Paksat-1

Paksat-1
Names	Palapa-C1; HGS-3; Anatolia-1
Mission type	Communications
Operator	SATELINDO(1996-1998); Insurers (1998-1999); Hughes Space and Communications(1999-2011) and leased to:; Kalitel(2000-2002); SUPARCO(2002-2011)
COSPAR ID	1996-006A
SATCATno.	23779
Website	https://indosatooredoo.com/
Mission duration	15 years (planned); 15 years (achieved)
Spacecraft properties
Spacecraft	Paksat-1
Spacecraft type	Boeing 601
Bus	HS-601
Manufacturer	Hughes Space and Communications Company
Launch mass	3,000 kg (6,600 lb)
Dry mass	1,740 kg (3,840 lb)
Dimensions	Span: 21 m (69 ft)
Power	3730watts
Start of mission
Launch date	1 February 1996, 01:15:01UTC
Rocket	Atlas IIAS(AC-126)
Launch site	Cape Canaveral,LC-36B
Contractor	Lockheed Martin
Entered service	20 December 2002
End of mission
Disposal	Graveyard orbit
Deactivated	2011
Orbital parameters
Reference system	Geocentric orbit
Regime	Geostationary orbit
Longitude	113° East (1996-1998); 38° East (2002-2016)
Transponders
Band	34transponders:; 30C-band; 4Ku-band
Bandwidth	36MHz(C-band),; 72 MHz (Ku-band)
Coverage area	Pakistan,Europe, Africa,Middle East,South Asia,Central Asia
	Paksat constellation Paksat-1R→

Paksat-1,^[2](Other former designation asPalapa-C1,HGS-3andAnatolia-1), was ageosynchronousandcommunications satellitebuilt and owned by theBoeing Company,leased to theSpace & Upper Atmosphere Research Commission(SUPARCO) and renamed Paksat-1. It was successfully put on orbit on 1 February 1996 asPalapa-C1forIndonesiaas its original customer. But, after the technical problems, the satellite was leased to SUPARCO at an orbital location of 38° Eastlongitudein December 2002. Paksat-1 offers theC-bandandKu-bandcoverage in over 75 countries across Europe, Africa, Middle East, South and Central Asia. Its customers included government organizations,television broadcasters,telecommunicationscompanies, data andbroadband internet service providers.

History[edit]

Palapa-C1[edit]

PT Satelit Palapa Indonesia (SATELINDO) chose Hughes in April 1993. It was built byHughes Space and Communications Companyfor Indonesian telecommunications providerPT Satelit Palapa Indonesia(SATELINDO).^[3]It was based on theHS-601 satellite bus.Construction was done atEl Segundo, California.Hughes also augmented the new master control station atDaan Mogot CitynearJakarta.It had 30C-band transpondersand 4Ku-bandtransponders. It was due to be located ingeosynchronous orbitat 113° East above theequator.^[3]

Launch[edit]

Palapa-C1 was launched by aAtlas IIAS launch vehicleon 1 February 1996 at 01:15:01UTC.^[4]The satellites were launched fromCape CanaveralinFlorida.^[4]Theliquid apogee engineof the satellite then raises it togeostationary orbit.^[5]

Later Indonesia declared the satellite unusable after an electric power anomaly. The insurance claims were paid and the title was transferred to Hughes Space and Communications Company,^[6]and renamedHGS-3,and was then acquired byPakistanfrom Hughes Global Services on "Full Time Leasing" and relocated to Pakistan's reserved orbital position at 38° East.

HGS-3[edit]

Hughes Global Services purchased the satellite and renamed HGS-3.^[5]

Anatolia-1[edit]

The satellite was renamed Anatolia-1.^[5]

Paksat-1[edit]

Pakistan's government approved the acquisition on 3 July 2002^[7]and the leasing with Hughes Global Services was agreed on 6 August 2002.^[8]The satellite started moving to its new orbital position on 5 December 2002^[9]and it went through a name change fromAnatolia-1toPaksat-1on 18 December 2002.^[10]After a series of orbital maneuvers, the satellite was stabilized at its final location on 20 December 2002 with 0° inclination. The satellite is in position at the Pakistani-licensed orbital location, 38° East longitude. The satellite was acquired for a cost of around five million dollars.^[11]

Mission[edit]

The services include satellite communications in both C-band and Ku-band to customers in Pakistan, Africa and the Middle East. Paksat-1's 30 C-band transponders and 4 Ku-bandtranspondersprovide total range of satellite communication capabilities.

Payload characteristics[edit]

30 C-band transponders and 4 Ku-band transponders provide the total range of satellite communications capabilities. The satellite is in a geostationary orbit at 38° East Longitude, and carries high power payloads in both bands.

Payload characteristics of PAKSAT-1 are as below:

C-Band Payload Characteristics
Number of transponders	24 in standard C-band 6 in extended C-band
Redundancy	All redundancy available
Channel bandwidth	36 MHz
Uplink frequency band	5925 MHz – 6665 MHz
Downlink frequency	band 3400 MHz – 4200 MHz
Beams	Southern regions Northern regions
Beam connectivity	All transponders can be switched independently to downlink in the southern beam. Many transponders can downlink in the northern beam. All transponders can be switched independently to uplink from either beam
Polarization	Linear crosspol
EIRP (at peak of beam)	38dBW
G/T (at peak of beam)	+2 dB/K

Ku-band Payload Characteristics
Number of transponders	4
Redundancy	All redundancy available
Channel bandwidth	72 MHz
Uplink frequency band	13754 MHz – 14486 MHz
Downlink frequency band	10954 MHz – 11686 MHz
Beams	Southern regions, Northern regions
Beam connectivity	All transponders can be switched independently to uplink or downlink in either beam
Polarization	Linear colpol
EIRP (at peak of beam)	52 dBW
G/T (at peak of beam)	+5 dB/K

Applications[edit]

Internet backbone extension
Point-to-point data services
Remote Internet access
Broadcast services (video and data)
Business VSAT networks
Direct-to-home
Thin route telephony support
Shipboard communications

Paksat footprints[edit]

Paksat-1 has two beams each in both C-band and Ku-bands, i.e. C1, C2 and K1, K2, respectively. In C-band, C1 (Southern Beam) covers mainly African Continent and Middle East. The C2 (Northern Beam) covers South Asia, Middle East, African Continent, Central Asian States and Southern Europe. In Ku-band, K1 (Southern Beam) covers mainly Middle East and Eastern Africa. K2 (Northern Beam) covers South Asia, Middle East and Central Asian States.

C1 - Southern Beam EIRP Contours	C1 - Southern Beam G/T Contours
C2 - Northern Beam EIRP Contours	C2 - Northern Beam G/T Contours
K1 - Southern Beam EIRP Contours	K1 - Southern Beam G/T Contours
K2- Northern Beam EIRP Contours	K2- Northern Beam G/T Contours

Future projects[edit]

Telesat,one of the world's leading satellite operators, announced on 13 March 2007, that it had signed a consulting contract with theSpace and Upper Atmosphere Research Commission(SUPARCO), Pakistan's national space agency. Under the agreement, Telesat will assist SUPARCO in the procurement and launch of thePaksat-1Rsatellite, which will replace the existing Paksat-1 in 2010.^[12]

References[edit]

^"SatCat".Jonathan's Space Page.Retrieved1 May2021.
^"Pakistan's Space Programme".Dr. Mohmmad Riaz Suddle, Director of the Paksat-1R programme and current executive member of the Suparco's plan and research division.SUPARCO Media Research Directorate. 19 December 2009. Archived fromthe originalon 10 January 2011.Retrieved11 August2011.
^^a ^b"Display: PALAPA-C1 1996-006A".NASA. 28 October 2021.Retrieved8 November2021.This article incorporates text from this source, which is in thepublic domain.
^^a ^b"Launch Log".Jonathan's Space Report. 21 July 2021.Retrieved8 November2021.
^^a ^b ^c"Palapa-C1 / HGS-3 / Anatolia-1 / Paksat-1".Gunter's Space Page. 11 December 2017.Retrieved8 November2021.
^"Palapa-C1, -C2 / HGS-3 / Anatolia-1 / Paksat-1".Gunter's Space Page. 11 December 2017.Retrieved1 May2021.
^"Pak opts to buy 'defective satellite' to cut costs".Times of India. 5 July 2002.Retrieved7 January2023.
^"Hughes Global Services to Provide Satellite to Pakistan -- re> EL SEGUNDO, Calif., Aug. 6 /PRNewswire/ --".m.prnewswire.com.Archived fromthe originalon 24 June 2013.Retrieved3 February2022.
^"Daily Times - Site Edition".Archived fromthe originalon 19 May 2006.Retrieved23 June2013.
^"Transponder Monitor".Satellite Today. 18 December 2002.Retrieved7 January2023.
^Siddiqui, Salman (1 August 2012)."Lagging behind: 2040 - Pakistan's space od[d]yssey".The Express Tribune.Retrieved1 May2021.
^"Paksat-1R".Archived fromthe originalon 16 July 2011.Retrieved18 April2011.

External links[edit]

Paksat Project
Paksat-1 payload characteristics
Channel guide
SUPARCO: Paksat-1
Palapa-C1, -C2 / HGS-3 / Anatolia-1History of Paksat-1 before it was acquired by Pakistan

[satcat-1] "SatCat".Jonathan's Space Page.Retrieved1 May2021.

[PakSat-1-2] "Pakistan's Space Programme".Dr. Mohmmad Riaz Suddle, Director of the Paksat-1R programme and current executive member of the Suparco's plan and research division.SUPARCO Media Research Directorate. 19 December 2009. Archived fromthe originalon 10 January 2011.Retrieved11 August2011.

[Display-3] "Display: PALAPA-C1 1996-006A".NASA. 28 October 2021.Retrieved8 November2021.This article incorporates text from this source, which is in thepublic domain.

[Jonathan-4] "Launch Log".Jonathan's Space Report. 21 July 2021.Retrieved8 November2021.

[GSP-5] "Palapa-C1 / HGS-3 / Anatolia-1 / Paksat-1".Gunter's Space Page. 11 December 2017.Retrieved8 November2021.

[Gunter-6] "Palapa-C1, -C2 / HGS-3 / Anatolia-1 / Paksat-1".Gunter's Space Page. 11 December 2017.Retrieved1 May2021.

[7] "Pak opts to buy 'defective satellite' to cut costs".Times of India. 5 July 2002.Retrieved7 January2023.

[8] "Hughes Global Services to Provide Satellite to Pakistan -- re> EL SEGUNDO, Calif., Aug. 6 /PRNewswire/ --".m.prnewswire.com.Archived fromthe originalon 24 June 2013.Retrieved3 February2022.

[9] "Daily Times - Site Edition".Archived fromthe originalon 19 May 2006.Retrieved23 June2013.

[10] "Transponder Monitor".Satellite Today. 18 December 2002.Retrieved7 January2023.

[Tribune-11] Siddiqui, Salman (1 August 2012)."Lagging behind: 2040 - Pakistan's space od[d]yssey".The Express Tribune.Retrieved1 May2021.

[12] "Paksat-1R".Archived fromthe originalon 16 July 2011.Retrieved18 April2011.

[1]

[2]

[3]

[4]

[5]

[6]

[7]

[8]

[9]

[10]

[11]

[12]

v t e ← 1995 Orbital launches in1996 1997 →
January	STS-72(SPARTAN-206) PAS-3R,MEASAT-1 Koreasat 2 Kosmos 2327 Gorizont #43L
February	Palapa C1 N-STAR b Intelsat 708 NEAR Shoemaker Kosmos 2328,Kosmos 2329,Kosmos 2330,Gonets-D1 #1,Gonets-D1 #2,Gonets-D1 #3 Gran' #44L Soyuz TM-23 STS-75(TSS-1R) Polar
March	REX II Intelsat 707 Kosmos 2331 IRS-P3 STS-76 USA-117
April	Inmarsat-3 F1 Astra 1F MSAT-1 Priroda MSX Kosmos 2332 USA-118 BeppoSAX
May	Progress M-31 USA-119,USA-120,USA-121,USA-122,USA-123,USA-124 Kometa #18 Palapa C2,Amos-1 MSTI-3 STS-77(SPARTAN-207,IAE,PAMS-STU) Galaxy 9 Gorizont #44L
June	Cluster F1,Cluster F2,Cluster F3,Cluster F4 Intelsat 709 STS-78 Kobal't
July	TOMS-EP USA-125 Apstar 1A Arabsat 2A,Türksat 1C USA-126 USA-127 Progress M-32
August	Télécom 2D,Italsat 2 Molniya 1-79 Midori,Fuji 2 Soyuz TM-24 Chinasat-7 FAST Interbol 2,Maigon 5,Victor
September	Kosmos 2333 Kosmos 2334,UNAMSAT-2 Inmarsat-3 F2 GE-1 EchoStar II USA-128 STS-79 Ekspress-6
October	FSW-17 Molniya 3-62
November	HETE,SAC-B Mars Global Surveyor Arabsat 2B,MEASAT-2 Mars 96 STS-80(WSF,ORFEUS-SPAS) Progress M-33 Hot Bird 2
December	Mars Pathfinder(Sojourner) Kosmos 2335 Inmarsat-3 F3 Kosmos 2336 USA-129 Bion No.11
Launches are separated by dots ( • ), payloads by commas (, ), multiple names for the same satellite by slashes ( / ). Crewed flightsare underlined. Launch failures are marked with the † sign. Payloads deployed from other spacecraft are (enclosed in parentheses).