2014年7月18日星期五

The Optix OSN 1500A Hardware Description (2) – Slot Allocation



An OptiX OSN 1500A subrack has only one layer structure. The subrack consists of a board area, an auxiliary interface board area, a power interface board area, a fan area, and a cable routing area.
Figure 1 Structure of an OptiX OSN 1500A subrack 




1. Fan area
2. Processing board area
3. Power interface board area
4. Auxiliary interface board area
5. Cable routing area
-

The functions of the areas are as follows:
·                 Fan area: This area houses one fan module, which dissipates heat generated by the equipment.
·                 Processing board area: This area houses the service boards of the OptiX OSN 1500A.
·                 Power interface board area: This area houses two power interface boards, which supply power to the equipment.
·                 Auxiliary interface board area: This area houses the line, tributary, and Ethernet processing boards of the OptiX OSN 1500A.
·                 Cable routing area: This area houses fiber jumpers and cables in a subrack.
NOTE:
An interface board is also called an access board or a transit board. An interface board provides physical interfaces for optical signals and electrical signals, and transmits the optical signals or electrical signals to the corresponding processing board.


The slot allocation
An OptiX OSN 1500A subrack has only one layer, where 12 slots are available before division of slots. After slot division, there are 14 slots. The mappings between the slots for the access boards and the slots for the processing boards and the mappings between paired slots are specified.
Figure 2 shows the slot layout (before slot division) of an OptiX OSN 1500A subrack.
Figure 2 Slot layout of an OptiX OSN 1500A subrack (before slot division) 

Each of slots 12 and 13 in an OptiX OSN 1500A subrack can be divided into two half-width slots. See Figure 3.
Figure 3 Slot layout of an OptiX OSN 1500A subrack (after slot division) 
The slots in an OptiX OSN 1500A subrack are allocated as follows:
·                 Slots for line unit, SCC unit, cross-connect unit, and timing unit integrated boards: slots 4-5
·                 Slots for processing boards before division of slots: slots 6-9 and 12-13
·                 Slots for processing boards after division of slots: slots 2-3, 6-9, and 12-13
·                 Slot for an orderwire board: slot 9 (also for a processing board)
·                 Slot for an auxiliary interface board: slot 10
·                 Slots for power interface boards: slots 1 and 11
·                 Slot for a fan board: slot 20
 NOTICE:
Do not divide slots by yourself. If slots need to be divided, the division is performed before delivery.

Mapping Between Slots for Interface Boards and Slots for Processing Boards

Table 1 lists the mapping between slots for interface boards and slots for processing boards.
Slot for Processing Board
Slot for Interface Board
Slot 12
Slots 6 and 7

Paired Slots

If overhead bytes pass through the backplane bus between two slots, the two slots are called paired slots. Paired slots achieves automatic transparent transmission of overhead bytes such as K bytes, D bytes, and E1 overhead bytes. This improves multiplex section protection (MSP) switching performance and protects orderwire and DCC communication with other NEs even after the system control board on the local NE cannot be
detected. Table 2 lists paired slots.
Slot Division Status
Paired Slot
Before division of slots
(Slot 4, Slot 5)
(Slot 6, Slot 9)
(Slot 7, Slot 8)
(Slot 12, Slot 13)
After division of slots
(Slot 4, Slot 5)
(Slot 6, Slot 9)
(Slot 7, Slot 8)
(Slot 2, Slot 12)
(Slot 3, Slot 13)
The similar product OSN 550, please visit:
http://www.huanetwork.com/huawei-osn550-price_p3726.html


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2014年7月17日星期四

The Optix OSN 1500 Hardware Description (1) – Structure Overview



The optix OSN 1500 hardware overview
The OptiX OSN 1500 consists of a cabinet, subracks, and boards.
The OptiX OSN 1500 can be installed in an ETSI cabinet (300 mm or 600 mm deep) or a 19-inch standard cabinet. It can also be installed against the wall.
The OptiX OSN 1500 uses various boards and forms a system architecture where the SDH cross-connect matrix unit and the packet switching unit are the core. As shown in Figure 1, the system architecture of the OptiX OSN 1500 consists of the units listed in Table 1.
Figure 1 System architecture of the OptiX OSN 1500 

Table 1 Units supported by the OptiX OSN 1500
Unit
Description
Network-side service interface units
TDM mode
SDH interface unit
WDM unit
Optical amplifier unit
Packet mode
Ethernet interface unit
CES interface unit
Core units
TDM mode
SDH cross-connect matrix unit
Packet mode
Packet switching unit
User-side service interface units
TDM mode
SDH interface unit
PDH interface unit
Ethernet interface unit
DDN interface unit
ATM interface unit
RPR interface unit
SAN/Video interface unit
PCM interface unit
Packet mode
Ethernet interface unit
CES interface unit
Common units
Overhead processing unit
Synchronous timing unit
Power interface unit
Auxiliary interface unit
System control and communication unit

The Cabinet of Huawei SDH OSN 1500
The OptiX OSN 1500 can be installed in an ETSI cabinet (300 mm or 600 mm deep) or a 19-inch standard cabinet or many other cabinets.
There are 300 mm and 600 mm ETSI cabinets, of which 300 mm ETSI cabinets are available in two types: T63 cabinets and N63E cabinets. Figure 2 shows the appearance of a T63 cabinet and the appearance of an N63E cabinet.
Figure 2 Appearance of a T63 cabinet and appearance of an N63E cabinet 



600 mm ETSI cabinets are currently available in only one type: N66T cabinets. Figure 3 shows the appearance of an N66T cabinet.
Figure 3 Appearance of an N66T cabinet 
 The similar product OSN 550, the datasheet and hardware description, please visit:


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2014年7月11日星期五

The Features and Networking Application of Huawei Optix OSN 500



The features of Huawei optix OSN 500

High Availability, Low Power Consumption, and Compact Structure

The Huawei OSN OptiX OSN 500 is access layer equipment, which features high availability, low power consumption, and compact structure. The OptiX OSN 500 supports:
  • Network-level protection such as Multiprotocol Label Switching (MPLS) automatic protection switching (APS), Multiple Spanning Tree Protocol (MSTP), Ethernet ring protection switching (ERPS), link aggregation group (LAG), Multi-Link Point-to-Point Protocol (ML-PPP), linear multiplex section protection (LMSP), and link-state pass through (LPT), which significantly improves equipment reliability.
  • A maximum power consumption of 100 W, and a typical power consumption of only 35 W
  • Dimensions (H x W x D) of 44 mm x 442 mm x 220 mm, and installation in an ETSI or 19-inch cabinet, or open rack, or on a wall or desk.
Pure Packet Architecture and Multi-Service Transmission Support

The OptiX OSN 500 supports service bearing in the PTN domain. The solution improves based on the service changes that take place due to radio mobile network evolution. Therefore, this solution can meet the transmission requirements of not only 2G and 3G networks, but also the future LTE and 4G networks. Its access and transmission of ATM/Ethernet/MPLS/MPLS-TP services meet multi-service application demands.

End-to-End Service Configuration, One-Click Commissioning, and One-Click Fault Locating (TP-Assist)

Compared with legacy TDM networks, PTN networks have the following characteristics in terms of O&M:
  • Lack of overheads indicating the physical states of networks. When a fault occurs on a PTN network, no visual and fast indicator is available to locate the fault.
  • Networking diversity and complication, which require powerful O&M capabilities
To address those issues, the equipment uses the TP-Assist to provide more O&M means and simplify O&M operations for PTN networks during installation, commissioning, service configuration, fault locating, and routine maintenance. With the TP-Assist, PTN networks have the SDH-like O&M capabilities, which reduce the technical requirements for O&M personnel and improve O&M efficiency.

Hierarchical OAM

The OptiX OSN 550 supports the hierarchical OAM functions and have the SDH-like O&M capabilities. It can quickly detect and locate faults at each layer.
The hierarchical OAM functions include ETH-OAM, MPLS tunnel/PW OAM, and MPLS-TP tunnel/PW OAM. Figure 1 shows the application of hierarchical OAM.

Figure 1 Application of hierarchical OAM



The positioning and networking application of Huawei optix OSN 500 
 
The OptiX OSN 500 is a packet-oriented new-generation multi-service CPE optical transmission system, which is positioned at the access layer among Huawei's end-to-end multi-service transmission platform (MSTP) product series. This system is characterized by its low power consumption and compact structure.

The OptiX OSN 500 supports multiprotocol label switching (MPLS), MPLS-transport profile (MPLS-TP), pseudo wire emulation edge-to-edge (PWE3), Ethernet, and ATM technologies. With these technologies, a pure PTN network can be provisioned.

As the access layer equipment, the OptiX OSN 500 is networked with other OptiX OSN equipment to provide a complete solution covering the backbone layer, aggregation layer, and access layer. The complete solution meets 2G/3G/LTE base station backhaul and enterprise leased service access demands. Figure 2 illustrates the network application of the OptiX OSN 500.

Figure 2 Network application of the OptiX OSN 500