Analysis of Developments in the Space Domain
6 Sep 2025: China launched Long March-6A with the Yaogan-40 03 triplets (65544, 65545 & 65546) from Taiyuan. According to official sources, the satellites entered the preset orbits and “will be used to carry out electromagnetic environment detection and related technical tests”. China has added 2 YG-40 triplets in 2025 (YG-40 02 launched in May), the original YG-40 launched in Sep 2023. All three launches have been from Taiyuan. The YG-40 satellites are inclined at 86.0° to allow China to monitor the Arctic and Antarctic regions, and fly in an equilateral triangle formation likely performing the radio frequency monitoring and geolocation mission. As of 11 Sep 25 the YG-40 03 triplets had begun to maneuver to establish their equilateral triangle formation. Launch Video.
– YG-40 03 deployment is following a similar pattern with both YG-40 01 and YG-40 02.
-Looking more broadly at the YG-40 constellation, China has placed YG-40 03 36° west of YG-40 01 and 36° east of YG-40 02. (see graphic).
9 Sep 2025: China launched a Long March-7A with the Yaogan-45 (65563) satellite from Wenchang. Official sources noted the satellite entered the planned orbit and “will be mainly used for scientific experiments, land resource surveys, crop yield estimates, and disaster prevention and relief work”. This mission description matches those provided by other Yaogan satellites with Earth observation (imagery) missions. YG-45’s orbit is an unusual one in that it is much higher than is typical for Earth Observation satellites, ~7,500km, and is in Medium Earth Orbit (MEO). YG-45 is the first Yaogan satellite in MEO and I believe the first Chinese non-Beidou satellite in MEO. Launch Video.
– As of 14 Sep the 18 Space Defense Squadron (SDS) has collected only one observation of YG-45. With this information the satellite appears to be in a 7,500km orbit with an inclination of 20.0°.
-China’s use of the LM-7A likely indicates YG-45 is a large satellite.
5 Sep 2025: China launched a Long March-3C with a Yuanzheng-1 upper stage, with the Shiyan-29 satellite (65486) from the Xichang. According to official sources, the satellite was developed by the Innovation Academy for Microsatellites of the Chinese Academy of Sciences (IAMCAS) and uses the SECM3000 satellite platform. Shiyan-29 entered the desired orbit and “will be mainly used for space environment detection and related technical tests”. Launch Video.
– China has placed SY-29 into a very unusual and interesting orbit. The satellite is technically in super-GEO, in that its orbital period is greater than 24 hours.
– The GEO belt (the distance above the equator where the orbital period is ~24hrs) is 35,786km. SY-29 has an apogee (furthest point from the earth) of 36,570km, or 784km > GEO. SY-29’s perigee (closest point to the earth) is 35,800km, or 14km > GEO.
– Most objects in GEO are inclined <2°, SY-29 is inclined 28.5°.
– With its current orbital parameters, SY-29 is moving westward 5.4° per day.
– SY-29’s unique orbit will likely complicate efforts to characterize the satellite through Non-Earth Imaging. USA 270 and 271 are US GSSAP satellites, both are inclined at ~3.4°. China’s inspector satellites, SY-12 01/02 and SJ-23 are inclined ~3°.
8 Sep 2025: Geely, a Chinese auto manufacturer, launched a Smart Dragon-3 (Jielong-3) with 11 satellites (GeeSAT-5) (65550-65560) from a sea-based platform off the coast of Rizhao, Shandong Province. According to official sources, the 11 Geely satellites were successfully placed into a 600km Low-Earth orbit. Launch Video. Better launch Video.
– Current Status
– Per website: “The ‘Geely Future Mobility Constellation’, also known as GEESATCOM and developed by Geespace, is a low Earth orbit (LEO) satellite constellation designed to provide comprehensive global communication and ‘Vehicle-2-Everything’ connectivity services.”
– GEESATCOM deployment is scheduled for three phase implementation.
– Geely is currently 20 satellites short of their Phase 1 goal of 72 satellites.
Editor’s Comment: GeeSAT is China’s third entry into the proliferated Low Earth Orbit (pLEO) megaconstellation game. We will be watching for future sea-based launches to complete Phase 1 of the constellation. There are currently navigation warnings in place for another Jielong-3 sea launch on 21 Sep 2025.
11 Sep 2025: One of China’s GEO-based inspector satellites, Shiyan-12 02 (50322) had a point of closest approach (POCA) with a US missile warning satellite, the Space based infrared system (SBIRS) GEO 6 (USA 336/53355). POCA occurred on 11 Sep at ~2247Z as SY-12 02 was continuing on its westward drift. At POCA the 2 satellites were <60km from one another (safe distance and not unusual). The solar phase angle was ideal for SY-12 02 to image USA 336 with the sun nearly directly behind SY-12 02 (see graphic). China did make a slight maneuver with SY-12 02 from 11-15 Aug when the satellite decreased its SMA ~1.5km. Unknown if China conducted this maneuver to optimize collection opportunity with USA 336.
14 Sep 2025: Russia made at least 2 maneuvers from 6-9 September with Cosmos 2588 (64095) and raised its orbit ~6.4km. The SMA increase appears to be larger than recent station keeping maneuvers. Cosmos 2588 remains in nearly co-planar orbit with the US satellite USA 338. The two satellites routinely have a point of closest approach (POCA) of <100km every 4 days. Cosmos 2588 is believed to be one of Russia’s Nivelir inspector satellites that US Space Command has labelled a “space weapon.” I don’t believe the maneuvers resulted in any appreciable difference in POCA distances between Cosmos 2588 and USA 338.
14 Sep 2025: We now have a new name for Object C which was the sub-satellite released by Cosmos 2589 back in July. Russia has registered Object C (64527) and it will now be known as Cosmos 2590. No changes to the naming convention for Cosmos 2589 (64467).
COSMOS 2589 and COSMOS 2590 continue to conduct RPO operations. Current orbital parameters have the two satellites separated by ~6-15km (slightly closer than I reported in the previous Flash). Cosmos 2590 appears to be making the majority of the maneuvers, it appears Cosmos 2589 has not made any significant maneuvers over the past 2 months. Last clear maneuver was 8 Jul 2025. Lighting conditions vary throughout the orbit.
Russia is likely testing out a GEO-based version of its Nivelir system (see previous article on Cosmos 2588). In its current orbit Russia is able to conduct testing while remaining thousands of kilometers away from GEO-based inspection satellites. Testing objectives and timeline are unknown. Also unknown is whether Cosmos 2590 will release a 3rd object as occurred with Cosmos 2519 and 2542. It is possible that once testing is complete one or both of the satellites will lower their apogee and raise their perigee to join the GEO belt.