#ifdef _WIN32_WCE //Provided for WinCon #define Exp8K I7000CE_API // #define CALLBACK NULL #else //Provided for PC (Microsoft OS) #ifndef Exp8K #ifdef __cplusplus #define Exp8K extern "C" __declspec(dllimport) #else #define Exp8K __declspec(dllexport) #endif #endif #endif #ifdef _WIN32_WCE // #ifndef __I8000_H__ // #define __I8000_H__ #include #endif // return code #define NoError 0 #define FunctionError 1 #define PortError 2 #define BaudRateError 3 #define DataError 4 #define StopError 5 #define ParityError 6 #define CheckSumError 7 #define ComPortNotOpen 8 #define SendThreadCreateError 9 #define SendCmdError 10 #define ReadComStatusError 11 #define ResultStrCheckError 12 #define CmdError 13 #define TimeOut 15 #define ModuleIdError 17 #define AdChannelError 18 #define UnderInputRange 19 #define ExceedInputRange 20 #define InvalidateCounterNo 21 #define InvalidateCounterValue 22 #define InvalidateGateMode 23 #define InvalidateChannelNo 24 #define ComPortInUse 25 /*******************************************************************/ Exp8K WORD CALLBACK AnalogIn_8K(DWORD dwBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- // dwBuf[0]; // RS-232 port number: 1/2/3/4..../255 // dwBuf[1]; // module address: 0x00 to 0xFF // dwBuf[2]; // module ID: 0x8017/18 // dwBuf[3]; // checksum: 0=disable, 1=enable // dwBuf[4]; // TimeOut constant: normal=100 // dwBuf[5]; // channel number for multi-channel // dwBuf[6]; // flag: 0=no save, 1=save send/receive string // dwBuf[7]; // Slot Number: 0 to 3 //---------------------- output ------------------------------------ // fBuf[0]=analog input value /*******************************************************************/ Exp8K WORD CALLBACK AnalogOutReadBack_8K(DWORD dwBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- // dwBuf[0]; // RS-232 port number: 1/2/3/4..../255 // dwBuf[1]; // module address: 0x00 to 0xFF // dwBuf[2]; // module ID: 0x8017/18 // dwBuf[3]; // checksum: 0=disable, 1=enable // dwBuf[4]; // TimeOut constant: normal=100 // dwBuf[5]; // channel number for multi-channel // dwBuf[6]; // flag: 0=no save, 1=save send/receive string // dwBuf[7]; // Slot Number: 0 to 3 //---------------------- output ------------------------------------ // fBuf[0]=analog out readback value /************************************************************/ /* AnalogInAll_8K */ /* */ /* Main Unit: I-8000 series */ /* */ /* Module: I-87013,I-8017H,I-87017,I-87018 */ /* ADAM-5013/17/18 */ /************************************************************/ Exp8K WORD CALLBACK AnalogInAll_8K(DWORD dwBuf[], float fBuf[], char szSend[], char szReceive[]); /* ====== Input parameter ==================================== dwBuf[0]; RS-232 port number: 1 ~ 255 dwBuf[1]; Module address: 0x00 ~ 0xFF dwBuf[2]; Module ID: 0x8013 for I-87013, 0x8017 for I-8017H,I-87017 0x8018 for I-87018, 0x5017/18 for ADAM-5017/18 dwBuf[3]; Checksum: 0=disable, 1=enable dwBuf[4]; TimeOut: Normal=100 (ms) dwBuf[6]; Debug: 0=disable 1=enable: copy command string (sent to module) to szSend and response string (received from module) to szReceive. dwBuf[7]; Slot Number: 0 to 7 ====== Output parameter =================================== if dwBuf[2] is 0x8013/0x5013 fBuf[0]=analog input value of channel_0 fBuf[1]=analog input value of channel_1 fBuf[2]=analog input value of channel_2 fBuf[3]=analog input value of channel_3 if dwBuf[2] is 0x8017/18 or 0x5017/18 fBuf[0]=analog input value of channel_0 fBuf[1]=analog input value of channel_1 ........................................ fBuf[7]=analog input value of channel_7 */ /************************************************************************/ /*'02/6/24 added------------------------------------------------------- */ Exp8K WORD CALLBACK AnalogInFsr_8K(DWORD dwBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- // dwBuf[0]; // RS-232 port number: 1/2/3/4/..../255 // dwBuf[1]; // module address: 0x00 to 0xFF // dwBuf[2]; // module ID: 0x8017/0x8018 // dwBuf[3]; // checksum: 0=disable, 1=enable // dwBuf[4]; // TimeOut constant: normal=100 // dwBuf[5]; // channel number for multi-channel // dwBuf[6]; // flag: 0=no save, 1=save send/receive string // dwBuf[7]; // Slot Number /* -------------------------------------------------------------------- */ Exp8K WORD CALLBACK AnalogInHex_8K(DWORD dwBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- // dwBuf[0]; // RS-232 port number: 1/2/3/4/..../255 // dwBuf[1]; // module address: 0x00 to 0xFF // dwBuf[2]; // module ID: 0x8017/0x8018 // dwBuf[3]; // checksum: 0=disable, 1=enable // dwBuf[4]; // TimeOut constant: normal=100 // dwBuf[5]; // channel number for multi-channel // dwBuf[6]; // flag: 0=no save, 1=save send/receive string // dwBuf[7]; // Slot Number //---------------------- output ------------------------------------ // dwBuf[8] //analog input value /**************************************/ /*------ Set Alarm Connection--------*/ /*---- for 87013, 87017, 87018 -----*/ Exp8K WORD CALLBACK SetAlarmConnect_8K(DWORD dwBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- // dwBuf[0]; // RS-232 port number: 1/2/3/4/..../255 // dwBuf[1]; // module address: 0x00 to 0xFF // dwBuf[2]; // module ID: 0x8017/18 // dwBuf[3]; // checksum: 0=disable, 1=enable // dwBuf[4]; // TimeOut constant: normal=100 // dwBuf[5]; // channel // dwBuf[6]; // flag: 0=no save, 1=save send/receive string // dwBuf[7]; // slot number // dwBuf[8]; // 0:connect Low Alarm, 1:connect high alarm // dwBuf[9]; // the desired connect slot, // // when 100 means to disconnect // dwBuf[10]; // the desired connect channel //---------------------- output -------------------------------- // void /*********************************************/ /*---- Set Alarm Limit Value ---------*/ /*---- for 8013, 8017, 8018 -----*/ Exp8K WORD CALLBACK SetAlarmLimitValue_8K(DWORD dwBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- // dwBuf[0]; // RS-232 port number: 1/2/3/4/..../255 // dwBuf[1]; // module address: 0x00 to 0xFF // dwBuf[2]; // module ID: 0x8013/17/18 // dwBuf[3]; // checksum: 0=disable, 1=enable // dwBuf[4]; // TimeOut constant: normal=100 // dwBuf[5]; // channel // dwBuf[6]; // flag: 0=no save, 1=save send/receive string // dwBuf[7]; // slot // dwBuf[8]; // 0: Low Alarm 1: High Alarm // f7000[0]; // Alarm Limit Value //---------------------- output ------------------------------------ // void /*********************************************/ /*---- Read Alarm Limit Value ---------*/ /*---- for 8013, 8017, 8018 -----*/ Exp8K WORD CALLBACK ReadAlarmLimitValue_8K(DWORD dwBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- // dwBuf[0]; // RS-232 port number: 1/2/3/4/..../255 // dwBuf[1]; // module address: 0x00 to 0xFF // dwBuf[2]; // module ID: 0x87013/17/18 // dwBuf[3]; // checksum: 0=disable, 1=enable // dwBuf[4]; // TimeOut constant: normal=100 // dwBuf[5]; // channel // dwBuf[6]; // flag: 0=no save, 1=save send/receive string // dwBuf[7]; // slot // dwBuf[8]; // 0: Low Alarm 1: High Alarm //---------------------- output ------------------------------------ // fValue=f7000[0]; // Alarm Limit Value /*********************************************/ /*---- Clear Latch Alarm ---------*/ /*---- for 8013, 8017, 8018 -----*/ Exp8K WORD CALLBACK ClearLatchAlarm_8K(DWORD dwBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- // dwBuf[0]; // RS-232 port number: 1/2/3/4/..../255 // dwBuf[1]; // module address: 0x00 to 0xFF // dwBuf[2]; // module ID: 0x8013/17/18 // dwBuf[3]; // checksum: 0=disable, 1=enable // dwBuf[4]; // TimeOut constant: normal=100 // dwBuf[5]; // channel // dwBuf[6]; // flag: 0=no save, 1=save send/receive string // dwBuf[7]; // slot // dwBuf[8]; // 0: Low Alarm 1: High Alarm //---------------------- output ------------------------------------ // void /*********************************************/ /*---- Read Alarm Mode ---------*/ /*---- for 8013, 8017, 8018 -----*/ Exp8K WORD CALLBACK ReadAlarmMode_8K(DWORD dwBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- // dwBuf[0]; // RS-232 port number: 1/2/3/4/..../255 // dwBuf[1]; // module address: 0x00 to 0xFF // dwBuf[2]; // module ID: 0x8013/17/18 // dwBuf[3]; // checksum: 0=disable, 1=enable // dwBuf[4]; // TimeOut constant: normal=100 // dwBuf[5]; // channel // dwBuf[6]; // flag: 0=no save, 1=save send/receive string // dwBuf[7]; // slot // dwBuf[8]; // 0: Low Alarm 1: High Alarm //---------------------- output ------------------------------------ // Alarm Mode: // dwBuf(9):0 Disable // dwBuf(9):1 Momentary // dwBuf(9):2 Latch /*********************************************/ /*---- Set Alarm Mode ---------*/ /*---- for 813, 8017, 8018 -----*/ Exp8K WORD CALLBACK SetAlarmMode_8K(DWORD dwBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- // dwBuf[0]; // RS-232 port number: 1/2/3/4/..../255 // dwBuf[1]; // module address: 0x00 to 0xFF // dwBuf[2]; // module ID: 0x8013/17/18 // dwBuf[3]; // checksum: 0=disable, 1=enable // dwBuf[4]; // TimeOut constant: normal=100 // dwBuf[5]; // channel // dwBuf[6]; // flag: 0=no save, 1=save send/receive string // dwBuf[7]; // slot // dwBuf[8]; // 0: Low Alarm 1: High Alarm // dwBuf(9):0 // 0: Disable 1: Mentary 2: Latch //---------------------- output ----------------------------------- // void /**************************************/ /*------ Read Alarm Status ---------*/ /*---- for 8013, 8017, 8018 -----*/ Exp8K WORD CALLBACK ReadAlarmStatus_8K(DWORD dwBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- // dwBuf[0]; // RS-232 port number: 1/2/3/4/..../255 // dwBuf[1]; // module address: 0x00 to 0xFF // dwBuf[2]; // module ID: 0x8013/17/18 // dwBuf[3]; // checksum: 0=disable, 1=enable // dwBuf[4]; // TimeOut constant: normal=100 // dwBuf[5]; // channel // dwBuf[6]; // flag: 0=no save, 1=save send/receive string // dwBuf[7]; // slot //---------------------- output ------------------------------------ // dwBuf[8] 1: High Alarm Occur 0: Don't Occur // dwBuf[9] 1: Low Alarm Occur 0: Don't Occur /*********************************************************/ /*------ Set Analog Output for 8022/8024/8026 ---------*/ Exp8K WORD CALLBACK AnalogOut_8K(DWORD dwBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- // dwBuf[0]; // RS-232 port number: 1/2/3/4..../255 // dwBuf[1]; // module address: 0x00 to 0xFF // dwBuf[2]; // module ID: 0x8024,8022,8026 // dwBuf[3]; // checksum: 0=disable, 1=enable // dwBuf[4]; // TimeOut constant: normal=100 // dwBuf[5]; // Channel No.(0 to 3) // dwBuf[6]; // flag: 0=no save, 1=save send/receive string // dwBuf[7]; // slot // f7000[0]; // analog output value //---------------------- output ------------------------------------ // void /****************************************************/ /*------ Set Analog Output for 8022/8026 ---------* /*Exp8K WORD CALLBACK AnalogOutHex_8K(DWORD dwBuf[], float fBuf[], char szSend[], char szReceive[]); //No release due to no Hex defined in firmware 8k232,8k485 //---------------------- input ------------------------------------- // dwBuf[0]; // RS-232 port number: 1/2/3/4/..../255 // dwBuf[1]; // module address: 0x00 to 0xFF // dwBuf[2]; // module ID: 0x8022/0x8026 (0x8024 has no Hex type) // dwBuf[3]; // checksum: 0=disable, 1=enable // dwBuf[4]; // TimeOut constant: normal=100 // dwBuf[5]; // Channel No.(0 to 1) // dwBuf[6]; // flag: 0=no save, 1=save send/receive string // dwBuf[7]) //analog output value(Hexadeciaml Data Foramt) //---------------------- output ------------------------------------ /****************************************************/ /*------ Set Analog Output for 8022/8026 ---------* Exp8K WORD CALLBACK AnalogOutFsr_8K(DWORD dwBuf[], float fBuf[], char szSend[], char szReceive[]);//No release due to no FSr defined in firmware 8k232,8k485 //---------------------- input ------------------------------------- // dwBuf[0]; // RS-232 port number: 1/2/3/4/..../255 // dwBuf[1]; // module address: 0x00 to 0xFF // dwBuf[2]; // module ID: 0x8022/0x8026 (0x8024 has no Fsr type) // dwBuf[3]; // checksum: 0=disable, 1=enable // dwBuf[4]; // TimeOut constant: normal=100 // dwBuf[5]; // Channel No.(0 to 1) // dwBuf[6]; // flag: 0=no save, 1=save send/receive string // fBuf[0]; // analog output value //---------------------- output ------------------------------------ /**************************************************** WORD CALLBACK AnalogOutReadBackHex_8K(DWORD dwBuf[], float fBuf[], char szSend[], char szReceive[]);//No release due to no Hex defined in firmware 8k232,8k485 //---------------------- input ------------------------------------- // dwBuf[0]; // RS-232 port number: 1/2/3/4/..../255 // dwBuf[1]; // module address: 0x00 to 0xFF // dwBuf[2]; // module ID: 0x8022/0x8026 (8024 has no Hex // dwBuf[3]; // checksum: 0=disable, 1=enable // dwBuf[4]; // TimeOut constant: normal=100 // dwBuf[5]; // for 8022/8026 // 0: command read back ($AA6) // 1: analog output of current path read back ($AA8) // dwBuf[6]; // flag: 0=no save, 1=save send/receive string // dwBuf[7]; // Channel No.(0 to 1) // Not used, else //---------------------- output ------------------------------------ // fBuf[9]=analog output value read back(Hex)*/ /*******************************************************/ /*------ Read Configuration Status for 8024 ---------*/ Exp8K WORD CALLBACK ReadConfigurationStatus_8K(DWORD dwBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- // dwBuf[0]; // RS-232 port number: 1/2/3/4/..../255 // dwBuf[1]; // module address: 0x00 to 0xFF // dwBuf[2]; // module ID: 0x8024,8022 // dwBuf[3]; // checksum: 0=disable, 1=enable // dwBuf[4]; // TimeOut constant: normal=100 // dwBuf[5]; // channel // dwBuf[6]; // flag: 0=no save, 1=save send/receive string // dwBuf[7]; // slot //---------------------- output ------------------------------------ // dwBuf[8]: // Output Range: 0x30, 0x31, 0x32 // dwBuf[9]: // Slew rate /******************************************************/ /*------ Setting Start-Up Value for 8024 ---------*/ Exp8K WORD CALLBACK SetStartUpValue_8K(DWORD dwBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- // dwBuf[0]; // RS-232 port number: 1/2/3/4/..../255 // dwBuf[1]; // module address: 0x00 to 0xFF // dwBuf[2]; // module ID: 0x8024,8022 // dwBuf[3]; // checksum: 0=disable, 1=enable // dwBuf[4]; // TimeOut constant: normal=100 // dwBuf[5]; // channel // dwBuf[6]; // flag: 0=no save, 1=save send/receive string // dwBuf[7]; // slot //---------------------- output ------------------------------------ // void /******************************************************/ /*------ Reading Start-Up Value for 8024 ---------*/ Exp8K WORD CALLBACK ReadStartUpValue_8K(DWORD dwBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- // dwBuf[0]; // RS-232 port number: 1/2/3/4/..../255 // dwBuf[1]; // module address: 0x00 to 0xFF // dwBuf[2]; // module ID: 0x8024,8022 // dwBuf[3]; // checksum: 0=disable, 1=enable // dwBuf[4]; // TimeOut constant: normal=100 // dwBuf[5]; // channel // dwBuf[6]; // flag: 0=no save, 1=save send/receive string // dwBuf[7]; // slot //---------------------- output ------------------------------------ // fBuf[0]: // the Start-Up Value Exp8K WORD CALLBACK DigitalOut_8K(DWORD dwBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- // dwBuf[0]; // RS-232 port number: 1/2/3/4..../255 // dwBuf[1]; // module address: 0x00 to 0xFF // dwBuf[2]; // module ID: 0x8037/41/42/50/54/55/56/57/60/63/64/65/66/68/69/77 // dwBuf[3]; // checksum: 0=disable, 1=enable // dwBuf[4]; // TimeOut constant: normal=100 // dwBif[5]; // 16 bit data to output // dwBuf[6]; // flag: 0=no save, 1=save send/receive string // dwBuf[7]; // Slot Number: 0~7 //---------------------- output ------------------------------------ Exp8K WORD CALLBACK DigitalBitOut_8K(DWORD dwBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- // dwBuf[0]; // RS-232 port number: 1/2/3/4..../255 // dwBuf[1]; // module address: 0x00 to 0xFF // dwBuf[2]; // module ID: 0x8037/41/42/50/54/55/56/57/60/63/64/65/66/68/69/77 // dwBuf[3]; // checksum: 0=disable, 1=enable // dwBuf[4]; // TimeOut constant: normal=100 // dwBuf[6]; // flag: 0=no save, 1=save send/receive string // dwBuf[5]; // Out But Data 0 or 1 // dwBuf[7]; // Slot Number: 0 to 3 // dwBuf[8]; // Channel to Output //---------------------- output ------------------------------------ Exp8K WORD CALLBACK DigitalIn_8K(DWORD dwBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- // dwBuf[0]; // RS-232 port number: 1/2/3/4..../255 // dwBuf[1]; // module address: 0x00 to 0xFF // dwBuf[2]; // module ID: 0x8040/42/50/51/52/53/54/55/58/63/77 // dwBuf[3]; // checksum: 0=disable, 1=enable // dwBuf[4]; // TimeOut constant: normal=100 // dwBuf[6]; // flag: 0=no save, 1=save send/receive string // dwBuf[7]; // Slot Number: 0 to 3 //---------------------- output ------------------------------------ // w7000[5]=digital input data Exp8K WORD CALLBACK DigitalOutReadBack_8K(DWORD dwBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input --------------------------- //dwBuf[0]; // RS-232 port number: 1/2/3/4/..../255 //dwBuf[1]; // module address: 0x00 to 0xFF //dwBuf[2]; // module ID:0x8037/41/42/54/55/56/57/60/63/64/65/66/68/69 //dwBuf[3]; // checksum: 0=disable, 1=enable //dwBuf[4]; // TimeOut constant: normal=100 //dwBuf[6]; // flag: 0=no save, 1=save send/receive string //dwBuf[7]; // Slot Number //---------------------- output ----------------------- // void Exp8K WORD CALLBACK DigitalInCounterRead_8K(DWORD dwBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input --------------------------- //dwBuf[0]; // RS-232 port number: 1/2/3/4/..../255 //dwBuf[1]; // module address: 0x00 to 0xFF //dwBuf[2]; // module ID:0x8037/41/42/54/55/56/57/60/63/64/65/66/68/69 //dwBuf[3]; // checksum: 0=disable, 1=enable //dwBuf[4]; // TimeOut constant: normal=100 //dwBuf[6]; // flag: 0=no save, 1=save send/receive string //dwBuf[7]; // Slot Number //---------------------- output ----------------------- //dwBuf[8]; Exp8K WORD CALLBACK ClearDigitalInCounter_8K(DWORD dwBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input --------------------------- //dwBuf[0]; // RS-232 port number: 1/2/3/4/..../255 //dwBuf[1]; // module address: 0x00 to 0xFF //dwBuf[2]; // module ID:0x8037/41/42/54/55/56/57/60/63/64/65/66/68/69 //dwBuf[3]; // checksum: 0=disable, 1=enable //dwBuf[4]; // TimeOut constant: normal=100 //dwBuf[6]; // flag: 0=no save, 1=save send/receive string //dwBuf[7]; // Slot Number //---------------------- output ----------------------- // void Exp8K WORD CALLBACK DigitalInLatch_8K(DWORD dwBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input --------------------------- //dwBuf[0]; // RS-232 port number: 1/2/3/4/..../255 //dwBuf[1]; // module address: 0x00 to 0xFF //dwBuf[2]; // module ID:0x8037/41/42/54/55/56/57/60/63/64/65/66/68/69 //dwBuf[3]; // checksum: 0=disable, 1=enable //dwBuf[4]; // TimeOut constant: normal=100 //dwBuf[6]; // flag: 0=no save, 1=save send/receive string //dwBuf[7]; // Slot Number //---------------------- output ----------------------- //dwBuf[8]; Exp8K WORD CALLBACK ClearDigitalInLatch_8K(DWORD dwBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input --------------------------- //dwBuf[0]; // RS-232 port number: 1/2/3/4/..../255 //dwBuf[1]; // module address: 0x00 to 0xFF //dwBuf[2]; // module ID:0x8037/41/42/54/55/56/57/60/63/64/65/66/68/69 //dwBuf[3]; // checksum: 0=disable, 1=enable //dwBuf[4]; // TimeOut constant: normal=100 //dwBuf[6]; // flag: 0=no save, 1=save send/receive string //dwBuf[7]; // Slot Number //---------------------- output ----------------------- // void Exp8K WORD CALLBACK GetChCount_FR(unsigned char wPort,unsigned char wAddr,unsigned char wCheckSum,WORD wTimeOut,WORD *wDICh, WORD *wDOCh,WORD *wAICh,WORD *wAOCh); Exp8K WORD CALLBACK DigitalOutAll_FR (unsigned char wPort,unsigned char wAddr,unsigned char wCheckSum,WORD wTimeOut, WORD wDOGroupCount, DWORD dwDO[]); /* wPort COM Port used to communicate with 7188EF-016 wAddr Station Address is Always 01 on 7188EF-016 wCheckSum Checksum of 7188EF-016 wTimeOut Timeout for command to transmit to 7188EF-016 wDOGroupCount The total Group count of FRNet DO modules dwDO[] The DO output array value for all FRNet DO modules, the array size of dwDO[] is 8 WORD for 7188EF-016 */ Exp8K WORD CALLBACK DigitalOutGroup_FR (unsigned char wPort,unsigned char wAddr,unsigned char wCheckSum,WORD wTimeOut, WORD wGroupIndex, DWORD dwDO); /* wPort COM Port used to communicate with 7188EF-016 wAddr Station Address is Always 01 on 7188EF-016 wCheckSum Checksum of 7188EF-016 wTimeOut Timeout for command to transmit to 7188EF-016 wGroupIndex The Group Index of FRNet DO modules,wGroupIndex(0~7)for 7188EF-016 dwDO The DO output value for certain wGroupIndex FRNet DO module dwDO (0 ~ 0xFFFF)for 7188EF-016 */ Exp8K WORD CALLBACK DigitalOutBit_FR (unsigned char wPort,unsigned char wAddr,unsigned char wCheckSum,WORD wTimeOut, WORD wBitIndex, WORD wDO); /* wPort COM Port used to communicate with 7188EF-016 wAddr Station Address is Always 01 on 7188EF-016 wCheckSum Checksum of 7188EF-016 wTimeOut Timeout for command to transmit to 7188EF-016 wBitIndex The bit index of FRNet DO modules,wBitIndex(0~127)for 7188EF-016 wDO The DO output bit value for certain wChannel FRNet DO module */ Exp8K WORD CALLBACK DigitalIOReadBackAll_FR (unsigned char wPort,unsigned char wAddr,unsigned char wCheckSum,WORD wTimeOut, DWORD dwDO[],DWORD dwDI[]); /* wPort COM Port used to communicate with 7188EF-016 wAddr Station Address is Always 01 on 7188EF-016 wCheckSum Checksum of 7188EF-016 wTimeOut Timeout for command to transmit to 7188EF-016 dwDO[] The DO readback array value for all FRNet DO groups, the array size of dwDO[] is 8 WORD for 7188EF-016 dwDI[] The DI readback array value for all FRNet DI groups, the array size of dwDI[] is 8 WORD for 7188EF-016 */ Exp8K WORD CALLBACK DigitalIOReadBackGroup_FR (unsigned char wPort,unsigned char wAddr,unsigned char wCheckSum,WORD wTimeOut, WORD wType,WORD wGroupIndex,DWORD *dwIOValue); /* wPort COM Port used to communicate with 7188EF-016 wAddr Station Address is Always 01 on 7188EF-016 wCheckSum Checksum of 7188EF-016 wTimeOut Timeout for command to transmit to 7188EF-016 wType wType=0 for DI group; wType=1 for DO group wGroupIndex The Group Index of DI or DO group,wGroupIndex(0~7)for 7188EF-016 *dwIOValue The dwIOValue is the readback value from certain wGroupIndex of FRNet DO or DI group */ Exp8K WORD CALLBACK DigitalIOReadBackBit_FR (unsigned char wPort,unsigned char wAddr,unsigned char wCheckSum,WORD wTimeOut, WORD wType,WORD wBitIndex,WORD *wIOBit); /* wPort COM Port used to communicate with 7188EF-016 wAddr Station Address is Always 01 on 7188EF-016 wCheckSum Checksum of 7188EF-016 wTimeOut Timeout for command to transmit to 7188EF-016 wType wType=0 for DI group; wType=1 for DO group wBitIndex The total Group count of FRNet DI modules *wIOBit The DO readback bit value from FRNet DO groups */ Exp8K WORD CALLBACK DigitalOnLineStatus_FR (unsigned char wPort,unsigned char wAddr,unsigned char wCheckSum,WORD wTimeOut, WORD wType,WORD wIOStatus[]); /* wPort COM Port used to communicate with 7188EF-016 wAddr Station Address is Always 01 on 7188EF-016 wCheckSum Checksum of 7188EF-016 wTimeOut Timeout for command to transmit to 7188EF-016 wType wType=0 for DI group; wType=1 for DO group wIOStatus[] The all IO group's status of FRNet,wIOStatus[]=1 on line; wIOStatus[]=0 off line,the array size of wIOStatus is 8 Note: at present it can not get the DO module's status from FRNet */ void MakeCRC16Table(void); Exp8K unsigned GetCRC16(unsigned char *data,int length); Exp8K int CALLBACK ShiftLeft(int data, int length); Exp8K int CALLBACK ShiftRight(int data, int length); Exp8K unsigned CALLBACK IntToUnsig(int data); //#ifdef _WIN32_WCE // #endif //__I8000_H__ //#endif