBufPtr[index] = hwPtr->CDR[AdcConfigPtr->groupConfigPtr[group].channelList[index]].B.CDATA;
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433 Adc_GroupConversionComplete((Adc_GroupType)group, AdcConfigPtr, hwPtr);
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439 static void Adc_Group0ConversionComplete_ADC0(void){
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440 Adc_Group0ConversionComplete(ADC_CTRL_0);
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443 static void Adc_Group0ConversionComplete_ADC1(void){
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444 Adc_Group0ConversionComplete(ADC_CTRL_1);
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447 void Adc_WatchdogError (void){
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449 void Adc_ADCError (void){
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452 static void Adc_ConfigureADC (const Adc_ConfigType *AdcConfigPtr)
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454 volatile struct ADC_tag *hwPtr = GET_HW_CONTROLLER(AdcConfigPtr->hwConfigPtr->hwUnitId);
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456 /* Set ADC CLOCK */
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457 hwPtr->MCR.B.ADCLKSEL = AdcConfigPtr->hwConfigPtr->adcPrescale;
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459 hwPtr->DSDR.B.DSD = 254;
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462 hwPtr->MCR.B.PWDN = 0;
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464 #if defined(ADC_USES_DMA)
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466 hwPtr->DMAE.B.DMAEN = 1;
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470 void Adc_ConfigureADCInterrupts (const Adc_ConfigType *AdcConfigPtr)
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472 if(AdcConfigPtr->hwConfigPtr->hwUnitId == 0)
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474 ISR_INSTALL_ISR2( "Adc_Err", Adc_ADCError, ADC0_ER_INT, 2, 0 );
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475 ISR_INSTALL_ISR2( "Adc_Grp", Adc_Group0ConversionComplete_ADC0, ADC0_EOC_INT, 2, 0 );
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476 ISR_INSTALL_ISR2( "Adc_Wdg", Adc_WatchdogError, ADC0_WD_INT, 2, 0 );
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478 else if(AdcConfigPtr->hwConfigPtr->hwUnitId == 1)
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480 ISR_INSTALL_ISR2( "Adc_Err", Adc_ADCError, ADC1_ER_INT, 2, 0 );
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481 ISR_INSTALL_ISR2( "Adc_Grp", Adc_Group0ConversionComplete_ADC1, ADC1_EOC_INT, 2, 0 );
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482 ISR_INSTALL_ISR2( "Adc_Wdg", Adc_WatchdogError, ADC1_WD_INT, 2, 0 );
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490 #if (ADC_ENABLE_START_STOP_GROUP_API == STD_ON)
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491 void Adc_StartGroupConversion (Adc_GroupType group)
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493 const Adc_ConfigType *AdcConfigPtr = Adc_GetControllerConfigPtrFromGroupId(group);
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495 /* Run development error check. */
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496 if (E_OK == Adc_CheckStartGroupConversion (adcState, AdcConfigPtr, group))
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498 volatile struct ADC_tag *hwPtr = GET_HW_CONTROLLER(AdcConfigPtr->hwConfigPtr->hwUnitId);
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500 Adc_GroupDefType *groupPtr = (Adc_GroupDefType *)&AdcConfigPtr->groupConfigPtr[group%ADC_NOF_GROUP_PER_CONTROLLER];
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502 /* Disable trigger normal conversions for ADC0 */
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503 hwPtr->MCR.B.NSTART = 0;
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505 /* Set group state to BUSY. */
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506 groupPtr->status->groupStatus = ADC_BUSY;
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508 groupPtr->status->currSampleCount = 0;
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509 groupPtr->status->currResultBufPtr = groupPtr->status->resultBufferPtr; /* Set current result buffer */
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511 #if defined(ADC_USES_DMA)
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512 Dma_ConfigureChannel ((Dma_TcdType *)groupPtr->groupDMAResults, groupPtr->dmaResultChannel);
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513 Dma_ConfigureDestinationAddress ((uint32_t)groupPtr->status->currResultBufPtr, groupPtr->dmaResultChannel);
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515 /* Always use single shot in streaming mode */
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516 if( groupPtr->accessMode == ADC_ACCESS_MODE_STREAMING)
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518 /* Set conversion mode. */
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519 hwPtr->MCR.B.MODE = ADC_CONV_MODE_ONESHOT;
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523 /* Set conversion mode. */
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524 hwPtr->MCR.B.MODE = groupPtr->conversionMode;
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527 /* Enable Overwrite*/
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528 hwPtr->MCR.B.OWREN = 1;
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530 /* Set Conversion Time. */
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531 #if defined(CFG_MPC5606S)
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532 uint32 groupChannelIdMask = 0;
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534 hwPtr->CTR[1].B.INPLATCH = groupPtr->adcChannelConvTime.INPLATCH;
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535 hwPtr->CTR[1].B.INPCMP = groupPtr->adcChannelConvTime.INPCMP;
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536 hwPtr->CTR[1].B.INPSAMP = groupPtr->adcChannelConvTime.INPSAMP;
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538 for(uint8 i =0; i < groupPtr->numberOfChannels; i++)
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540 groupChannelIdMask |= (1 << groupPtr->channelList[i]);
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543 #if defined(ADC_USES_DMA)
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544 hwPtr->DMAE.R = 0x01;
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545 /* Enable DMA Transfer */
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546 hwPtr->DMAR[1].R = groupChannelIdMask;
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547 Dma_StartChannel(DMA_ADC_GROUP0_RESULT_CHANNEL); /* Enable EDMA channel for ADC */
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550 /* Enable Normal conversion */
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551 hwPtr->NCMR[1].R = groupChannelIdMask;
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553 /* Enable Channel Interrupt */
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554 hwPtr->CIMR[1].R = groupChannelIdMask;
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557 uint32 groupChannelIdMask[3] = {0,0,0};
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559 hwPtr->CTR[0].B.INPLATCH = groupPtr->adcChannelConvTime.INPLATCH;
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560 hwPtr->CTR[0].B.INPCMP = groupPtr->adcChannelConvTime.INPCMP;
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561 hwPtr->CTR[0].B.INPSAMP = groupPtr->adcChannelConvTime.INPSAMP;
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562 hwPtr->CTR[1].B.INPLATCH = groupPtr->adcChannelConvTime.INPLATCH;
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563 hwPtr->CTR[1].B.INPCMP = groupPtr->adcChannelConvTime.INPCMP;
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564 hwPtr->CTR[1].B.INPSAMP = groupPtr->adcChannelConvTime.INPSAMP;
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565 hwPtr->CTR[2].B.INPLATCH = groupPtr->adcChannelConvTime.INPLATCH;
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566 hwPtr->CTR[2].B.INPCMP = groupPtr->adcChannelConvTime.INPCMP;
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567 hwPtr->CTR[2].B.INPSAMP = groupPtr->adcChannelConvTime.INPSAMP;
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569 for(uint8 i =0; i < groupPtr->numberOfChannels; i++)
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571 #if defined(CFG_MPC5668)
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572 if(groupPtr->channelList[i] <= 31){
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574 if(groupPtr->channelList[i] <= 15){
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576 groupChannelIdMask[0] |= (1 << groupPtr->channelList[i]);
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577 }else if((groupPtr->channelList[i] >= 32) && (groupPtr->channelList[i] <=47)){
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578 groupChannelIdMask[1] |= (1 << (groupPtr->channelList[i] - 32));
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579 }else if((groupPtr->channelList[i] >= 64) && (groupPtr->channelList[i] <=95)){
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580 groupChannelIdMask[2] |= (1 << (groupPtr->channelList[i] - 64));
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584 /* Enable Normal conversion */
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585 hwPtr->NCMR[0].R = groupChannelIdMask[0];
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586 hwPtr->NCMR[1].R = groupChannelIdMask[1];
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587 hwPtr->NCMR[2].R = groupChannelIdMask[2];
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589 /* Enable Channel Interrupt */
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590 hwPtr->CIMR[0].R = groupChannelIdMask[0];
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591 hwPtr->CIMR[1].R = groupChannelIdMask[1];
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592 hwPtr->CIMR[2].R = groupChannelIdMask[2];
\r
594 /* Clear interrupts */
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595 hwPtr->ISR.B.ECH = 1;
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596 /* Enable ECH interrupt */
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597 hwPtr->IMR.B.MSKECH = 1;
\r
599 /* Trigger normal conversions for ADC0 */
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600 hwPtr->MCR.B.NSTART = 1;
\r
604 /* Error have been set within Adc_CheckStartGroupConversion(). */
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608 void Adc_StopGroupConversion (Adc_GroupType group)
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610 const Adc_ConfigType *AdcConfigPtr = Adc_GetControllerConfigPtrFromGroupId(group);
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612 if (E_OK == Adc_CheckStopGroupConversion (adcState, AdcConfigPtr, group))
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614 volatile struct ADC_tag *hwPtr = GET_HW_CONTROLLER(AdcConfigPtr->hwConfigPtr->hwUnitId);
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616 /* Disable trigger normal conversions for ADC0 */
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617 hwPtr->MCR.B.NSTART = 0;
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619 /* Set group state to IDLE. */
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620 AdcConfigPtr->groupConfigPtr[group%ADC_NOF_GROUP_PER_CONTROLLER].status->groupStatus = ADC_IDLE;
\r
622 /* Disable group notification if enabled. */
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623 if(1 == AdcConfigPtr->groupConfigPtr[group%ADC_NOF_GROUP_PER_CONTROLLER].status->notifictionEnable){
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624 Adc_DisableGroupNotification (group);
\r
629 /* Error have been set within Adc_CheckStartGroupConversion(). */
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632 #endif /* endof #if (ADC_ENABLE_START_STOP_GROUP_API == STD_ON) */
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634 #if (ADC_GRP_NOTIF_CAPABILITY == STD_ON)
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635 void Adc_EnableGroupNotification (Adc_GroupType group)
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637 Adc_EnableInternalGroupNotification(adcState, Adc_GetControllerConfigPtrFromGroupId(group), group);
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640 void Adc_DisableGroupNotification (Adc_GroupType group)
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642 Adc_InternalDisableGroupNotification(adcState, Adc_GetControllerConfigPtrFromGroupId(group), group);
\r
646 Adc_StatusType Adc_GetGroupStatus (Adc_GroupType group)
\r
648 return Adc_InternalGetGroupStatus(adcState, Adc_GetControllerConfigPtrFromGroupId(group), group);
\r