/*	**************************************************************	*/

/*
 * 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					0
#define GPIB_MC4_ADDR					14
#define GPIB_ESP300_ADDR				21
#define GPIB_ESP300_ADDR_2				20
#define GPIB_PDI5025_ADDR				13
#define GPIB_HP3458_ADDR				24
#define GPIB_HP3457_ADDR				22
#define GPIB_HP34970_ADDR				9
#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				"Maglab 5"

/* 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_ADDR_2
#define VTWIRE_PDI5025_CHANNEL			'A'
#define VTWIRE_PDI5025_GAIN				100
#define VTWIRE_HP3458_RANGE				0.1
#define VTWIRE_MC4_AXIS1				'Y'
#define VTWIRE_MC4_AXIS2				'Z'
#define VTWIRE_ESP300_X_AXIS			1
#define VTWIRE_ESP300_Y_AXIS			2
#define VTWIRE_CONFIG					VTWIRE_ESP300_HP3458
#define VTWIRE_T_SAMP_BEFORE			0.0
#define VTWIRE_T_SAMP_AFTER				2.0
#define VTWIRE_WIRE_VEL					.1
#define VTWIRE_WIRE_ACC					.2
#define VTWIRE_DO_OFFSET_CORRECTION		VTWIRE_FALSE
#define VTWIRE_SHOW_UI					VTWIRE_TRUE
#define VTWIRE_NUM_MEAS_AVE				5


/* Movement Devices */
#define MOVE_TOLERANCE_AXIS1			25.e-6
#define MOVE_TOLERANCE_AXIS2			25.e-6
#define MOVE_CORRECTION					0


/* 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				3
#define IMAG_DAC488HR_PORT				1
#define IMAG_HP3457_CHAN				0
#define IMAG_HP3457_CHAN				0
#define IMAG_HP34970_CHAN				101
#define IMAG_CONFIG						IMAG_DAC488_HP34970
#define IMAG_BIPOLAR					IMAG_FALSE
#define IMAG_PS_AMPS_PER_DAC_VOLT		1.2 
#define IMAG_TRANS_VOLTS_PER_AMP		0.16666667  /* 5 winds through transductor */
#define IMAG_RAMP_STYLE					IMAG_THREE_LINEAR
#define IMAG_MAX_CURR_LIMIT				6.1
#define IMAG_MIN_CURR_LIMIT				0.0
#define IMAG_RAMP_RATE				    0.5
#define IMAG_WAIT_AFTER_RAMP			30.
#define IMAG_STAND_RAMP_RATE			0.5
#define IMAG_WAIT_AFTER_STAND_RAMP		30.
#define IMAG_INIT_ZERO_CURRENT_MEAS		IMAG_TRUE
#define IMAG_INIT_TURN_ON				IMAG_FALSE
#define IMAG_INIT_TURN_ON_CURRENT		5. 
#define IMAG_CHECK_CURRENT				IMAG_FALSE
#define IMAG_CHECK_CURRENT_TOL			0.02
#define IMAG_SHOW_UI					IMAG_TRUE
#define IMAG_INVERPOWER					IMAG_FALSE
#define IMAG_CHECK_CURRENT_BALLPARK_LIM	5
#define IMAG_CHECK_CURRENT_TOL_LOWER_LIM 4

/* 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_AXIS_1				        'X' 
#define POSITION_AXIS_2				        'Y'
#define POSITION_ESP300_AXIS_1				1
#define POSITION_ESP300_AXIS_2				2
#define POSITION_DEVICE_TYPE				POSITION_NONE
#define POSITION_NUM_AXIS                    2
static char POSITION_AXIS_NAME[][40] =             {"ND720 X axis", "ND720 Y 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] = { 0.0 };
#define WIRE_NUM_X0_POS_BL_VS_X			7
static double  WIRE_X0_POS_BL_VS_X[WIRE_NUM_X0_POS_BL_VS_X]= {-0.03, -.02, -.01, 0.0, .01, .02, .03 };
#define WIRE_NUM_X0_POS_MAG_CENTER		21
static double  WIRE_X0_POS_MAG_CENTER[WIRE_NUM_X0_POS_MAG_CENTER] = {-.048, -.045, -.04, -.035, -.03, -.025, -.02, -.015, -.01, -.005, 0., .005, .01, .015, .02, .025, .03, .035, .04, .045, .05};
#define WIRE_REMEASURE_FOR_HIGH_SIGMA		0
#define WIRE_NUMBER_OF_REMEASURE_CYCLES		1
#define WIRE_REMEASURE_TOLERANCE				.000100

/* Measurement currents */
#define WIRE_NUM_STAND_CYCLES			3
#define WIRE_STAND_MAX					6.
#define WIRE_STAND_MIN					0.
#define WIRE_WARMUP_TIME				0.0
#define WIRE_WARMUP_CURRENT				0.0
#define WIRE_NUM_INTEG_STR_CURRENTS		7
static double  WIRE_INTEG_STR_CURRENTS[WIRE_NUM_INTEG_STR_CURRENTS] = {0.0, 1.0, 2.0, 3.0, 4.0, 5.0, 6.0};
#define WIRE_NUM_BL_VS_X_CURRENTS		1
static double  WIRE_BL_VS_X_CURRENTS[WIRE_NUM_BL_VS_X_CURRENTS] = {5.0};
#define WIRE_NUM_MAG_CENTER_CURRENTS	1
static double  WIRE_MAG_CENTER_CURRENTS[WIRE_NUM_MAG_CENTER_CURRENTS] = {12.0};
static double  WIRE_MAG_CENTER_BL[WIRE_NUM_MAG_CENTER_CURRENTS] = {0.0};
 
/* End protection */
#endif