! File: 1502C.PROP ! Database: PEPDB ! Date: 16-FEB-1994:20:52:34 coverpage: title_1: HSP HIGH VOLTAGE TURN-ON TEST HSP-IF proposal_for: OV pi_fname: ROBERT pi_mi: C. pi_lname: BLESS pi_inst: UNIVERSITY OF WISCONSIN pi_country: USA hours_pri: 1.10 num_pri: 1 hsp: Y realtime: Y ! end of coverpage abstract: line_1: This test proves the ability to turn on the high voltage power supplies, and line_2: collects noise data to verify the nominal operation of the power supplies. line_3: Data are collected at the minimum tube voltage and at voltages corresponding to line_4: tube gains of 500,000, 1,000,000 and 2,000,000. line_5: Note: This is RPSS file 1502. Revision History: Richards 4/13/88 line_6: Slovak 5/20/88, Richards 6/29/88 line_7: Translated to V2 proposal instructions, Laurent 2/7/89 line_8: RPSS software version 6.2. ! ! end of abstract general_form_proposers: lname: RICHARDS fname: E. mi: E. inst: UNIVERSITY OF WISCONSIN country: USA ! lname: PERCIVAL fname: J. mi: W. inst: UNIVERSITY OF WISCONSIN country: USA ! lname: BLESS fname: ROBERT mi: C. inst: UNIVERSITY OF WISCONSIN country: USA ! ! end of general_form_proposers block general_form_text: question: 2 section: 1 line_1: The justification for this test is to verify that high voltage can successfully line_2: be turned on for the various detectors and that the instrument operates line_3: properly with high voltage on. This verification is necessary before the line_4: instrument can be used for actual observations. ! question: 3 section: 1 line_1: line_2: This is an internal test and requires no external objects. The test is line_3: performed by executing the following steps: line_4: 1) Make the oldhold-to-newhold transition; High Volts are off. line_5: 2) Set up detector 1 (POL) for a 192-sec data collection of dark. line_6: (Sample at deflection coordinates of (H,V) = (2000,1900). line_7: 3) Begin the data collection. line_8: 4) After 77 seconds into data collection, turn on HVPS1 with line_9: a program value of 0 (minimum voltage). line_10: 5) After 115 seconds into data collection, turn off HVPS1. line_11: 6) Make the newhold-to-oldhold transition. line_12: 7) Wait 24 hours to check over the data. line_13: 8) Take a normal, 192-sec data collection of dark at a HVPS setting line_14: corresponding to a gain of 500,000. (Sample at deflection coordinates line_15: of (H,V) = (2000,1900). line_16: 9) Repeat steps 1 through 6 for detectors 2, 3, 4, and 5 (UV1, VIS, UV2, line_17: and PMT). Note that for detector 5 (PMT) the telescope must line_18: be pointing at the dark earth. line_19: 10) Wait 24 hours to check over the data. line_20: 11) Using detector 1 (POL), repeat step 8 at a HVPS setting corresponding to line_21: a gain of 1,000,000. (Sample at deflection coordinates of (H,V) = (2000,1900). line_22: 12) Repeat step 8 for UV1, VIS, UV2, and PMT (#2 - #5). Note that for line_23: detector 5 (PMT) the telescope must be pointing at the dark earth. ! question: 3 section: 2 line_1: 13) Wait 24 hours to check over the data. line_2: 14) Using detector 1 (POL), repeat step 8 at a HVPS setting corresponding line_3: to a gain of 2,000,000. (Sample at deflection coordinates of line_4: (H,V) = (2000,1900). line_5: 15) Repeat step 11 for UV1, VIS, UV2, and PMT (#2 - #5). Note that for line_6: detector 5 (PMT) the telescope must be pointing at the dark earth. line_7: 16) Wait 24 hours to check over the data. line_8: 17) Repeat step 14 for UV1, VIS, UV2, and PMT (#1 - #5). Note that for line_9: 18) detector 5 (PMT) the telescope must be pointing at the dark earth. line_10: Also note that now is the point in time when the test HSP-i1, Detector line_11: Dark Count, may be done. ! question: 5 section: 1 line_1: This test may be performed in real-time or by stored command sequence. line_2: Every time a new voltage is tried for the first time on the first line_3: tube (POL), there must be a 24 hour wait so that system data can be analyzed line_4: before the next part of the test is performed. HSP tests iA through iE line_5: must be complete before this test is begun. ! question: 5 section: 2 line_1: Special requirements for this test are: line_3: 1) The ST must not be pointed at the sun, moon or bright earth during this line_4: test. If the bright earth is visible during the orbit, then the test line_5: should be performed during the dark part of the orbit. line_7: 2) The aft shroud pressure must be less than one millionth torr. line_9: 3) High voltage setting should be selected so that tube gains of 2,000,000 line_10: are not exceeded. line_12: 4) A 24 hour wait must be inserted after the first time the first line_13: detector (POL) is turned up to each voltage setting. This will give us line_14: time to analyze each test, and to decide whether to continue with line_15: the test for the remaining dectectors. line_17: 5) The ST bright object protection processor must be enabled and the ST SSM line_18: PIT bright object flags operational. line_20: 6) Non SAA passage is required. ! question: 7 section: 1 line_1: Data reduction will consist of analyzing engineering telemetry data to verify line_2: nominal response after turning on the high voltage. Also, the single color line_3: photometry data from each detector will be examined to ensure that nominal dark line_4: count rates exist for that detector with high voltage on. ! question: 10 section: 1 line_1: Data reduction and analysis for this test will be supported at the University of line_2: Wisconsin Space Astronomy Laboratory. ! question: 12 section: 1 line_1: No special ground system requirements are anticipated. ! !end of general form text general_form_address: lname: BLESS fname: ROBERT mi: C. category: PI inst: UNIVERSITY OF WISCONSIN addr_1: 475 NORTH CHARTER STREET city: MADISON state: WI zip: 53706 country: USA phone: 608-262-1715 ! lname: RICHARDS fname: EVAN mi: E. category: CON inst: UNIVERSITY OF WISCONSIN addr_1: 223C addr_2: 1225 W. DAYTON STREET city: MADISON state: WI zip: 53706 country: USA phone: 608-263-6775 ! lname: PERCIVAL fname: JEFFREY mi: W. category: CON inst: UNIVERSITY OF WISCONSIN addr_1: SPACE AST. LAB. addr_2: 1150 UNIVERSITY AVENUE city: MADISON state: WI zip: 53706 country: USA phone: 608-263-8686 ! ! end of general_form_address records fixed_targets: targnum: 1 name_1: PMT-DARK-SKY descr_1: DARK SKY LOCATION FOR HSP/PMT DARKS pos_1: RA = 16H 27M 11S +/- 0.001", pos_2: DEC = -24D 19' 14" +/- 0.001" equinox: 2000.0 ! targnum: 2 name_1: PMT-DARK-SKY-2 name_2: BARNARD 5 descr_1: BARNARD OBJECT FOR PMT DARK SKY POINTING pos_1: RA = 3H 46.3M, pos_2: DEC = +32D 49' equinox: 1975 ! targnum: 3 name_1: PMT-DARK-SKY-3 name_2: BARNARD 227 pos_1: RA = 6H 5.9M, pos_2: DEC +19D 42' equinox: 1975 ! targnum: 4 name_1: PMT-DARK-SKY-4 name_2: BARNARD 46 pos_1: RA = 16H 55.7M, pos_2: DEC = -22D 42' equinox: 1975 ! targnum: 5 name_1: PMT-DARK-SKY-5 name_2: BARNARD 100 pos_1: RA = 18H 31.3M, pos_2: DEC = -9D 10' equinox: 1975 ! targnum: 6 name_1: PMT-DARK-SKY-6 name_2: BARNARD 362 pos_1: RA = 21H 23.1M, pos_2: DEC = +50D 6' equinox: 1975 ! ! end of fixed targets ! No solar system records found ! No generic target records found exposure_logsheet: linenum: 1.000 sequence_1: DEFINE sequence_2: INIT-IDT targname: DARK config: # opmode: SINGLE aperture: # sp_element: # num_exp: 1 time_per_exp: 192S priority: 1 param_1: DATA-FORMAT = ALL, param_2: HV-GAIN=OFF, comment_1: SAMPLE AT (H,V) = (2000,1900). comment_2: START WITH HV OFF. AFTER 77S, TURN ON comment_3: HV WITH PROGRAM VALUE OF ZERO. AFTER comment_4: 115S TURN OFF HV. ! linenum: 1.500 sequence_1: DEFINE sequence_2: INIT-IDT targname: DARK config: S/C opmode: DATA aperture: NONE num_exp: 1 time_per_exp: ^ priority: 1 req_1: PAR WITH 1.0; req_2: CRIT OBS / 1-8.5; comment_1: CAPTURE ENGINEERING DATA. comment_2: BACK UP BOTH SCIENCE AND ENG. comment_3: TELEMETRY TO STR AND ETR FOR ALL comment_4: LINES. ! linenum: 2.000 sequence_1: DEFINE sequence_2: LOW-IDT targname: DARK config: # opmode: SINGLE aperture: # sp_element: # num_exp: 1 time_per_exp: 192S priority: 1 param_1: DATA-FORMAT = ALL, param_2: HV-GAIN = G0.5, req_1: DARK TIME; comment_1: SAMPLE AT (H,V) = (2000,1900). comment_2: START WITH HV 0FF. AFTER 77S SET HV = comment_3: GO.5. AFTER 115S TURN HV OFF. ! linenum: 2.500 sequence_1: DEFINE sequence_2: LOW-IDT targname: DARK config: S/C opmode: DATA aperture: NONE num_exp: 1 time_per_exp: ^ priority: 1 req_1: PAR WITH 2.0; comment_1: CAPTURE ENGINEERING DATA. ! linenum: 3.000 sequence_1: DEFINE sequence_2: MID-IDT targname: DARK config: # opmode: SINGLE aperture: # sp_element: # num_exp: 1 time_per_exp: 192S priority: 1 param_1: DATA-FORMAT = ALL, param_2: HV-GAIN = G1.0, req_1: DARK TIME; comment_1: SAMPLE AT (H,V) = (2000,1900). comment_2: START WITH HV OFF. AFTER 77S SET HV = comment_3: G1.0. AFTER 115S TURN HV OFF. ! linenum: 3.500 sequence_1: DEFINE sequence_2: MID-IDT targname: DARK config: S/C opmode: DATA aperture: NONE num_exp: 1 time_per_exp: ^ priority: 1 req_1: PAR WITH 3.0; comment_1: CAPTURE ENGINEERING DATA. ! linenum: 4.000 sequence_1: DEFINE sequence_2: HIGH-IDT targname: DARK config: # opmode: SINGLE aperture: # sp_element: # num_exp: 1 time_per_exp: 192S priority: 1 param_1: DATA-FORMAT = ALL, param_2: HV-GAIN = G2.0, req_1: DARK TIME; comment_1: SAMPLE AT (H,V) = (2000,1900). comment_2: START WITH HV OFF. AFTER 77S SET HV = comment_3: G2.0. AFTER 115S TURN HV OFF. ! linenum: 4.500 sequence_1: DEFINE sequence_2: HIGH-IDT targname: DARK config: S/C opmode: DATA aperture: NONE num_exp: 1 time_per_exp: ^ priority: 1 req_1: PAR WITH 4.0; comment_1: CAPTURE ENGINEERING DATA. ! linenum: 5.000 sequence_1: DEFINE sequence_2: INIT-PMT targname: PMT-DARK-SKY config: HSP/PMT opmode: SINGLE aperture: 1.0 sp_element: F750W num_exp: 1 time_per_exp: 192S priority: 1 param_1: DATA-FORMAT = ALL, param_2: HV-GAIN = OFF, comment_2: START W/ HV OFF. AFTER 77 SEC, comment_3: TURN HV ON WITH PROGRAM VALUE OF ZERO. comment_4: AFTER 115 SEC, TURN OFF HV. ! linenum: 5.500 sequence_1: DEFINE sequence_2: INIT-PMT targname: DARK config: S/C opmode: DATA aperture: NONE num_exp: 1 time_per_exp: 192S priority: 1 req_1: PAR WITH 5.0; comment_1: CAPTURE ENGINEERING DATA. ! linenum: 6.000 sequence_1: DEFINE sequence_2: LOW-PMT targname: PMT-DARK-SKY config: HSP/PMT opmode: SINGLE aperture: 1.0 sp_element: F750W num_exp: 1 time_per_exp: 192S priority: 1 param_1: DATA-FORMAT = ALL, param_2: HV-GAIN=G0.5, comment_1: START WITH HV OFF. AFTER 77S SET HV = comment_2: G0.5. AFTER 115S TURN HV OFF. ! linenum: 6.500 sequence_1: DEFINE sequence_2: LOW-PMT targname: DARK config: S/C opmode: DATA aperture: NONE num_exp: 1 time_per_exp: ^ priority: 1 req_1: PAR WITH 6.0; comment_1: CAPTURE ENGINEERING DATA. ! linenum: 7.000 sequence_1: DEFINE sequence_2: MID-PMT targname: PMT-DARK-SKY config: HSP/PMT opmode: SINGLE aperture: 1.0 sp_element: F750W num_exp: 1 time_per_exp: 192S priority: 1 param_1: DATA-FORMAT = ALL, param_2: HV-GAIN= G1.0 comment_1: START WITH HV OFF. AFTER 77S SET HV = comment_2: G1.0. AFTER 115S TURN HV OFF. ! linenum: 7.500 sequence_1: DEFINE sequence_2: MID-PMT targname: DARK config: S/C opmode: DATA aperture: NONE num_exp: 1 time_per_exp: ^ priority: 1 req_1: PAR WITH 7.0; comment_1: CAPTURE ENGINEERING DATA. ! linenum: 8.000 sequence_1: DEFINE sequence_2: HIGH-PMT targname: PMT-DARK-SKY config: HSP/PMT opmode: SINGLE aperture: 1.0 sp_element: F750W num_exp: 1 time_per_exp: 192S priority: 1 param_1: DATA-FORMAT = ALL, param_2: HV-GAIN = G2.0, comment_1: START WITH HV 0FF. AFTER 77S SET HV = comment_2: G2.0. AFTER 115S TURN HV OFF. ! linenum: 8.500 sequence_1: DEFINE sequence_2: HIGH-PMT targname: DARK config: S/C opmode: DATA aperture: NONE num_exp: 1 time_per_exp: ^ priority: 1 req_1: PAR WITH 8.0; comment_1: CAPTURE ENGINEERING DATA. ! linenum: 9.000 sequence_1: USE sequence_2: INIT-IDT config: HSP/POL aperture: POL0 sp_element: F277M req_1: SEQ 9-28; req_2: RT ANALYSIS FOR 10; comment_1: USE POL IDT. ! linenum: 10.000 sequence_1: USE sequence_2: LOW-IDT config: HSP/POL aperture: POL0 sp_element: F277M req_1: RT ANALYSIS FOR 15; req_2: AFTER 9 BY 30H +/- 6H; comment_1: USE POL IDT. ! linenum: 11.000 sequence_1: USE sequence_2: INIT-IDT config: HSP/UV1 aperture: 1.0 sp_element: F184W req_1: RT ANALYSIS; comment_1: USE UV1 IDT. ! linenum: 12.000 sequence_1: USE sequence_2: INIT-IDT config: HSP/VIS aperture: 1.0 sp_element: F551W req_1: RT ANALYSIS; comment_1: USE VIS IDT. ! linenum: 13.000 sequence_1: USE sequence_2: INIT-IDT config: HSP/UV2 aperture: 1.0 sp_element: F278N req_1: RT ANALYSIS; comment_1: USE UV2 IDT. ! linenum: 14.000 sequence_1: USE sequence_2: INIT-PMT req_1: RT ANALYSIS; ! linenum: 15.000 sequence_1: USE sequence_2: MID-IDT config: HSP/POL aperture: POL0 sp_element: F277M req_1: RT ANALYSIS FOR 20; req_2: AFTER 14 BY 30H +/- 6H; comment_1: USE POL IDT. ! linenum: 16.000 sequence_1: USE sequence_2: LOW-IDT config: HSP/UV1 aperture: 1.0 sp_element: F184W req_1: RT ANALYSIS; comment_1: USE UV1 IDT. ! linenum: 17.000 sequence_1: USE sequence_2: LOW-IDT config: HSP/VIS aperture: 1.0 sp_element: F551W req_1: RT ANALYSIS; comment_1: USE VIS IDT. ! linenum: 18.000 sequence_1: USE sequence_2: LOW-IDT config: HSP/UV2 aperture: 1.0 sp_element: F278N req_1: RT ANALYSIS; comment_1: USE UV2 IDT. ! linenum: 19.000 sequence_1: USE sequence_2: LOW-PMT req_1: RT ANALYSIS; ! linenum: 20.000 sequence_1: USE sequence_2: HIGH-IDT config: HSP/POL aperture: POL0 sp_element: F277M req_1: RT ANALYSIS FOR 25; req_2: AFTER 19 BY 30H +/- 6H; comment_1: USE POL IDT. ! linenum: 21.000 sequence_1: USE sequence_2: MID-IDT config: HSP/UV1 aperture: 1.0 sp_element: F184W req_1: RT ANALYSIS; comment_1: USE UV1 IDT. ! linenum: 22.000 sequence_1: USE sequence_2: MID-IDT config: HSP/VIS aperture: 1.0 sp_element: F551W req_1: RT ANALYSIS; comment_1: USE VIS IDT. ! linenum: 23.000 sequence_1: USE sequence_2: MID-IDT config: HSP/UV2 aperture: 1.0 sp_element: F278N req_1: RT ANALYSIS; comment_1: USE UV2 IDT. ! linenum: 24.000 sequence_1: USE sequence_2: MID-PMT req_1: RT ANALYSIS; ! linenum: 25.000 sequence_1: USE sequence_2: HIGH-IDT config: HSP/UV1 aperture: 1.0 sp_element: F184W req_1: RT ANALYSIS; req_2: AFTER 24 BY 30H +/- 6H; comment_1: USE UV1 IDT. ! linenum: 26.000 sequence_1: USE sequence_2: HIGH-IDT config: HSP/VIS aperture: 1.0 sp_element: F551W req_1: RT ANALYSIS; comment_1: USE VIS IDT. ! linenum: 27.000 sequence_1: USE sequence_2: HIGH-IDT config: HSP/UV2 aperture: 1.0 sp_element: F278N req_1: RT ANALYSIS; comment_1: USE UV2 IDT. ! linenum: 28.000 sequence_1: USE sequence_2: HIGH-PMT req_1: RT ANALYSIS; ! ! end of exposure logsheet ! No scan data records found