#ifdef _WIN32_WCE //Provided for WinCon #define Exp7K I7000CE_API // #define CALLBACK "" #else//Provided for PC (Microsoft OS) #ifndef Exp7K #ifdef __cplusplus #define Exp7K extern "C" __declspec(dllimport) #else #define Exp7K __declspec(dllimport) #endif #endif #endif #ifdef _WIN32_WCE // #ifndef __I7000_H__ // #define __I7000_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 Exp7K short CALLBACK Short_Sub_2(short nA, short nB); //for bcb demo01 Exp7K float CALLBACK Float_Sub_2(float fA, float fB); //for bcb demo01 Exp7K DWORD CALLBACK FloatToHex(float fv); Exp7K WORD CALLBACK Get_Dll_Version(void); // 0x0502: Modify AnalogIn8, AnalogInAll_8K, AnalogInAll_87K, Exp7K WORD CALLBACK Test(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); Exp7K WORD CALLBACK HostIsOK(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); /*--- Read the module reset status, $AA5 --------*/ Exp7K WORD CALLBACK ReadModuleResetStatus(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ----------------------------------- // wBuf[0]; // RS-232 port number: 1/2/3/4..../255 // wBuf[1]; // module address: 0x00 to 0xFF // wBuf[2]; // don't care // wBuf[3]; // checksum: 0=disable, 1=enable // wBuf[4]; // TimeOut constant: normal=100 // wBuf[6]; // flag: 0=no save, 1=save send/receive string //---------------------- output ---------------------------------- // wBuf[5]; // wBuf[5]=0: module has not been reset // wBuf[5]=1: module has been reset /*--- To setup host watchdog, ~AA3ETT --------*/ Exp7K WORD CALLBACK ToSetupHostWatchdog(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ----------------------------------- // wBuf[0]; // RS-232 port number: 1/2/3/4..../255 // wBuf[1]; // module address: 0x00 to 0xFF // wBuf[2]; // don't care // wBuf[3]; // checksum: 0=disable, 1=enable // wBuf[4]; // TimeOut constant: normal=100 // wBuf[5]; // 0: Disable host watchdog // 1: Enable host watchdog // wBuf[6]; // flag: 0=no save, 1=save send/receive string // wBuf[7]; // a time interval for watchdog, unit is 0.1 second, // e.x when wBuf[7]=45, the time interval is 4.5 second /*--- To read host watchdog setup value, ~AA2 --------*/ Exp7K WORD CALLBACK ToReadHostWatchdog(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ----------------------------------- // wBuf[0]; // RS-232 port number: 1/2/3/4..../255 // wBuf[1]; // module address: 0x00 to 0xFF // wBuf[2]; // don't care // wBuf[3]; // checksum: 0=disable, 1=enable // wBuf[4]; // TimeOut constant: normal=100 // wBuf[6]; // flag: 0=no save, 1=save send/receive string //---------------------- output ----------------------------------- // wBuf[5]; // 0: Disable host watchdog // 1: Enable host watchdog // wBuf[7]; // a time interval for watchdog, unit is 0.1 second, // e.x when wBuf[7]=45, the time interval is 4.5 second /*--- Read the module status about the host watchdog, ~AA0 --------*/ Exp7K WORD CALLBACK ReadModuleHostWatchdogStatus(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ----------------------------------- // wBuf[0]; // RS-232 port number: 1/2/3/4..../255 // wBuf[1]; // module address: 0x00 to 0xFF // wBuf[2]; // don't care (for all module) // wBuf[3]; // checksum: 0=disable, 1=enable // wBuf[4]; // TimeOut constant: normal=100 // wBuf[6]; // flag: 0=no save, 1=save send/receive string //---------------------- output ---------------------------------- // wBuf[5]; // wBuf[5]=0: module is OK // wBuf[5]=4: host watchdog failure /*--- Reset the module status about the host watchdog, ~AA1 --------*/ Exp7K WORD CALLBACK ResetModuleHostWatchdogStatus(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ----------------------------------- // wBuf[0]; // RS-232 port number: 1/2/3/4..../255 // wBuf[1]; // module address: 0x00 to 0xFF // wBuf[2]; // don't care // wBuf[3]; // checksum: 0=disable, 1=enable // wBuf[4]; // TimeOut constant: normal=100 // wBuf[5]; // don't care // wBuf[6]; // flag: 0=no save, 1=save send/receive string /*--Set SafeValue for all DO module(42/43/44/50/60/65/66/67) ---*/ Exp7K WORD CALLBACK SetSafeValueForDo(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input --------------------------- // wBuf[0]; // RS-232 port number: 1/2/3/4..../255 // wBuf[1]; // module address: 0x00 to 0xFF // wBuf[2]; // module ID: 0x7050/60/65/66/67/42/43/44 // wBuf[3]; // checksum: 0=disable, 1=enable // wBuf[4]; // TimeOut constant: normal=100 // wBuf[5]; // safe value // wBuf[6]; // flag: 0=no save, 1=save send/receive string /*--Set PowerOn value for all DO module(42/43/44/50/60/65/66/67) ---*/ Exp7K WORD CALLBACK SetPowerOnValueForDo(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); // wBuf[0]; // RS-232 port number: 1/2/3/4..../255 // wBuf[1]; // module address: 0x00 to 0xFF // wBuf[2]; // module ID: 0x7050/60/65/66/67/42/43/44 // wBuf[3]; // checksum: 0=disable, 1=enable // wBuf[4]; // TimeOut constant: normal=100 // wBuf[5]; // PowerOn value // wBuf[6]; // flag: 0=no save, 1=save send/receive string /*--Set SafeValue for all Ao module(7021/22/24), ~AA5 or ~AA5N ---*/ Exp7K WORD CALLBACK SetSafeValueForAo(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input --------------------------- // wBuf[0]; // RS-232 port number: 1/2/3/4..../255 // wBuf[1]; // module address: 0x00 to 0xFF // wBuf[2]; // module ID: 0x7021/0x7022/0x7024 // wBuf[3]; // checksum: 0=disable, 1=enable // wBuf[4]; // TimeOut constant: normal=100 // wBuf[5]; // Not used if module ID is 7021 // Channel No.(0 to 1) if module ID is 7022 // Channel No.(0 to 3) if module ID is 7024 // wBuf[6]; // flag: 0=no save, 1=save send/receive string // fBuf[0]; // safe value /*--Read SafeValue for all Ao module(7021/22/24), ~AA4 or ~AA4N ---*/ Exp7K WORD CALLBACK ReadSafeValueForAo(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input --------------------------- // wBuf[0]; // RS-232 port number: 1/2/3/4..../255 // wBuf[1]; // module address: 0x00 to 0xFF // wBuf[2]; // module ID: 0x7021/0x7022/0x7024 // wBuf[3]; // checksum: 0=disable, 1=enable // wBuf[4]; // TimeOut constant: normal=100 // wBuf[5]; // Not used if module ID is 7021 // Channel No.(0 to 1) if module ID is 7022 // Channel No.(0 to 3) if module ID is 7024 // wBuf[6]; // flag: 0=no save, 1=save send/receive string //---------------------- output --------------------------- // fBuf[0]; // safe value /*--Set PowerOn value for all Ao module(0x7021/22/24), $AA4 or $AA4N ---*/ Exp7K WORD CALLBACK SetPowerOnValueForAo(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); // wBuf[0]; // RS-232 port number: 1/2/3/4..../255 // wBuf[1]; // module address: 0x00 to 0xFF // wBuf[2]; // module ID: 0x7021/0x7022/0x7024 // wBuf[3]; // checksum: 0=disable, 1=enable // wBuf[4]; // TimeOut constant: normal=100 // wBuf[5]; // Not used if module ID is 7021 // Channel No.(0 to 1) if module ID is 7022 // Channel No.(0 to 3) if module ID is 7024 // wBuf[6]; // flag: 0=no save, 1=save send/receive string // fBuf[0]; // PowerOn value /*--Read PowerOn Value for all Ao module(7024), $AA7N ---*/ /*** Notice: This function is valid for 7024 only ***/ Exp7K WORD CALLBACK ReadPowerOnValueForAo(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input --------------------------- // wBuf[0]; // RS-232 port number: 1/2/3/4..../255 // wBuf[1]; // module address: 0x00 to 0xFF // wBuf[2]; // module ID: 0x7024 // wBuf[3]; // checksum: 0=disable, 1=enable // wBuf[4]; // TimeOut constant: normal=100 // wBuf[5]; // Channel No.(0 to 3) if module ID is 7024 // wBuf[6]; // flag: 0=no save, 1=save send/receive string //---------------------- output --------------------------- // fBuf[0]; // safe value /*-------- 7011/7012/7014 Set PowerOn/Safe value --------*/ Exp7K WORD CALLBACK SetPowerOnSafeValue(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); // wBuf[0]; // RS-232 port number: 1/2/3/4..../255 // wBuf[1]; // module address: 0x00 to 0xFF // wBuf[2]; // module ID: 0x7011/12/14 // wBuf[3]; // checksum: 0=disable, 1=enable // wBuf[4]; // TimeOut constant: normal=100 // wBuf[5]; // PowerOn value // wBuf[6]; // flag: 0=no save, 1=save send/receive string // wBuf[7]; // safe value /*--Read PowerOn value for all DO module(42/43/44/50/60/65/66/67) ---*/ Exp7K WORD CALLBACK ReadPowerOnValueForDo(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input --------------------------- // wBuf[0]; // RS-232 port number: 1/2/3/4..../255 // wBuf[1]; // module address: 0x00 to 0xFF // wBuf[2]; // module ID: 0x7050/60/65/66/67/42/43/44 // wBuf[3]; // checksum: 0=disable, 1=enable // wBuf[4]; // TimeOut constant: normal=100 // wBuf[6]; // flag: 0=no save, 1=save send/receive string //---------------------- output ----------------------- // wBuf[5]: PowerOn Value Value /*--Read SafeValue for all DO module(42/43/44/50/60/65/66/67) ---*/ Exp7K WORD CALLBACK ReadSafeValueForDo(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input --------------------------- // wBuf[0]; // RS-232 port number: 1/2/3/4..../255 // wBuf[1]; // module address: 0x00 to 0xFF // wBuf[2]; // module ID: 0x7050/60/65/66/67/42/43/44 // wBuf[3]; // checksum: 0=disable, 1=enable // wBuf[4]; // TimeOut constant: normal=100 // wBuf[6]; // flag: 0=no save, 1=save send/receive string //---------------------- output ----------------------- // wBuf[5]: Safe Value Value /*-------- Read Config Status ---------*/ Exp7K WORD CALLBACK ReadConfigStatus(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- // wBuf[0]; // RS-232 port number: 1/2/3/4..../255 // wBuf[1]; // module address: 0x00 to 0xFF // wBuf[2]; // module ID (for all modules) // wBuf[3]; // checksum: 0=disable, 1=enable // wBuf[4]; // TimeOut constant: normal=100 // wBuf[5]; // Don't Care // wBuf[6]; // flag: 0=no save, 1=save send/receive string //---------------------- Output ------------------------------------- // wBuf[7]: module address // wBuf[8]: module Range Code // wBuf[9]: module baudrate // wBuf[10]: module data format Exp7K WORD CALLBACK AnalogIn(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- // wBuf[0]; // RS-232 port number: 1/2/3/4..../255 // wBuf[1]; // module address: 0x00 to 0xFF // wBuf[2]; // module ID: 0x7011/12/13/14/16/17/18/19/33 // wBuf[3]; // checksum: 0=disable, 1=enable // wBuf[4]; // TimeOut constant: normal=100 // wBuf[5]; // channel number for multi-channel // wBuf[6]; // flag: 0=no save, 1=save send/receive string //---------------------- output ------------------------------------ // fBuf[0]=analog input value Exp7K WORD CALLBACK AnalogInFsr(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- // wBuf[0]; // RS-232 port number: 1/2/3/4..../255 // wBuf[1]; // module address: 0x00 to 0xFF // wBuf[2]; // module ID: 0x7011/12/13/14/17/18/19/33 // wBuf[3]; // checksum: 0=disable, 1=enable // wBuf[4]; // TimeOut constant: normal=100 // wBuf[5]; // channel number for multi-channel // wBuf[6]; // flag: 0=no save, 1=save send/receive string //---------------------- output ------------------------------------ // fBuf[0]=analog input value in %FSR format Exp7K WORD CALLBACK AnalogInHex(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- // wBuf[0]; // RS-232 port number: 1/2/3/4..../255 // wBuf[1]; // module address: 0x00 to 0xFF // wBuf[2]; // module ID: 0x7011/12/13/14/17/18/19/33 // wBuf[3]; // checksum: 0=disable, 1=enable // wBuf[4]; // TimeOut constant: normal=100 // wBuf[5]; // channel number for multi-channel // wBuf[6]; // flag: 0=no save, 1=save send/receive string //---------------------- output ------------------------------------ // wBuf[7] : analog input value Exp7K WORD CALLBACK AnalogIn8(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- // wBuf[0]; // RS-232 port number: 1/2/3/4..../255 // wBuf[1]; // module address: 0x00 to 0xFF // wBuf[2]; // module ID: 0x7017/18/19 // wBuf[3]; // checksum: 0=disable, 1=enable // wBuf[4]; // TimeOut constant: normal=100 // wBuf[6]; // flag: 0=no save, 1=save send/receive string //---------------------- output ------------------------------------ // fBuf[0]=analog input value of channel_0 // fBuf[1]=analog input value of channel_1 // ........................................ // fBuf[7]=analog input value of channel_7 Exp7K WORD CALLBACK AnalogInAll(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- // wBuf[0]; // RS-232 port number: 1/2/3/4..../255 // wBuf[1]; // module address: 0x00 to 0xFF // wBuf[2]; // module ID: 0x7017/18/19/33 // wBuf[3]; // checksum: 0=disable, 1=enable // wBuf[4]; // TimeOut constant: normal=100 // wBuf[6]; // flag: 0=no save, 1=save send/receive string // wBuf[7]; // Data Foramt, 0:Engineer 1:FSR 2:Hex //---------------------- output ------------------------------------ // fBuf[0]=analog input value of channel_0 // fBuf[1]=analog input value of channel_1 // ........................................ // fBuf[7]=analog input value of channel_7 Exp7K WORD CALLBACK In8_7017(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- // wBuf[0]; // RS-232 port number: 1/2/3/4..../255 // wBuf[1]; // module address: 0x00 to 0xFF // wBuf[2]; // module Type: 08/09/0A/0B/0C/0D // wBuf[3]; // checksum: 0=disable, 1=enable // wBuf[4]; // TimeOut constant: normal=100 // wBuf[6]; // flag: 0=no save, 1=save send/receive string //---------------------- output ------------------------------------ // fBuf[0]=analog input value of channel_0 // fBuf[1]=analog input value of channel_1 // ........................................ // fBuf[7]=analog input value of channel_7 Exp7K WORD CALLBACK AnalogOut(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- // wBuf[0]; // RS-232 port number: 1/2/3/4..../255 // wBuf[1]; // module address: 0x00 to 0xFF // wBuf[2]; // module ID: 0x7016/21/22/24 // wBuf[3]; // checksum: 0=disable, 1=enable // wBuf[4]; // TimeOut constant: normal=100 // wBuf[5]; // Not used if module ID is 7016/7021 // Channel No.(0 to 1) if module ID is 7022 // Channel No.(0 to 3) if module ID is 7024 // wBuf[6]; // flag: 0=no save, 1=save send/receive string // fBuf[0]; // analog output value //---------------------- output ------------------------------------ // void Exp7K WORD CALLBACK AnalogOutHex(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- // wBuf[0]; // RS-232 port number: 1/2/3/4..../255 // wBuf[1]; // module address: 0x00 to 0xFF // wBuf[2]; // module ID: 0x7021/21P/22 // wBuf[3]; // checksum: 0=disable, 1=enable // wBuf[4]; // TimeOut constant: normal=100 // wBuf[5]; // Not used if module ID is 7021 // Channel No.(0 to 1) if module ID is 7022 // wBuf[6]; // flag: 0=no save, 1=save send/receive string // wBuf[7]; //analog output value(Hexadeciaml Data format) //---------------------- output ------------------------------------ Exp7K WORD CALLBACK AnalogOutFsr(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- // wBuf[0]; // RS-232 port number: 1/2/3/4..../255 // wBuf[1]; // module address: 0x00 to 0xFF // wBuf[2]; // module ID: 0x7021/21P/22 // wBuf[3]; // checksum: 0=disable, 1=enable // wBuf[4]; // TimeOut constant: normal=100 // wBuf[5]; // Not used if module ID is 7021 // Channel No.(0 to 1) if module ID is 7022 // wBuf[6]; // flag: 0=no save, 1=save send/receive string // fBuf[0]; // analog output value(% of Span data format) //---------------------- output ------------------------------------ Exp7K WORD CALLBACK AnalogOutReadBack(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- // wBuf[0]; // RS-232 port number: 1/2/3/4..../255 // wBuf[1]; // module address: 0x00 to 0xFF // wBuf[2]; // module ID: 0x7021 or 0x7024 // wBuf[3]; // checksum: 0=disable, 1=enable // wBuf[4]; // TimeOut constant: normal=100 // wBuf[5]; // When 7016: Don't care // When 7021/7022/7024 // 0: command read back ($AA6) // 1: when module ID is 0x7021 or 0x7022 // analog output of current path read back ($AA8) // when module ID is 0x7024 // the updating value in a specific Slew rate($AA8) // (see 7024 manual for more detail information) // wBuf[6]; // flag: 0=no save, 1=save send/receive string // wBuf[7]; // Channel No.(0 to 3), if module ID is 7024 // Channel No.(0 to 1), if module ID is 7022 // Not used, else //---------------------- output ------------------------------------ // fBuf[0]; //analog output value read back Exp7K WORD CALLBACK AnalogOutReadBackHex(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- // wBuf[0]; RS-232 port number: 1/2/3/4/..../255 // wBuf[1]; module address: 0x00 to 0xFF // wBuf[2]; module ID: 0x7021/21P/22 // wBuf[3]; checksum: 0=disable, 1=enable // wBuf[4]; TimeOut constant: normal=100 // wwBuf[5]; for 7021/7022 // 0: command read back ($AA6) // 1: analog output of current path read back ($AA8) // wBuf[6]; flag: 0=no save, 1=save send/receive string // wBuf[7]; Channel No.(0 to 1),for 7022 //---------------------- output ------------------------------------ // wBuf[9]; //analog output value read back(Hex) Exp7K WORD CALLBACK AnalogOutReadBackFsr(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- // wBuf[0]; // RS-232 port number: 1/2/3/4/..../255 // wBuf[1]; // module address: 0x00 to 0xFF // wBuf[2]; // module ID: 7021/7022 (7024/7016 have no Fsr mode) // wBuf[3]; // checksum: 0=disable, 1=enable // wBuf[4]; // TimeOut constant: normal=100 // wBuf[5]; // for 7021/7022 // 0: command read back ($AA6) // 1: analog output of current path read back ($AA8) // wBuf[6]; // flag: 0=no save, 1=save send/receive string // wBuf[7]; // Channel No.(0 to 3) //---------------------- output ------------------------------------ // fBuf[0]; // analog output value read back Exp7K WORD CALLBACK DigitalOut(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- // wBuf[0]; // RS-232 port number: 1/2/3/4..../255 // wBuf[1]; // module address: 0x00 to 0xFF // wBuf[2]; // module ID: 0x7050/60/63/65/66/67/42/43/44/11/12/14/80 // wBuf[3]; // checksum: 0=disable, 1=enable // wBuf[4]; // TimeOut constant: normal=100 // wBuf[5]; // 16-bit digital data to output // wBuf[6]; // flag: 0=no save, 1=save send/receive string //---------------------- output ------------------------------------ // void Exp7K WORD CALLBACK DigitalBitOut(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- // wBuf[0]; // RS-232 port number: 1/2/3/4..../255 // wBuf[1]; // module address: 0x00 to 0xFF // wBuf[2]; // module ID: 0x7050/60/63/65/66/67/42/43/44 // wBuf[3]; // checksum: 0=disable, 1=enable // wBuf[4]; // TimeOut constant: normal=100 // wBuf[5]; // don't care // wBuf[6]; // flag: 0=no save, 1=save send/receive string // wBuf[7]; // which channel to output // wBuf[8]; // data to output (0 or 1) //---------------------- output ------------------------------------ // void Exp7K WORD CALLBACK DigitalOut_7016(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- // wBuf[0]; // RS-232 port number: 1/2/3/4..../255 // wBuf[1]; // module address: 0x00 to 0xFF // wBuf[2]; // module ID: 0x7016 // wBuf[3]; // checksum: 0=disable, 1=enable // wBuf[4]; // TimeOut constant: normal=100 // wBuf[5]; // 2-bit digital data to output // wBuf[6]; // flag: 0=no save, 1=save send/receive string // wBuf[7]; // 0: Bit0, Bit1 output // 1: Bit2, Bit3 output //---------------------- output ------------------------------------ // void Exp7K WORD CALLBACK DigitalOutReadBack(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- // wBuf[0]; // RS-232 port number: 1/2/3/4..../255 // wBuf[1]; // module address: 0x00 to 0xFF // wBuf[2]; // module ID: 0x7050/60/66/67/42/43/44 // wBuf[3]; // checksum: 0=disable, 1=enable // wBuf[4]; // TimeOut constant: normal=100 // wBuf[6]; // flag: 0=no save, 1=save send/receive string //---------------------- output ------------------------------------ // wBuf[5]=digital output data read back Exp7K WORD CALLBACK DigitalIn(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- // wBuf[0]; // RS-232 port number: 1/2/3/4..../255 // wBuf[1]; // module address: 0x00 to 0xFF // wBuf[2]; // module ID: 0x7050/52/53/58/60/63/65/41/44/11/12/14/16 // wBuf[3]; // checksum: 0=disable, 1=enable // wBuf[4]; // TimeOut constant: normal=100 // wBuf[6]; // flag: 0=no save, 1=save send/receive string //---------------------- output ------------------------------------ // wBuf[5]=digital input data Exp7K WORD CALLBACK DigitalInCounterRead(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- // wBuf[0]; // RS-232 port number: 1/2/3/4..../255 // wBuf[1]; // module address: 0x00 to 0xFF // wBuf[2]; // module ID: 0x7050/52/58/53/60/63/65/41/44 // wBuf[3]; // checksum: 0=disable, 1=enable // wBuf[4]; // TimeOut constant: normal=100 // wBuf[5]; // Channel Number // wBuf[6]; // flag: 0=no save, 1=save send/receive string //---------------------- output ------------------------------------ // wBuf[7]=Counter Value of Channel N's Digital Input Exp7K WORD CALLBACK ClearDigitalInCounter(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- // wBuf[0]; // RS-232 port number: 1/2/3/4..../255 // wBuf[1]; // module address: 0x00 to 0xFF // wBuf[2]; // module ID: 0x7050/52/53/58/60/63/65/41/44 // wBuf[3]; // checksum: 0=disable, 1=enable // wBuf[4]; // TimeOut constant: normal=100 // wBuf[5]; // Channel Number // wBuf[6]; // flag: 0=no save, 1=save send/receive string Exp7K WORD CALLBACK DigitalInLatch(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- // wBuf[0]; // RS-232 port number: 1/2/3/4..../255 // wBuf[1]; // module address: 0x00 to 0xFF // wBuf[2]; // module ID: 0x7050/52/53/58/60/63/65/41/44 // wBuf[3]; // checksum: 0=disable, 1=enable // wBuf[4]; // TimeOut constant: normal=100 // wBuf[5]; // 0: Latch Low, 1: Latch High // wBuf[6]; // flag: 0=no save, 1=save send/receive string //---------------------- output ------------------------------------ // wBuf[7]; // latch value Exp7K WORD CALLBACK ClearDigitalInLatch(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- // wBuf[0]; // RS-232 port number: 1/2/3/4..../255 // wBuf[1]; // module address: 0x00 to 0xFF // wBuf[2]; // module ID: 0x7050/52/53/58/60/63/65/41/44 // wBuf[3]; // checksum: 0=disable, 1=enable // wBuf[4]; // TimeOut constant: normal=100 // wBuf[5]; // Don't care // wBuf[6]; // flag: 0=no save, 1=save send/receive string /*-------- 7011 Thermocouple Open Detection ---------*/ Exp7K WORD CALLBACK ThermocoupleOpen_7011(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- //wBuf[0]; // RS-232 port number: 1/2/3/4..../255 //wBuf[1]; // module address: 0x00 to 0xFF //wBuf[2]; // module ID: 0x7011 //wBuf[3]; // checksum: 0=disable, 1=enable //wBuf[4]; // TimeOut constant: normal=100 //wBuf[6]; // flag: 0=no save, 1=save send/receive string //---------------------- output ------------------------------------ //wBuf[5] 0: Close 1: Open /*----- 7011/7012/7014 Enable Alarm ---------*/ Exp7K WORD CALLBACK EnableAlarm(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- //wBuf[0]; // RS-232 port number: 1/2/3/4..../255 //wBuf[1]; // module address: 0x00 to 0xFF //wBuf[2]; // module ID: 0x7011/7012/7014 //wBuf[3]; // checksum: 0=disable, 1=enable //wBuf[4]; // TimeOut constant: normal=100 , 0.1 second //wBuf[5]; // 0: Momentary, 1: Latch //wBuf[6]; // flag: 0=no save, 1=save send/receive string /*----- 7011/7012/7014 Disable Alarm ---------*/ Exp7K WORD CALLBACK DisableAlarm(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- //wBuf[0]; // RS-232 port number: 1/2/3/4..../255 //wBuf[1]; // module address: 0x00 to 0xFF //wBuf[2]; // module ID: 0x7011/0x7012/0x7014 //wBuf[3]; // checksum: 0=disable, 1=enable //wBuf[4]; // TimeOut constant: normal=100 , 0.1 second //wBuf[5]; don't care //wBuf[6]; // flag: 0=no save, 1=save send/receive string /*-------- 7011/7012/7014/7016 Clear Latch Alarm ---------*/ Exp7K WORD CALLBACK ClearLatchAlarm(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- //wBuf[0]; // RS-232 port number: 1/2/3/4..../255 //wBuf[1]; // module address: 0x00 to 0xFF //wBuf[2]; // module ID: 0x7011/7012/7014/7016 //wBuf[3]; // checksum: 0=disable, 1=enable //wBuf[4]; // TimeOut constant: normal=100 , 0.1 second //wBuf[5]; don't care //wBuf[6]; // flag: 0=no save, 1=save send/receive string /*--- 7011/7012/7014/7016 Set Hi/Lo Alarm Limit Value ------*/ /*******************************************************/ /* please get the module's range code by calling */ /* ReadConfigStatus(.......) function before */ /* calling SetAlarmLimitValue(......). */ /*******************************************************/ Exp7K WORD CALLBACK SetAlarmLimitValue(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- //wBuf[0]; // RS-232 port number: 1/2/3/4..../255 //wBuf[1]; // module address: 0x00 to 0xFF //wBuf[2]; // module ID: 0x7011/7012/7014/7016 //wBuf[3]; // checksum: 0=disable, 1=enable //wBuf[4]; // TimeOut constant: normal=100 , 0.1 second //wBuf[5]; // 0: Lo Alarm 1: Hi Alarm //wBuf[6]; // flag: 0=no save, 1=save send/receive string //wBuf[7]; // range code of this module //fBuf[0]: // Alarm Limit Value /*-------- 7011/7012/7014/7016 Read Hi/Lo Alarm Limit Value ---------*/ Exp7K WORD CALLBACK ReadAlarmLimitValue(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ---------------------------------- //wBuf[0]; // RS-232 port number: 1/2/3/4..../255 //wBuf[1]; // module address: 0x00 to 0xFF //wBuf[2]; // module ID: 7011/7012/7014/7016 //wBuf[3]; // checksum: 0=disable, 1=enable //wBuf[4]; // TimeOut constant: normal=100 , 0.1 second //wBuf[5]; // 0: Lo Alarm 1: Hi Alarm //wBuf[6]; // flag: 0=no save, 1=save send/receive string //---------------------- output --------------------------------- //fBuf[0]: // Alarm Limit Value /*---- Read Alarm State and Digital Output State ---------*/ Exp7K WORD CALLBACK ReadOutputAlarmState(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- //wBuf[0]; // RS-232 port number: 1/2/3/4..../255 //wBuf[1]; // module address: 0x00 to 0xFF //wBuf[2]; // module ID :0x7011/12/14/16 //wBuf[3]; // checksum: 0=disable, 1=enable //wBuf[4]; // TimeOut constant: normal=100 //wBuf[5]; // Don't Care //wBuf[6]; // flag: 0=no save, 1=save send/receive string //---------------------- output ------------------------------------ // Alarm State: // wBuf(7):0 Disable // wBuf(7):1 Momentary // wBuf(7):2 Latch // Digital Output // wBuf(8) -> a decimal number to represent the digital output status /*-------- 7011/7012/7014 Read Event Counter --------*/ Exp7K WORD CALLBACK ReadEventCounter(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- //wBuf[0]; // RS-232 port number: 1/2/3/4..../255 //wBuf[1]; // module address: 0x00 to 0xFF //wBuf[2]; // module ID:0x7011/12/14 //wBuf[3]; // checksum: 0=disable, 1=enable //wBuf[4]; // TimeOut constant: normal=100 //wBuf[5]; // Don't Care //wBuf[6]; // flag: 0=no save, 1=save send/receive string //---------------------- output ------------------------------------ //wBuf[7]; // The Event Counter Value /*-------- 7011/7012/7014/7016 Clear Event Counter --------*/ Exp7K WORD CALLBACK ClearEventCounter(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- //wBuf[0]; // RS-232 port number: 1/2/3/4..../255 //wBuf[1]; // module address: 0x00 to 0xFF //wBuf[2]; // module ID //wBuf[3]; // checksum: 0=disable, 1=enable //wBuf[4]; // TimeOut constant: normal=100 //wBuf[5]; // Don't Care //wBuf[6]; // flag: 0=no save, 1=save send/receive string /*-------- Set LED channel Display for 7033 --------*/ Exp7K WORD CALLBACK SetLedDisplay_7033(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- //wBuf[0]; // RS-232 port number: 1/2/3/4..../255 //wBuf[1]; // module address: 0x00 to 0xFF //wBuf[2]; // module ID:0x7033 //wBuf[3]; // checksum: 0=disable, 1=enable //wBuf[4]; // TimeOut constant: normal=100 //wBuf[5]; // set display channel for 7033, 0<=channel<=2 //wBuf[6]; // flag: 0=no save, 1=save send/receive string /*-------- Get LED channel Display for 7033 --------*/ Exp7K WORD CALLBACK GetLedDisplay_7033(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- //wBuf[0]; // RS-232 port number: 1/2/3/4..../255 //wBuf[1]; // module address: 0x00 to 0xFF //wBuf[2]; // module ID:0x7033 //wBuf[3]; // checksum: 0=disable, 1=enable //wBuf[4]; // TimeOut constant: normal=100 //wBuf[6]; // flag: 0=no save, 1=save send/receive string //----------------------- output ----------------------------------- //wBuf[5]; // which channel display /**********************************************************/ /*-------- Set LED channel Display for 7016, 7033 --------*/ Exp7K WORD CALLBACK SetLedDisplay(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- //wBuf[0]; // RS-232 port number: 1/2/3/4..../255 //wBuf[1]; // module address: 0x00 to 0xFF //wBuf[2]; // module ID //wBuf[3]; // checksum: 0=disable, 1=enable //wBuf[4]; // TimeOut constant: normal=100 //wBuf[5]; // set display channel for 7013, 7033,7016 //wBuf[6]; // flag: 0=no save, 1=save send/receive string /*-------- Get LED channel Display for 7016, 7033 --------*/ Exp7K WORD CALLBACK GetLedDisplay(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- //wBuf[0]; // RS-232 port number: 1/2/3/4..../255 //wBuf[1]; // module address: 0x00 to 0xFF //wBuf[2]; // module ID //wBuf[3]; // checksum: 0=disable, 1=enable //wBuf[4]; // TimeOut constant: normal=100 //wBuf[6]; // flag: 0=no save, 1=save send/receive string //----------------------- output ----------------------------------- //wBuf[5]; // which channel display /*******************************************************/ /* please get the module's range code by calling */ /* ReadConfigStatus(.......) function before */ /* calling SetupLinearMapping(......). */ /*-------- setup linear mapping for 7014/7016 ---------*/ /* making a linear mapping from [a,b] to [c,d] */ /* where: fBuf[0]=a, fBuf[1]=b */ /* fBuf[2]=c, fBuf[3]=d */ /*******************************************************/ Exp7K WORD CALLBACK SetupLinearMapping(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- //wBuf[0]; // RS-232 port number: 1/2/3/4..../255 //wBuf[1]; // module address: 0x00 to 0xFF //wBuf[2]; // module ID: 0x7014, 0x7016 //wBuf[3]; // checksum: 0=disable, 1=enable //wBuf[4]; // TimeOut constant: normal=100 , 0.1 second //wBuf[5]; // do't care //wBuf[6]; // flag: 0=no save, 1=save send/receive string //wBuf[7]; // range code of this module //fBuf[0]: // source low value, a //fBuf[1]; // source high value, b //fBuf[2]; // target low value, c //fBuf[3]; // target high value, d /*----- Enable linear mapping for 7014/7016 ---------*/ Exp7K WORD CALLBACK EnableLinearMapping(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- //wBuf[0]; // RS-232 port number: 1/2/3/4..../255 //wBuf[1]; // module address: 0x00 to 0xFF //wBuf[2]; // module ID: 0x7014, 0x7016 //wBuf[3]; // checksum: 0=disable, 1=enable //wBuf[4]; // TimeOut constant: normal=100 , 0.1 second //wBuf[5]; don't care //wBuf[6]; // flag: 0=no save, 1=save send/receive string /*----- Disable linear mapping for 7014/7016 ---------*/ Exp7K WORD CALLBACK DisableLinearMapping(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- //wBuf[0]; // RS-232 port number: 1/2/3/4..../255 //wBuf[1]; // module address: 0x00 to 0xFF //wBuf[2]; // module ID: 0x7014, 0x7016 //wBuf[3]; // checksum: 0=disable, 1=enable //wBuf[4]; // TimeOut constant: normal=100 , 0.1 second //wBuf[5]; don't care //wBuf[6]; // flag: 0=no save, 1=save send/receive string /*----- Reading Linear Mapping Status for 7014/7016 -----*/ Exp7K WORD CALLBACK ReadLinearMappingStatus(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- //wBuf[0]; // RS-232 port number: 1/2/3/4..../255 //wBuf[1]; // module address: 0x00 to 0xFF //wBuf[2]; // module ID: 0x7014, 0x7016 //wBuf[3]; // checksum: 0=disable, 1=enable //wBuf[4]; // TimeOut constant: normal=100 , 0.1 second //wBuf[6]; // flag: 0=no save, 1=save send/receive string //--------------------- output ------------------------------------- //wBuf[5]; // 0: linear mapping is disable // 1: linear mapping is enable /*----- Reading Source Value of Linear Mapping for 7014/7016 -----*/ Exp7K WORD CALLBACK ReadSourceValueOfLM(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- //wBuf[0]; // RS-232 port number: 1/2/3/4..../255 //wBuf[1]; // module address: 0x00 to 0xFF //wBuf[2]; // module ID: 0x7014, 0x7016 //wBuf[3]; // checksum: 0=disable, 1=enable //wBuf[4]; // TimeOut constant: normal=100 , 0.1 second //wBuf[6]; // flag: 0=no save, 1=save send/receive string //--------------------- output ------------------------------------- //fBuf[0]; // Low Source Value //fBuf[1]; // High Source Value /*----- Reading Target Value of Linear Mapping for 7014/7016 -----*/ Exp7K WORD CALLBACK ReadTargetValueOfLM(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- //wBuf[0]; // RS-232 port number: 1/2/3/4..../255 //wBuf[1]; // module address: 0x00 to 0xFF //wBuf[2]; // module ID: 0x7014, 0x7016 //wBuf[3]; // checksum: 0=disable, 1=enable //wBuf[4]; // TimeOut constant: normal=100 , 0.1 second //wBuf[6]; // flag: 0=no save, 1=save send/receive string //--------------------- output ------------------------------------- //fBuf[0]; // Low Target Value //fBuf[1]; // High Target Value /**************************************************************************/ Exp7K WORD CALLBACK CounterIn_7080(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- // wBuf[0]; // RS-232 port number: 1/2/3/4..../255 // wBuf[1]; // module address: 0x00 to 0xFF // wBuf[2]; // module ID: 0x7080 // wBuf[3]; // checksum: 0=disable, 1=enable // wBuf[4]; // TimeOut constant: normal=100 // wBuf[5]; // 0: Counter 0, 1: Counter 1 // wBuf[6]; // flag: 0=no save, 1=save send/receive string //---------------------- output ------------------------------------ // wBuf[7] Hi-Word of counter value // wBuf[8] Lo-Word of counter value Exp7K WORD CALLBACK ReadCounterMaxValue_7080(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- // wBuf[0]; // RS-232 port number: 1/2/3/4..../255 // wBuf[1]; // module address: 0x00 to 0xFF // wBuf[2]; // module ID: 0x7080 // wBuf[3]; // checksum: 0=disable, 1=enable // wBuf[4]; // TimeOut constant: normal=100 // wBuf[5]; // 0: Counter 0, 1: Counter 1 // wBuf[6]; // flag: 0=no save, 1=save send/receive string //---------------------- output ------------------------------------ // wBuf[7] Hi-Word of counter value // wBuf[8] Lo-Word of counter value #ifdef _WIN32_WCE Exp7K WORD CALLBACK SetCounterMaxValue_7080(WORD wBuf[], float fBuf[], char szSend[], char szReceive[], unsigned long MaxValue); #else Exp7K WORD CALLBACK SetCounterMaxValue_7080(WORD wBuf[], float fBuf[], char szSend[], char szReceive[], double MaxValue); #endif //---------------------- input ------------------------------------- // wBuf[0]; // RS-232 port number: 1/2/3/4..../255 // wBuf[1]; // module address: 0x00 to 0xFF // wBuf[2]; // module ID: 0x7080 // wBuf[3]; // checksum: 0=disable, 1=enable // wBuf[4]; // TimeOut constant: normal=100 // wBuf[5]; // Don't Care // wBuf[6]; // flag: 0=no save, 1=save send/receive string // MaxValue Setting the Counter's Max Value Exp7K WORD CALLBACK ReadAlarmLimitValue_7080(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- // wBuf[0]; // RS-232 port number: 1/2/3/4..../255 // wBuf[1]; // module address: 0x00 to 0xFF // wBuf[2]; // module ID: 0x7080 // wBuf[3]; // checksum: 0=disable, 1=enable // wBuf[4]; // TimeOut constant: normal=100 // wBuf[5]; // 0: Counter 0, 1: Counter 1 // wBuf[6]; // flag: 0=no save, 1=save send/receive string //---------------------- output ------------------------------------ // wBuf[7] Hi-Word of counter value // wBuf[8] Lo-Word of counter value #ifdef _WIN32_WCE Exp7K WORD CALLBACK SetAlarmLimitValue_7080(WORD wBuf[], float fBuf[], char szSend[], char szReceive[], unsigned long AlarmValue); #else Exp7K WORD CALLBACK SetAlarmLimitValue_7080(WORD wBuf[], float fBuf[], char szSend[], char szReceive[], double AlarmValue); #endif //---------------------- input ------------------------------------- // wBuf[0]; // RS-232 port number: 1/2/3/4..../255 // wBuf[1]; // module address: 0x00 to 0xFF // wBuf[2]; // module ID: 0x7080 // wBuf[3]; // checksum: 0=disable, 1=enable // wBuf[4]; // TimeOut constant: normal=100 // wBuf[5]; // when in 7080 alarm mode(mode 0) // 0: To set Counter 0 alarm value // 1: To set Counter 1 alarm value // // when in 7080D alarm mode(mode 0) // 0: To set Counter 0 high alarm value // 1: To set Counter 0 high-high alarm value // wBuf[6]; // flag: 0=no save, 1=save send/receive string Exp7K WORD CALLBACK EnableCounterAlarm_7080(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- // wBuf[0]; // RS-232 port number: 1/2/3/4..../255 // wBuf[1]; // module address: 0x00 to 0xFF // wBuf[2]; // module ID: 0x7080 // wBuf[3]; // checksum: 0=disable, 1=enable // wBuf[4]; // TimeOut constant: normal=100 // wBuf[5]; // 0: counter 0 enable, 1: counter 1 enable // wBuf[6]; // flag: 0=no save, 1=save send/receive string Exp7K WORD CALLBACK DisableCounterAlarm_7080(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- // wBuf[0]; // RS-232 port number: 1/2/3/4..../255 // wBuf[1]; // module address: 0x00 to 0xFF // wBuf[2]; // module ID: 0x7080 // wBuf[3]; // checksum: 0=disable, 1=enable // wBuf[4]; // TimeOut constant: normal=100 // wBuf[5]; // Don't care // wBuf[6]; // flag: 0=no save, 1=save send/receive string Exp7K WORD CALLBACK EnableCounterAlarm_7080D(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- // wBuf[0]; // RS-232 port number: 1/2/3/4..../255 // wBuf[1]; // module address: 0x00 to 0xFF // wBuf[2]; // module ID: 0x7080 // wBuf[3]; // checksum: 0=disable, 1=enable // wBuf[4]; // TimeOut constant: normal=100 // wBuf[5]; // 0: momentary, 1: latch // wBuf[6]; // flag: 0=no save, 1=save send/receive string Exp7K WORD CALLBACK DisableCounterAlarm_7080D(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- // wBuf[0]; // RS-232 port number: 1/2/3/4..../255 // wBuf[1]; // module address: 0x00 to 0xFF // wBuf[2]; // module ID: 0x7080 // wBuf[3]; // checksum: 0=disable, 1=enable // wBuf[4]; // TimeOut constant: normal=100 // wBuf[5]; // Don't care // wBuf[6]; // flag: 0=no save, 1=save send/receive string Exp7K WORD CALLBACK ReadCounterStatus_7080(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- // wBuf[0]; // RS-232 port number: 1/2/3/4..../255 // wBuf[1]; // module address: 0x00 to 0xFF // wBuf[2]; // module ID: 0x7080 // wBuf[3]; // checksum: 0=disable, 1=enable // wBuf[4]; // TimeOut constant: normal=100 // wBuf[5]; // 0: Counter 0, 1: Counter 1 // wBuf[6]; // flag: 0=no save, 1=save send/receive string //---------------------- output ------------------------------------ // wBuf[7] 0: Counting 1: Not Counting Exp7K WORD CALLBACK ClearCounter_7080(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- // wBuf[0]; // RS-232 port number: 1/2/3/4..../255 // wBuf[1]; // module address: 0x00 to 0xFF // wBuf[2]; // module ID: 0x7080 // wBuf[3]; // checksum: 0=disable, 1=enable // wBuf[4]; // TimeOut constant: normal=100 // wBuf[5]; // 0: Counter 0, 1: Counter 1 // wBuf[6]; // flag: 0=no save, 1=save send/receive string Exp7K WORD CALLBACK ReadOutputAlarmState_7080(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- // wBuf[0]; // RS-232 port number: 1/2/3/4..../255 // wBuf[1]; // module address: 0x00 to 0xFF // wBuf[2]; // module ID: 0x7080 // wBuf[3]; // checksum: 0=disable, 1=enable // wBuf[4]; // TimeOut constant: normal=100 // wBuf[5]; // Don't Care // wBuf[6]; // flag: 0=no save, 1=save send/receive string //---------------------- output ------------------------------------ // wBuf(7):0 for 7080 -> Counter0:Disable Counter1:Disable // wBuf(7):1 Counter0:Disable Counter1:Enable // wBuf(7):2 Counter0:Enable Counter1:Disable // wBuf(7):3 Counter0:Enable Counter1:Enable // wBuf(7):0 for 7080D -> Counter0:Disable // wBuf(7):1 Counter0:Momentary // wBuf(7):2 Counter0:Latch // wBuf(8):0 Bit:1 Disable Bit 0: Disable // wBuf(8):1 Bit:1 Disable Bit 0: Enable // wBuf(8):2 Bit:1 Enable Bit 0: Disable // wBuf(8):3 Bit:1 Enable Bit 0: Enable Exp7K WORD CALLBACK SetInputSignalMode_7080(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- // wBuf[0]; // RS-232 port number: 1/2/3/4..../255 // wBuf[1]; // module address: 0x00 to 0xFF // wBuf[2]; // module ID: 0x7080 // wBuf[3]; // checksum: 0=disable, 1=enable // wBuf[4]; // TimeOut constant: normal=100 // wBuf[5]; // Counter 0's and 1's signal mode // wBuf[6]; // flag: 0=no save, 1=save send/receive string //---------------------- Input ------------------------------------- // wBuf(5):0 Counter:0 TTL Counter:0 TTL // wBuf(5):1 Counter:1 Photo Counter:1 Photo // wBuf(5):2 Counter:0 TTL Counter:1 Photo // wBuf(5):3 Counter:1 Photo Counter:0 TTL Exp7K WORD CALLBACK ReadInputSignalMode_7080(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- // wBuf[0]; // RS-232 port number: 1/2/3/4..../255 // wBuf[1]; // module address: 0x00 to 0xFF // wBuf[2]; // module ID: 0x7080 // wBuf[3]; // checksum: 0=disable, 1=enable // wBuf[4]; // TimeOut constant: normal=100 // wBuf[5]; // Don't Care // wBuf[6]; // flag: 0=no save, 1=save send/receive string //---------------------- output ------------------------------------ // wBuf(7):0 Counter:0 TTL Counter:0 TTL // wBuf(7):1 Counter:1 Photo Counter:1 Photo // wBuf(7):2 Counter:0 TTL Counter:1 Photo // wBuf(7):3 Counter:1 Photo Counter:0 TTL /* ------------ 7080 Preset Counter 0/1 Counter Value ---------------- */ #ifdef _WIN32_WCE Exp7K WORD CALLBACK PresetCounterValue_7080(WORD wBuf[], float fBuf[], char szSend[], char szReceive[], unsigned long PresetValue); #else Exp7K WORD CALLBACK PresetCounterValue_7080(WORD wBuf[], float fBuf[], char szSend[], char szReceive[], double PresetValue); #endif /* ------------ 7080 Read Preset Counter 0/1 Counter Value ------------- */ Exp7K WORD CALLBACK ReadPresetCounterValue_7080(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- output ------------------------------------ // wBuf[7]= Hi-Word of Preset Counter Value // wBuf[8]= Lo-Word of Preset Counter Value /*-------- 7080 Start Counting ---------*/ Exp7K WORD CALLBACK StartCounting_7080(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- //wBuf[0]; // RS-232 port number: 1/2/3/4..../255 //wBuf[1]; // module address: 0x00 to 0xFF //wBuf[2]; // module ID: 0x7080 //wBuf[3]; // checksum: 0=disable, 1=enable //wBuf[4]; // TimeOut constant: normal=100 //wBuf[5]; // 0: Counter 0 1: Counter 1 //wBuf[6]; // flag: 0=no save, 1=save send/receive string //wBuf[7]; // 0: Stop Counting 1: Start Counting /*-------- Set 7080 module mode ---------*/ Exp7K WORD CALLBACK SetModuleMode_7080(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- //wBuf[0]; // RS-232 port number: 1/2/3/4..../255 //wBuf[1]; // module address: 0x00 to 0xFF //wBuf[2]; // module ID: 0x7080 //wBuf[3]; // checksum: 0=disable, 1=enable //wBuf[4]; // TimeOut constant: normal=100 //wBuf[5]; // 0: 7080 mode 1: 7080D mode //wBuf[6]; // flag: 0=no save, 1=save send/receive string /*-------- Read 7080 module mode ---------*/ Exp7K WORD CALLBACK ReadModuleMode_7080(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- //wBuf[0]; // RS-232 port number: 1/2/3/4..../255 //wBuf[1]; // module address: 0x00 to 0xFF //wBuf[2]; // module ID: 0x7080 //wBuf[3]; // checksum: 0=disable, 1=enable //wBuf[4]; // TimeOut constant: normal=100 //wBuf[5]; // don't care //wBuf[6]; // flag: 0=no save, 1=save send/receive string //------------------ output --------------------- //wBuf[5]= 0: 7080 mode, 1: 7080D mode /*-------- 7080 Set Level Volt ---------*/ Exp7K WORD CALLBACK SetLevelVolt_7080(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- //wBuf[0]; // RS-232 port number: 1/2/3/4..../255 //wBuf[1]; // module address: 0x00 to 0xFF //wBuf[2]; // module ID: 0x7080 //wBuf[3]; // checksum: 0=disable, 1=enable //wBuf[4]; // TimeOut constant: normal=100 //wBuf[5]; // 0: Low Level, 1: High Level //wBuf[6]; // flag: 0=no save, 1=save send/receive string //fBuf[0]; // Level Voltage /*-------- 7080 Read Level Volt ---------*/ Exp7K WORD CALLBACK ReadLevelVolt_7080(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------ //wBuf[0]; // RS-232 port number: 1/2/3/4..../255 //wBuf[1]; // module address: 0x00 to 0xFF //wBuf[2]; // module ID: 0x7080 //wBuf[3]; // checksum: 0=disable, 1=enable //wBuf[4]; // TimeOut constant: normal=100 //wBuf[5]; // 0: Low Level, 1: High Level //wBuf[6]; // flag: 0=no save, 1=save send/receive string //----------------------- output ---------------------------------- //fBuf[0]; // Level Voltage /* -------------- 7080 Set Min Signal Width ------------------------- */ Exp7K WORD CALLBACK SetMinSignalWidth_7080(WORD wBuf[], float fBuf[], char szSend[], char szReceive[], long MinWidth); //---------------------- input ------------------------------------- //wBuf[0]; // RS-232 port number: 1/2/3/4..../255 //wBuf[1]; // module address: 0x00 to 0xFF //wBuf[2]; // module ID: 0x7080 //wBuf[3]; // checksum: 0=disable, 1=enable //wBuf[4]; // TimeOut constant: normal=100 //wBuf[5]; // 0: Low Level, 1: High Level //wBuf[6]; // flag: 0=no save, 1=save send/receive string //MinWidth // the Input Signal Min Width /* -------------- 7080 Read Min Signal Width ------------------------- */ Exp7K WORD CALLBACK ReadMinSignalWidth_7080(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ---------------------------------- //wBuf[0]; // RS-232 port number: 1/2/3/4..../255 //wBuf[1]; // module address: 0x00 to 0xFF //wBuf[2]; // module ID: 0x7080 //wBuf[3]; // checksum: 0=disable, 1=enable //wBuf[4]; // TimeOut constant: normal=100 //wBuf[5]; // 0: Low Level, 1: High Level //wBuf[6]; // flag: 0=no save, 1=save send/receive string //---------------------- Output --------------------------------- //wBuf[7] // the Reading Input Signal Min Width /* -------------- 7080 Set Gate Mode ------------------------- */ Exp7K WORD CALLBACK SetGateMode_7080(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- //wBuf[0]; // RS-232 port number: 1/2/3/4..../255 //wBuf[1]; // module address: 0x00 to 0xFF //wBuf[2]; // module ID: 0x7080 //wBuf[3]; // checksum: 0=disable, 1=enable //wBuf[4]; // TimeOut constant: normal=100 //wBuf[5]; // 0: Low, 1: High, 2: None //wBuf[6]; // flag: 0=no save, 1=save send/receive string /* -------------- 7080 Read Gate Mode ------------------------- */ Exp7K WORD CALLBACK ReadGateMode_7080(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input --------------------------------- //wBuf[0]; // RS-232 port number: 1/2/3/4..../255 //wBuf[1]; // module address: 0x00 to 0xFF //wBuf[2]; // module ID: 0x7080 //wBuf[3]; // checksum: 0=disable, 1=enable //wBuf[4]; // TimeOut constant: normal=100 //wBuf[6]; // flag: 0=no save, 1=save send/receive string //---------------------- output -------------------------------- //wBuf[5]; // 0: Low, 1: High, 2: None /*-------- 7080 Send data to LED ---------*/ Exp7K WORD CALLBACK DataToLED_7080(WORD wBuf[], float fBuf[], char szSend[], char szReceive[]); //---------------------- input ------------------------------------- //wBuf[0]; // RS-232 port number: 1/2/3/4..../255 //wBuf[1]; // module address: 0x00 to 0xFF //wBuf[2]; // module ID: 0x7080 //wBuf[3]; // checksum: 0=disable, 1=enable //wBuf[4]; // TimeOut constant: normal=100 //wBuf[5]; // Don't Care //wBuf[6]; // flag: 0=no save, 1=save send/receive string //fBuf[0]; // Data to LED /*-------- Set configuration for 7080 ---------*/ Exp7K WORD CALLBACK SetConfiguration_7080(WORD dwBuf[], float fBuf[], char szSend[], char szReceive[]); //*** Notice: if you change the Baudrate or Checksum, please short the INIT*(pin6) to GND(pin10) //---------------------- input ------------------------------------- //wBuf[0]; // RS-232 port number: 1/2/3/4..../255 //wBuf[1]; // module original address: 0x00 to 0xFF //wBuf[2]; // module ID: 0x7080 //wBuf[3]; // module original checksum: 0=disable, 1=enable //wBuf[4]; // TimeOut constant: normal=100 //wBuf[5]; // desired frequency gate time: // 0: 0.1 second // 1: 1.0 second // Don't care wBuf[5],if set the module into Counter mode //wBuf[6]; // flag: 0=no save, 1=save send/receive string //wBuf[7]; // desired new address //wBuf[8]; // desired Type-> 0:Counter mode // 1:Frequency mode //wBuf[9]; // desired Baudrate: // 3: 1200 BPS 4: 2400 BPS // 5: 4800 BPS 6: 9600 BPS // 7: 19200 BPS 8: 38400 BPS // 9: 57600 BPS 10: 115200 BPS //wBuf[10]; // desired Checksum Address //#ifdef _WIN32_WCE // #endif //__I7000_H__ //#endif