SM15T33A-3

注：表中系铝芯电缆数值；铜芯电缆的允许持续载流量值可乘以1.29。

2、6KV三芯电力电缆直埋敷设时允许载流量（引用电网改造常用标准汇编）注：表中系铝芯电缆数值；铜芯电缆的允许持续载流量值可乘以1.29。

3、10KV三芯电力电缆允许载流量（引用电网改造常用标准汇编）注：表中系铝芯电缆数值；铜芯电缆的允许持续载流量值可乘以1.29。

4、敷设条件不同时电缆允许持续载流量的校正系数(引用电网改造常用标准汇编)注:其他环境温度下载流量的校正系数K可按下式计算：不同土壤热阻系数时电缆载流量的校正系数注:1、本表适用于缺乏实测土壤热阻系数时的粗略分类，对110KV及以上电压电缆线路工程，宜以实测方式确定土壤热阻系数。

2、本表中校正系数适于各表中采取土壤热阻系数为1.2C・m/W的情况，不适用于三相交流系统的高压单芯电缆。

二、单芯电缆允许载流量（2）扁平型排列（相邻间距等于电缆外径）（XLPE绝缘）不同环境下载流量较正系数三、钢芯铝绞线的长期允许载流量（引用电网改造常用标准汇编）1974年我国曾制定了钢芯铝绞线国家标准，按此标准生产了各种规格的导线。

1983年我国又修订颁布了新的铝绞线及钢芯铝绞线国家标准（GB—1179—83）。

新标准的导线规格较老标准多（即铝钢比的范围大），导电性能较好（采用电工铝），制造工艺及机械强度亦较高，目前已有部分制造厂生产供应，但由于老标准产品价格较低，制造工艺及材质要求较易达到，故仍大量生产使用。

上海电缆研究所迄未正式提供新老标准各种规程钢芯铝绞线的长期允许载流量，现将经过计算得出的载流量数据列于附表1及附表2参考使用。

标称葡{mm2)i血积计算栽流鹹(A)+90 +70+8011V26678 8716/385 10011325/4HI131 14935/6134158 18050/8161191 21850/3()E6619521871V1U23226670/4019623025795/15252 3(X)35195/20 233 27731995/55230 270301120/7287 35()401120/20 285S4H399120/25265315365120/7025830] 365150/8323 3954M150/20326 4004^1150/25331407469150/35331 407 469185/10 372 1458 528185/25 379 468540185/30 373460531185/45 379 4695412W10 397 49()565210/25 4055015792W35 409507586210/50 405075S6注：最高允许温度分+70°C、+80°C、+90°C三种。

三相交流一体化移相调压模块㈠概述1、LSA-系列一体化三相调压模块采用进口大规模集成电路设计，内部集三相移相触发电路、单向可控硅、RC阻容吸收回路及电源电路等于一体，自动或手动调节以改变负载上的电压，从而调节三相输出功率。

即在输入控制作用下，产生三相可改变导通角的强触发脉冲信号再去分别控制内部可控硅，实现三相负载电压从0V到电网全电压的无级可调。

2、全面支持4-20mA、0-5Vdc、0-10Vdc、1-5Vdc、0-10mA等输入自动控制模式，也可用手动控制，输出电压从0V到最大值线性可调，输入调节范围宽，输出调节精度高，三相对称性好，抗干扰能力强。

上电无瞬间冲击输出。

3、Y型模块内置高性能开关电源，无须外接同步变压器，也无须外部输入直流电源，4、模块能适应变压器等感性负载或电加热等阻性负载，负载Δ形或Y形接法均可，Y形接法时负载中心点不必接入N线。

模块也适用于小功率三相力矩电机的调速，及风机、水泵等的调速，也可应用于交流电机的缓启动。

5、模块采用SMT工艺，DCB陶瓷基板，体积小，外围接线少，性能稳定，使用方便，可靠性高。

6、模块有LED电源指示和输出调节量指示。

7、模块已内置可控硅保护电路，无须外接。

8、Y型模块适用于三相四线制电路，交流380V±10%，频率：50Hz。

自动判别相序，电路的进线R、S、T无相序要求。

如用户需在低电压下使用时，可向我公司定制。

9、一般情况下推荐使用Y型模块。

若应用系统无N线，可采用B型模块，适用于三相三线制电路，但此时需外接一只380V/15V、2W的小变压器，或直流电源，作为模块的工作电源。

10、各输入控制端与开关电源输入端之间以及与强电主回路之间为全隔离设计，绝缘介质耐压大于2000 Vac。

㈡模块负载输出端电流等级及型号如下表：电流型号（适用三相四线制）型号（适用三相三线制）15A LSA-TH3P15Y LSA-TH3P15B35A LSA-TH3P35Y LSA-TH3P35B50A LSA-TH3P50Y LSA-TH3P50B70A LSA-TH3P70Y LSA-TH3P70B90A LSA-TH3P90Y LSA-TH3P90B120A LSA-TH3P120Y LSA-TH3P120B150A LSA-TH3P150Y LSA-TH3P150B注：150A以上大电流可采用我公司“三相触发器TSR+随机型固态继电器”或者“三相触发器T3SCRH +可控硅”的组合方式，性价比高，故障损失小。

国内外常用钢钢号对照表钢号中国前苏联美国英国日本法国德国GBГОСТASTM BS JIS NF DIN08F08КП1006040A04S09CK C10优08081008045M10S9CK C10 10F1010040A10XC1010101010,1012045M10S10C XC10C10,CK10质151********M15S15C XC12C15,CK15 20201020050A20S20C XC18C22,CK22 25251025S25C CK25碳30301030060A30S30C XC3235351035060A35S35C XC38TS C35,CK35 40401040080A40S40C XC38H1素45451045080M46S45C XC45C45,CK45 50501050060A52S50C XC48TS CK53结55551055070M55S55C XC5560601060080A62S58C XC55C60,CK60 15Mn15Г1016,1115080A17SB46XC1214Mn4构20Mn20Г1021,1022080A20XC1830Mn30Г1030,1033080A32S30C XC3240Mn40Г1036,1040080A40S40C40M540Mn4钢45Mn45Г1043,1045080A47S45C50Mn50Г1050,1052030A52S53C XC48080M5020Mn220Г２1320,1321150M19SMn42020Mn5 30Mn230Г２1330150M28SMn433H32M530Mn5合35Mn235Г２1335150M36SMn438(H)35M536Mn5 40Mn240Г２1340SMn44340M545Mn245Г２1345SMn44346Mn7金50Mn250Г２~55M520MnV20MnV6 35SiMn35CГEn4637MnSi5结42SiMn35CГEn4646MnSi4 40B TS14B3545B50B46H构40MnB50B4045MnB50B4415Cr15X5115523M15SCr415(H)12C315Cr3钢20Cr20X5120527A19SCr420H18C320Cr4 30Cr30X5130530A30SCr43028Cr435Cr35X5132530A36SCr430(H)32C434Cr4 40Cr40X5140520M40SCr44042C441Cr4 45Cr45X5145,5147534A99SCr44545C438CrSi38XC12CrMo12XM620C R.B12CD413CrMo44 15CrMo15XM A-387Cr .B1653STC4212CD416CrMo44STT42STB42合20CrMo20XM4119,4118CDS12SCT4218CD420CrMo44CDS110STT42STB42金25CrMo4125En20A25CD425CrMo4 30CrMo30XM41301717COS110SCM42030CD442CrMo4140708A4242CD442CrMo4结708M4035CrMo35XM4135708A37SCM335CD434CrMo4 12CrMoV12XMΦ构12Cr1MoV12X1MΦ13CrMoV42 25Cr2Mo1VA25X2M1ΦＡ20CrV20XΦ612022CrV4钢40CrV40XΦＡ614042CrV6 50CrVA50XΦＡ6150735A30SUP1050CV450CrV4 15CrMn15XГ,18XГ20CrMn20XГCA5152527A60SUP930CrMnSiA30XГCA40CrNi40XH3140H640M40SNC23640NiCr6 20CrNi3A20XH3A331620NC1120NiCr14 30CrNi3A30XH3A3325653M31SNC631H28NiCr103330SNC63120MnMoB80B2038CrMoAlA38XMIOA905M39SACM64540CAD6.1241CrAlMo07 40CrNiMoA40XHMA4340871M40SNCM43940NiCrMo22弹60601060080A62S58C XC55C60 8585C1085080A86SUP31084簧65Mn65Г156655Si2Mn55C2Г9255250A53SUP655S655Si7 60Si2MnA60C2ГＡ9260250A61SUP761S765Si7钢9260H50CrVA50XΦＡ6150735A50SUP1050CV450CrV4滚GCr9ШX9E51100SUJ1100C5105Cr4动51100轴GCr9SiMn SUJ3承GCr15ШX15E52100534A99SUJ2100C6100Cr6钢52100GCr15SiMnШX15CГ100CrMn6易Y12A12C1109SUM12切Y15B1113220M07SUM2210S20削Y20A20C1120SUM3220F222S20钢Y30A30C1130SUM4235S20 Y40Mn A40ГC1144225M3645MF240S20耐磨钢ZGMn13116Г13ЮSCMnH11Z120M12X120Mn12T7y7W1-7SK7,SK6C70W1碳T8y8SK6,SK5素T8A y8A W1-0.8C1104Y175C80W1工T8Mn y8ГSK5具T10y10W1-1.0C D1SK3钢T12y12W1-1.2C D1SK2Y2 120C125W T12A y12A W1-1.2C XC 120C125W2T13y13SK1Y2 140C135W8MnSi C75W39SiCr9XC BH2190CrSi5Cr2X L3100Cr6合Cr0613X W5SKS8140Cr3 9Cr29X L 100Cr6金金W B1F1BF1SK21120W4 Cr12X12D3BD3SKD1Z200C12X210Cr12工Cr12MoV X12M D2BD2SKD11Z200C12X165CrMoV46 9Mn2V9Г2Φ0280M8090MnV8具9CrWMn9XBГ01SKS380M8CrWMn XBГ07SKS31105WC13105WCr6钢3Cr2W8V3X2B8ΦH21BH21SKD5X30WC9V X30WCrV93 5CrMnMo5XГＭSKT540CrMnMo7 5CrNiMo5XHM L6SKT455NCDV755NiCrMoV6 4Cr5MoSiV4X5MΦＣH11BH11SKD61Z38CDV5X38CrMoV51 4CrW2Si4XB2C SKS4140WCDS35-1235WCrV7 5CrW2Si5XB2C S1BSi45WCrV7W18Cr4V P18T1BT1SKH2Z80WCV S18-0-1高18-04-01速W6Mo5Cr4V2P6M3N2BM2SKH9Z85WDCV S6-5-2工06-05-04-02具W18Cr4VCo5P18K5Φ２T4BT4SKH3Z80WKCV S18-1-2-5钢18-05-04-01 W2Mo9Cr4VCo8M42BM42Z110DKCWV S2-10-1-809-08-04-02-011Cr18Ni912X18H9302302S25SUS302Z10CN18.09X12CrNi188S30200Y1Cr18Ni9303303S21SUS303Z10CNF18.09X12CrNiS188S30300不0Cr19Ni908X18H10304304S15SUS304Z6CN18.09X5CrNi189S3040000Cr19Ni1103X18H11304L304S12SUS304L Z2CN18.09X2CrNi189S304030Cr18Ni11Ti08X18H10T321321S12SUS321Z6CNT18.10X10CrNiTi189锈S3*******S200Cr13Al405405S17SUS405Z6CA13X7CrAl13S405001Cr1712X17430430S15SUS430Z8C17X8Cr17钢S430001Cr1312X13410410S21SUS410Z12C13X10Cr13S410002Cr1320X13420420S37SUS420J1Z20C13X20Cr13S420003Cr1330X13420S45SUS420J27Cr17440A SUS440AS440020Cr17Ni7Al09X17H7Ю631SUS631Z8CNA17.7X7CrNiAl177S177002Cr23Ni1320X23H12309309S24SUH309Z15CN24.13S309002Cr25Ni2120X25H20C2310310S24SUH310Z12CN25.20CrNi2520耐S310000Cr25Ni20310S SUS310SS31008热0Cr17Ni12Mo208X17H13M2T316316S16SUS316Z6CND17.12X5CrNiMo1810S316000Cr18Ni11Nb08X18H12E347347S17SUS347Z6CNNb18.10X10CrNiNb189钢S347001Cr13Mo SUS410J11Cr17Ni214X17H2431431S29SUS431Z15CN16-02X22CrNi17S431000Cr17Ni7Al09X17H7Ю631SUS631Z8CNA17.7X7CrNiAl177S17700BY:李军辉录入并校对Mar.16,2000国内外常用铝及铝合金牌号对照表国内外常用铝及铝合金牌号对照表类中国美国英国日本法国德国前苏联别GB ASTM BS JIS NF DINГОСТ工1A991199A199.99R A99业1A97A199.98R A97纯1A95A95铝1A801080(1A)10801080A A199.90A81A5010501050(1B)10501050A A199.50A5防5A025052NS450525052A1Mg2.5Amg锈5A03NS5AMg3铝5A055056NB65056A1Mg5AMg5V5A305456NG61555659572A01203621172117AlCu2.5Mg0.5D18硬2A11HF1520172017S AlCuMg1D1铝2A12212420242024AlCuMg2D16AVTV2B162319锻2A802N01AK42A9022182018AK2铝2A14201420142014AlCuSiMn AK8超硬铝7A09717570757075AlZnMgCu1.5V95PZAlSi7Mn356.2LM25AC4C G-AlSi7Mg铸ZAlSi12413.2LM6AC3A A-S12-Y4G-Al12AL2造ZAlSi5Cu1Mg355.2AL5铝ZAlSi2Cu2Mg1413.0AC8A G-Al12(Cu)合ZAlCu5Mn AL19金ZAlCu5MnCdV A201.0ZAlMg10520.2LM10AG11G-AlMg10AL8 ZAlMg5Si G-AlMg5Si AL13By:Jeffrey Lee Mar.16,2000UDDEHOLMASSA B W.nr AISI JIS出厂硬度主要成分特性淬硬温度℃回火后硬度用途UHBASDELIVEREDC Cr Ni W Mo V Co CHARACTERISTICSAUSTENITIZINGTEMP。

QVNU2.E116386 - PROTECTORS, SUPPLEMENTARY - COMPONENTProtectors, Supplementary - ComponentSee General Information for Protectors, Supplementary - Component SIEMENS AG E116386LOW VOLTAGESIEMENSSTRASSE 1093055REGENSBURG,GERMANYAuxiliary contacts , Series 5ST3 010, 5ST3 011, 5ST3 012, 5ST3 013, 5ST3 014, 5ST3 015, 5ST3 016, 5ST3 020, 5ST3 021, 5ST3 022, 5ST3 062for use with protectors 5SY4, 5SY6, 5SY7, 5SY8, 5SP4.Cat. No.Type UG FW Max Volts MaxAmperes TC OL SC60Vdc1630 3.5kA U3 Marking: Company name, type and catalog designation.Last Updated on 2019-03-05 The appearance of a company's name or product in this database does not in itself assure that products so identified have been manufactured under UL's Follow-Up Service. Only those products bearing the UL Mark should be considered to be Certified and covered under UL's Follow-Up Service. Always look for the Mark on the product.UL permits the reproduction of the material contained in the Online Certification Directory subject to the following conditions: 1. The Guide Information, Assemblies, Constructions, Designs, Systems, and/or Certifications (files) must be presented in their entirety and in a non-misleading manner, without any manipulation of the data (or drawings). 2. The statement "Reprinted from the Online Certifications Directory with permission from UL" must appear adjacent to the extracted material. In addition, the reprinted material must include a copyright notice in the following format: "© 2019 UL LLC"。

Measurement conditionAmbient temperature: 25 °CInput power level: 0 dBmTerminating impedance: *Input: 343 Ω || -13,3 pFOutput: 314 Ω || -14,3 pFCharacteristicsRemark:The reference level for the relative attenuation a rel of the TFS 153D is the minimum of the pass band attenuation a min. The minimum of the pass band attenuation a min is defined as the insertion loss a e. The centre frequency f c is the arithmetic mean value of the upper and lower frequencies at the 3 dB filter attenuation level relative to the insertion loss a e. The temperature coefficient of frequency Tc f is valid for both the reference frequency f c and the frequency response of the filter in the operating temperature range. The frequency shift of the filter in the operating temperature range is not included in the production tolerance scheme.D a t a typ. value tolerance / limit Insertion loss a e21,3 dB max. 25 dB (reference level)Nominal frequency f N - 153,5 MHzCentre frequency f C 153,5 MHz ± 0,1 MHzPassband PB - f C ±2,5015 MHzPass band ripple (p-p) 0,3 dB max. 0,7 dBBandwidth BW0,7 dB 5,30 MHz min. 5,03 MHz3 dB 5,65 MHz min. 5,60 MHz 15 dB 6,21 MHz max. 6,30 MHz 45 dB 6,68 MHz max. 9,70 MHz Relative attenuation a relf C …f C ± 2,5015 MHz 0,3 dB max. 0,7 dBf C ± 2,5015 MHz …f C ± 2,800 MHz 2,5 dB max. 3,0 dBf C - 144,500 MHz …f C - 4,825 MHz 70 dB min. 45 dBf C ± 3,150 MHz …f C ± 3,350 MHz 17 dB min. 15 dBf C ± 3,350 MHz …f C ± 3,750 MHz 30 dB min. 25 dBf C ± 3,750 MHz …f C ± 4,825 MHz 50 dB min. 40 dBf C + 4,825 MHz …f C + 428,500 MHz 65 dB min. 45 dB Absolute group delay within PB 2,5 µs max. 2,7 µsGroup delay ripple within PB (p-p) 65 ns max. 120 nsOperating temperature range OTR - - 25 °C ... + 80°CStorage temperature range - - 40 °C ... + 85°C Frequency inversion temperature 20 °C - Temperature coefficient of frequency TC f ** -0,036 ppm/K2 -*) The terminating impedances depend on parasitics and q-values of matching elements and the board used, and are to be understood as reference values only. Should there be additional questions do not hesitate to ask for an application note or contact our design team.**) f c(Hz) = Tc f(ppm/K2) x (T - T A)2 x f CAT (MHz)Generated:Checked / Approved:Microchip Frequency Technology GmbHPotsdamer Straße 18D 14 513 TELTOW / GermanyMicrochip Frequency Technology GmbH Potsdamer Straße 18 D 14 513 TELTOW / GermanyConstruction and pin connection(All dimensions in mm)1Date code50 Test circuit1, 2, 7, 91 Input RF Return2 Ground7 Output RF Return 8 Output 9 Ground 14 InputDate code: Year + week T 2005 U 2006 V 2007 ...Stability characteristicsAfter the following tests the filter shall meet the whole specification:1. Shock: 500g, 1 ms, half sine wave, 3 shocks each plane;DIN IEC 68 T2 - 272. Vibration: 10 Hz to 500 Hz, 0,35 mm or 5g respectively, 1 octave per min, 10 cycles per plan,3 plans; DIN IEC 68 T2 - 63. Change oftemperature: -55 °C to 125°C / 30 min. each / 10 cyclesDIN IEC 68 part 2 – 14 Test N4. Resistance tosolder heat (reflow): reflow possible: twice max.;for temperature conditions, please refer to the attached "Air reflow temperature conditions" on page 4; Microchip Frequency Technology GmbHPotsdamer Straße 18D 14 513 TELTOW / GermanyAir reflow temperature conditionsMicrochip Frequency Technology GmbH Potsdamer Straße 18D 14 513 TELTOW / GermanyHistoryVersion Reason of changes Name Date1.0 - development specification Pfeiffer 12.05.2005 1.1 - terminating impedance, typical values and filter characteristic added Pfeiffer 17.05.2005Microchip Frequency Technology GmbHPotsdamer Straße 18D 14 513 TELTOW / Germany。

Western HemisphereLocation Satellite SatellitebusSourceOperator TypeCoverageLaunchdate/rocket(GMT)AlllocationsRemarksAs of148.0°W EchoStar-1LockheedMartinAS-7000USEchostar/DISHNetworkDirectBroadcasting28December1995, LongMarch 2E119°W(1996-1999),148.0°W(1999—)Scheduled to moveto 77°Wsoon2009-02-06139.0°W Americom-8LockheedMartinA2100AUSSES Americom& AT&TAlascomTelevisionand radiobroadcasting24 Cband(Canada,Caribbean,mainlandUSA)19December2000,Ariane 5GPreviouslyGE-8 forGEAmericom; alsoknown asAurora III;replacedSatcomC-5 inMarch20012008-11-20137.0°W Americom-7LockheedMartinUS SES AmericomTelevisionand radioMainlandUSA,14SeptemberPreviouslyGE-7 for2008-11-20A2100A broadcasting Canada,Mexico2000,Ariane 5GGEAmericom135.0°W Americom-10LockheedMartinA2100AUS SES AmericomTelevisionand RadioBroadcastingMainlandUSA,Canada,Caribbean, Mexico5 February2004, AtlasII AS2008-11-20133.0°W Galaxy-12 OrbitalSciencesCorporationStar-2US IntelsatTelevision/RadioBroadcasting9 April2003,Ariane 5G123.0°WreplacedfailedGalaxy 15131.0°W Americom-11LockheedMartinA2100AUS SES AmericomTelevisionand RadioBroadcasting24C-BandTranspondersMainlandUSA,Canada,Caribbean, Mexico19 May2005, AtlasII AS2008-11-20129.0°W Galaxy-27SpaceSystems/Loral FS-1300US IntelsatTelevisionbroadcasting & SatelliteInternetAccess25September1999,Ariane 44LPFormerlyknown asIA-7 andTelstar-72008-11-20Ciel-2ThalesAlenia SpaceSpacebus4000 C4CanadaCiel SatelliteGroupDirectBroadcasting10December2008,Proton-MLeased toEchostar/DishNetwork2009-02-06127.0°W Galaxy-13BoeingBSS-601US Intelsat24C-Bandtransponders1 October2003,Zenit-3SLSamesatelliteasHorizons-12008-11-20Horizons-1BoeingBSS-601USJapan SatelliteSystems24Ku-Bandtransponders1 October2003,Zenit-3SLSamesatelliteasGalaxy-132008-11-20125.0°W Galaxy-14 OrbitalSciencesCorporationStar-2US Intelsat24C-Bandtransponders -NorthAmerica13 August2005,Soyuz-FG/Fregat2008-11-20123.0°W Galaxy-18 SpaceSystems/Loral LS-1300US IntelsatTelevisionand radiobroadcastingNorthAmerica21 May2008,Zenit-3SLHybridC/Ku-band satellite2008-11-19121.0°W Galaxy-23SpaceSystems/LorUS IntelsatDirectBroadcastinNorthAmerica7 August2003,HybridC/Ku/Ka-b2008-11-26al FS-1300 g Zenit-3SL andsatellite;C-bandpayloadreferred toasGalaxy-23EchoStar-9 SpaceSystems/Loral FS-1300USEchostar/DISHNetworkDirectBroadcastingNorthAmerica7 August2003,Zenit-3SLHybridC/Ku/Ka-bandsatellite;Ku/Ka-bandpayloadreferred toasEchoStar-92008-11-26119.0°W DirecTV-7SSpaceSystems/Loral LS-1300US DirecTVDirectBroadcasting54Ku-bandtransponders4 May 2004,Zenit-3SL8 activetransponders at thistime2008-11-26EchoStar-7LockheedMartinA2100AXUSEchostar/DISHNetworkDirectBroadcasting32Ku-bandtranspond21 February2002, AtlasIII B21 activetransponders at this2008-11-26ers time118.8°W Anik F3EADSAstriumEurostar-3000SCanada Telesat CanadaDirectBroadcasting24C-bandtransponders, 32Ku-bandtransponders, 2Ka-bandtransponders11 April2007,ProtonKu-Bandleased toEchostar/DishNetwork2008-11-26116.8°W SatMex-5HughesHS-601HPMexico Satmex24C-bandtransponders, 24Ku-bandtransponders5 December1998,Ariane 42L2008-11-26115.0°W XM-Blues US30 October2006,Zenit-3SL Solidaridad-2Mexico Satmex8 October1994,Ariane 44L113.0°W Satmex-6Mexico Satmex27 May2006, Ariane 5-ECA111.1°W Anik F2Boeing 702 Canada Telesat Canada DirectBroadcasting17 July2004,Ariane 5GHybridC/Ku/Ka-bandsatellite110.0°W EchoStar-11SpaceSystems/Loral LS-1300USEchostar/DISHNetworkDirectBroadcasting17 July2008,Zenit-3SL2008-11-19EchoStar-10A2100AXS USEchostar/DISHNetworkDirectBroadcasting15 February2006,Zenit-3SLDirecTV-5LS-1300US DirecTVDirectBroadcasting7 May 2002,Proton32Ku-bandtransponders107.3°W Anik F1Boeing 702 Canada Telesat CanadaDirectBroadcasting21November2000,Ariane 44LHybridC/Ku-band satellite;will bereplacedby AnikF1RAnik F1R Eurostar-300Canada Telesat Canada Direct 8 Hybrid0Broadcasting, WAASPRN #138 September2005,ProtonC/Ku-band satellite;willreplaceAnik F1105.0°W AMC-18A2100A US SES AmericomDirectBroadcastingMainlandUSA,Canada,Caribbean, Mexico8 December2006,Ariane 5Americom-15A2100AXS US SES AmericomDirectBroadcastingCONUS,Alaska,Hawaii15 October2004,Proton-MHybridKu/Ka-bandsatellite;twin ofAmericom-16103.0°W Americom-1A2100A US SES AmericomMainlandUSA,Canada,Mexico,Caribbean8September1996, AtlasII AHybridC/Ku-band satellite102.8°W SPACEWAY-1Boeing 702 US DirecTVDirectBroadcastin26 April2005,g Zenit-3SL101.2°W DirecTV-4SBoeing 601 US DirecTVDirectBroadcasting27November2001,Ariane 44LP48Ku-bandtransponders101.1°W DirecTV-9SLS-1300US DirecTVDirectBroadcasting13 October2006,Ariane5-ECA101.0°W AMC-4A2100AX US SES Americom MainlandUSA,Canada,Mexico,Caribbean, CentralAmerica13November1999,Ariane 44LPHybridC/Ku-band satellite100.8°W DirecTV-8LS-1300US DirecTV DirectBroadcasting22 May2005,ProtonHybridKu/Ka-bandsatellite99.2°W SPACEWAY-2US16November 2005,Ariane5-ECA99.0°W Galaxy-16FS-1300Intelsat 18 June 2006, Zenit-3SL97.0°W Galaxy-19SpaceSystems/Loral FS-1300US IntelsatTelevisionand RadioBroadcasting24 C- and28Ku-bandtransponders NorthAmerica24September2008,Zenit-3SL2008-11-2095.0°W Galaxy 3C US 15 June 2002, Zenit-3SL93.0°W Galaxy-26SSLFS-1300US15 February1999,Proton-K91.0°W Nimiq 1A2100AX Canada Telesat CanadaDirectBroadcasting20 May1999,Proton32Ku-bandtranspondersGalaxy 17Spacebus-3000B3US IntelsatTelevisionand radiobroadcastingNorthAmerica4 May 2007,Ariane5-ECA74°WJuly 2007to March2008HybridC/Ku-band satellite2008-06-1389.0°W Galaxy-28FS-1300ITSO Intelsat TheAmericas23 June2005,HybridC/Ku/Ka-bZenit-3SL andsatellite;launchedasTelstar 887.0°W AMC 3A2100A US SES Americom MainlandUSA,Canada,Mexico,Caribbean4September1997, AtlasII AHybridC/Ku-band satellite85.0°W XM-RhythmBoeing 702 USXM SatellieRadio HoldingsRadioBroadcastingCONUS28 February2005,Zenit-3SLAmericom-2A2100A US SES AmericomDirectBroadcastingMainlandUSA,Canada,Mexico30 January1997,Ariane 44LAmericom-16A2100AXS US SES AmericomDirectBroadcastingCONUS,Alaska,Hawaii17December2004, AtlasV (521)HybridKu/Ka-bandsatellite;twin ofAmericom-1584.0°W Brasilsat-B3Brazil4 February1998,Ariane 44LP83.0°W Americom-93000B3US SES AmericomDirectBroadcastingCONUS,Canada,Mexico,CentralAmerica,Caribbean7 June2003,ProtonHybridC/Ku-band satellite82.0°W Nimiq 2A2100AX Canada Telesat CanadaDirectBroadcasting29December2002,ProtonHybridKu/Ka-bandsatellite Nimiq 3HS-601Telesat CanadaDirectBroadcasting9 June1995,Ariane 42PPreviouslyDirecTV-3forDirecTV80.9°W SBS-6HS-393 US Intelsat Televisionand RadioBroadcasting12 October1990,Ariane 44L74°WNov 1995to Jan2008Beyondexpectedend of life.ServesArgentinanow2008-06-1379.0°W Americom Spacebus-20US SES Americom CONUS, 28 October-500 Canada,Mexico 1998, Ariane 44LSatcom C3US10September1992,Ariane 44LPInclinedorbit77.0°W EchoStar-4A2100AX USEchostar/DISHNetworkDirectBroadcasting8 May 1998,ProtonspareEchoStar-8FS-1300USEchostar/DISHNetworkDirectBroadcasting21 August2002,Proton110°W2008-11-1976.8°W Galaxy 4R US 19 April2000,Ariane 42LInclinedorbit75.0°W Brasilsat-B1Brazil10 August1994,Ariane 44LP74.9°W Galaxy-9US 24 May1996, DeltaII (7925)spare74.0°W Horizons-2STAR Bus US Intelsat JSATTelevisionand RadioBroadcastingCONUSCanadaCaribbean21December2007,Ariane 5GS20 KuXpndrs2008-06-1372.7°W EchoStar-6FS-1300USEchostar/DISHNetworkDirectBroadcasting14 July2000, AtlasII AS2008-11-1972.5°W Directv-1R US 10 October 1999, Zenit-3SL72.0°W AMC-6A2100AX US SES Americom CONUS,Canada,Mexico,Caribbean, CentralAmerica22 October2000,Proton-MHybridC/Ku-band satellite;a portionof theKu-bandpayload isdedicatedto SouthAmerica71.0°W Nahuel-1A Argentina30 January1997,Ariane 44L70.0°W Brasilsat-B4Brazil17 August2000,Ariane 44LP65.0°W Brasilsat-B2Brazil28 March1995,Ariane44LP+63.0°W Estrela doSul 1Brazil11 January2004,Zenit-3SL61.5°W EchoStar-12A2100AXS US17 July2003, AtlasV (521)FormerlyRainbow-1,purchased fromVOOM EchoStar-3A2100AX USEchostar/DISHNetworkDirectBroadcasting5 October1997, AtlasII AS61.0ºW HispasatAmazonasSpain4 August2004,Proton-M58.0°W Intelsat-9HS601HP US 28 July2000,Zenit-3SLformerlyPAS-955.5°W Intelsat-805ITSO18 June1998, AtlasII AS53.0°W Intelsat-707ITSO14 March1996,Ariane 450.0°W Intelsat-705ITSO22 March1995, AtlasII AS45.0°W Intelsat-1RHS702 US16November2000,Ariane 5GformerlyPAS-1R43.1°W Intelsat-3RHS601 US12 January1996,Ariane 44LformerlyPAS-3R43.0°W Intelsat-6BHS601HP22December1998,Ariane 42LformerlyPAS-6B40.5°W NSS-806LM AS-7000 Netherlands28 February1998, AtlasII AS37.5°W NSS-10Spacebus4000C33 February2005,ProtonTelstar-11USInclinedorbit34.5°W Intelsat-903ITSO30 March2002,Proton-K31.5°W Intelsat-801ITSO1 March1997,Ariane 44P30.0°W Hispasat-1CSpain3 February2000, AtlasII ASHispasat-1DSpain18September2002, AtlasII AS27.5°W Intelsat-907ITSO15 February2003,Ariane 44L24.5°W Intelsat-905ITSO5 June2002,Ariane 44L24.0°W Cosmos2379RussiaInclinedorbit22.0°W NSS-7LM A2100AX Netherlands16 April2002,Ariane 44L20.0°W Intelsat-603ITSO14 March1990,CommercialTitan IIIInclinedorbit18.0°W Intelsat-901ITSO9 June2001,Ariane 44L15.5°W Inmarsat 3F2IMSOEGNOSPRN #1206September1996,Proton-K15.0°W Telstar 12SSL US 19 October 1999, Ariane 44LP14.0°W Gorizont32RussiaInclinedorbit Express-A4Russia12.5°W AtlanticBird 1EUMETSAT28 August2002,Ariane 5G11.0°W Express-A3Russia24 June2000,Proton-K8.0°W AtlanticBird 2Eutelsat25September2001,Ariane 44PTelecom 2D France8 August1996,Ariane 44LInclinedorbit7.0°W Nilesat101Egypt28 April1998,Ariane 44P Nilesat102Egypt17 August2000,Ariane 44LP Nilesat103Egypt27 February1998,Ariane 42P AtlanticBird 4Eutelsat27 February1998,Ariane 42P5.0°W AtlanticBird 3Eutelsat4.0°W AMOS 1Israel16 May1996,Ariane 44L AMOS 2Israel27December2003,Soyuz-FG/Fregat3.4°W Meteosat828 August2002,Ariane 5G1.0°W Intelsat10-02ITSO16 June2004,Proton-M0.8°W Thor 2Norway20 May1997, DeltaIIThor 3Norway10 June1998, DeltaII (7925-9.5)[edit] Eastern HemisphereLocation Satellite SatellitebusSource Operator TypeCoverageLaunchdate/rocket(GMT)AlllocationsRemarks As of0.5°E Meteosat7ESAWeathersatellite2September1997,Ariane 44LPInclinedorbit3.0°E Telecom2A16December1991,Ariane 44L4.0°E Eurobird 4Eutelsat 2 September 1997, Ariane 44LP4.8°E Sirius 4A2100AX Sweden SES Sirius Comsat52Ku-bandcoveringEurope2Ka-bandcoveringScandinavia17November2007,Proton M2007-11-18 Astra 1CLuxembourg12 May1993,Ariane 42L0.9°inclinedorbit5.0°E Sirius 3Sweden 5 October 1998, Ariane 44L5.2°E Astra 1A GE 4000 11 December 1988, Ariane 44LP6.0°E Skynet 4F Militarycommunica7 February2001,Inclinedorbittions Ariane 44L7.0°E EutelsatW3AEutelsat15 March2004,Proton-M9.0°E Eurobird 9Eutelsat 21November1996, AtlasII AformerlyHot Bird 29.5°E Meteosat6ESAWeathersatellite20November1993,Ariane 44LPInclinedorbit10.0°E EutelsatW1Eutelsat6September2000,Ariane 44P12.5°E Raduga29RussiaInclinedorbit13.0°E Hot Bird 6Eutelsat21 August2002, AtlasV (401)Hot Bird7AEutelsat11 March2006,Ariane5-ECAHot Bird 8Eutelsat 4 August 2006, Proton16.0°E EutelsatW2Eutelsat5 October1998,Ariane 44L19.2°E Astra 1ELuxembourg19 October1995,Ariane 42L Astra 1FLuxembourg8 April1996,Proton-K Astra 1GLuxembourg12November1997,Proton-K Astra 1HLuxembourg18 June1999,Proton-K Astra 1KRLuxembourg20 April2006, AtlasV (411) Astra 1LLuxembourg4 May 2007,Ariane5-ECA20.0°E Arabsat2A9 July 1996,Ariane 44LInclinedorbit21.0°E AfriStar US 28 October 1998, Ariane 44L21.5°E EutelsatW6Artemis ESAEGNOSPRN #12412 July2001,Ariane 5GInclinedorbit.23.5°E Astra 3A Luxembourg29 March2002,Ariane 44L25.0°E Inmarsat 3F5IMSOEGNOSPRN #1264 February1998,Ariane 44LP25.5ºE Eurobird 2Eutelsat25.8°E Badr 226.0°E Badr 326.2°E Badr C28.2°E Astra 2A HS601HPLuxembourgAstra 2BLuxembourg14September2000, Ariane 5GAstra 2C Luxembourg16 June2001,Proton-KAstra 2D Luxembourg20December2000,Ariane 5G28.5°E Eurobird 1Spacebus3000Eutelsat8 March2001,Ariane 5G30.5°E Arabsat2BArabsat13November1996,Ariane 44L31.3°E Astra 1D HS-601LuxembourgSES Astra Comsat24Ku-band1 November1994,Ariane 419.2°E(1994–1998)28.2°E(1998)19.2°E(1998–1999)28.2°E2007-11-14(1999–2001)24.2°E(2001–2003)23.0°E(2003–2004)23.5°E(2004–2007)30.0°E(2007—) 31.5°E Sirius 2Sweden33.0°E Eurobird 3Eutelsat27September2003,Ariane 5G Intelsat802LM-3000 ITSO25 June1997,Ariane 44P36.0°E EutelsatSesat 1Eutelsat17 April2000,Proton-K Eutelsat Eutelsat24 May。