Line 26... |
Line 26... |
26 |
setup_comparator(NC_NC_NC_NC); |
26 |
setup_comparator(NC_NC_NC_NC); |
27 |
setup_vref(FALSE); |
27 |
setup_vref(FALSE); |
28 |
|
28 |
|
29 |
TDC_reset(); |
29 |
TDC_reset(); |
30 |
|
30 |
|
31 |
hit1=TDC_MRANGE2_HIT1_START; |
- |
|
32 |
hit2=TDC_MRANGE2_HIT2_2CH1; |
31 |
MRange=TDC_MRANGE1; |
33 |
hitin1=TDC_HITIN1_2; |
32 |
hitin1=TDC_HITIN1_2; |
34 |
hitin2=TDC_HITIN1_0; |
33 |
hitin2=TDC_HITIN2_2; |
- |
|
34 |
hit1=TDC_MRANGE1_HIT1_START; |
- |
|
35 |
hit2=TDC_MRANGE1_HIT2_2CH1; |
35 |
en_int= 0xFF; //TDC_INT_ALU | TDC_INT_ENDHIT | TDC_INT_TIMEOUT; |
36 |
en_int= (TDC_INT_ALU | TDC_INT_ENDHIT | TDC_INT_TIMEOUT); |
36 |
en_err_val=TDC_ERRVAL_EN; |
37 |
en_err_val=TDC_ERRVAL_EN; |
37 |
delval1=0x0; |
38 |
delval1=0x0; |
38 |
delval2=0x0; |
39 |
delval2=0x0; |
39 |
delval3=0x0; |
40 |
delval3=0x0; |
- |
|
41 |
calibrate=TDC_CALIBRATE_EN; |
- |
|
42 |
disautocal=TDC_AUTOCAL_EN; |
- |
|
43 |
|
- |
|
44 |
firenum=TDC_FIRENUM_2; |
- |
|
45 |
div_fire=TDC_DIV_FIRE_3; |
40 |
|
46 |
|
41 |
TDC_update_registers(); |
47 |
TDC_update_registers(); |
42 |
|
48 |
|
43 |
output_low(START); |
49 |
output_low(START); |
44 |
output_low(STOP1); |
50 |
output_low(STOP1); |
45 |
output_low(STOP2); |
51 |
output_low(STOP2); |
46 |
|
52 |
|
- |
|
53 |
TDC_start_cal_resonator(); |
- |
|
54 |
delay_ms(50); |
- |
|
55 |
printf("calibrate: %LX, %LX, %LX, %LX \r\n", TDC_get_measurement(1), TDC_get_measurement(2), TDC_get_measurement(3), TDC_get_measurement(4)); |
47 |
TDC_start_cal(); |
56 |
TDC_start_cal(); |
48 |
delay_ms(50); |
57 |
delay_ms(50); |
49 |
|
58 |
|
50 |
while(true) |
59 |
while(true) |
51 |
{ |
60 |
{ |
Line 54... |
Line 63... |
54 |
TDC_init(); |
63 |
TDC_init(); |
55 |
delay_ms(50); |
64 |
delay_ms(50); |
56 |
printf("Temp: %f \r\n", temperature); |
65 |
printf("Temp: %f \r\n", temperature); |
57 |
delay_ms(50); |
66 |
delay_ms(50); |
58 |
printf("status: %LX \r\n", TDC_get_status()); |
67 |
printf("status: %LX \r\n", TDC_get_status()); |
59 |
delay_us(10); |
- |
|
- |
|
68 |
|
60 |
TDC_start_cycle(); |
69 |
TDC_start_cycle(); |
- |
|
70 |
|
61 |
delay_us(10); |
71 |
delay_us(10); |
62 |
output_high(START); |
72 |
output_high(START); |
63 |
delay_us(1); |
73 |
// delay_us(1); |
64 |
output_low(START); |
74 |
output_low(START); |
65 |
|
75 |
|
66 |
delay_us(500); |
76 |
// delay_us(1); |
67 |
|
77 |
|
68 |
output_high(STOP1); |
78 |
output_high(STOP1); |
69 |
delay_us(10); |
79 |
// delay_us(10); |
70 |
output_low(STOP1); |
- |
|
71 |
delay_us(500); |
- |
|
72 |
output_high(STOP1); |
- |
|
73 |
delay_us(10); |
- |
|
74 |
output_low(STOP1); |
- |
|
75 |
delay_us(500); |
- |
|
76 |
output_high(STOP1); |
- |
|
77 |
delay_us(10); |
- |
|
78 |
output_low(STOP1); |
80 |
output_low(STOP1); |
- |
|
81 |
// delay_us(500); |
- |
|
82 |
// output_high(STOP1); |
- |
|
83 |
// delay_us(10); |
- |
|
84 |
// output_low(STOP1); |
- |
|
85 |
// delay_us(500); |
- |
|
86 |
// output_high(STOP1); |
- |
|
87 |
// delay_us(10); |
- |
|
88 |
// output_low(STOP1); |
- |
|
89 |
|
- |
|
90 |
output_high(STOP2); |
- |
|
91 |
// delay_us(10); |
- |
|
92 |
output_low(STOP2); |
- |
|
93 |
// delay_us(500); |
- |
|
94 |
output_high(STOP2); |
- |
|
95 |
// delay_us(10); |
- |
|
96 |
output_low(STOP2); |
- |
|
97 |
// delay_us(500); |
- |
|
98 |
output_high(STOP2); |
- |
|
99 |
// delay_us(10); |
- |
|
100 |
output_low(STOP2); |
- |
|
101 |
|
- |
|
102 |
output_low(START); |
79 |
|
103 |
|
80 |
delay_ms(100); |
104 |
delay_ms(10); |
81 |
printf("status: %LX \r\n", TDC_get_status()); |
105 |
printf("status: %LX \r\n", TDC_get_status()); |
82 |
delay_ms(50); |
106 |
delay_ms(50); |
83 |
printf("measured: %LX, %LX, %LX, %LX \r\n", TDC_get_measurement(1), TDC_get_measurement(2), TDC_get_measurement(3), TDC_get_measurement(4)); |
107 |
printf("measured: %LX, %LX, %LX, %LX \r\n", TDC_get_measurement(1), TDC_get_measurement(2), TDC_get_measurement(3), TDC_get_measurement(4)); |
84 |
delay_ms(500); |
108 |
delay_ms(500); |
85 |
|
109 |
|