Indian National Satellite System

Not to be confused with Indian Regional Navigational Satellite System.

The Indian National Satellite System or INSAT, is a series of multipurpose geostationary satellites launched by ISRO to satisfy telecommunications, broadcasting, meteorology, and search and rescue operations. Commissioned in 1983, INSAT is the largest domestic communication system in the Indo-Pacific Region and laid the foundation for India's self-reliant space-based communication infrastructure. It is a joint venture of the Department of Space, Department of Telecommunications, India Meteorological Department, All India Radio and Doordarshan. The overall coordination and management of INSAT system rests with the Secretary-level INSAT Coordination Committee.

INSAT

INSAT-1B
Manufacturer	ISRO
Country of origin	India
Operator	INSAT
Applications	Communications and Meteorology
Specifications
Regime	Geostationary orbit
Production
Status	In service
On order	0
Built	24
Launched	24
Operational	11
Retired	10
Failed	1
Lost	2
Maiden launch	INSAT-1A, 10 April 1982
Last launch	INSAT-3DS, 17 February 2024

INSAT satellites provide transponders in various bands to serve the television and communication needs of India. Some of the satellites also have the Very High Resolution Radiometer (VHRR), CCD cameras for meteorological imaging. The satellites also incorporate transponder(s) for receiving distress alert signals for search and rescue missions in the South Asian and Indian Ocean Region, as ISRO is a member of the Cospas-Sarsat program.

INSAT system

INSAT-1B satellite: Broadcasting sector in India is highly dependent on INSAT system.

The Indian National Satellite (INSAT) system was commissioned with the launch of INSAT-1B in August 1983 (INSAT-1A, the first satellite was launched in April 1982 but could not fulfil the mission). INSAT system ushered in a revolution in India's television and radio broadcasting, telecommunications and meteorological sectors. It enabled the rapid expansion of TV and modern telecommunication facilities to even the remote areas and off-shore islands. Together, the system provides transponders in C, Extended C and K_u bands for a variety of communication services. Some of the INSATs also carry instruments for meteorological observation and data relay for providing meteorological services. KALPANA-1 is an exclusive meteorological satellite. The satellites are monitored and controlled by Master Control Facilities that exist in Hassan and Bhopal.

INSAT-1 series

The first generation of INSAT satellites, developed with NASA assistance, included INSAT-1A, 1B, 1C, and 1D, with all of them being launched in the 1980s. Their success established India's capability to operate a national communications and weather-monitoring satellite fleet. 1B, launched in 1983, became the first fully operational Indian GEO communications satellite.

INSAT-2 series

The INSAT-2 series during the 1990s, marked the shift to fully indigenous satellite design. Models included INSAT-2A, 2B, SC, 2D, and 2E, each offering expanded transponder capacity, improved meteorological imaging and enahnced reliability.

INSAT-3 series

Launched between 2000 and 2003, the INSAT-3 series introduced larger satellites with advanced payloads. 3B was for business communication, 3C for national telecommunication backbone, 3A and 3D for meteorology and disaster warning, and 3E for broadacting and data relay.

INSAT-4 series

The INSAT-4 generation launched between 2005 and 2010 focused on high-power K_u-band DTH broadcasting. 4A was India's first dedicated DTH satellite, 4B and 4CR was for communication and replacement missions, and 4E (also known as GSAT-6) had a large S-band antena for mobile communications. INSAT-4 satellites were eventually supplemented by the newer GSAT series.

Transition into GSAT

Main article: GSAT

Many communication satellites which were originally conceived under the INSAT umbrella were reclassified as GSAT as ISRO shifted to newer satellite bus platforms of I-2K and I-3K. INSAT continues to focus mainly on meteorology and disaster management, while GSAT handles broadband, telecom, and strategic communication.

List of INSAT satellites

The following is a list of launched INSAT satellites.

Launched INSAT satellites

INSAT series	GSAT Series	Other name(s)	COSPAR ID	Launch date and time, UTC	Launch vehicle	Lift-off mass	Orbital parameters		Outcome	Purpose
							Longitude	Inclination
INSAT-1A	—		1982-031A	10 April 1982, 06:47:00	Delta 3910 / PAM-D	1,152 kg (2,540 lb)	74° East	14.59°	Partial success	Communication
			First Satellite in INSAT Series and First Satellite of INSAT-1 Series. Built by Ford Aerospace, operated for only five months out of seven years planned. Abandoned on 6 September 1982 after a series of failures.
INSAT-1B	—		1983-089B	30 August 1983, 06:32:00	Space Shuttle Challenger STS-8 / PAM-D	1,152 kg (2,540 lb)	93° East (1992-93)[a]	14.69°	Successful	Communication
			First successful INSAT satellite. At the end of its seven-year design life it was replaced by the newly launched INSAT-1D, dropping to backup status. Decomissioned in August 1993.
INSAT-1C	—		1988-063A	21 July 1988, 06:32:00	Ariane 3	1,190 kg (2,620 lb)	93.5° East	11.6°	Successful	Communication and meteorology
			Decommissioned in 2001 after thriteen years of service.
INSAT-1D	—		1988-063A	9 July 1992, 05:52:00	Delta 4000 4925-8	1,190 kg (2,620 lb)	83° East	14.30°	Successful	Telecom
			Last satellite of INSAT-1 series. Aided in setting up national computer networks. Decommissioned on 14 May 2002.
INSAT-2A	—		1992-041A	9 July 1992, 22:42:00	Ariane 4 44L V-51/423	1,906 kg (4,202 lb)	74° East	14.5°	Successful	Meteorology and Search and rescue
			INSAT-2A has an advanced power amplifiers for catering communication terminals and was the first series-2 satellite to replace the INSAT-1.
INSAT-2B	—		1993-048B	22 July 1993, 22:58:00	Ariane 4 44L V-58/429	1,906 kg (4,202 lb)	93.5° East	14.4°	Successful	Multipurpose
			Primarily for telecommunication and meteorological observations, also carried a search and rescue transponder. Decommissioned on 1 July 2004.
INSAT-2C	—		1995-067B	6 December 1995, 23:23:00	Ariane 4 44L V-81/453	2,106 kg (4,643 lb)	93.5° East	14.2°	Operational	Communication
			It has capabilities of business communication, mobile satellite service and can make television outreach beyond boundaries of India.
INSAT-2D	—		1997-027B	4 June 1997, 23:23:00	Ariane 4 44L V-97/468	2,079 kg (4,583 lb)	93.5° East	12.8°	Partial success	Communication
			Became inoperable just four months later on 4 October 1997, due to a power bus anomaly and associated problems, most likely a short circuit.[1]
INSAT-2DT	—	Arabsat-1C (formerly)	1992-010	26 February 1992, 23:58:10	Ariane 4 44L V-49/421	1,360 kg (3,000 lb)	82.5° East	14.2°	Successful	Communication
			In November 1997, Arabsat-1C was sold to India as INSAT-2DT.[2] Decommissioned in October 2004.
INSAT-2E	—	APR-1	1999-016A	2 April 1999, 22:03:00	Ariane 4 42P V-117/486	2,550 kg (5,620 lb)	83° East	11°	Operational	Communication and weather
			INSAT-2E is using ultra-light Magnesium-lithium alloys developed by DMRL. It also carries two meteorological instruments; the Very High Resolution Radiometer (VHRR), and a CCD camera capable of returning images with a resolution of one kilometre.
INSAT-3A	—		2003-013A	9 April 2003, 22:52:00	Ariane 5 42P V-117/486	2,950 kg (6,500 lb)	93.5° East	8.3°	Operational	Multipurpose
			Third satellite launched in INSAT-3 series after INSAT-3B & INSAT-3C.
INSAT-3B	—		2000-016B	21 March 2000, 23:28:00	Ariane 5 G 505	5,800 kg (12,800 lb)	83° East	10.4°	Operational	Communication
			First Geostationary satellite of India.
INSAT-3C	—		2002-002A	23 January 2002, 23:46:57	Ariane 4 42L-3 4108	5,800 kg (12,800 lb)	74° East	7.9°	Operational	Multipurpose
			Provides voice, video and digital data services to India and neighboring countries.
INSAT-3D	—		2013-038B	25 July 2013, 19:54:07	Ariane 5 ECA 569	2,061 kg (4,544 lb)	82° East	1.4°	Operational	Meteorology
			The satellite had many new technology elements like star sensor, micro stepping Solar Array Drive Assembly (SADA) to reduce the spacecraft disturbances and Bus Management Unit (BMU) for control and telecom and telemetry function.
INSAT-3DR	—		2016-054A	8 September 2016, 11:20:00	GSLV MkII F09	2,061 kg (4,544 lb)	74° East	0.1°	Operational	Meteorology
			Uses a 6-channel imager and a 19-channel sounder, as well as search and rescue information and message relay for terrestrial data collection platforms.
INSAT-3DS	—		2024-033A	17 February 2024, 12:05:00	GSLV MkII F14	2,275 kg (5,016 lb)	74° East	0.0°	Operational	Meteorology
			Follow on of INSAT-3DR mission.
INSAT-3E	—		2003-047E	27 September 2003, 23:14:46	Ariane 5G V162	2,775 kg (6,118 lb)	55° East	9.2°	Successful	Communication
			Ran out of oxidizer after seven years of operation, moved to Graveyard orbit in April 2014.[3]
INSAT-4A	—		2005-049A	21 December 2005, 22:33:00	Ariane 5GS 525	1,386 kg (3,056 lb)	83° East	5.9°	Successful	Telecom
			At the time of launch, it was the heaviest satellite India had built. Decommissioned on 21 October 2019. 2014|last1=S|first1=Madhumathi D.}}</ref>
INSAT-4B	—		2007-007A	11 March 2007, 22:03:00	Ariane 5ECA 535	1,335 kg (2,943 lb)	93.48° East	5.6°	Successful	Communication
			Suffered a disruption in power supply from one of the two solar panels, rendering half of its transponder capacity useless.[4] Decommissioned on 24 January 2022.
INSAT-4C	—		—	10 July 2006, 12:08:00	GSLV MKI F02	2,168 kg (4,780 lb)	—		Launch failure	Communication
			Both rocket and satellite had to be destroyed over the Bay of Bengal after the rocket's trajectory veered outside permitted limits.
INSAT-4CR	—		2007-037A	2 September 2007, 12:51:00	GSLV MKI F04	2,168 kg (4,780 lb)	74° East	6.3°	Successful	Communication
			Due to an error in the guidance subsystem , rocket achieved orbit had lower apogee and inclination higher than expected. Orbit corrected through satellite, eventually the INSAT-4CR was placed in its slot. Decommissioned on 24 November 2020.
INSAT-4E	GSAT-6	—	2015-041A	27 August 2015, 11:22:00	GSLV MKII D6	2,117 kg (4,667 lb)	83° East	6.3°	Operational	Multimedia
			Offers a Satellite Digital Multimedia Broadcasting (S-DMB) service across several digital multimedia terminals or consoles which can be used to provide information services to vehicles on the fly and to the mobile phones.
INSAT-4F	GSAT-7	—	2013-044B	29 August 2013, 20:30:00	Ariane 5 ECA 570	2,117 kg (4,667 lb)	74° East	0.1°	Operational	Military
			According to defense experts, the satellite will enable the navy to extend its blue water capabilities and stop relying on foreign satellites like Inmarsat, which provide communication services to its ships.
INSAT-4G	GSAT-8	—	2011-022A	20 May 2011, 20:38:00	Ariane 5 ECA VA202	2,117 kg (4,667 lb)	55° East	1.6°	Operational	Communication
			First satellite to carry GAGAN payload.

Satellites in service

Of the 24 satellites launched in the course of the INSAT program, 11 are still in operation.^[5]

INSAT-2E

Main article: INSAT-2E

It is the last of the six five satellites in INSAT-2 series. It carries seventeen C-band and lower extended C-band transponders providing zonal and global coverage with an Effective Isotropic Radiated Power (EIRP) of 36 dBW. It also carries a Very High Resolution Radiometer (VHRR) with imaging capacity in the visible (0.55–0.75 μm), thermal infrared (10.5–12.5 μm) and water vapour (5.7–7.1 μm) channels and provides 2x2 km, 8x8 km ground resolution respectively. In addition to the above two payloads it has with it a CCD camera providing 1 × 1 km ground resolution in the Visible (0.63–0.69 μm), Near Infrared (0.77–0.86 μm) and Shortwave Infrared (1.55–1.70 μm) bands.^[6]

INSAT-3A

Main article: INSAT-3A

The multipurpose satellite, INSAT-3A, was launched by Ariane in April 2003. It is located at 93.5 degree East longitude. The payloads on INSAT-3A are as follows:

• 12 Normal C-band transponders (9 channels provide expanded coverage from Middle East to South East Asia with an EIRP of 38 dBW, 3 channels provide India coverage with an EIRP of 36 dBW and 6 Extended C-band transponders provide India coverage with an EIRP of 36 dBW).
• 6 K_u band transponders provide India coverage with EIRP of 48 dBW.
• Very High Resolution Radiometer (VHRR) with imaging capacity in the visible (0.55–0.75 μm), infrared (10.5–12.5 μm) and water vapour (5.7–7.1 μm) channels, provide 2x2 km, 8x8 km and 8x8 km ground resolutions respectively.
• A CCD camera provides 1x1 km ground resolution, in the visible (0.63–0.69 μm), near infrared (0.77–0.86 μm) and shortwave infrared (1.55–1.70 μm) bands.
• A Data Relay Transponder (DRT) having global receive coverage with a 400 MHz uplink and 4500 MHz downlink for relay of meteorological, hydrological and oceanographic data from unattended land and ocean-based automatic data collection-cum-transmission platforms.
• A Satellite Aided Search and Rescue SARP payload having global receive coverage with 406 MHz uplink and 4500 MHz downlink with India coverage, for relay of signals from distress beacons in sea, air or land.^[7] See also Cospas-Sarsat.

INSAT-3C

Main article: INSAT-3C

Launched in January 2002, INSAT-3C is positioned at 74 degree East longitude. INSAT-3C payloads include 24 Normal C-band transponders providing an EIRP of 37 dBW, six Extended C-band transponders with EIRP of 37 dBW, two S-band transponders to provide BSS services with 42 dBW EIRP and an MSS payload similar to that on INSAT-3B. All the transponders provide coverage over India.^[8]

INSAT-3D

Main article: INSAT-3D

Launched in July 2013, INSAT-3D is positioned at 82 Degree East longitude. INSAT-3D payloads include Imager, Sounder, Data Relay Transponder and Search & Rescue Transponder. All the transponders provide coverage over large part of the Indian Ocean region covering India, Bangladesh, Bhutan, Maldives, Nepal, Seychelles, Sri Lanka and Tanzania for rendering distress alert services.^[9]

INSAT-3DR

Main article: INSAT-3DR

INSAT-3DR is a weather satellite meant to provide meteorological services to India using a 6-channel imager and a 19-channel sounder, it was launched on 9 September 2016 by the GSLV Mk II F05,^[10] and is a follow-up to INSAT-3D.

INSAT-3E

Main article: INSAT-3E

Launched in September 2003, INSAT-3E is positioned at 55 degree East longitude and carries 24 Normal C-band transponders provide an edge of coverage EIRP of 37 dBW over India and 12 Extended C-band transponders provide an edge of coverage EIRP of 38 dBW over India.^[11] The satellite has been decommissioned and gone out of service from April 2014.^[12] GSAT-16 will replace this satellite.

KALPANA-1

Main article: Kalpana-1

KALPANA-1 is an exclusive meteorological satellite launched by PSLV in September 2002. It carries Very High Resolution Radiometer and DRT payloads to provide meteorological services. It is located at 74 degree East longitude. Its first name was METSAT. It was later renamed as KALPANA-1 to commemorate Kalpana Chawla.

INSAT-4 Series

INSAT-4A

Main article: INSAT-4A

Launched in December 2005 by the European Ariane launch vehicle, INSAT-4A is positioned at 83 degree East longitude along with INSAT-2E and INSAT-3B. INSAT-A carries 12 K_u band 36 MHz bandwidth transponders employing 140 W TWTAs to provide an EIRP of 52 dBW at the edge of coverage polygon with footprint covering Indian main land and 12 C-band 36 MHz bandwidth transponders provide an EIRP of 39 dBW at the edge of coverage with expanded radiation patterns encompassing Indian geographical boundary, area beyond India in southeast and northwest regions.^[13] Tata Sky, a joint venture between the TATA Group and STAR uses INSAT-4A for distributing their DTH service.

INSAT-4B

Main article: INSAT-4B

It was launched in March 2007 by the European Ariane launch vehicle. Configured with payloads identical to that of INSAT-4A, INSAT-4B carries 12 K_u band and 12 C-band transponders to provide EIRP of 52 dBW and 39 dBW respectively. Two Tx/Rx dual grid offset fed shaped beam reflectors of 2.2 m diameter for K_u band and 2 m diameter for C-band are used. INSAT-4B augments the high power transponder capacity over India in K_u band and over a wider region in C-band. It is co-located with INSAT-3A at 93.5 degree E longitude.^[14]

The national space agency Indian Space Research Organisation (ISRO) has allotted nearly seven K_u band transponders to Sun Direct; a DTH service provider from South India, and the other five to Doordarshan's DD Direct Plus. 12 transponders in the C band are for TV, radio and telecommunication purposes.

The satellite was decommissioned on 24 January 2022. The satellite was moved to a disposal orbit, 340 km above geostationary orbit.^[15]

China-Stuxnet Connection

American cyber warfare expert Jeffrey Carr, who specialises in investigations of cyber attacks against government, mentioned in his interview with The Times of India, that the reason for this power glitch may have been an infection by the sophisticated Stuxnet worm.^[16] He attributed the development of Stuxnet worm most likely to Government of China which had the necessary sophistication to develop the bug and would gain the maximum by failure of Indian satellite. He also pointed out that Stuxnet was discovered just a month before the Indian satellite was hit by the power glitch, the reason for which still remains unknown. ISRO uses the same Siemens software that was targeted by Stuxnet.

INSAT-4CR

Main article: INSAT-4CR

INSAT-4CR was launched on 2 September 2007 by GSLV-F04.^[17] It is a replacement satellite of INSAT-4C which was lost when GSLV-F02 failed and had to be destroyed on its course. It carries 12 K_u band 36 MHz bandwidth transponders employing 140 W TWTAs to provide an Effective Isotropic Radiated Power of 51.5 dBW at Edge of Coverage with footprint covering Indian mainland. It also incorporates a K_u band Beacon as an aid to tracking the satellite.

On 8 September 2007 ISRO reported the satellite had reached a near geosynchronous orbit, and would be stabilized in its intended orbital position of 74 degrees E longitude by 15 September.^[18] The satellite is designed for a mission life in of ten years. There were reports that the mission life of the satellite had decreased by five years as the thrusters had to burn this much fuel to restore the satellite to its correct orbit. However, the ISRO later refuted this claim dismissing it as false.^[19]

See also

• Indian Remote Sensing Satellites
• List of Indian satellites

Notes

1. 74° East (1983-92)