this test demonstrates sleeping in both hibernate and doze.

wake up is controlled with the wake up timer.

read the comments for current measurments.

tests/sleep.c

@@ -1,11 +1,14 @@
 #define GPIO_PAD_DIR0   0x80000000
 #define GPIO_DATA0      0x80000008
-#define CRM_WU_CNTL     0x80003004
-#define CRM_SLEEP_CNTL  0x80003008
-#define CRM_STATUS      0x80003018
+
 #define GPIO_PAD_PU_EN0 0x80000010
 #define GPIO_PAD_PU_EN1 0x80000014
 #define ADC_CONTROL     0x80000018
+
+#define CRM_WU_CNTL     0x80003004
+#define CRM_WU_TIMEOUT  0x80003024
+#define CRM_SLEEP_CNTL  0x80003008
+#define CRM_STATUS      0x80003018
 #define CRM_XTAL_CNTL   0x80000040
 
 #define DELAY 400000
@@ -21,15 +24,17 @@ __attribute__ ((section ("startup"))) void main(void) {
 
 	/* disable all pullups */
 	/* seems to make a slight difference (2.0uA vs 1.95uA)*/
-	reg32(GPIO_PAD_PU_EN0) = 0;
-	reg32(GPIO_PAD_PU_EN1) = 0;
-	reg16(ADC_CONTROL) = 0; /* internal Vref2 */
+//	reg32(GPIO_PAD_PU_EN0) = 0;
+//	reg32(GPIO_PAD_PU_EN1) = 0;
+//	reg16(ADC_CONTROL) = 0; /* internal Vref2 */
 
 //	reg16(CRM_XTAL_CNTL) = 0x052; /* default is 0xf52 */ /* doesn't anything w.r.t. power */
 
 	/* go to sleep */
-//	reg32(CRM_WU_CNTL) = 0x1; /* enable wakeup from wakeup timer */
-	reg32(CRM_WU_CNTL) = 0; /* don't wake up */
+//	reg32(CRM_WU_CNTL) = 0; /* don't wake up */
+	reg32(CRM_WU_CNTL) = 0x1; /* enable wakeup from wakeup timer */
+	reg32(CRM_WU_TIMEOUT) = 1875000; /* wake 10 sec later if doze */
+//	reg32(CRM_WU_TIMEOUT) = 20000; /* wake 10 sec later  if hibernate w/2kHz*/
 
 //	reg32(CRM_SLEEP_CNTL) = 1; /* hibernate, RAM page 0 only, don't retain state, don't power GPIO */ /* approx. 2.0uA */
 //	reg32(CRM_SLEEP_CNTL) = 0x41; /* hibernate, RAM page 0 only, retain state, don't power GPIO */ /* approx. 10.0uA */
@@ -39,13 +44,22 @@ __attribute__ ((section ("startup"))) void main(void) {
 //	reg32(CRM_SLEEP_CNTL) = 0xf1; /* hibernate, RAM page 0&1 only, retain state,       power GPIO */ /* approx. 16.1uA - possibly with periodic refresh*/
 
 //	reg32(CRM_SLEEP_CNTL) = 2; /* doze     , RAM page 0 only, don't retain state, don't power GPIO */ /* approx. 69.2 uA */
-//	reg32(CRM_SLEEP_CNTL) = 0x42; /* doze     , RAM page 0 only, retain state, don't power GPIO */ /* approx. 77.3uA */
+	reg32(CRM_SLEEP_CNTL) = 0x42; /* doze     , RAM page 0 only, retain state, don't power GPIO */ /* approx. 77.3uA */
 //	reg32(CRM_SLEEP_CNTL) = 0x52; /* doze     , RAM page 0&1 only, retain state, don't power GPIO */ /* approx. 78.9uA */
 //	reg32(CRM_SLEEP_CNTL) = 0x62; /* doze     , RAM page 0&1 only, retain state, don't power GPIO */ /* approx. 81.2uA */
 //	reg32(CRM_SLEEP_CNTL) = 0x72; /* doze     , RAM page 0&1 only, retain state, don't power GPIO */ /* approx. 83.4uA - possibly with periodic refresh*/
-	reg32(CRM_SLEEP_CNTL) = 0xf2; /* doze     , RAM page 0&1 only, retain state,       power GPIO */ /* approx. 82.8uA - possibly with periodic refresh*/
-	reg32(CRM_STATUS) = 1; /* write 1 to sleep_sync --- this totally powers down */
+//	reg32(CRM_SLEEP_CNTL) = 0xf2; /* doze     , RAM page 0&1 only, retain state,       power GPIO */ /* approx. 82.8uA - possibly with periodic refresh*/
+
+	while((reg32(CRM_STATUS) & 0x1) == 0) { continue; }
+
+	reg32(CRM_STATUS) = 1; /* write 1 to sleep_sync --- this clears the bit (it's a r1wc bit) and powers down */
 	
+	/* asleep */
+
+	while((reg32(CRM_STATUS) & 0x1) == 0) { continue; }
+
+	reg32(CRM_STATUS) = 1; /* write 1 to sleep_sync --- this clears the bit (it's a r1wc bit) and finishes wakeup */
+
 
 	volatile uint32_t i;
 	while(1) {