Page 1 ZXG10 iBSC Base Station Controller Hardware Installation Guide Version: V6.20.71 ZTE CORPORATION NO. 55, Hi-tech Road South, ShenZhen, P.R.China Postcode: 518057 Tel: +86-755-26771900 Fax: +86-755-26770801 URL: http://ensupport.zte.com.cn E-mail: support@zte.com.cn...
Page 2 ZTE CORPORATION is prohibited. Additionally, the contents of this document are protected by contractual confidentiality obligations. All company, brand and product names are trade or service marks, or registered trade or service marks, of ZTE CORPORATION or of their respective owners.
Page 3: Table Of Contents
Contents About This Manual ..................I Chapter 1 Safety Instruction..............1-1 1.1 Safety Overview ....................1-1 1.2 Safety Symbols ....................1-1 1.3 Safety Specifications ..................1-3 1.4 FCC Statement ....................1-6 Chapter 2 Installation Overview ..............2-1 2.1 Installation Flow ....................2-1 2.2 Precautions......................
Page 4 5.3.2 Installation Flow ..................5-16 5.3.3 Positioning Cabinet ................5-16 5.3.4 Fixing Cabinet..................5-18 5.3.5 Insulation Test..................5-20 5.4 Connecting Adjacent Cabinets ................5-21 5.5 Installation of Cabinet Components ..............5-22 5.5.1 Installing Side Door ................5-23 5.5.2 Installing Decorative Plates ..............5-24 5.5.3 Cabinet Labels ..................
Page 5 7.2 Installation Flow ....................7-4 7.3 Installation Preparations ..................7-6 7.4 Selecting Feeder Cables..................7-8 7.4.1 Making 1/4" Feeder .................. 7-8 7.4.2 Making 1/2" Feeder ................7-13 7.5 Installing Antenna..................... 7-17 7.5.1 Installation Requirements of GPS Antenna ..........7-18 7.5.2 Installing GPS Antenna on Tower ............7-18 7.5.3 Installing GPS Antenna on Roof ..............
Page 6 10.2.3 Checking Intra-cabinet Cabling.............. 10-5 10.2.4 Installing Inter-Cabinet Cables............... 10-5 10.2.5 Checking Optical Fibers ................ 10-5 10.2.6 Checking Outdoor Cabling ..............10-6 10.3 Checking Accessories ..................10-6 10.3.1 Checking Alarm Box ................10-6 10.3.2 Checking Sensor .................. 10-7 10.3.3 Checking Maintenance Terminal ............10-7 10.3.4 Checking Other Items ................
Page 7: About This Manual
About This Manual Purpose This manual introduce the hardware installation method of ZXG10 iBSC, include cabinet installation, cable installation, alarm system installation, background installation and installation check. What Is in This Manual This manual contains the following chapters. Chapter Description Chapter 1, Safety Instruction Introduces the safety instruction in the process of iBSC installation.
Page 9: Safety Overview
Observe related equipment precautions and special safety instructions during maintenance, provided by ZTE. Some important safety instructions are discussed in this chapter. ZTE shall not bear any liabilities incurred by violation of universal safety operation requirements, or violation of safety standards for designing, manufacturing, and equipment usage.
Page 10 ZXG10 iBSC Hardware Installation Guide Safety Symbol Meaning Laser: Beware of strong laser beam. Microwave: Beware of strong electromagnetic field. No smoking: Smoking is forbidden. No Flammables: No flammable materials can be stored. No touching: Do not touch. Amongst these safety symbols, the universal alarm symbols are classified into four levels: danger, warning, caution, and note.
Page 11: Safety Specifications
Changes or modifications to this unit not expressly approved by the party responsible for compliance could void the user’s authority to operate the equipment. Antistatic Caution! Static electricity produced by human body can damage static-sensitive components on circuit board, such as large-scale integrated circuits. SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 12 ZXG10 iBSC Hardware Installation Guide Friction caused by human body activities is the root cause of electrostatic charge accumulation. Static voltage carried by a human body in a dry environment can be up to 30 kV, and can remain in there for a long time. An operator with static electricity may discharge electricity through a component when he/she touches the conductor and causing damage.
Page 13 Do not conduct internal maintenance or equipment debugging without prior permission. Replacing parts or changing equipment may incur extra danger, therefore, do not replace parts or change the equipment without prior permission. To ensure safety, please contact ZTE in case of any problem. SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 14: Fcc Statement
ZXG10 iBSC Hardware Installation Guide 1.4 FCC Statement Note: This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment.
Page 15: Chapter 2 Installation Overview
Chapter 2 Installation Overview This chapter introduces the ZXG10 iBSC hardware installation flow and precautions. Table of Contents Installation Flow ......................2-1 Precautions ........................2-2 2.1 Installation Flow Figure 2-1 shows the flow of ZXG10 iBSC hardware installation. Figure 2-1 Flow Chart of Hardware Installation The workload of the hardware installation is large and complex.
Page 16: Precautions
2. The person who installs ZXG10 iBSC equipment shall have been trained in relevant trainings about communication equipment and mastering familiar installation technology.
Page 17 Therefore, never replace any parts or modify the equipment by any means unless otherwise authorized. 11. ZXG10 iBSC is an expensive electronic equipment, so you shall be careful on installation. To ensure your safety, please contact ZTE Corporation if you have any problem.
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Page 19: Chapter 3 Installation Preparations
In general, the user shall do the following inspection. 3.3 Instruments and Meters Preparation For the installation and test of ZXG10 iBSC and its maintenance background console in different stages, different instruments are required. Please prepare them according to the requirements listed in Table 3-1.
Page 20 ZXG10 iBSC Hardware Installation Guide Stage Instruments and Tools Function To measure whether the cabinet position complies with cabinet installation standards; Steel tape To check hole interval and diameter. Screwdriver To mount board, cable, and shelf. To mark the positions of connection holes on the anti-static floor;...
Page 21: Technical Data
The following documents should be made ready during the installation. 1. Project Design Specifications 2. ZXG10 iBSC Base Station Controller Hardware Installation Guide 3. ZXG10 iBSC Base Station Controller Hardware Description 4. ZXG10 iBSC Base Station Controller Project Survey Report Note: On installation, the technical data includes but not limited to above documents.
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Page 23: Chapter 4 Unpacking And Inspection
Do not remove the plastic bag until pulling out the cabinet. Hold the solid base of the cabinet. Do not apply forces on non-rigid areas, which include cable support and fixing beam, to avoid damaging the equipment. – End of Steps – SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 24: Unpacking Carton
ZXG10 iBSC Hardware Installation Guide Example For unpacking the cabinet, refer to Figure 4-1. Figure 4-1 Unpacking Wooden Case 1. Cushion 1 3. Cushion 2 5. Cabinet 2. Upper Cover 4. Main Frame 6. Side Cover 4.3 Unpacking Carton Steps 1.
Page 25: Inspecting Goods
4.4 Inspecting Goods Counting Goods After unpacking, check and count the goods against the packing list, and return the Unpacking Acceptance Report signed jointly by ZTE representative and the operator to ZTE before the specified deadline. Goods Inspection It contains cabinet inspection and board inspection.
Page 26 ZXG10 iBSC Hardware Installation Guide Caution! Inspect the goods according to Unpacking and Inspecting Report and the label attached on the exterior of the packing case. If there are shortages, wrong deliveries, and damaged packing materials, report them in time.
Page 27: Chapter 5 Cabinet Installation
Chapter 5 Cabinet Installation The installation mode of ZXG10 iBSC cabinet falls into the base installation mode and the feet installation mode. This chapter introduces the installation procedure of ZXG10 iBSC cabinet. Table of Contents Overview of Cabinet Installation .................5-1 Base Installation Mode ....................5-4...
Page 28 ZXG10 iBSC Hardware Installation Guide 6. The cabinet position shall provide the convenience for installation, maintenance, and system capacity expansion. In addition, you shall consider the bearing capability of the floor. The weight shall be distributed evenly. In consideration of the cable length in BSC, the distance between two cabinets shall be no more than 23 m for the BSC with two cabinets.
Page 29: Cabinet Installation Flow
Chapter 5 Cabinet Installation Figure 5-1 Cabinet Spacing Requirement 5.1.2 Cabinet Installation Flow The installation flow of the cabinet is shown in Figure 5-2. SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 30: Base Installation Mode
The base height can be adjusted in the unit of 25 mm. Refer to the installation instruction for the base installation. Installation engineers can choose the base type according to the height of the anti-static floor. 5.2.1 Required Parts 1. ZXG10 iBSC rack, its profile shown in Figure 5-3. SJ-20110531095035-004|2011-10-28 (R2.0)
Page 31: Figure 5-3 Cabinet Appearance
4. Upper beam 7. Lower beam 2. Adjustable Washer 1 5. Upper polar 3. Bolt M12x30 6. Lower polar There are three types of base, such as A, B, C, with different structures and heights. SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 32: Figure 5-5 Washer Specifications
Height of the antistatic floor: 310~510 mm The minimum height of raised floor is 155 mm. 3. Washer. For a rough ground surface, the washers provided by ZTE may be used between the base and the ground for partial adjustment. The washer has two heights:...
Page 33: Installation Flow
Figure 5-8. Figure 5-8 Cabinet Installation Flow on Antistatic Floor 5.2.3 Positioning Cabinet Steps 1. Depending on equipment room construction plan, check whether the cabinet installation position meets the requirement. Refer to Figure 5-9. SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 34: Positioning Base
ZXG10 iBSC Hardware Installation Guide Figure 5-9 Cabinet Layout Requirements 2. Check whether the position of base installation conflicts with that of the frame of anti-static floor. Keep the floor frame intact. If the conflict is unavoidable, remove the floor frame where the conflict occurs during the installation.
Page 35: Figure 5-10 Marking Template For Base Installation Mode
After drilling the holes, use a cleaner to remove the dust. Measure the hole spacing. For holes with big spacing error, reposition and drill again. – End of Steps – SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 36: Installing Base
ZXG10 iBSC Hardware Installation Guide 5.2.5 Installing Base Steps 1. Installing the expansion bolts Use a cleaner to suck dust inside and outside the holes. Measure the spacing between holes and place the adjustable base to check whether the base matches the holes.
Page 37 1.5 mm after the adjustment. Note: For a rough ground surface, the washers provided by ZTE may be used between the base and the ground for partial adjustment. 3. Fixing the base...
Page 38: Fixing Cabinet
ZXG10 iBSC Hardware Installation Guide Figure 5-14 Installed Base for a Single Cabinet – End of Steps – 5.2.6 Fixing Cabinet Steps 1. Adjusting the cabinet height Unscrew the locking nuts at the cabinet foot. Position the cabinet manually or with a lifting device.
Page 39: Figure 5-16 Fixing Cabinet
6. Insulating shim The fastening bolts should be fastened in turn to decrease the stress between the bolts and the cabinet. Figure 5-17 shows structure of the pressure plate. Figure 5-17 A Fixed Cabinet 5-13 SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 40: Insulation Test
5.3 Feet Installation Mode This mode is applicable on the cement floor. Fix the cabinet onto the ground by fixing the four feet with the pressure plates. 5.3.1 Required Parts 1. ZXG10 iBSC rack, its profile shown in Figure 5-18. 5-14 SJ-20110531095035-004|2011-10-28 (R2.0)
Page 41: Figure 5-18 Cabinet Appearance
Figure 5-19 Foot Structure and its Position 1. Cabinet 4. Fastening Nut 6. Insulating rubber 2. Foot 5. Height-adjusting nut washer 3. M16 Bolt 3. Pressure plate assembly, its profile shown in Figure 5-20. 5-15 SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 42: Installation Flow
ZXG10 iBSC Hardware Installation Guide Figure 5-20 Pressure Plate Assembly 1. Pressure plate 3. Insulating washer 2. Washer 4. Insulating shim 5.3.2 Installation Flow Feet installation mode is shown in Figure 5-21. Figure 5-21 Cabinet Installation Flow on Cement Floor 5.3.3 Positioning Cabinet...
Page 43: Figure 5-22 Marking Template For Base Installation Mode
If the ground surface is too smooth to locate the drill bit, you can cut a concave in the hole location through the punching bit to help locate the drill bit. 5-17 SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 44: Fixing Cabinet
ZXG10 iBSC Hardware Installation Guide After drilling the holes, use a cleaner to remove the dust. Measure the hole spacing. For holes with big spacing error, reposition and drill again. – End of Steps – 5.3.4 Fixing Cabinet Steps 1. Installing the expansion bolts Use a cleaner to suck dust inside and outside the holes.
Page 45: Figure 5-26 Fixing Cabinet
5. Expansion bolt 3. Flat washer 6. Pressure plate The fastening bolts should be fastened in turn to decrease the stress between the bolts and the cabinet. Figure 5-27 shows structure of the pressure plate. 5-19 SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 46: Insulation Test
ZXG10 iBSC Hardware Installation Guide Figure 5-27 A Fixed Cabinet Note: To install multiple cabinets, after positioning the first row of cabinets, adjust and fix the outmost cabinet, adjust and fix other cabinets one by one according to the first one.
Page 47: Connecting Adjacent Cabinets
(M5X16), spring washer 5, flat washer 5, and nut M5, as shown in Figure 5-28. Figure 5-28 Connecting two adjacent cabinets (front) 1. Hex bolt M5x16 2. Spring washer 3. Plain washer 5 5-21 SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 48: Installation Of Cabinet Components
ZXG10 iBSC Hardware Installation Guide 4. Cabinet-connecting 5. Nut M5 angle plate 6. Cabinet 2. Connect the adjacent two polars at the back of the two adjacent cabinets with screw assembly M5x12 through upper and lower installation holes, as shown in Figure 5-29.
Page 49: Installing Side Door
2. Fix the side door with strew assembly M5X12. Refer to Figure 5-30. Figure 5-30 Installing Side Door 1. Side door 3. Combination screw 4. Polar at the back of 2. cabinet-connecting M5X12 cabinet angle plate 5-23 SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 50: Installing Decorative Plates
ZXG10 iBSC Hardware Installation Guide Note: The left side door and the right side door are installed with the same method. For multiple cabinets in a single row, only the left side door or the right side door of the two cabinets at the two ends of the row need be installed.
Page 51: Figure 5-32 Installed Front/Rear Decorative Plates
Figure 5-33 Fixing Side Decorative Plates 1. Left side decorative 3. Combination screw 5. Right side decorative plate 4. Sunk screw plate 2. Transit board Figure 5-34 shows installed side decorative plates for a single cabinet. 5-25 SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 52: Cabinet Labels
ZXG10 iBSC Hardware Installation Guide Figure 5-34 Installed Decorative Plates for a Single Cabinet Note: For base installation mode, decorative plates are not required. For multiple cabinets in a single row, just install the side decorative plates. – End of Steps –...
Page 53: Figure 5-35 Cabinet Label Position
Chapter 5 Cabinet Installation Figure 5-35 Cabinet Label Position 1. Office Info Label 2. Cabinet Label – End of Steps – 5-27 SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
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Page 55: Chapter 6 Cable Installation
Chapter 6 Cable Installation This chapter introduces the procedures of installing the ZXG10 iBSC power cables, grounding cables, and clock cables. Table of Contents Overview of Cable Installation ..................6-1 Installing Power Cable and Grounding Cable .............6-6 Installing System Clock Cables ................6-13 Installing 8K Clock Cables..................6-15...
Page 56: Figure 6-1 Cabling Of Power Cables And Grounding Cables
Figure 6-1 Cabling of power cables and grounding cables 2. Specification of Engineering Labels The flag-type label made by ZTE itself is used as the engineering identification for power cables. The label at either end shall contain clear direction for both ends. The...
Page 57: Figure 6-3 Positions Of Power Cable Labels
Bind the surplus length of the cables inside the cabinet on the side cabling beam of the cabinet after arranging them neatly and in order to avoid damages to the cables due to shaking during the transportation. SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 58 ZXG10 iBSC Hardware Installation Guide g. When laying the cables along the vertical cabling trough, ensure that a cable clip is used at every spacing of 100 mm. h. The extra parts of the cable ties should be cut off and free of burrs.
Page 59: Figure 6-4 Binding Cables
When a cable harness makes a turn, the bending radius should be as large as possible to avoid breaking the inner cores due to excessive stress at the turn. The bundling of cables is shown in Figure 6-4. Figure 6-4 Binding Cables SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 60: Cable Installation Flow
Rack bonding resistance is 0.1~0.3 ohms, and the grounding resistance shall be less than 1 ohm in equipment room. This section introduces the procedures of installing the ZXG10 iBSC power cables and grounding cables. SJ-20110531095035-004|2011-10-28 (R2.0)
Page 61: Cabling Of Power Cable And Grounding Cable
Chapter 6 Cable Installation 6.2.1 Cabling of Power Cable and Grounding Cable Cabling of power cable and grounding cable is shown in Figure 6-6 for ZXG10 iBSC equipment. Figure 6-6 Cabling of Power Cable and Grounding Cable 1. Filter II 4.
Page 62: Installing External Power Cable
ZXG10 iBSC Hardware Installation Guide 9. Horizontal cabling trough 12. Horizontal cabling trough 15. Fan Subrack (L8) 10. Fan Subrack (L5) 13. Service Subrack (L7) 16. Busbars 11. Service Subrack (L6) 14. Horizontal cabling trough 6.2.2 Installing External Power Cable Steps 1.
Page 63: Figure 6-7 Cabinet-Top
(one is blut power cable, one is black power grounding cable, and another is a yellow-green protective grounding cable) into a bundle. 8. Route the two bound cables to DC power distribution cabinet along cabling frame. SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 64: Installing Protective Grounding Cable
ZXG10 iBSC Hardware Installation Guide Caution! If a cable is not long enough during the cabling, replace it with a longer one for re-cabling. Do not connect or weld it with another one to form a longer cable. 9. Mount the power cable, power grounding cable, and protective grounding cable onto specified post in DC power distribution cabinet.
Page 65 35 sq.mm. 6.2.3.3 Connection with Other Equipment Grounds In some circumstances, the ZXG10 iBSC equipment needs to be connected with the protection grounds of other equipment. 1. Connection between the ZXG10 iBSC equipment and the distribution frame ground The connection between the ZXG10 iBSC equipment and the distribution frame ground should be handled according to the specific equipment room conditions.
Page 66 ZXG10 iBSC Hardware Installation Guide The ZXG10 iBSC and the distribution frame use different grounding straps, but they can be regarded as the same grounding point. In this case, nearby grounding should be adopted. Both the iBSC equipment and the distribution frame should...
Page 67: Installing System Clock Cables
3. Distribution frame 2. iBSC equipment 4. Grounding grid 2. Connection between the ZXG10 iBSC equipment and the transmission equipment ground Connection between ZXG10 iBSC equipment and transmission equipment ground can refer to the grounding connection with power distribution frame.
Page 68: Figure 6-11 Structure Of System Clock Cable
ZXG10 iBSC Hardware Installation Guide Figure 6-11 Structure of System Clock Cable System clock cable are 6 8-core single-strand round cable. End CLKG/UIM is DB44 (pin) plug, and end UIMU/GUIM/GUIM2/UIMC is DB9 (pin) plug. Steps 1. Use the rear board with version 040503 for clock board.
Page 69: Installing 8K Clock Cables
When using 040503 version of rear clock board, end B connects 8KIN1 and 8KIN2 on RCKG1. When using 071200 version of rear clock board, end B connects 8KIN1 on RCKG1 and 8KIN2 on RCKG2. – End of Steps – 6-15 SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 70: Intalling 2M Bits Clock Cable
ZXG10 iBSC Hardware Installation Guide 6.5 Intalling 2M Bits Clock Cable Context 2MBits clock cable finishes the connection from 2MBits clock to CLKG/ICM, sending 2MBits clock reference to clock panel to do phase lock processing, finally implementing system clock synchronization.
Page 71: Figure 6-15 Rear Board For Clock Panel Uses 120 Ohms Pcm Cable Structure With Version 071200
Table 6-2 Clock Panel Rear Board Uses 120 Ohms PCM Cable Connection with Version 071200 End A End B Signal Name Cable Color 2MB+ Blue (Red) 2MB- Blue (Black) 2MH+ Blue (Red) 2MH- Blue (Black) 6-17 SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 72: Figure 6-16 Rear Board For Clock Panel Uses 75 Ohms Micro Coaxial Cable Structure With Version 040503
ZXG10 iBSC Hardware Installation Guide 2. 75 Ohms micro coaxial cable Clock panel rear board uses 75 ohms micro coaxial cable structure with version 040503, as shown in Figure 6-16. Figure 6-16 Rear Board for Clock Panel Uses 75 Ohms Micro Coaxial Cable...
Page 73: Figure 6-17 Rear Board For Clock Panel Uses 75 Ohms Micro Coaxial Cable Structure With Version 071200
2MBps/2MHz for RCKG1. For the rear board for clock board with version 071200, DB9 at end B connects the position with stamp BITS REF for RCKG1 and RCKG2. – End of Steps – 6-19 SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 74: Installing Interconnection Cable At Control Plane
ZXG10 iBSC Hardware Installation Guide 6.6 Installing Interconnection Cable at Control Plane Context It implements the connection from control plane of internal resource shelf & switching shelf to CHUB of control shelf via Ethernet interface. Its cable structure is shown in Figure 6-18.
Page 75: Installing Interconnection Cable At User Plane
LCP/PC connector without direction. Steps 1. For GB resource shelf, identify GUIM/GUIM2 and GLI/GLI4 configuration and connection relation between GUIM/GUIM2 and GLI/GLI4. For dual rack, GUIM/GUIM2 and GLI/GLI4 configuration is shown in Figure 6-19. 6-21 SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 76: Figure 6-19 Guim/Guim2 And Gli/Gli4 Configuration For Dual Rack
ZXG10 iBSC Hardware Installation Guide Figure 6-19 GUIM/GUIM2 and GLI/GLI4 configuration for dual rack Connection relation of GUIM/GUIM2 and GLI/GLI4 is shown in Figure 6-20. 6-22 SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 77: Figure 6-20 Connection Relation Of Guim/Guim2 And Gli/Gli4
1 & 2 in a pair, 3 & 4 in a pair, as so on. If GUIM/GUIM2 is not backed-up, the user shall use the optical port on GLI/GLI4, otherwise error occurs. 6-23 SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 78: Figure 6-21 The Fiber Wiring At Optical Port
ZXG10 iBSC Hardware Installation Guide 2. The fiber is used to connect optical port. Each optical port on GUIM/GUIM2 and GLI/GLI4 boards connects a pair of fibers, including Rx and Tx directions. Below takes the first optical port as an example for GUIM 1 and GLI 1.
Page 79: Figure 6-22 Uimu And Gli/Gli4 Configuration For Dual Rack
Chapter 6 Cable Installation For dual rack, UIMU and GLI/GLI4 configuration is shown in Figure 6-22. Figure 6-22 UIMU and GLI/GLI4 configuration for dual rack Connection relation of UIMU and GLI/GLI4 is shown in Figure 6-23. 6-25 SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 80: Figure 6-23 Connection Relation Of Uimu And Gli/Gli4
ZXG10 iBSC Hardware Installation Guide Figure 6-23 Connection relation of UIMU and GLI/GLI4 Two UIMU boards is in active/standby working mode in a resource shelf, such as UIMU 1 and UIMU 2 shown in Figure 6-23. In active/standby working mode, any failed board can quickly switch to another normal board, without any influence on ongoing and subsequent connection services.
Page 81: Figure 6-24 The Fiber Wiring At Optical Port
(UIMU), and the other end connects with TX on the GB line interface (GLI/GLI4) board. The fiber shall be in pairs. TX and RX are within a optical module for UIMU and GLI/GLI4. – End of Steps – 6-27 SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 82: Installing Pd485 Cable And Fan Monitoring Cable
ZXG10 iBSC Hardware Installation Guide 6.8 Installing PD485 Cable and Fan Monitoring Cable Context It finishes 485 connection from OMP/OMP2 board to power distribution subrack in local cabinet, implements monitoring the status of PWRD board and the connection to fan subrack, and implements fan monitoring by the system.
Page 83: Inter-Cabinet Cables
Finally, the fiber reaches the corresponding front panel’s optical port via vertical cabling channel and horizontal cable trough. Figure 6-26 shows the cabling of inter-cabinet fiber. 6-29 SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 84: Installing Transmission System Cable
6.10.1 Installing E1 Trunk Cables Context ZXG10 iBSC system provides two types of E1 cables: 75 Ω micro coaxial trunk cable and 120 Ω balanced trunk cable. The configuration is flexible according to the requirement. When connected with external equipment, such as transmission equipment or cable distribution frame, the shielding layer grounding of the connection cable can adopt dual-end grounding mode.
Page 85: Figure 6-27 75 Ohms E1 Trunk Cable Structure
Sigal relations at two ends of the cable is listed in Table 6-5 Table 6-6. Signal E1_TXn+/-(n=0..31) indicates Tx signal of E1 trunk in ZXG10 iBSC system, and signal E1_RXn+/-(n=0..31) indicates Rx signal of E1 trunk. Table 6-5 75 ohms Cable Description End A (DB68)
Page 86 ZXG10 iBSC Hardware Installation Guide End A (DB68) End B1 16-core End B2 16-core Signal Name 2-core shielded E1_RX0- 3-core E1_TX1+ 3-core shielded E1_TX1- 4-core E1_RX1+ 4-core shielded E1_RX1- 5-core E1_TX2+ 5-core shielded E1_TX2- 6-core E1_RX2+ 6-core shielded E1_RX2- 7-core...
Page 87: Table 6-6 120 Ohms Cable Description
15-core E1_TX15+ 15-core shielded E1_TX15- 16-core E1_RX15+ 16-core shielded E1_RX15- Table 6-6 120 ohms Cable Description End A (DB68) End B1 16-core End B2 16-core Signal Name Blue (red1) E1_TX0+ Blue (black1) E1_TX0- 6-33 SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 88 ZXG10 iBSC Hardware Installation Guide Pink (Red1) E1_RX0+ Pink (Black1) E1_RX0- Green (red1) E1_TX1+ Green (black1) E1_TX1- Orange (red1) E1_RX1+ Orange (black1) E1_RX1- Gray (red1) E1_TX2+ Gray (black1) E1_TX2- Blue (red2) E1_RX2+ Blue (black2) E1_RX2- Pink (Red2) E1_TX3+ Pink (Black2)
Page 89 E1_RX13+ Pink (Black3) E1_RX13- Green (red3) E1_TX14+ Green (black3) E1_TX14- Orange (red3) E1_RX14+ Orange (black3) E1_RX14- Gray (red3) E1_TX15+ Gray (black3) E1_TX15- Blue (red4) E1_RX15+ Blue (black4) E1_RX15- – End of Steps – 6-35 SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 90: Installing T1 Cable
Sigal relations at two ends of the cable is listed in Table 6-7. Signal T1_TXn+/-(n=0..31) indicates Tx signal of T1 trunk in ZXG10 iBSC system, and signal T1_RXn+/-(n=0..31) indicates Rx signal of T1 trunk. Table 6-7 100 Ω T1 Cable Description...
Page 91 15(OUT7) T1_TX7- green T1_RX7+ Blue 16(IN7) T1_RX7- End A Color End B2 Signal White T1_TX8+ Blue 17(OUT8) T1_TX8- White T1_RX8+ Orange 18(IN8) T1_RX8- White T1_TX9+ green 19(OUT9) T1_TX9- White T1_RX9+ Brown 20(IN9) T1_RX9- 6-37 SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 92: Installing Ethernet Cable
– End of Steps – 6.10.3 Installing Ethernet Cable Context Ethernet cable implements external IP connection in ZXG10 iBSC system. 1. For FE electric port, Ethernet cable uses CAT5 shielded twisted pairs (STP) network cable. For FE electric ports, Ethernet cable structure is as shown in Figure 6-29.
Page 93: Installing Stm-1 Fiber
– End of Steps – 6.10.4 Installing STM-1 Fiber Context Implement the STM-1 optical fiber connection between ZXG10 iBSC and BTS/MSC/MGW. Both ends of fiber structure are LCP/PC connector without direction. The fiber shall be in pairs. Steps 1.
Page 94: Installing Netnumen M31 Ethernet Cable
‘TX’ on peer equipment. – End of Steps – 6.11 Installing NetNumen M31 Ethernet Cable Context It connects ZXG10 iBSC and background NM NetNumen M31. Figure 6-30 shows the structure of NetNumen M31 Ethernet cable. Figure 6-30 Structure of NetNumen M31 Ethernet cable NetNumen M31 Ethernet cable adopts category-5 Shielded Twisted Pairs (STP).
Page 95: Installing Monitoring System Cable
It contains the monitoring cables for fan subrack, environment, door access, humidity, and smog. Steps 1. Identify the relation and cabling information about monitoring cables. Monitoring cable wiring is listed in Table 6-8. 6-41 SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 96: Table 6-8 Monitoring Cable Wiring
009_B3 midity Sensor As per configura- Humidity sensor tion Smog monitoring As per configura- H-MON- cable tion 009_B4 Smog sensor Wiring of ZXG10 iBSC monitoring cable is shown in Figure 6-32. 6-42 SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 97: Figure 6-32 Wiring Of Ibsc Monitoring Cable
3. 1U blank subrack 8. Fan Subrack (L5) 13. Fan Subrack (L8) 4. Service Subrack (L3) 9. Service Subrack (L6) 5. Horizontal cabling 10. Horizontal cabling trough trough 6. Service Subrack (L4) 11. Service Subrack (L7) 6-43 SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 98 ZXG10 iBSC Hardware Installation Guide 2. For installation of monitoring system cable refer to section "Alarm System Installation". – End of Steps – 6-44 SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 99: Structure Of Antenna Feeder
7.1 Structure of Antenna Feeder The GPS antenna feeder system can be realized by the following two schemes: Direct feeder scheme; Indoor forwarding scheme. 7.1.1 Direct Feeder Scheme Figure 7-1 shows the system structure of direct feeder scheme. SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 100: Figure 7-1 Structure Of Direct Feeder Scheme
ZXG10 iBSC Hardware Installation Guide Figure 7-1 Structure of Direct Feeder Scheme From Figure 7-1, the direct feeder scheme contains GPS antenna, 1/2" or 1/4" feeder, GPS feeder grounding clip, and GPS lightning protector / power divider. The calculation formula of max feeder length is as follows.
Page 101: Indoor Forwarding Scheme
The calculation formula of gain at receiver is described as follows. Receiver gain = signal forwarder gain + gain of antenna feeder lightning protector + antenna gain + N-connector gain (or 7/16 cable connector gain) + gain of TNC/N coaxial SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 102: Installation Flow
ZXG10 iBSC Hardware Installation Guide connector + gain of GPS trunk amplifier (optional) + feeder gain + gain of dual-frequency coaxial cable protector + gain of cables in rack - air attenuation. Air attenuation: 65 dB (10 m) The receiver gain should be more than the best gain required by the receiver.
Page 103: Figure 7-4 Installation Flow Of Gps Antenna Feeder System
Chapter 7 Installing GPS Antenna Feeder System Figure 7-4 Installation Flow of GPS Antenna Feeder System Figure 7-5 shows the installation flow of indoor forwarding scheme. SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 104: Installation Preparations
ZXG10 iBSC Hardware Installation Guide Figure 7-5 Installation Flow of Indoor Forwarding Scheme 7.3 Installation Preparations 1. Installation Personnel The antenna feeder system should be installed by the installation personnel under the supervision of an Installation Supervisor. Before installing the GPS antenna feeder system, check the qualifications of the...
Page 105 Do not wear loose clothes or slippery shoes when working on a tower. 4. Prepare Installation Tools Measurement tools: Compass, multimeter, inclinometer and tape measure. Hoisting tools: pully block and rope for hoisting GPS feeder cables. SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 106: Selecting Feeder Cables
ZXG10 iBSC Hardware Installation Guide Special tools: to make the GPS feeder connector. Common tools: mm scale, electrician knife, spanner, file, and brush. Safety protection tools: safety belt (used by installation personnel working out of the tower platform), safety helmet, safety rope, dungaree, canvas tool bag, gloves, multi-purpose power socket.
Page 107: Figure 7-6 Stripping Requirements On N-Type Connector For 1/4" Feeder
Figure 7-8, with 14.5 mm distance from the cut on the outer sheath. You shall note that the cutting point shall be placed on the wave peak. If SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 108: Figure 7-8 Cutting Position Of Outer Conductor For 1/4" Feeder
ZXG10 iBSC Hardware Installation Guide you can not meet the position requirements about two cutting points, you shall re-cut the feeder sheath to meet the two above requirements, in the unit of mm. Figure 7-8 Cutting Position of Outer Conductor for 1/4" Feeder...
Page 109: Figure 7-10 Inner Conductor For 1/4" Feeder
4. Remove the sweepings on the 1/4″ feeder by using a brush, apply the lubricant on the surface of outer conductor, and put the O-type seal ring into the fourth trough slot, as shown in Figure 7-12. 7-11 SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 110: Figure 7-12 Install O-Type Seal
ZXG10 iBSC Hardware Installation Guide Figure 7-12 Install O-Type Seal 5. Separate the front part of the feeder connector from the rear part, and insert the feeder into rear connector till it contacts the first feeder corrugation. Turn it left and right, so the outer conductor of feeder expands and contacts the rear connector.
Page 111: Making 1/2" Feeder
1. Pull the feeder cable straight (about 50 mm long) at one end of the connector. Use electrician knife to cut and strip the outer sheath at 30 mm from one end, as shown in Figure 7-16, in the unit of mm. 7-13 SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 112: Figure 7-16 Cutting And Stripping Sheath Of 1/2" Feeder
ZXG10 iBSC Hardware Installation Guide Figure 7-16 Cutting and Stripping Sheath of 1/2" Feeder 2. Cut the outer conductor of the feeder at the wave peak by using an electrician knife, the cutting position is shown in Figure 7-17, with 20 mm distance from the cut on the outer sheath.
Page 113: Figure 7-18 Cutting Method Of Outer Conductor For 1/2" Feeder
Figure 7-19 Inner Conductor for 1/2" Feeder 1. Inner Conductor for 2. Outer Conductor for 1/2" Feeder 1/2" Feeder The dimension of processed 1/2″ feeder is shown in Figure 7-20, in the unit of mm. 7-15 SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 114: Figure 7-20 Dimension Of Inner & Outer Conductor For Processed 1/2" Feeder
ZXG10 iBSC Hardware Installation Guide Figure 7-20 Dimension of inner & outer conductor for processed 1/2" feeder 4. Remove the sweepings on the 1/2″ feeder by using a brush, apply the lubricant on the surface of outer conductor, and put the O-type seal ring into the fourth trough slot, as...
Page 115: Installing Antenna
– End of Steps – 7.5 Installing Antenna To install the GPS antenna, you shall determine its position, installation & lightning requirements, and waterproof treatment. The section below describes the antenna installation in detail. 7-17 SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 116: Installation Requirements Of Gps Antenna
ZXG10 iBSC Hardware Installation Guide 7.5.1 Installation Requirements of GPS Antenna The installation position of GPS antenna shall have the open view, to make sure that the GPS antenna can trace the satellites as many as possible. Do not install the GPS antenna below the microwave antenna, high-voltage cable, and TV transmitting tower, and it can not be impacted by the radiation of primary lobe for the mobile antenna.
Page 117: Figure 7-25 Installation And Grounding Of Lightning Rod
3. GPS antenna protective angle 4. Grounding cable 3. Waterproof treatment of GPS antenna. You shall do waterproof seal processing at the joint between GPS antenna and feeder. Cut about 200 mm waterproof self-adhesive tape. 7-19 SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 118: Figure 7-26 Gps Antenna Before Improvement
ZXG10 iBSC Hardware Installation Guide Wrap the waterproof tape from the root of antenna connector. The wrapping direction shall be consistent with the tightening direction of feeder connector. iii. Stretch the water adhesive tape twice as long, 1/2 overlap around the connector till the position about 5 cm from the bottom of the connector.
Page 119: Installing Gps Antenna On Roof
– End of Steps – 7.5.3 Installing GPS Antenna on Roof Steps 1. Determine the installation position of GPS antenna on the roof. Figure 7-29 shows the installation position of GPS antenna on the roof. 7-21 SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 120: Figure 7-29 Installation Position Of Gps Antenna On Roof
ZXG10 iBSC Hardware Installation Guide Figure 7-29 Installation Position of GPS Antenna on Roof Caution! There is no any blockage within the 150 degrees viewpoint for the GPS antenna. 2. Make sure that it meets the installation and lightning requirements on GPS antenna.
Page 121: Figure 7-30 Installation And Grounding Of Lightning Rod
GPS antenna by using the PVC insulated tape, as shown in Figure 7-32. Then you can proceed the installation. 7-23 SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 122: Figure 7-31 Gps Antenna Before Improvement
ZXG10 iBSC Hardware Installation Guide Figure 7-31 GPS Antenna Before Improvement Figure 7-32 GPS Antenna Processed by PVC Insulating Tape vii. If a new GPS antenna type is used on the field, as shown in Figure 7-33, you need not use the GPS antenna sleeve on installation.
Page 123: Feeder Cabling
BSC cabinet top through the GPS lightning protector. 4. The position of GPS feeder grounding means that GPS feeder connects outdoor grounding busbar within 1 m in front of the feeder window by using feeder grounding clip. 7-25 SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 124: Installing The Grounding Clips
ZXG10 iBSC Hardware Installation Guide Note: The GPS feeder shall be as short as possible to reduce the loss and lightning induction. 1/4″Minimum radius is 40 mm for a feeder bend and the minimum radius is 76 mm for the consecutive bends (less than 15 times). The minimum radius is 80 mm for a 1/2"...
Page 125: Figure 7-34 Structure Of Gps 1/4" Feeder Grounding Clip
The materials delivered to the field include: Figure 7-35 shows the structure of grounding cable. The length of black 10 mm grounding cable with cooper core is 80 cm. 7-27 SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 126: Figure 7-35 Structure Of Grounding Cable
ZXG10 iBSC Hardware Installation Guide Figure 7-35 Structure of Grounding Cable 1. Grounding terminal (at 3. 10 mm copper core 4. Grounding terminal grounding clip side) cable with 80cm (at grounding busbar 2. Φ12 heat-shrinkable length side) tube The body of grounding clip (attached with tinned copper braid strap) and two M6x25 hexagon bolt (attached with spring washer and plain washer).
Page 127: Installing 1/2" Feeder Grounding Clips
In some special cases, if you want to make and connect the grounding cable, you shall do the following preparations: Black 10 mm grounding cable with copper core. Grounding terminal (at grounding clip side) and grounding terminal (grounding busbar side). 7-29 SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 128: Figure 7-37 Structure Of Grounding Cable
ZXG10 iBSC Hardware Installation Guide Heat-shrinkable tube (black). Figure 7-37 shows the structure of grounding cable. Figure 7-37 Structure of Grounding Cable 1. Grounding terminal (at 3. 10mm copper core cable 4. Grounding terminal (at grounding clip side) with 80cm length grounding busbar side) 2.
Page 129: Installing Antenna Feeder Lightning Protector
You can flexibly select one of these two schemes based on actual engineering conditions. 7.8.1 Installing Through-Wall Lightning Protector Steps 1. Identify the mode of installing through-wall lightning protector. Figure 7-38 shows the through-wall installation mode. 7-31 SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 130: Installing Lightning Protector By Lug
ZXG10 iBSC Hardware Installation Guide Figure 7-38 Through-Wall Installation Mode The wall thickness shall be less than the connector length. 2. Drill a proper hole on the steel plate. In common case, the wall shown in Figure 7-38 is a steel plate.
Page 131: Installing Lightning Protector/Power Divider
There are two RF ports for the protector, each RF port connects a GPS antenna feeder, and the protector may provide the lightning protection for the GPS antenna. Figure 7-40 shows the lightning protector / power divider. 7-33 SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 132: Figure 7-40 Lightning Protector / Power Divider
ZXG10 iBSC Hardware Installation Guide Figure 7-40 Lightning Protector / Power Divider Steps 1. Install the lightning protector on the rack. The protector is fixed on the rack by the N-type bolt and mounted in the rack. The N connector passes through ANT1 or ANT2 from the rack, as shown in...
Page 133: Figure 7-42 Bottom View Of Rack-Top (I)
For the indoor forwarding scheme, the indoor receiving antenna can directly connect the lightning protector / power divider through TNC/N coaxial connector and is mounted at the cabinet top. 3. Install the SMA jumper. Figure 7-44 shows the SMA jumper. 7-35 SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 134: Figure 7-44 Sma Jumpers
ZXG10 iBSC Hardware Installation Guide Figure 7-44 SMA Jumpers After one end of SMA male jumper connects the RF end of lightning protector / power divider, route the cable to the front upright cabling slot through the hold on the front dummy panel and the clearance (25mm height) at the rack top, then route it to the resource shelf with the ICM board.
Page 135: Chapter 8 Installing The Alarm System
Chapter 8 Installing the Alarm System ZXG10 iBSC alarm system consists of alarm box, power distribution subrack, smog alarm, infrared sensor, temperature/humidity sensor, and access control sensor. This chapter introduces composition and installation of ZXG10 iBSC equipment alarm system. Table of Contents Installing Alarm Box....................8-1...
Page 136: Installing External Sensor
– End of Steps – 8.2 Installing External Sensor The power distribution subrack is an important component of ZXG10 iBSC alarm system. It is installed with the Power Distribution Board (PWRD) and the Power Distributor Backplane (PWRDB). The functions include power indication, environment monitoring, and internal fan plug-in box monitoring.
Page 137: Installing Smog Sensor
The smog sensor is mounted on the ceiling, right over the top of the cabinet. 2. Connect DB9 connector of End A to End B4 of the external monitoring cable H-MON-009 on PWRDB. – End of Steps – SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 138: Installing Temperature/Humidity Sensor
ZXG10 iBSC Hardware Installation Guide 8.2.2 Installing Temperature/Humidity Sensor Context Inside the temperature/humidity sensor, the core adopts the moisture-sensitive capacitor. The single chip computer performs the lineal processing and converts the signals into frequency signals for output. Computers can directly collect and process the temperature/humidity signals instead of using A/D conversion.
Page 139: Installing Infrared Sensor
4. Engage the infrared sensor with the base. One end of the sensor is DB9 male plug, which connects end B2 of external monitoring cable H-MON-009 on PWRDB. The other end is infrared sensor. SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 140: Installing Access Control Sensor
ZXG10 iBSC Hardware Installation Guide Note: The infrared sensor has been cabled before delivery, and you only need to thread the cable through the metal tube or PVC fire-resistant tube on the site. Cable components of the infrared sensor are shown in Figure 8-7.
Page 141: Precautions
2. The alarm sensor cable should be routed neatly and bundled in order. Keep the tails smooth and flat. Do not stress the bends of the cables to avoid the damage. 3. After the cabling, cover PVC cabling trough. SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
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Page 143: Chapter 9 Installing Background System
Chapter 9 Installing Background System This chapter introduces the hardware installation of ZXG10 iBSC NetNumen M31. Table of Contents Composition of Background System ................9-1 Environment Requirements ..................9-1 Installing Background System ..................9-1 Installation Requirement.....................9-4 9.1 Composition of Background System Background system is composed of server and client.
Page 144: Local Networking Mode
ZXG10 iBSC Hardware Installation Guide Note: For the layout of the client and the installation of other devices such as the printer, please refer to the manuals delivered with the device. 9.3.1 Local Networking Mode Context Local networking architecture is shown in Figure 9-1.
Page 145: Remote Networking Mode
OMC1 on RSVB panel of SBCX rear board, and the other end connects with the network interface on HUB2. 4. Connect HUB2 to a router by using network cable. 5. Connect different routers by using transmission cable. – End of Steps – SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 146: Installation Requirement
ZXG10 iBSC Hardware Installation Guide 9.4 Installation Requirement 1. Arrangement of computer cabinet, monitor, and mouse shall be uniform and consistent. 2. Labels on computer display and cabinet shall marks the purpose of this machine. 3. Connecting bolt between peripheral devices (monitor and printer) and computer cab- inet shall be tighten.
Page 147: Chapter 10 Hardware Installation Check
Chapter 10 Hardware Installation Check An overall check is required upon completion of the hardware installation. This chapter introduces the ZXG10 iBSC hardware installation check, including cabinet, cables, accessories, and other items. Table of Contents Checking Cabinet .....................10-1 Checking Cables ......................10-2 Checking Accessories ....................10-6...
Page 148: Checking Cables
ZXG10 iBSC Hardware Installation Guide 4. The cabinets must be provided with anti-shock reinforcement, and secured to the ground with anchor bolts when necessary. 5. Board connectors should be in good contact, easy to plug in or out, and the surfaces are flat after the boards are plugged in the slots.
Page 149: Figure 10-1 Connection And Fixation Between Power Cable And Grounding Cable (1)
45o or 90o before installing them. In addition, place larger wiring lugs under smaller ones. It is recommended to install all wiring lugs elsewhere wiring lugs are required. Figure 10-2 shows specific wiring method. 10-3 SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 150: Checking Power Cable Cabling
ZXG10 iBSC Hardware Installation Guide Figure 10-2 Connection and Fixation between Power Cable and Grounding Cable (2) 1. Copper bar 3. Nut 5. Terminal 2. Plain washer 4. Bolt 6. Spring washer 10.2.2 Checking Power Cable Cabling The method to route power cable is explained as follows.
Page 151: Checking Intra-Cabinet Cabling
2. Optical fiber from each board shall be bundled using nylon fastener tape, fixed on cable trough using cable clamp. Use a nylon fastener tape to bind once every 200 mm for each set of fiber. 10-5 SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 152: Checking Outdoor Cabling
ZXG10 iBSC Hardware Installation Guide Caution! Cable clamp shall be fixed on Nylon fastener tape. 3. Aggregate the optical fibers from each layers of shelf into cable trough, optical fiber spacing is about 200mm, bundled using a Nylon fastener tape. From the cabling at both sides of cabinet, it is fixed on binding wire beam on the cabinet using cable clamp.
Page 153: Checking Sensor
Fuses meet the rated nominal requirements. The backplane pins are not bent or shorted. The positive and negative poles of the power are not short-circuited. 10-7 SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
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Page 155: Chapter 11 Power-On And Power-Off
Chapter 11 Power-on and Power-off This chapter introduces plugging/unplugging ZXG10 iBSC board, checking before power-on, power-on procedure, and power-off procedure. Table of Contents Plugging/Unplugging a Board ...................11-1 Checking before Power-on ..................11-5 Power-on Procedure ....................11-6 11.1 Plugging/Unplugging a Board Installation and maintenance personnel shall not plug/unplug a board with power on in order to avoid unnecessary damage to ZXG10 iBSC board.
Page 156: Figure 11-1 Step 1 Of Board Plugging
ZXG10 iBSC Hardware Installation Guide Figure 11-1 Step 1 of Board Plugging 2. Slowly push the board to the bayonet of board along slide, and enter into square slot at upper and lower bracket sides of 9U subrack. Refer to Figure 11-2.
Page 157: Unplugging A Board
11.1.2 Unplugging a Board Steps 1. Use flathead or phillips screwdriver to loose the capative screw on upper/lower extractor, then press Unlock button on extractor to unlock upper/lower extractor. Refer to Figure 11-5. 11-3 SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 158: Figure 11-5 Step 1 Of Board Unplugging
ZXG10 iBSC Hardware Installation Guide Figure 11-5 Step 1 of Board Unplugging 2. After ENUM indicator on board panel flashes in the frequency of 1Hz, rotate the extractor outwards by both hands, enable the extractor completely out of horizontal beam slots in subrack, then slowly pull out the board. Refer to Figure 11-6.
Page 159: Precautions
Depending on different boards, check whether the indicators on the front panel are firm, the buttons and switches are reliable and smooth and the board interfaces (network ports and optical ports) are firm and reliable. 3. Check the rear board. 11-5 SJ-20110531095035-004|2011-10-28 (R2.0) ZTE Proprietary and Confidential...
Page 160: Power-On Procedure
4. Check the jumpers and DIP switches on the board. Check whether internal jumpers and DIP switches are in correct position. Refer to ZXG10 iBSC Base Station Controller Hardware Description. 5. Check board components. Perform visual check on the components on the boards and eliminate any unreliable soldering point and left-open soldering point 6.
Page 161: Airflow Direction Detection
Wait for completion of board initialization. 2. The indicators on the panel can tell whether the board is normal or not. For information on board indicators, refer to board description in ZXG10 iBSC Base Station Controller Hardware Description. – End of Steps –...
Page 162: Power-Off Procedures
ZXG10 iBSC Hardware Installation Guide 11.3.5 Power-off Procedures Steps 1. Turn off -48V power switch on plug-in-box filter at back. 2. Turn off two -48V power switches on power plug-in-box panel at the top of rack. 3. Turn off the -48V power supply output to the cabinet on the DC power distribution cabinet.
Page 163: Figures
Figures Figure 2-1 Flow Chart of Hardware Installation ............2-1 Figure 4-1 Unpacking Wooden Case ................ 4-2 Figure 5-1 Cabinet Spacing Requirement ..............5-3 Figure 5-2 Cabinet Installation Flow ................5-4 Figure 5-3 Cabinet Appearance ................5-5 Figure 5-4 Base Structure ..................5-5 Figure 5-5 Washer Specifications................
Page 164 ZXG10 iBSC Hardware Installation Guide Figure 5-31 Fixing Front/Rear Decorative Plates............. 5-24 Figure 5-32 Installed Front/Rear Decorative Plates ..........5-25 Figure 5-33 Fixing Side Decorative Plates .............. 5-25 Figure 5-34 Installed Decorative Plates for a Single Cabinet ........5-26 Figure 5-35 Cabinet Label Position ................. 5-27 Figure 6-1 Cabling of power cables and grounding cables ........
Page 165 Figures Figure 6-28 100 ohms T1 trunk cable structure ............6-36 Figure 6-29 Ethernet cable structure For FE electric ports ........6-39 Figure 6-30 Structure of NetNumen M31 Ethernet cable ......... 6-40 Figure 6-31 Local Networking Mode................ 6-41 Figure 6-32 Wiring of iBSC monitoring cable............6-43 Figure 7-1 Structure of Direct Feeder Scheme ............
Page 166 ZXG10 iBSC Hardware Installation Guide Figure 7-31 GPS Antenna Before Improvement ............7-24 Figure 7-32 GPS Antenna Processed by PVC Insulating Tape........ 7-24 Figure 7-33 New GPS Antenna................7-25 Figure 7-34 Structure of GPS 1/4" Feeder Grounding Clip ........7-27 Figure 7-35 Structure of Grounding Cable...............
Page 167 Figures Figure 11-7 Step 3 of Board Unplugging ..............11-5...
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Page 169: Tables
Tables Table 1-1 Safety Symbols Description............... 1-1 Table 3-1 Instruments and Meters Required at Different Stages........ 3-1 Table 5-1 Applicable Scope..................5-6 Table 6-1 Clock Panel Rear Board Uses 120 Ohms PCM Cable Connection with Version 040503 ..................6-17 Table 6-2 Clock Panel Rear Board Uses 120 Ohms PCM Cable Connection with Version 071200 ..................

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