BackForwardInstrument:  MTVZA-GY-MP 

Instrument details
Acronym MTVZA-GY-MP
Full name Imaging/Sounding Microwave Radiometer for Meteor-MP
Purpose Multi-purpose imager with temperature/humidity sounding channels for improved precipitation
Short description 21 frequencies / 29 channels including bands 54 and 183 GHz [see detailed characteristics below]
Background Evolution of MTVZA-GY flown on Meteor-M N1, N2, N2-1, N2-2
Scanning Technique Conical: 53.3° zenith angle, swath 2200 km - Scan rate: 24.9 scan/min = 15.8 km/scan
Resolution From 12 km at 183 GHz to 250 km at 6.9 GHz; consistent with an antenna diameter of 65 cm
Coverage / Cycle Near-global coverage twice/day
Mass 100 kg Power 80 W Data Rate 35 kbps

 

Providing Agency Roscosmos
Instrument Maturity Flown on operational programme
Utilization Period: 2032 to 2043
Last update: 2021-11-03
Detailed characteristics

No.

Central frequency (GHz)

Bandwidth (MHz)

Polarisations

NEΔT

IFOV

Pixel

1

6.9

400

V, H

0.5 K

135x302 km

32x32 km

2

10.6

100

V, H

0.5 K

89x198 km

32x32 km

3

18.7

200

V, H

0.4 K

52x116 km

32x32 km

4

23.8

400

V, H

0.3 K

42x94 km

32x32 km

5

31.5

400

V, H

0.3 K

35x76 km

32x32 km

6

36.7

400

V, H

0.3 K

30x67 km

32x32 km

7

52.30

400

V, H

0.4 K

21x48 km

32x32 km

8

52.80

400

V

0.4 K

21x48 km

48x48 km

9

53.30

400

V

0.4 K

21x48 km

48x48 km

10

53.80

400

V

0.4 K

21x48 km

48x48 km

11

54.64

400

V

0.4 K

21x48 km

48x48 km

12

55.63

400

V

0.4 K

21x48 km

48x48 km

13

57.290344±0.3222±0.1

50

H

0.4 K

21x48 km

48x48 km

14

57.290344±0.3222±0.05

20

H

0.7 K

21x48 km

48x48 km

15

57.290344±0.3222±0.025

10

H

0.9 K

21x48 km

48x48 km

16

57.290344±0.3222±0.01

5

H

1.3 K

21x48 km

48x48 km

17

57.290344±0.3222±0.005

3

H

1.7 K

21x48 km

48x48 km

18

91.655

2500

V, H

0.6 K

14x30 km

16x16 km

19

183.31 ± 7.0

1500

V

0.5 K

9x21 km

32x32 km

20

183.31 ± 3.0

1000

V

0.6 K

9x21 km

32x32 km

21

183.31 ± 1.0

500

V

0.8 K

9x21 km

32x32 km

Satellites this instrument is flying on

Note: a red tag indicates satellites no longer operational, a green tag indicates operational satellites, a blue tag indicates future satellites

Instrument classification
  • Earth observation instrument
  • Passive microwave radiometer
  • Conical scanning microwave radiometer
WIGOS Subcomponents
  • Subcomponent 1
  • MW sounders [in SSO]
  • MW sounder [in SSO]
  • MW imagery [in SSO]
  • MW imager [in SSO]
  • MW cross-track upper stratospheric and mesospheric sounders
  • MW cross-track upper stratospheric and mesospheric sounder
Mission objectives
Primary mission objectives
  • Precipitation intensity at surface (liquid or solid)
  • Sea surface temperature
  • Sea-ice cover
  • Wind speed (near surface)
Evaluation of Measurements

The following list indicates which measurements can typically be retrieved from this category of instrument. To see a full Gap Analysis by Variable, click on the respective variable.

Note: table can be sorted by clicking on the column headers
Note: * Primary mission objective.
VariableRelevance for measuring this variableOperational limitationsExplanation
Accumulated precipitation3 - highPoor time sampling.. Time sampling to be interpolated by GEO.MW channels around 10, 19, 23, 37 and 90 GHz and in 54 and 183 GHz bands
Atmospheric temperature2 - very highCoarse vertical resolution.Many MW channels in the 54 GHz band. Nearly all-weather sounding
Biomass3 - highIndex only.. Coarse spatial resolution.Derived from differential effect of vegetation across MW frequencies around 7, 10 and 19 GHz
Cloud ice3 - highNo specific limitation.MW channels around 37 and 90 GHz, and in bands 54 and 183 GHz
Cloud ice Total Column3 - highNo specific limitation.MW channels around 37 and 90 GHz, and in bands 54 and 183 GHz
Cloud ice effective radius2 - very highNo specific limitation.MW channels around 37 and 90 GHz, and in bands 54 and 183 GHz
Cloud liquid water (CLW)2 - very highNo specific limitation.MW channels around 37 and 90 GHz, and in bands 54 and 183 GHz
Cloud liquid water (CLW) total column2 - very highNo specific limitation.MW channels around 37 and 90 GHz, and in bands 54 and 183 GHz
Downward long-wave irradiance at Earth surface5 - marginalHighly indirect.MW channels in bands 54 and 183 GHz to account for downward cloud radiation
Freezing level height in clouds3 - highNo specific limitation.MW channels in the 54 GHz band. Inference from the temperature profile
Land surface temperature5 - marginalCoarse spatial resolution.MW channels around 7 and 10 GHz
Long-wave Earth surface emissivity3 - highLong time series needed.MW channels around 7, 10, 19, 37 and 90 GHz. Emissivity across this MW range inferred by statistical analysis
Melting layer depth in clouds3 - highNo specific limitation.MW channels in the 54 GHz band. Inference from the temperature profile
Precipitation intensity at surface (liquid or solid)*3 - highNo specific limitation.MW channels around 10, 19, 23, 37 and 90 GHz, and in bands 54 and 183 GHz (for atmospheric structure). To cover sea and land, heavy and light precipitation
Sea surface temperature*3 - highNo specific limitation.MW channels around 7 and 10 GHz
Snow cover3 - highCoarse spatial resolution.MW channels around 19, 37 and 90 GHz. Higher frequencies less sensitive to emissivity from ground under snow
Snow status (wet/dry)2 - very highCoarse spatial resolution.MW channels around 19, 37 and 90 GHz. Higher frequencies less sensitive to emissivity from ground under snow
Snow water equivalent2 - very highCoarse spatial resolution.. Ground stations network needed.MW channels around 19, 37 and 90 GHz. Higher frequencies less sensitive to emissivity from ground under snow
Soil moisture (in the roots region)4 - fairCoarse spatial resolution.. Affected by vegetation.MW channels around 7 GHz. Assimilation process required
Soil moisture at surface3 - highCoarse spatial resolution.. Affected by vegetation.MW channels around 7 and 10 GHz
Specific humidity2 - very highCoarse vertical resolution.MW channels in the 183 GHz band, and 54 GHz for temperature and liquid water corrections
Integrated Water Vapour (IWV)1 - primaryNo specific limitation.MW channel(s) in the water vapour bands around 23 and 183 GHz
Upward long-wave irradiance at Earth surface5 - marginalHighly indirect.MW channels is the 54 and 183 GHz bands to infer the impact of clouds on the upward LW radiation
Wind speed (near surface)*2 - very highOver sea only.MW channels around 7, 10, 19 and 37 GHz
Cloud drop effective radius5 - marginalHighly indirect.MW channels around 37 and 90 GHz, and in bands 54 and 183 GHz
Sea-ice cover*3 - highNo specific limitation.MW channels around 7, 10, 19, 37 and 90 GHz
Sea-ice type4 - fairNo specific limitation.MW channels around 7, 10, 19, 37 and 90 GHz. Type interpreted as age/roughness