X-Git-Url: https://www.fi.muni.cz/~kas/git//home/kas/public_html/git/?p=bike-lights.git;a=blobdiff_plain;f=firmware%2Fpwmled.c;h=9aa6d8074689dd9b5e08de41e2d0a23e805e4a60;hp=076d032c7b4a713e4a9db98e79ddf6381ed835ab;hb=65c3ad96cf307c3b77b36e6f6a2af5201c213a3c;hpb=71966b0545b53262ef946c0ae26007664eff32ce

diff --git a/firmware/pwmled.c b/firmware/pwmled.c
index 076d032..9aa6d80 100644
--- a/firmware/pwmled.c
+++ b/firmware/pwmled.c
@@ -5,7 +5,10 @@
 typedef struct {
 	uint16_t target, pwm;
 	int16_t err_sum;
-	unsigned char mode, state, probe_steady;
+	unsigned char mode, state;
+	union {
+		unsigned char probe_steady, mode_changed;
+	};
 	uint16_t mode_pwm[N_PWMLED_MODES];
 	int16_t err_sums[N_PWMLED_MODES];
 } pwmled_t;
@@ -15,49 +18,63 @@ pwmled_t pwmleds[N_PWMLEDS];
 #define PWMLED2_TESTING_WITH_350MA_LED
 
 #define SENSE_MOHM	33	/* 0.033 Ohm */
-#define MA_MOHM_GAIN_TO_ADC(ma, mohm, gain) (\
-	((unsigned long)(ma))*(mohm) /* voltage at sensing resistor in uV */ \
-	/(1100000UL/gain/1024UL)     /* voltage of ADC reading == 1 */ \
-)
+/*
+ * Voltage in uV at ADC reading == 1 is 1100/gain/1024
+ * ADC module returns sum of 1 << PWMLED_ADC_SHIFT measurements
+ * Voltage in uV measured is current in mA * sense resistance in mOhm
+ */
+#define MA_GAIN_TO_ADC(ma, gain) ((uint16_t) \
+	((uint32_t)(ma) \
+	* (SENSE_MOHM) \
+	* (1 << (PWMLED_ADC_SHIFT)) \
+	* 1024 \
+	/ (1100000/(gain))))
 
 static uint16_t adc_max[N_PWMLEDS] = {
-	MA_MOHM_GAIN_TO_ADC( 400, SENSE_MOHM, 20),
-	MA_MOHM_GAIN_TO_ADC(  30, SENSE_MOHM, 20),
-#ifdef PWMLED2_TESTING_WITH_350MA_LED
-	MA_MOHM_GAIN_TO_ADC( 400, SENSE_MOHM,  1)
+#ifdef TESTING_FW
+	MA_GAIN_TO_ADC( 400, 20),
+	MA_GAIN_TO_ADC(  30, 20),
+	MA_GAIN_TO_ADC( 800,  1)
 #else
-	MA_MOHM_GAIN_TO_ADC(2500, SENSE_MOHM,  1)
+	MA_GAIN_TO_ADC( 900, 20),
+	MA_GAIN_TO_ADC(  30, 20),
+	MA_GAIN_TO_ADC(2500,  1)
 #endif
 };
 
 static uint16_t adc_vals[N_PWMLEDS*N_PWMLED_MODES] = {
+#ifdef TESTING_FW
 	/* pwmled0 */
-	MA_MOHM_GAIN_TO_ADC(  20, SENSE_MOHM, 20),
-	MA_MOHM_GAIN_TO_ADC(  50, SENSE_MOHM, 20),
-	MA_MOHM_GAIN_TO_ADC( 100, SENSE_MOHM, 20),
-	MA_MOHM_GAIN_TO_ADC( 350, SENSE_MOHM, 20),
+	MA_GAIN_TO_ADC(  50, 20),
+	MA_GAIN_TO_ADC( 100, 20),
+	MA_GAIN_TO_ADC( 200, 20),
+	MA_GAIN_TO_ADC( 350, 20),
 	/* pwmled1 */
-	16, 32, 64, 112,
-#if 0
-	MA_MOHM_GAIN_TO_ADC(   5, SENSE_MOHM, 20),
-	MA_MOHM_GAIN_TO_ADC(  12, SENSE_MOHM, 20),
-	MA_MOHM_GAIN_TO_ADC(  16, SENSE_MOHM, 20),
-	MA_MOHM_GAIN_TO_ADC(  20, SENSE_MOHM, 20),
-#endif
+	MA_GAIN_TO_ADC(   5, 20),
+	MA_GAIN_TO_ADC(  10, 20),
+	MA_GAIN_TO_ADC(  15, 20),
+	MA_GAIN_TO_ADC(  20, 20),
 	/* pwmled2 */
-	24, 32, 40, 48
-#if 0
-#ifdef PWMLED2_TESTING_WITH_350MA_LED
-	MA_MOHM_GAIN_TO_ADC( 100, SENSE_MOHM,  1),
-	MA_MOHM_GAIN_TO_ADC( 140, SENSE_MOHM,  1),
-	MA_MOHM_GAIN_TO_ADC( 250, SENSE_MOHM,  1),
-	MA_MOHM_GAIN_TO_ADC( 350, SENSE_MOHM,  1),
+	MA_GAIN_TO_ADC(  50,  1),
+	MA_GAIN_TO_ADC(  80,  1),
+	MA_GAIN_TO_ADC( 150,  1),
+	MA_GAIN_TO_ADC( 200,  1)
 #else
-	MA_MOHM_GAIN_TO_ADC( 150, SENSE_MOHM,  1),
-	MA_MOHM_GAIN_TO_ADC( 350, SENSE_MOHM,  1),
-	MA_MOHM_GAIN_TO_ADC( 700, SENSE_MOHM,  1),
-	MA_MOHM_GAIN_TO_ADC(2400, SENSE_MOHM,  1),
-#endif
+	/* pwmled0 */
+	MA_GAIN_TO_ADC(  50, 20),
+	MA_GAIN_TO_ADC( 100, 20),
+	MA_GAIN_TO_ADC( 200, 20),
+	MA_GAIN_TO_ADC( 350, 20),
+	/* pwmled1 */
+	MA_GAIN_TO_ADC(   5, 20),
+	MA_GAIN_TO_ADC(  10, 20),
+	MA_GAIN_TO_ADC(  18, 20),
+	MA_GAIN_TO_ADC(  23, 20),
+	/* pwmled2 */
+	MA_GAIN_TO_ADC( 150,  1),
+	MA_GAIN_TO_ADC( 300,  1),
+	MA_GAIN_TO_ADC( 800,  1),
+	MA_GAIN_TO_ADC(1500,  1)
 #endif
 };
 
@@ -108,6 +125,7 @@ void pwmled_set_mode(unsigned char n, unsigned char mode)
 		led->state = ST_ON;
 		led->pwm = led->mode_pwm[mode - 1];
 		led->err_sum = led->err_sums[mode - 1];
+		led->mode_changed = 1;
 		pwm_set(n, led->pwm);
 	} else {
 		led->state = ST_OFF;
@@ -188,11 +206,15 @@ void pwmled_adc(unsigned char n, uint16_t adcval)
 	if (!ST_IS_ON(led->state))
 		return;
 
+	if (led->state == ST_ON && led->mode_changed) {
+		led->mode_changed--;
+		return;
+	}
 	// FIXME: test for maximum adcval value (adc_max[n])
 
 	old_pwm = led->pwm;
 
-	shift = led->state == ST_PROBING ? 3 : 5;
+	shift = led->state == ST_PROBING ? 3 : 8;
 
 	sum = ((int32_t)led->pwm << shift)
 		+ led->err_sum + led->target - adcval;
@@ -204,7 +226,8 @@ void pwmled_adc(unsigned char n, uint16_t adcval)
 	sum -= led->pwm << shift;
 	led->err_sum = sum;
 
-	if (led->pwm > (PWM_MAX << PWM_STEP_SHIFT)-5) {
+	if (led->pwm >= PWM_MAX
+		|| (n == 1 && led->pwm > PWM_MAX/2 && adcval < 0x08)) {
 		pwmled_err(n);
 		return;
 	}