Commit 8066f5064e7688937c72979d52a79c5b0529924d
1 parent
d5f4a2e0
Exists in
master
and in
12 other branches
work
Showing
4 changed files
with
13 additions
and
13 deletions
Show diff stats
Instrument/AMDA/IMP8/MAG.xml
| @@ -4,7 +4,7 @@ | @@ -4,7 +4,7 @@ | ||
| 4 | <Instrument> | 4 | <Instrument> |
| 5 | <ResourceID>spase://CDPP/Instrument/AMDA/IMP8/MAG</ResourceID> | 5 | <ResourceID>spase://CDPP/Instrument/AMDA/IMP8/MAG</ResourceID> |
| 6 | <ResourceHeader> | 6 | <ResourceHeader> |
| 7 | - <ResourceName>IMP 8 Magnetic Field Experiment</ResourceName> | 7 | + <ResourceName>MAG</ResourceName> |
| 8 | <AlternateName>IMP8 MAG</AlternateName> | 8 | <AlternateName>IMP8 MAG</AlternateName> |
| 9 | <ReleaseDate>2010-02-04T12:34:56.789</ReleaseDate> | 9 | <ReleaseDate>2010-02-04T12:34:56.789</ReleaseDate> |
| 10 | <Description>The magnetic field experiment on the IMP-8 spacecraft utilizes a tri-axial fluxgate (saturable inductor) magnetometer. The instrument originally had three, automatically determined, ranges, +/-12 nT, +/-36 nT, and +/-108 nT, full scale. Because of a range-change circuit failure occurring in early July 1975, the experiment was commanded into a fixed +/-36 nT range on July 11, 1975 at 12:55:09 UT and has been in that range ever since. The measurements are A-to-D converted onboard, to an 8-bit resolution, yielding +/-0.14 nT quantization sensitivity, which is larger than the intrinsic sensor noise level of 0.025 nT RMS. The data from the two-bit (per component) adaptive delta modulator, incorporated into the instrument, and applied to the intrinsic sample rate of 25 vectors/sec., was never utilized, and hence the rate of the full (8-bit) vector words, which occur every 320 ms, represents the effective sample period of the instrument. The sampling rate is synchronized to the spacecraft clock; the basic spacecraft clock frequency is 6.4 kHz. The sensor unit is mounted on the end of a boom approximately 4 m from the center of the spacecraft.</Description> | 10 | <Description>The magnetic field experiment on the IMP-8 spacecraft utilizes a tri-axial fluxgate (saturable inductor) magnetometer. The instrument originally had three, automatically determined, ranges, +/-12 nT, +/-36 nT, and +/-108 nT, full scale. Because of a range-change circuit failure occurring in early July 1975, the experiment was commanded into a fixed +/-36 nT range on July 11, 1975 at 12:55:09 UT and has been in that range ever since. The measurements are A-to-D converted onboard, to an 8-bit resolution, yielding +/-0.14 nT quantization sensitivity, which is larger than the intrinsic sensor noise level of 0.025 nT RMS. The data from the two-bit (per component) adaptive delta modulator, incorporated into the instrument, and applied to the intrinsic sample rate of 25 vectors/sec., was never utilized, and hence the rate of the full (8-bit) vector words, which occur every 320 ms, represents the effective sample period of the instrument. The sampling rate is synchronized to the spacecraft clock; the basic spacecraft clock frequency is 6.4 kHz. The sensor unit is mounted on the end of a boom approximately 4 m from the center of the spacecraft.</Description> |
NumericalData/AMDA/Cassini/MAG/Saturn_Orbit/cass-mag-orb1.xml
| @@ -32,7 +32,7 @@ | @@ -32,7 +32,7 @@ | ||
| 32 | <TemporalDescription> | 32 | <TemporalDescription> |
| 33 | <TimeSpan> | 33 | <TimeSpan> |
| 34 | <StartDate>2004-05-14T18:40:51Z</StartDate> | 34 | <StartDate>2004-05-14T18:40:51Z</StartDate> |
| 35 | - <StopDate>2004-11-21T08:40:59Z</StopDate> | 35 | + <StopDate>2005-04-06T23:31:59Z</StopDate> |
| 36 | </TimeSpan> | 36 | </TimeSpan> |
| 37 | <Cadence>PT1S</Cadence> | 37 | <Cadence>PT1S</Cadence> |
| 38 | </TemporalDescription> | 38 | </TemporalDescription> |
NumericalData/AMDA/GEOTAIL/MGF/gtl-mgf-k0.xml
| @@ -51,7 +51,7 @@ | @@ -51,7 +51,7 @@ | ||
| 51 | <TemporalDescription> | 51 | <TemporalDescription> |
| 52 | <TimeSpan> | 52 | <TimeSpan> |
| 53 | <StartDate>1992-09-04T19:14:06Z</StartDate> | 53 | <StartDate>1992-09-04T19:14:06Z</StartDate> |
| 54 | - <StopDate>2013-09-08T23:59:08Z</StopDate> | 54 | + <StopDate>2016-02-09T23:59:21Z</StopDate> |
| 55 | </TimeSpan> | 55 | </TimeSpan> |
| 56 | <Cadence>PT64S</Cadence> | 56 | <Cadence>PT64S</Cadence> |
| 57 | </TemporalDescription> | 57 | </TemporalDescription> |
NumericalData/AMDA/IMP-8/MAG/imp-mag-k0.xml
| @@ -4,7 +4,7 @@ | @@ -4,7 +4,7 @@ | ||
| 4 | <NumericalData> | 4 | <NumericalData> |
| 5 | <ResourceID>spase://CDPP/NumericalData/AMDA/IMP8/MAG/imp-mag-k0</ResourceID> | 5 | <ResourceID>spase://CDPP/NumericalData/AMDA/IMP8/MAG/imp-mag-k0</ResourceID> |
| 6 | <ResourceHeader> | 6 | <ResourceHeader> |
| 7 | - <ResourceName>IMP 8 MAG 15.36s Magnetic Field Measurements</ResourceName> | 7 | + <ResourceName>15 sec (i8_15sec_mag)</ResourceName> |
| 8 | <ReleaseDate>2015-10-16T16:30:15Z</ReleaseDate> | 8 | <ReleaseDate>2015-10-16T16:30:15Z</ReleaseDate> |
| 9 | <Description>IMP 8 magnetic field measurements from tri-axis magnetometer. | 9 | <Description>IMP 8 magnetic field measurements from tri-axis magnetometer. |
| 10 | Time resolution is 15.36 second. Data are based on a 2010 data reprocessing | 10 | Time resolution is 15.36 second. Data are based on a 2010 data reprocessing |
| @@ -56,7 +56,7 @@ to the last 1.28s measurement in the 15.36s average. Since the data is on avera | @@ -56,7 +56,7 @@ to the last 1.28s measurement in the 15.36s average. Since the data is on avera | ||
| 56 | tag. On average, however, it should be about 15.36 seconds.</Caveats> | 56 | tag. On average, however, it should be about 15.36 seconds.</Caveats> |
| 57 | <Keyword>Magnetic field</Keyword> | 57 | <Keyword>Magnetic field</Keyword> |
| 58 | <Parameter> | 58 | <Parameter> |
| 59 | - <Name>B vector GSE</Name> | 59 | + <Name>b_gse</Name> |
| 60 | <ParameterKey>imp8_b</ParameterKey> | 60 | <ParameterKey>imp8_b</ParameterKey> |
| 61 | <Description>Magnetic field vector in GSE coordinates</Description> | 61 | <Description>Magnetic field vector in GSE coordinates</Description> |
| 62 | <Ucd>phys.magField</Ucd> | 62 | <Ucd>phys.magField</Ucd> |
| @@ -73,19 +73,19 @@ tag. On average, however, it should be about 15.36 seconds.</Caveats> | @@ -73,19 +73,19 @@ tag. On average, however, it should be about 15.36 seconds.</Caveats> | ||
| 73 | <Structure> | 73 | <Structure> |
| 74 | <Size>3</Size> | 74 | <Size>3</Size> |
| 75 | <Element> | 75 | <Element> |
| 76 | - <Name>Bx GSE</Name> | 76 | + <Name>bx</Name> |
| 77 | <Qualifier>Component.I</Qualifier> | 77 | <Qualifier>Component.I</Qualifier> |
| 78 | <Index>1</Index> | 78 | <Index>1</Index> |
| 79 | <ParameterKey>imp8_b(0)</ParameterKey> | 79 | <ParameterKey>imp8_b(0)</ParameterKey> |
| 80 | </Element> | 80 | </Element> |
| 81 | <Element> | 81 | <Element> |
| 82 | - <Name>By GSE</Name> | 82 | + <Name>by</Name> |
| 83 | <Qualifier>Component.J</Qualifier> | 83 | <Qualifier>Component.J</Qualifier> |
| 84 | <Index>2</Index> | 84 | <Index>2</Index> |
| 85 | <ParameterKey>imp8_b(1)</ParameterKey> | 85 | <ParameterKey>imp8_b(1)</ParameterKey> |
| 86 | </Element> | 86 | </Element> |
| 87 | <Element> | 87 | <Element> |
| 88 | - <Name>Bz GSE</Name> | 88 | + <Name>bz</Name> |
| 89 | <Qualifier>Component.K</Qualifier> | 89 | <Qualifier>Component.K</Qualifier> |
| 90 | <Index>3</Index> | 90 | <Index>3</Index> |
| 91 | <ParameterKey>imp8_b(2)</ParameterKey> | 91 | <ParameterKey>imp8_b(2)</ParameterKey> |
| @@ -100,7 +100,7 @@ tag. On average, however, it should be about 15.36 seconds.</Caveats> | @@ -100,7 +100,7 @@ tag. On average, however, it should be about 15.36 seconds.</Caveats> | ||
| 100 | </Field> | 100 | </Field> |
| 101 | </Parameter> | 101 | </Parameter> |
| 102 | <Parameter> | 102 | <Parameter> |
| 103 | - <Name>B vector GSM</Name> | 103 | + <Name>b_gsm</Name> |
| 104 | <ParameterKey>imp8_b_gsm</ParameterKey> | 104 | <ParameterKey>imp8_b_gsm</ParameterKey> |
| 105 | <Description>Magnetic field vector in GSM coordinates</Description> | 105 | <Description>Magnetic field vector in GSM coordinates</Description> |
| 106 | <Ucd>phys.magField</Ucd> | 106 | <Ucd>phys.magField</Ucd> |
| @@ -117,19 +117,19 @@ tag. On average, however, it should be about 15.36 seconds.</Caveats> | @@ -117,19 +117,19 @@ tag. On average, however, it should be about 15.36 seconds.</Caveats> | ||
| 117 | <Structure> | 117 | <Structure> |
| 118 | <Size>3</Size> | 118 | <Size>3</Size> |
| 119 | <Element> | 119 | <Element> |
| 120 | - <Name>Bx GSM</Name> | 120 | + <Name>bx</Name> |
| 121 | <Qualifier>Component.I</Qualifier> | 121 | <Qualifier>Component.I</Qualifier> |
| 122 | <Index>1</Index> | 122 | <Index>1</Index> |
| 123 | <ParameterKey>imp8_b_gsm(0)</ParameterKey> | 123 | <ParameterKey>imp8_b_gsm(0)</ParameterKey> |
| 124 | </Element> | 124 | </Element> |
| 125 | <Element> | 125 | <Element> |
| 126 | - <Name>By GSM</Name> | 126 | + <Name>by</Name> |
| 127 | <Qualifier>Component.J</Qualifier> | 127 | <Qualifier>Component.J</Qualifier> |
| 128 | <Index>2</Index> | 128 | <Index>2</Index> |
| 129 | <ParameterKey>imp8_b_gsm(1)</ParameterKey> | 129 | <ParameterKey>imp8_b_gsm(1)</ParameterKey> |
| 130 | </Element> | 130 | </Element> |
| 131 | <Element> | 131 | <Element> |
| 132 | - <Name>Bz GSM</Name> | 132 | + <Name>bz</Name> |
| 133 | <Qualifier>Component.K</Qualifier> | 133 | <Qualifier>Component.K</Qualifier> |
| 134 | <Index>3</Index> | 134 | <Index>3</Index> |
| 135 | <ParameterKey>imp8_b_gsm(2)</ParameterKey> | 135 | <ParameterKey>imp8_b_gsm(2)</ParameterKey> |
| @@ -144,7 +144,7 @@ tag. On average, however, it should be about 15.36 seconds.</Caveats> | @@ -144,7 +144,7 @@ tag. On average, however, it should be about 15.36 seconds.</Caveats> | ||
| 144 | </Field> | 144 | </Field> |
| 145 | </Parameter> | 145 | </Parameter> |
| 146 | <Parameter> | 146 | <Parameter> |
| 147 | - <Name>B magnitude</Name> | 147 | + <Name>|b|</Name> |
| 148 | <ParameterKey>imp8_btot</ParameterKey> | 148 | <ParameterKey>imp8_btot</ParameterKey> |
| 149 | <Description>Magnitude of the magnetic field</Description> | 149 | <Description>Magnitude of the magnetic field</Description> |
| 150 | <Ucd>phys.magField</Ucd> | 150 | <Ucd>phys.magField</Ucd> |