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4G LTEPresentation Transcript

1. MW & CMTSDESIGNPress F5 to startPress ESC to stop

2. The Future is HereFAIRY TELCO INC. Prepared by:BANATANTO, Roy D. prev next

3. FAIRY TELCOM INC. OBJECTIVES: Click here:! To Design a

CMTS via MW to the certain cities/municipalities of Rizal.Introduction Design Proper ! To offer the adaptation 4G LTE

technology. ! To Provides low latency and cost efciency ! To bethe Fastest and Most Advanced telecom provider in the Philippines.! To Increased Average Throughput ! To Adopt the next futuretechnology. ! To be the Best! Implementation/Funding prev next

4. INTRODUCTONPRESENTATION AGENDA: Proposed Sitelocation Overview Business Case Proposed Product BrandsProposed Spectrum Proposed Mobile Solution Proposed Contractprice Introduction: 1 of 13 prev next

5. SITE LOCATIONRizal is one of the Philippines rstclass provincesthat belongsto CALABARZON (CA-vite, LA-guna,BA-tangas, R-izal,Que-ZON)Region or region IV-A in the island ofLuzon. The provinceenjoys a naturalbeauty of nature and a perfect settingforinvestments, businessestablishments and settlements. Introduction:1 of 13 prev next

6. Proposed Network Solution:WHY WE CHOSE 4G LTE-As thefuture of the Fairy Telcom Inc. broadband network, 4G Long TermEvolution (LTE) allows us to offerusers more of what they want,which is untethered mobility.LTEs high speeds, low latency, andsecurity enhancements over 4G mean that youll be able to run

virtuallyany Web-based application imaginable on a mobile device.

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Web based High-Denition video. Real-timevideo conferencing. Video telephony. Voice over Internet Protocol (VoIP). Location-Based-Services (LBS) andmachine-to-machine. The technology

limitations that have kept many applications immobilized arenowhistory. Introduction: 3 of 13 prev next

7. Overview:3GPP Long Term Evolution (LTE), is the latest standardin the mobile network technology tree that producedthe GSM/EDGEand UMTS/HSDPA network technologies. It is a project of the 3rdGeneration PartnershipProject (3GPP), operating under a name

trademarked by one of the associations within the partnership,theEuropean Telecommunications Standards Institute.The currentgeneration of mobile telecommunication networks is collectivelyknown as 3G (for "thirdgeneration"). Although LTE is often marketedas 4G, rst-release LTE does not fully comply with the IMTAdvanced4G requirements. The pre-4G standard is a step toward LTE

Advanced, a 4th generation standard(4G) of radio technologies

designed to increase the capacity and speed of mobile telephonenetworks. LTEAdvanced is backwards compatible with LTE anduses the same frequency bands, while LTE is notbackwardscompatible with 3G systems.Huawei 3900 series LTEeNodeB is the base station in LTE radio networks. Its coverage andcapacity areexpanded through multi antenna technologies, itsmaintainability and testability are improved, and thus itprovides

subscribers with the wireless broadband access services of largecapacity and high quality. Introduction: 3 of 13 prev next

8. Business Case for 4G LTE Solution: Network InfrastructureContent & Aplications Content & Application Component VendorsDevice Providers Providers Developers Distributors Dual ModeChips To Demonstrated potential Innovative Focused efforts to

New, innovative GUI enable seamless 3G/4G through 4G LTE lab

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applications that take understand & address designs to takecoexistence tests and trials advantage of LTEs end-userrequirements advantage of rich Greater Computational Possibly,

multi- bandwidth and latency among consumers and multimediacontent and power on board standard base stations characteristicsbusinesses applications Improved battery life to facilitate migrationRich multimedia Willingness to take Development of new for media-intensive from and transitional content to drive eyeballs measuredrisks to device categories to applications coexistence of 3G to 4G tothe handset screen monetize 4G LTE leverage LTE beyond the

handset Introduction: 2 of 13 prev next

9. TECHNOLOGY COMPARATIVE Introduction: 4 of 13 prev next

10. TECHNOLOGYCOMPARATIVE Introduction: 4 of 13 prev next

11. Global-RoamingCapabilities4G LTE has been selected by morethan 150mobile operators worldwide as their globaltechnology for4G services. It will support devicesthat are backwards-compatiblewith existing 2Gand 3G networks, to provide the bestcoverageexperience while traveling around the globe. Introduction: 4of 13 prev next

12. PROPOSED PRODUCT BRANDS: Introduction: 9 of 13 prevnext

13. WHY HUAWEI FOR CORE NETWORK AND eNOBEsystem?Category 4: Signicant Progress for aCommercial Launch of LTE bya VendorWinner: Huawei TechnologiesCategory 9: Best LTENetwork ElementsWinner: Huawei Technologies forHuaweiBTS3900L Introduction: 9 of 13 prev next

14. Introduction: 3 of 13 prev next

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15. WHY ALCATEL_LUCENT FOR RAN NETWORK?Category 5:Best Network / Device TestingProduct for LTEWinner: Alcatel-Lucent for 9900 WirelessNetwork Guardian (WNG) Introduction: 9 of

13 prev next

16. PROPOSED PRODUCT BRAND for Microwave: Introduction: 9of 13 prev next

17. Proposed Spectrum: Introduction: 7 of 13 prev next

18. Proposed Best Spectrum: 1800MhzAdvantages of 4G LTE on

1800MHz:Better in-building coverage because of Lower frequency=> superior in-building coverage, especially in the cityscape Highercell site density in our 4G LTE on 1800MHz implementation. Forthose who implement 4G LTE on 2500/2600MHz, 30% more basestations isneeded to achieve the same level of in-building coverageIntroduction: 5 of 13 prev next

19. Expected LTE Subscribers:Shows the forecast growth in LTEsubscriber between 2010 to 2015 Introduction: 6 of 13 prev next

20. 2G/3G/4G LTE SOLUTION: Introduction: 9 of 13 prev next

21. 2G/3G/4G LTE SOLUTION: Introduction: 9 of 13 prev next

22. Proposed Contract Price: CONTRACT PRICE = $10,000,000.00

OTHERS 15% ADREW 5% ALCATEL -LUCENT HUAWEI 20% 60%HUAWEI ALCATEL -LUCENT ADREW OTHERS Introduction: 13 of13 prev next

23. DESIGN PROPERPresentation Agenda: ! Microwave ! Equipment ! Installation Standards ! BTS ! BTS Equipment ! Engineering Label ! Proposed RF ! Design Description ! MW

Budget Link Analysis ! MW LOS/Path loss ! BTS theoretical

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Propagation Design Proper: 1 of 27 prev next

24. MICROWAVE EQUIPMENT OptiX RTN 600 is a PDH/SDH

integrated short-haul digital microwave transmission systemdeveloped by Huawei. The maximum microwave transmissioncapacity is STM-1. The system provides the backhaul transmissionlink in the mobile communication system or private network, andalso networks with optical transmission equipments. prev next

25. Contents 1. Equipment Overview 2. Equipment Structure 3.Equipment Protection prev next

26. Contents 1. Equipment Overview 1.1 Equipment Components IDU ODU Antenna Intermediate Frequency (IF) Cable Hybrid coupler 1.2 Equipment Characteristics prev next

27. Equipment Components Antenna Hybrid coupler IF cable ODUPole IDU prev next

28. IDU Indoor unit (IDU) realizes the mutual conversion betweenthe service signal and IF analog signal. Two types of IDU areavailable: IDU 610 is 1U high and supports one IDU 610microwave direction. IDU 620 is 2U high and supports maximumfour microwave directions. IDU 620 prev next

29. IF Cable The IF cable provides -48V power for ODU andtransmits the IF signal and ODU management signal between IDUand ODU. Three types of IF cable in OptiX RTN 600: IF jumper:connection between IDU and other IF cable. 1/2 inch and RG-8U(1/4 inch) cable: connection between ODU and IF jumper. RG-8U(1/4 inch) cable is used for the distance less than 180 meter. 1/2inch cable is used for the distance between 180m and 300m. IFtransit jumper IF cable prev next

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30. ODU Outdoor unit (ODU) realizes the mutual conversionbetween IF analog signal and RF signal. ODU is irrelevant to themicrowave transmission capacity. An ODU of the OptiX RTN 600

can support the transmission capacity from 4 E1 to one STM-1.prev next

31. Hybrid Coupler When two ODUs share one antenna, theODUs must be connected to an RF signal coupler/ splitter (hybridcoupler). Then, the hybrid coupler is connected to the antenna. prevnext

32. Antenna The antenna performs the directional transmissionand reception of RF signals. The main parameters are frequencyband, diameter and antenna gain. prev next

33. Equipment Characteristics PDH/SDH integrated microwavetransmission system. The modulation mode and link capacity areset through software. Microwave link supports the SNCP. Built-in ADM provides exible service add/drop function. Providing theclock tracing function. Supporting mobile FLASH card. Theboards of IDU 610 and IDU 620 are compatible each other. prevnext

34. Contents Equipment Structure 2.1 System Diagram 2.2Software Structure 2.3 IDU Structure and Boards 2.4 ODU

Interfaces and Parameters 2.5 Hybrid coupler Parameters prevnext

35. System Diagram ! OptiX RTN 600 is divided based on

functional units. It consists of service interface unit, cross-connection unit, IF unit, control unit, clock unit, auxiliary interfaceunit, and ODU. Antenna RF signal Baseband Baseband E1 Service

Cross- IF signal signal signal STM-1e interface connect IF unit ODU

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STM-1o unit unit Overhead and control bus Order wire Auxiliary Fanand External alarm interface Clock unit Control unit power -48Vpower supply Transparent data unit supply unit interface NM

External clock network or WS signal NM serial port NM cascadingport network port prev next

36. Software Structure ! In the OptiX RTN 600, all the board

software and host software are NM software integrated together andrun on the SCC board. Host software ! ODU is regarded as a

logical board. The ODU board software in the SCC Board software

ODU board manages and controls the ODU SCC hardware throughthe management signal between the IDU and ODU. prev next

37. PDH Microwave Overhead When the IF board is set as PDHmode, such as 4E1/8E1/16E1, the DCC, order wire, andasynchronous transparent data interface can only use one byte. When the IF board is changed from STM-1 mode to PDH mode, if

the transparent transmission setting of DCC byte occupies the D1byte, the manual modication is required. Set the working mode toDI mode rst. Otherwise, when the IF board is changed to the PDHmode, the DCC is interrupted. prev next

38. ODU -- Interface Grounding RSSI test double-screw boltinterface IF interface Antenna port Dimension: < 260 mm X 260 mm

X 92 mm (width X height X depth) Weight: < 5 kg Powerconsumption: < 40W prev next

39. ODU -- Block Diagram Control unit Up Amplier Amplierconversion Antenna port IF interface IF Frequency Duplexer interfacesynthesizer unit Down Amplier Amplier conversion Power unit prevnext

40. ODU -- Main Performance ! The ODU frequency bands covers

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from 7G to 38G. Some commonly used frequency band indexes arelisted in the table. Performance Item 7G 15G 18G 23G Frequencyrange 7.114- 14.501- 17.685- 22.000- (GHz) 7.743 15.257 19.710

23.608 TR spacing (MHz) 161 420 1010 1008 3.5, 7, Channelspacing 3.5, 7, 14, 3.5, 7, 14, 3.5, 7, 14, 13.75, (MHz) 28 28 2827.5

41. ODU -- Main Performance (cont.) Performance Item 7G 15G18G 23G QPSK 25.5 24.5 24 22.5 maximum Tx (dBm) 16QAM 2120 20 19 128QAM 15 14 14 13 minimum Tx (dBm) -4 Transceiver

frequency stability 5 (ppm) [Note]: If the transmitting power exceedsthe maximum level ,the Bite Error will occur in the service.

42. Microwave Antenna

43. Hybrid coupler Secondary tributary port Antenna port Primarytributary port prev next

44. Hybrid coupler -- Main Performance Item Performance Flatness(dB) ! 0.5 Attenuation (dB) ! 1.7 Coupling (dB) 6.50.6 Isolation (dB)" 25 Standing wave ratio ! 1.2 Weight (kg)

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52. BTS EQUIPMENT ATN950 (Outdoor) CX600-X2 (Indoor) BSC6900(GSM & UMTS) BTS3900L/A RRU3806 RECTIFIER:

TP48300A (outdoor) Cabinet and rack installation FCS and

CTBC Cable Layout and Routing Antenna Installation Standards Engineering Labels prev next

53. ANT950 prev next

54. CX600-X2 prev next

55. CX600-X2 prev next

56. BSC6900(GSM & UMTS) prev next




60. BTS3900L prev next





65. BTS3900A prev next



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68. RECTIFIER: TP48300A (Outdoor) prev next

69. CABINET & RACK INSTALLATION prev next





74. FCS and CTBC prev next

75. FCS and CTBC Air Inlet Unit (AIU) Fan Monitor Box (FMB) FreeCooling Box Air Condition Monitor (ACM) Canopy prev next

76. FCS and CTBC With two layers two rows of battery prev nextWith four layer one row of battery

77. FCS and CTBC Site Congurations for FCS+CTBC prev next

78. CABLE LAYOUT & ROUTING prev next








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88. ANTENNA INSTALLATION STANDARDS prev next






94. ENGINEERING LABELS prev next

95. ENGINEERING LABELS prev next

96. PROPOSE RF SPECTRUM: Spectrum Band Smart + Sun GlobeFairy Telco 850 MHz 10 MHz 17.5 MHz 8Mhz 900 MHz 7.5 MHz17.5 MHz 14Mhz 1800 MHz 37.5 MHz 12.5 MHz 16Mhz 2100MHz 35 MHz 10 MHz 20Mhz 2300 MHz 30 MHz None 40Mhz2500 MHz 35 MHz 45 MHz 50Mhz 3400 MHz 94 MHz 14 MHz80Mhz 5400 MHz 123 MHz None None TOTAL 372 MHz 99 MHz228Mhz Republic Act 7925, Article II, Section 4(c) prev next

97. PROPOSED NUMBER OF CELLSITES:Legend/Note:Cell - siteClassicationGreeneld 2Rooftop/ Indoor 8Rooftop/ Outdoor1Trunk SystemFibre OpticMW Design Proper: 2 of 27 prev next

98. PROPOSED NUMBER OF CELLSITES:Legend/Note:Cell -siteClassicationGreeneld 2Rooftop/Indoor 8Rooftop/Outdoor

1Trunk SystemFibre OpticMW Design Proper: 2 of 27 prev next

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99. Cell-site 1: TaytayNewType Rooftop/IndoorLatitude143336.32NLongitude 121810.23NProposed 40mantennaheightMicrowave 6GhzFrequencies 6.5Ghz 7GhzDishes

0.6mantennaDiameterProposed 40mAntennaHeightSectors 3 prevnext

100. Cell-site 1: RF / TELECOM WORKS CHECKLIST Post - SwapConguration S.N. Post - Swap Data GSM900 GSM1800UMTS900 UMTS2100 WIMAX LTE ANDREW - ANDREW -858DG65T6ESY 858DG65T6ESY / ARGUS - NPX310M / /

CS72111.02 / KATHREIN - CS72111.02 / KATHREIN - ANDREW -HBX- 1 Antenna Type ARGUS - NPX310M N/A N/A 80010203V01- Xpol Panel 80010203V01 - Xpol 6516DS-VTM / ARGUS 790-96065 17 dBi OT Panel 790-960 65 17 dBi - NPX310M OT 2

Antenna Height 33/33/33 36/36/36 33/33/33 35/35/35 N/A N/A 3 Antenna Mechanical Tilt 4/2/1 3/N/A/4 4/2/1 3/2/3 N/A N/A 4 Antenna Electrical Tilt N/A/N/A/N/A N/A/N/A/N/A N/A/N/A/N/A

3/3/2 N/A N/A 5 Tower Height 40 40 40 40 N/A N/A 6 Antenna Azimuth / Orientation 310/90/230 120/N/A/240 310/90/230340/40/305 N/A N/A 7 Additional Sector 0 0 N/A 0 N/A N/A 8Number of Antenna per Sector 1/1/1 1/N/A/1 1/1/1 1/1/1 N/A N/A9 Presence of TMA Null Null Null YES N/A N/A 10 Presence of

TMB Null Null Null Null N/A N/A RRU Locations (Near Antenna orRadio 11 N/A N/A N/A N/A N/A Room) 12 # of RRUs N/A N/A N/A

N/A N/A 13 Feeder Length 38/39/39 41/N/A/38 38/39/3940/40/40 N/A N/A 14 Feeder Type 7/8"/7/8"/7/8" 7/8"/N/A/7/8"7/8"/7/8"/7/8" 7/8"/7/8"/7/8" N/A N/A 15 Jumper Length AntennaEnd 3/3/3 3/N/A/3 3/3/3 2/2/2 N/A N/A 16 Jumper Length BTSEnd 3/3/3 3/N/A/3 3/3/3 2/2/2 N/A N/A 17 FOC Length (BBU -RRU) N/A N/A N/A N/A N/A prev next

101. Cell-site 1: Proposed Diesel Generator & ATS System Site DG

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Conguration Dual Standby (With AC power plus 1 Genset asstandby DG Model Power City PDG-75S AC Out of DG Type SinglePhase Controller panel Dry Contact Fuel tank Part External Fuel

Tank Capacity 1145L Diameter 1.23 m Length 2m prev next

102. Cell-site 1: Ventilation Site Cooling Type Air-Conditioner ACUBrand Carrier Capacity (HP or BTU) 2.5hp Supply Type Single PhaseControl Mode Auto Capacity 1145L prev next

103. Cell-site 1: ACPDB LOAD SCHEDULED ACPDB LOADSCHEDULED Main Breaker 100AT No. of AC PDB/PP-BTS 10Branches Capacity Amps. Branches Ckt no. Brand Rating No ofPole Load Description Status Remarks 1 GE 100 2 TP48300B ON2 GE 80 2 OB LIGHT ON 3 GE 60 2 ACU 1 ON 4 GE 60 2 ACU 2ON 5 GE 30 2 CTBC ON 6 GE 60 2 Spare OFF 7 GE 30 2 SpareOFF 8 GE 30 2 Spare OFF 9 GE 30 2 Spare OFF 10 GE 30 2 SpareOFF prev next

104. Cell-site 1: DCPDB LOAD SCHEDULEDPROPOSED DCPDBBreakers BLVD Ckt no. Brand Rating No of Pole Load DescriptionStatus REMARKS 1 NADER 63AT 1 Spare OFF 2 NADER 63AT 1Spare OFF 3 NADER 63AT 1 Spare OFF 4 NADER 63AT 1 SpareOFF 5 NADER 32AT 1 Spare OFF 6 NADER 32AT 1 Spare OFF 7NADER 32AT 1 Spare OFF 8 NADER 32AT 1 Spare OFF 9 NADER16AT 1 FMS ON 10 NADER 16AT 1 CX600-X2 Main ON 11NADER 16AT 1 CX600-X2 Redundant ON 12 NADER 16AT 1Spare ON LLVD 13 NADER 80AT 1 14 15 16 NADER NADERNADER 80AT 80AT 80AT 1 1 1 BTS3900L ON 17 NADER 63AT 1RTN-600 Facing TAYTAYOLD ON Replace to 16AT 18 NADER63AT 1 RTN-600 Facing TAYTAYMED ON Replace to 16AT 19NADER 32AT 1 RTN-600 Facing FLOODWAY ON Replace to 16AT20 NADER 32AT 1 Spare OFF prev next

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105. Cell-site 1: DCPDB LOAD SCHEDULEDPROPOSED DCPDBBreakers BLVD Ckt no. Brand Rating No of Pole Load DescriptionStatus REMARKS 1 NADER 63AT 1 Spare OFF 2 NADER 63AT 1

Spare OFF 3 NADER 63AT 1 Spare OFF 4 NADER 63AT 1 SpareOFF 5 NADER 32AT 1 Spare OFF 6 NADER 32AT 1 Spare OFF 7NADER 32AT 1 Spare OFF 8 NADER 32AT 1 Spare OFF 9 NADER16AT 1 FMS ON 10 NADER 16AT 1 CX600-X2 Main ON 11NADER 16AT 1 CX600-X2 Redundant ON 12 NADER 16AT 1Spare ON LLVD 13 NADER 80AT 1 14 15 16 NADER NADERNADER 80AT 80AT 80AT 1 1 1 BTS3900L ON 17 NADER 63AT 1

RTN-600 Facing TAYTAYOLD ON Replace to 16AT 18 NADER63AT 1 RTN-600 Facing TAYTAYMED ON Replace to 16AT 19NADER 32AT 1 RTN-600 Facing FLOODWAY ON Replace to 16AT20 NADER 32AT 1 Spare OFF prev next

106. Rooftop/Indoor Field : Proposed Site Layout Site Name TaytayNew Site type Rooftop/ Indoor Tower 40 m height MW 3

Sectors 3 Tower Type Guyed prev next

107. Rooftop/Indoor Field : Proposed Site Layout prev next

108. Rooftop/Indoor Field : Proposed Site Layout MW 0.6m Facingto TaytayOLdMW 0.6m Facing to Floodway MW 0.6m Facing to

TaytayMed prev next

109. Rooftop/Indoor Field : Proposed Equipment Layout prev next

110. Rooftop/Indoor Field : Proposed Cable Layout prev next

111. Rooftop/Indoor Field : Single Line Diagram prev next

112. Cell-site 2: Angono1Type Rooftop/IndoorLatitude143214.20NLongitude 121921.27EProposed 30mantennaheightMicrowave 6.6Ghz TeresaFrequencies 6.7Ghz

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Agono 2Dishes 0.6mantennaDiameterSectors 3x3Height 20mabove sealevelTrunk Sytem Fiber Optic from TaytayNew prev next

113. Cell-site 2: RF / TELECOM WORKS CHECKLIST Post - SwapConguration S.N. Post - Swap Data GSM900 GSM1800UMTS900 UMTS2100 WIMAX LTE ANDREW - ANDREW -858DG65T6ESY 858DG65T6ESY / ARGUS - NPX310M / /CS72111.02 / KATHREIN - CS72111.02 / KATHREIN - ANDREW -HBX- 1 Antenna Type ARGUS - NPX310M N/A N/A 80010203V01- Xpol Panel 80010203V01 - Xpol 6516DS-VTM / ARGUS 790-960

65 17 dBi OT Panel 790-960 65 17 dBi - NPX310M OT 2 Antenna Height 29/29/29 29/29/29 29/29/29 29/29/29 N/A N/A 3 Antenna Mechanical Tilt 3/3/3 3/3/3 3/3/3 3/3/3 N/A N/A 4 Antenna Electrical Tilt N/A/N/A/N/A N/A/N/A/N/A N/A/N/A/N/A3/3/2 N/A N/A 5 Tower Height 40 40 40 40 N/A N/A 6 Antenna

Azimuth / Orientation 310/90/230 340/40/305 310/90/230340/40/305 N/A N/A 7 Additional Sector 0 0 N/A 0 N/A N/A 8

Number of Antenna per Sector 1/1/1 1/1/1 1/1/1 1/1/1 N/A N/A 9Presence of TMA Null Null Null YES N/A N/A 10 Presence of TMBNull Null Null Null N/A N/A RRU Locations (Near Antenna or Radio11 N/A N/A N/A N/A N/A Room) 12 # of RRUs N/A N/A N/A N/AN/A 13 Feeder Length 40/40/40 40/40/40 40/40/40 40/40/40 N/AN/A 14 Feeder Type 7/8"/7/8"/7/8" 7/8"/7/8"/7/8" 7/8"/7/8"/7/8"7/8"/7/8"/7/8" N/A N/A 15 Jumper Length Antenna End 3/3/3

3/3/3 3/3/3 3/3/3 N/A N/A 16 Jumper Length BTS End 3/3/33/3/3 3/3/3 3/3/3 N/A N/A 17 FOC Length (BBU - RRU) N/A N/AN/A N/A N/A prev next

114. Cell-site 2: Proposed Diesel Generator & ATS System Site DGConguration Dual Standby (With AC power plus 1 Genset asstandby DG Model Power City PDG-75S AC Out of DG Type Single

Phase Controller panel Dry Contact Fuel tank Part External Fuel

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Tank Capacity 1145L Diameter 1.23 m Length 2m prev next

115. Cell-site 2: Ventilation Site Cooling Type Air-Conditioner ACU

Brand Carrier Capacity (HP or BTU) 2.5hp Supply Type Single PhaseControl Mode Auto Capacity 1145L prev next

116. Cell-site 2: ACPDB LOAD SCHEDULED ACPDB LOADSCHEDULED Main Breaker 100AT No. of AC PDB/PP-BTS 10Branches Capacity Amps. Branches Ckt no. Brand Rating No ofPole Load Description Status Remarks 1 GE 100 2 TP48300B ON2 GE 80 2 OB LIGHT ON 3 GE 60 2 ACU 1 ON 4 GE 60 2 ACU 2ON 5 GE 30 2 CTBC ON 6 GE 60 2 Spare OFF 7 GE 30 2 SpareOFF 8 GE 30 2 Spare OFF 9 GE 30 2 Spare OFF 10 GE 30 2 SpareOFF prev next

117. Cell-site 2: DCPDB LOAD SCHEDULEDPROPOSED DCPDBBreakers BLVD Ckt no. Brand Rating No of Pole Load DescriptionStatus REMARKS 1 NADER 63AT 1 Spare OFF 2 NADER 63AT 1Spare OFF 3 NADER 63AT 1 Spare OFF 4 NADER 63AT 1 SpareOFF 5 NADER 32AT 1 Spare OFF 6 NADER 32AT 1 Spare OFF 7NADER 32AT 1 Spare OFF 8 NADER 32AT 1 Spare OFF 9 NADER16AT 1 FMS ON 10 NADER 16AT 1 CX600-X2 Main ON 11NADER 16AT 1 CX600-X2 Redundant ON 12 NADER 16AT 1Spare ON LLVD 13 NADER 80AT 1 14 15 16 NADER NADERNADER 80AT 80AT 80AT 1 1 1 BTS3900L ON 17 NADER 63AT 1RTN-600 Facing TAYTAYOLD ON Replace to 16AT 18 NADER63AT 1 RTN-600 Facing TAYTAYMED ON Replace to 16AT 19NADER 32AT 1 RTN-600 Facing FLOODWAY ON Replace to 16AT20 NADER 32AT 1 Spare OFF prev next

118. Cell-site 2: DCPDB LOAD SCHEDULEDPROPOSED DCPDBBreakers BLVD Ckt no. Brand Rating No of Pole Load DescriptionStatus REMARKS 1 NADER 63AT 1 Spare OFF 2 NADER 63AT 1

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Spare OFF 3 NADER 63AT 1 Spare OFF 4 NADER 63AT 1 SpareOFF 5 NADER 32AT 1 Spare OFF 6 NADER 32AT 1 Spare OFF 7NADER 32AT 1 Spare OFF 8 NADER 32AT 1 Spare OFF 9 NADER

16AT 1 FMS ON 10 NADER 16AT 1 CX600-X2 Main ON 11NADER 16AT 1 CX600-X2 Redundant ON 12 NADER 16AT 1Spare ON LLVD 13 NADER 80AT 1 14 15 16 NADER NADERNADER 80AT 80AT 80AT 1 1 1 BTS3900L ON 17 NADER 63AT 1RTN-600 Facing TAYTAYOLD ON Replace to 16AT 18 NADER63AT 1 RTN-600 Facing TAYTAYMED ON Replace to 16AT 19NADER 32AT 1 RTN-600 Facing FLOODWAY ON Replace to 16AT

20 NADER 32AT 1 Spare OFF prev next

119. Green Field : Proposed Site Layout Site Name Angono 1 Sitetype Greeneld Tower 32 mMW Facing to Angono 2 MW Facing to

Teresa 1 height MW 2 Sectors 3x3 BTS Cabinet Tower Type GuyedGenset prev next

120. Green Field : Proposed Site Layout prev next

121. Green Field : Proposed Equipment Room Layout prev next

122. Green Field : Proposed Cable Layout prev next

123. C1 MW Line 1:Line 1 TaytayNewLatitude143336.32NLongitude 121810.23NProposed 40 mantenna

heightMicrowave 6GhzFrequenciesRange 1.61kmDestination TaytayOldDishes antenna 0.6mDiameterProposed 30mAntennaHeightSectors 3Transmit Power 32dBm prev next

124. C1 MW Line 1:Line 1 TaytayNewLatitude143336.32NLongitude 121810.23NProposed 40 mantennaheightMicrowave 6GhzFrequenciesRange 1.61kmDestination

TaytayOldDishes antenna 0.6mDiameterProposed 30mAntenna

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HeightSectors 3 prev next

125. C1 MW Line 1:Line 1 TaytayNewLatitude

143336.32NLongitude 121810.23NProposed 40 mantennaheightMicrowave 6GhzFrequenciesRange 1.61kmDestination

TaytayOldDishes antenna 0.6mDiameterProposed 30mAntennaHeightSectors 3 prev next

126. C1 MW Line 1: MANUAL DESIGN PARAMETERS ANDCOMPUTATIONS CONDITION Approximate Path Length 1.6kmReliability requirement 99.9999% Conguration Non-protected (1 +0 ) Trafc capacity 1 x E3 with a rate of 34.368 Mbps and a capacityof 480 channel. SITE A Latitude 143336.32N Longitude121810.23E SITE B Latitude 143427.13N Longitude121836.66E prev next

127. C1 MW Line 1: MANUAL DESIGN PARAMETERS ANDCOMPUTATIONS Computation for azimuth angle C = Longitude B Longitude A = LOB LOA = 121 8 36.66 - 121 8 10.22 = 032 30 # C = 0 16 15 (LB + LA) = 09 18 15.92 + 8 41 20.26= 17 59 36.18 # (LB + LA) = 8 59 48.09 (LB - LA) = 09 1815.92 - 8 41 20.26 = 0 36 55.66 # (LB LA) = 0 18 27.83Log tan # (Y+X) = log cot # C + log cos # (LB LA) log sin# (LB + LA) prev next

128. C1 MW Line 1: MANUAL DESIGN PARAMETERS ANDCOMPUTATIONS tan# (Y+X) = log -1 [log cot # C + log cos # (LB LA) log sin # (LB + LA)] Azimuth Angle# (Y+X) = tan -1 {log -1[log cot # C + log cos # (LB LA) log sin# (LB + LA)]} Y =# (Y +X) + # (Y-X)# (Y+X) = tan -1 {log -1 [log cot 0 16 15 + log cos0 18 27.83 log sin 8 59 48.09]} Y = - 89 56 10.69 - 7 3420.91 # (Y+X) = 89 56 10.69 Y = 262 28 28.4 or 97 3131.6 Log tan # (Y-X) = log cot # C + log sin # (LB LA) log

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cos # (LB + LA) tan# (Y-X ) = log -1[log cot # C + log sin # (LB LA) log cos # (LB + LA)] X =# (Y+X) # (Y-X)# (Y-X) = tan -1{log -1 [log cot # C + log sin # (LB LA) log cos # (LB + LA)]} X

= 89 56 10.69- 7 34 20.91 # (Y-X) = tan -1{log -1 [log cot 016 15+ log sin 0 2 6- log cos 8 59 48.09]} X = 82 21 49.78# (Y-X) = 7 34 20.91 Y = 262 28 28.4 Log tan # (Z) = log tan# (LB LA) + (Y+X) log sin# (Y-X) tan# (Z) = log -1[log tan # (LB LA) + (Y+X) log sin# (Y-X)]# (Z) = 2 {tan -1[log tan 0 2 6 +log sin 89 56 10.69 - log sin 7 34 20.9]} # (Z) = 0 31 52.26 +7 34 20.91 D = Z *111.12 X = 82 21 49.78 Where: D =

distance in km. D = 0 31 52.26 *111.12 prev next D = 1.6 km

129. C1 MW Line 1: MANUAL DESIGN PARAMETERS ANDCOMPUTATIONS Radio Conguration = Outdoor Mounted RFModule (ODU) Free Space Loss (FSL): Transmit Power = 32 dBmFor Low Band: Receiver Threshold (1 x E3 at 6 GHz) = -86 dBm FSL= 92.45 + 20 log10 (f * d) FSL = 92.45 + 20 log10 (7.89 * 1.66)

Flexible Waveguide loss: FSL = 145.81 dB Low band frequency =(0.2624 dB/m) (0.6) For High Band: = 0.1574 dB FSL = 92.45 + 20log10 (f * d) High band frequency = (0.2624 dB/m) (0.6) FSL =92.45 + 20 log10 (8.20 * 59) FSL = 146.14 dB = 0.1574 dB

Antenna used = 0.6 m in diameter (6 GHz) with Mid Band Gain ofWhere: f = frequency 37.5 dB d = path length in Km Waveguideused = WR112 (0.6 m exible waveguide in site A and site B)

Connector Loss = 0.5 dB Where: f = frequency prev next d = pathlength in Km

130. C1 MW Line 1: LINK BUDGET CALCULATIONComputationfor Low Band Frequency Computation for High Band Frequency(5.89 GHz) (6.20 GHz) prev next

131. C1 MW Line 1: LINK BUDGET CALCULATION DispersiveFade Margin Dispersive Fade Margin at 1 x E3 is 90 dB. Interference

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Fade Margin Assume that no interference fade margin is given;therefore it is not included in the computation prev next

132. C1 MW Line 1: LINK BUDGET CALCULATION prev next

133. C1 MW Line 1: LINK BUDGET CALCULATION Rain LossesCCIR/ITU-R Recommendation 530 rain attenuation For Low BandFrequency (5.89 GHz) M = (log10 f1 log10 fx)/ (log10 f1 log10f2) note: f1 < fx

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heightMicrowave 6.5GhzFrequenciesRange 1.77kmDestination TaytayMedDishes antenna 0.6mDiameterProposed 35mAntennaHeightSectors 3 prev next

137. C1 MW Line 2:Line 1 TaytayNewLatitude143336.32NLongitude 121810.23NProposed 40 mantennaheightMicrowave 6.5GhzFrequenciesRange 1.77kmDestination

TaytayMedDishes antenna 0.6mDiameterProposed 35mAntennaHeightSectors 3 prev next

138. C1 MW Line 3:Line 1 TaytayNewLatitude143336.32NLongitude 121810.23NProposed 40 mantennaheightMicrowave 7GhzFrequenciesRange 2.09kmDestinationFloodwayDishes antenna 0.6mDiameterProposed 30mAntennaHeightSectors 3 prev next

139. C1 MW Line 3:Line 1 TaytayNewLatitude143336.32NLongitude 121810.23NProposed 40 mantennaheightMicrowave 7GhzFrequenciesRange 2.09kmDestinationFloodwayDishes antenna 0.6mDiameterProposed 30mAntennaHeightSectors 3 prev next

140. C1 MW Line 3:Line 1 TaytayNewLatitude143336.32NLongitude 121810.23NProposed 40 mantennaheightMicrowave 7GhzFrequenciesRange 2.09kmDestination

FloodwayDishes antenna 0.6mDiameterProposed 30mAntennaHeightSectors 3 prev next

141. Theoretical Propagation: Proposed 228Mhz Spectrum F157Mhz F2 144Mhz F3 171Mhz F4 228Mhz prev next

142. Theoretical Propagation: Proposed 228Mhz Spectrum F157Mhz F2 144Mhz F3 171Mhz F4 228Mhz prev next

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143. Theoretical Propagation: Frequency Reuse Proposed 228MhzSpectrum F1 57Mhz F2 144Mhz F3 171Mhz F4 228Mhz prev next

144. Theoretical Propagation: Frequency ReuseProposed228MhzSpectrumF1 57MhzF2 144MhzF3 171MhzF4 228Mhz prevnext

145. CELLSITE 3 prev next









154. GENERAL PROCESS FLOW Site Development Start andConstruction Marketing and RNE Collaboration Telecom Works Site

Hunting and Survey Site Optimization Joint Technical SiteSurvey/Deliberation Site Acceptance Approval of Site End Plans and Pre-con Word: 1 of 5 Word: 1 of 5

155. Marketing and RNE CollaborationFairytelco Marketing RNE TNE Start Validate: is target areaTarget area nomination Receivestarget areas already covered N ? Feedback to Marketing; Y target

area is already coveredSign-off; agrees on the Generate coverageplots Prepare link-upprojected coverage area and NP transmission

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solution plan Produce the SR document Endorse to TNE Endorselink-up transmission solution plan to PMI Endorse SR to SAQ / PMIW A

156. GENERAL PROCESS FLOW Site Development Start andConstruction Marketing and RNE Collaboration Telecom Works SiteHunting / Survey Site Optimization Joint Technical SiteSurvey/Deliberation Site Acceptance Approval of Site EndPlans and Pre-con

157. Site Hunting and Survey FAIRYTELCO-RNE SUBCONReceives SR from A Network Engineering All Conducts site huntingpossible within SR (100m sites are Y diameter area) Validate sitelocation within SR if possible as one of site candidates Provide RNEcoordinates N of site outside SR for verication Possible as 1.Conduct initial negotiation with owner one of site candidate? Y 2.

Verify property docs with owner N Check clearance for ATO, zoning

and Inform SAQ that other local restrictions site location is not validFinalize all site candidates Send survey invitation and schedule tothe technical survey team B

158. GENERAL PROCESS FLOW Site Development Start andConstruction Marketing andRNE Collaboration Telecom Works SiteHunting / Survey Site OptimizationJoint Technical SiteSurvey/ Deliberation Site Acceptance Approval of Site End Plans and Pre-con

159. Joint Technical Site Survey/Deliberation Transmission FAIRY TELCO Radio Network/SUBCON Network/SUBCON Civil Works &Power/ SUBCON*Endorsementfrom TNE W*Endorsementfrom RNEB Initiates survey of candidate sites Conducts joint technical sitesurvey based on the minimum requirements set forth by Fairy TelcoInc. (RNE/TNE/SAQ/CIVIL WORKS and POWER) Fill up the site

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deliberation sheet (SDR); Deliberate site options and ranking (rank 1as the most feasible); Sign-off of technical survey team in the SDRProduce SDR,TSR and TSSR (6 options per search ring) Endorse to

Network Engineering the SDR, TSR and TSSR (6 options per SR) forapproval C

160. GENERAL PROCESS FLOW Site Development Start andConstruction Marketing andRNE Sign-off of SR Collaboration

Telecom Works Site Hunting / Survey Site Optimization Joint Technical SiteSurvey/ Deliberation Site Acceptance Approval of Site

End Plans and Pre-con

161. Approval of Site Plans and Pre-conFAIRYTELCO/SUBCONRNE TNE CW & P Engg C Review and approve all site optionsbased on SDR Secure MOC and barangay clearance based on rank1 1. secure as-built, then proceed for SI (RT) 2. Conduct segplan,then proceed for SBT (GF) RNE/ TNE/ CWE/ PE, Drop site option

Produce technical Y approve? N site plans of approved nal siteoption Endorse technical site Review technical site plans plans forapproval Revise plans and Y Needs submit to Engineering revision?N Approve technical site plans RNE/RNO/TNE/Core EngineeringEndorse approved plans and Engg documents Prepare engineeringDocuments to Fairy Telco: to Fairy Telco for implementation D 1. E1transmission allocation for backhaul (TWO) 2. BTS parameters (per

site) 3. BSC port assignments

162. GENERAL PROCESS FLOW Site Development Start andConstruction Marketing and RNE Collaboration Telecom Works SiteHunting / Survey Site Optimization Joint Technical SiteSurvey/Deliberation Site Acceptance Approval of Site End Plans and Pre-con

163. Site Development and Construction / Telecom Works FAIRY

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TELCO SUBCON/ CIVIL WORKS SUBCON / TELECOM WORKSReceives approved Site construction Telecom worksD technicalplans from process process Network Engineering Issue Ready Issue

Ready for Telecom to Build Works Installation (RFTI) (RTB) Siteintegration/ Site completed on-airAcquired permits1. Socialacceptability Endorsement2. Precon permits PAT PAT to RadioNetwork OptimizationAfter site construction completed, secure postconstruction permits; PAC PAC requirements: E1. Log book2. As-built plans FAT FAT FAC FAC FAC

164. GENERAL PROCESS FLOW Site Development Start andConstruction Marketing andRNE Sign-off of SR Collaboration

Telecom Works Site Hunting / Survey Site OptimizationSiteDeliberation Site Acceptance Approval of Site EndPlans and Pre-con

165. Site Optimization and Acceptance BTI-RNE BTI-RNO Receives

endorsement of site for optimization E Conducts site audit Conductthe required rectication/ correction to Implemente follow approvedd as plan planned? NReceives site audit report Y Endorsement ofsite audit report to Radio Network Engineering Updates databaseand RF planning tool Conducts RF acceptance test RFAC End

166. Implementation PlanPlanning for the InstallDocumentationready for installation, preliminary restoration plans readyTest plancompleteSchedule and start date set for installation, all partiesnotiedComponents ordered and delivery date set, plans made forreceiving materials (time, place) arrangesecurity if let outside or onconstruction siteContractor plans reviewed with contractorsLink tourwith contractorsConstruction plans reviewed with contractor(s)Components chosen reviewed with contractor(s)Schedule reviewedwith contractor (s) Word: 1 of 5 prev next

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167. Implementation PlanPlanning for the InstallSafety rulesreviewed with contractor(s)Excess materials being kept forrestoration reviewed with contractor(s)Test plan reviewed with

contractor(s) Word: 1 of 5 prev next

168. Implementation Plan Before starting the install:a) All permitsavailable for inspectionb) Sites prepared, power availablec) Allcomponents on site, inspected, security arranged if necessaryd)Contractor availablee) Contractor availablef) Safety rules posted onthe job site Word: 1 of 5 prev next

169. Implementation Plan Before starting the install: Aftercompletion of cable plant installation:a) Inspect workmanshipb)Review test data on cable plantc) Set up and test communicationssystemd) Update and complete documentation Maximum of 6months for the overall completion Word: 1 of 5 prev next

170. TIMELINE: Our project development plan Inspection NetworkDesign Equipment Supply and Installation Work TestingCommisioning Word: 1 of 5 prev next

171. Product Design Constraints andRequirements !

DesignEngineers must consider a multitude of technical, economic,social, environmental, and political constraints when they designproducts and processes. ! Theremust be clear evidence in your

design project that you have addressed the constraints that arerelevant to your project. prev next

172. Effect of Constraints Better Designs Constraint Limits DesignChanges Design Changes prev next

173. Functional Constraints Overall Geometry size, width, space,arrangement Motion of parts type, direction, velocities,acceleration, kinematics Forces involved load direction,

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magnitude, load, impact Energy needed heating, cooling,conversion, pressure Materials to be used ow, transport,properties Control system electrical, hydraulic, mechanical,

pneumatic Information ow inputs, outputs, form, display prevnext

174. Safety Constraints Operational direct, indirect, hazardelimination Human warnings, training Environmental land,sea, air, noise, light, radiation, reaction, transport prev next

175. Quality Constraints Quality assurance regulations,standards, codes Quality control inspection, testing, labeling Reliability design life, failures, statistics prev next

176. Manufacturing Constraints Production of components factory limitations, means of production, wastes Purchase ofcomponents supplier quality, reliability, quality control, inspection Assembly installation, foundations, bolting, welding Transport material handling, clearance, packaging prev next

177. Timing Constraints Design schedule project planning,project control Development schedule design detailing,compliance tests Production schedule manufacture, assembly,packing, transport Delivery schedule delivery date, distributionnetwork, supply chains prev next

178. Economic Constraints Marketing analysis size of market,distribution, market segments Design costs design teamcomputing, information retrieval Development costs designdetailing, supplier costs, testing costs Manufacturing cost -tooling, labor, overhead, assembly, inspection Distribution costs -packing, transport, service centers, spare parts, warranty

Resources time, budget, labor, capital, machines, material $ prev

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next

179. Ergonomic Constraints User needs type of operation,

instructions, warnings Ergonomic design man-machinerelationships, operation, height, layout, comfort, lighting Cybernetic design controls, layout, clarity, interactions prev next

180. Ecological Constraints General environmental impact impact on natural resources, social resources Sustainability political and commercial consequences, implications for followinggenerations Material selection solid, liquid, gas, stability,protection, toxicity Working uid selection uid, gas,ammability, toxicity prev next

181. Aesthetic Constraints Customer appeal shape, color,texture, form, feel, smell, surprise and delight features Fashion culture, history, trends Future expectations rate of change intechnology, trends, product families prev next

182. Life-Cycle Constraints Distribution means of transport,nature and conditions of dispatch, rules, regulations Operation quietness, wear, special uses, working environments Maintenance servicing intervals, inspection, exchange and repair, cleaning,diagnostics Disposal recycle, scrap prev next

183. Life-Cycle Constraints Distribution means of transport,nature and conditions of dispatch, rules, regulations Operation quietness, wear, special uses, working environments Maintenance servicing intervals, inspection, exchange and repair, cleaning,diagnostics Disposal recycle, scrap prev next

184. Radio Control Law MEMORANDUM CIRCULAR NO. 20-12-92SUBJECT: IMPLEMENTING GUIDELINES FOR CELLULAR MOBILE

TELEPHONE SYSTEM (CMTS) OPERATIONS IN THE PHILIPPINES

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prev next

185. Legal/Ethical Constraints Regulations OSHA, FAA, FDA

Ethics public safety, health, welfare and integrity IntellectualProperty patents, trademarks, copyrights prev next

186. Thank You poh!! prev next

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