GLONASS-K

GLONASS-K

Model of Glonass-K satellite at CeBIT 2011
Manufacturer	ISS Reshetnev
Country of origin	Russia
Operator	JSC «Navigation-Information systems»
Applications	Navigation
Specifications
Bus	Express-1000
Design life	10 years
Launch mass	935 kilograms (2,061 lb)
Power	1.6 kW
Batteries	NiH2
Equipment	FDMA signals: L1OF, L1SF, L2OF and L2SF CDMA signals: L3OC
Regime	MEO
Dimensions
Production
Status	In Production
Built	2
On order	13[1]
Launched	2
Operational	2
Maiden launch	2011-02-26
← GLONASS-M GLONASS-K2 →

GLONASS-K is the latest satellite design intended as a part of the Russian GLONASS radio-based satellite navigation system. Developed by ISS Reshetnev (Reshetnev Information Satellite Systems) and first launched on 26 February 2011, it is a substantial improvement of the previous GLONASS-M second-generation satellites, having a longer lifespan and better accuracy.

History

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The Federal Targeted Program "Global Navigation System" 2002–2011, introduced in 2001, stipulated the development of a third-generation navigation satellite design, called GLONASS-K, as part of the overall GLONASS upgrade program in the time frame 2005–2011. The new satellite followed the second generation GLONASS-M, introduced in 2003.^[2] The Russian Federal Space Agency (Roscosmos) initially ordered 27 GLONASS-K satellites from ISS Reshetnev, the developer of all the previous GLONASS satellites.^[3] On 7 December 2010, the company announced it had completed ground tests of the first GLONASS-K satellite.^[4] The satellite was launched to orbit on 26 February 2011.^[5] On November 30, 2014, the second and supposedly last GLONASS-K1 development satellite was put to orbit as Kosmos 2501.^[6]

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.^[7] In an December 14, 2014 interview with GPS World, he stated that because of Western sanctions that limited the supply of radiation resistant electronics, they had decided to launch nine additional GLONASS-K1 as fleet replacement while they finished the GLONASS-K2 design.^[8] In a May, 2015 presentation, Mr. Testoyedov expected the serial production of GLONASS-K1 to start flying in early 2018, just after the launch of the first GLONASS-K2 prototype. The presentation showed at least eleven additional GLONASS-K1 satellites flying until 2020.^[1]

Satellites

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GLONASS-K is the first unpressurised GLONASS satellite—all of its equipments are able to operate in a vacuum. Due to this, the satellite's mass has been substantially reduced: GLONASS-K has a mass of just 935 kg compared to its predecessor GLONASS-M, which had a mass of 1,450 kg.^[9] The new satellite has an operational lifetime of 10 years, three years longer than that of GLONASS-M and seven years longer than the lifetime of the original GLONASS satellite. It also increased the power supply from GLONASS-M's 1,400 W to 1,600 W.^[9]

GLONASS-K will transmit additional navigation signals to improve the system's accuracy.^[2] Existing FDMA signals, 2 military and 2 civilian, will be transmitted on the L1 and L2 bands, and additional civilian CDMA signals will be transmitted in the L1, L2, L3 and L5 bands.^[10][11][12]

Launches

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For launching the satellites, two options are planned: six satellites simultaneously from Baikonur Cosmodrome on the heavy-lift Proton-M, or two simultaneously from Plesetsk Cosmodrome on a Soyuz-2 with a Fregat upper stage.^[13] In comparison, the previous GLONASS-M satellites could only be launched three at a time on a Proton-M. The new launch scheme is expected to cut orbiting costs by 50%. The new satellite's advanced equipment —made solely from Russian components— was expected to allow doubling the accuracy.^[12] The launch of the first GLONASS-K satellite did however not conform to the general plan, as it was launched alone on a Soyuz-2.1b instead of in a pair.

At 06:07 Moscow Time on 26 February 2011, the first GLONASS-K satellite, Kosmos 2471, was launched. The launch took place from Plesetsk Cosmodrome on a Soyuz-2.1b rocket with a Fregat upper stage.^[14] The satellite reached the correct orbit at 09:39.^[5] At 09:44, ground stations established control over the satellite.^[15] A Space Forces spokesman told Interfax: "we have established and are maintaining steady telemetry communications with the spacecraft... the on-board systems of the Glonass-K satellite are functioning normally."^[14] Successful reception of the CDMA signal in L3 band has been reported by independent researchers.^[16][17]

At 21:52:26 UTC on 30 November 2014, the second GLONASS-K satellite, Kosmos 2501 was launched. The launch took place from Plesetsk Cosmodrome on a Soyuz-2.1b rocket with a Fregat upper stage.^[18][15] The spacecraft separated from the launch vehicle at 01:25 UTC of 1 December.^[19]

Photogallery from CeBIT 2011 in Hannover

Russia has exhibited the Glonass-K spacecraft during the CeBIT 2011 fair, that took place in Hannover from 1st to 5 March.

• 

  Detailed view of the antennas.

• Glonass K model at Cebit 2011 Satellite, sideview 1.jpg

  General view of the Payload Module.

• Glonass K Navigation Spacecraft model at Cebit 2011 Satellite, general view from the right.jpg

  General view.

• 

  General view.

References

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