Sentinel 5 Precursor

Overview

Sentinel-5 Precursor will be the first mission of the Copernicus Programme dedicated to monitoring air pollution. Its instrument is an ultraviolet, visible, near and short-wavelength infrared spectrometer called Tropomi. The Satellite is built on a hexagonal Astrobus L 250 satellite bus equipped with S- and X-band communication antennas, three foldable solar panels generating 1500W and hydrazine thrusters for station-keeping.

Once launched, the satellite will be put in a 824 km Sun-synchronous orbit with a Local Time of Ascending Node of 13:30 hours.

Tropomi

Tropomi (TROPOspheric Monitoring Instrument) will be a spectrometer sensing ultraviolet (UV), visible (VIS), near (NIR) and short-wavelength infrared (SWIR) to monitor ozone, methane, formaldehyde, aerosol, carbon monoxide, NO₂ and SO₂ in the atmosphere. It extends the capabilities of the OMI from the Aura satellite and the SCIAMACHY instrument from Envisat.

Tropomi will be taking measurements every second covering an area of approximately 2600km wide and 7km long in a resolution of 7x7km. Light will be separated into different wavelengths using grating spectrometers and then measured with four different detectors for respective spectral bands. The UV spectrometer has a spectral range of 270-320nm, the visible light spectrometer has a range of 310-500nm, NIR has a range of 675-775nm, and SWIR has a range of 2305-2385nm.

The instrument is split into four major blocks: UV-VIS-NIR spectrometers and a calibration block, SWIR spectrometer with its optics, instrument control unit and a cooling block. The total mass of Tropomi will be 200kg with a power consumption of 170W on average and a data output of 140 Gbits per orbit.

The instrument is being built by a joint venture between the Netherlands Space Office, Royal Netherlands Meteorological Institute, Netherlands Institute for Space Research, Netherlands Organisation for Applied Scientific Research and Airbus Defence and Space Netherlands.

The SWIR spectrometer was designed and built by the Optical Payloads Group of Surrey Satellites (SSTL); it employs an immersed grating design in which light impinges upon an etched grating from within a high-index substrate (silicon in this case). The reduced wavelength within the refractive medium permits an efficient, space-saving design. The SWIR grating was provided by SRON (Netherlands), who also provided the Front-End Electronics (FEE). The SWIR spectrometer receives light from the main instrument via an intermediate pupil, and directs this - via a telescope - towards a slit which defines the along-track footprint of the instrument on the ground. Light from the slit is re-collimated, diffracted by the immersed-grating at high-order and finally imaged onto a two-dimensional detector by a high aperture relay lens. The SWIR detector (furnished by Sofradir, France) has 256 elements in the across-track direction and 1024 elements in the spectral direction (the element pitch is 30 microns); it is operated cold (typically 140 K). The SWIR spectrometer optics are mounted on a cooled optical bench (approximately 200K) and the instrument is insulated by a multiple-layer insulation (MLI) blanket. The SWIR instrument was aligned, focussed and characterised at the Mullard Space Science laboratory thermal vacuum facility in Surrey, UK.

History

First large contract for Sentinel-5P was signed in July 2009 for Tropomi instrument between the European Space Agency and Dutch Ministry of Economic Affairs which contributed 78 € million. On 8 December 2011 ESA selected Astrium UK as a prime contractor for the satellite, signing contract worth 45.5 € million Construction of the satellite itself was completed in May 2014, and integration with its primary instrument has been completed successfully.

The satellite will be launched by Eurockot Launch Services onboard Rokot. Launch was originally planned for late 2016 but has been postponed, and currently planned to occur in August 2017.