CPC Utility under Windows

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(Setting OS Delay Off)
(Setting Main Power On)
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=== Setting Main Power On ===
=== Setting Main Power On ===
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[[Image:Setting_Power_On.png]]
 
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void SettingPowerOn(BYTE SlavAddr,BYTE bValue)
void SettingPowerOn(BYTE SlavAddr,BYTE bValue)
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}
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[[Image:Setting_Power_On.png]]
=== Setting OS Delay Off ===
=== Setting OS Delay Off ===

Revision as of 12:40, 5 April 2012

Contents

LAN By Pass Utility Download

Binary file:CPC_Utility_v1.0w_Bin(32bit).rar CPC_Utility_v1.0w_Bin(64bit).zip
Source file:CPC_Utility_v1.0w_Src(32bit).rar CPC_Utility_v1.0w_src(64bit).zip


How to Use The Utility

CPC Utility Main Window

Image:CPC_Utility.png

1. Setting Button
Open "Setting Window".
2. Battery Setting Button
Open "Battery Setting Window".
* Kindly notice that you have to set I2C Address in setting window before open battery setting window.
3. Recently Voltage Value
Utility will detect the recent voltage value and show in the edit box when start to monitor.
4. Period Voltage Value
Utility will detect and show the period voltage value when start "under low voltage detect". If "under low voltage detect" doesn't execute, period voltage value will be hidden.
5. Operation Mode
6. Battery Type
Show the battery type you set.
* If disable "under low voltage detect", battery type will be hidden.
7. Start Button
Press this button will start to monitor and show battery information on utility main window.
* Kindly notice that you have to set I2C Address and Recently Battery Value Check Frequency in setting window before starting to monitor.


CPC Utility Setting Window

Image:CPC_Setting1.png

1. I2C Address
2. Submit Button
Press this button when finish selecting I2C address, then CPC Basic Setting section and CPC Monitor Setting section will be enable to set(like the picture below).



Image:CPC_Setting2.png

3. Delay Main Power On
Set delay time which CPC turn on computer .
4. OS Delay Off
Set delay time which CPC turn off computer.
5. Main Power Delay
Set delay time of power supply after computer is turned off.
6. Load Default Button
Press thie button will load default value of CPC basic setting section.
* In CPC basic setting section, the initial value are read from registers.
7. Read Register Button
Press this button will read the value from register.
8. Set Button
Press this button to set when finish selecting what you want to set in CPC basic setting section. After press the button, CPC basic setting section will be disable.



Image:CPC_Setting3.png

9. Reset Button
Press the button to enable CPC basic setting section and set again.
10. Recent Battery Value Check Frequency
The value is check frequency when starting to monitor.
* The range of check frequency is between 5 to 60 seconds.
11. Start on Boot
If enable this function, the utility will execute when the OS boot.
12. Confirm Button
If finish to set CPC Monitor Setting section, press this button and the information will be set.
13. Cancel Button



CPC Utility Battery Setting Window

Image:CPC_Battery1.png

1. Disable Under Low Voltage Detect
If select this option, you don't have to set other things in the battery setting window. Besides, Period Voltage and Battery Type are also be hidden in main window when starting to monitor.
2. Battery Type
3. Submit Button
If finish to select battery type, then press it to set and enable other options below(like the picture below).



Image:CPC_Battery2.png

4. Battery Low Voltage
Set a voltage value as a criteria. If CPC detect the period voltage value is smaller than this criteria ten times, computer will be turned off.
5. ACC Active
Set time to detect under low voltage.
6. Under Low Voltage Warning
Show a warning message when period voltage is smaller than battery low voltage you set.
7. Read Register Button
Press this button will read the value from register
* In CPC battery setting window, the initial value are read from registers.
8. Confirm Button
If finish to set CPC Battery Setting section, press this button and the information will be set.
9. Cancel Button



Introdution(Part of Define macro)

//Battery Type
#define Battery_12V		0x11
#define Battery_24V		0x22
#define Battery_None	        0xFF

//ACC Status
#define ACC_Low			0x11
#define ACC_High		0x22

//General
#define OptionToASCII(x)        x+65
#define ASCIIToOption(x)        x-65

Introdution(Part of Setting)

Setting Main Power On

void SettingPowerOn(BYTE SlavAddr,BYTE bValue)
{
	bValue=OptionToASCII(bValue);
	WriteI2CByte(SlavAddr,0x12,bValue);
}

Image:Setting_Power_On.png

Setting OS Delay Off

Image:OS_Delay_Off.png

void SettingOSDelayOff(BYTE SlavAddr,BYTE bValue)
{
	if(bValue==17)
		bValue=90;   //option of "infinite", have to write ascii code "Z" to register
	else
		bValue=OptionToASCII(bValue)+1;   //remove the option of A
	WriteI2CByte(SlavAddr,0x15,bValue);
}

Setting Power Off

void SettingPowerOff(BYTE SlavAddr,BYTE bValue)
{
	bValue=OptionToASCII(bValue)+1;   //remove the option of A
	WriteI2CByte(SlavAddr,0x17,bValue);
}

Setting Low Voltage Level

void SettingLowVoltage(BYTE SlavAddr,BYTE bValue)
{
	bValue=OptionToASCII(bValue);
	WriteI2CByte(SlavAddr,0x19,bValue);
}

Setting Battery Type

void SettingBatteryType(BYTE SlavAddr,BYTE bBatteryType)
{
	bBatteryType=(bBatteryType)?Battery_24V:Battery_12V;
	WriteI2CByte(SlavAddr,0x1A,bBatteryType);
}

Setting Low Voltage Detect

void SettingLowVoltDetect(BYTE SlavAddr,BYTE bAccStatus)
{
	bAccStatus=(bAccStatus)?ACC_High:ACC_Low;
	WriteI2CByte(SlavAddr,0x1B,bAccStatus);
}


Introdution(Part of Read)

Convert Voltage

void VoltageConvert(float &Voltage)
{
	Voltage=Voltage*4/1023*3.3*10;
}

Read Power On

int ReadPowerOn(BYTE SlavAddr)
{
	int Data;

	Data=ReadI2CByte(SlavAddr,0x12);
	Data=ASCIIToOption(Data)-1;   //remove the option of A(option number used ascii code A~Z)

	return Data;
}

Read OS Delay Off

int ReadOSDelayOff(BYTE SlavAddr)
{
	int Data;

	Data=ReadI2CByte(SlavAddr,0x15);
	Data=ASCIIToOption(Data)-1;   //remove the option of A

	return Data;
}

Read Power Off

int ReadPowerOff(BYTE SlavAddr)
{
	int Data;

	Data=ReadI2CByte(SlavAddr,0x17);
	Data=ASCIIToOption(Data)-1;   //remove the option of A

	return Data;
}

Read Low Voltage

int ReadLowVoltage(BYTE SlavAddr)
{
	int Data;

	Data=ReadI2CByte(SlavAddr,0x19);
	Data=ASCIIToOption(Data);

	return Data;
}

Read Battery Type

int ReadBatteryType(BYTE SlavAddr)
{
	int iBatteryType;

	iBatteryType=ReadI2CByte(SlavAddr,0x1A);
	switch(iBatteryType)
	{
		case Battery_12V:
		{
			iBatteryType=0;
			break;
		}
		case Battery_24V:
		{
			iBatteryType=1;
			break;
		}
		default:
		{
			iBatteryType=-1;
			break;
		}
	}

	return iBatteryType;
}

ReadLowVoltDetectTiming

int ReadLowVoltDetectTiming(BYTE SlavAddr)
{
	int iAccStatus;

	iAccStatus=ReadI2CByte(SlavAddr,0x1B);
	iAccStatus=(iAccStatus==ACC_Low)?0:1;

	return iAccStatus;
}

Read Instant AD Value

float ReadInstantADValue(BYTE SlavAddr)
{
	float Data;

	Data=(float)ReadI2CByte(SlavAddr,0x30);
	VoltageConvert(Data);

	return Data;
}

Read Period AD Value

float ReadPeriodADValue(BYTE SlavAddr)
{
	float Data;

	Data=(float)ReadI2CByte(SlavAddr,0x31);
	VoltageConvert(Data);

	return Data;
}

ReadOperationMode

BYTE ReadOperationMode(BYTE SlavAddr)   //ReadDIP_SWSetting bit1
{
	BYTE Data;

	Data=ReadI2CByte(SlavAddr,0x32);
	Data=(Data>>1) & 0x01;

	return Data;
}

Read ACC Status

BYTE ReadAccStatus(BYTE SlavAddr)   //ReadDIP_SWSetting bit4
{
	BYTE Data;

	Data=ReadI2CByte(SlavAddr,0x32);
	Data=(Data>>4) & 0x01;

	return Data;
}
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