Issue 112

China Launches its 3rd PIESAT SAR Formation

16 Dec: China launched a Long March-2D with four PIESAT-2 satellites (PIESAT-2 09-12 ) from Taiyuan. According to official sources, the PIESAT-02 09-12 satellites were designed and manufactured by GalaxySpace and will be “mainly used for synthetic aperture radar (SAR) imaging, with high-precision imaging capability”…

16 Dec: China launched a Long March-2D with four PIESAT-2 satellites (PIESAT-2 09-12 <62333-36>) from Taiyuan. According to official sources, the PIESAT-02 09-12 satellites were designed and manufactured by GalaxySpace and will be “mainly used for synthetic aperture radar (SAR) imaging, with high-precision imaging capability”. The PIESAT satellites are intended to cooperatively collect SAR imagery. There are now 3 sets of PIESAT satellites on orbit. Launch Video.

– PIESAT-2 09-12 are in 518 x 533km orbit inclined by 97.5 degrees. These values match the other PIESAT groups.

– PIESAT-1 and PIESAT-2 are X-band radar remote sensing (X-SAR) satellites.

– The PIESAT-2 satellites are part of the “Zhuzhou Constellation” which, when completed, will be composed of 16 small SAR satellites. While not stated, there will be a total of 20 PIESAT satellites on orbit, the first 4 may be considered test spacecraft.

– The 4 satellites in each PIESAT group, consist of one 320-kilogram pivot satellite and three 270-kg assistant satellites. It appears the Pivot Satellite maintains its orbit while the other 3 seem to rotate along its axis. This is consistent with prelaunch renderings. Watch Video.

– The main satellite will act as the transmitter, while the three passive satellites are the receivers.

– The 4 PISAT-1 satellites continuously operate within 1km of one another demonstrating the ability to maintain formation.

– Once the constellation is complete the time interval between two consecutive observations of the same location will be ~2.5 hours.

To meet the requirements of satellite launch configurations, the Long March 2D rocket used a 3.8-meter diameter composite-material payload fairing for the first time. This fairing offers a larger internal space envelope, allowing for omnidirectional wave transmission.