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view src/cs/drivers/drv_app/pwr/pwr_disch.c @ 581:a0a45c5eb3ef

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gsmcomp.c: bumping trace partition size to 220 like in gprscomp.c This change is safe in terms of RAM usage because all of these partition pools have already been moved from XRAM to IRAM earlier, and our IRAM usage in VO configs is currently quite low - the one near the limit is XRAM on C11x.
author Mychaela Falconia <falcon@freecalypso.org>
date Tue, 29 Jan 2019 03:52:49 +0000
parents c93a236e0d50
children
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/*******************************************************************************
 *
 * pwr_disch.c
 *
 * Purpose: This file contains functions for battery discharge management.
 *
 * (C) Texas Instruments 2001
 *
 ******************************************************************************/

#include "rv/rv_defined_swe.h"	   // for RVM_PWR_SWE

#ifdef RVM_PWR_SWE

#include "abb/abb.h"
#include "rvm/rvm_use_id_list.h"
#include "pwr/pwr_disch.h"
#include "power/power.h"
#include "spi/spi_task.h"
#include "pwr/pwr_cust.h"
#include "pwr/pwr_messages.h"
#include "spi/spi_env.h"
#include "pwr/pwr_env.h"

/* Define a pointer to the PWR Environment control block.  */
extern T_PWR_ENV_CTRL_BLK *pwr_env_ctrl_blk;




/*******************************************************************************
** Function         pwr_discharge_timer_process
**
** Description      
**
*******************************************************************************/
void pwr_discharge_timer_process(void)
{
   rvf_send_trace("TIMER3", 6, NULL_PARAM, RV_TRACE_LEVEL_DEBUG_LOW, PWR_USE_ID);
   if (SPI_GBL_INFO_PTR->is_gsm_on == TRUE)
   {
      pwr_handle_discharge(); /* battery discharge management */
   } 

}



/*******************************************************************************
** Function         pwr_handle_discharge
**
** Description      Compares the battery voltage with some thresholds and, if a 
**                  threshold is passed, sends event(s) to the upper layer.
**                  Re-start the timer with a value depending on the discharge 
**                  level.
**
*******************************************************************************/
void pwr_handle_discharge(void)
{
   UINT16 timer_value;
   UINT16 status;
   UINT16 bat_madc_voltage, bat_voltage;
   static T_PWR_PERCENT remain_capacity = 100;  /* since this variable is declared as static */
                                                /* it will keep its value from one function call to the other */
   T_PWR_PERCENT current_capacity;
  
   if (SPI_GBL_INFO_PTR->is_adc_on == FALSE) 
   {
      /* Start VBAT channel conversion by writing in the result register */
      ABB_Write_Register_on_page(PAGE0, VBATREG, 0x0000);
      rvf_delay(RVF_MS_TO_TICKS(5));
      bat_madc_voltage = ABB_Read_Register_on_page(PAGE0, VBATREG);
      rvf_send_trace("battery voltage (MADC code) ", 28, bat_madc_voltage, RV_TRACE_LEVEL_DEBUG_LOW, PWR_USE_ID);
   }
   else /* The L1 asks for ADC conversions */
   {
#ifndef _WINDOWS
      bat_madc_voltage = SPI_GBL_INFO_PTR->adc_result[0];
#else
      bat_madc_voltage = ABB_Read_Register_on_page(PAGE0, VBATREG);
#endif
   }

   /* Find the remaining capacity in the battery corresponding to this new voltage */
   bat_voltage = pwr_adc_to_mvolt(bat_madc_voltage);
   rvf_send_trace("battery voltage (mV) ", 21, bat_voltage, RV_TRACE_LEVEL_DEBUG_LOW, PWR_USE_ID);
   current_capacity = pwr_get_capacity_vs_voltage(bat_voltage);
   rvf_send_trace("current capacity (%) ", 21, current_capacity, RV_TRACE_LEVEL_DEBUG_LOW, PWR_USE_ID);

   status = ABB_Read_Status();

   /* Determine if a threshold has been passed */
   if (current_capacity != remain_capacity) 
   {
      /* a new threshold has been passed */
      remain_capacity = current_capacity;

      /* informs the upper layer */
      pwr_send_bat_discharge_event(remain_capacity);

      if (status & CHGPRES)   /* charger plugged */
      {
         if (remain_capacity == CHARGE_START_AGAIN_CAPACITY)
         {
            PWR_Charger_Plug();
         }
      }

      else  /* charger not plugged */
      {
         if(remain_capacity <= pwr_env_ctrl_blk->power_alert.remain_capa_threshold)
         {
            /* informs the upper layer that the battery is low */
            pwr_send_low_bat_event(remain_capacity);
            timer_value = SPI_TIMER3_INTERVAL_BIS; /* 10 s */
         }
         else  
         {
#ifndef _WINDOWS
            timer_value = SPI_TIMER3_INTERVAL; /* 1 minute */
#else
            timer_value = SPI_TIMER3_INTERVAL_BIS; /* 10 s */
#endif
         }

         /* Start timer with a value depending on the remaining capacity in the battery */
         rvf_start_timer (SPI_TIMER3,
                          RVF_MS_TO_TICKS (timer_value),
                          FALSE);
      }
   }

   else /* the capacity has not changed */
   {
#ifndef _WINDOWS
      timer_value = SPI_TIMER3_INTERVAL; /* 1 minute */
#else
      timer_value = SPI_TIMER3_INTERVAL_BIS; /* 10 s */
#endif

      /* Start timer with a value depending on the remaining capacity in the battery */
      rvf_start_timer (SPI_TIMER3,
                       RVF_MS_TO_TICKS (timer_value),
                       FALSE);

   }
}

#endif /* #ifdef RVM_PWR_SWE */