/* ************************************************************** */ /* * PARAM.H * This file contains parameters required by the measurement * program. * * Zachary Wolf * 12/14/99 */ /* Protection from multiple definitions */ #ifndef __PARAM_HEADER #define __PARAM_HEADER /* GPIB addresses */ #define GPIB_BOARD_ADDR 1 #define GPIB_HP34970_ADDR 9 #define GPIB_MC4_ADDR 14 #define GPIB_ESP300_ADDR 21 #define GPIB_ESP300_ADDR2 20 #define GPIB_PDI5025_ADDR 13 #define GPIB_HP3458_ADDR 24 #define GPIB_HP3457_ADDR 22 #define GPIB_DAC488_ADDR 19 #define GPIB_DAC488HR_ADDR 8 #define GPIB_TELETRAC_ADDR 3 #define GPIB_HP5508_ADDR 3 /* Email Notification Settings*/ static char MAIL_TO[1000] = "sda@slac.stanford.edu"; #define MAIL_SEND_NOTIFICATION 1 #define MAIL_COMPUTER_ID "ECD 1 Dipole" /* RS232 addresses */ #define RS232_COM_PORT 3 #define RS232_ND720_ADDR 1 /* Integrated field strength module */ #define BLWIRE_NUM_TURNS_WIRE 10 #define BLWIRE_SHOW_UI BLWIRE_TRUE #define BLWIRE_DO_DX_CORRECTION BLWIRE_FALSE /* Voltage integration system */ #define VTWIRE_BOARD_ADDR GPIB_BOARD_ADDR #define VTWIRE_MC4_ADDR GPIB_MC4_ADDR #define VTWIRE_PDI5025_ADDR GPIB_PDI5025_ADDR #define VTWIRE_HP3458_ADDR GPIB_HP3458_ADDR #define VTWIRE_ESP300_ADDR GPIB_ESP300_ADDR #define VTWIRE_ESP300_ADDR_2 GPIB_ESP300_ADDR2 #define VTWIRE_PDI5025_CHANNEL 'A' #define VTWIRE_PDI5025_GAIN 500 #define VTWIRE_HP3458_RANGE 1. #define VTWIRE_MC4_AXIS1 'Y' #define VTWIRE_MC4_AXIS2 'X' #define VTWIRE_ESP300_X_AXIS 3 #define VTWIRE_ESP300_Y_AXIS 2 #define VTWIRE_CONFIG VTWIRE_ESP300_HP3458 #define VTWIRE_T_SAMP_BEFORE 0.2 #define VTWIRE_T_SAMP_AFTER 1.7 #define VTWIRE_WIRE_VEL .05 #define VTWIRE_WIRE_ACC .2 #define VTWIRE_DO_OFFSET_CORRECTION VTWIRE_FALSE #define VTWIRE_SHOW_UI VTWIRE_TRUE #define VTWIRE_NUM_MEAS_AVE 2 /* Movement Devices */ #define MOVE_TOLERANCE_AXIS1 2.e-5 #define MOVE_TOLERANCE_AXIS2 2.e-5 #define MOVE_CORRECTION 0 #define MC4_BOX_NUM 1 //gear settings #define MC4_NUM_STEPS_PER_REV_AXIS_W 200 //2000 #define MC4_NUM_STEPS_PER_REV_AXIS_X 200 #define MC4_NUM_STEPS_PER_REV_AXIS_Y 200 #define MC4_NUM_STEPS_PER_REV_AXIS_Z 2000 // screw pitch settings #define MC4_NUM_REV_PER_METER_AXIS_W 5000 #define MC4_NUM_REV_PER_METER_AXIS_X 5000 #define MC4_NUM_REV_PER_METER_AXIS_Y 5000 #define MC4_NUM_REV_PER_METER_AXIS_Z 50 /* Magnet current */ #define IMAG_BOARD_ADDR GPIB_BOARD_ADDR #define IMAG_DAC488_ADDR GPIB_DAC488_ADDR #define IMAG_DAC488HR_ADDR GPIB_DAC488HR_ADDR #define IMAG_HP3457_ADDR GPIB_HP3457_ADDR #define IMAG_HP34970_ADDR GPIB_HP34970_ADDR #define IMAG_DAC488_PORT 1 #define IMAG_DAC488HR_PORT 1 #define IMAG_HP3457_CHAN 0 #define IMAG_HP34970_CHAN 101 #define IMAG_CONFIG IMAG_DAC488_HP3457 #define IMAG_BIPOLAR IMAG_FALSE #define IMAG_PS_AMPS_PER_DAC_VOLT 60.7577 #define IMAG_TRANS_VOLTS_PER_AMP .08 #define IMAG_RAMP_STYLE IMAG_LINEAR #define IMAG_MAX_CURR_LIMIT 102. #define IMAG_MIN_CURR_LIMIT 0. #define IMAG_RAMP_RATE 1.333 #define IMAG_WAIT_AFTER_RAMP 60. #define IMAG_STAND_RAMP_RATE 5. #define IMAG_WAIT_AFTER_STAND_RAMP 10. #define IMAG_INIT_ZERO_CURRENT_MEAS IMAG_FALSE #define IMAG_INIT_TURN_ON IMAG_FALSE #define IMAG_INIT_TURN_ON_CURRENT 20. #define IMAG_CHECK_CURRENT IMAG_FALSE #define IMAG_CHECK_CURRENT_TOL 0.01 #define IMAG_SHOW_UI IMAG_TRUE #define IMAG_INVERPOWER IMAG_FALSE #define IMAG_CHECK_CURRENT_BALLPARK_LIM 10 #define IMAG_CHECK_CURRENT_TOL_LOWER_LIM 5 /* Position measurements */ #define POSITION_BOARD_ADDR GPIB_BOARD_ADDR #define POSITION_RS232_COM_PORT RS232_COM_PORT #define POSITION_VRZ404a_ADDR GPIB_VRZ404a_ADDR #define POSITION_VRZ404b_ADDR GPIB_VRZ404b_ADDR #define POSITION_HP5508_ADDR GPIB_HP5508_ADDR #define POSITION_TELETRAC_ADDR GPIB_TELETRAC_ADDR #define POSITION_ND720_ADDR RS232_ND720_ADDR #define POSITION_ESP300_AXIS_1 1 #define POSITION_ESP300_AXIS_2 2 #define POSITION_AXIS_1 'X' #define POSITION_AXIS_2 'Y' #define POSITION_DEVICE_TYPE POSITION_NONE #define POSITION_NUM_AXIS 2 static char POSITION_AXIS_NAME[][40] = {"ESP300 1 axis", "ESP300 2 axis"}; /* Measurement parameters */ /* The measurements are INTEG_STR_VS_IMAG, BL_VS_X, and MAG_CENTER */ #define WIRE_NUM_MAIN_HAR 1 #define WIRE_DESIRED_MEAS BL_VS_X #define WIRE_X0_POS_GLOBAL_OFFSET 0.0 #define WIRE_DIST_MOVE_WIRE .01 #define WIRE_NUM_X0_POS_INTEG_STR 1 static double WIRE_X0_POS_INTEG_STR[WIRE_NUM_X0_POS_INTEG_STR] = {-0.03}; #define WIRE_NUM_X0_POS_BL_VS_X 2 #define WIRE_X0_POS_BL_VS_X_MIN -0.03 #define WIRE_X0_POS_BL_VS_X_STEP -.06 double WIRE_X0_POS_BL_VS_X[WIRE_NUM_X0_POS_BL_VS_X]; #define WIRE_NUM_X0_POS_MAG_CENTER 1 static double WIRE_X0_POS_MAG_CENTER[WIRE_NUM_X0_POS_MAG_CENTER] = {0.0}; #define WIRE_REMEASURE_FOR_HIGH_SIGMA 0 #define WIRE_NUMBER_OF_REMEASURE_CYCLES 1 #define WIRE_REMEASURE_TOLERANCE .01 /* Measurement currents */ #define WIRE_NUM_STAND_CYCLES 0 #define WIRE_STAND_MAX 80.0 #define WIRE_STAND_MIN 0. #define WIRE_WARMUP_TIME 0. #define WIRE_WARMUP_CURRENT 80.0 #define WIRE_NUM_INTEG_STR_CURRENTS 4 static double WIRE_INTEG_STR_CURRENTS[WIRE_NUM_INTEG_STR_CURRENTS] = { 80., 85., 90., 95.}; #define WIRE_NUM_BL_VS_X_CURRENTS 4 static double WIRE_BL_VS_X_CURRENTS[WIRE_NUM_BL_VS_X_CURRENTS] = {80., 85., 90., 95.}; #define WIRE_NUM_MAG_CENTER_CURRENTS 1 static double WIRE_MAG_CENTER_CURRENTS[WIRE_NUM_MAG_CENTER_CURRENTS] = {80.0}; static double WIRE_MAG_CENTER_BL[WIRE_NUM_MAG_CENTER_CURRENTS] = {0.0}; /* End protection */ #endif