請先看『使用說明』
VT1211(VIA CX700/VIA CN700) Hardware Monitor under Linux
From LEXWiKi
(Difference between revisions)
(→GetTemperature) |
(→GetVoltage) |
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{ | { | ||
case VT1211_VOLTAGE_CORE: | case VT1211_VOLTAGE_CORE: | ||
| - | value = (float) | + | value = (float)VT1211_ReadData(VT1211A_VOLTAGE_CORE) -3 ; |
return (float)(value / 95.8); | return (float)(value / 95.8); | ||
| + | case VT1211A_VOLTAGE_5V: | ||
| + | value = (float)VT1211_ReadData(VT1211A_VOLTAGE_5V) -3 ; | ||
| + | return (float)(value / 95.8 /0.4167 ); | ||
case VT1211_VOLTAGE_3V: | case VT1211_VOLTAGE_3V: | ||
| - | value = (float) | + | value = (float)VT1211_ReadData(VT1211A_VOLTAGE_3V) -3 ; |
return (float)(value / 95.8 /0.5952 ); | return (float)(value / 95.8 /0.5952 ); | ||
case VT1211_VOLTAGE_12V: | case VT1211_VOLTAGE_12V: | ||
| - | value = (float) | + | value = (float)VT1211_ReadData(VT1211A_VOLTAGE_12V) -3 ; |
return (float)(value / 95.8 / 0.1754 ); | return (float)(value / 95.8 / 0.1754 ); | ||
case VT1211_VOLTAGE_VCC: | case VT1211_VOLTAGE_VCC: | ||
| - | value = (float) | + | value = (float)VT1211_ReadData(VT1211A_VOLTAGE_VCC) -3 ; |
return (float)(value / 95.8 / 0.6296 ); | return (float)(value / 95.8 / 0.6296 ); | ||
} | } | ||
Revision as of 18:06, 6 July 2011
Contents |
The Sample code source you can download from
Source file: LCMctl_v2.2L_Src.tar.gz
About source code. 1.We suggest using Code::Blocks as an IDE in Linux. 2.Or you can just use "make" to compile the source code in the vt1211hw/ folder or vt1211hw/src/ folder. And you can excute "vt1211hw" file in the LCMctlv22LSrc/src/ folder $cd vt1211hw/src/ $make $./vt1211hw
Binary file: LCMctl_v2.2L_Bin.tar.gz
How to use the DEMO application
- Press the "Read Value" button , and then you can find the values in the below text boxes.
Sample code Introduction
Open VT1211
outb(0x87,VT1211A_CONFIGURATIN_INDEX_REGISTER);
outb(0x87,VT1211A_CONFIGURATIN_INDEX_REGISTER);
if ((VT1211_Read(VT1211A_CHIPSET_DEVICE_ID) == VT1211A_CHIPSET_DEFAULT_DEVICEID) )
{
VT1211_Write(0x07,VT1211_HARDWAREMONTIOR_LDN);
m_HardwareMonitor_IOBase = ( VT1211_Read (VT1211A_HARDWAREMONTIOR_IOBASE) << 8 ) | VT1211_Read (VT1211A_HARDWAREMONTIOR_IOBASE+1);
return TRUE;
}
else
return FALSE;
return FALSE;
}
Read Data
DWORD dwPortVal; dwPortVal = inb((WORD)(m_HardwareMonitor_IOBase + dwOffset)); return ( dwPortVal & 0x00FF);
GetTemperature
switch (dwOffset)
{
case VT1211A_TEMPERATURE_SYSTEM:
return VT1211A_TempTable[VT1211_ReadData(VT1211A_TEMPERATURE_SYSTEM)];
case VT1211A_TEMPERATURE_CPU:
return (VT1211_ReadData(VT1211A_TEMPERATURE_CPU)-73.869)/0.9528;
}
GetVoltage
float value ;
switch (dwOffset)
{
case VT1211_VOLTAGE_CORE:
value = (float)VT1211_ReadData(VT1211A_VOLTAGE_CORE) -3 ;
return (float)(value / 95.8);
case VT1211A_VOLTAGE_5V:
value = (float)VT1211_ReadData(VT1211A_VOLTAGE_5V) -3 ;
return (float)(value / 95.8 /0.4167 );
case VT1211_VOLTAGE_3V:
value = (float)VT1211_ReadData(VT1211A_VOLTAGE_3V) -3 ;
return (float)(value / 95.8 /0.5952 );
case VT1211_VOLTAGE_12V:
value = (float)VT1211_ReadData(VT1211A_VOLTAGE_12V) -3 ;
return (float)(value / 95.8 / 0.1754 );
case VT1211_VOLTAGE_VCC:
value = (float)VT1211_ReadData(VT1211A_VOLTAGE_VCC) -3 ;
return (float)(value / 95.8 / 0.6296 );
}
