0,0 → 1,65 |
int16 cteniBAT(byte lsb, byte msb) |
{ |
int16 data = 0; |
unsigned int8 h, l; |
i2c_start(); |
I2C_Write(BAT_ADDR_W); |
I2C_write(lsb); |
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i2c_start(); |
I2C_Write(BAT_ADDR_R); |
l=i2c_read(0); |
i2c_stop(); |
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i2c_start(); |
I2C_Write(BAT_ADDR_W); |
I2C_write(msb); |
i2c_start(); |
I2C_Write(BAT_ADDR_R); |
h=i2c_read(0); |
i2c_stop(); |
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return data = (((unsigned int16) h << 8) + l ); |
} |
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int16 batintT(void) //teplota baterie (pri vyrobnim nastaveni, je mozne zmenit na teplotu v IO |
{ |
int16 data = cteniBAT(0x0C, 0x0D); |
data = (data/10)-273; |
return data; |
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} |
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int16 batNAP(void) //napeti baterie |
{ |
int16 data = cteniBAT(0x08, 0x09); |
return data; |
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} |
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int16 batPROUD(void) //proud z nebo do baterie |
{ |
int16 data = cteniBAT(0x0A, 0x0B); |
return data; |
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} |
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int16 batKAPAKT(void) //zbyvajici kapacita |
{ |
int16 data = cteniBAT(0x04, 0x05); |
return data; |
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} |
int16 batKAPMAX(void) //max. kapacita |
{ |
int16 data = cteniBAT(0x06, 0x07); |
return data; |
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} |
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int16 batSTAV(void) //zbytek energie v baterii v % |
{ |
int16 data = cteniBAT(0x02, 0x03); |
return data; |
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} |