/********************************************************************\ Name: HV.cc Created by: Sebastian Commichau, November 2008 commichau@phys.ethz.ch Contents: Main class for HV supply \********************************************************************/ #include "HV.h" #include "ProcessIO.h" // Must be not in HV.h to avoid problem with declaring class ProcessIO // Constructor HVBoard::HVBoard(int DeviceNumber, char *DeviceName, class ProcessIO *PIO) { char Buffer[BUFFER_LENGTH]; struct termios tio; m = PIO; SetTimeOut(m->fTimeOut); BoardNumber = DeviceNumber; BoardName = DeviceName; // Create DIM services snprintf(Buffer, sizeof(Buffer), SERVER_NAME"/NAME/ID%.2d", BoardNumber); Name = new DimService (Buffer, BoardName); snprintf(Buffer, sizeof(Buffer), SERVER_NAME"/VOLT/ID%.2d", BoardNumber); BiasVolt = new DimService (Buffer, "D", HVV, NUM_CHAINS*NUM_CHANNELS*sizeof(double)); for (int i=0; iPrintMessage(All, "Error: Could not open device %d/%s (%s)\n", DeviceNumber,DeviceName, strerror(errno)); return; } // Get current serial port settings if (tcgetattr(fDescriptor, &tio) == -1) { m->PrintMessage(All, "Error: tcgetattr() failed (%d/%s)\n", errno, strerror(errno)); return; } // Set baudrate and raw mode if (cfsetspeed(&tio, BAUDRATE) == -1) m->PrintMessage(All, "Error: Could not set baud rate (%s)\n", strerror(errno)); cfmakeraw(&tio); if (tcsetattr(fDescriptor, TCSANOW, &tio ) == -1) m->PrintMessage(All, "Error: tcsetattr() failed (%s)\n", strerror(errno)); // Synchronize HV board (if fails, closes device and sets fDescriptor to -2) unsigned char wbuf = REG_STATUS; int trial = 0, ret; while(++trial<=3) { if((ret = Communicate(&wbuf, 1)) == 1) { Reset(); return; } if (ret==0) break; wbuf = 0; } close(fDescriptor); fDescriptor = -2; return; } // Destructor (Resetting board) HVBoard::~HVBoard() { if(fDescriptor >= 0) { Reset(); close(fDescriptor); } delete Name; delete BiasVolt; } // Communicate: Write and read from HV Board until fTimeOut has been reached // // Returns: 0 error, 1 success, -1 fTimeOut exceeded int HVBoard::Communicate(unsigned char* wbuf, int Bytes) { unsigned char rbuf; int ret; fd_set SelectDescriptor; // === Write data === if ((ret=write(fDescriptor, wbuf, Bytes)) < Bytes) { if (ret == -1) m->PrintMessage(All, "Could not write data to HV board (%s)\n", strerror(errno)); else m->PrintMessage(All, "Could write only %d of %d bytes to HV board\n", ret, Bytes); ErrorCount++; return 0; } // === Try to read until time-out === FD_ZERO(&SelectDescriptor); FD_SET(fDescriptor, &SelectDescriptor); struct timeval WaitTime = {(long) fTimeOut, (long) ((fTimeOut-(long) fTimeOut)*1e6)}; if (select(fDescriptor+1, &SelectDescriptor, NULL, NULL, &WaitTime)==-1) { m->PrintMessage(All, "Error with select() (%s)\n", strerror(errno)); return 0; } // Time-out expired? if (!FD_ISSET(fDescriptor, &SelectDescriptor)) return -1; // Read error? if ((ret = read(fDescriptor, &rbuf, 1)) == -1) { m->PrintMessage(All, "Read error (%s)\n", strerror(errno)); ErrorCount++; return 0; } // === Update status information === if (LastWrapCount != -1) { if ((LastWrapCount+1)%8 == (rbuf & 0X07)) WrapOK = true; else WrapOK = false; } LastWrapCount = rbuf & 0X07; for (int i=0; i 0x3FFF) { m->PrintMessage("Error: Voltage out of range 0-0x3FFF\n"); return 0; } switch (chain) { case 0: wbuf[0] = REG_HV0; break; case 1: wbuf[0] = REG_HV1; break; case 2: wbuf[0] = REG_HV2; break; case 3: wbuf[0] = REG_HV3; break; default : m->PrintMessage(" Error: Chain %d does not exist\n",chain); return 0; } // Assemble bytes wbuf[0] |= (unsigned char)((channel >> 2) & 0X00000007); // Add address [A4-A3] wbuf[1] |= (unsigned char)((hv >> 8) & 0X000000FF); // Add [D13-D8] wbuf[1] |= (unsigned char)((channel << 6) & 0X000000C0); // Add [A1-A0] wbuf[2] |= (unsigned char)(hv & 0X000000FF); // Add [D7-D0] if ((ret = Communicate(wbuf, 3)) == 1) HV[chain][channel] = hv; return ret; } // Set all voltages of board to zero void HVBoard::ClearVoltageArrays() { for (int j=0; jupdateService(); } // Set time-out to wait for read void HVBoard::SetTimeOut(double t) { if (t >= MIN_TIMEOUT && t <= MAX_TIMEOUT) fTimeOut = t; else fTimeOut = 1.0; }