}\r
myprintf_P("average IBAT %d [mA]\n", ADCS.avgIBAT);\r
\r
+ Batteries_t BattData;\r
+ myprintf_P("Current Battery:\n");\r
+ out = BC100_SLAVE_READ | BC100_SLAVE_SRAM | sizeof(BattData);\r
+ SPI_rw( out );\r
+ out = ADR_BATTDATA;\r
+ in = SPI_rw( out );\r
+ myprintf_P("In1 : 0x%02x (expected 0xcc)\n", in );\r
+ in = SPI_rw( dummy );\r
+ myprintf_P("In2 : 0x%02x (expected 0xbb)\n", in );\r
+ i = sizeof(BattData);\r
+ while ( i-- > 0 ) {\r
+ *( (unsigned char*)&BattData + i ) = SPI_rw(dummy);\r
+ }\r
+ if ( BattData.Present ) {\r
+ myprintf_P("Battery found\n");\r
+ if ( BattData.Charged ) {\r
+ myprintf_P("- fully charged\n");\r
+ }\r
+ if ( BattData.Low ) {\r
+ myprintf_P("- low voltage\n");\r
+ }\r
+ if ( BattData.Exhausted) {\r
+ myprintf_P("- exhausted\n");\r
+ }\r
+ if ( BattData.HasRID) {\r
+ myprintf_P("- has a ID-Resistor\n");\r
+ }\r
+ myprintf_P("Safety circuit ID %d\n", BattData.Circuit );\r
+ myprintf_P("Tempearture %d centi-degree C\n", BattData.Temperature );\r
+ myprintf_P("ADCSteps/half degree %d\n", BattData.ADCSteps);\r
+ myprintf_P("Capacity %d mAh\n", BattData.Capacity);\r
+ myprintf_P("max. Current %d mA\n", BattData.MaxCurrent);\r
+ myprintf_P("max. cut-off Time %d min\n", BattData.MaxTime);\r
+ myprintf_P("min. cut-off Current %d mA\n", BattData.MinCurrent);\r
+ }\r
+ else {\r
+ myprintf_P("Battery not found\n");\r
+ }\r
+\r
SPI_release();\r
\r
return err;\r