pidf v2_RTLB { $********************************************************************* float version = 2.0; $$ version string institution = "IFSI"; $$ institute string project = "TSS"; $$ project string mission = "TSS-1R"; $$ mission string experiment = "RETE"; $$ experiment string instrument = "RETE"; $$ instrument string vinst = "RTLB"; $$ vinst $********************************************************************* int num_groups = 2; $$ no. groups string group_name = "A/C Electric Field"; $$ group name string group_name = "A/C Magnetic Field"; $$ group name int plot_avail_flag = 0x3; $$ plot avail int data_type_mask = 0x1C; $$ Sen/Scn/Cal/Mode/Qual int instrument_dep = 1; $$ avg over float scan_min = 0.5; $$ scan limits float scan_max = 5.0; $$ scan limits $********************************************************************* int num_bin_sets = 0; $$ no. bin sets $********************************************************************* int num_units = 9; $$ no. units struct Unit0 { $-------------------------UNIT 00------------------------------------- int id = 0; $$ unit id float min = 0.0; $$ unit min/max float max = 255.0; $$ unit min/max int unit_scaling = 1; $$ unit lin/log string unit_label = "Dimensionless"; $$ unit label string long_description = "Telemetry"; $$ long desc. string short_description = "Raw"; $$ short desc. int num_tables = 0; $$ number of tables }; struct Unit1 { $-------------------------UNIT 01------------------------------------- int id = 0; $$ unit id float min = -1.0; $$ unit min/max float max = 3.0; $$ unit min/max int unit_scaling = 1; $$ unit lin/log string unit_label = "Dimensionless"; $$ unit label string long_description = "Telemetry"; $$ long desc. string short_description = "Raw"; $$ short desc. int num_tables = 0; $$ number of tables }; struct Unit2 { $-------------------------UNIT 02------------------------------------- int id = 0; $$ unit id float min = 0.5; $$ unit min/max float max = 5.0; $$ unit min/max int unit_scaling = 2; $$ unit lin/log string unit_label = "KHz"; $$ unit label string long_description = "Frequency"; $$ long desc. string short_description = "Freq"; $$ short desc. int num_tables = 1; $$ number of tables int tbl_app_flag = 0; $$ table numbers int tbl_app_oper = 0; $$ table operations }; struct Unit3 { $-------------------------UNIT 03------------------------------------- int id = 0; $$ unit id float min = 1.0; $$ unit min/max float max = 5.0e7; $$ unit min/max int unit_scaling = 2; $$ unit lin/log string unit_label = "uV**2"; $$ unit label string long_description = "Power (Uncor)"; $$ long desc. string short_description = "Pwr"; $$ short desc. int num_tables = 1; $$ number of tables int tbl_app_flag = 1; $$ table numbers int tbl_app_oper = 0; $$ table operations }; struct Unit4 { $-------------------------UNIT 04------------------------------------- int id = 0; $$ unit id float min = 1.0; $$ unit min/max float max = 5.0e7; $$ unit min/max int unit_scaling = 2; $$ unit lin/log string unit_label = "uV**2/Hz"; $$ unit label string long_description = "Power Den (BPass)"; $$ long desc string short_description = "PwDen"; $$ short desc int num_tables = 2; $$ number of tables int tbl_app_flag = 1; $$ table numbers int tbl_app_flag = 2; $$ table numbers int tbl_app_oper = 0; $$ table operations int tbl_app_oper = 3; $$ table operations }; struct Unit5 { $-------------------------UNIT 05------------------------------------- int id = 0; $$ unit id float min = 1.0; $$ unit min/max float max = 1.0e16; $$ unit min/max int unit_scaling = 2; $$ unit lin/log string unit_label = "uV**2/Hz"; $$ unit label string long_description = "Power Den (BPass/AGC)"; $$ long desc string short_description = "PwDen"; $$ short desc int num_tables = 3; $$ number of tables int tbl_app_flag = 1; $$ table numbers int tbl_app_flag = 2; $$ table numbers int tbl_app_flag = 3; $$ table numbers int tbl_app_oper = 0; $$ table operations int tbl_app_oper = 3; $$ table operations int tbl_app_oper = 3; $$ table operations }; struct Unit6 { $-------------------------UNIT 06------------------------------------- int id = 0; $$ unit id float min = 1.0e-4; $$ unit min/max float max = 1.0e16; $$ unit min/max int unit_scaling = 2; $$ unit lin/log string unit_label = "uV**2/Hz"; $$ unit label string long_description = "Power Den"; $$ long desc string short_description = "PwDen"; $$ short desc int num_tables = 4; $$ number of tables int tbl_app_flag = 1; $$ table numbers int tbl_app_flag = 2; $$ table numbers int tbl_app_flag = 3; $$ table numbers int tbl_app_flag = 4; $$ table numbers int tbl_app_oper = 0; $$ table operations int tbl_app_oper = 3; $$ table operations int tbl_app_oper = 3; $$ table operations int tbl_app_oper = 3; $$ table operations }; struct Unit7 { $-------------------------UNIT 07------------------------------------- int id = 0; $$ unit id float min = 1.0; $$ unit min/max float max = 5.0e8; $$ unit min/max int unit_scaling = 2; $$ unit lin/log string unit_label = "unitless"; $$ unit label string long_description = "AGC"; $$ long desc string short_description = "agc"; $$ short desc int num_tables = 1; $$ number of tables int tbl_app_flag = 3; $$ table numbers int tbl_app_oper = 0; $$ table operations }; struct Unit8 { $-------------------------UNIT 08------------------------------------- int id = 0; $$ unit id float min = 1.0e-5; $$ unit min/max float max = 10.0; $$ unit min/max int unit_scaling = 2; $$ unit lin/log string unit_label = "unitless"; $$ unit label string long_description = "Attenuation"; $$ long desc string short_description = "att"; $$ short desc int num_tables = 1; $$ number of tables int tbl_app_flag = 4; $$ table numbers int tbl_app_oper = 0; $$ table operations }; $********************************************************************* int num_sensors = 5; $$ no. of sensors struct Sensor0 { $-----------------------SENSOR 00------------------------------------- string name = "Ex"; $$ sensor name string component = "Ex"; $$ component name char source = 'V'; $$ source (V) (S) string scf_filename = "N/A"; $$ not applicable int pidf_sensor_num = 0; $$ pidf sensor num int vidf_sensor_num = 0; $$ sensor vidf no. int group_num = 0; $$ sensor group no. int display_flag = 1; $$ display bit int scan_block_info = 0; $$ scan block info int num_units = 5; $$ no. data of units int unit_number = 0; $$ unit numbers int unit_number = 3; $$ unit numbers int unit_number = 4; $$ unit numbers int unit_number = 5; $$ unit numbers int unit_number = 6; $$ unit numbers }; struct Sensor1 { $-----------------------SENSOR 01------------------------------------- string name = "Ey"; $$ sensor name string component = "Ey"; $$ component name char source = 'V'; $$ source (V) (S) string scf_filename = "N/A"; $$ not applicable int pidf_sensor_num = 1; $$ pidf sensor num int vidf_sensor_num = 1; $$ sensor vidf no. int group_num = 0; $$ sensor group no. int display_flag = 1; $$ display bit int scan_block_info = 0; $$ scan block info int num_units = 5; $$ no. data of units int unit_number = 0; $$ unit numbers int unit_number = 3; $$ unit numbers int unit_number = 4; $$ unit numbers int unit_number = 5; $$ unit numbers int unit_number = 6; $$ unit numbers }; struct Sensor2 { $-----------------------SENSOR 02------------------------------------- string name = "Ez"; $$ sensor name string component = "Ez"; $$ component name char source = 'V'; $$ source (V) (S) string scf_filename = "N/A"; $$ not applicable int pidf_sensor_num = 2; $$ pidf sensor num int vidf_sensor_num = 2; $$ sensor vidf no. int group_num = 0; $$ sensor group no. int display_flag = 1; $$ display bit int scan_block_info = 0; $$ scan block info int num_units = 5; $$ no. data of units int unit_number = 0; $$ unit numbers int unit_number = 3; $$ unit numbers int unit_number = 4; $$ unit numbers int unit_number = 5; $$ unit numbers int unit_number = 6; $$ unit numbers }; struct Sensor3 { $-----------------------SENSOR 03------------------------------------- string name = "Bx"; $$ sensor name string component = "Bx"; $$ component name char source = 'V'; $$ source (V) (S) string scf_filename = "N/A"; $$ not applicable int pidf_sensor_num = 3; $$ pidf sensor num int vidf_sensor_num = 3; $$ sensor vidf no. int group_num = 1; $$ sensor group no. int display_flag = 1; $$ display bit int scan_block_info = 0; $$ scan block info int num_units = 5; $$ no. data of units int unit_number = 0; $$ unit numbers int unit_number = 3; $$ unit numbers int unit_number = 4; $$ unit numbers int unit_number = 5; $$ unit numbers int unit_number = 6; $$ unit numbers }; struct Sensor4 { $-----------------------SENSOR 04------------------------------------- string name = "Bz"; $$ sensor name string component = "Bz"; $$ component name char source = 'V'; $$ source (V) (S) string scf_filename = "N/A"; $$ not applicable int pidf_sensor_num = 4; $$ pidf sensor num int vidf_sensor_num = 4; $$ sensor vidf no. int group_num = 1; $$ sensor group no. int display_flag = 1; $$ display bit int scan_block_info = 0; $$ scan block info int num_units = 5; $$ no. data of units int unit_number = 0; $$ unit numbers int unit_number = 3; $$ unit numbers int unit_number = 4; $$ unit numbers int unit_number = 5; $$ unit numbers int unit_number = 6; $$ unit numbers }; $********************************************************************* int num_scan = 1; $$ no. of scan blocks struct Scan0 { $----------------------SCAN BLOCK 00---------------------------------- int scan_block_num = 0; $$ scan block number int num_units = 2; $$ no. scan of units struct ScanUnit0 { char spacing = 'I'; $$ raw sweep int units_index = 0; $$ raw sweep }; struct ScanUnit1 { char spacing = 'L'; $$ center eV int units_index = 2; $$ center eV }; }; $********************************************************************* int num_cals = 3; $$ no. of cal. sets struct CalSet0 { $------------------------CAL SET 00----------------------------------- string name = "AutoMatic Gain Correction"; $$ cal set name string short_name = "AGC"; $$ cal set name int pidf_cal_num = 0; $$ pidf cal number int vidf_cal_num = 0; $$ cal set no. int num_units = 2; $$ no. of units int unit_number = 0; $$ unit numbers int unit_number = 7; $$ unit numbers char cal_modify_flag = 'Y'; $$ cal based on sensors int number_cal_sensors = 1; $$ how many sensors int cal_based_on_sensor = -1; $$ how many sensors }; struct CalSet1 { $------------------------CAL SET 01----------------------------------- string name = "Attenuation"; $$ cal set name string short_name = "Atten"; $$ cal set name int pidf_cal_num = 1; $$ pidf cal number int vidf_cal_num = 1; $$ cal set no. int num_units = 2; $$ no. of units int unit_number = 1; $$ unit numbers int unit_number = 8; $$ unit numbers char cal_modify_flag = 'Y'; $$ cal based on sensors int number_cal_sensors = 1; $$ how many sensors int cal_based_on_sensor = -1; $$ how many sensors }; struct CalSet2 { $------------------------CAL SET 02----------------------------------- string name = "Attenuation Source"; $$ cal set name string short_name = "Atten/S"; $$ cal set name int pidf_cal_num = 2; $$ pidf cal number int vidf_cal_num = 2; $$ cal set no. int num_units = 1; $$ no. of units int unit_number = 1; $$ unit numbers char cal_modify_flag = 'Y'; $$ cal based on sensors int number_cal_sensors = 1; $$ how many sensors int cal_based_on_sensor = -1; $$ how many sensors }; }