Usin PIC16F690 in PICkit2 LPDM board with PBASICPro. My below listed code places the MCU into SLEEP mode after powerup as intended. I confirmed this by connecting an ampmeter and it reads only 400 uamps on powerup after executing the sequence at the Main label thru the @SLEEP statement. However, after the 1st interrupt is received and it is awakened, it doesn't go back into deep SLEEP after the Int_handler is completed. I can see this as confirmed by the ampmeter reading of 2.2 mAmps after the interrupt. The way my code is structured, once the Int_handler is serviced and it resumes back to the Main label, it should go back into deep SLEEP and only be consuming 400 uamps again.
Can anyone see why it isn't going back into SLEEP mode after the interrupt as intended?
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Code:
' -----[ Device Declaration ]----------------------------------------------
'
@ __config _INTRC_OSC_NOCLKOUT & _WDT_ON & _MCLRE_OFF & _CP_OFF
' For PM assembler only use following instead
'@device pic16F690, intrc_osc_noclkout, bod_off, pwrt_off, wdt_off, mclr_off,
' protect_off   
 
' -----[ Revision History ]------------------------------------------------
' Version 1.0.4 on 6/16/2009: Includes changes to minimize power during Sleep

' -----[ Declare Variables & Aliases ]-----------------------------
'
diff    VAR Byte      ' Difference between bat_mon and Vthr
dummy   VAR Byte      ' For read of on-interrupt port & clear mismatch condition
flush   VAR PORTA.3   ' Set RA3 as input for sensing flush switch closure Int
i       VAR Byte      ' Index used in Gallon counter loop
led1    VAR PORTC.0   ' Set RC0 as LED indicator of valve open..water flowing
led2    VAR PORTC.1   ' Set RC1 as LED indicator of low battery
bat_mon VAR PortA.0   ' Set RA0 as battery low power monitor
meter   VAR PORTA.2   ' Set RA2 as input for Hall Sensor meter pulse Interrupt
open_valve    VAR PORTC.2   ' Set RC2 as valve solenoid open command
close_valve   VAR PORTC.3   ' Set RC3 as valve solenoid close command

' -----[ Declare Constants ]----------------------------------------
'
 k             CON 10   ' Calibration factor for flow meter...# pulses per gal
 Vthr          CON 3    ' Assumes Low Battery Monitor threshold = 3 volts
 
' -----[ Initialization ]--------------------------------------------------  
Init: 
' Setup Timer0 as an 8-bit counter with the clock input on RA2.
' 1:1 TMR0 prescaler
' TMR0 counts on high-to-low transitions
  OPTION_REG = %00111000   ' PORTA pullups disabled, TMR0 clock source is RA2, 
                           ' high-to-low transitions, prescaler to TMR0
  TMR0 = 256 - k           ' preload TMR0 to overflow after k counts
  
' Initialization of inputs/outputs..commented out..duplicated in Int_handler
  open_Valve = 0    ' Initialize RC2 (open_valve) at Low value
  close_valve = 0   ' Intialize RC3 (close_valve) at Low value
  TRISA.2 = 1       ' Set RA2 as input port for clock to TMR0
  TRISA.3 = 1       ' Set RA3 as input port for sensing Flush switch closure
  meter = 1         ' Initialize RA2 (meter) at High for METER pulse inputs
                    ' RA2 = TMR0 clock input for simulated meter pulse inputs
  flush = 1         ' Initialize RA3 (flush) at High value for flush interrupt
  
'Interrupts Settings
FLUSH_INT_FLAG VAR INTCON.0  ' RA3 (FLUSH) On-change-interrupt flag bit
TMR0_INT_FLAG VAR INTCON.2   ' Timer0 overflow flag bit
INTCON = %10101000           ' Enable global, TMR0 & RABIE (RA3 on-change-INT)
IOCA = %00001000             ' Enable RA3 as on-change-INT

' -----[ Main Code ]-------------------------------------------------------
'Set INT Handler
ON INTERRUPT GOTO Int_handler   

'Start...normal code here
MAIN:
    ' Perform following steps to save power during Sleep mode
    VRCON = %00100000   ' Set Voltage Reference for minimum power consumption
                        ' Disable CVref during Sleep to save power
    ANSEL= %11111011    ' Set PortA to Analog I/O to save power during Sleep but
                        ' leave Bit2 as digital for RA2 pulse count interrupt.                    
    ANSELH= %11111111   ' Analog module enabled to save power during Sleep
    TRISB = %11111111   ' Set all PORTB pins to inputs during Sleep
    TRISC = %11111111   ' Set all PORTC pins to input during Sleep
    PortA = %11111111   ' Set TOCK1, MCLR and all PortA pins High before Sleep 
                        ' to save power
    @ sleep
    @ NOP
    ' Microcontroller is in Sleep State waiting for external FLUSH Interrupt
        ' Valve should be closed at this point and no water flowing
   GOTO Main    ' Loop to Main to wait for next Flush interrupt on RA3 change
 
  DISABLE
Int_handler:
 'Initialize registers for interrupt ops
  ' A/D & Comparators disabled
    ANSEL=0             ' Set PortA to digital I/O for use with RA2 and RA3
    ANSELH=0            ' Analog module disabled
    CM1CON0=0           ' Disable comparators
    CM2CON0=0 
  ' Port Settings
    TRISA = %11111111   ' Set all PORTA pins to inputs...RA0, RA2 & RA3 are used
    TRISB = %00000000   ' Set all PORTB pins to outputs
    TRISC = %11110000   ' Set lower 4 pins of PartB as outputs for LEDs
    PORTA = %00000000   ' PortA pins all set to Low
    PORTC = %00000000   ' LEDs off, PULSOUT RC3 provides a high-going pulse 
   
  High bat_mon      ' For testing..simulate battery monitor input is Low or High
  DEFINE WRITE_INT 1
  'Write 13, bat_mon   ' Remove comments on Write statements for test only
  'Write 15, Vthr
  diff = Vthr - bat_mon
  'Write 17, diff
  If diff > 2 Then    'Battery is low..light the low battery monitor light
    HIGH led2
    PAUSE 3000        ' Light Low Battery LED for 3 secs as warning
  ENDIF                                            
  'Write 5, bat_mon           ' Remove comment for test only 
  IF FLUSH_INT_FLAG = 1 Then  ' Interrupt was from RA3 on change
    REPEAT
        ' Wait until the external Flush interrupt is at high level...limits
        ' interrupt to switch closure only and not for switch opening 
    Until flush = 1 
    PULSOUT open_valve,2000   ' Generate 20 msec pulse to RC3 to open valve
    HIGH led1            ' Light indicator that valve is open & water flowing
    Pause 1000   
    'Write  7, flush     ' Write RA3 (FLUSH) value during testing   
    ' Put code here to start a timer to run for 50 secs as a fail safe 
    ' to prevent overflow of toilet tank in case of sensor failure.
        'PULSOUT close_valve,2000 ' Generate 20 msec pulse to RC4 to close valve       
    dummy = flush          ' Clear mismatch condition
    FLUSH_INT_FLAG = 0     ' Clear interrupt flag & enable
    'INTCON = %10001000    ' global & RABIE (RA3 on-change-INT)
                           ' ..preclude TMRO overflow interrupt..test only
  Endif
  IF TMR0_INT_FLAG = 1 Then  ' Interrupt was a TMR0 overflow..volume reached
    PULSOUT close_valve,2000 ' Generate 20 msec pulse to RC4 to close valve  
    'WRITE 11, TMR0      ' Write TMR0 value..remove comment for test only
    dummy = TMR0         ' Clear mismatch condition
    TMR0_INT_FLAG = 0    ' clear overflow flag
    TMR0 = 256 - k       ' reload TMR0 to overflow after k counts
    'INTCON = %10100000  ' global & TMR0 interrupts..preclude RA3 interrupt..
                         ' test only
  ENDIF
  RESUME
  ENABLE   
    ' If the user program ends by getting to the last statement of the program
    ' at an END instruction, the MCU will SLEEP and await a wakeup.
END