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BYPASS OP9000
Performance and Features
1 Performance and Features ....................................................................................................... 1-1
1.1 Product Overview........................................................................................................................ 1-1
1.2 Performance and Features ........................................................................................................... 1-1
1.2.1 High-Performance of protect swith.................................................................................... 1-1
1.2.2 Guaranteed Reliability ....................................................................................................... 1-2
2 Hardware .................................................................................................................................... 2-1
2.1 Hardware Overview..................................................................................................................... 2-1
2.1.1 Appearance......................................................................................................................... 2-1
2.1.2 General Specifications ....................................................................................................... 2-2
2.2 Board Area................................................................................................................................... 2-3
3 Working Principle and Functions.......................................................................................... 3-1
3.1 System control and communication unit SCC............................................................................. 3-1
3.2 Dual-channel optical line protection board(DCP) ....................................................................... 3-4
3.3 Installing Optical Fiber................................................................................................................ 3-8
3.3.1 Fiber Connector ................................................................................................................. 3-8
3.3.2 Swapping Fiber Connector................................................................................................. 3-9
3.4 Requirements for Optical Fiber Management ........................................................................... 3-10
3.4.1 Basic Principles................................................................................................................ 3-10
3.4.2 Requirements for Fiber Routing ...................................................................................... 3-10
3.4.3 Requirements for Fiber Bundling .................................................................................... 3-11
3.4.4 Managing Fiber in Front Board Area............................................................................... 3-11
4 Protection .................................................................................................................................... 4-1
4.1 Input Power Supply Protection.................................................................................................... 4-1
4.2 Optical Line Protection................................................................................................................ 4-1
5 Technical Specifications .......................................................................................................... 5-1
5.1 DCP Board Specifications ........................................................................................................... 5-1
5.2 Laser Security.............................................................................................................................. 5-1
5.3 Auxiliary Interfaces ..................................................................................................................... 5-1
5.4 Environmental Specifications...................................................................................................... 5-1
5.5 Electromagnetic Compatibility.................................................................................................... 5-2
Document Version
T2-0416xx-20050330-C-1.20
(March 2005)
HUAWEI TECHNOLOGIES CO.,
LTD.
Contents
Contents
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Summary of Contents for Huawei BYPASS OP9000
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Page 1: Table Of Contents
BYPASS OP9000 Performance and Features Contents Contents 1 Performance and Features ....................... 1-1 1.1 Product Overview........................1-1 1.2 Performance and Features ......................1-1 1.2.1 High-Performance of protect swith..................1-1 1.2.2 Guaranteed Reliability ....................... 1-2 2 Hardware ............................ 2-1 2.1 Hardware Overview........................2-1 2.1.1 Appearance......................... - Page 2 BYPASS OP9000 Performance and Features Contents Document Version HUAWEI TECHNOLOGIES CO., T2-0416xx-20050330-C-1.20 - ii - LTD. (March 2005)
- Page 3 Figures Figure 2-1 The front view of the BYPASS OP9000................. 2-1 Figure 2-2 The rear view of the BYPASS OP9000 ................2-2 Figure 2-3 Front board area of the BYPASS OP9000 ..............2-3 Figure 2-4 Slots assignment diagram ....................2-3 Figure 3-1 Functional block diagram of SCC...................
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Page 5: Performance And Features
1.2 Performance and Features 1.2.1 High-Performance of protect swith The BYPASS OP9000 provides 4 types of switch: lock-switch, force-switch, auto-switch, manual-switch. Document Version HUAWEI TECHNOLOGIES CO., T2-0416xx-20050330-C-1.20... -
Page 6: Guaranteed Reliability
The BYPASS OP9000 offers comprehensive network protection mechanisms including optical channel protection, optical line protection and inter-board channel protection. Power Supply Protection The BYPASS OP9000 is fed by dual –48/-60V DC inputs, which are of mutual backup. Document Version HUAWEI TECHNOLOGIES CO., T2-0416xx-20050330-C-1.20... -
Page 7: Hardware
The BYPASS OP9000 is a case-shaped equipment with the height of 1RU. The boards of the BYPASS OP9000 are inserted horizontally in the front board area. Usually, there are fiber frames installed on both sides of the chassis for managing the optical fibers. -
Page 8: General Specifications
BYPASS OP9000 Performance and Features 2 Hardware Figure 2-2 The rear view of the BYPASS OP9000 2.1.2 General Specifications Table 2-1 General specifications Item Specifications Dimensions 436 mm (W) x 195 mm (D) x 44 mm (H) Weight 4 kg when fully loaded Power consumption 70 W maximum. -
Page 9: Board Area
Figure 2-3 Front board area of the BYPASS OP9000 OptiX OSN 900A Figure 2-4 Slots assignment diagram The slot and board compatibility for the front board area of the BYPASS OP9000 is shown in Table 2-2. Table 2-2 Slot and board compatibility Slot Board available IU1–... -
Page 11: Working Principle And Functions
3.1 System control and communication unit SCC The system control and communication unit (SCC) is the base platform on which BYPASS OP9000 system apply its management functions of NEs level. SCC can directly control each sub-card in system by functions such as device config management, fault management, performance management, safety management and maintain management. -
Page 12: Figure 3-1 Functional Block Diagram Of Scc
BYPASS OP9000 Performance and Features 3 Working Principle and Functions State and alarm indicate Reset 10/100M Ethernet Switch RS232 Backplane Figure 3-1 Functional block diagram of SCC Micro process unit (MPC855) response and process the command from RS232 interface or Ethernet 10/100BaseT interface, apply it into target board in device to retrieve information or configure the board according to the command. - Page 13 BYPASS OP9000 Performance and Features 3 Working Principle and Functions Indicators on the front panel: Silkscreen Color Function Green / Red / Yellow Green – Normal and no alarm. /Off Red – Critical alarm occurs. Yellow – Major or minor alarm occurs.
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Page 14: Dual-Channel Optical Line Protection Board(Dcp)
BYPASS OP9000 Performance and Features 3 Working Principle and Functions Slot Assignment: Weight: 130 g Maximum power consumption at 25 4.5 W 3.2 Dual-channel optical line protection board(DCP) DCP: dual-channel optical line protection board Functions DCP board can provide dual channels optical line protection, to guarantee that service can be normally received in case of line faults. -
Page 15: Figure 3-2 Functional Block Diagram Of Dcp
BYPASS OP9000 Performance and Features 3 Working Principle and Functions Working channel RI11 Signal selection module RI12 Protection channel Working channel TO11 Optical splitter TO12 Protection channel Working channel RI21 Signal selection module RI22 Protection channel Working channel TO21 Optical splitter... - Page 16 BYPASS OP9000 Performance and Features 3 Working Principle and Functions until fault occurs on the protection path and services are switched again to the working fiber. Manual switching: a user can also shift the service on any path i.e. he can use either working or protection path as a service carrier.
- Page 17 BYPASS OP9000 Performance and Features 3 Working Principle and Functions Specifications Table 3-2 Specifications of DCP Front panel TO11 TO12 RI11 RI12 TO21 TO22 RI21 RI22 RI11 RI21 RI12 RI22 Specifications Dimensions: Board (PCB):169.8 mm (length) x 130 mm (width) x 1.6 mm (thickness) Front panel:141.5 mm (length) x 19.6 mm (width)
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Page 18: Installing Optical Fiber
IU1-IU4 Weight: 280 g Maximum power consumption at 25 3.3 Installing Optical Fiber 3.3.1 Fiber Connector BYPASS OP9000 uses the optical fiber with LC/PC connector as shown in Figure 3-3。 Document Version HUAWEI TECHNOLOGIES CO., T2-0416xx-20050330-C-1.20 - 3-8 - LTD. -
Page 19: Swapping Fiber Connector
BYPASS OP9000 Performance and Features 3 Working Principle and Functions Figure 3-3 LC/PC fiber connector 3.3.2 Swapping Fiber Connector Warning Before connecting optical fiber, please clean up the optical connector to avoid attenuation increase, which may lead to bit error and even service interruption. -
Page 20: Requirements For Optical Fiber Management
Pull out the optical fiber gently. 3.4 Requirements for Optical Fiber Management The BYPASS OP9000 can be installed in many ways according to the equipment room conditions. This section introduces the basic principles and requirements for arranging and bundling the optical fibers. -
Page 21: Requirements For Fiber Bundling
3.4.4 Managing Fiber in Front Board Area There are two fiber frames on the BYPASS OP9000 chassis for managing the fibers. The fiber frames are attached to the two sides of the chassis, as shown in Figure 3-4. -
Page 22: Figure 3-5 Managing Fibers In The Front Board Area
Figure 3-5 Managing fibers in the front board area All the optical interfaces of the BYPASS OP9000 are on the front panels of boards in the front board area. All the fibers should be routed to the front board area from the right of the chassis and then connected to the corresponding optical interfaces. -
Page 23: Protection
4.2 Optical Line Protection All channels in optical line can be protected in this way. DCP can be applied in the protection on backbone. Optical line protection of BYPASS OP9000 is applied in point to point networks as well as ring networks. -
Page 25: Technical Specifications
BYPASS OP9000 Performance and Features 5 Technical Specifications Technical Specifications 5.1 DCP Board Specifications Table 5-1 DCP board specifications Corresponding Item Unit Value interfaces TI1-TO11 Signal splitter insertion loss <3.8 TI1-TO12 TI2-TO21 TI2-TO22 RI11-RO1 Signal selection insertion loss <1.5 RI12-RO1... -
Page 26: Electromagnetic Compatibility
≤95% * The temperature and humidity are measured 2 m above the floor and 0.4 m ahead the BYPASS OP9000 equipment when it works under normal environment conditions (with no protection plate before the cabinet) Short-term: the continuous working period not more than 72 hours, and the accumulated working period per year not more than 15 days.