Siddharth Gupta
Has base BMU code but sends dummy temperature and voltage readings to test CAN
Dependencies: CUER_CAN DS1820 LTC2943 LTC6804 mbed
Fork of
BMS_BMUCore_Max
by 
CUER
Temperature.cpp@15:e901aff1f5b3, 2017-07-02 (annotated)
- Committer:
- DasSidG
- Date:
- Sun Jul 02 11:25:37 2017 +0000
- Revision:
- 15:e901aff1f5b3
- Parent:
- 12:fa9b1a459e47
Added temperature probe initialization
Who changed what in which revision?
| User | Revision | Line number | New contents of line |
|---|---|---|---|
| lcockerton62 | 1:51477fe4851b | 1 | /* |
| lcockerton62 | 1:51477fe4851b | 2 | * Code for identifying address and temperature of DS1820 1-Wire Thermometers by Maxim |
| lcockerton62 | 1:51477fe4851b | 3 | * Uses the DS1820 library written by Michael Hagberg and Fernando Caamaño, with some slight modifications |
| lcockerton62 | 1:51477fe4851b | 4 | * Currently tested using DS18S20 1-Wire Thermometers in an array, parasite power yet to be tested |
| lcockerton62 | 1:51477fe4851b | 5 | */ |
| lcockerton62 | 1:51477fe4851b | 6 | #include "Temperature.h" |
| lcockerton62 | 1:51477fe4851b | 7 | |
| lcockerton62 | 1:51477fe4851b | 8 | DS1820* probe[MAX_PROBES]; |
| lcockerton62 | 1:51477fe4851b | 9 | int devices_found = 0; |
| lcockerton62 | 1:51477fe4851b | 10 | |
| lcockerton62 | 1:51477fe4851b | 11 | void temperature_init() |
| lcockerton62 | 1:51477fe4851b | 12 | { |
| DasSidG | 12:fa9b1a459e47 | 13 | DigitalOut isotherm_12V_pin(ISOTHERM_12V_PIN); |
| DasSidG | 12:fa9b1a459e47 | 14 | isotherm_12V_pin = 1; |
| lcockerton62 | 1:51477fe4851b | 15 | int i; |
| lcockerton62 | 1:51477fe4851b | 16 | int address_byte_count; |
| lcockerton62 | 1:51477fe4851b | 17 | // Initialize the probe array to DS1820 objects |
| lcockerton62 | 1:51477fe4851b | 18 | for (i = 0; i < MAX_PROBES; i++) |
| lcockerton62 | 1:51477fe4851b | 19 | probe[i] = new DS1820(DATA_PIN, PARASITE_PIN); |
| lcockerton62 | 1:51477fe4851b | 20 | // Initialize global state variables |
| lcockerton62 | 1:51477fe4851b | 21 | probe[0]->search_ROM_setup(); |
| lcockerton62 | 1:51477fe4851b | 22 | // Loop to find all devices on the data line |
| lcockerton62 | 1:51477fe4851b | 23 | while (probe[devices_found]->search_ROM() and devices_found<MAX_PROBES-1) |
| lcockerton62 | 1:51477fe4851b | 24 | devices_found++; |
| lcockerton62 | 1:51477fe4851b | 25 | // If maximum number of probes are found, |
| lcockerton62 | 1:51477fe4851b | 26 | // bump the counter to include the last array entry |
| lcockerton62 | 1:51477fe4851b | 27 | if (probe[devices_found]->ROM[0] != 0xFF) |
| lcockerton62 | 1:51477fe4851b | 28 | devices_found++; |
| lcockerton62 | 1:51477fe4851b | 29 | |
| lcockerton62 | 1:51477fe4851b | 30 | if (devices_found==0) |
| lcockerton62 | 1:51477fe4851b | 31 | printf("No devices found"); |
| lcockerton62 | 1:51477fe4851b | 32 | else { |
| lcockerton62 | 1:51477fe4851b | 33 | printf("\n%d device(s) found!\r\n\n" ,devices_found); |
| lcockerton62 | 1:51477fe4851b | 34 | for (i=0; i<devices_found; i++) { |
| lcockerton62 | 1:51477fe4851b | 35 | printf("Device %d address is: \r\n", i+1); |
| lcockerton62 | 1:51477fe4851b | 36 | for(address_byte_count=0; address_byte_count<8; address_byte_count++) { |
| lcockerton62 | 1:51477fe4851b | 37 | printf("0x%02x", probe[i]->ROM[address_byte_count]); |
| lcockerton62 | 1:51477fe4851b | 38 | if(address_byte_count == 7) printf("\r\n\n"); |
| lcockerton62 | 1:51477fe4851b | 39 | else printf(", "); |
| lcockerton62 | 1:51477fe4851b | 40 | } |
| lcockerton62 | 1:51477fe4851b | 41 | } |
| lcockerton62 | 1:51477fe4851b | 42 | } |
| lcockerton62 | 1:51477fe4851b | 43 | } |
| lcockerton62 | 1:51477fe4851b | 44 |