請先看『使用說明』
IO Device:F75111 CIO Utility CIO116
From LEXWiKi
(Difference between revisions)
(→MB Support List) |
(→MB Support List) |
||
| Line 21: | Line 21: | ||
|- | |- | ||
| | | | ||
| - | 2I847H | + | 2I847H <br> |
| - | 3I847A/D/CW/NX/NM/HW | + | 3I847A/D/CW/NX/NM/HW <br> |
| - | 3I770A/CW | + | 3I770A/CW <br> |
| - | CI847A/C CI770A/C | + | CI847A/C CI770A/C<br> |
| | | | ||
| - | 1I385A/H 1I386H | + | 1I385A/H 1I386H <br> |
| - | 2I380A 2I385A/CW 2I380NX 2I385BW/EW/HW/PW 2I386EW 2I382A | + | 2I380A 2I385A/CW 2I380NX 2I385BW/EW/HW/PW 2I386EW 2I382A <br> |
| - | 3I380A/CW/NX | + | 3I380A/CW/NX <br> |
| - | ST385W/AW/CW | + | ST385W/AW/CW<br> |
| | | | ||
| - | 2I390CW 2I392CW | + | 2I390CW 2I392CW <br> |
| - | 3I390AW 3I390NX 3I393NX | + | 3I390AW 3I390NX 3I393NX <br> |
| - | PM390CW | + | PM390CW<br> |
| | | | ||
| - | 2I610DW/HW 2I612CW | + | 2I610DW/HW 2I612CW<br> |
| - | 3I610DW 3I612DW 3I170DW/HW/NX | + | 3I610DW 3I612DW 3I170DW/HW/NX<br> |
| - | ST610W | + | ST610W<br> |
| - | CI170A/C | + | CI170A/C<br> |
| - | PM610DW PM170DW | + | PM610DW PM170DW<br> |
| | | | ||
CI370DW | CI370DW | ||
Revision as of 11:59, 18 February 2020
Contents |
The Sample code source you can download from
Source file: CIO_Utility_Src_v3.0.3.tar.gz
Binary file: CIO_Utility_Bin_v3.0.3_x32.tar.gz
CIO_Utility_Bin_v3.0.3_x64.tar.gz
MB Support List
| Ivybridge | BayTrail | Apollo Lake | Skylake/Kabylake | Coffee Lake | Whiskey Lake | Card |
|---|---|---|---|---|---|---|
|
2I847H |
1I385A/H 1I386H |
2I390CW 2I392CW |
2I610DW/HW 2I612CW |
CI370DW |
2I810D 3I810DW |
CIO116-G E691A |
How to use this Demo Application
Before executing the program began, Please switch to the highest authority , continued second F75111 ,chmod 777 and root: \
1. Press the select your test "2i2o","4i4o","8i8o","CIO1616"
2. If you test CIO1616 checkbutton second 75111
3. start button,select single mode or looptest
F75111 Layout Picture
Introduction
Initial Internal F75111 port address (0x9c)
define GPIO1X, GPIO2X, GPIO3X to input or output and Enable WDT function pin
Set F75111 DI/DO ( sample code as below Get Input value/Set output value )
DO: InterDigitalOutput(BYTE byteValue)) DI: InterDigitalInput()
PULSE mode
Sample to setting GP33, 32, 31, 30 output 1mS low pulse signal.
{
this->Write_Byte(F75111_INTERNAL_ADDR, GPIO3X_PULSE_CONTROL, 0x00); //This is setting low pulse output
this->Write_Byte(F75111_INTERNAL_ADDR, GPIO3X_PULSE_WIDTH_CONTROL, 0x01); //This selects the pulse width to 1mS
this->Write_Byte(F75111_INTERNAL_ADDR, GPIO3X_CONTROL_MODE, 0x0F); //This is setting the GP33, 32, 31, 30 to output function.
this->Write_Byte(F75111_INTERNAL_ADDR, GPIO3X_Output_Data , 0x0F); //This is setting the GP33, 32, 31, 30 output data.
}
Initial internal F75111
void F75111::InitInternalF75111()
{
this->Write_Byte(F75111_INTERNAL_ADDR,GPIO1X_CONTROL_MODE ,0x00); //set GPIO1X to Input function
this->Write_Byte(F75111_INTERNAL_ADDR,GPIO3X_CONTROL_MODE ,0x00); //set GPIO3X to Input function
this->Write_Byte(F75111_INTERNAL_ADDR,GPIO2X_CONTROL_MODE ,0xFF); //set GPIO2X to Output function
this->Write_Byte(F75111_INTERNAL_ADDR,F75111_CONFIGURATION, 0x03); //Enable WDT OUT function
}
Set output value
void F75111::InterDigitalOutput(BYTE byteValue)
{
BYTE byteData = 0;
byteData = (byteData & 0x01 )? byteValue + 0x01 : byteValue;
byteData = (byteData & 0x02 )? byteValue + 0x02 : byteValue;
byteData = (byteData & 0x04 )? byteValue + 0x04 : byteValue;
byteData = (byteData & 0x80 )? byteValue + 0x08 : byteValue;
byteData = (byteData & 0x40 )? byteValue + 0x10 : byteValue;
byteData = (byteData & 0x20 )? byteValue + 0x20 : byteValue;
byteData = (byteData & 0x10 )? byteValue + 0x40 : byteValue;
byteData = (byteData & 0x08 )? byteValue + 0x80 : byteValue; // get value bit by bit
this->Write_Byte(F75111_INTERNAL_ADDR,GPIO2X_OUTPUT_DATA,byteData); // write byteData value via GPIO2X output pin
}
Get Input value
BYTE F75111::InterDigitalInput()
{
BYTE byteGPIO1X = 0;
BYTE byteGPIO3X = 0;
BYTE byteData = 0;
this->Read_Byte(F75111_INTERNAL_ADDR,GPIO1X_INPUT_DATA,&byteGPIO1X) ; // Get value from GPIO1X
this->Read_Byte(F75111_INTERNAL_ADDR,GPIO3X_INPUT_DATA,&byteGPIO3X) ; // Get value from GPIO3X
byteGPIO1X = byteGPIO1X & 0xF0; // Mask unuseful value
byteGPIO3X = byteGPIO3X & 0x0F; // Mask unuseful value
byteData = ( byteGPIO1X & 0x10 )? byteData + 0x01 : byteData;
byteData = ( byteGPIO1X & 0x80 )? byteData + 0x02 : byteData;
byteData = ( byteGPIO1X & 0x40 )? byteData + 0x04 : byteData;
byteData = ( byteGPIO3X & 0x01 )? byteData + 0x08 : byteData;
byteData = ( byteGPIO3X & 0x02 )? byteData + 0x10 : byteData;
byteData = ( byteGPIO3X & 0x04 )? byteData + 0x20 : byteData;
byteData = ( byteGPIO3X & 0x08 )? byteData + 0x40 : byteData;
byteData = ( byteGPIO1X & 0x20 )? byteData + 0x80 : byteData; // Get correct DI value from GPIO1X & GPIO3X
return byteData;
}
define F75111 pin in F75111.h
//--------------------------------------------------------------------------------------------------------
#define F75111_INTERNAL_ADDR 0x9C // OnBoard F75111 Chipset
#define F75111_EXTERNAL_ADDR 0x6E // External F75111 Chipset
//--------------------------------------------------------------------------------------------------------
#define F75111_CONFIGURATION 0x03 // Configure GPIO13 to WDT2 Function
//--------------------------------------------------------------------------------------------------------
#define GPIO1X_CONTROL_MODE 0x10 // Select Output Mode or Input Mode
#define GPIO2X_CONTROL_MODE 0x20 // Select GPIO2X Output Mode or Input Mode
#define GPIO3X_CONTROL_MODE 0x40 // Select GPIO3X Output Mode or Input Mode
//--------------------------------------------------------------------------------------------------------
#define GPIO1X_INPUT_DATA 0x12 // GPIO1X Input
#define GPIO3X_INPUT_DATA 0x42 // GPIO3X Input
//--------------------------------------------------------------------------------------------------------
#define GPIO2X_OUTPUT_DATA 0x21 // GPIO2X Output
//--------------------------------------------------------------------------------------------------------
#define GPIO1X_PULSE_CONTROL 0x13 // GPIO1x Level/Pulse Control Register
// 0:Level Mode
// 1:Pulse Mode
#define GPIO1X_PULSE_WIDTH_CONTROL 0x14 // GPIO1x Pulse Width Control Register
#define GP1_PSWIDTH_500US 0x00 // When select Pulse mode: 500 us.
#define GP1_PSWIDTH_1MS 0x01 // When select Pulse mode: 1 ms.
#define GP1_PSWIDTH_20MS 0x02 // When select Pulse mode: 20 ms.
#define GP1_PSWIDTH_100MS 0x03 // When select Pulse mode: 100 ms.
//--------------------------------------------------------------------------------------------------------
#define GPIO2X_PULSE_CONTROL 0x23 // GPIO2x Level/Pulse Control Register
// 0:Level Mode
// 1:Pulse Mode
#define GPIO2X_PULSE_WIDTH_CONTROL 0x24 // GPIO2x Pulse Width Control Register
#define GP2_PSWIDTH_500US 0x00 // When select Pulse mode: 500 us.
#define GP2_PSWIDTH_1MS 0x01 // When select Pulse mode: 1 ms.
#define GP2_PSWIDTH_20MS 0x02 // When select Pulse mode: 20 ms.
#define GP2_PSWIDTH_100MS 0x03 // When select Pulse mode: 100 ms.
//--------------------------------------------------------------------------------------------------------
#define GPIO3X_PULSE_CONTROL 0x43 // GPIO3x Level/Pulse Control Register
// 0:Level Mode
// 1:Pulse Mode
#define GPIO3X_Output_Data 0x41 // GPIO3x Output Data Register
#define GPIO3X_PULSE_WIDTH_CONTROL 0x44 // GPIO3x Pulse Width Control Register
#define GP3_PSWIDTH_500US 0x00 // When select Pulse mode: 500 us.
#define GP3_PSWIDTH_1MS 0x01 // When select Pulse mode: 1 ms.
#define GP3_PSWIDTH_20MS 0x02 // When select Pulse mode: 20 ms.
#define GP3_PSWIDTH_100MS 0x03 // When select Pulse mode: 100 ms.
//--------------------------------------------------------------------------------------------------------
