Designer | ISS Reshetnev | ||
---|---|---|---|
Country of origin | Russia | ||
Operator | JSC «Navigation-Information Systems» | ||
Applications | Navigation | ||
Specifications | |||
Bus | 3-Axis stabilized Uragan-M[2] | ||
Constellation | GLONASS | ||
Launch mass | 1,415 kg (3,120 lb)[1] | ||
Power | 1250 W[1] | ||
Batteries | NiH2[3] | ||
Equipment | 3 Cs clocks[3] FDMA signals: L1OF, L1SF, L2OF and L2SF CDMA signals: L3OC (s/n 755+) Space Laser Ranging[3] | ||
Regime | MEO | ||
Design life | 7 years[1] | ||
Production | |||
Built | 51 | ||
Launched | 51 | ||
Operational | 21 | ||
Retired | 24 | ||
Lost | 6 | ||
Maiden launch | 10 December 2003 (Kosmos 2404) | ||
Last launch | 28 November 2022 (Kosmos 2564) | ||
Last retirement | 3 December 2022 (Kosmos 2464) | ||
Related spacecraft | |||
Derived from | GLONASS | ||
|
GLONASS-M (Russian: ГЛОНАСС-М), also known as Uragan-M (Russian: Ураган-М) (GRAU index 11F654M given to the first two pilot satellites and 14F113 to the rest) are the second generation of Uragan satellite design used as part of the Russian GLONASS radio-based satellite navigation system. Developed by ISS Reshetnev (Information Satellite Systems Reshetnev), it had its debut launch in 2003, and is in the process of being phased out. Its production finished in 2015 and its last launch was in November 2022. It is an evolution of the previous Uragan (GRAU Index 11F654) second-generation satellites, improving accuracy, increasing power, extending the design life and adding the FDMA L2OF open signal. The last eight Glonass-M spacecraft in production included the new CDMA L3OC open signal.
Design
It used a 3-axis stabilized pressurized bus with two solar panels, a propulsion module and a payload module.[4] At 1,415 kilograms (3,120 lb) these are just 2 kg (4.4 lb) heavier than the previous generation, but have 25% more power 1250 W, 230% more design life (7 years), an additional signal (L2OF) and generally improved accuracy.[1] It uses an on-board computer based on a Russian microprocessor reimplementation of the VAX 11/750 architecture: the Angstrem K1839.[5]
The Uragan-M are usually launched in trios, and due to the close distance, the radios of the three would interfere with each other, meaning that the ground segment can only command one satellite at a time. Setting sun pointing attitude for power and then Earth pointing attitude for communications for a single unit takes about 5 hours. Since the radio contact window with ground control is between 4 and 6 hours, ground control can not control all spacecraft in a single pass. The on-board computer in the Uragan-M can put the spacecraft in sun pointing mode autonomously, and does many of the start up processes so the ground segment can take control and process the Earth pointing mode.[6]
The payload consists of L-Band navigation signals in 25 channels separated by 0.5625 MHz intervals in 2 frequency bands: 1602.5625 - 1615.5 MHz and 1240 - 1260 MHz. EIRP 25 to 27 dBW. Right hand circular polarized.[7] It transmits the FDMA signals L1OF, L1SF, L2OF and L2SF, with the open L2OF being new to the Uragan series. It uses 3 Cs clocks with a clock stability of 1x10−13 (an 5x improvement over the 5x10−13 clock stability of the previous generation Uragan).[3]
In 2011 ISS Reshetnev announced plans to include the new CDMA signal L3OC, first introduced on Glonass-K series, on Glonass-M satellites flown from 2014; seven of these enhanced models were launched between 2014 and 2022 (s/n 755 to 761).[8]
History
The first generation Uragan spacecraft were created under ban of foreign radiation-hardened components and thus had been an inferior product with just 3 years of expected design life.[9] Given the realized average life was just 22 months, and the fleet should have 24 spacecraft, it was necessary to launch more than 7 spacecraft per year to keep the fleet in good health.[10] To this end, the Uragan-M was designed, with an increased design life of 7 years, thanks to the availability of ITAR controlled parts.[11][12][13]
On December 1, 2001, a first generation GLONASS satellite Kosmos 2382 with new flight control and power systems was launched. This satellite was incorrectly named Uragan-M in a RIA Novosti news message issued days before the launch. When contacted by Novosti Kosmonavtiki magazine Roscosmos spokesman said all three launched satellites were first generation versions but one of them featured new upgraded flight control and power systems.[14] Novosti Kosmonavtiki also pointed out the fact that GLONASS-M project had been approved on August 20, 2001, just three months before Kosmos 2382 launch. RIA Novosti mistake was widely propagated causing confusion regarding which satellite was the first GLONASS-M satellite.
On December 10, 2003, the first Uragan-M was launched by a Proton-K / Briz-M from Baikonur along two Uragan Block IIv satellites. On December 26, 2004, the second Uragan-M was launched by a Proton-K DM-2, also along two Uragan Block IIv satellites. And on December 25, 2005, two Uragan-M were launched along the last Uragan Block IIv satellites.[15][16]
On December 25, 2006, launched the first trio of only Uragan-M. Two launches by late 2007 meant that six additional Uragan-M were added to the fleet. And another six were successfully launched in 2008. On September 12, 2008 Prime Minister Vladimir Putin signed RF Government Resolution on increasing GLONASS Program financing by 67 billion rubles.[15][16] 2009 saw the launch of a single trio of Uragan-M, and with nine spacecraft planned for 2010, full service availability was expected. Regrettably, the third launch, on 5 December 2010, ended in failure, leaving no on-orbit spares.[17]
On October 2, 2011, the first launch of single Uragan-M satellite was performed by a Soyuz-2.1b/Fregat-M which put Kosmos 2474 on orbit from the Plesetsk Cosmodrome. Another Proton-M launched trio and an additional Soyuz-2.1b/Fregat-M launch put the fleet at full operative capacity with 24 healthy satellites.[18] On April 26, 2013, a Soyuz successfully orbited Kosmos 2485, but the Proton-M mission failed spectacularly taking with it a trio of Uragan-M.[19] During 2014, two satellites were launched by Soyuz in March and June.
On a May 28, 2014 interview, Nikolay Testoyedov — president of ISS Reshetnev — stated that production of GLONASS-M would end in 2015, with GLONASS-K being exclusively produced after that final batch.[20] In a December 14, 2014 interview with GPS World, he stated that while the original idea was to have just two GLONASS-K1 prototypes to be followed by the GLONASS-K2 production, the Western sanctions limited the supply of radiation resistant electronics. And thus, they had decided to launch an additional nine GLONASS-K1 as fleet replacement while they finished the GLONASS-K2 design.[21] In a May, 2015 presentation, Mr. Testoyedov expected the last GLONASS-M to fly in late 2017.[22] On July 30, 2015, ISS Reshetnev announced that it had completed the last GLONASS-M (No.61) spacecraft and it was putting it in storage waiting for launch, along with an additional eight already built satellites.[23][24] The last production batch (s/n 755+) is an enhanced GLONASS-M that includes an additional transmitter and antenna for the L3OC CDMA signal. After four successful launches until 2019, the last three spacecraft remained in storage and were launched as needed in 2019-2022.[8]
Uragan-M launches
Statistics
Launched | Operational | Not in service | Retired | Launch failures |
---|---|---|---|---|
51 (all) | 21 | 0 | 24 | 6 |
Launch history
Satellites
Satellite | Launch date/time (UTC) | Carrier rocket | Launch site | Launch block | Satellite type | Serial number | Orbital plane | Slot | Status / Retirement | Remarks |
---|---|---|---|---|---|---|---|---|---|---|
Kosmos 2404 | 10 December 2003 13:53 |
Proton-K Briz-M |
Baikonur 81/24 |
32 | M | 701 | I | 6 | 18 June 2009 | |
Kosmos 2413 | 26 December 2004 13:53 |
Proton-K DM-2 |
Baikonur 200/39 |
33 | M | 712 | I | 8 | 22 November 2012 | |
Kosmos 2418 | 25 December 2005 05:07 |
Proton-K DM-2 |
Baikonur 81/24 |
34 | M | 713 | III | 24 | 18 February 2010 | |
Kosmos 2419 | M | 714 | III | 17 | 24 February 2016 | |||||
Kosmos 2424 | 25 December 2006 20:18 |
Proton-K DM-2 |
Baikonur 81/24 |
35 | M | 715 | II | 14 | 26 June 2017 | |
Kosmos 2425 | M | 716 | II | 15 | 20 July 2021 | |||||
Kosmos 2426 | M | 717 | II | 10 | 1 August 2019 | |||||
Kosmos 2431 | 26 October 2007 07:35 |
Proton-K DM-2 |
Baikonur 81/24 |
36 | M | 718 | III | 17 | 20 October 2011 | |
Kosmos 2432 | M | 719 | III | 20 | Operational | |||||
Kosmos 2433 | M | 720 | III | 19 | Operational | |||||
Kosmos 2434 | 25 December 2007 19:32 |
Proton-M DM-2 |
Baikonur 81/24 |
37 | M | 721 | II | 13 | Operational | |
Kosmos 2435 | M | 722 | II | 14 | 12 October 2011 | |||||
Kosmos 2436 | M | 723 | II | 10 | Operational | |||||
Kosmos 2442 | 25 September 2008 08:49 |
Proton-M DM-2 |
Baikonur 81/24 |
38 | M | 724 | III | 18 | 12 February 2014 | |
Kosmos 2443 | M | 725 | III | 21 | 8 July 2016 | |||||
Kosmos 2444 | M | 726 | III | 22 | 28 November 2012 | |||||
Kosmos 2447 | 25 December 2008 10:43 |
Proton-M DM-2 |
Baikonur 81/24 |
39 | M | 727 | I | 3 | 28 November 2012 | |
Kosmos 2448 | M | 728 | I | 2 | 16 October 2013 | |||||
Kosmos 2449 | M | 729 | I | 8 | 9 September 2012 | |||||
Kosmos 2456 | 14 December 2009 10:38 |
Proton-M DM-2 |
Baikonur 81/24 |
40 | M | 730 | I | 1 | Operational | |
Kosmos 2457 | M | 733 | I | 6 | Operational - No L2 Signal[25] | |||||
Kosmos 2458 | M | 734 | I | 5 | 6 August 2018 | |||||
Kosmos 2459 | 1 March 2010 21:19 |
Proton-M DM-2 |
Baikonur 81/24 |
41 | M | 731 | III | 22 | 10 March 2021 | |
Kosmos 2460 | M | 732 | III | 23 | Operational | |||||
Kosmos 2461 | M | 735 | III | 22 | 10 November 2022 | |||||
Kosmos 2464 | 2 September 2010 00:53 |
Proton-M DM-2 |
Baikonur 81/24 |
42 | M | 736 | II | 16 | 3 December 2022 | |
Kosmos 2465 | M | 737 | II | 12 | 21 November 2016 | |||||
Kosmos 2466 | M | 738 | II | 16 | 6 June 2016 | |||||
— | 5 December 2010 10:25 |
Proton-M DM-03 |
Baikonur 81/24 |
43 | M | 739 | — | Failed to orbit | ||
— | M | 740 | — | Failed to orbit | ||||||
— | M | 741 | — | Failed to orbit | ||||||
Kosmos 2474 | 2 October 2011 20:15 |
Soyuz-2.1b Fregat-M |
Plesetsk 43/4 |
45S | M | 742 | I | 4 | 26 August 2019 | |
Kosmos 2475 | 4 November 2011 12:51 |
Proton-M Briz-M |
Baikonur 81/24 |
44 | M | 743 | I | 8 | Operational | |
Kosmos 2476 | M | 744 | I | 3 | Operational | |||||
Kosmos 2477 | M | 745 | I | 7 | Operational | |||||
Kosmos 2478 | 28 November 2011 08:25 |
Soyuz-2.1b Fregat-M |
Plesetsk 43/4 |
46S | M | 746 | III | 17 | 13 April 2015 | Restored the system to fully operational for the first time since late 1995. |
Kosmos 2485 | 26 April 2013 05:23 |
Soyuz-2.1b Fregat-M |
Plesetsk 43/4 |
47S | M | 747 | I | 2 | Operational | |
— | 2 July 2013 02:38 |
Proton-M DM-03 |
Baikonur 81/24 |
47 | M | 748 | — | Failed to orbit | ||
— | M | 749 | — | Failed to orbit | ||||||
— | M | 750 | — | Failed to orbit | ||||||
Kosmos 2494 | 23 March 2014 22:54 |
Soyuz-2.1b Fregat-M |
Plesetsk 43/4 |
48S | M | 754 | III | 18 | Operational | |
Kosmos 2500 | 14 June 2014 17:16 |
Soyuz-2.1b Fregat-M |
Plesetsk 43/4 |
49S | M | 755 | III | 21 | Operational | First spacecraft to include CDMA L3OC transmitter and antenna |
Kosmos 2514 | 7 February 2016 00:21 |
Soyuz-2.1b Fregat-M |
Plesetsk 43/4 |
50S | M | 751 | III | 17 | Operational | |
Kosmos 2516 | 29 May 2016 08:44 |
Soyuz-2.1b Fregat-M |
Plesetsk 43/4 |
51S | M | 753 | II | 11 | November 2020[26] | |
Kosmos 2522 | 22 September 2017 00:02 |
Soyuz-2.1b Fregat-M |
Plesetsk 43/4 |
52S | M | 752 | II | 14 | Operational | |
Kosmos 2527 | 17 June 2018 21:46 |
Soyuz-2.1b Fregat-M |
Plesetsk 43/4 |
53S | M | 756 | I | 5 | Operational | |
Kosmos 2529 | 3 November 2018 20:17 |
Soyuz-2.1b Fregat-M |
Plesetsk 43/4 |
54S | M | 757 | II | 15 | Operational | |
Kosmos 2534 | 27 May 2019 06:23 |
Soyuz-2.1b Fregat-M |
Plesetsk 43/4 |
55S | M | 758 | II | 12 | Operational | |
Kosmos 2544 | 11 December 2019 08:54 |
Soyuz-2.1b Fregat-M |
Plesetsk 43/3 |
56S | M | 759 | I | 4 | Operational | |
Kosmos 2545 | 16 March 2020 18:28 |
Soyuz-2.1b Fregat-M |
Plesetsk 43/4 |
57S | M | 760 | III | 24 | Operational | |
Kosmos 2564 | 28 November 2022 15:13 |
Soyuz-2.1b Fregat-M |
Plesetsk 43/3 |
61S | M | 761 | II | 16 | Operational |
References
- 1 2 3 4 5 Testoyedov, Nikolay (2015-05-18). "Space Navigation in Russia: History of Development" (PDF). Archived from the original (PDF) on 2015-07-16. Retrieved 2015-07-15.
- ↑ Krebs, Gunter Dirk (2015-03-06). "Uragan-M (GLONASS-M, 14F113)". Retrieved 2015-07-23.
- 1 2 3 4 "GLONASS Space Segment Status and Modernization" (PDF). ISS Reshetnev. 2012-11-09. Retrieved 2015-07-16.
- ↑ Zak, Anatoly. "Uragan". RussianSpaceWeb.com. Retrieved 2015-07-23.
- ↑ "Модула-2 в российском космосе" [Modula-2 in the Russian space]. Archived from the original on 2013-12-10. Retrieved 2015-07-23.
- ↑ "The GLONASS system space segment" (PDF). Information Satellite Systems. ISS Reshetnev. March 2008. p. 10. Archived from the original (PDF) on 2015-07-24. Retrieved 2015-07-23.
- ↑ "Glonass Quicklook". NASA. Archived from the original on 2011-10-16. Retrieved 2015-07-23.
- 1 2 Peslyak, Alexey (1 November 2017). "Производитель "Глонасс": в 2021 году создадим импортонезависимый спутник" [GLONASS designer: we will create a completely Russian satellite by 2021] (in Russian). TASS. Retrieved 28 October 2018.
- ↑ Cheberko, Ivan (2015-05-21). "Из спутников "Глонасс" уберут импортные комплектующие" [GLONASS Satellites to Remove Foreign Components] (in Russian). Izvestia. Retrieved 2015-07-16.
- ↑ Johnson, Nicholas L. (November 1994). "GLONASS Spacecraft" (PDF). GPS World. p. 51. Retrieved 2015-07-23.
- ↑ Harvey, Brian (2007). "Military programs". The Rebirth of the Russian Space Program (1st ed.). Germany: Springer. p. 129. ISBN 978-0-387-71354-0.
- ↑ "Satellite-based navigation" (PDF). Information Satellite Systems. ISS Reshetnev. June 2007. p. 7. Archived from the original (PDF) on 2015-07-24. Retrieved 2015-07-23.
- ↑ "Glonass-K – a prospective satellite of the current GLONASS system" (PDF). Information Satellite Systems. ISS Reshetnev. October 2007. p. 10. Archived from the original (PDF) on 2015-07-24. Retrieved 2015-07-23.
- ↑ ""Глонасс-М" будет еще не скоро" [GLONASS-M not that soon] (in Russian). Novosti Kosmonavtiki. December 2001. Archived from the original on 23 May 2003. Retrieved 7 November 2018.
- 1 2 "Glonass". Russian Forces. 2013-05-01. Retrieved 2013-07-23.
- 1 2 "History of GLONASS development". NIS GLONASS. Archived from the original on 2013-02-22. Retrieved 2015-07-23.
- ↑ "Russia clears Proton to resume flying in December". Spaceflight Now. 2010-12-10. Retrieved 2013-07-23.
- ↑ Podvig, Pavel (2011-11-28). "Glonass system is almost complete after successful Glonass-M launch". Russian Strategic Nuclear Forces. Retrieved 2015-07-23.
- ↑ Zak, Anatoly. "Proton accident with GLONASS satellites". RussianSpaceWeb.com. Archived from the original on 2015-08-12. Retrieved 2015-07-23.
- ↑ "Производство ГЛОНАСС-М решено прекратить в 2015 году" [Production of GLONASS-M to be finished in 2015]. 2014-03-28. Retrieved 2015-07-16.
- ↑ "Sanctions Delay Russia's GLONASS-K2 Program". GPS World. 2014-12-17. Retrieved 2015-07-16.
- ↑ "First Launch of GLONASS-K2 Satellite Planned for 2018". GPS World. 2015-04-02. Retrieved 2015-07-16.
- ↑ "Glonass-M – a chapter in the history of satellite navigation". JSC Information Satellite Systems. 2015-07-30. Archived from the original on 2016-05-28. Retrieved 2015-08-13.
- ↑ "Russia stops manufacturing of Glonass-M navigation satellites". ITAR-TASS. 2015-07-30. Archived from the original on 2015-08-01. Retrieved 2015-08-20.
- ↑ "GLONASS Constellation Status".
- ↑ "Новейший "Глонасс-К" сменит вышедший из строя аппарат, рассказал источник" [Newest Glonass-K to replace failed satellite, source says]. RIA Novosti (in Russian). 26 December 2020. Retrieved 27 December 2020.