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Eskom Telecommunications
Assignment• Use Wikipedia to lookup the following terms: • SDH systems• PDS systems• Power line communication
Core ActivitiesProvide Support to Eskom’s Core Activities• Teleprotection• Telecontrol• Data: Frame Relay / P-to-P / X.25• Voice Services: Direct / Switched• Area Coverage
Provides Telecoms services to:
• System Operations & Planning• Transmission Group• Distribution Group• Generation Group
SDH Backbone• SDH (Synchronous Digital Hierarchy) Backbone Network• 622 Mbit/s Fibre Optic - 5 links - 95 kms (Gauteng area)• 155 Mbit/s Fibre Optic / Radio - 100 links• 51 Mbit/s Radio - 57 links
Synchronous networking uses exact timing to transport the data and is tightly synchronized across the entire network, using atomic clocks.
This synchronization system allows entire inter-country networks to operate synchronously, greatly reducing the amount of buffering required between elements in the network.
SDH networks are configured to be highly redundant, with fibre optic networks providing backup. The optimum network topology is a ring.
Data Flow155 Mbit/s
Add / Drop Multiplexer: allows the insertion (add) or removal (drop) of the required bandwidth from an SDH signal passing through the multiplexer.
1 x 155 Mbit/s + monitoring has 62 x E1 circuits running at 2M/Sec
Add / Drop Multiplexers
1 x 2Mbit/s circuit has 30 x 64 Kbit/s circuits + monitoring
155 Mbit/s
9600 Kbit/s
155 Mbit/s
RTU TEMSE
9600 Kbit/s
PDH Systems
• PDH Systems• 34 / 16 / 8 / 4 / 2 Mbit/s Radio links - 443• 8 / 4 / 2 Mbit/s Fibre Optic links - 142• Used to connect between sites or from a site to a backbone
site• Fibre optic typically used shorter distances• Diverse fibre routes on campus environments
PDH SystemsThe Plesiochronous Digital Hierarchy (PDH)
• A technology used to transport large quantities of data over digital transport equipment such as fibre optic and microwave radio systems.
• The term plesiochronous is derived from Greek plesio, meaning near, and chronos, time, and refers to the fact that PDH networks run in a state where different parts of the network are nearly, but not quite perfectly, synchronised.
• PDH is now being replaced by Synchronous Digital Hierarchy (SDH) equipment.
• PDH allows transmission of data streams that are nominally running at the same rate, but allowing some variation on the speed around a nominal rate.
• By analogy, any two watches are nominally running at the same rate, clocking up 60 seconds every minute. However, there is no link between watches to guarantee they run at exactly the same rate, and it is highly likely that one is running slightly faster than the other
2 Channel Radio Links
• 248 Links• Mainly connect Area Coverage repeaters back to a higher-capacity
link• Operate in the 406 / 416 MHz and 450 / 460 MHz bands
Power Line Carriers
• Primary function is Teleprotection• Single Channel• Audio 300 to 2 700 Hz• Super Audio 2 900 to 3 400 Hz• Only used for voice in exceptional circumstances
• All power line communications systems operate by impressing a modulated carrier signal on the wiring system.
• The propagation problem is a limiting factor for each type of power line communications
Power Line Carriers
• A power line carrier is communication equipment that operates at radio-frequencies, generally below 600 kilohertz, to transmit information over electric power transmission lines.
• A high frequency signal is superimposed on the normal voltage on a power circuit.
• The power line carrier is usually coupled to the power line by means of a coupling capacitor in conjunction with a line trap.
Network Design Philosophy
Network Design Philosophy• SDH Extended “Rings”• Centrally Managed• Largely influenced by the power network• Criticality “A” : 3 Diverse routes / 2 technologies• Criticality “B” : 2 Diverse routes• Criticality “C” : Single route; repair time better than 8 hours
Eskom Telecommunications
Radio Link
Fibre Optic
51 Mbit/s
622 Mbit/s
155 Mbit/s
8 Mbit/s
Simmerpan (A)Jupiter (B)
Eiger (B)
Rigi (C)
Glockner (B)
Lethabo (B) Brakfontein
Simmerpan
Megawatt Park (A)
ErmeloVaalkop
To Natal
Alpha
Elandsfontein
Duvha /Standby NCC
Pluto (B)
To NatalTo Cape
Fontana
Vulcan (B)
Majuba PS
Hekpoort
Midas (C)
Driehoek
Apollo (B)Minerva (B)
To Nth Province
EloffSunnyridge
Witbank
Kendal PS (B)
To Nth Province
Croydon (C)
Northrand (C)
SDH Frame
The first 9 columns contain the overhead and the pointers. For the sake of simplicity, the frame is shown as a rectangular structure of 270 columns and 9 rows, but the protocol does not transmit the bytes in this order in practice
For the sake of simplicity, the frame is shown as a rectangular structure of 270 columns and 9 rows.
The first 3 rows and 9 columns contain Regenerator Section Overhead (RSOH) and the last 5 rows and 9 columns contain Multiplex Section Overhead (MSOH. The 4th row from the top contains pointers
STM-1 Frame
The STM-1 (Synchronous Transport Module level - 1) frame is the basic transmission format for SDH.
The STS-1 frame transmitted in exactly 125 microseconds.
Therefore, there are 8000 frames per second on a fiber-optic circuit designated OC-1 (optical carrier one).
The STM-1 frame consists of overhead plus a virtual container capacity.
The first 9 columns of each frame make up the Section Overhead, and the last 261 columns make up the Virtual Container (VC) capacity.
The VC plus the pointers (H1, H2, H3 bytes) is called the AU (Administrative Unit).
STM-1 FrameCarried within the VC capacity, which has its own frame structure of nine rows and 261 columns, is the Path Overhead and the Container .
The first column is for Path Overhead; it’s followed by the payload container, which can itself carry other containers. Virtual Containers can have any phase alignment within the Administrative Unit, and this alignment is indicated by the Pointer in row four,
The Section overhead of an STM-1 signal (SOH) is divided into two parts: the Regenerator Section Overhead (RSOH) and the Multiplex Section Overhead (MSOH).
The overheads contain information from the system itself, which is used for a wide range of management functions, such as monitoring transmission quality, detecting failures, managing alarms, data communication channels, service channels, etc.
The STM frame is continuous and is transmitted in a serial fashion, byte-by-byte, row-by-row.
STM–1 frame contains
• Total content : 9 x 270 bytes = 2430 bytes
• overhead : 9 rows x 9 bytes
• payload : 9 rows x 261 bytes
• Period : 125 μsec
• Bitrate : 155,520 Mbit/s (2430 x 8 bits x 8000 frames/sec )
Equipment Types• Alcatel : SDH Radios / ADMs / Element Manager R2L & R1.5 PDH
Radio Links• Alcatel (Newbridge): 28 of 3645s / 290 of 3600s / 574 of 3630s / 85
FRE / Dual 5620 E M • DMC: 15 / 23 GHz PDH Radio Links• Plessey: PDR 23 PDH Radio Links• Timeplex: Synchronisation equipment
Fibre Optic Technologies on Power Lines
• OPGW (Optical Fibre in Ground Wire) > 132 kV• ADSS (All Dielectric Self Supporting) < 132 kV• GWWOP (Ground Wire Wrapped Optical Fibre)• Add Lash
Network Expansions
• 155 Mbit/s SDH Fibre Optic to Windhoek• 622 Mbit/s SDH Fibre Optic to Swaziland / Maputo• Under Investigation:
– Fibre Optic cable Ellisras / Selibwe Pikwe (Botswana) / Bulawayo (Zimbabwe)
Second Network Operator• Eskom Telecommunications allocated 15%• Rolled out - 4600 Km fibre optic cable• NOC established• Equipment containers being commissioned• (n+1) 2.5 Gbit/s backbone• POPs established• R1 Billion spent so far
Both SONET (Synchronous Optical Network) and SDH can be used to encapsulate earlier digital transmission standards, such as the PDH standard, or used directly to support either ATM or so-called Packet over SONET/SDH (POS) networking.
As such, it is inaccurate to think of SDH or SONET as communications protocols in and of themselves, but rather as generic and all-purpose transport containers for moving both voice and data.
The basic format of an SDH signal allows it to carry many different services in its Virtual Container (VC) because it is bandwidth-flexible.
Long Distance Fibre Optic Backbone
BLOEMFONTEIN PIETERMARITZBURG
BEAUFORT WEST
DE AAR
NELSPRUIT
PHALABORWA
RICHARD'S BAY
George
Namibia
Bethlehem
Botswana
Klerksdorp
Mozambique
Poseidon
Swaziland
CAPE TOWN
DURBAN
EAST LONDON
PORT ELIZABETH
PRETORIA
JOHANNESBURG
Umtata
Kenhardt
Maputo
ManziniErmelo
Gaberone
Ellisras
Welkom
Ladybrand
Lesotho
Copperton
KIMBERLEY
Rustenburg
Mosselbay
Stellenbosch
Potchefstroom
Cape Peninsula
Tongaat
New Castle
Alice
BritsZeerust
Leeudoringstad
Rhodes
Aggeneys
Witbank
Vereeniging
Saldanha
Pietersburg
KOMATIPOORT
MASERU
Beit Bridge
Network Management• Network Management Control Centre Operates 24x7• Provides full FCAPS capability• SLA Management• Fault Centre• Spares Management
Operations and Field Services
• Technical Staff - Approx. 270 (NTD / B.Sc) • Main Centres - E. Cape, W. Cape, KZN, Witbank, Bloemfontein and
Gauteng.• Satellite Centres - Pietersberg, Rustenberg, Pietermaritsberg,
Kimberly, Klerksdorp and Nelspruit
Service Level Agreements
Availabilities (real time)• Platinum 99.9% (max - 4 hrs per incident, 8hrs 46 mins per annum,
total window).• Gold 99.6%• Silver 99.2%• Bronze 98%
Business Diversity• Eskom - Gx, Tx, Dx and System Operations transmission services• Arivia.kom - IT and internet services• ATNS - bandwidth and services• Caledon Casino CT - Siemens EMS601 mntce• Logitel - Agency • Cell Direct - Agency