The Nancy Grace Roman Space Telescope, NASA's future space observatory is due to launch in 2025 in search of other earth-like worlds. It carries two instruments: one to study the mystery of dark energy distribution in the cosmos; and the first dedicated exoplanet imaging camera in space, the CGI (CoronaGraph Imager). Within the CGI will be two high sensitivity cameras with electronic cores developed by ABB together with Nüvü. Extra-solar planetary systems are extremely difficult to observe from large distances as planets are tremendously dimmer than their neighboring star and barely separated from one another. NASA's CGI complex arrangement of optical components manage to block out the star light and send the residual light of the nearby planet to a highly sensitive camera. This is where the unique ABB/Nüvü imaging solution comes at play in revealing the unusual dot that was previously invisible. The ABB contract win follows a recent contract award from GHGSAT, a private satellite constellation operator, to supply additional optical sensors capable of imaging methane leaks on the ground in high definition. ABB optical equipment already in space cumulates more than 90 years of reliable operation. The SCISAT sensor tracks long-term composition changes in the earth's atmosphere of more than 60 molecules and pollutants down to parts per trillion since 2003. Weather agencies around the world base their predictions on ABB technology at the heart of the latest generation of polar satellites of the National Oceanic and Atmospheric Administration (NOAA), which saves lives by improving the timeliness and accuracy of weather forecasts for up to seven days. ABB sensors are also flying onboard the Japanese GOSAT 1 and 2 satellites monitoring at high accuracy the steady rise of greenhouse gases around the world since 2009.