/* ************************************************************** */ /* * PARAM.H * This file contains parameters required by the measurement * program. * * Zachary Wolf * 9/15/98 */ /* Protection from multiple definitions */ #ifndef __PARAM_HEADER #define __PARAM_HEADER #define TRUE 1 #define FALSE 0 /* Define Current DAC types */ #define DAC_488 0 #define DAC_488HR 1 #define DAC_MANUAL 2 #define DAC_NONE 3 /* Define Current Readback types */ #define READBACK_HP3457 0 #define READBACK_HP34970 1 #define READBACK_NONE 2 /* Define Current Ramp types */ #define LINEAR 0 #define THREE_LINEAR 1 #define COSINE 2 #define PSCII 3 /* Current system defines */ #define MAIN 0 #define ATRIM 1 #define BTRIM 2 /* Current system Pattern defines */ #define LIST 0 #define CALCULATED 1 /* GPIB addresses */ #define GPIB_BOARD_ADDR 0 #define GPIB_K7011_ADDR 7 #define GPIB_CM2100_ADDR 1 #define GPIB_PDI5025_ADDR 13 #define GPIB_HP3457_ADDR 22 #define GPIB_HP3458_ADDR 24 #define GPIB_HP34970_ADDR 9 #define GPIB_DAC488_ADDR 19 #define GPIB_DAC488HR_ADDR 8 #define GPIB_VRZ404a_ADDR 29 #define GPIB_VRZ404b_ADDR 30 #define GPIB_TELETRAC_ADDR 3 /* Serial addresses */ #define RS232_COM_PORT 4 #define RS232_CM6K_ADDR 1 /* Email Notification Settings*/ static char MAIL_TO[1000] = "sda@slac.stanford.edu"; #define MAIL_SEND_NOTIFICATION 1 #define MAIL_COMPUTER_ID "Maglab 5" /* Voltage integration system */ #define VTCOIL_BOARD_ADDR GPIB_BOARD_ADDR #define VTCOIL_K7011_ADDR GPIB_K7011_ADDR #define VTCOIL_CM2100_ADDR GPIB_CM2100_ADDR #define VTCOIL_PDI5025_ADDR GPIB_PDI5025_ADDR #define VTCOIL_RS232_ADDR RS232_COM_PORT #define VTCOIL_CM6K4_ADDR RS232_CM6K4_ADDR #define VTCOIL_CM6K_ADDR RS232_CM6K_ADDR #define VTCOIL_CONFIG VTCOIL_K7011_CM6K_PDI5025 #define VTCOIL_NUM_ENC_PULSE_PER_REV 1024 #define VTCOIL_NUM_SAMP_PER_REV 64 #define VTCOIL_MOTOR_ACC 1.1 #define VTCOIL_MOTOR_VEL 1.03 #define VTCOIL_REL_MOTOR_ROT_DIR -1. #define VTCOIL_SHOW_UI VTCOIL_TRUE #define VTCOIL_CHECK_VTSAMP VTCOIL_FALSE /* Field Harmonics */ #define BLHAR_NUM_HAR 16 #define BLHAR_NUM_MAIN_HARMONIC 1 #define BLHAR_NUM_MEAS_AVE 4 #define BLHAR_INTEG_CHAN 'A' #define BLHAR_NUM_REV_PER_MEAS 8 #define BLHAR_REFERENCE_RADIUS .0125 #define BLHAR_COIL_PARAM_FILE "v:\\met\\magserve\\Coil Calibrations\\coilparameters\\Spear3q_150_300_param.dat" #define BLHAR_MAGNET_VIEW "View from downtream of magnet" #define BLHAR_SHOW_UI BLHAR_TRUE #define BLHAR_CURRENT_SYSTEM MAIN /* Magnet current */ #define IMAG_BOARD_ADDR GPIB_BOARD_ADDR #define IMAG_SHOW_UI TRUE #define IMAG_NUM_CURRENT_SYSTEMS 1 static int IMAG_DAC488_ADDR[] = {GPIB_DAC488_ADDR, GPIB_DAC488_ADDR, GPIB_DAC488_ADDR}; static int IMAG_DAC488HR_ADDR[] = {GPIB_DAC488HR_ADDR, GPIB_DAC488HR_ADDR, GPIB_DAC488HR_ADDR}; static int IMAG_HP3457_ADDR[] = {GPIB_HP3457_ADDR, GPIB_HP3457_ADDR, GPIB_HP3457_ADDR}; static int IMAG_HP34970_ADDR[] = {GPIB_HP34970_ADDR, GPIB_HP34970_ADDR, GPIB_HP34970_ADDR}; static char IMAG_CURRENT_SYSTEM_NAME[][30] = {"Main", "Trim", "V Trim"}; static int IMAG_DAC_CONFIG[] = {DAC_488, DAC_488, DAC_488}; static int IMAG_READBACK_CONFIG[] = {READBACK_HP34970, READBACK_HP34970, READBACK_HP3457}; static int IMAG_DAC488_PORT[] = {1, 3, 4}; static int IMAG_DAC488HR_PORT[] = {2, 3, 4}; static int IMAG_HP3457_CHAN[] = {0, 1, 2}; static int IMAG_HP34970_CHAN[] = {101, 103, 104}; static int IMAG_RAMP_STYLE[] = {COSINE, THREE_LINEAR, THREE_LINEAR}; static int IMAG_BIPOLAR[] = {FALSE, TRUE, TRUE}; static double IMAG_PS_AMPS_PER_DAC_VOLT[] = {60.15, 1.2019, 1.22755}; /* PS5, MCOR */ static double IMAG_TRANS_VOLTS_PER_AMP[] = {0.01, .08333333, 0.01}; static double IMAG_MAX_CURR_LIMIT[] = {151, 6.0, 1.}; /* Maximum current (A) setpoint allowed */ static double IMAG_MIN_CURR_LIMIT[] = {0.0,-6.0, -1.}; /* Minimum current (A) setpoint allowed */ static double IMAG_RAMP_RATE[] = {5., 2., 0.2}; /* Standard Rate rate (A/s) for ramp functions */ static double IMAG_WAIT_AFTER_RAMP[] = {30., 5., 10.}; /* Settle time (sec) after ramp is done */ static double IMAG_STAND_RAMP_RATE[] = {10., 2., 0.2}; /* Standard Rate rate (A/s) for standardize functions */ static double IMAG_WAIT_AFTER_STAND_RAMP[] = {30., 5., 1.}; /* Settle time (sec) after ramp is done */ static int IMAG_INIT_ZERO_CURRENT_MEAS[] = {TRUE, TRUE, TRUE}; static int IMAG_INIT_TURN_ON[] = {FALSE, FALSE, FALSE}; static double IMAG_INIT_TURN_ON_CURRENT[] = {0., 0., 0. }; static int IMAG_INVERPOWER[] = {FALSE, FALSE, FALSE}; static int IMAG_CHECK_CURRENT[] = {FALSE, FALSE, FALSE}; /* Flag to check that deisred current = actual current to IMAG_CHECK_CURRENT_TOL level*/ static double IMAG_CHECK_CURRENT_TOL[] = {0.01, 0.01, 0.01}; /* If (desired_current - actual_current)/desired_current > IMAG_CHECK_CURRENT_TOL imag will give an error */ static double IMAG_CHECK_CURRENT_TOL_LOWER_LIM[] = {3., 1., 1.}; /* Below this Current (A) the IMAG_CHECK_CURRENT_TOL check will not be performed */ static double IMAG_CHECK_CURRENT_TOL_BALLPARK_LIM[] = {1.0, 0.5, 0.5}; /* If Current (A) is below IMAG_CHECK_CURRENT_TOL_LOWER_LIM and above IMAG_CHECK_CURRENT_BALLPARK_LIM the actual current needs to be within IMAG_BALLPARK_TOL (in Imag.h) of desired */ static int IMAG_SET_ZERO_OFFSET_CURRENT_FLAG[] = {TRUE, TRUE, TRUE}; static double IMAG_SET_ZERO_OFFSET_CURRENT[] = {-0.00769, 0.00057, 0.01}; /* Magnet voltage measurements */ #define VMAG_BOARD_ADDR GPIB_BOARD_ADDR #define VMAG_HP3457_ADDR GPIB_HP3457_ADDR #define VMAG_K7011_ADDR GPIB_K7011_ADDR #define VMAG_HP34970_ADDR GPIB_HP34970_ADDR #define VMAG_DEVICE_TYPE VMAG_HP34970 #define VMAG_K7011_CARD_NUM 1 #define VMAG_NUMBER_MEASUREMENTS 1 static int VMAG_PROBE_CHAN_NUM[] = {105}; #define VMAG_SHOW_UI VMAG_FALSE /* Temperature measurements */ #define TMAG_BOARD_ADDR GPIB_BOARD_ADDR #define TMAG_HP3457_ADDR GPIB_HP3457_ADDR #define TMAG_HP34970_ADDR GPIB_HP34970_ADDR #define TMAG_K7011_ADDR GPIB_K7011_ADDR #define TMAG_DEVICE_TYPE TMAG_HP34970 #define TMAG_K7011_CARD_NUM 1 #define TMAG_K7011_HP3457_CHAN 1 #define TMAG_SHOW_UI TMAG_FALSE #define TMAG_NUM_TMAG_PROBES 3 static int TMAG_PROBE_CHAN_NUM[] = {112, 114, 115}; static char TMAG_PROBE_NAME[][30] = { "Bottom Coil on Side", "Pole Tip", "Ambient"}; #define TMAG_LOW_CURRENT_MEAS TMAG_FALSE #define TMAG_COILS_MEAS_NUM 1 static int TMAG_PROBE_OVERTEMP_FLAG[] = {1, 1, 0}; static double TMAG_PROBE_OVERTEMP[] = {52.0, 52.0, 30.0}; /* Xmag measurements */ #define XMAG_BOARD_ADDR GPIB_BOARD_ADDR #define XMAG_VRZ404a_ADDR GPIB_VRZ404a_ADDR #define XMAG_VRZ404b_ADDR GPIB_VRZ404b_ADDR #define XMAG_TELETRAC_ADDR GPIB_TELETRAC_ADDR #define XMAG_TELETRAC_AXIS 'X' #define XMAG_DEVICE_TYPE XMAG_NONE #define XMAG_NUM_DEV 1 static char XMAG_DEV_NAME[][40] = {"Heidenhain +x position (um)"}; /* Ambient measurements */ #define AMBIENT_BOARD_ADDR GPIB_BOARD_ADDR #define AMBIENT_HP3457_ADDR GPIB_HP3457_ADDR #define AMBIENT_HP34970_ADDR GPIB_HP34970_ADDR #define AMBIENT_K7011_ADDR GPIB_K7011_ADDR #define AMBIENT_MEAS_SYSTEM AMBIENT_NONE #define AMBIENT_K7011_CARD_NUM 1 #define AMBIENT_K7011_HP3457_CHAN 1 #define AMBIENT_SHOW_UI AMBIENT_FALSE #define AMBIENT_NUM_SENSORS 0 static char AMBIENT_SENSOR_TYPE[][40] = {"AMBIENT_OMHX93AV_RH", "AMBIENT_OMHX93AV_T", "AMBIENT_OMEWSBPA_P"}; static int AMBIENT_SENSOR_CHAN_NUM[] = {7, 8, 9}; static char AMBIENT_SENSOR_NAME[][50] = {"Relative Humidity (%RH)", "Ambient Temperature (C)", "Barometric Pressure (inHg)"}; /*Cart Measuerments */ #define WATER_BOARD_ADDR GPIB_BOARD_ADDR #define WATER_HP3457_ADDR GPIB_HP3457_ADDR #define WATER_HP3458_ADDR GPIB_HP3458_ADDR #define WATER_HP34970_ADDR GPIB_HP34970_ADDR #define WATER_K7011_ADDR GPIB_K7011_ADDR #define WATER_MEAS_SYSTEM WATER_HP34970 #define WATER_K7011_CARD_NUM 1 #define WATER_K7011_HP3457_CHAN 1 #define WATER_SHOW_UI WATER_FALSE #define WATER_DIFFERENCE WATER_FALSE #define WATER_NUM_SENSORS 4 //static double WATER_FREQUENCY_DIVIDER = 36.3241667; /*for TS 1*/ //static double WATER_FREQUENCY_DIVIDER = 36.7666667; /*for TS 3*/ static double WATER_FREQUENCY_DIVIDER = 35.9808333; /*for TS 5*/ static double WATER_FLOW_DIVIDER = 5.8881; /*Nominal is 5.8881*/ static char WATER_SENSOR_MULTIPLIER = 75.0; static char WATER_SENSOR_TYPE[][30] = { "WATER_HPLEIGHTON_T", "WATER_HPLEIGHTON_T","WATER_HPASHCROFT_P", "WATER_HPASHCROFT_P"}; static int WATER_SENSOR_CHAN_NUM[] = {116, 117, 118, 119}; static char WATER_SENSOR_NAME[][30] = { "Supply Temp(C)", "Return Temp(C)","Supply Pres(psi)", "Return Pres(psi)"}; #define WATER_OVERTEMP_TEMP 60.0 /* Measurement parameters */ #define BCOIL_TRANSFER_CURRENT_SYSTEM MAIN #define BCOIL_KEEP_WARM FALSE // Will the magnet warmup before measurements. #define BCOIL_WARMUP_TIME 0 // Warmup time in seconds. Zero = no warmup. #define BCOIL_NUM_ITERATIONS 0 // Number of extra iterations. Program will always do 1. #define BCOIL_TRIP_TEST 0 #define BCOIL_SET_ANGLE 0 static int BCOIL_NUM_STAND_CYCLES[] = {3,0,0}; static double BCOIL_STAND_MAX[] = {150,0.0,0.0}; static double BCOIL_STAND_MIN[] = {5.0,0.0, 0,0}; static double BCOIL_WARMUP_CURRENT[] = {0.0, 0.0, 0.0}; //#define BCOIL_NUM_CURRENT_COLUMNS 27 //static int BCOIL_NUM_TEST_CURRENTS[] = {BCOIL_NUM_CURRENT_COLUMNS, BCOIL_NUM_CURRENT_COLUMNS, BCOIL_NUM_CURRENT_COLUMNS}; //static double BCOIL_TEST_CURRENTS[IMAG_NUM_CURRENT_SYSTEMS][BCOIL_NUM_CURRENT_COLUMNS] = {0., -6., -5., -4., -3., -2., -1., 0., 1., 2., 3., 4., 5., 6., 5., 4., 3., 2., 1., 0., -1., -2., -3., -4., -5., -6., 0.}; //static int BCOIL_MEAS_STR_FLAGS[BCOIL_NUM_CURRENT_COLUMNS] = {1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1}; //static int BCOIL_MEAS_HAR_FLAGS[BCOIL_NUM_CURRENT_COLUMNS] = {1, 1, 0, 0, 1, 0, 0, 0, 0, 0, 1, 0, 0, 1, 0, 0, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1}; #define BCOIL_NUM_CURRENT_COLUMNS 3 static int BCOIL_NUM_TEST_CURRENTS[] = {BCOIL_NUM_CURRENT_COLUMNS, BCOIL_NUM_CURRENT_COLUMNS, BCOIL_NUM_CURRENT_COLUMNS}; static double BCOIL_TEST_CURRENTS[IMAG_NUM_CURRENT_SYSTEMS][BCOIL_NUM_CURRENT_COLUMNS] = {150.0, 150.0, 150.0}; static int BCOIL_MEAS_STR_FLAGS[BCOIL_NUM_CURRENT_COLUMNS] = {1, 1, 1}; static int BCOIL_MEAS_HAR_FLAGS[BCOIL_NUM_CURRENT_COLUMNS] = {1, 0, 0}; /* End protection */ #endif