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Juniper MX2010 Hardware Manual

Juniper MX2010 Hardware Manual

Universal routing platform

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MX2010 Universal Routing Platform

Hardware Guide

Published

2019-12-03

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Summary of Contents for Juniper MX2010

Page 1 MX2010 Universal Routing Platform Hardware Guide Published 2019-12-03...
Page 2 END USER LICENSE AGREEMENT The Juniper Networks product that is the subject of this technical documentation consists of (or is intended for use with) Juniper Networks software. Use of such software is subject to the terms and conditions of the End User License Agreement (“EULA”) posted at https://support.juniper.net/support/eula/.
Page 3: Table Of Contents
Requesting Technical Support | xxvi Self-Help Online Tools and Resources | xxvii Creating a Service Request with JTAC | xxvii Overview MX2010 Router Overview | 3 MX2010 Router Overview | 3 Chassis Components and Descriptions | 5 MX Series Router Architecture | 6...
Page 4 MX2010 Craft Interface Description | 29 MX2010 Component LEDs on the Craft Interface | 31 MX2010 Host Subsystem LEDs and Buttons on the Craft Interface | 31 MX2010 Power Supply Module LEDs on the Craft Interface | 32 MX2010 Line-Card LEDs and Buttons on the Craft Interface | 32...
Page 5 MX2000 AC Power Supply Module Description | 107 MX2010 AC Power Supply Module LEDs | 110 MX2010 DC Power Distribution Module (-48 V) Description | 111 MX2000 DC Power Distribution Module (240 V China) Description | 113 MX2010 DC Power Distribution Module (-48 V) LEDs | 114...
Page 6 MX2010 DC Power Supply Module LEDs | 121 Site Planning, Preparation, and Specifications Planning and Preparing the Site | 125 Overview of Preparing the Site for the MX2010 Router | 125 MX2010 Cabinet Airflow Requirements | 127 MX2010 Cabinet Size and Clearance Requirements | 128...
Page 7 Clearance Requirements for Airflow and Hardware Maintenance for the MX2010 Router | 147 Clearance Requirements for MX2010 Routers with Standard Cable Managers | 147 Clearance Requirements for MX2010 Routers with Extended Cable Managers | 149 Transceiver and Cable Specifications | 151...
Page 8 Tools and Parts Required to Unpack the MX2010 Router | 217 Tools Required to Install the MX2010 Router Using a Pallet Jack | 217 Tools Required to Install the MX2010 Router Using a Router Transport Kit | 218 Tools and Parts Required to Maintain the MX2010 Hardware Components | 218...
Page 9 Securing the MX2010 Router to the Router Transport Platform | 261 Using the Router Transport Kit to Install the MX2010 Router in a Four-Post Rack | 263 Using the Router Transport Kit to Install the MX2010 Router in an Open-Frame Rack | 270...
Page 10 Mapping Input Power from AC Power Distribution Modules to AC Power Supply Modules on MX2000 Routers | 302 Connecting Power to a DC-Powered MX2010 Router with Power Distribution Modules (-48 V) | 304 Connecting Power to a DC-Powered MX2000 Router with DC Power Distribution Modules (240...
Page 11 Replacing Components | 429 Tools and Parts Required for Replacing MX2010 Hardware Components | 430 Tools and Parts Required to Remove Components from an MX2010 Router | 432 Removing a CB-RE from an MX2000 Router | 433 Upgrading to the Control Board-Routing Engine REMX2K-X8-64G in a Redundant Host...
Page 12 Installing the MX2010 Extended DC Cable Manager | 467 Replacing the MX2010 Craft Interface | 468 Disconnecting the Alarm Relay Wires from the MX2010 Craft Interface | 468 Removing the MX2010 Craft Interface | 469 Installing the MX2010 Craft Interface | 472...
Page 13 Removing an MX2000 Router DC Power Distribution Module (240 V China) | 491 Installing an MX2000 Router DC Power Distribution Module (240 V China) | 494 Replacing an MX2010 DC Power Distribution Module Cable | 496 Disconnecting an MX2010 DC Power Distribution Module Cable | 497...
Page 14 Installing an MX2020 CB-RE | 549 Installing an MX2010 CB-RE | 552 Replacing an SFP or XFP Transceiver on an MX2010 MPC or MIC | 554 Removing an SFP or XFP from an MX2010 MPC or MIC | 554 Installing an SFP or XFP into an MX2000 MPC or MIC | 556...
Page 15 Maintaining the MX2010 Switch Processor Mezzanine Board (SPMB) | 681 Maintaining and Verifying the MX2010 Router Version | 682 Maintaining and Verifying the Status of the MX2010 Craft Interface | 684 Taking an MX2000 Host Subsystem Offline | 685 Holding an MX2010 MPC | 688...
Page 16 Routine Maintenance Procedures for the MX2010 Router | 691 Packing and Returning Components | 693 Guidelines for Packing Hardware Components for Shipment | 693 Packing the MX2010 Router for Shipment | 694 Returning a Hardware Component to Juniper Networks, Inc. | 696...
Page 17 MX2010 MIC Serial Number Label | 743 MX2010 MPC Serial Number Label | 744 MX2010 Power Distribution Module Serial Number Label | 745 MX2010 Power Supply Module Serial Number Label | 747 MX2010 SFB Serial Number Label | 749...
Page 18 Action to Take After an Electrical Accident | 809 Agency Approvals and Compliance Statements | 811 Agency Approvals and Compliance Statements for the MX2010 Router | 811 Agency Approvals for MX2010 Routers | 811 Compliance Statements for NEBS for the MX2010 Router | 813...
Page 19 United States | 814 Compliance Statements for Environmental Requirements | 814 Compliance Statements for EMC Requirements | 815 Canada | 815 European Community | 815 Israel | 815 Japan | 815 United States | 816 Compliance Statements for Environmental Requirements | 816 Compliance Statements for NEBS | 816...
Page 20: About The Documentation
Use this guide to install hardware and perform initial software configuration, routine maintenance, and troubleshooting for the MX2010 Universal Routing Platform. After completing the installation and basic configuration procedures covered in this guide, refer to the Junos OS documentation for information about further software configuration.
Page 21: Merging A Full Example
xxii If the example configuration contains the top level of the hierarchy (or multiple hierarchies), the example is a full example. In this case, use the load merge command. If the example configuration does not start at the top level of the hierarchy, the example is a snippet. In this case, use the load merge relative command.
Page 22: Merging A Snippet
xxiii Merging a Snippet To merge a snippet, follow these steps: 1. From the HTML or PDF version of the manual, copy a configuration snippet into a text file, save the file with a name, and copy the file to a directory on your routing platform. For example, copy the following snippet to a file and name the file ex-script-snippet.conf.
Page 23 xxiv Table 1: Notice Icons Icon Meaning Description Informational note Indicates important features or instructions. Caution Indicates a situation that might result in loss of data or hardware damage. Warning Alerts you to the risk of personal injury or death. Laser warning Alerts you to the risk of personal injury from a laser.
Page 24 Table 2: Text and Syntax Conventions (continued) Convention Description Examples Italic text like this Represents variables (options for Configure the machine’s domain which you substitute a value) in name: commands or configuration [edit] statements. root@# set system domain-name domain-name Text like this Represents names of configuration To configure a stub area, include statements, commands, files, and...
Page 25: Documentation Feedback
URL or page number, and software version (if applicable). Requesting Technical Support Technical product support is available through the Juniper Networks Technical Assistance Center (JTAC). If you are a customer with an active Juniper Care or Partner Support Services support contract, or are...
Page 26: Self-Help Online Tools And Resources
JTAC hours of operation—The JTAC centers have resources available 24 hours a day, 7 days a week, 365 days a year. Self-Help Online Tools and Resources For quick and easy problem resolution, Juniper Networks has designed an online self-service portal called the Customer Support Center (CSC) that provides you with the following features: Find CSC offerings: https://www.juniper.net/customers/support/...
Page 27: Overview
PART Overview MX2010 Router Overview | 3 Chassis Components and Descriptions | 5 Alarm and Display Components | 29 Cable and Rack Management | 37 Cooling System | 45 Host Subsystem Components | 51 Interface Modules— ADCs, MPCs, and MICs | 69...
Page 29: Mx2010 Router Overview
2 Control Board with Routing Engines (CB-REs), and 8 Switch Fabric Boards (SFBs). Up to 2 MICs can be installed in each MPC. Fully populated, the MX2010 router supports up to 20 MICs. For a list of the supported MPCs, and MICs, see the MX Series Interface Module Reference.
Page 30 MX2010 Power System Description | 95 MX2010 Cooling System Description | 45...
Page 31: Chassis Components And Descriptions
MX Series Router Packet Forwarding Engine (PFE) Architecture | 19 Line Cards Supported on MX Series Routers | 20 Ethernet Frame Counts and Statistics on MX Series Routers | 24 Understanding Trio Layer 2 Feature Parity | 24 MX2010 Router Hardware Components and CLI Terminology | 25...
Page 32: Mx Series Router Architecture
MX Series Router Architecture The key components of the Juniper Networks MX Series 5G Universal Routing Platforms are: Dense Port Concentrators (DPC) Modular Port Concentrators (MPC) Modular Interface Cards (MIC) Control Board and Routing Engine (CB-RE) Switch Control Board (SCB)
Page 33: Mx2010 Chassis Description
59.50 in. (151.13 cm) high, 36.20 in. (91.95 cm) deep, and 19 in. (48.26 cm) wide. The chassis can be installed in a standard 19-in. open-frame rack, four-post rack, or an enclosed cabinet. NOTE: There must be a minimum of 34-U of usable rack space when installing the MX2010 router into a 34-U rack. NOTE:...
Page 34 One router can be installed in a 34-U or taller open-frame or four-post rack if the rack can support the combined weight, which can be greater than 985 lb (446.79 kg). NOTE: The dimensions also include the cable managers and EMI cover. Figure 1: Front View of a Fully Configured MX2010 Router Chassis...
Page 35 NOTE: Remove field replacement units (FRUs) from the front of the MX2010 router before you install the router. Table 3 on page 9 for information about the components on the front of the MX2010 router. Table 3: Front Components in a Fully Configured MX2010 Router Component No.
Page 36 Figure 2: Rear View of a Fully Configured AC-Powered MX2010 Router Chassis Table 4: Rear Components in a Fully Configured AC-Powered MX2010 Router Component No. Component Description Slots Number of FRUs Upper fan trays (two) Fan tray 2 and fan tray 3 (behind cage door) AC PDM—Three-phase delta...
Page 37 Figure 3: Rear View of a Fully Configured DC-Powered MX2010 Router Chassis NOTE: Remove field replacement units (FRUs) from the rear of the MX2010 router before you install the router. Table 5 on page 11 for information about router components on the back of a DC-powered MX2010 router.
Page 38 Lower fan trays (two) Fan tray 0 and fan tray 1 (behind access door) The MX2010 router has two electrostatic discharge (ESD) points. These are located on either side of the MPCs on the front of the chassis (see Figure 4 on page 12).
Page 39: Mx2010 Backplane Description
MX2010 Chassis Moving Guidelines | 129 MX2010 Backplane Description The MX2010 router consist of a signal backplane and a power backplane that connects PSMs and PDMs to the chassis. The adapter cards (ADCs) are carrier cards used to house the MPCs. The MPCs install into the bottom card-cage backplanes from the front of the chassis and mate to the signal backplane to connect to the Switch Fabric Boards (SFBs) and the Control Board and Routing Engines (CB-REs).
Page 40: Mx2010 Component Redundancy
(or either of its components) fails, the backup can take over as the master. DC power system—The MX2010 DC power system is made up of three components: nine power supply modules (PSMs), two power distribution modules (PDMs), and a power midplane (PMP). The power system distributes power from a pool of 22.5 KW (20 KW for PSM non-redundant and 2.5 KW reserved...
Page 41 going to the PSMs is split into three individual phases—each PSM works on a single phase. This means the power system works independent of the kind of AC feed is connected. The user can connect one or two feeds, depending on the power system configuration (number of PSMs, redundancy, and so on). Each phase from each of the two feeds is distributed among one or two PSMs (one feed has each phase going to two PSMs, and the other feed has each phase going to a single PSM).
Page 42 60-A or 80-A current limit. The capacity of these feeds is relayed to system software through a switch located on the DC PDM. Each DC PDM (240 V China)—operates with nine feeds each. The MX2010 router supports two types of three-phase power system PDMs. The three-phase...
Page 43: Mx2010 Field-Replaceable Units
Cooling System Description” on page 45). RELATED DOCUMENTATION MX2010 Router Overview | 3 Displaying MX2010 Router Components and Serial Numbers | 733 Guidelines for Packing Hardware Components for Shipment | 693 Returning a Hardware Component to Juniper Networks, Inc. | 696 MX2010 Field-Replaceable Units...
Page 44 You must power off the Control Board and Routing Engine (CB-RE) before replacing a CompactFlash card or solid-state drive in a Routing Engine. Table 7 on page 18 lists the FRUs for the MX2010 router. Table 7: Field-Replaceable Units Hot-Removable and Hot-Insertable FRUs...
Page 45: Mx Series Router Packet Forwarding Engine (Pfe) Architecture
Replacing an MX2010 Three-Phase Wye AC Power Distribution Module Taking an MX2000 Host Subsystem Offline | 685 Tools and Parts Required for Replacing MX2010 Hardware Components | 430 MX2010 Router Hardware Components and CLI Terminology | 25 Replacing the MX2010 Craft Interface | 468...
Page 46: Line Cards Supported On Mx Series Routers
Switch Fabric Boards (SFB, SFB2, SFB3) | 22 Switch Control Boards | 23 MX2000 ADC | 23 Routing Engines and CB-REs | 23 Juniper Networks MX Series 5G Universal Routing Platforms process incoming and outgoing packets using: Flexible PIC Modular Port Concentrator...
Page 47: Fpcs And Pics
Flexible PIC Modular Port Concentrator Concentrator (FPC) with (MPC) with a Switch Control Board Dense Port Physical Interface Modular Interface (SCB, SCBE, SCBE2, Concentrator (DPC) Card (PIC) Card (MIC) SCBE3) Maximum Supported on MX960 Maximum Supported on MX480 Maximum Supported on MX240 Configuration Syntax type-fpc/pic/port...
Page 48: Mpcs And Mics
Switch Fabric Boards (SFBs) provide increased fabric bandwidth per slot. Up to eight SFBs, SFB2s, or SFB3s can be installed in an MX2020 or MX2010 router. The SFBs install vertically into the front of the chassis in the slots labeled 0 through 7.
Page 49: Switch Control Boards
MX2010 and MX2020 routers— 8 SCBs MX2000 ADC The MX2000 ADC is a special line card adapter (ADC) that enables MX2010 and MX2020 routers to use smaller form-factor MPCs (MPC1E, MPC2E, and MPC3E). The ADC is merely a shell that accepts line cards in the front and converts power and switch fabric in the rear.
Page 50: Ethernet Frame Counts And Statistics On Mx Series Routers
Ethernet Frame Counts and Statistics on MX Series Routers | 24 Ethernet Frame Counts and Statistics on MX Series Routers The following considerations apply to Ethernet frame counts and statistics on Juniper Networks MX Series 5G Universal Routing Platforms: Interface counters do not include the 7-byte Ethernet frame preamble and the frame delimiter byte.
Page 51: Mx2010 Router Hardware Components And Cli Terminology
Protocols and Applications Supported on MPCs for MX Series Routers MX2010 Router Hardware Components and CLI Terminology The MX2010 router supports the components listed in Table 9 on page Table 9: MX2010 Router Hardware Components and CLI Terminology Component Hardware Model Number CLI Name...
Page 52 Table 9: MX2010 Router Hardware Components and CLI Terminology (continued) Component Hardware Model Number CLI Name Description Cooling system, including air baffle, fan trays, and air filters “MX2010 Cooling System Description” on page 45 Fan tray MX2000-FANTRAY 172mm FanTray - 6 Fans...
Page 53 Table 9: MX2010 Router Hardware Components and CLI Terminology (continued) Component Hardware Model Number CLI Name Description PSM blank cover MX2000-PSM-BLANK “MX2010 Power System Description” on page 95 Power supply module MX2000-PSM-AC AC 52V Power Supply (PSM) Module MX2000-PSM-DC DC 52V Power Supply...
Page 54 MX2010 Router Overview | 3 MX Series Router Interface Names MX2010 Port and Interface Numbering | 90...
Page 55: Alarm And Display Components
IN THIS CHAPTER MX2010 Craft Interface Description | 29 MX2010 Component LEDs on the Craft Interface | 31 MX2010 Alarm Relay Contacts on the Craft Interface | 34 MX2010 Alarm LEDs and Alarm Cutoff/Lamp Test Button | 35 MX2010 Craft Interface Description The craft interface enables the user to view status and troubleshooting information at a glance and to perform many system control functions.
Page 56 There are three LEDs per Routing Engine. RE1 (MASTER, ONLINE, and OFFLINE) MINOR ALARM Minor Alarm LED for monitoring or maintaining the MX2010 MAJOR ALARM Major Alarm LED for critical conditions, which can result in system shutdown ACO/LT Alarm Cutoff/ Lamp Test Button. Turns off both...
Page 57: Mx2010 Component Leds On The Craft Interface
MX2010 Component LEDs on the Craft Interface IN THIS SECTION MX2010 Host Subsystem LEDs and Buttons on the Craft Interface | 31 MX2010 Power Supply Module LEDs on the Craft Interface | 32 MX2010 Line-Card LEDs and Buttons on the Craft Interface | 32...
Page 58: Mx2010 Power Supply Module Leds On The Craft Interface
When placing the CB-RE offline, the Routing Engine goes offline. The Routing Engine gets powered by the Control Board. MX2010 Power Supply Module LEDs on the Craft Interface Each Power Supply Module (PSM) has one bicolor LED on the craft interface that indicates its status. The LEDs, labeled 0 through 8, are located on the upper left of the craft interface next to the PSM label.
Page 59: Mx2010 Sfb Led And Buttons On The Craft Interface
There are ten push buttons located next to each of the line cards on the craft interface. These buttons are used to place the line cards online or offline. When a line card is inserted into an adapter card, and installed into the MX2010 router, the online/offline buttons can turn both cards on or off. NOTE: When installing an adapter card without the line card, the online/offline buttons have no affect.
Page 60: Mx2010 Fan Tray Leds On The Craft Interface
RELATED DOCUMENTATION MX2010 Craft Interface Description | 29 MX2010 Alarm Relay Contacts on the Craft Interface | 34 MX2010 Alarm Relay Contacts on the Craft Interface The craft interface has two alarm relay contacts for connecting the router to external alarm devices (see Figure 10 on page 35).
Page 61: Mx2010 Alarm Leds And Alarm Cutoff/Lamp Test Button
RELATED DOCUMENTATION Disconnecting the Alarm Relay Wires from the MX2010 Craft Interface | 347 Connecting the Alarm Relay Wires to the MX2010 Craft Interface | 346 MX2010 Alarm LEDs and Alarm Cutoff/Lamp Test Button Two large alarm LEDs are located at the upper right of the craft interface.
Page 62 Causes all LEDs on the craft interface to light (for testing) when pressed and held. RELATED DOCUMENTATION MX2010 Craft Interface Description | 29 MX2010 Alarm Relay Contacts on the Craft Interface | 34 MX2010 Router Overview | 3...
Page 63: Cable And Rack Management
MX2010 Cable Manager Description IN THIS SECTION Standard Cable Manager | 37 Extended Cable Manager | 40 The MX2010 router supports the following cable managers: Standard Cable Manager The standard cable manager consists of the following components: Card-cage cable manager and air filter—MX2000-CBL-MID Lower cable manager—MX2000-CBL-BTM-S...
Page 64 You can pull the DC cable manager up and outward to lock it into the maintenance position. Figure 11: MX2010 Standard Cable Managers Front bottom Rear DC Cable (for DC PDM)
Page 65 Figure 12: Lower Cable Manager The card-cage cable manager (see Figure 13 on page 40 Figure 14 on page 40) is a combination cable tray and air filter located in the upper card cage, which has rows for routing and securing the cables away from the front of the CB-REs, and SFBs.
Page 66: Extended Cable Manager
Figure 13: Card-Cage Cable Manager Figure 14: Card-Cage Air Filter Extended Cable Manager The extended cable manager consists of the following components: Extended lower cable manager—MX2000-CBL-BTM-XT-S Extended DC cable manager—MX2020-DC-CBL-MGR-XT-S...
Page 67 Figure 15: MX2010 Extended Cable Manager Front upper Front lower Rear DC PDM The extended cable manager provides additional support to route and secure a large number of cables away from the front of the MPCs and MICs (see Figure 16 on page...
Page 68 To secure the cables in place, loop the tie through the cable anchor and secure the tie. RELATED DOCUMENTATION Installing the MX2010 Standard Cable Manager | 388 Installing the MX2010 Standard DC Cable Manager | 368 Replacing the MX2010 Standard Cable Managers | 459...
Page 69: Mx2010 Rack-Mounting Hardware
Two center-mounting brackets for mounting the router in an open-frame rack (optional) Mounting screws Cage-nuts NOTE: There must be a minimum or 34U of usable rack space when installing the MX2010 router into a 34-U rack. RELATED DOCUMENTATION MX2010 Chassis Description | 7...
Page 70: Cooling System
CHAPTER 5 Cooling System IN THIS CHAPTER MX2010 Cooling System Description | 45 MX2010 Fan Tray LED | 48 MX2010 Cooling System Description The cooling system consists of the following components: Fan tray—MX2000-FANTRAY Lower fan tray air filter—MX2010-FLTR-KIT-S Air baffle—MX2000-UPR-BAFFLE The cooling system components work together to keep all router components within the acceptable temperature range.
Page 71 Figure 17: Removing Fan Tray WARNING: Before removing a fan tray, make sure the fan blades have stopped completely. The host subsystem monitors the temperature of the router components. When the router is operating normally, the fans function at lower than full speed. If a fan fails or the ambient temperature rises above a threshold, the speed of the remaining fans is automatically adjusted to keep the temperature within the acceptable range (see Figure 18 on page 47...
Page 72 Lower fan trays The MX2010 router provides a two-stage front-to-back cooling system. Air is pushed into the bottom inlet and up through the lower fan tray, and exits through the opening between the backplanes in the center of the chassis. This cools the bottom MPCs, and half of each SFB and CB-RE. Air is pulled through the SFBs and all the CB-REs in the center of the chassis and is exhausted out the upper rear of the system.
Page 73: Mx2010 Fan Tray Led
Figure 20: Lower Fan Tray Air Filter The air baffle is an optional component that can be purchased from Juniper Networks. When installed over the upper fan tray access door, the air baffle dissipates exhausted air away from the router.
Page 74 One or more fans are bad or not operating. Fan temperature may indicate high threshold. RELATED DOCUMENTATION MX2010 Cooling System Description | 45 Maintaining the MX2010 Fan Trays | 615 Troubleshooting the MX2010 Cooling System | 706 MX2010 Component LEDs on the Craft Interface | 31...
Page 75: Host Subsystem Components
CHAPTER 6 Host Subsystem Components IN THIS CHAPTER MX2000 Host Subsystem CB-RE Description | 51 RE-MX2000-1800x4 CB-RE Description | 52 REMX2K-X8-64G and REMX2K-X8-64G-LT CB-RE Description | 56 REMX2K-X8-128G CB-RE Description | 58 CB-RE LEDs | 62 MX2000 Switch Fabric Board (SFB) Overview | 66 MX2000 Switch Fabric Board LED | 66 MX2000 Host Subsystem CB-RE Description The CB-RE is a combined Routing Engine and Control Board in one unit.
Page 76: Re-Mx2000-1800X4 Cb-Re Description
RELATED DOCUMENTATION RE-MX2000-1800x4 CB-RE Description | 52 REMX2K-X8-64G and REMX2K-X8-64G-LT CB-RE Description | 56 Maintaining the MX2010 Host Subsystem | 647 Maintaining the MX2020 Host Subsystem Taking an MX2000 Host Subsystem Offline | 685 RJ-45 Connector Pinouts for MX Series CB-RE or RCB Auxillary and Console Ports | 157...
Page 77: Re-Mx2000-1800X4 Cb-Re Front Panel
RE-MX2000-1800x4 CB-RE Front Panel Figure 21 on page 53 shows the Control Board and Routing Engine (CB-RE)—RE-MX2000-1800x4. Table 19 on page 53 describes the Control Board and Routing Engine (CB-RE)—RE-MX2000-1800x4 ports. Figure 21: RE-MX2000-1800x4 CB-RE Front View ONLINE OFFLINE CONSOLE MGMT RESET Table 19: Components on the RE-MX2000-1800x4...
Page 78: Re-Mx2000-1800X4 Cb-Re Components
There is one bicolor LED for each external clock interface—BITS and GPS. XGE-0 and XGE-1 These ports are used for hardware diagnostics and are for Juniper-internal use only. ONLINE, MASTER, and There is one bicolor LED for each CB-RE OK/FAIL control.
Page 79: Re-Mx2000-1800X4 Cb-Re Software
The two ports labeled XGE-0 and XGE-1 are used for hardware diagnostics and are for Juniper-internal use only. The ExtClk ports provide access to external timing distribution. EEPROM—Stores the serial number of the CB-RE.
Page 80: Remx2K-X8-64G And Remx2K-X8-64G-Lt Cb-Re Description
REMX2K-X8-64G and REMX2K-X8-64G-LT CB-RE Description IN THIS SECTION REMX2K-X8-64G CB-RE Components | 56 REMX2K-X8-64G and REMX2K-X8-64G-LT CB-RE Boot Sequence | 58 REMX2K-X8-64G CB-RE Components Figure 22: REMX2K-X8-64G CB-RE Components CONSOLE MGMT ONLINE LINK DISK1 BITS DISK2 RE-MX2K-X8-64G XGE-0 XGE-1 EXTCLK-0 EXTCLK-1 OK/FAIL AUX port...
Page 81 Each Control Board-Routing Engine (CB-RE) consists of the following components: External clock interface—Allows BITS or GPS clock source input to the centralized timing circuit, or allows centralized timing to be output to BITS or GPS. 1000Base-T Ethernet controller. Circuits for chassis management and control. Power circuits for the CB-RE.
Page 82: Remx2K-X8-64G And Remx2K-X8-64G-Lt Cb-Re Boot Sequence
REMX2K-X8-64G and REMX2K-X8-64G-LT CB-RE Boot Sequence The router is shipped with Junos OS and Linux preinstalled on the CB-RE. There are two copies of software: One copy on a USB flash drive that can be inserted into the slot on the CB-RE faceplate. One copy each on the two SSDs in the CB-RE.
Page 83: Remx2K-X8-128G Cb-Re Components
REMX2K-X8-128G CB-RE Components Figure 24: REMX2K-X8-128G CB-RE Components REMX2K-X8-128G CONSOLE MGMT LINK ONLINE DISK1 BITS DISK2 REMX2K-X8-128G XGE-0 XGE-1 EXTCLK-0 EXTCLK-1 OK/FAIL AUX port USB ports — — CONSOLE port RESET button — — MGMT port XGE-0 and XGE-1 ports —...
Page 84: Remx2K-X8-128G Cb-Re Leds
NOTE: Use sheilded CAT5e cable for connecting the AUX, CONSOLE, and MGMT ports. EEPROM in RE—Stores the field replacement unit (FRU) details of the RE. EEPROM in CB—Stores the field replacement unit (FRU) details of the CB. RESET button—Reboots the Routing Engine on the CB-RE when pressed. ONLINE/OFFLINE button—Makes the Routing Engine on the CB-RE online or offline when pressed.
Page 85: Remx2K-X8-128G Cb-Re Boot Sequence
Table 20: REMX2K-X8-128G CB-RE LEDs (continued) Label Color State Description DISK1 and Green Blinking Indicates presence of disk activity. DISK2 There is no disk activity. BITS, GPS, Green Blinking A valid signal is detected on the BITS, GPS or UTI ports. and UTI LEDs The link is down due to loss of signal (LOS).
Page 86: Cb-Re Leds
CB-RE LEDs Each Routing Engine on the CB-RE (model numbers RE-MX2000-1800X4 and REMX2K-X8-64G) has three LEDs that indicate its status. The LEDs, labeled ONLINE, MASTER, OK/FAIL, are located directly on the faceplate of the CB-RE. Table 21 on page 62 describes the functions of the Routing Engine interface of the CB-RE.
Page 87 Table 21: CB-RE LEDs (continued) Label Color State Description BITS Green BITS external clocking interface is active. steadily Yellow BITS external clocking interface has failed. steadily – BITS external clocking interface is offline. Green GPS external clocking interface is active. steadily Yellow GPS external clocking interface has failed.
Page 88 Table 22: REMX2K-X8-64G CB-RE LEDs (continued) Callout from F i g u r e 2 6 o n p a g e 6 3 Label Color State Description OK/FAIL Yellow RE is functioning normally. RE has failed. steadily DISK1 Green Blinking Indicates presence of disk activity.
Page 89 Table 22: REMX2K-X8-64G CB-RE LEDs (continued) Callout from F i g u r e 2 6 o n p a g e 6 3 Label Color State Description Green UTI external clocking interface is active. steadily Yellow UTI external clocking interface has failed. steadily –...
Page 90: Mx2000 Switch Fabric Board (Sfb) Overview
MX2000 Switch Fabric Board (SFB) Overview Switch Fabric Boards (SFBs) are the data plane for the subsystems in the MX router chassis. SFBs create a highly scalable and resilient “all-active” centralized switch fabric that delivers up to 2 Tbps of full-duplex switching capacity to each MPC slot in an MX2000 router.
Page 91: Mx2000 Switch Fabric Board (Sfb) Overview | 66
0 through 7, are located along the bottom center of the craft interface. For more information about the SFB LED on the craft interface, see “MX2010 Component LEDs on the Craft Interface” on page RELATED DOCUMENTATION MX2000 Switch Fabric Board (SFB) Overview | 66...
Page 92: Interface Modules- Adcs, Mpcs, And Mics
Interface Modules— ADCs, MPCs, and MICs IN THIS CHAPTER MX2000 Adapter Card (ADC) Description | 69 MX2010 Modular Port Concentrator Description | 70 MX2010 Modular Port Concentrator LEDs | 73 MPCs Supported by MX Series Routers | 73 MX2010 MPC Terminology | 78...
Page 93: Mx2010 Modular Port Concentrator Description
ADC supported on MX2000 routers. Figure 27: ADC for the MX2000 Routers OK/FAI RELATED DOCUMENTATION Maintaining the MX2010 Adapter Cards | 606 Maintaining MX2020 Adapter Cards MPCs Supported by MX Series Routers | 73 Replacing an MX2008 MPC MX2010 Modular Port Concentrator Description The Modular Port Concentrators (MPCs) provides packet forwarding services.
Page 94 Figure 28 on page 71 shows a typical MPC supported on the MX2010 router. Figure 29 on page 72 shows an MPC installed vertically in the MX2010 router. For more information about MPCs, see the MX Series Interface Module Reference.
Page 95: Mpc Components
OK/FAIL LED on the MPC faceplate. For more information about LEDs on the MPC faceplate, see the MX Series Interface Module Reference. RELATED DOCUMENTATION MX2010 Modular Port Concentrator LEDs | 73 MX2010 Field-Replaceable Units | 17 Maintaining MX2010 MPCs | 653 Troubleshooting the MX2010 MPCs | 726 Replacing an MX2010 MPC and Adapter Card | 525...
Page 96: Mx2010 Modular Port Concentrator Leds
Table 24 on page 73 lists the MPCs and their first supported Junos OS release on MX240, MX480, MX960, MX2008, MX2010, MX2020, and MX10003 routers. Table 24: MPCs Supported by MX240, MX480, MX960, MX2008, MX2010, MX2020, and MX10003 Routers First Junos OS...
Page 97 Table 24: MPCs Supported by MX240, MX480, MX960, MX2008, MX2010, MX2020, and MX10003 Routers (continued) First Junos OS Release First Junos First First First First MX240, Junos OS Junos OS Junos OS Junos OS MX480, Release Release Release Release Release...
Page 98 Table 24: MPCs Supported by MX240, MX480, MX960, MX2008, MX2010, MX2020, and MX10003 Routers (continued) First Junos OS Release First Junos First First First First MX240, Junos OS Junos OS Junos OS Junos OS MX480, Release Release Release Release Release...
Page 99 Table 24: MPCs Supported by MX240, MX480, MX960, MX2008, MX2010, MX2020, and MX10003 Routers (continued) First Junos OS Release First Junos First First First First MX240, Junos OS Junos OS Junos OS Junos OS MX480, Release Release Release Release Release...
Page 100 Table 24: MPCs Supported by MX240, MX480, MX960, MX2008, MX2010, MX2020, and MX10003 Routers (continued) First Junos OS Release First Junos First First First First MX240, Junos OS Junos OS Junos OS Junos OS MX480, Release Release Release Release Release...
Page 101: Mx2010 Mpc Terminology
MICs Supported by MX Series Routers | 79 Junos Continuity Software Overview Pathfinder: Hardware Supported by Junos Continuity Software MX2010 MPC Terminology Regardless of whether you are holding an MPC vertically or horizontally, this information uses the same terms for all four edges of the MPC (see...
Page 102: Mx2010 Modular Interface Card Description
Table 25 on page 80 lists the first supported Junos OS release for MICs on MX240, MX480, MX960, and MX2008 routers. Table 26 on page 82 lists the first supported Junos OS release for MICs on MX2010 and MX2020 routers.
Page 103 Table 27 on page 85 list the first supported Junos OS release for MICs on MX5, MX10, and MX40 routers. Table 28 on page 87 lists the first supported Junos OS release for MICs on MX80 and MX104 routers. Table 29 on page 89 lists the first supported Junos OS release for MICs on MX10003 router.
Page 104 Table 25: MICs Supported by MX240, MX480, MX960 and MX2008 Routers (continued) MX240, MX480, and MX2008 MIC Name MIC Model Number Ports MX960 Routers Routers 10-Gigabit Ethernet MIC with MIC6-10G 15.1F7 SFP+ (24 Ports) 10-Gigabit Ethernet OTN MIC MIC6-10G-OTN 15.1F7 with SFP+ (24 Ports) 40-Gigabit Ethernet 40-Gigabit Ethernet MIC with...
Page 105 Services Multiservices MIC MS-MIC-16G 13.2 15.1F7 SONET/SDH SONET/SDH OC192/STM64 MIC-3D-1OC192-XFP 12.2 15.1F7 MIC with XFP Table 26: MICs Supported by MX2010 and MX2020 Routers MX2010 MX2020 MIC Name MIC Model Number Ports Routers Routers ATM MIC with SFP MIC-3D-8OC3-2OC12-ATM 12.3...
Page 106 Table 26: MICs Supported by MX2010 and MX2020 Routers (continued) MX2010 MX2020 MIC Name MIC Model Number Ports Routers Routers DS3/E3 DS3/E3 MIC MIC-3D-8DS3-E3, 12.3 12.3 MIC-3D-8CHDS3-E3-B Circuit Emulation Channelized E1/T1 Circuit MIC-3D-16CHE1-T1-CE – – Emulation MIC Gigabit Ethernet Gigabit Ethernet MIC with SFP MIC-3D-20GE-SFP 12.3...
Page 107 Table 26: MICs Supported by MX2010 and MX2020 Routers (continued) MX2010 MX2020 MIC Name MIC Model Number Ports Routers Routers 100-Gigabit Ethernet MIC with MIC3-3D-1X100GE-CFP 12.3 12.3 100-Gigabit Ethernet MIC with MIC3-3D-1X100GE-CXP 12.3 12.3 100-Gigabit Ethernet MIC with MIC6-100G-CXP 13.3R2 13.3R2...
Page 108 Table 26: MICs Supported by MX2010 and MX2020 Routers (continued) MX2010 MX2020 MIC Name MIC Model Number Ports Routers Routers MIC MRATE (12-Port MIC-MRATE 15.1F5 with 15.1F5 with Multi-Rate MIC with QSFP+) Junos Junos Continuity Continuity 16.1R1 and 16.1R1 and...
Page 109 Table 27: MICs Supported by MX5, MX10, and MX40 Routers (continued) MIC Name MIC Model Number Ports MX10 MX40 Channelized E1/T1 Circuit MIC-3D-16CHE1-T1-CE-H – – – Emulation MIC (H) Gigabit Ethernet Gigabit Ethernet MIC with SFP MIC-3D-20GE-SFP 11.2R4 11.2R4 11.2R4 Gigabit Ethernet MIC with SFP MIC-3D-20GE-SFP-E 13.2R2...
Page 110 Table 27: MICs Supported by MX5, MX10, and MX40 Routers (continued) MIC Name MIC Model Number Ports MX10 MX40 Tri-Rate Tri-Rate MIC MIC-3D-40GE-TX – 11.2R4 11.2R4 Services Multiservices MIC MS-MIC-16G 13.2 13.2 13.2 Rear slot only. Rear slot Rear slot only.
Page 111 Table 28: MICs Supported by MX80 and MX104 Routers (continued) MIC Name MIC Model Number Ports MX80 MX104 Gigabit Ethernet MIC with SFP MIC-3D-20GE-SFP-EH – 13.2R2 (EH) Gigabit Ethernet MIC with MIC-MACSEC-20GE 18.3 18.3 256b-AES MACSEC 10-Gigabit Ethernet MICs with MIC-3D-2XGE-XFP 10.2 13.2R2...
Page 112 Table 28: MICs Supported by MX80 and MX104 Routers (continued) MIC Name MIC Model Number Ports MX80 MX104 Multiservices MIC MS-MIC-16G 13.2 13.3R2 Rear slot only. N O T E : S t a r t i n g Supported on the From modular MX80 Junos...
Page 113: Mx2010 Modular Interface Card Leds
Ethernet interface For a complete list of media types, see Interface Naming Overview. fpc—Slot in which the MPC is installed. On the MX2010 router, the MPCs are represented in the CLI as FPC 0 through FPC 9. pic—Logical PIC on the MIC. The number of logical PICs varies depending on the type of MIC.
Page 114 FPC 9 REV 07 750-038491 ZV7947 MPCE Type 2 3D REV 04 711-038484 ZV1360 MPCE PMB 2G MIC 0 REV 27 750-028387 CAAB4862 3D 4x 10GE XFP PIC 0 BUILTIN BUILTIN 2x 10GE XFP Xcvr 0 REV 01 740-014289 T07M71204 XFP-10G-SR PIC 1 BUILTIN...
Page 115 Figure 31: MX2010 Interface Port Mapping MIC-3D-2XGE-XFP MIC 0 PORT [0/2]0 xe-9/0/0 PORT [1/3]0 xe-9/1/0 MIC-3D-4XGE-XFP MIC-3D-4XGE-XFP MIC 1 PORT [0/2]0 xe-9/2/0 PORT [0/2]1 xe-9/2/1 PORT [0/3]0 xe-9/3/0 PORT [0/3]1 xe-9/3/1 NOTE: The slot number will be different depending on which slot the MPC and MIC is installed.
Page 116 223,1,3,1/30 inet6 3ffe::df01:301/30 fe80::6687:88ff:fe04:8928/64 mpls multiservice xe-9/3/0 xe-9/3/1 RELATED DOCUMENTATION MX2010 Router Hardware Components and CLI Terminology | 25...
Page 117: Power System
AC power configurations, and a single-phase power configuration. You can add additional power to the rack as needed. The MX2010 router is configurable with up to two AC or DC power distribution modules (PDMs), and up to nine AC or DC power supply modules (PSMs). The PSMs connect to the top and bottom power backplanes that distribute the output voltages produced by the PSMs to the router components.
Page 118 Do not mix AC and DC PSMs or different PDM types within a single system. The MX2010 systems configured for three-phase wye AC input power must use only three-phase wye AC PDMs and three-phase wye AC PSMs. The systems configured for DC (-48 V) input power must use DC (-48 V) PDMS and PSMs.
Page 119 PDM (240 V China) operates with nine feeds. DC Power Supply Modules (PSMs) The MX2010 DC PSMs (-48 V and 240 V China) are hot-removable and hot-insertable. The DC PSMs are a dual redundant feed (INP0 and INP1). To provide feed redundancy, you can connect each DC PSM to two separate feeds from different sources.
Page 120 200–240 VAC (line-to-neutral). Each AC PSM is capable of delivering 2500 W of power. The MX2010 router supports the power systems models and Junos OS releases in Table 32 on page Table 32: Supported MX2010 Power System Components...
Page 121 NOTE: To avoid triggering any PSM-related or power-related alarms for the PSMs that are not used but still plugged into the MX2010 router, make sure that you: Do not connect external power feeds to the PSM through the PDM. Move the DIP switch on the PSMs to the off position.
Page 122: Mx2010 Power Midplane Description
MX2010 Power Midplane Description The MX2010 power system consists of a power midplane (PMP). This midplane is used to connect power from the PDM feeds (AC or DC) to the input of the PSMs (AC or DC) as well as the output from the PSMs to the FRUs (MPCs, CB-REs, SFBs, and fan trays).
Page 123 Figure 32: Three-Phase Delta AC Power Distribution Module Figure 33 on page 101 shows the three-phase delta AC PDM connections. CAUTION: The three-phase delta AC PDM must be installed and secured in the chassis before connecting the power input cables. If the PDM must be removed, both input power cables must be uninstalled and removed from the PDM before the PDM can be removed from the chassis.
Page 124: Mx2000 Three-Phase Wye Ac Power Distribution Module Description
AC power cord. Figure 34: Three-Phase Delta AC Power Cord RELATED DOCUMENTATION MX2010 Power System Description | 95 MX2020 Power Subsystem Description Maintaining the Power Supply Modules on the MX2000 Line of Routers | 666 Troubleshooting the MX2000 Router Power System | 320...
Page 125 NOTE: The three-phase wye AC PDM terminal blocks will be flipped depending on which slot the PDM gets plugged into. Figure 35: Three-Phase Wye AC Power Distribution Module Figure 36 on page 104 shows the three-phase wye AC PDM connections. CAUTION: The three-phase wye AC PDM must be installed and secured in the chassis before connecting the power input cables.
Page 126 Figure 36: Three-Phase Wye AC Power Distribution Module Connections Figure 37 on page 104 shows the three-phase wye AC power cord. Figure 37: Three-Phase Wye AC Power Cord RELATED DOCUMENTATION...
Page 127: Mx2000 Seven-Feed Single-Phase Ac Power Distribution Module Description
MX2010 Power System Description | 95 MX2020 Power Subsystem Description Maintaining the Power Supply Modules on the MX2000 Line of Routers | 666 Troubleshooting the MX2000 Router Power System | 320 MX2020 AC Power Requirements MX2010 AC Power Requirements | 161...
Page 128: Mx2000 Nine-Feed Single-Phase Ac Power Distribution Module Description
Troubleshooting the MX2000 Router Power System | 320 MX2020 AC Power Requirements MX2000 Nine-Feed Single-Phase AC Power Distribution Module Description The MX2000 nine-feed single-phase AC power distribution module (PDM) provides AC input connection from a single-phase AC source, and also provides an input power interface to the power supply module (PSM) through a system power midplane.
Page 129: Mx2000 Three-Phase Delta And Wye Ac Power Distribution Module Leds
MX2020 AC Power Requirements MX2020 Power Subsystem Description MX2000 Three-Phase Delta and Wye AC Power Distribution Module LEDs Figure 40 on page 107 shows the LEDs on the three-phase delta AC PDM faceplate. The three-phase wye AC PDM has the same LEDs. The LEDs in Table 33 on page 107 indicate the status of the AC PDM.
Page 130 fan trays (0, 1, 2, and 3; 0 and 1 for MX2008) MPCs in slot 0 through 9 CB-REs in slot 0 and 1 SFBs in slot 0 through 7 The MX2000 line of routers supports a three-phase delta AC power system, three-phase wye AC power system, or a single-phase AC power system.
Page 131 Figure 41: AC Power Supply Module The AC power system provides dual redundant feeds (INP0 and INP1). Each PSM takes in two AC feeds and uses one of the two. One input feed is active during operation. Each feed is a single-phase AC system 200–240 VAC derived from a three-phase delta or wye AC input system.
Page 132: Mx2010 Ac Power Supply Module Leds
“MX2000 AC Power System Electrical Specifications” on page 173. RELATED DOCUMENTATION MX2020 AC Power Supply Module LEDs MX2010 AC Power Supply Module LEDs Each AC PSM faceplate contains four LEDs. These LEDs are described in Table 35 on page 111. There are a total of nine bicolor LEDs located in the craft interface, and are labeled 0 through 8 for the nine PSMs.
Page 133: Mx2010 Dc Power Distribution Module (-48 V) Description
— AC input to the PSM is not present. RELATED DOCUMENTATION MX2010 Component LEDs on the Craft Interface | 31 MX2010 Power System Description | 95 MX2000 AC Power Supply Module Description | 107 MX2000 AC Power System Electrical Specifications | 173...
Page 134 PDM is required per system (two PDMs per MX2010 chassis) for nonredundant power. The DC PDM provides a power interface to nine power supply modules (PSMs). Two PDMs provide full redundancy. In a redundant configuration, a total of fourteen 60-A or 80-A input feeds (7-feed DC PDMs), and a total of eighteen 60-A or 80-A input feeds (9-feed DC PDMs) are supported.
Page 135: Mx2000 Dc Power Distribution Module (240 V China) Description
MX2010 Router Grounding Specifications Calculating DC Power Requirements for MX2010 Routers | 204 DC Power (-48 V) Circuit Breaker Requirements for the MX2010 Router | 208 DC Power Cable Specifications for the MX2010 Router | 209 Site Electrical Wiring Guidelines for MX Series Routers...
Page 136: Mx2010 Dc Power Distribution Module (-48 V) Leds
MX2000 Router DC (240 V China) Power Subsystem Electrical Specifications Calculating DC Power Requirements for MX2010 Routers | 204 DC Power (-48 V) Circuit Breaker Requirements for the MX2010 Router | 208 DC Power Cable Specifications for the MX2010 Router | 209...
Page 137: Mx2000 Dc Power Distribution Module (240 V China) Leds
MX2010 Component LEDs on the Craft Interface | 31 MX2010 Power System Description | 95 MX2010 DC Power Distribution Module (-48 V) Description | 111 MX2010 DC Power (-48 V) System Electrical Specifications | 201 MX2000 DC Power Distribution Module (240 V China) LEDs Each DC PDM (240 V China) faceplate contains one LED for each of the nine input power feeds, indicating the correct or incorrect polarity connection of each feed.
Page 138: Mx2010 Dc Power Supply Module (-48 V) Description
MX2010 DC Power Supply Module (-48 V) Description The MX2010 supports a DC power system. The DC power system operates with feeds of 60 A or 80 A current limited. A total of nine feeds are required to fully power the MX2010. Another nine feeds are required to provide feed redundancy (a total of 18 60-A or 80-A feeds).
Page 139 118). In addition, a PSM failure triggers the alarm LED on the craft interface. Each PDM has an LED per feed indicating whether the feed is active or not, or whether the feed is connected properly, see “MX2010 DC Power (-48 V) System Electrical Specifications” on page 201.
Page 140: Mx2000 Dc Power Supply Module (240 V China) Description
The MX2010 supports a DC power system. The 240 V China DC power system operates with nine feeds. A total of nine feeds are required to fully power the MX2010. Another nine feeds are required to provide feed redundancy (a total of 18 feeds In the DC power configuration, the router contains up to nine DC PSMs located at the rear of the chassis in slots PSM0 through PSM8, (left to right).
Page 141 NOTE: The MX2020 systems configured for DC (240 V China) input power must use only DC (240 V China) PDMs and DC PSMs. AC and DC PSMs or PDMs must not be mixed within a single system. Up to nine PSMs may be connected in parallel to increase available system power across MPCs as needed and provide redundancy.
Page 142 MX2000 DC Power Distribution Module (240 V China) LEDs MX2000 Router Grounding Specifications | 142 MX2010 Router DC (240 V China) System Electrical Specifications | 202 MX2000 DC Power Distribution Module (240 V China) Description DC Power Cable Specifications for the MX2020 Router...
Page 143: Mx2010 Dc Power Supply Module Leds
DC input is detected but voltage is out of range. – DC input to the PSM is not present. RELATED DOCUMENTATION MX2010 Component LEDs on the Craft Interface | 31 MX2010 Power System Description | 95 MX2010 DC Power Supply Module (-48 V) Description | 116...
Page 144 MX2010 DC Power (-48 V) System Electrical Specifications | 201...
Page 145: Site Planning, Preparation, And Specifications
PART Site Planning, Preparation, and Specifications Planning and Preparing the Site | 125 Transceiver and Cable Specifications | 151 Pinout Specifications | 157 AC Power Requirements, Specifications, and Guidelines | 161 DC Power Requirements, Specifications, and Guidelines | 189...
Page 147: Planning And Preparing The Site
MX2000 Router Grounding Specifications | 142 MX2010 Site Preparation Checklist | 145 Clearance Requirements for Airflow and Hardware Maintenance for the MX2010 Router | 147 Overview of Preparing the Site for the MX2010 Router To prepare a site for router installation: 1.
Page 148 MX2000 DC Power Distribution Module (240 V China) Description on page 113 5. Plan rack location, including required space clearances. See: Clearance Requirements for Airflow and Hardware Maintenance for the MX2010 Router on page 147 MX2010 Physical Specifications on page 130 6.
Page 149: Mx2010 Cabinet Airflow Requirements
Understanding Fiber-Optic Cable Signal Loss, Attenuation, and Dispersion on page 153 10. Plan the cable routing and management. See: MX2010 Cable Manager Description on page 37 Maintaining Cables That Connect to MX2010 MPCs or MICs on page 607 RELATED DOCUMENTATION MX2010 Router Overview | 3...
Page 150: Mx2010 Cabinet Size And Clearance Requirements
Card cage cooling Lower fan trays RELATED DOCUMENTATION Clearance Requirements for Airflow and Hardware Maintenance for the MX2010 Router | 147 MX2010 Cabinet Size and Clearance Requirements | 128 MX2010 Rack Requirements | 135 MX2010 Rack-Mounting Hardware | 43 MX2010 Cabinet Size and Clearance Requirements The minimum size cabinet that can accommodate the router is 23.62 in.
Page 151: Mx2010 Chassis Moving Guidelines
The minimum total clearance inside the cabinet is 36.20 in. (91.95 cm) between the inside of the front door and the inside of the rear door. NOTE: If you are installing the MX2010 router into a network cabinet, make sure that no hardware, device, rack, or cabinet component obstructs the 34-U rack space from access during installation.
Page 152: Mx2010 Physical Specifications
358 lb (162.4 kg) Unpopulated MX2010 324 lb (146.96 kg) Unpopulated MX2010 with shipping crate and pallet 682 lb (309.35 kg) Fully populated MX2010 985 lb (446.79 kg) Fully populated MX2010 with shipping crate and pallet 1343 lb (609.175 kg)
Page 153 Table 42: Physical Specifications Description Weight Width Depth Height Chassis Chassis with 19 in. (48.26 cm) With standard cable 59.50in.(151.13cm) dimensions components (including the manager: removed: 324 lb mounting flanges 35.72 in (90.7 cm) (146.96 kg) with AC power center-mounting 36.4 in (92.5 cm) brackets) with DC power cable...
Page 154 Table 42: Physical Specifications (continued) Description Weight Width Depth Height MPC without 1.25 in. (3.17 cm) 21.25 in (53.97 cm) 15.5 in (39.37 cm) MICs: 23.8 lb (10.79 kg) MPC with MICs: 25 lb (11.34 kg) Fully populated with 10 total: 250 lb (113.39 kg) Blank MPC 5.4 lb (2.45 kg)
Page 155 Table 42: Physical Specifications (continued) Description Weight Width Depth Height DC PDM (-48 V) 8.0 lb (3.62 kg) 16.8 in. 5.2 in. (13.20 cm) 4.2 in. (10.66 cm) (42.67 cm) Fully populated with 2 total: 16 lb (7.25 kg) DC PDM (240 V 9.2 lb (4.17 kg) 16.7 in.
Page 156 Table 42: Physical Specifications (continued) Description Weight Width Depth Height Fan tray 25 lb (11.34 kg) 16.70 in. 28.16 in. (71.52 cm) 2.62 in. (6.65 cm) (42.41 cm) Fully populated with 4 total: 100 lb (45.35 kg) Standard cable 6.8 lb (3.08 kg) 18.99 in.
Page 157: Mx2010 Rack Requirements
Connection to the Building Structure | 138 Rack Size and Strength The MX2010 router is designed for installation in a rack that complies with either of the following standards: A 19-in. rack as defined in Cabinets, Racks, Panels, and Associated Equipment (document number EIA-310-D) published by the Electronics Components Industry Association (http://www.ecianow.org/).
Page 158 Figure 53 on page 138). For instructions about installing the mounting hardware, see “Installing the MX2010 Mounting Hardware for a Four-Post Rack or Cabinet” on page 233. The weight and depth of the router depends on the type of cable manager installed.
Page 159: Spacing Of Mounting Bracket And Flange Holes
24 in (61cm) to 30 in (76.2 cm) NOTE: There must be a minimum of 34-U of usable rack space when installing the MX2010 router. Spacing of Mounting Bracket and Flange Holes The holes in the mounting brackets and front-mount-flanges used to attach the chassis to a rack are spaced at 1 U (1.75 in.).
Page 160: Connection To The Building Structure
For maximum stability, also secure the rack to ceiling brackets. RELATED DOCUMENTATION Clearance Requirements for Airflow and Hardware Maintenance for the MX2010 Router | 147 MX2010 Rack-Mounting Hardware | 43 MX2010 Cabinet Size and Clearance Requirements | 128...
Page 161: Router Transport Kit Turning Radius
Router Transport Kit Turning Radius The MX2010 requires a minimum 42 in. (106.7 cm) diameter of space to turn the chassis on the router transport kit (see Figure 54 on page 139). NOTE: The router transport kit handles can be removed to accommodate aisle width.
Page 162 (59.4 cm) 36.20 in (91.95 cm) Viewed from the front, the MX2010 router with the router transport kit installed measures 30.78 in. (78.2 cm) wide, with the router measuring 19 in. (48.3 cm) wide (see Figure 56 on page 140).
Page 163: Mx2010 Router Environmental Specifications
RELATED DOCUMENTATION Clearance Requirements for Airflow and Hardware Maintenance for the MX2010 Router | 147 MX2010 Rack-Mounting Hardware | 43 MX2010 Cabinet Size and Clearance Requirements | 128 MX2010 Cabinet Airflow Requirements | 127 MX2010 Router Environmental Specifications Table 43 on page 141 specifies the environmental specifications required for normal router operation.
Page 164: Mx2000 Router Grounding Specifications
Tools and Parts Required to Maintain the MX2010 Hardware Components | 218 MX2010 Router Hardware Components and CLI Terminology | 25 Definition of Safety Warning Levels MX2000 Router Grounding Specifications IN THIS SECTION MX2000 Series Chassis Grounding Points Specifications | 142...
Page 165: Mx2000 Series Router Grounding Cable Lug Specifications
MX2000 Series Router Grounding Cable Lug Specifications CAUTION: Before you install the router, a licensed electrician must attach a cable lug to the grounding and power cables that you supply. A cable with an incorrectly attached lug can damage the router. The chassis has two grounding points.
Page 166: Mx2000 Series Router Grounding Cable Specifications
Figure 59: 6-AWG DC Grounding Cable Lug End view Inner diameter .22 .48 ±.04 .25 ±.04 0.63 ±.02 .27 ±.02 2 PLC All measurements in inches Table 44 on page 144 summarizes the specifications for the power cables, which you must supply. Table 44: DC Power Cable Specifications Cable Type Quantity and Specification...
Page 167: Mx2010 Site Preparation Checklist
MX2010 Site Preparation Checklist The checklist in Table 45 on page 145 summarizes the tasks you must perform when preparing a site for router installation. Table 45: MX2010 Site Preparation Checklist Item or Task For More Information Performed By Date...
Page 168 Table 45: MX2010 Site Preparation Checklist (continued) Item or Task For More Information Performed By Date Verify that your rack meets “MX2010 Rack Requirements” the minimum requirements for on page 135 the installation of the router. “MX2010 Cabinet Size and Clearance Requirements”...
Page 169: Clearance Requirements For Airflow And Hardware Maintenance For The Mx2010 Router
Check the cables to ensure there is no air leakage. There must be a minimum of 34-U of usable rack space when you install the MX2010. For service personnel to remove and install hardware components, there must be adequate space at the front and back of the router.
Page 170 Figure 60: Chassis Dimensions and Clearance Requirements for an AC-powered MX2010 Router with a Standard Cable Manager Figure 61: Chassis Dimensions and Clearance Requirements for a DC-powered MX2010 with a Standard Cable Manager 36.0 in. 36.4 in. 36.0 in. (91.44 cm) (92.5 cm)
Page 171: Clearance Requirements For Mx2010 Routers With Extended Cable Managers
Clearance Requirements for MX2010 Routers with Extended Cable Managers An MX2010 router with an extended cable manager requires extra clearance to accommodate the added depth. Figure 62 on page 149 Figure 63 on page 150 show the dimensions and clearance requirements for AC- and DC-powered MX2010 routers with extended cable managers.
Page 172 Figure 63: Chassis Dimensions and Clearance Requirements for a DC-powered MX2010 with an Extended Cable Manager 36.0 in. 38.14 in. 36.0 in. (91.44 cm) (96.9 cm) (91.44 cm) Clearance Clearance Center mounting required recommended flange Front Rear Top view 19.0 in.
Page 173: Transceiver And Cable Specifications
You can use the Hardware Compatibility Tool to find information about the pluggable transceivers supported on your Juniper Networks device. To calculate the power budget and power margin, perform the following tasks: Calculating Power Budget for Fiber-Optic Cable | 151...
Page 174: Calculating Power Margin For Fiber-Optic Cable
The following hypothetical power budget equation uses values measured in decibels (dB) and decibels referred to one milliwatt (dBm): – P = –15 dBm – (–28 dBm) = 13 dB Calculating Power Margin for Fiber-Optic Cable After calculating a link's power budget, you can calculate the power margin (P ), which represents the amount of power available after subtracting attenuation or link loss (LL) from the power budget (P ).
Page 175: Understanding Fiber-Optic Cable Signal Loss, Attenuation, And Dispersion
(2 km @ 1 dB/km, or 2 dB) and loss for five connectors (0.5 dB per connector, or 2.5 dB) and two splices (0.5 dB per splice, or 1 dB) as well as higher-order mode losses (0.5 dB). The power margin (P ) is calculated as follows: –...
Page 176: Signal Loss In Multimode And Single-Mode Fiber-Optic Cable
Signal Loss in Multimode and Single-Mode Fiber-Optic Cable Multimode fiber is large enough in diameter to allow rays of light to reflect internally (bounce off the walls of the fiber). Interfaces with multimode optics typically use LEDs as light sources. However, LEDs are not coherent sources.
Page 177: Cb-Re And Rcb Interface Cable And Wire Specifications For Mx Series Routers
When chromatic dispersion is at the maximum allowed, its effect can be considered as a power penalty in the power budget. The optical power budget must allow for the sum of component attenuation, power penalties (including those from dispersion), and a safety margin for unexpected losses. CB-RE and RCB Interface Cable and Wire Specifications for MX Series Routers Table 47 on page 155...
Page 178: Routing Engine Interface Cable And Wire Specifications For Mx Series Routers
Routing Engine Interface Cable and Wire Specifications for MX Series Routers Table 47 on page 155 lists the specifications for the cables that connect to management ports and the wires that connect to the alarm relay contacts. NOTE: In routers where the Routing Engine (RE) and Control Board (CB) are integrated into a single board, a CB-RE is known as Routing and Control Board (RCB).
Page 179: Pinout Specifications
CHAPTER 11 Pinout Specifications IN THIS CHAPTER RJ-45 Connector Pinouts for MX Series CB-RE or RCB Auxillary and Console Ports | 157 RJ-45 Connector Pinouts for an MX Series CB-RE or RCB Management Port | 158 RJ-45 Connector Pinouts for MX Series CB-RE or RCB Auxillary and Console Ports The ports–labeled—AUX and CONSOLE—on the Control Board and Routing Engine (CB-RE) or the Routing and Control Board (RCB) are asynchronous serial interfaces that accept an RJ-45 connector.
Page 180: Connector Pinouts For An Mx Series Cb-Re Or Rcb Management Port
Table 49: RJ-45 Connector Pinout for the AUX and CONSOLE Ports (continued) Signal Description Receive Data DSR/DCD Data Set Ready Clear to Send RJ-45 Connector Pinouts for an MX Series CB-RE or RCB Management Port The port on the Control Board and Routing Engine (CB-RE; Routing and Control Board (RCB)) labeled MGMT is an autosensing 10/100/1000-Mbps Ethernet RJ-45 receptacle that accepts an Ethernet cable for connecting the Routing Engine to a management LAN (or other device that supports out-of-band management).
Page 181 Table 50: RJ-45 Management Port Connector Pinouts for the CB-RE or RCB MGMT Port (continued) Signal Description TRP4+ Transmit/receive data pair 4 TRP4– Transmit/receive data pair 4...
Page 182: Ac Power Requirements, Specifications, And Guidelines
MX2000 Three-Phase Wye AC Power Distribution Module Electrical Specifications | 179 MX2000 Single-Phase AC Power Distribution Module Electrical Specifications | 180 Calculating AC Power Requirements for MX2010 Routers | 180 Mapping Input Power from AC Power Distribution Modules to AC Power Supply Modules on MX2000...
Page 183 MICs) includes seven SFBs, one host 2,142 W (Typical) subsystem (Control Board and Routing Engine [CB-RE], two fan trays, a craft interface, four PSMs, and two PDMs. Table 52: Typical AC Power Requirements for MX2010 Router Power Requirement (Watts) with 91% Component Model Number Efficiency...
Page 184 Table 53: MX2010 FRU AC Power Requirements Component Model Number Maximum Power Requirement Switch Fabric Boards (SFBs) MX2000-SFB 200 W (Typical) 220 W at 55° C 220 W at 40° C 220 W at 25° C SFB2 MX2000-SFB2-S 220 W (Typical) 265 W at 55°...
Page 185 Table 53: MX2010 FRU AC Power Requirements (continued) Component Model Number Maximum Power Requirement CB-RE RE-MX2000-1800X4 150 W (Typical) 250 W at 55° C 250 W at 40° C 250 W at 25° C CB-RE REMX2K-X8-64G 400 W MPCs 16x10GE MPC (see16x10GE MPC-3D-16XGE-SFPP 440 W at 55°...
Page 186 Table 53: MX2010 FRU AC Power Requirements (continued) Component Model Number Maximum Power Requirement MPC2 Q (see MPC2 Q ) MX-MPC2-3D-Q 294 W MPC2 EQ (see MPC2 EQ ) MX-MPC2-3D-EQ With MICs and optics: 368 W at 55° C MX-MPC2E-3D-Q 347 W at 40°...
Page 187 Table 53: MX2010 FRU AC Power Requirements (continued) Component Model Number Maximum Power Requirement 2x100GE + 8x10GE MPC4E (see MX-MPC4E-2CGE-8XGE 610 W 2x100GE + 8x10GE MPC4E) With MICs and optics: 610 W at 55° C, two 40 W MICs 550 W at 40° C, two CFP MICs with LR4 optics 530 W at 25°...
Page 188 Table 53: MX2010 FRU AC Power Requirements (continued) Component Model Number Maximum Power Requirement MPC8E MX2K-MPC8E 688 W (Typical) (without MICs) 805 W at 55° C 720 W at 40° C 690 W at 25° C MPC9E MX2K-MPC9E 838 W (Typical) (without MICs) 1018 W at 55°...
Page 189 Table 53: MX2010 FRU AC Power Requirements (continued) Component Model Number Maximum Power Requirement 10-Gigabit Ethernet DWDM OTN MIC6-10G-OTN 84 W With optics: 63 W at 55° C with 10G BASE-LR OTN optics 63 W at 40° C with 10G BASE-LR OTN optics 63 W at 25°...
Page 190 Table 53: MX2010 FRU AC Power Requirements (continued) Component Model Number Maximum Power Requirement 100-Gigabit DWDM OTN MIC MIC3-100G-DWDM With optics: with CFP2 91 W at 55° C 83 W at 25° C SONET/SDH OC3/STM1 4-Port: MIC-3D-4OC3OC12-1OC48 4-Port: Multi-Rate MIC 8-Port: MIC-3D-8OC3OC12-4OC48 24 W at 55°...
Page 191: Mx2000 Ac Power Cord Specifications
Table 53: MX2010 FRU AC Power Requirements (continued) Component Model Number Maximum Power Requirement Tri-Rate MIC MIC-3D-40GE-TX 41 W MIC MRATE MIC-MRATE When installed into MPC8E: 1.250 A @ 48 V (60 W) When installed into MPC9E: 1.771 A @ 48 V (85 W)
Page 192 For more information about AC PDM input power mapping, see “Mapping Input Power from AC Power Distribution Modules to AC Power Supply Modules on MX2000 Routers” on page 185. CAUTION: In North America, AC power cords must not exceed approximately 14.75 ft (4.5 m) in length, to comply with National Electrical Code (NEC) Sections 400-8 (NFPA 75, 5-2.2) and 210-52, and Canadian Electrical Code (CEC) Section 4-010(3).
Page 193 Figure 64: Three-Phase Delta AC Power Cord Figure 65: Three-Phase Wye AC Power Cord Table 55: Single-Phase AC Power Cord Specifications Electrical Region Model Number Specification Plug Type Graphic Australia CBL-PWR-C21S-AU 15 A @ 250 VAC AS/NZS 3112 China CBL-PWR-C21S-CH 16 A @ 250 VAC GB 1002/GB 2099...
Page 194: Mx2000 Ac Power System Electrical Specifications
Table 55: Single-Phase AC Power Cord Specifications (continued) Electrical Region Model Number Specification Plug Type Graphic International CBL-PWR-C21S-INTL 16 A @ 250 VAC IEC60309 Italy CBL-PWR-C21S-IT 16 A @ 250 VAC CEI 23-50 Japan CBL-PWR-C21S-JP 15 A @ 250 VAC (NEMA) L6-20 Japan US/Canada...
Page 195: Ac Power Supply Input Fuses
Table 56: MX2000 AC Power System Electrical Specifications Item Specification AC input voltage Delta operating range: 200–240 VAC (line-to-line) (nominal) Wye operating range: 200–240 VAC (line-to-neutral) (nominal) Single-phase operating range: 200-240 VAC (nominal) AC input line frequency Delta: 50/60 Hz (+/-3Hz) Wye: 50/60 Hz (+/-3Hz) Single-phase: 50/60 Hz (+/-3Hz) AC system current rating...
Page 196: Mx2000 Router Grounding Specifications
Table 57: Electrical Specifications for AC Power Supply Input Fuses (continued) Electrical Characteristic Value Melting Integral 631 A² sec INP0/INP1 Neutral Fuse Littelfuse 0325020.MXD65LP Ampere Rating Voltage Rating 250V Interrupting Rating 1500A @ 250V Nominal Cold Resistance 4.2 mOhm Melting Integral 2500 A²...
Page 197: Mx2000 Series Chassis Grounding Points Specifications
MX2000 Series Chassis Grounding Points Specifications To meet safety and electromagnetic interference (EMI) requirements and to ensure proper operation, the router must be adequately grounded before power is connected. To ground AC-powered or DC-powered routers, you must connect a grounding cable to earth ground and then attach it to one of the chassis grounding points using the two screws provided.
Page 198: Mx2000 Series Router Grounding Cable Specifications
NOTE: The MX2000 series routers support 4-AWG DC power cable lugs for 80-A input (see Figure 58 on page 143), and 6-AWG DC power cable lugs for 60-A input (see Figure 59 on page 144). Figure 67: 4-AWG DC Grounding Cable Lug End view Inner diameter .28 0.27...
Page 199: Mx2000 Three-Phase Delta Ac Power Distribution Module Electrical Specifications
NOTE: Additional grounding is provided to an AC-powered router when you plug its PDMs into grounded AC power receptacles. WARNING: The router is installed in a restricted-access location. It has a separate protective earthing terminal (Metric [–M6] and Standard [–¼-20] screw ground lugs) provided on the chassis in addition to the grounding pin of the power supply cord.
Page 200: Mx2000 Three-Phase Wye Ac Power Distribution Module Electrical Specifications
RELATED DOCUMENTATION MX2000 Three-Phase Delta AC Power Distribution Module Description | 100 Connecting AC Power to an MX2000 Router with Three-Phase Delta AC Power Distribution Modules | 291 MX2000 AC Power System Electrical Specifications | 173 MX2000 AC Power Cord Specifications | 170 MX2000 Three-Phase Wye AC Power Distribution Module Electrical Specifications Table 60 on page 179...
Page 201: Mx2000 Single-Phase Ac Power Distribution Module Electrical Specifications
RELATED DOCUMENTATION MX2000 AC Power Cord Specifications | 170 Calculating AC Power Requirements for MX2010 Routers The information in this topic helps you determine which of the two input ratings for the PSM is suitable for various configurations. You determine suitability by subtracting the total power draw from the maximum output of the PSMs.
Page 202 To calculate the AC power requirements: 1. Calculate the power (usage) using the values (see“MX2010 AC Power Requirements” on page 161). 2. Evaluate the power budget, including the budget for each configuration if applicable, and check the required power against the maximum output power of available PDM options.
Page 203 Table 62 on page 182 lists the three-phase delta and wye feed requirements, maximum input and output power per PSM, and power efficiency. Table 62: Calculating AC Power Budget Maximum Power Distribution Typical Input Maximum Input Output Power Power Supply Module Power per PSM Power per PSM...
Page 204 c. Nominal input current for two AC PSMs is 2 * 14 A = 28 A. d. Nominal value of line current is 28 A * √3 = 48.5 A. e. Current rating for input 1 is 50 A. f. Only one AC PSM is connected between two lines. g.
Page 205 Maximum power divided by 0.91 * 3.41 = BTU/hr. Input power = Maximum power divided by 0.91 Refer to “MX2010 AC Power Requirements” on page 161 to calculate maximum power, which is dependent on configuration and temperature. MX2010 three-phase wye AC PDM Maximum power divided by 0.91 * 3.41 = BTU/hr.
Page 206: Mapping Input Power From Ac Power Distribution Modules To Ac Power Supply Modules On Mx2000 Routers
Table 65 on page 187 shows the AC PDM input mapping to AC PDM2/Input0 and PDM3/Input1 (MX2020 only). Figure 71: Mapping AC Power Distribution Module Input to AC Power Supply Modules (MX2010) MX2010 System Rear View IN P1/1_LEFT IN P1/1_RIGHT...
Page 207 Figure 72: Mapping AC Power Distribution Module Input to AC Power Supply Modules (MX2020) MX2020 System Rear View IN P1/3_LEFT IN P1/3_RIGHT PDM3 IN P0/2_LEFT IN P0/2_RIGHT PDM2 IN P1/1_LEFT IN P1/1_RIGHT PDM1 IN P0/0_LEFT IN P0/0_RIGHT PDM0 Table 64: Input AC Power Mapping for PDM0 and PDM1 PDM0/Input0 (Left) PDM0/Input0 (Right) PDM1/Input1 (Left)
Page 208 Table 65: Input AC Power Mapping for PDM2 and PDM3 PDM2/Input0 (Left) PDM2/Input0 (Right) PDM3/Input1 (Left) PDM3/Input1 (Right) PSM9 PSM12 PSM9 PSM15 PSM10 PSM13 PSM10 PSM16 PSM11 PSM14 PSM11 PSM17 – PSM15 PSM12 – – PSM16 PSM13 – – PSM17 PSM14 –...
Page 209: Dc Power Requirements, Specifications, And Guidelines
MX2010 Router DC (240 V China) System Electrical Specifications | 202 Calculating DC Power Requirements for MX2010 Routers | 204 DC Power (-48 V) Circuit Breaker Requirements for the MX2010 Router | 208 DC Power (240 V China) Circuit Breaker Requirements for the MX2000 Router | 209...
Page 210 NOTE: Unlike all the other MPCs, MPC6E, MPC8E, and MPC9E does not require an adapter card (ADC) to house the MPC in the MX2010 router. Table 66: FRU DC Power Requirements Component Model Number Maximum Power Requirement Switch Fabric Boards (SFBs)
Page 211 Table 66: FRU DC Power Requirements (continued) Component Model Number Maximum Power Requirement Control Board and Routing Engine (CB-RE) CB-RE RE-MX2000-1800X4-S 150 W (Typical) 250 W at 55° C 250 W at 40° C 250 W at 25° C MPCs 16x10GE MPC (see16x10GE MPC-3D-16XGE-SFPP 440 W at 55°...
Page 212 Table 66: FRU DC Power Requirements (continued) Component Model Number Maximum Power Requirement MPC2 Q (see MPC2 Q) MX-MPC2-3D-Q 294 W MPC2 EQ (see MPC2 EQ) MX-MPC2-3D-EQ With MICs and optics: 368 W at 55° C MX-MPC2E-3D-Q 347 W at 40° C MX-MPC2E-3D-EQ 333 W at 25°...
Page 213 Table 66: FRU DC Power Requirements (continued) Component Model Number Maximum Power Requirement 2x100GE + 8x10GE MPC4E (see MX-MPC4E-2CGE-8XGE 610 W 2x100GE + 8x10GE MPC4E) With MICs and optics: 610 W at 55° C, two 40 W MICs 550 W at 40° C, two CFP MICs with LR4 optics 530 W at 25°...
Page 214 Table 66: FRU DC Power Requirements (continued) Component Model Number Maximum Power Requirement MPC9E MX2K-MPC9E 838 W (Typical) (without MICs) 1018 W at 55° C 870 W at 40° C 840 W at 25° C MICs ATM MIC with SFP MIC-3D-8OC3-2OC12-ATM 35 W Gigabit Ethernet MIC with SFP...
Page 215 Table 66: FRU DC Power Requirements (continued) Component Model Number Maximum Power Requirement 40-Gigabit Ethernet MIC with MIC3-3D-2X40GE-QSFPP 18 W QSFPP 100-Gigabit Ethernet MIC with MIC3-3D-1X100GE-CFP 40 W 100-Gigabit Ethernet MIC with MIC3-3D-1X100GE-CXP 20 W 100-Gigabit Ethernet MIC with MIC6-100G-CFP2 104 W CFP2 With optics:...
Page 216 Table 66: FRU DC Power Requirements (continued) Component Model Number Maximum Power Requirement SONET/SDH OC3/STM1 4-Port: MIC-3D-4OC3OC12-1OC48 4-Port: Multi-Rate MIC 8-Port: MIC-3D-8OC3OC12-4OC48 24 W at 55° C 22.75 W at 40° C 21.5 W at 25° C 8-Port: 29 W at 55° C 27.75 W at 40°...
Page 217: Mx2010 Dc Power Distribution Description (-48 V)
RELATED DOCUMENTATION MX2010 Power System Description | 95 Connecting Power to a DC-Powered MX2010 Router with Power Distribution Modules (-48 V) | 304 MX2010 DC Power (-48 V) System Electrical Specifications | 201 MX2010 DC Power Distribution Description (-48 V) | 197...
Page 218 80-A feeds are connected. If feeds that connect to one PDM fail in a redundant configuration, the other feed starts to provide full power. Figure 73 on page 198 shows a typical DC source cabling arrangement. Figure 73: Typical DC Source Cabling to the Router DC power supply on MX2010 Rectifiers Central office secondary DC power distribution...
Page 219: Mx2010 Dc Power Distribution (240 V China) Description
MX2010 DC Power Distribution Module (-48 V) Description | 111 MX2010 DC Power Supply Module (-48 V) Description | 116 Connecting Power to a DC-Powered MX2010 Router with Power Distribution Modules (-48 V) | 304 Installing MX2010 DC Power Supply Modules...
Page 220 Figure 74: Typical DC (240 V China) Source Cabling to the Router DC power supply on MX2010 Central office secondary Rectifiers DC power distribution Plant controls Batteries Power plant and batteries in same building Chassis grounding point Safety ground ( central office ground) connection All DC PSMs in a subsystem share the load.
Page 221: Mx2010 Dc Power (-48 V) System Electrical Specifications
MX2010 DC Power Distribution Module (-48 V) Description | 111 MX2010 DC Power Supply Module (-48 V) Description | 116 Connecting Power to a DC-Powered MX2010 Router with Power Distribution Modules (-48 V) | 304 Installing MX2010 DC Power Supply Modules...
Page 222: Mx2010 Router Dc (240 V China) System Electrical Specifications
48 VDC. RELATED DOCUMENTATION Calculating DC Power Requirements for MX2010 Routers | 204 MX2010 DC Power Distribution Module (-48 V) Description | 111 MX2010 DC Power Supply Module (-48 V) Description | 116 MX2010 DC Power Electrical Safety Guidelines...
Page 223: Dc Power Supply Input Fuses
Table 68: DC PSM (240 V China) Electrical Specifications Per Input Configurations (continued) Item Specification Maximum DC output @ 2500 W 52 VDC (upper and lower cage) DC standby output @ 5 30 W Efficiency NOTE: This value is within load range 17-67% and nominal input voltage at 240 VDC.
Page 224: Calculating Dc Power Requirements For Mx2010 Routers
RELATED DOCUMENTATION Calculating DC Power Requirements for MX2010 Routers | 204 MX2010 DC Power Distribution Module (-48 V) Description | 111 MX2010 DC Power Supply Module (-48 V) Description | 116 MX2010 DC Power Electrical Safety Guidelines Calculating DC Power Requirements for MX2010 Routers The information in this topic helps you determine which PSMs are suitable for various configurations, as well as which PSMs are not suitable because output power is exceeded.
Page 225 The MX2010 DC power system provides power to the FRUs in the chassis (see Table 70 on page 205 information about power). Each power system is made up of two DC PDMs, nine PSMs, ten MPCs, four fan trays, eight SFBs, and two Control Board and Routing Engines (CB-REs).
Page 226 SFB—slots 0 through 7 MX2000-SFB-S 220 W * 8 = 1760 W MX2010 DC power system ( 60 A feeds to each PDM input) 2100 W * 8 PSMs=16,800 W (+ 1 PSM@2100 W redundant capacity) MX2010 DC power system ( 80 A feeds to each PDM input)
Page 227 Maximum Output Power for of Power Supply Module System (Watt)—Including Power Supply Module (Watt) Redundant Capacity MX2010 DC PSM 60 A (feed to each input) 2100 18,900 MX2010 DC PSM 80 A or DC PSM (240 2500 22,500 V China) (feed to each input) 3.
Page 228: Dc Power (-48 V) Circuit Breaker Requirements For The Mx2010 Router
MX2010 Power System Description | 95 MX2010 Power Midplane Description | 100 Overview of Preparing the Site for the MX2010 Router | 125 MX2010 DC Power Distribution Description (-48 V) | 197 MX2010 DC Power (-48 V) System Electrical Specifications | 201...
Page 229: Dc Power (240 V China) Circuit Breaker Requirements For The Mx2000 Router
Figure 75 on page 209 Figure 76 on page 210). NOTE: The MX2010 supports 4-AWG DC power cable lugs for 80-A input, and 6-AWG DC power cable lugs for 60-A input. Figure 75: 4-AWG DC Power Cable Lug End view Inner diameter .28...
Page 230 Figure 76: 6-AWG DC Power Cable Lug End view Inner diameter .22 .48 ±.04 .25 ±.04 0.63 ±.02 .27 ±.02 2 PLC All measurements in inches CAUTION: Before router installation begins, a licensed electrician must attach a cable lug to the grounding and power cables that you supply. A cable with an incorrectly attached lug can damage the router.
Page 231 RELATED DOCUMENTATION MX2010 DC Power Supply Module (-48 V) Description | 116 MX2010 DC Power Distribution Module (-48 V) Description | 111 MX2010 DC Power Electrical Safety Guidelines MX2010 DC Power Distribution Description (-48 V) | 197 Connecting an MX2010 DC Power Distribution Module Cable | 498...
Page 232 PART Initial Installation and Configuration Installation Overview | 215 Unpacking the Router | 221 Installing the Mounting Hardware | 233 Installing the Router | 239 Connecting the Router to Power | 289 Connecting the Router to the Network | 337 Initially Configuring the Router | 351...
Page 234: Installation Overview
Installing the MX2010 Mounting Hardware for a Four-Post Rack or Cabinet on page 233 5. Remove all components. See: Removing Components from the MX2010 Router Chassis Before Installing It in a Rack on page 239 6. Install the router into the rack. See:...
Page 235 7. Ground the router. See: Grounding an MX2000 Router on page 289 8. Reinstall all components. See: Reinstalling Components in the MX2010 Router After Initially Installing the Router in a Rack on page 275 9. Connect cables to the network and external devices. See: “Connecting the MX2010 Router to Management and Alarm Devices”...
Page 236: Tools And Parts Required To Unpack The Mx2010 Router
RELATED DOCUMENTATION Overview of Preparing the Site for the MX2010 Router | 125 Removing Components from the MX2010 Router Chassis Before Installing It in a Rack | 239 Installing the MX2010 Router Using a Pallet Jack with Attachment | 253...
Page 237: Tools Required To Install The Mx2010 Router Using A Router Transport Kit
Reinstalling Components in the MX2010 Router After Initially Installing the Router in a Rack | 275 Tools Required to Install the MX2010 Router Using a Router Transport Kit To install the router by using a router transport kit, you need the following tools and equipment:...
Page 238: Tools And Parts Required For Connecting An Mx2000 Router To Power
RELATED DOCUMENTATION Routine Maintenance Procedures for the MX2010 Router | 691 Maintaining the MX2010 Host Subsystem | 647 Maintaining the Power Supply Modules on the MX2000 Line of Routers | 666 Tools and Parts Required for Connecting an MX2000 Router to Power...
Page 239: Tools And Parts Required For Mx2010 Router Connections
Electrostatic discharge (ESD) grounding wrist strap RELATED DOCUMENTATION Connecting the MX2010 Router to a Network for Out-of-Band Management | 337 Connecting an MX2000 Router to a Console or Auxiliary Device | 338 Connecting an MX2010 Router to an External Alarm-Reporting Device | 340...
Page 240: Unpacking The Router
To unpack the router: 1. Gather the tools required to unpack the router. See: Tools and Parts Required to Unpack the MX2010 Router on page 217 2. Remove the router, accessory box, and all parts from the shipping crate. See: Unpacking the MX2010 Router on page 222 3.
Page 241: Unpacking The Mx2010 Router
Depending on your configuration, the MX2010 might be shipped with additional components already installed. NOTE: The MX2010 can be ordered with extended EMI covers and extended cable managers. There are two styles of shipping crates for the MX2010. Figure 77 on page 223 shows the smaller crate that measures 66.25 in.
Page 242 Figure 77: MX2010 Shipping Crate Dimensions (smaller) 3.5 ft (106.7 cm) 4 ft (121.9 cm) Crate door/ramp 5.5 ft (168.3 cm) 6 ft (182.88 cm) 4 ft (121.92 cm) 23 ft (701. cm) 13 ft (396.24 cm) 3 ft (91.44 cm) 3.5 ft...
Page 243 NOTE: If you ordered a router transport kit, the shipping crate door is used as a ramp to guide the MX2010 out of the crate. 5. Using a two-person team, slide the remainder of the shipping crate off the pallet.
Page 244 Figure 79: Unpacking the MX2010 8. Verify the parts received against the list. 9. Remove the vapor corrosion inhibitor (VCI) packs attached to the pallet, being careful not to break the VCI packs open. 10. To remove the brackets holding the chassis to the pallet, use a 9/16-in (14 mm) socket wrench, and use a number 2 Phillips screwdriver to remove the bolts and screws from the brackets.
Page 245: Verifying The Mx2010 Parts Received
Tools and Parts Required to Unpack the MX2010 Router | 217 Verifying the MX2010 Parts Received | 226 Installing the MX2010 Router Using a Pallet Jack with Attachment | 253 Installing an MX2010 Router Using a Router Transport Kit Overview | 258 Verifying the MX2010 Parts Received A packing list is included in each shipment.
Page 246 Table 76: Parts List for a Fully Configured MX2010 Router (continued) Component Quantity Power supply modules (PSMs) Up to 9 Fan trays Upper air baffle (optional) PSM air filter Air filter (lower) Card-cage cable manager and air filter Cable manager (lower)
Page 247: Unpacking The Mx2010 Router Transport Kit
Category 5E, 15 feet long ESD wrist strap with cable RELATED DOCUMENTATION Tools and Parts Required to Unpack the MX2010 Router | 217 Unpacking the MX2010 Router | 222 MX2010 Router Overview | 3 Unpacking the MX2010 Router Transport Kit The router transport kit is shipped in a wooden crate.
Page 248 Figure 80: Router Transport Kit Crate Dimensions 44.5 in (113 cm) 32 in (81.3 cm) Crate door/ramp 36 in. (91.4 cm) 3 ft (91.44 cm) 3 ft (91.44 cm) 3 ft (91.44 cm) 3 ft (91.44 cm) NOTE: The router transport kit is maximally protected inside the shipping crate. Do not unpack it until you are ready to begin installation.
Page 249 Figure 81: Open Router Transport Kit Shipping Crate 4. Remove the top and front of the shipping crate, and set them aside. 5. Remove the two wing nuts that secure the wooden brace to the shipping crate platform, and set them aside.
Page 250 9. Save the shipping crate cover, pallet, and packing materials in case you need to move or ship the router transport kit at a later time. RELATED DOCUMENTATION Tools and Parts Required to Unpack the MX2010 Router | 217 Verifying the MX2010 Parts Received | 226 Installing an MX2010 Router Overview | 215...
Page 251: Installing The Mounting Hardware
CHAPTER 16 Installing the Mounting Hardware IN THIS CHAPTER Installing the MX2010 Mounting Hardware for a Four-Post Rack or Cabinet | 233 Installing the MX2010 Mounting Hardware for a Four-Post Rack or Cabinet Installing Cage Nuts, If Needed | 233...
Page 252 0.86 U 0.88 in. (2.2 cm) 0.50 U 0.25 in. (0.6 cm) 0.14 U Table 79: Mounting Hole Locations for Installing a MX2010 Chassis in a Four-Post Rack or Cabinet Hole Distance Above U Division 63.88 in. (162.2 cm) 36.50 U 58.63 in.
Page 253: Installing The Four-Post Mounting Shelf
Installing the Four-Post Mounting Shelf A mounting shelf is required for installing the router in a four-post rack or cabinet. The shelf is not required for installing the router in an open-frame rack. To install the four-post mounting shelf (see Figure 83 on page 236): 1.
Page 254 There must be a minimum of 34-U unobstructed front-to-back usable rack space when installing the MX2010 router into a four-post rack or cabinet. SEE ALSO Installing the Router Transport Kit on the MX2010 Router | 258 Installing the MX2010 Router Using a Pallet Jack with Attachment | 253...
Page 255: Removing The Center-Mounting Brackets
1. Loosen the screws from each bracket (see Figure 84 on page 237). 2. Remove each bracket. Figure 84: Center-Mounting Bracket Removal SEE ALSO Installing the Center-Mounting Brackets RELATED DOCUMENTATION MX2010 Rack-Mounting Hardware | 43 MX2010 Rack Requirements | 135...
Page 256: Installing The Router
Securing the MX2010 Router to the Router Transport Platform | 261 Using the Router Transport Kit to Install the MX2010 Router in a Four-Post Rack | 263 Using the Router Transport Kit to Install the MX2010 Router in an Open-Frame Rack | 270...
Page 257: Removing The Power Distribution Modules Before Installing An Mx2010 Router
Removing the MPCs Without Removing an Adapter Card Before Installing an MX2010 Router | 249 Removing the CB-REs Before Installing the MX2010 Router | 250 Removing the Power Distribution Modules Before Installing an MX2010 Router Remove the topmost PDM (PDM1/Input1) first, and then work your way downward. To remove an AC...
Page 258 Figure 85: Removing an AC Power Distribution Module Before Installing the MX2010 Router...
Page 259 Figure 86: Removing a DC Power Distribution Module (-48 V) Before Installing the MX2010 Router...
Page 260: Removing The Power Supply Modules Before Installing An Mx2010 Router
Figure 87: Removing a DC Power Distribution Module (240 V China) Before Installing the MX2000 Router Removing the Power Supply Modules Before Installing an MX2010 Router To remove the AC or DC PSMs (see Figure 88 on page 244 Figure 89 on page 244): 1.
Page 261 Figure 88: Removing an AC Power Supply Module Before Installing the MX2010 Router Figure 89: Removing a DC Power Supply Module (-48 V) Before Installing the MX2010 Router...
Page 262: Removing The Fan Trays Before Installing An Mx2010 Router
Figure 90: Removing a DC Power Supply Module (240 V China) Before Installing the MX2000 Router Removing the Fan Trays Before Installing an MX2010 Router To remove the upper and lower fan trays (see Figure 91 on page 246 Figure 92 on page...
Page 263 WARNING: The fan trays use a double-latch safety mechanism. You must continually press and hold the latch while removing the fan trays. 5. Place each component on an antistatic mat resting on a stable, flat surface. CAUTION: Do not stack fan trays on one another after you remove them. 6.
Page 264: Removing The Sfbs Before Installing An Mx2010 Router
Removing the SFBs Before Installing an MX2010 Router To remove the SFBs (see Figure 93 on page 248): 1. Place an electrostatic bag or antistatic mat on a flat, stable surface. 2. Attach an electrostatic discharge (ESD) grounding strap to your bare wrist, and connect the strap to an approved site ESD grounding point.
Page 265: Removing The Mpcs And Adapter Card Before Installing An Mx2010 Router
Figure 93: Removing an SFB Removing the MPCs and Adapter Card Before Installing an MX2010 Router To remove an MPC with an adapter card: 1. Have ready an antistatic mat for the MPC with an adapter card. Also, have ready rubber safety caps when removing MPCs that have optical interfaces.
Page 266: Removing The Mpcs Without Removing An Adapter Card Before Installing An Mx2010 Router
Place each one individually in an electrostatic bag or on its own antistatic mat on a flat, stable surface. Removing the MPCs Without Removing an Adapter Card Before Installing an MX2010 Router To remove an MPC only, without removing the adapter card (see...
Page 267: Removing The Cb-Res Before Installing The Mx2010 Router
Figure 94: Removing an MPC Without Removing the Adapter Card Removing the CB-REs Before Installing the MX2010 Router To remove a CB-RE (see Figure 95 on page 251): 1. Have ready an antistatic mat for the CB-RE. Also have ready rubber safety caps for each SFP transceiver that uses an optical interface on the CB-RE that you are removing.
Page 268: Installing An Mx2010 Router Using A Pallet Jack Overview
Preventing Electrostatic Discharge Damage to an MX Series Router Overview of Preparing the Site for the MX2010 Router | 125 Reinstalling Components in the MX2010 Router After Initially Installing the Router in a Rack | 275 Installing an MX2010 Router Using a Pallet Jack Overview 1.
Page 269: Installing The Pallet Jack Attachment
3. Install the MX2010. See: Installing the MX2010 Router Using a Pallet Jack with Attachment on page 253 RELATED DOCUMENTATION Installing an MX2010 Router Overview | 215 Installing an MX2010 Router Using a Router Transport Kit Overview | 258 Installing the Pallet Jack Attachment To install the pallet jack attachment to the pallet jack: 1.
Page 270: Installing The Mx2010 Router Using A Pallet Jack With Attachment
Installing the MX2010 Router Using a Pallet Jack with Attachment Before installing the router, you must remove all components (see “Removing Components from the MX2010 Router Chassis Before Installing It in a Rack” on page 239). To install the router by using a pallet jack with attachment: 1.
Page 271 4. Using a four-person team to load the router onto the pallet jack, make sure it rests securely on the pallet jack attachment platform. Figure 97: Loading the MX2010 Router onto the Pallet Jack CAUTION: Applying force to any other parts of the chassis other than the shipping covers can damage the chassis.
Page 272 8. Using the pallet jack, position the router in front of the rack or cabinet, centering it in front of the rack. NOTE: If you are installing the MX2010 router into a network cabinet, make sure that no hardware, device, rack, or cabinet component obstructs the 34-U rack space from access during installation.
Page 273 Figure 98: Loading the MX2010 Router into the Rack...
Page 274 Figure 99: Installing the MX2010 Router on an Open-Frame Rack 12. With four people pushing on the front-mounting flanges, slide the router until the center-mounting brackets (open-frame racks) or front-mounting flanges (four-post racks) contact the rack rails. In a four-post rack, the mounting shelf ensures that the holes in the front-mounting flanges of the chassis align with the holes in the rack rails.
Page 275: Installing An Mx2010 Router Using A Router Transport Kit Overview
Securing the MX2010 Router to the Router Transport Platform on page 261 4. Install the router using the router transport kit. See either: “Using the Router Transport Kit to Install the MX2010 Router in a Four-Post Rack” on page 263 Using...
Page 276 To install the router transport kit: 1. Remove the router transport kit from the shipping crate (see “Unpacking the MX2010 Router Transport Kit” on page 228). NOTE: The router transport kit weighs approximately 138.5 lb (62.82 kg). 2. Remove the winch strap plate that is secured to the winch mount by using a 9/16-in. (14 mm) socket wrench, and set the plate aside.
Page 277 Figure 101: Installing the Router Transport Kit onto the MX2010 Router RELATED DOCUMENTATION Overview of Preparing the Site for the MX2010 Router | 125 Installing an MX2010 Router Using a Router Transport Kit Overview | 258...
Page 278: Securing The Mx2010 Router To The Router Transport Platform
Securing the MX2010 Router to the Router Transport Platform To secure the router to the router transport platform: 1. Ensure that the rack is in its permanent location and is secured to the building. Ensure that the installation site allows adequate clearance for router transport kit turn ratios, airflow, and maintenance.
Page 279 NOTE: The router transport kit is equipped with four T-shaped levels on top of each of the four router transport mounting brackets. Make sure the bubbles within the T-shaped levels are between the lines, indicating the chassis is level. CAUTION: Do not raise the chassis above 1 in.
Page 280: Using The Router Transport Kit To Install The Mx2010 Router In A Four-Post Rack
Figure 103: Securing the Router Transport Platform Using the Router Transport Kit to Install the MX2010 Router in a Four-Post Rack Because of the router's size and weight—up to 985 lb (446.79 kg) depending on the configuration—we recommend that you use a router transport kit to install the router.
Page 281 To install the router in a four-post rack by using the router transport kit: 1. Install the winch strap plate to the rear of the router by tightening the four captive screws (see Figure 104 on page 264). Figure 104: Installing Winch Strap Plate (Four-Post Rack) 2.
Page 282 3. Install the winch mount bracket to the rear rack rails by using the six captive screws, and tighten the screws (see Figure 105 on page 265). Figure 105: Installing Winch Mount Bracket to Rack Rails 4. Adjust the height of the router by turning the handles clockwise until the router transport platform is aligned with the surface of the mounting shelf and slightly higher than the mounting shelf (see Figure 106 on page 266).
Page 283 Figure 106: Align the MX2010 Router with Rack Mounting Shelf 6. Unlock the four toggle latches that secure the router transport platform to the router transport mounting plate and wheel assembly. 7. Lift the wheels up by turning the handles counterclockwise so that the weight of the router is on the router transport platform.
Page 284 Figure 107: Remove Router Transport Mounting Plate and Wheel Assembly 9. Attach the winch strap to the winch strap plate at the rear of the router (see Figure 108 on page 268).
Page 285 Figure 108: Attaching Winch Strap to Winch Strap Plate 10. Attach a 1-1/8 in. (28.57 mm) socket wrench to the winch mechanism and turn clockwise to start pulling the chassis into the rack (see Figure 109 on page 269).
Page 286 You must remove the winch bracket to perform this procedure. NOTE: There must be a minimum of 45-U of usable rack space when installing the MX2010 into a 45-U rack. 11. Remove the router transport platform, and set the platform aside.
Page 287: Using The Router Transport Kit To Install The Mx2010 Router In An Open-Frame Rack
Removing Components from the MX2010 Router Chassis Before Installing It in a Rack | 239 Reinstalling Components in the MX2010 Router After Initially Installing the Router in a Rack | 275 Using the Router Transport Kit to Install the MX2010 Router in an...
Page 288 To install the MX2010 in an open-frame rack by using a router transport kit: 1. Using the router transport platform, position the router in front of the rack or cabinet, centering it in front of the rack. 2. Using a four-person team, transport the router to the rack installation location and center it in front of the rack.
Page 289 Figure 110: Align the MX2010 Router with the Rack 5. Unlock the four toggle latches that secure the router transport platform to the router transport mounting plate and wheel assembly. 6. Lift the wheels up by turning the handles counterclockwise so that the weight of the router is on the router transport platform.
Page 290 Figure 111: Remove Router Transport Mounting Plate and Wheel Assembly 8. Grasping the handles on the shipping covers, carefully slide the router into the rack until the center-mounting brackets contact the rack rails (see Figure 112 on page 274).
Page 291 A four-person team is needed to carefully guide the router into the rack. NOTE: There must be a minimum of 45-U of usable rack space when installing the MX2010 into a 45-U rack. 9. Remove the router transport platform, and set the platform aside.
Page 292: Reinstalling Components In The Mx2010 Router After Initially Installing The Router In A Rack
MX2010 Rack Requirements | 135 MX2010 Router Transport Kit Moving Requirements and Guidelines | 138 Installing an MX2010 Router Using a Router Transport Kit Overview | 258 Grounding an MX2000 Router | 289 Reinstalling Components in the MX2010 Router After Initially Installing...
Page 293: Reinstalling The Power Distribution Modules
Reinstalling the Power Distribution Modules To reinstall the AC or DC PDMs, follow this procedure for each PDM (see Figure 113 on page 277 Figure 114 on page 278): 1. Attach an electrostatic discharge (ESD) grounding strap to your bare wrist, and connect the strap to one of the ESD points on the chassis.
Page 294 Figure 113: Reinstalling an AC Power Distribution Module...
Page 295 Figure 114: Reinstalling a DC Power Distribution Module (-48 V)
Page 296: Reinstalling The Power Supply Modules
8. NOTE: The MX2010 PSMs can be installed in any order in the chassis. 2. For an AC-powered router, move the AC power switch on the PSMs to the off (O) position. For a DC-powered router, move the DC power switch on the PSMs to the off (O) position.
Page 297 3. While holding the handle, using both hands, slide the PSM straight in until the PSM is fully seated into the chassis slot. 4. The PSM faceplate should be flush with adjacent PSMs. Figure 116: Reinstalling an AC Power Supply Module Figure 117: Reinstalling a DC Power Supply Module (-48 V)
Page 298: Reinstalling The Fan Trays
Figure 118: Reinstalling a DC Power Supply Module (240 V China) Reinstalling the Fan Trays To reinstall the upper or lower fan trays, (see Figure 119 on page 282 Figure 120 on page 282): 1. Loosen the two captive screws on each side of the fan tray access panel, and open the panel. 2.
Page 299 5. Press and hold the latch a second time while inserting the fan tray completely into the router. 6. Tighten the two captive screws on the fan tray faceplate. 7. Close the fan tray access panel, and tighten the captive screws to secure it in place. Figure 119: Reinstalling Upper Fan Trays Figure 120: Reinstalling Lower Fan Trays...
Page 300: Reinstalling The Sfbs
Reinstalling the SFBs To reinstall an SFB (see Figure 121 on page 284): CAUTION: Before removing or replacing an SFB, ensure that the ejector handles are stored horizontally and pressed toward the center of the SFB. 1. Attach an electrostatic discharge (ESD) grounding strap to your bare wrist, and connect the strap to one of the ESD points on the chassis.
Page 301: Reinstalling The Adapter Card
Figure 121: Reinstalling an SFB Reinstalling the Adapter Card To reinstall an adapter card (see Figure 122 on page 285): 1. Attach an electrostatic discharge (ESD) grounding strap to your bare wrist, and connect the strap to one of the ESD points on the chassis. 2.
Page 302: Reinstalling The Mpcs
Figure 122: Reinstalling an Adapter Card Reinstalling the MPCs To reinstall an MPC (see Figure 123 on page 286): 1. Attach an electrostatic discharge (ESD) grounding strap to your bare wrist, and connect the strap to one of the ESD points on the chassis. 2.
Page 303: Reinstalling The Cb-Res
Figure 123: Reinstalling an MPC Reinstalling the CB-REs To reinstall a CB-RE (see Figure 124 on page 287): 1. Attach an electrostatic discharge (ESD) grounding strap to your bare wrist, and connect the strap to one of the ESD points on the chassis. 2.
Page 304 Tools Required to Install the MX2010 Router Using a Pallet Jack | 217 Removing Components from the MX2010 Router Chassis Before Installing It in a Rack | 239 Installing the MX2010 Router Using a Pallet Jack with Attachment | 253...
Page 305: Connecting The Router To Power
Mapping Input Power from AC Power Distribution Modules to AC Power Supply Modules on MX2000 Routers | 302 Connecting Power to a DC-Powered MX2010 Router with Power Distribution Modules (-48 V) | 304 Connecting Power to a DC-Powered MX2000 Router with DC Power Distribution Modules (240 V...
Page 306 You ground the router by connecting a grounding cable to earth ground and then attaching it to the chassis grounding points by using two screws. To connect the grounding cable (see Figure 125 on page 290): 1. Attach an electrostatic discharge (ESD) grounding strap to your bare wrist, and connect the strap to an approved site ESD grounding point.
Page 307: Connecting Ac Power To An Mx2000 Router With Three-Phase Delta Ac Power Distribution Modules
Prevention of Electrostatic Discharge Damage | 794 Connecting AC Power to an MX2000 Router with Three-Phase Delta AC Power Distribution Modules CAUTION: Do not mix AC and DC power modules within the same router. WARNING: Power connections must be performed by a licensed electrician only. You connect AC power to the router with three-phase delta AC power distribution modules (PDMs) by connecting the AC power cord from an AC PDM to an AC power source.
Page 308 7. Remove the metal cover of the metal AC wiring compartment. 8. Unscrew the retaining nut from the AC power cord. 9. Place the retaining nut inside the metal wiring compartment. 10. Insert the wires of the AC power cord through the hole of the retaining nut and rubber grommet. 11.
Page 309 CW or CCW will operate correctly. CAUTION: Wire label configuration is for Juniper Networks supplied cable only. If you are using your own cable, make sure you use the proper connections. To connect wires to the terminal block that serves three PSMs: a.
Page 310 Use a 5/32-in. (4 mm) Allen wrench for the 5/16-in. hex screws NOTE: Three-phase delta AC wire assembly kits can be purchased from Juniper Networks. Table 80: Supported Three-Phase Delta AC Wire Gauge Wire Gauge...
Page 311: Connecting Ac Power To An Mx2000 Router With Three-Phase Wye Ac Power Distribution Modules
14. Screw the retaining nut onto the AC power cord to secure it to the metal wiring compartment. 15. Reinstall the metal PDM wiring cover, and using a number 2 Phillips (+) screwdriver, tighten the four captive screws on the metal AC wiring compartment. 16.
Page 312 To connect an AC power cord to an AC power source: 1. Attach an electrostatic discharge (ESD) grounding strap to your bare wrist, and connect the strap to an approved site ESD grounding point. See the instructions for your site. 2.
Page 313 NOTE: The terminal connections have either slotted screws or hex screws. Use a 1/4-in. slotted screwdriver for the slotted screws. Use a 5/32-in. (4 mm) Allen wrench for the 5/16-in. hex screws. To connect wires to the terminal block that serves six PSMs: a.
Page 314 (DVM). Then turn off the AC breaker, de-energizing the PDM, and install the metal cover and engage all AC PSMs. NOTE: Three-phase wye AC wire assembly kits can be purchased from Juniper Networks. Table 81: Supported Three-Phase Wye AC Wire Gauge Wire Gauge...
Page 315 NOTE: We recommend that you use the proper gauge wire in order for the cable clamps to hold the AC cables. Using smaller gauge wiring results in the cable clamps not tightening properly. WARNING: Power connections must be performed by a licensed electrician only.
Page 316: Connecting Power To An Mx2000 Single-Phase Ac Power Distribution Module
Connecting Power to an MX2000 Single-Phase AC Power Distribution Module CAUTION: Do not mix AC and DC power distribution modules (PDMs) within the same router. To connect an AC power cord to a single-phase seven-feed or nine-feed AC power distribution module (PDM): 1.
Page 317 Figure 128: Plugging into the MX2000 Single-Phase AC Power Distribution Module 7. Replace the power cord retainer, making sure the power cords do not touch or block access to router components. 8. Flip the power switch on each PSM to the on (|) position to provide power to the router components. 9.
Page 318: Mapping Input Power From Ac Power Distribution Modules To Ac Power Supply Modules On Mx2000 Routers
Table 65 on page 187 shows the AC PDM input mapping to AC PDM2/Input0 and PDM3/Input1 (MX2020 only). Figure 129: Mapping AC Power Distribution Module Input to AC Power Supply Modules (MX2010) MX2010 System Rear View IN P1/1_LEFT IN P1/1_RIGHT...
Page 319 Figure 130: Mapping AC Power Distribution Module Input to AC Power Supply Modules (MX2020) MX2020 System Rear View IN P1/3_LEFT IN P1/3_RIGHT PDM3 IN P0/2_LEFT IN P0/2_RIGHT PDM2 IN P1/1_LEFT IN P1/1_RIGHT PDM1 IN P0/0_LEFT IN P0/0_RIGHT PDM0 Table 82: Input AC Power Mapping for PDM0 and PDM1 PDM0/Input0 (Left) PDM0/Input0 (Right) PDM1/Input1 (Left)
Page 320: Connecting Power To A Dc-Powered Mx2010 Router With Power Distribution Modules
Connect Source B to PDM1-left and PDM1-right RELATED DOCUMENTATION Powering On a Three-Phase AC-Powered MX2000 Router | 319 Connecting Power to a DC-Powered MX2010 Router with Power Distribution Modules (-48 V) WARNING: Before performing DC power procedures, ensure that power is removed from the DC circuit.
Page 321 You connect DC power to the router by attaching power cables from the external DC power sources to the terminal studs on the PDM faceplates. You must provide the power cables (the cable lugs are not supplied with the router). To connect the DC source power cables to the router: 1.
Page 322 5. Verify that the DC power cables are correctly labeled before making connections to the PDM. In a typical power distribution scheme where the return is connected to chassis ground at the battery plant, you can use a multimeter to verify the resistance of the –48V and RTN DC cables to chassis ground: The cable with very large resistance (indicating an open circuit) to chassis ground is –48V.
Page 323 CAUTION: The maximum torque rating of the terminal studs on the DC PDM is 25 lb-in. (33.89 Nm). The terminal studs might be damaged if excessive torque is applied. Use only a torque-controlled driver or socket wrench to tighten nuts on the DC PDM terminal studs.
Page 324 Grounding points (on chassis) CAUTION: The MX2010 router has more than one connection to power after it is fully connected. Disconnect all power sources before servicing the PSMs or PDMs to avoid electrical shock. RELATED DOCUMENTATION DC Power Cable Specifications for the MX2010 Router | 209...
Page 325: Connecting Power To A Dc-Powered Mx2000 Router With Dc Power Distribution Modules
Connecting Power to a DC-Powered MX2000 Router with DC Power Distribution Modules (240 V China) WARNING: Before performing DC power procedures, ensure that power is removed from the DC circuit. To ensure that all power is OFF, locate the circuit breaker on the panel board that services the DC circuit, switch the circuit breaker to the OFF position, and tape the switch handle of the circuit breaker in the OFF position.
Page 326: Connecting An Mx2000 Dc Router Power Distribution Module (-48 V) Cable
Figure 132: Connecting Power 4. Connect the power cords for the remaining PDMs. Connecting an MX2000 DC Router Power Distribution Module (-48 V) Cable WARNING: Before performing DC power procedures, disconnect all power sources. To ensure that all power is OFF, locate the circuit breaker on the panel board that services the DC circuit, switch the circuit breaker to the OFF position, and tape the switch handle of the circuit breaker in the OFF position.
Page 327 a. Attach the positive (+) DC source power cable lug to the RTN (return) terminal. b. Attach the negative (–) DC source power cable lug to the –48V (input) terminal. Figure 133: Connecting Power Cables to the DC Power Distribution Module (-48 V) Cable Flat Terminal...
Page 328 CAUTION: You must ensure that power connections maintain the proper polarity. The power source cables might be labeled (+) and (-) to indicate their polarity. There is no standard color coding for DC power cables. The color coding used by the external DC power source at your site determines the color coding for the leads on the power cables that attach to the terminal studs on each power supply.
Page 329: Connecting An Mx2000 Dc Router Power Distribution Module (240 V China) Cable
11. On each of the DC power input sources, switch the DC circuit breaker to the center position before moving it to the ON position. NOTE: The circuit breaker may bounce back to the OFF position if you move the breaker too quickly.
Page 330 Figure 134: Connecting Power 4. Connect the power cords for the remaining PDMs. 5. Connect the power cable (CBL-PWR-240V-CH) to the DC power source. See Figure 136 on page 314. Figure 136: 240 V China Power Cable Negative Positive — —...
Page 331: Powering On The Dc-Powered Mx2010 Router
9. On each of the DC PSMs, move the switch to the on (|) position. Powering On the DC-Powered MX2010 Router To power on a DC-powered MX2010 router: 1. Verify that an external management device is connected to one of the Routing Engine ports on the Control Board and Routing Engine (CB-RE) (AUX, CONSOLE, or MGMT).
Page 332 To power off the system after the Routing Engine finishes booting, see “Powering Off the DC-Powered MX2000 Router” on page 698. 13. Verify the MX2010 router power up, system initialization, and status (see “Initially Configuring the MX2010 Router” on page 351).
Page 333: Powering On The Dc-Powered (240 V China) Mx2000 Router
Powering On the DC-Powered (240 V China) MX2000 Router To power on a DC-powered router: 1. Verify that an external management device is connected to one of the Routing Engine ports on the Control Board and Routing Engine (CB-RE) (AUX, CONSOLE, or MGMT). 2.
Page 334 To power off the system after the Routing Engine finishes booting, see “Powering Off the DC-Powered MX2000 Router” on page 698. 13. Verify the MX2010 router power up, system initialization, and status, see “Initially Configuring the MX2010 Router” on page 351.
Page 335: Powering On A Three-Phase Ac-Powered Mx2000 Router
Powering On a Three-Phase AC-Powered MX2000 Router You can use this procedure for a router with either a three-phase delta AC power distribution module (PDM) or a three-phase wye AC PDM. 1. Verify that the power supply modules (PSMs) are fully inserted in the chassis and that the captive screws on their faceplates are tightened.
Page 336: Troubleshooting The Mx2000 Router Power System
12. Verify that the router powers up and goes through the system initialization process. RELATED DOCUMENTATION Initially Configuring the MX2010 Router | 351 Maintaining and Verifying the Status of the MX2010 Router Components | 609 Initially Configuring the MX2020 Router Maintaining and Verifying the Status of the MX2020 Router Components...
Page 337 If all AC or DC power supply modules (PSMs) have failed, the system temperature might have exceeded the threshold, causing the system to shut down. See Step for instructions on how to restart a high-capacity AC or DC PSM after a shut down due to an over-temperature situation. The yellow PWR OK LED blinks when an AC or a DC PSM is out of the power limit or is in an overcurrent condition.
Page 338 State indicates that each of the PSMs is functioning normally. NOTE: For the MX2010, the PSMs are referred to as PSM0 through PSM8. For the MX2020, the PSMs are referred to as PSM0 through PSM8 (bottom) and PSM9 through PSM17 (top).
Page 339 user@host> show chassis environment psm PSM 0 status: State Online Temperature AC Input Feed Voltage(V) Current(A) Power(W) INP0 223.75 1.40 313.25 INP1 0.00 0.00 0.00 DC Output Voltage(V) Current(A) Power(W) Load(%) 52.00 4.25 221.00 10.52 Hours Used 6862 PSM 1 status: State Online Temperature...
Page 340 DC Output Voltage(V) Current(A) Power(W) Load(%) 51.75 4.50 232.88 11.09 Hours Used 7438 PSM 5 status: State Online Temperature AC Input Feed Voltage(V) Current(A) Power(W) INP0 225.00 1.30 292.50 INP1 5.00 0.00 0.00 DC Output Voltage(V) Current(A) Power(W) Load(%) 51.75 4.00 207.00 9.86...
Page 341 INP1 5.00 0.00 0.00 DC Output Voltage(V) Current(A) Power(W) Load(%) 52.00 8.75 455.00 21.67 Hours Used 6862 PSM 10 status: State Online Temperature AC Input Feed Voltage(V) Current(A) Power(W) INP0 225.00 2.20 495.00 INP1 3.75 0.00 0.00 DC Output Voltage(V) Current(A) Power(W) Load(%) 52.00...
Page 342 INP0 225.00 2.20 495.00 INP1 0.00 0.00 0.00 DC Output Voltage(V) Current(A) Power(W) Load(%) 51.75 8.00 414.00 19.71 Hours Used 7462 PSM 15 status: State Online Temperature AC Input Feed Voltage(V) Current(A) Power(W) INP0 223.75 2.20 492.25 INP1 0.00 0.00 0.00 DC Output Voltage(V) Current(A)
Page 343 51.25 10.25 525.31 25.01 Hours Used 1369 PSM 5 status: State Online Temperature DC Input Feed Voltage(V) Current(A) Power(W) INP0 0.00 0.00 0.00 INP1 50.80 11.55 586.74 DC Output Voltage(V) Current(A) Power(W) Load(%) 51.25 10.50 538.12 25.62 Hours Used 1722 PSM 6 status: State Online...
Page 344 DC Output Voltage(V) Current(A) Power(W) Load(%) 51.25 9.50 486.88 23.18 Hours Used PSM 14 status: State Online Temperature DC Input Feed Voltage(V) Current(A) Power(W) INP0 0.00 0.00 0.00 INP1 50.80 10.50 533.40 DC Output Voltage(V) Current(A) Power(W) Load(%) 51.25 9.50 486.88 23.18 Hours Used...
Page 345 PSM 0 status: State Online Temperature DC Input Feed Voltage(V) Current(A) Power(W) INP0 0.00 0.00 0.00 INP1 240.00 1.10 264.00 DC Output Voltage(V) Current(A) Power(W) Load(%) 52.75 4.50 237.38 9.49 Hours Used 2640 PSM 1 status: State Online Temperature DC Input Feed Voltage(V) Current(A) Power(W)
Page 346 Hours Used 3144 PSM 5 status: State Online Temperature DC Input Feed Voltage(V) Current(A) Power(W) INP0 0.00 0.00 0.00 INP1 240.00 1.10 264.00 DC Output Voltage(V) Current(A) Power(W) Load(%) 52.50 4.25 223.12 8.93 Hours Used 3144 PSM 6 status: State Online Temperature DC Input...
Page 347 52.50 1.75 91.88 3.67 Hours Used 3144 PSM 10 status: State Online Temperature DC Input Feed Voltage(V) Current(A) Power(W) INP0 240.00 0.60 144.00 INP1 0.00 0.00 0.00 DC Output Voltage(V) Current(A) Power(W) Load(%) 52.75 1.75 92.31 3.69 Hours Used 1296 PSM 11 status: State Online...
Page 348 DC Output Voltage(V) Current(A) Power(W) Load(%) 52.75 1.75 92.31 3.69 Hours Used 1296 PSM 15 status: State Online Temperature DC Input Feed Voltage(V) Current(A) Power(W) INP0 240.00 0.50 120.00 INP1 0.00 0.00 0.00 DC Output Voltage(V) Current(A) Power(W) Load(%) 52.25 1.50 78.38 3.13...
Page 349 NOTE: For midpoint impedance grounded source, the CLI display of the input voltage is inaccurate for the input source with lower input voltage. For example, if one source is +/-120V, and the other source is +/-125V, the CLI input voltage display is 250 V for one input, and is 245 V (should be 240 V) for the other.
Page 350 6. Verify that the LEDs on the power supply faceplate are properly lit. 7. Issue the CLI show chassis environment pem command and verify the State is ONLINE and the Temperature is OK. To restart a high-capacity DC power supply after a shut down due to an over-temperature situation: 1.
Page 351 To check the DIP switch position: 1. Issue the show chassis power command and check to see how many feeds are connected. The following example shows there are two AC input feeds connected for PEM 0 and one AC input feed connected for PEM 1.
Page 352 If you cannot determine the cause of the problem or need additional assistance, see “Contacting Customer Support” on page 731. RELATED DOCUMENTATION MX2000 Three-Phase Delta and Wye AC Power Distribution Module LEDs | 107 MX2010 Craft Interface Description | 29 MX2020 Craft Interface Description MX2010 Troubleshooting Resources | 703 MX2020 Troubleshooting Resources...
Page 353: Connecting The Router To The Network
IN THIS CHAPTER Connecting the MX2010 Router to Management and Alarm Devices | 337 Connecting the MX2010 Router to a Network for Out-of-Band Management | 342 Connecting an MX2000 Router to a Console or Auxiliary Device | 343 Connecting an MX2010 Router to an External Alarm-Reporting Device | 344...
Page 354: Connecting An Mx2000 Router To A Console Or Auxiliary Device
MX2010 remotely. SEE ALSO Connecting the MX2010 Router to Management and Alarm Devices | 337 Connecting an MX2000 Router to a Console or Auxiliary Device To use a system console to configure and manage the Routing Engine, connect it to the appropriate CONSOLE port on the RCB interface.
Page 355 WARNING: The MX2000 router must be adequately grounded before powering on the console or auxiliary devices (see “MX2000 Router Grounding Specifications” on page 142). To connect a management console or auxiliary device: 1. Turn off power to the console or auxiliary device. 2.
Page 356: Connecting An Mx2010 Router To An External Alarm-Reporting Device
Connect a laptop or console terminal to configure the MX2000 router. Connecting an MX2010 Router to an External Alarm-Reporting Device To connect the router to external alarm-reporting devices, attach wires to the RED and YELLOW relay contacts on the craft interface (see Figure 142 on page 341).
Page 357 The alarm relays consist of three terminal contacts with normal closed (NC), common (C), MAJOR ALARM—[NC C NO] and normal open (NO) relays that signal a minor or major alarm when broken. SEE ALSO Tools and Parts Required for MX2010 Router Connections | 220...
Page 358 Connecting MPC or MIC Cables to the MX2010 Router | 348 Connecting an MX2000 Router to a Console or Auxiliary Device | 338 Connecting the MX2010 Router to a Network for Out-of-Band Management | 337 CB-RE and RCB Interface Cable and Wire Specifications for MX Series Routers | 155...
Page 359 RELATED DOCUMENTATION Connecting the MX2010 Router to Management and Alarm Devices | 337 Connecting an MX2000 Router to a Console or Auxiliary Device To use a system console to configure and manage the Routing Engine, connect it to the appropriate CONSOLE port on the RCB interface.
Page 360 Connect a laptop or console terminal to configure the MX2000 router. Connecting an MX2010 Router to an External Alarm-Reporting Device To connect the router to external alarm-reporting devices, attach wires to the RED and YELLOW relay contacts on the craft interface (see Figure 142 on page 341).
Page 361 The alarm relays consist of three terminal contacts with normal closed (NC), common (C), MAJOR ALARM—[NC C NO] and normal open (NO) relays that signal a minor or major alarm when broken. RELATED DOCUMENTATION Tools and Parts Required for MX2010 Router Connections | 220...
Page 362: Connecting The Alarm Relay Wires To The Mx2010 Craft Interface
Connecting MPC or MIC Cables to the MX2010 Router | 348 Connecting an MX2000 Router to a Console or Auxiliary Device | 338 Connecting the MX2010 Router to a Network for Out-of-Band Management | 337 CB-RE and RCB Interface Cable and Wire Specifications for MX Series Routers | 155 Connecting the Alarm Relay Wires to the MX2010 Craft Interface Here’s how to connect the alarm relay wires between a router and an alarm-reporting device (see...
Page 363: Disconnecting The Alarm Relay Wires From The Mx2010 Craft Interface
Disconnecting the Alarm Relay Wires from the MX2010 Craft Interface Here’s how to disconnect the alarm relay wires from the MX2010 and an alarm-reporting device (see Figure 149 on page 347): 1.
Page 364: Connecting Mpc Or Mic Cables To The Mx2010 Router
MAJOR ALARM—[NC C NO] (C), and normal open (NO) relays that signal a minor or major alarm when broken. Connecting MPC or MIC Cables to the MX2010 Router To connect the MPCs or MICs to the network (see Figure 150 on page 349...
Page 365 CAUTION: Do not let fiber-optic cable hang free from the connector. Do not allow fastened loops of cable to dangle, which stresses the cable at the fastening point. Figure 150: Attaching a Cable to an MPC Figure 151: Attaching a Cable to a MIC...
Page 366 RELATED DOCUMENTATION Connecting the MX2010 Router to Management and Alarm Devices | 337 Tools and Parts Required for MX2010 Router Connections | 220 Grounding an MX2000 Router | 289...
Page 367: Initially Configuring The Router
Initially Configuring the MX2010 Router The MX2010 router is shipped with Junos OS preinstalled and ready to be configured when the MX2010 router is powered on. There are three copies of the software: one on a CompactFlash card in the CB-RE,...
Page 368 Figure 152: USB Flash Drive Port on CB-RE Gather the following information before configuring the router: Name the router will use on the network Domain name the router will use IP address and prefix length information for the Ethernet interface IP address of a default router IP address of a DNS server Password for the root user...
Page 369 4. Enter configuration mode. cli> configure [edit] root@# 5. Configure the name of the router. If the name includes spaces, enclose the name in quotation marks (“ ”). [edit] root@# set system host-name host-name 6. Create a management console user account. [edit] root@# set system login user user-name authentication plain-text-password New password: password...
Page 370 11. Configure the IP address of a DNS server. [edit] root@# set system name-server address 12. Set the root authentication password by entering a plain-text password, an encrypted password, or an SSH public key string (DSA or RSA). [edit] root@# set system root-authentication plain-text-password New password: password Retype new password: password [edit]...
Page 371 15. (Optional) Display the configuration to verify that it is correct. [edit] root@# show system { host-name host-name; domain-name domain-name; backup-router address; root-authentication { authentication-method (password | public-key); name-server { address; interfaces { fxp0 { unit 0 { family inet { address address/prefix-length;...
Page 372 When the router boots from the storage media (removable media, or CompactFlash card), it expands its search in the /config directory of the ruoter for the following files in the following order: juniper.conf (the main configuration file), rescue.conf (the rescue configuration file), and juniper.conf.1 (the first rollback configuration file).
Page 373: Installing And Replacing Components
PART Installing and Replacing Components Installing Components | 359 Replacing Components | 429...
Page 375: Installing Components
Installing an MX2000 Router DC Power Distribution Module (-48 V) | 370 Installing an MX2000 Router DC Power Distribution Module (240 V China) | 372 Installing an MX2010 DC Power Supply Module (-48 V) | 375 Installing MX2000 Router DC Power Supply Modules (240 V China) | 376...
Page 376: Installing An Mx2010 Adapter Card
Installing an MX2010 Adapter Card An adapter card weighs up to 15 lb (6.80 kg). Be prepared to accept its full weight. To install an adapter card (see Figure 153 on page 361): 1. Attach an electrostatic discharge (ESD) grounding strap to your bare wrist, and connect the strap to one of the ESD points on the chassis.
Page 377: Installing The Mx2010 Air Filter
Figure 153: Installing an Adapter Card RELATED DOCUMENTATION MX2000 Adapter Card (ADC) Description | 69 Maintaining the MX2010 Adapter Cards | 606 Removing an MX2010 Adapter Card | 530 Installing the MX2010 Air Filter To install the lower air filter—MX2010-FLTR-KIT-S: 1.
Page 378 Figure 154: Installing the Air Filter To install the card-cage cable manager air filter—MX2010-MID-FLTR-PNL-S: 1. Attach an electrostatic discharge (ESD) grounding strap to your bare wrist, and connect the strap to one of the ESD points on the chassis. 2. Move the cables from the card-cage cable manager, if necessary.
Page 379 2. Ensure that the air filter is right side up. 3. Grasp the PSM air filter and insert into the chassis until it stops, (see Figure 156 on page 364). 4. Tighten the two captive screws to secure. NOTE: The AC–powered MX2010 router has the same air filter.
Page 380 Figure 156: Installing the PSM Air Filter To remove the PSM air filter—MX2000-FLTR-PWR for a chassis with the DC PDM (240 V China) installed: 1. Attach an electrostatic discharge (ESD) grounding strap to your bare wrist, and connect the strap to one of the ESD points on the chassis.
Page 381 CAUTION: Do not run the router for more than 2 minutes without the air filter in place. 4. Grasp the PSM air filter, and pull the air filter straight out from the chassis. 5. Slide the air filter out of the chassis as shown in Figure 157 on page 364.
Page 382: Installing The Mx2010 Craft Interface
Removing the MX2010 Air Filter | 449 Installing the MX2010 Craft Interface Here’s how to install the MX2010 craft interface: 1. Attach an electrostatic discharge (ESD) grounding strap to your bare wrist, and connect the strap to one of the ESD points on the chassis.
Page 383 Figure 160: Installing the Craft Interface into the Housing 5. Reattach the craft interface faceplate by positioning it in place and then tightening the two screws on the left and right sides using the Torx (T10) screwdriver. 6. Reattach the sheet metal cover and EMI door by positioning them in place and then tightening the screws using a Torx (T10) screwdriver.
Page 384: Installing The Mx2010 Standard Dc Cable Manager
7. Reattach any external devices connected to the craft interface. RELATED DOCUMENTATION MX2010 Craft Interface Description | 29 Maintaining and Verifying the Status of the MX2010 Craft Interface | 684 Installing the MX2010 Standard DC Cable Manager To install the standard DC cable manager (see...
Page 385 3. Lift the DC cable manager slightly up while inserting the two flanges into the slots on both sides of the DC PDM. 4. Push down to secure the DC cable manager in place. Figure 162: Installing the Standard DC Cable Manager RELATED DOCUMENTATION Removing the MX2010 Standard DC Cable Manager | 462...
Page 386: Installing An Mx2000 Router Dc Power Distribution Module (-48 V)
7. While holding both handles, guide the PDM until the locking levers are inserted into the chassis. With both hands push the locking levers simultaneously until the PDM is fully seated into the chassis (see Figure 163 on page 371(MX2020), Figure 164 on page 371(MX2010), or Figure 165 on page 372 (MX2008).
Page 387 Figure 163: Installing an MX2020 Router DC Power Distribution Module Figure 164: Installing an MX2010 Router DC Power Distribution Module...
Page 388: Installing An Mx2000 Router Dc Power Distribution Module (240 V China)
Figure 165: Installing an MX2008 Router Power Distribution Module 8. Tighten both captive screws on the PDM. Apply between 10 lb-in. (1.13 Nm) to 12 lb-in. (1.35 Nm) of torque to each screw. Do not overtighten the screws. 9. Remove the clear plastic cover protecting the terminal studs on the PDM faceplate. 10.
Page 389 3. Move the DC circuit breaker on the power input source to the off position. 4. [Optional]—If you are switching from an AC PDM to DC PDM, see Converting an MX2000 Router Between AC and DC Power for instructions on how to change the setting on the internal bar of the power distribution unit (PDU) cage to DC.
Page 390 is firmly seated in the power socket until you feel it engage. As you plug in each power cord, the power LED for the socket lights up green. See Figure 167 on page 374. Figure 167: Plugging the 240 V China Power Cord an MX2000 Router...
Page 391: Installing An Mx2010 Dc Power Supply Module (-48 V)
Installing an MX2010 DC Power Supply Module (-48 V) Before you install a PSM, be aware of the following: NOTE: The DC PSM is hot-swappable when a minimum number of PSMs installed and operational. WARNING: The DC PSMs have no circuit breakers that can physically disconnect DC line from the router.
Page 392: Installing Mx2000 Router Dc Power Supply Modules (240 V China)
RELATED DOCUMENTATION MX2010 DC Power Supply Module (-48 V) Description | 116 Removing an MX2010 DC Power Supply Module (-48 V) | 475 Installing MX2000 Router DC Power Supply Modules (240 V China) To install an MX2000 DC PSM (240 V China): 1.
Page 393 NOTE: The DIP switches are only used to indicate presence of a feed. If both feeds are present, power is always drawn from feed 0. Power will be drawn from feed 1 only if feed 0 fails. Figure 169: Selecting DC Power (240 V China) Subsystem Feed Redundancy 3.
Page 394 Figure 170: Installing an MX2020, MX2010, MX2008 Router DC Power Supply Module (240 V China) 4. Verify that the INP0 and/or INP1 LEDs on the PSM are lit green steadily (see Figure 171 on page 379). NOTE: If you are connecting two feeds, INP0 and INP1, both LEDs on the PSM will be lit green steadily.
Page 395 7. Verify that the PWR OK LED is lit green steadily. See MX2020 DC and Power Supply Module LEDs, “MX2010 DC Power Supply Module LEDs” on page 121, or MX2008 DC Power Supply Module LEDs for information on PSM LED behavior.
Page 396: Installing An Mx2010 Dual-Wide Mic
380): a. Place the MPC on a flat surface. If necessary, remove the MPC from the adapter card as described “Removing an MX2010 MPC from the Adapter Card” on page 528. b. Remove the four screws labeled S on the bottom of the MPC.
Page 397 CAUTION: Slide the MIC straight into the slot to avoid damaging the components on the MIC. 7. Verify that the ejector levers are engaged by pushing them inward toward the router. 8. If the MIC uses fiber-optic cable, remove the rubber safety cap from each transceiver and the end of each cable.
Page 398: Installing The Mx2010 Standard Emi Cover
651. RELATED DOCUMENTATION Maintaining MX2010 MICs | 651 Removing an MX2010 MIC | 515 Installing an MX2010 MIC | 390 Installing the MX2010 Standard EMI Cover The MPCs require an EMI cover to reduce the risk of radio frequency interference disturbance that affects an electrical circuit because of electromagnetic interference emitted from an external source.
Page 399: Installing The Mx2010 Extended Emi Cover
Figure 173: Installing the EMI Card-Cage Cover RELATED DOCUMENTATION Removing the MX2010 Standard EMI Cover | 502 Preventing Electrostatic Discharge Damage to an MX Series Router Installing the MX2010 Extended EMI Cover The extended electromagnetic interference (EMI) covers attaches to the router over the card cage.
Page 400 Figure 174: Installing the Extended EMI Cover Mounting Brackets 4. Orient the cover so that the arrows point up in front of the card cage. 5. Angle the extended EMI cover so that the points at each side fit into the grooves on the EMI cover’s mounting brackets.
Page 401: Installing An Mx2010 Fan Tray
Installing an MX2010 Fan Tray This topic describes how to install the upper or lower fan trays in a MX2010. This procedure applies to both the standard fan tray and the optimized power fan tray. To install the upper or lower fan tray (see...
Page 402 9. Reinstall the DC cable manager back into position, if necessary. Figure 176: Installing Upper Fan Trays Figure 177: Installing Lower Fan Trays RELATED DOCUMENTATION Preventing Electrostatic Discharge Damage to an MX Series Router Maintaining the MX2010 Fan Trays | 615 Removing an MX2010 Fan Tray | 509...
Page 403: Installing The Mx2010 Air Baffle
10-degree fixed upward tilt with respect to the horizontal. Figure 178: Installing the Air Baffle RELATED DOCUMENTATION Maintaining the MX2010 Air Baffle | 614 Removing the MX2010 Air Baffle | 513...
Page 404: Installing The Mx2010 Standard Cable Manager
388): NOTE: The MX2010 comes equipped with a standard lower cable manager. The extended lower cable manager can be ordered from Juniper Networks. 1. Attach an electrostatic discharge (ESD) grounding strap to your bare wrist, and connect the strap to one of the ESD points on the chassis.
Page 405: Installing The Mx2010 Extended Cable Manager
4. Replace the cable manager cover, and secure it with the two captive screws. Figure 180: Installing the Extended Lower Cable Manager Installing the MX2010 Extended DC Cable Manager To install the extended DC cable manager (see Figure 181 on page 390): 1.
Page 406: Installing An Mx2010 Mic
Figure 182 on page 391 a. Place the MPC on a flat surface (if necessary, remove the MPC from the adapter card as described “Removing an MX2010 MPC from the Adapter Card” on page 528. b. Position the septum in the center of the MPC so that it lines up with holes labeled S on the top of the MPC.
Page 407 On the bottom of the MPC, insert a screw into each of the four holes labeled S, and then tighten them completely. e. Install the MPC as described in “Installing an MX2010 MPC into an Adapter Card” on page 533. Figure 182: Installing the Septum...
Page 408 Junos OS System Basics and Services Command Reference. The normal functioning status LED confirms that the MIC is online. You can also verify correct MIC functioning by issuing the show chassis fpc pic-status command described in “Maintaining MX2010 MICs” on page 651.
Page 409 Figure 183: Installing a MIC RELATED DOCUMENTATION Maintaining MX2010 MICs | 651 Removing an MX2010 MIC | 515 Installing an MX2010 Dual-Wide MIC | 380...
Page 410: Installing An Mx2000 Sfb
Installing an MX2000 SFB To install an SFB (see Figure 184 on page 395): CAUTION: Before removing or replacing an SFB, ensure that the ejector handles are stored horizontally and pressed toward the center of the SFB. CAUTION: If one of the SFBs fails, do not remove the failed SFB until you have a replacement or blank panel to install.
Page 411 Figure 184: Installing an SFB 6. Check the LEDs on the SFB faceplate to verify that it is functioning normally. The green OK/FAIL LED should light steadily a few minutes after the SFB is installed. If the OK/FAIL LED is red, remove and install the SFB again. If the OK/FAIL LED still lights steadily, the SFB is not functioning properly.
Page 412 LTC3880-XF2-1.0v-CH0 1029 mV LTC3880-XF2-1.0v-CH1 1032 mV LTC3880-XF1-1.5v-RAIL 1499 mV LTC3880-XF1-1.5v-CH0 1499 mV LTC3880-XF1-1.5v-CH1 1500 mV LTC3880-XF1-1.0v-RAIL 1029 mV LTC3880-XF1-1.0v-CH0 1029 mV LTC3880-XF1-1.0v-CH1 1032 mV LTC3880-XF0-1.5v-RAIL 1499 mV LTC3880-XF0-1.5v-CH0 1499 mV LTC3880-XF0-1.5v-CH1 1501 mV LTC3880-XF0-1.0v-RAIL 1029 mV LTC3880-XF0-1.0v-CH0 1029 mV LTC3880-XF0-1.0v-CH1 1032 mV LTC3880-3.3v-RAIL 3299 mV...
Page 413 LTC3880-XF0-1.0v-CH0 1029 mV LTC3880-XF0-1.0v-CH1 1032 mV LTC3880-3.3v-RAIL 3300 mV LTC3880-3.3v-CH0 3300 mV LTC3880-3.3v-CH1 3300 mV SFB 2 status: State Online Intake-Zone0 Temperature 33 degrees C / 91 degrees F Exhaust-Zone1 Temperature 38 degrees C / 100 degrees F IntakeA-Zone0 Temperature 29 degrees C / 84 degrees F IntakeB-Zone1 Temperature 29 degrees C / 84 degrees F...
Page 414 SFB-XF2-Zone1 Temperature 59 degrees C / 138 degrees F SFB-XF1-Zone0 Temperature 52 degrees C / 125 degrees F SFB-XF0-Zone0 Temperature 59 degrees C / 138 degrees F Power LTC3880-XF2-1.5v-RAIL 1500 mV LTC3880-XF2-1.5v-CH0 1500 mV LTC3880-XF2-1.5v-CH1 1500 mV LTC3880-XF2-1.0v-RAIL 1029 mV LTC3880-XF2-1.0v-CH0 1029 mV LTC3880-XF2-1.0v-CH1...
Page 415 LTC3880-XF1-1.5v-CH1 1500 mV LTC3880-XF1-1.0v-RAIL 1029 mV LTC3880-XF1-1.0v-CH0 1029 mV LTC3880-XF1-1.0v-CH1 1032 mV LTC3880-XF0-1.5v-RAIL 1499 mV LTC3880-XF0-1.5v-CH0 1499 mV LTC3880-XF0-1.5v-CH1 1500 mV LTC3880-XF0-1.0v-RAIL 949 mV LTC3880-XF0-1.0v-CH0 949 mV LTC3880-XF0-1.0v-CH1 952 mV LTC3880-3.3v-RAIL 3300 mV LTC3880-3.3v-CH0 3300 mV LTC3880-3.3v-CH1 3300 mV SFB 5 status: State Online Intake-Zone0 Temperature...
Page 416 LTC3880-3.3v-CH1 3300 mV SFB 6 status: State Online Intake-Zone0 Temperature 41 degrees C / 105 degrees F Exhaust-Zone1 Temperature 37 degrees C / 98 degrees F IntakeA-Zone0 Temperature 32 degrees C / 89 degrees F IntakeB-Zone1 Temperature 29 degrees C / 84 degrees F Exhaust-Zone0 Temperature 37 degrees C / 98 degrees F SFB-XF2-Zone1 Temperature...
Page 417: Installing An Mx2010 Cb-Re
3300 mV LTC3880-3.3v-CH0 3300 mV LTC3880-3.3v-CH1 3300 mV Installing an MX2010 CB-RE To install a CB-RE (seeFigure 185 on page 403): 1. Attach an electrostatic discharge (ESD) grounding strap to your bare wrist, and connect the strap to one of the ESD points on the chassis.
Page 418 If the OK/FAIL LED is red, remove and install the CB-RE again. If the OK/FAIL LED still lights steadily, the CB-RE is not functioning properly. Contact your customer support representative. See “Contacting Customer Support” on page 731. 7. Check the status of the CB-RE by using the show chassis environment cb command: user@host>...
Page 419: Installing Mx2000 Router Ac Power Supply Modules
Bus Revision FPGA Revision Figure 185: Installing an MX2010 CB-RE Installing MX2000 Router AC Power Supply Modules Before you install a PSM, be aware of the following: NOTE: The AC PSM is hot-swappable when a minimum number of PSMs installed and operational.
Page 420 CAUTION: To maintain proper cooling and prevent thermal shutdown of the operating PSM, each PSM slot must contain either a PSM or a blank panel. If you remove a PSM, you must install a replacement PSM or a blank panel shortly after the removal. NOTE: After powering on a PSM, wait at least 60 seconds before turning it back off.
Page 421 Figure 186: Installing an MX2020 Router AC Power Supply Module Figure 187: Installing an MX2010 Router AC Power Supply Module...
Page 422: Installing Mx2000 Router Dc Power Supply Modules (-48 V)
Figure 188: Installing an MX2008 Router AC Power Supply Module Installing MX2000 Router DC Power Supply Modules (-48 V) To install an MX2000 DC PSM (-48 V): 1. Verify that the power switches on all PSMs are in the off (O) position. 2.
Page 423 Figure 190 on page 408 (MX2020) and Figure 191 on page 408) (MX2010), or Figure 188 on page 406 (MX2008). Apply between 10 lb-in. (1.13 Nm) to 12 lb-in. (1.35 Nm) of torque to each screw. Do not overtighten the screws.
Page 424 Figure 190: Installing an MX2020 Router DC Power Supply Module Installed Figure 191: Installing an MX2010 Router DC Power Supply Module...
Page 425 6. Move the switch to the on (|) position. 7. Verify that the PWR OK LED is lit green steadily. See MX2020 DC and Power Supply Module LEDs, “MX2010 DC Power Supply Module LEDs” on page 121, or MX2008 DC Power Supply Module LEDs for information on PSM LED behavior.
Page 426: Installing An Mx2000 Router Three-Phase Delta Ac Power Distribution Module
Powering Off the DC-Powered MX2000 Router | 698 Replacing an MX2020 DC Power Supply Module (-48 V) Replacing an MX2010 DC Power Supply Module (-48 V) | 475 Replacing an MX2008 DC Power Supply Module (-48 V) Installing an MX2000 Router Three-Phase Delta AC Power Distribution...
Page 427 CAUTION: To maintain proper cooling and prevent thermal shutdown of the operating power supply unit, each PDM slot must contain either a PDM or a blank panel. If you remove a PDM, you must install a replacement PDM or a blank panel shortly after the removal.
Page 428 8. Using a number 2 Phillips (+) screwdriver, loosen the four screws on the cover of the metal wiring compartment that protects the AC terminal block. Figure 194: Installing a Three-Phase Delta AC Power Distribution Module (MX2020) Figure 195: Installing a Three-Phase Delta AC Power Distribution Module (MX2010)
Page 429 Figure 196: Installing a Three-Phase Delta AC Power Distribution Module (MX2008) 9. Remove the cover of the metal AC wiring compartment. 10. Unscrew the retaining nut from the AC power cord. 11. Place the retaining nut inside the metal wiring compartment. 12.
Page 430 CAUTION: Wire label configuration is for Juniper Networks supplied cable only. If you are using your own cable, make sure you use the proper connections. To insert wires into the terminal block that serves three PSMs: a.
Page 431 (DVM). Then turn off the AC breaker to remove power from the PDM and install the metal cover. NOTE: Three-phase delta AC wire assembly kits can be purchased from Juniper Networks. Table 92: Supported Three-Phase Delta AC Wire Gauge Wire Gauge...
Page 432: Installing An Mx2000 Router Three-Phase Wye Ac Power Distribution Module
16. Screw the retaining nut onto the AC power cord to secure it to the metal wiring compartment. 17. Using a number 2 Phillips (+) screwdriver, tighten the four captive screws on the metal AC wiring compartment. 18. Verify that the AC power cord does not touch or block access to router components, and that it does not drape where people could trip on it.
Page 433 CAUTION: To maintain proper cooling and prevent thermal shutdown of the operating power supply unit, each PDM slot must contain either a PDM or a blank panel. If you remove a PDM, you must install a replacement PDM or a blank panel shortly after the removal.
Page 434 Figure 198: Installing a Three-Phase Wye AC PDM (MX2020) Figure 199: Installing a Three-Phase Wye AC PDM (MX2010)
Page 435 Figure 200: Installing an Three-Phase Wye AC PDM (MX2008) 6. Push the lock levers completely in until they make contact with the PDM faceplate. 7. Tighten the two captive screws on the locking levers of the PDM faceplate to secure the PDM in the chassis.
Page 436 To insert wires into the terminal block that serves six PSMs: a. Insert the grounding wire into the grounding point labeled GND. b. Insert the wire labeled L1 into the input terminal labeled A1. c. Insert the wire labeled L2 into the input terminal labeled B1. d.
Page 437 Use a 5/32-in. (4 mm) Allen wrench for the 5/16-in. hex screws. NOTE: Three-phase wye AC wire assembly kits can be purchased from Juniper Networks. Table 93: Supported Three-Phase Wye AC Wire Gauge Wire Gauge...
Page 438: Installing An Mx2000 Single-Phase Ac Power Distribution Module
NOTE: We recommend that you use the proper gauge wire in order for the cable clamps to hold the AC cables. Using smaller gauge wiring will result in the cable clamps not tightening properly. WARNING: Power connections must be performed by a licensed electrician only.
Page 439 WARNING: Before performing AC power procedures, disconnect all power sources. To ensure that all power is off, locate the circuit breaker on the panel board that services the AC circuit, switch the circuit breaker to the off position, and tape the switch handle of the circuit breaker in the off position.
Page 440 6. Pull the two ejector levers away from the PDM until they stop. 7. Using both hands, hold the PDM with the power plugs facing outward and slide it into the chassis until you feel resistance. 8. Push in the two ejector levers on the PDM until they lock in place. Refer to Figure 202 on page 424 Figure 202: Inserting the PDM into the Chassis 9.
Page 441 12. Attach the power cord retainer to the PDM to ensure that the AC power cords do not touch or block access to router components, and that they do not drape where people could trip on them. Figure 204 on page 425 shows the seven-feed and nine-feed power cord retainer.
Page 442 Figure 205: Attaching the Power Cord Retainer Secure the power cord retainer to the PDM by threading the two screws at each end of the power cord retainer into the screw holes on the PDM and turning them clockwise to tighten. Verify that the PDM looks like the illustration shown in Figure 206 on page 426 Figure 206: Proper Installation of the MX2000 Single-Phase AC Power Distribution Module in Chassis...
Page 443: Installing An Sfp Or Xfp Into An Mx2000 Mpc Or Mic
13. Flip the power switch on all the PSMs to the on (|) position to provide power to the router components. 14. Verify that the LEDs on the PDM faceplate are lit steadily green, indicating that the AC terminal block is receiving power.
Page 444 For more information about the component LEDs, see the MX Series Interface Module Reference. RELATED DOCUMENTATION Removing an SFP or XFP from an MX2010 MPC or MIC | 554 Removing an SFP or XFP Transceiver from an MX2020 MPC or MIC Prevention of Electrostatic Discharge Damage | 794...
Page 445: Replacing Components
Replacing an MX2000 SFB | 536 Replacing an MX2000 CB-RE | 547 Replacing an SFP or XFP Transceiver on an MX2010 MPC or MIC | 554 Replacing an MX2000 AC Power Supply Module | 557 Replacing an MX2010 Three-Phase Delta AC Power Cord | 563...
Page 446: Tools And Parts Required For Replacing Mx2010 Hardware Components
Replacing an MX2010 Three-Phase Wye AC Power Cord | 583 Replacing an MX2020 Three-Phase Wye AC Power Distribution Module | 590 Tools and Parts Required for Replacing MX2010 Hardware Components To replace hardware components, you need the tools and parts listed in Table 94 on page 430.
Page 447 Table 94: Tools and Parts Required for Component Replacement (continued) Components Tool or Part DC power distribution module Phillips (+) screwdrivers, numbers 1 and 2 7/16-in. (11 mm) hexagonal-head external drive socket wrench, or nut driver, with a torque range between 23 lb-in.
Page 448: Tools And Parts Required To Remove Components From An Mx2010 Router
Replacing an MX2010 Fan Tray | 508 Replacing the MX2010 Air Filters | 449 Tools and Parts Required to Remove Components from an MX2010 Router To remove components from the router or the router from a rack, you need the following tools and parts: 2.5-mm flat-blade (–) screwdriver, for detaching alarm relay terminal block...
Page 449: Removing A Cb-Re From An Mx2000 Router
Phillips (+) screwdrivers, numbers 1 and 2 Rubber safety cap for fiber-optic interfaces or cable Wire cutters RELATED DOCUMENTATION Packing the MX2010 Router for Shipment | 694 Contacting Customer Support | 731 Removing a CB-RE from an MX2000 Router To remove a CB-RE: NOTE: You can remove the CB-RE as a unit.
Page 450 6. Place one hand underneath the CB-RE to support it, and slide it completely out of the chassis. 7. Place the CB-RE on the antistatic mat or into an antistatic bag. 8. If you are not replacing the CB-RE immediately, install a blank panel over the empty slot. Figure 207: Removing a CB-RE (MX2010)
Page 451: Upgrading To The Control Board-Routing Engine Remx2K-X8-64G In A Redundant Host Subsystem
RELATED DOCUMENTATION Prevention of Electrostatic Discharge Damage | 794 Taking an MX2000 Host Subsystem Offline | 685 Installing an MX2010 CB-RE | 401 Upgrading to the Control Board-Routing Engine REMX2K-X8-64G in a Redundant Host Subsystem A redundant host subsystem consists of a master Routing Engine-Control Board (CB-RE) (RE0) and a backup CB-RE (RE1).
Page 452: Taking The Host Subsystem Offline
NOTE: Save the router configuration before upgrading the CB-RE. Taking the Host Subsystem Offline | 436 Removing the Backup CB-RE | 437 Installing the REMX2K-X8-64G CB-RE | 438 Verifying and Configuring the Upgraded CB-RE as the Master | 439 Verifying and Configuring the Upgraded CB-RE as the Backup | 439 Taking the Host Subsystem Offline To take the host subsystem offline perform the following steps: 1.
Page 453: Removing The Backup Cb-Re
Removing the Backup CB-RE To remove a CB-RE (see Figure 209 on page 438): NOTE: Remove the CB-RE as a unit. CAUTION: Before removing a CB-RE, ensure that you know how to operate the ejector handles properly to avoid damage to the equipment. CAUTION: Before you replace a CB-RE, you must take the host subsystem offline.
Page 454: Installing The Remx2K-X8-64G Cb-Re
Figure 209: Removing a CB-RE Installing the REMX2K-X8-64G CB-RE To install a CB-RE: 1. Attach an ESD grounding strap to your bare wrist, and connect the strap to one of the ESD points on the chassis. 2. Remove the CB-RE from the electrostatic bag. 3.
Page 455: Verifying And Configuring The Upgraded Cb-Re As The Master
The CB-RE might require several minutes to boot. After the CB-RE boots, verify that it is installed correctly by checking the FAIL, RE0, and RE1 LEDs on the craft interface. If the router is operational and the CB-RE is functioning properly, the green ONLINE LED on the CB-RE lights steadily. If the red FAIL LED on the CB-RE lights steadily instead, remove and install the CB-RE again.
Page 456: Upgrading To The Remx2K-X8-64G Cb-Re In A Nonredundant Host Subsystem
Upgrading to the REMX2K-X8-64G CB-RE in a Nonredundant Host Subsystem In a nonredundant host subsystem, only one Routing Engine-Control Board (CB-RE) is present in the chassis. When you upgrade the CB-RE, taking the host subsystem offline shuts down the router. To upgrade the host subsystem with the REMX2K-X8-64G CB-RE, you must uninstall the existing CB-RE and install the REMX2K-X8-64G CB-RE.
Page 457: Removing The Cb-Re
Removing the CB-RE To remove a CB-RE (see Figure 210 on page 442): NOTE: Remove the CB-RE as a unit. CAUTION: Before removing a CB-RE, ensure that you know how to operate the ejector handles properly to avoid damage to the equipment. CAUTION: Before you replace a CB-RE, you must take the host subsystem offline.
Page 458: Installing The Remx2K-X8-64G Cb-Re
Figure 210: Removing a CB-RE Installing the REMX2K-X8-64G CB-RE To install the new REMX2K-X8-64G CB-RE (see Figure 211 on page 443): 1. Attach an electrostatic discharge (ESD) grounding strap to your bare wrist, and connect the strap to one of the ESD points on the chassis. 2.
Page 459: Verifying And Configuring The Upgraded Cb-Re
If the OK/FAIL LED is yellow, remove and install the CB-RE again. If the OK/FAIL LED still lights steadily, the CB-RE is not functioning properly. Contact your customer support representative. See “Contacting Customer Support” on page 731. 7. Check the status of the CB-RE by using the show chassis environment cb command. Figure 211: Installing a CB-RE The CB-RE might require several minutes to boot.
Page 460: Replacing A Cable On An Mx2010 Mpc Or Mic
REMX2K-X8-64G and REMX2K-X8-64G-LT CB-RE Description | 56 Replacing a Cable on an MX2010 MPC or MIC Removing a Cable on an MX2010 MPC or MIC | 444 Installing a Cable on an MX2010 MPC or MIC | 445 Removing a Cable on an MX2010 MPC or MIC Removing and installing cables on an MPC or a MIC does not affect router function, except that the component does not receive or transmit data while its cable is disconnected.
Page 461: Installing A Cable On An Mx2010 Mpc Or Mic
4. Remove the cable from the cable manager, and detach it from the destination port. SEE ALSO Installing a Cable on an MX2010 MPC or MIC | 445 Preventing Electrostatic Discharge Damage to an MX Series Router Installing a Cable on an MX2010 MPC or MIC...
Page 462 WARNING: Do not look directly into a fiber-optic transceiver or into the ends of fiber-optic cables. Fiber-optic transceivers and fiber-optic cable connected to a transceiver emit laser light that can damage your eyes. CAUTION: Do not leave a fiber-optic transceiver uncovered except when inserting or removing cable.
Page 463 Figure 213: Installing an MPC Cable 4. Arrange the cable in the cable manager to prevent it from dislodging or developing stress points. Secure the cable so that it is not supporting its own weight as it hangs to the floor. Place excess cable out of the way in a neatly coiled loop.
Page 464 Replacing an MX2010 MIC | 515 Replacing an MX2010 MPC and Adapter Card | 525 Replacing an SFP or XFP Transceiver on an MX2010 MPC or MIC | 554 Maintaining Cables That Connect to MX2010 MPCs or MICs | 607...
Page 465: Replacing The Mx2010 Air Filters
Replacing the MX2010 Air Filters Removing the MX2010 Air Filter | 449 Installing the MX2010 Air Filter | 454 Removing the MX2010 Air Filter CAUTION: Do not run the router for more than a few minutes without the air filter in place.
Page 466 NOTE: The air filter has a built-in handle. 4. Slide the air filter out of the chassis as shown in Figure 214 on page 450. Figure 214: Removing the Lower Air Filter from the Chassis To remove the card-cage cable manager air filter—MX2000-CBL-MID: 1.
Page 467 3. Grasp the PSM air filter, and pull the air filter straight out from the chassis. 4. Slide the air filter out of the chassis as shown in Figure 216 on page 452. NOTE: The AC–powered MX2010 router has the same air filter.
Page 468 Figure 216: Removing the PSM Air Filter from the Chassis To remove the PSM air filter—MX2000-FLTR-PWR for a chassis with the DC PDM (240 V China) installed: 1. Attach an electrostatic discharge (ESD) grounding strap to your bare wrist, and connect the strap to one of the ESD points on the chassis.
Page 469 CAUTION: Do not run the router for more than 2 minutes without the air filter in place. 4. Grasp the PSM air filter, and pull the air filter straight out from the chassis. 5. Slide the air filter out of the chassis as shown in Figure 218 on page 453.
Page 470: Installing The Mx2010 Air Filter
Figure 219: Installing the Mechanical Interlock Bracket CAUTION: REINSTALL INTERLOCK BRACKET AFTER PSM AIR FILTER SERVICE SEE ALSO Maintaining the MX2010 Air Filters | 609 Installing the MX2010 Air Filter | 361 Installing the MX2010 Air Filter To install the lower air filter—MX2010-FLTR-KIT-S: 1.
Page 471 Figure 220: Installing the Air Filter To install the card-cage cable manager air filter—MX2010-MID-FLTR-PNL-S: 1. Attach an electrostatic discharge (ESD) grounding strap to your bare wrist, and connect the strap to one of the ESD points on the chassis. 2. Move the cables from the card-cage cable manager, if necessary.
Page 472 2. Ensure that the air filter is right side up. 3. Grasp the PSM air filter and insert into the chassis until it stops, (see Figure 156 on page 364). 4. Tighten the two captive screws to secure. NOTE: The AC–powered MX2010 router has the same air filter.
Page 473 Figure 222: Installing the PSM Air Filter To remove the PSM air filter—MX2000-FLTR-PWR for a chassis with the DC PDM (240 V China) installed: 1. Attach an electrostatic discharge (ESD) grounding strap to your bare wrist, and connect the strap to one of the ESD points on the chassis.
Page 474 CAUTION: Do not run the router for more than 2 minutes without the air filter in place. 4. Grasp the PSM air filter, and pull the air filter straight out from the chassis. 5. Slide the air filter out of the chassis as shown in Figure 157 on page 364.
Page 475: Replacing The Mx2010 Standard Cable Managers
Removing the MX2010 Air Filter | 449 Maintaining the MX2010 Air Filters | 609 Replacing the MX2010 Standard Cable Managers The MX2010 router has the following types of cable manager systems used for routing and securing cables away from system components: Card cage...
Page 476: Removing The Mx2010 Standard Cable Manager
Standard and Extended NOTE: The MX2010 comes equipped with a standard lower cable manager. The extended lower cable manager can be ordered from Juniper Networks. Standard DC and Extended DC Removing the MX2010 Standard Cable Manager | 460...
Page 477: Installing The Mx2010 Standard Cable Manager
388): NOTE: The MX2010 comes equipped with a standard lower cable manager. The extended lower cable manager can be ordered from Juniper Networks. 1. Attach an electrostatic discharge (ESD) grounding strap to your bare wrist, and connect the strap to one of the ESD points on the chassis.
Page 478: Removing The Mx2010 Standard Dc Cable Manager
Figure 227: Installing the Standard Cable Manager SEE ALSO Removing the MX2010 Standard Cable Manager | 460 Removing the MX2010 Standard DC Cable Manager To remove the standard DC cable manager (see Figure 228 on page 463): 1. Attach an electrostatic discharge (ESD) grounding strap to your bare wrist, and connect the strap to an approved site ESD grounding point.
Page 479: Installing The Mx2010 Standard Dc Cable Manager
Figure 228: Removing the DC Cable Manager SEE ALSO Installing the MX2010 Standard DC Cable Manager | 368 Installing the MX2010 Standard DC Cable Manager To install the standard DC cable manager (see Figure 162 on page 369): 1. Attach an electrostatic discharge (ESD) grounding strap to your bare wrist, and connect the strap to one of the ESD points on the chassis.
Page 480: Replacing The Mx2010 Extended Cable Manager
Figure 229: Installing the Standard DC Cable Manager SEE ALSO Removing the MX2010 Standard DC Cable Manager | 462 RELATED DOCUMENTATION Preventing Electrostatic Discharge Damage to an MX Series Router MX2010 Cable Manager Description | 37 Replacing the MX2010 Extended Cable Manager...
Page 481: Removing The Mx2010 Extended Cable Manager
Figure 230 on page 465. 4. Pull the extended cable manager away from the chassis. Figure 230: Removing the Extended Cable Manager Removing the MX2010 Extended DC Cable Manager To remove the extended DC cable manager (see Figure 231 on page 466): 1.
Page 482: Installing The Mx2010 Extended Cable Manager
4. Place the extended DC cable manager into an electrostatic bag and set it aside. Figure 231: Removing the Extended DC Cable Manager Installing the MX2010 Extended Cable Manager To install the extended cable manager (see Figure 180 on page 389): 1.
Page 483: Installing The Mx2010 Extended Dc Cable Manager
Figure 232: Installing the Extended Lower Cable Manager Installing the MX2010 Extended DC Cable Manager To install the extended DC cable manager (see Figure 181 on page 390): 1. Attach an electrostatic discharge (ESD) grounding strap to your bare wrist, and connect the strap to one of the ESD points on the chassis.
Page 484: Replacing The Mx2010 Craft Interface
Connecting the Alarm Relay Wires to the MX2010 Craft Interface | 474 Disconnecting the Alarm Relay Wires from the MX2010 Craft Interface Here’s how to disconnect the alarm relay wires from the MX2010 and an alarm-reporting device (see Figure 149 on page 347): 1.
Page 485: Removing The Mx2010 Craft Interface
Removing the MX2010 Craft Interface Here’s how to remove the MX2010 craft interface: 1. Attach an electrostatic discharge (ESD) grounding strap to your bare wrist, and connect the strap to one of the ESD points on the chassis.
Page 486 Figure 235: Removing the EMI Door 4. Remove the four screws holding the sheet metal cover in place and remove the sheet metal cover. Refer to Figure 236 on page 470. Figure 236: Removing the Sheet Metal Cover 5. Loosen the two captive screws at the left and right sides of the craft interface faceplate by using the Torx (T10) screwdriver.
Page 487 6. Grasp the craft interface faceplate and carefully tilt it toward you until it is horizontal. 7. Disconnect the ribbon cable from the back of the faceplate by gently pressing on both sides of the latch with your thumb and forefinger. 8.
Page 488: Installing The Mx2010 Craft Interface
Figure 238: Removing the Craft Interface SEE ALSO MX2010 Craft Interface Description | 29 Maintaining and Verifying the Status of the MX2010 Craft Interface | 684 Installing the MX2010 Craft Interface Here’s how to install the MX2010 craft interface: 1. Attach an electrostatic discharge (ESD) grounding strap to your bare wrist, and connect the strap to one of the ESD points on the chassis.
Page 489 Figure 239: Installing the Craft Interface into the Housing 5. Reattach the craft interface faceplate by positioning it in place and then tightening the two screws on the left and right sides using the Torx (T10) screwdriver. 6. Reattach the sheet metal cover and EMI door by positioning them in place and then tightening the screws using a Torx (T10) screwdriver.
Page 490: Connecting The Alarm Relay Wires To The Mx2010 Craft Interface
SEE ALSO MX2010 Craft Interface Description | 29 Maintaining and Verifying the Status of the MX2010 Craft Interface | 684 Connecting the Alarm Relay Wires to the MX2010 Craft Interface Here’s how to connect the alarm relay wires between a router and an alarm-reporting device (see...
Page 491: Replacing An Mx2010 Dc Power Supply Module (-48 V)
MX2010 Craft Interface Serial Number Label | 741 Replacing an MX2010 DC Power Supply Module (-48 V) Removing an MX2010 DC Power Supply Module (-48 V) | 475 Installing an MX2010 DC Power Supply Module (-48 V) | 478 Removing an MX2010 DC Power Supply Module (-48 V)
Page 492 CAUTION: To maintain proper cooling and prevent thermal shutdown of the operating PSM, each PSM slot must contain either a PSM or a blank panel. If you remove a PSM, you must install a replacement PSM or a blank panel shortly after the removal. NOTE: After powering off a PSM, wait at least 60 seconds before turning it back on.
Page 493 Figure 242: Removing a DC Power Supply Module from the MX2010 Router SEE ALSO MX2010 DC Power Supply Module (-48 V) Description | 116 Installing an MX2010 DC Power Supply Module (-48 V) | 375...
Page 494: Installing An Mx2010 Dc Power Supply Module (-48 V)
Installing an MX2010 DC Power Supply Module (-48 V) Before you install a PSM, be aware of the following: NOTE: The DC PSM is hot-swappable when a minimum number of PSMs installed and operational. WARNING: The DC PSMs have no circuit breakers that can physically disconnect DC line from the router.
Page 495 Figure 243: Installing a DC Power Supply Module SEE ALSO MX2010 DC Power Supply Module (-48 V) Description | 116 Removing an MX2010 DC Power Supply Module (-48 V) | 475 RELATED DOCUMENTATION Preventing Electrostatic Discharge Damage to an MX Series Router...
Page 496: Replacing An Mx2000 Dc Power Supply Module (240 V China)
Replacing an MX2000 DC Power Supply Module (240 V China) Removing an MX2000 Router DC Power Supply Module (240 V China) | 480 Installing an MX2000 Router DC Power Supply Module (240 V China) | 482 Removing an MX2000 Router DC Power Supply Module (240 V China) Before you remove a PSM, be aware of the following: CAUTION: To maintain proper cooling and prevent thermal shutdown of the operating...
Page 497 Each PSM slot not occupied by a DC PSM must be covered by a PSM blank panel. Figure 244: Removing an MX2000 Router DC Power Supply Module (240 V China) SEE ALSO MX2020DC Power Supply Module (-48 V) Description MX2010 DC Power Supply Module (-48 V) Description | 116...
Page 498: Installing An Mx2000 Router Dc Power Supply Module (240 V China)
Installing an MX2020 DC Power Supply Module (-48 V) Installing an MX2010 DC Power Supply Module (-48 V) | 375 Installing an MX2000 Router DC Power Supply Module (240 V China) Before you install a DC PSM (240 V China), be aware of the following: NOTE: The DC PSM is hot-swappable when a minimum number of PSMs installed and operational.
Page 499 4. Tighten the captive screws on the PSM faceplate. Apply between 10 lb-in. (1.13 Nm) to 12 lb-in. (1.35 Nm) of torque to each screw. Do not overtighten the screws. 5. Turn on the power switch to the on (|) position. 6.
Page 500: Replacing An Mx2000 Dc Power Distribution Module (-48 V)
Powering Off the DC-Powered MX2000 Router | 698 Troubleshooting the MX2000 Router Power System | 320 Maintaining the Power Supply Modules on the MX2000 Line of Routers | 666 MX2020 DC Power Distribution (240 V China) Description MX2020 DC Power Electrical Safety Guidelines MX2000 Router DC Power Subsystem Electrical Specifications Replacing an MX2000 DC Power Distribution Module (-48 V) Removing an MX2000 Router DC Power Distribution Module (-48 V) | 484...
Page 501 PDM2/Input0 locking levers to release the PDM from the chassis. NOTE: For the MX2010 and MX2008 Routers, pull down the PDM1/Input1 locking levers to release the PDM from the chassis, and pull up the PDM0/Input0 locking levers to release the PDM from the chassis.
Page 502 Figure 246: Removing a DC PDM from an MX2020 Router Figure 247: Removing a DC PDM from an MX2010 Router...
Page 503 Figure 248: Removing a DC PDM from an MX2008 Router 12. With both hands, grasp the two handles and gently pull the PDM straight out of the chassis. CAUTION: Do not touch the power connectors on the back of the PDM. It can get damaged.
Page 504: Installing An Mx2000 Router Dc Power Distribution Module (-48 V)
7. While holding both handles, guide the PDM until the locking levers are inserted into the chassis. With both hands push the locking levers simultaneously until the PDM is fully seated into the chassis (see Figure 163 on page 371(MX2020), Figure 164 on page 371(MX2010), or Figure 165 on page 372 (MX2008).
Page 505 Figure 249: Installing an MX2020 Router DC Power Distribution Module Figure 250: Installing an MX2010 Router DC Power Distribution Module...
Page 506: Replacing An Mx2000 Dc Power Distribution Module (240 V China)
Figure 251: Installing an MX2008 Router Power Distribution Module 8. Tighten both captive screws on the PDM. Apply between 10 lb-in. (1.13 Nm) to 12 lb-in. (1.35 Nm) of torque to each screw. Do not overtighten the screws. 9. Remove the clear plastic cover protecting the terminal studs on the PDM faceplate. 10.
Page 507: Removing An Mx2000 Router Dc Power Distribution Module (240 V China)
Removing an MX2000 Router DC Power Distribution Module (240 V China) Before you remove a PDM, be aware of the following: NOTE: The minimum number of PDMs must be present in the router at all times. WARNING: Before performing DC power procedures, disconnect all power sources. To ensure that all power is off, locate the circuit breaker on the panel board that services the DC circuit, switch the circuit breaker to the OFF position, and tape the switch handle of the circuit breaker in the OFF position.
Page 508 PDM2/Input0 locking levers to release the PDM from the chassis. NOTE: For the MX2010 and MX2008 Routers, pull down the PDM1/Input1 locking levers to release the PDM from the chassis, and pull up the PDM0/Input0 locking levers to release the PDM from the chassis.
Page 509 Figure 253: Removing a DC PDM (240 V China) from an MX2000 Router 8. The PDM is extended slightly away from the chassis. See Figure 253 on page 493. 9. With both hands, grasp the two handles and gently pull the PDM straight out of the chassis. CAUTION: Do not touch the power connectors on the back of the PDM.
Page 510: Installing An Mx2000 Router Dc Power Distribution Module (240 V China)
Installing an MX2000 Router DC Power Distribution Module (240 V China) WARNING: Before performing DC power procedures, disconnect all power sources. To ensure that all power is off, locate the circuit breaker on the panel board that services the DC circuit, switch the circuit breaker to the off position, and tape the switch handle of the circuit breaker in the off position.
Page 511 Figure 254: Installing an MX2020 Router DC Power Distribution Module (240 V China) 8. Tighten both captive screws on the PDM. Apply between 10 lb-in. (1.13 Nm) to 12 lb-in. (1.35 Nm) of torque to each screw. Do not overtighten the screws. 9.
Page 512: Replacing An Mx2010 Dc Power Distribution Module Cable
Troubleshooting the MX2000 Router Power System | 320 Preventing Electrostatic Discharge Damage to an MX Series Router Replacing an MX2010 DC Power Distribution Module Cable Disconnecting an MX2010 DC Power Distribution Module Cable | 497 Connecting an MX2010 DC Power Distribution Module Cable | 498...
Page 513: Disconnecting An Mx2010 Dc Power Distribution Module Cable
Disconnecting an MX2010 DC Power Distribution Module Cable WARNING: Before performing DC power procedures, disconnect all power sources. To ensure that all power is off, locate the circuit breaker on the panel board that services the DC circuit, switch the circuit breaker to the OFF position, and tape the switch handle of the circuit breaker in the OFF position.
Page 514: Connecting An Mx2010 Dc Power Distribution Module Cable
Connecting an MX2010 DC Power Distribution Module Cable WARNING: Before performing DC power procedures, disconnect all power sources. To ensure that all power is off, locate the circuit breaker on the panel board that services the DC circuit, switch the circuit breaker to the OFF position, and tape the switch handle of the circuit breaker in the OFF position.
Page 515 Figure 256: Connecting Power Cables to the DC Power Distribution Module Cable Flat Terminal washer studs Split washer Grounding points (on chassis) 5. Route the positive and negative DC power cables through the plastic cable restraint cover. Make sure that the cable does not touch or obstruct any router components. 6.
Page 516: Connecting An Mx2000 Dc Router Power Distribution Module (240 V China) Cable
–48V LEDs light green steadily. RELATED DOCUMENTATION Preventing Electrostatic Discharge Damage to an MX Series Router MX2010 DC Power Distribution Module (-48 V) Description | 111 DC Power Cable Specifications for the MX2010 Router | 209 MX2010 DC Power Electrical Safety Guidelines...
Page 517 Figure 257: Connecting Power 4. Connect the power cords for the remaining PDMs. 5. Connect the power cable (CBL-PWR-240V-CH) to the DC power source. See Figure 136 on page 314. Figure 259: 240 V China Power Cable Negative Positive — —...
Page 518: Replacing The Mx2010 Standard Emi Cover
9. On each of the DC PSMs, move the switch to the on (|) position. Replacing the MX2010 Standard EMI Cover Removing the MX2010 Standard EMI Cover | 502 Installing the MX2010 Standard EMI Cover | 503 Removing the MX2010 Standard EMI Cover...
Page 519: Installing The Mx2010 Standard Emi Cover
Figure 260: Removing the EMI Card-Cage Cover SEE ALSO Installing the MX2010 Standard EMI Cover | 382 Preventing Electrostatic Discharge Damage to an MX Series Router Installing the MX2010 Standard EMI Cover The MPCs require an EMI cover to reduce the risk of radio frequency interference disturbance that affects an electrical circuit because of electromagnetic interference emitted from an external source.
Page 520 3. Tighten the four captive screws to secure the EMI cover in place. Figure 261: Installing the EMI Card-Cage Cover SEE ALSO Removing the MX2010 Standard EMI Cover | 502 Preventing Electrostatic Discharge Damage to an MX Series Router RELATED DOCUMENTATION...
Page 521: Replacing The Mx2010 Extended Emi Cover
Replacing the MX2010 Extended EMI Cover IN THIS SECTION Removing the MX2010 Extended EMI Cover | 505 Installing the MX2010 Extended EMI Cover | 506 Removing the MX2010 Extended EMI Cover The extended electromagnetic interference (EMI) cover attaches to the router over the card cage and tilts out from the top.
Page 522: Installing The Mx2010 Extended Emi Cover
Figure 262: Removing the Extended EMI Cover Mounting Brackets Figure 263: Removing the Extended EMI Card-Cage Cover Installing the MX2010 Extended EMI Cover The extended electromagnetic interference (EMI) covers attaches to the router over the card cage. 1. Attach an electrostatic discharge (ESD) grounding strap to your bare wrist, and connect the strap to one of the ESD points on the chassis.
Page 523 3. Using a number 2 Phillips (+) screwdriver, secure the extended EMI cover mounting brackets to the sides of the card cage by using the four screws provided (two on each side) (see Figure 174 on page 384). Figure 264: Installing the Extended EMI Cover Mounting Brackets 4.
Page 524: Replacing An Mx2010 Fan Tray
Figure 265: Installing the Extended EMI Card-Cage Cover SEE ALSO Replacing the MX2010 Extended Cable Manager | 464 Replacing the MX2010 Standard EMI Cover | 502 Preventing Electrostatic Discharge Damage to an MX Series Router RELATED DOCUMENTATION Replacing the MX2010 Standard EMI Cover | 502...
Page 525: Removing An Mx2010 Fan Tray
Removing an MX2010 Fan Tray CAUTION: To prevent overheating, install the replacement fan tray immediately after removing the existing fan tray. To remove the upper or lower fan trays (see Figure 266 on page 510 Figure 267 on page 510): 1.
Page 526 Before removing a fan tray, make sure the fan blades have stopped completely. Figure 267: Removing Lower Fan Trays SEE ALSO Preventing Electrostatic Discharge Damage to an MX Series Router Installing an MX2010 Fan Tray | 385 Maintaining the MX2010 Fan Trays | 615...
Page 527: Installing An Mx2010 Fan Tray
Installing an MX2010 Fan Tray This topic describes how to install the upper or lower fan trays in a MX2010. This procedure applies to both the standard fan tray and the optimized power fan tray. To install the upper or lower fan tray (see...
Page 528 Figure 269: Installing Lower Fan Trays SEE ALSO Preventing Electrostatic Discharge Damage to an MX Series Router Maintaining the MX2010 Fan Trays | 615 Removing an MX2010 Fan Tray | 509 RELATED DOCUMENTATION Preventing Electrostatic Discharge Damage to an MX Series Router...
Page 529: Replacing The Mx2010 Air Baffle
Replacing the MX2010 Air Baffle Removing the MX2010 Air Baffle | 513 Installing the MX2010 Air Baffle | 514 Removing the MX2010 Air Baffle To remove the upper air baffle—MX2000-UPR-BAFFLE-A: 1. Attach an electrostatic discharge (ESD) grounding strap to your bare wrist, and connect the strap to one of the ESD points on the chassis.
Page 530: Removing The Mx2010 Air Baffle | 513
10-degree fixed upward tilt with respect to the horizontal. Figure 271: Installing the Air Baffle SEE ALSO Maintaining the MX2010 Air Baffle | 614 Removing the MX2010 Air Baffle | 513...
Page 531: Replacing An Mx2010 Mic
RELATED DOCUMENTATION Preventing Electrostatic Discharge Damage to an MX Series Router MX2010 Cooling System Description | 45 Maintaining the MX2010 Air Baffle | 614 Replacing an MX2010 MIC Removing an MX2010 MIC | 515 Installing an MX2010 MIC | 517...
Page 532 5. Disconnect the cables from the MIC. If the MIC uses fiber-optic cable, immediately cover each transceiver and the end of each cable with a rubber safety cap. WARNING: Do not look directly into a fiber-optic transceiver or into the ends of fiber-optic cables.
Page 533: Installing An Mx2010 Mic
Figure 182 on page 391 a. Place the MPC on a flat surface (if necessary, remove the MPC from the adapter card as described “Removing an MX2010 MPC from the Adapter Card” on page 528. b. Position the septum in the center of the MPC so that it lines up with holes labeled S on the top of the MPC.
Page 534 On the bottom of the MPC, insert a screw into each of the four holes labeled S, and then tighten them completely. e. Install the MPC as described in “Installing an MX2010 MPC into an Adapter Card” on page 533. Figure 273: Installing the Septum...
Page 535 Junos OS System Basics and Services Command Reference. The normal functioning status LED confirms that the MIC is online. You can also verify correct MIC functioning by issuing the show chassis fpc pic-status command described in “Maintaining MX2010 MICs” on page 651.
Page 536: Installing An Mx2010 Dual-Wide Mic
380): a. Place the MPC on a flat surface. If necessary, remove the MPC from the adapter card as described “Removing an MX2010 MPC from the Adapter Card” on page 528. b. Remove the four screws labeled S on the bottom of the MPC.
Page 537 Store the septum and screws for later use. f. Install the MPC as described in “Installing an MX2010 MPC into an Adapter Card” on page 533. Figure 275: Removing the Septum Remove four screws Remove two on bottom. screws on top.
Page 538 The normal functioning status LED confirms that the MIC is online. You can also verify correct MIC functioning by issuing the show chassis fpc pic-status command described in “Maintaining MX2010 MICs” on page 651. SEE ALSO Maintaining MX2010 MICs | 651 Removing an MX2010 MIC | 515 Installing an MX2010 MIC | 390...
Page 539: Replacing A Mic Installed On An Mpc6E
Removing a MIC from an MPC6E | 523 Installing a MIC on an MPC6E | 524 The MPC6E line cards are supported on the MX2008, MX2010 and MX2020 routers. You can install the MPC6E directly into the MX2008, MX2010 and MX2020 line-card slots without using adapter cards.
Page 540: Installing A Mic On An Mpc6E
NOTE: The arrow on top and bottom of the MPC6E indicates that the ejector lever of the MPC6E can be moved perpendicular to its actuation direction. Moving the ejector lever of the MPC6E blocks access to the adjacent MPC. Remember to move the lever back to its original position after removing the MIC.
Page 541: Replacing An Mx2010 Mpc And Adapter Card
Replacing an MX2010 MPC and Adapter Card Removing an MX2010 MPC with Adapter Card | 525 Removing an MX2010 MPC from the Adapter Card | 528 Removing an MX2010 Adapter Card | 530 Installing an MX2010 Adapter Card | 531...
Page 542 To remove an MPC with an adapter card: 1. Have ready a replacement MPC or blank panel and an antistatic mat. Also have ready rubber safety caps for each MPC you are removing that uses an optical interface. 2. Attach an electrostatic discharge (ESD) grounding strap to your bare wrist, and connect the strap to one of the ESD points on the chassis.
Page 543 CAUTION: Avoid bending fiber-optic cable beyond its minimum bend radius. An arc smaller than a few inches in diameter can damage the cable and cause problems that are difficult to diagnose. 6. Immediately cover each optical transceiver and the end of each fiber-optic cable with a rubber safety cap.
Page 544: Removing An Mx2010 Mpc From The Adapter Card
SEE ALSO Installing an MX2010 MPC into an Adapter Card | 533 Removing an MX2010 MPC from the Adapter Card An MPC without the adapter card weighs up to 18.35 lb (8.32 kg). Be prepared to accept its full weight.
Page 545 CAUTION: Do not leave a fiber-optic transceiver uncovered except when inserting or removing cable. The safety cap keeps the port clean and prevents accidental exposure to laser light. CAUTION: Avoid bending fiber-optic cable beyond its minimum bend radius. An arc smaller than a few inches in diameter can damage the cable and cause problems that are difficult to diagnose.
Page 546: Removing An Mx2010 Adapter Card
Figure 276: Removing an MPC from the Adapter Card SEE ALSO Maintaining MX2010 MPCs | 653 Installing an MX2010 MPC into an Adapter Card | 533 Removing an MX2010 Adapter Card An adapter card weighs up to 15 lb (6.80 kg). Be prepared to accept its full weight.
Page 547: Installing An Mx2010 Adapter Card
8. If you are not replacing the adapter card immediately, install a blank panel over the empty slot. Figure 277: Removing an Adapter Card Installing an MX2010 Adapter Card An adapter card weighs up to 15 lb (6.80 kg). Be prepared to accept its full weight.
Page 548 To install an adapter card (see Figure 153 on page 361): 1. Attach an electrostatic discharge (ESD) grounding strap to your bare wrist, and connect the strap to one of the ESD points on the chassis. 2. Remove the adapter card from its electrostatic bag. 3.
Page 549: Installing An Mx2010 Mpc Into An Adapter Card
Maintaining the MX2010 Adapter Cards | 606 Removing an MX2010 Adapter Card | 530 Installing an MX2010 MPC into an Adapter Card An MPC weighs up to 25 lb (11.34 kg). Be prepared to accept its full weight. To install an MPC (see...
Page 550 6. Lift the MPC into place, and carefully align the sides of the MPC with the guides inside the adapter card. 7. Slide the MPC all the way into the adapter card until you feel resistance. 8. Grasp both knobs, and rotate them clockwise simultaneously until the MPC is fully seated into the adapter card.
Page 551 For more information about the command, see the Junos OS System Basics and Services Command Reference. NOTE: When you issue the request chassis fpc slot slot-number online command, the FRU gets power, and the system’s total power decreases. CAUTION: After the OK LED turns green, wait at least 30 seconds before removing the MPC again, removing an MPC from a different slot, or inserting a MPC in a different slot.
Page 552: Replacing An Mx2000 Sfb
Figure 280: Attaching a Cable to an MPC SEE ALSO Maintaining MX2010 MPCs | 653 Removing an MX2010 MPC from the Adapter Card | 528 Removing an MX2010 MPC with Adapter Card | 525 RELATED DOCUMENTATION Preventing Electrostatic Discharge Damage to an MX Series Router...
Page 553: Removing An Mx2000 Sfb
Removing an MX2000 SFB To remove an SFB (see Figure 281 on page 538 Figure 282 on page 538): NOTE: You can remove the SFB as a unit. CAUTION: Before removing an SFB, ensure that you know how to operate the ejector handles properly to avoid damage to the equipment.
Page 554 Figure 281: Removing an SFB (MX2010) Figure 282: Removing an SFB (MX2020) OK/FAIL...
Page 555: Installing An Mx2000 Sfb
SEE ALSO Maintaining the MX2010 SFB | 680 Installing an MX2000 SFB | 394 Installing an MX2000 SFB To install an SFB (see Figure 184 on page 395): CAUTION: Before removing or replacing an SFB, ensure that the ejector handles are stored horizontally and pressed toward the center of the SFB.
Page 556 Figure 283: Installing an SFB 6. Check the LEDs on the SFB faceplate to verify that it is functioning normally. The green OK/FAIL LED should light steadily a few minutes after the SFB is installed. If the OK/FAIL LED is red, remove and install the SFB again. If the OK/FAIL LED still lights steadily, the SFB is not functioning properly.
Page 557 LTC3880-XF2-1.0v-CH0 1029 mV LTC3880-XF2-1.0v-CH1 1032 mV LTC3880-XF1-1.5v-RAIL 1499 mV LTC3880-XF1-1.5v-CH0 1499 mV LTC3880-XF1-1.5v-CH1 1500 mV LTC3880-XF1-1.0v-RAIL 1029 mV LTC3880-XF1-1.0v-CH0 1029 mV LTC3880-XF1-1.0v-CH1 1032 mV LTC3880-XF0-1.5v-RAIL 1499 mV LTC3880-XF0-1.5v-CH0 1499 mV LTC3880-XF0-1.5v-CH1 1501 mV LTC3880-XF0-1.0v-RAIL 1029 mV LTC3880-XF0-1.0v-CH0 1029 mV LTC3880-XF0-1.0v-CH1 1032 mV LTC3880-3.3v-RAIL 3299 mV...
Page 558 LTC3880-XF0-1.0v-CH0 1029 mV LTC3880-XF0-1.0v-CH1 1032 mV LTC3880-3.3v-RAIL 3300 mV LTC3880-3.3v-CH0 3300 mV LTC3880-3.3v-CH1 3300 mV SFB 2 status: State Online Intake-Zone0 Temperature 33 degrees C / 91 degrees F Exhaust-Zone1 Temperature 38 degrees C / 100 degrees F IntakeA-Zone0 Temperature 29 degrees C / 84 degrees F IntakeB-Zone1 Temperature 29 degrees C / 84 degrees F...
Page 559 SFB-XF2-Zone1 Temperature 59 degrees C / 138 degrees F SFB-XF1-Zone0 Temperature 52 degrees C / 125 degrees F SFB-XF0-Zone0 Temperature 59 degrees C / 138 degrees F Power LTC3880-XF2-1.5v-RAIL 1500 mV LTC3880-XF2-1.5v-CH0 1500 mV LTC3880-XF2-1.5v-CH1 1500 mV LTC3880-XF2-1.0v-RAIL 1029 mV LTC3880-XF2-1.0v-CH0 1029 mV LTC3880-XF2-1.0v-CH1...
Page 560 LTC3880-XF1-1.5v-CH1 1500 mV LTC3880-XF1-1.0v-RAIL 1029 mV LTC3880-XF1-1.0v-CH0 1029 mV LTC3880-XF1-1.0v-CH1 1032 mV LTC3880-XF0-1.5v-RAIL 1499 mV LTC3880-XF0-1.5v-CH0 1499 mV LTC3880-XF0-1.5v-CH1 1500 mV LTC3880-XF0-1.0v-RAIL 949 mV LTC3880-XF0-1.0v-CH0 949 mV LTC3880-XF0-1.0v-CH1 952 mV LTC3880-3.3v-RAIL 3300 mV LTC3880-3.3v-CH0 3300 mV LTC3880-3.3v-CH1 3300 mV SFB 5 status: State Online Intake-Zone0 Temperature...
Page 561 LTC3880-3.3v-CH1 3300 mV SFB 6 status: State Online Intake-Zone0 Temperature 41 degrees C / 105 degrees F Exhaust-Zone1 Temperature 37 degrees C / 98 degrees F IntakeA-Zone0 Temperature 32 degrees C / 89 degrees F IntakeB-Zone1 Temperature 29 degrees C / 84 degrees F Exhaust-Zone0 Temperature 37 degrees C / 98 degrees F SFB-XF2-Zone1 Temperature...
Page 562 LTC3880-XF2-1.5v-RAIL 1500 mV LTC3880-XF2-1.5v-CH0 1500 mV LTC3880-XF2-1.5v-CH1 1501 mV LTC3880-XF2-1.0v-RAIL 1029 mV LTC3880-XF2-1.0v-CH0 1029 mV LTC3880-XF2-1.0v-CH1 1032 mV LTC3880-XF1-1.5v-RAIL 1499 mV LTC3880-XF1-1.5v-CH0 1499 mV LTC3880-XF1-1.5v-CH1 1500 mV LTC3880-XF1-1.0v-RAIL 1029 mV LTC3880-XF1-1.0v-CH0 1029 mV LTC3880-XF1-1.0v-CH1 1032 mV LTC3880-XF0-1.5v-RAIL 1499 mV LTC3880-XF0-1.5v-CH0 1499 mV LTC3880-XF0-1.5v-CH1 1501 mV...
Page 563: Replacing An Mx2000 Cb-Re
Replacing an MX2000 CB-RE IN THIS SECTION Removing a CB-RE from an MX2000 Router | 547 Installing an MX2020 CB-RE | 549 Installing an MX2010 CB-RE | 552 Removing a CB-RE from an MX2000 Router To remove a CB-RE: NOTE: You can remove the CB-RE as a unit.
Page 564 6. Place one hand underneath the CB-RE to support it, and slide it completely out of the chassis. 7. Place the CB-RE on the antistatic mat or into an antistatic bag. 8. If you are not replacing the CB-RE immediately, install a blank panel over the empty slot. Figure 284: Removing a CB-RE (MX2010)
Page 565: Installing An Mx2020 Cb-Re
Figure 285: Removing a CB-RE (MX2020) Installing an MX2020 CB-RE To install a CB-RE (see Figure 211 on page 443): 1. Attach an electrostatic discharge (ESD) grounding strap to your bare wrist, and connect the strap to one of the ESD points on the chassis. 2.
Page 566 7. Slide the CB-RE all the way into the card cage until you feel resistance. 8. Grasp both ejector handles, and gently close them inward simultaneously until the CB-RE is fully seated. Figure 286: Installing an MX2020 CB-RE 9. Check the LEDs on the CB-RE faceplate to verify that it is functioning normally. The green OK/FAIL LED should light steadily a few minutes after the CB-RE is installed.
Page 567 ExhaustA-Zone0 Temperature 26 degrees C / 78 degrees F ExhaustB-Zone1 Temperature 28 degrees C / 82 degrees F TCBC-Zone0 Temperature 32 degrees C / 89 degrees F Power 1 1.0 V 1008 mV 1.2 V 1208 mV 1.8 V 1801 mV 2.5 V 2526 mV 3.3 V...
Page 568: Installing An Mx2010 Cb-Re
Installing an MX2010 CB-RE To install a CB-RE (seeFigure 185 on page 403): 1. Attach an electrostatic discharge (ESD) grounding strap to your bare wrist, and connect the strap to one of the ESD points on the chassis. 2. Remove the CB-RE from the electrostatic bag.
Page 569 1.8 V 1814 mV 2.5 V 2545 mV 3.3 V 3345 mV 5.0 V 5066 mV 5.0 V RE 5020 mV 12.0 V 12104 mV 12.0 V RE 12046 mV Bus Revision FPGA Revision Figure 287: Installing an MX2010 CB-RE...
Page 570: Replacing An Sfp Or Xfp Transceiver On An Mx2010 Mpc Or Mic
Small form-factor pluggables transceivers such as SFPs and XFPs are optical transceivers that are installed in an MPC or a MIC. SFPs and XFPs are hot-insertable and hot-removable. Removing an SFP or XFP from an MX2010 MPC or MIC | 554 Installing an SFP or XFP into an MX2000 MPC or MIC | 556...
Page 571 5. Carefully arrange the disconnected cable in the cable manager to prevent the cable from developing stress points. CAUTION: Avoid bending fiber-optic cable beyond its minimum bend radius. An arc smaller than a few inches in diameter can damage the cable and cause problems that are difficult to diagnose.
Page 572: Installing An Sfp Or Xfp Into An Mx2000 Mpc Or Mic
CAUTION: After removing a transceiver from the chassis, wait at least 30 seconds before reinserting it or inserting a transceiver into a different slot. SEE ALSO Installing an SFP or XFP into an MX2000 MPC or MIC | 427 Preventing Electrostatic Discharge Damage to an MX Series Router Installing an SFP or XFP into an MX2000 MPC or MIC To install an SFP or XFP: 1.
Page 573: Replacing An Mx2000 Ac Power Supply Module
MX Series Interface Module Reference. SEE ALSO Removing an SFP or XFP from an MX2010 MPC or MIC | 554 Removing an SFP or XFP Transceiver from an MX2020 MPC or MIC Prevention of Electrostatic Discharge Damage | 794 RELATED DOCUMENTATION...
Page 574 NOTE: After powering off a PSM, wait at least 60 seconds before turning it back on. To remove an AC PSM (see Figure 289 on page 559 Figure 290 on page 559, and Figure 291 on page 560): NOTE: The minimum number of AC PSMs changes based on the configuration. 1.
Page 575 Figure 289: Removing an MX2020 Router AC Power Supply Module Figure 290: Removing an MX2010 Router AC Power Supply Module...
Page 576: Installing Mx2000 Router Ac Power Supply Modules
Figure 291: Removing an MX2008 AC Power Supply Module Installing MX2000 Router AC Power Supply Modules Before you install a PSM, be aware of the following: NOTE: The AC PSM is hot-swappable when a minimum number of PSMs installed and operational. WARNING: The AC PSMs have no circuit breakers that can physically disconnect AC current from the router.
Page 577 NOTE: After powering on a PSM, wait at least 60 seconds before turning it back off. To install an AC PSM (see Figure 186 on page 405,Figure 187 on page 405, or Figure 188 on page 406: 1. With one PSM installed and operational, install an additional PSM with the power supply switch in the off (O), or in the on (|) position.
Page 578 Figure 292: Installing an MX2020 Router AC Power Supply Module Figure 293: Installing an MX2010 Router AC Power Supply Module...
Page 579: Replacing An Mx2010 Three-Phase Delta Ac Power Cord
Replacing an MX2010 Three-Phase Delta AC Power Cord The MX2010 router has either one redundant PDM or two redundant PDMs. An AC power cord on a redundant PDM is hot-insertable and hot-removable. When a redundant PDM is powered down, the other PDM automatically assumes the entire electrical load for the router.
Page 580: Removing An Mx2000 Three-Phase Delta Ac Power Cord
Removing an MX2000 Three-Phase Delta AC Power Cord To remove a three-phase delta AC power cord: 1. Switch off the customer-site circuit breakers to the PDM being removed. Make sure that the voltage across the AC power source cord is 0 V and that there is no chance that the cord might become active during the installation process.
Page 581 8. Remove the cover of the metal wiring compartment. 9. Disconnect the wires from the AC terminal block on the three-phase delta AC PDM (see Figure 296 on page 565). Loosen each of the input terminals or grounding point screws, and remove each wire from the grounding point or input terminal.
Page 582: Installing An Mx2010 Three-Phase Delta Ac Power Cord
13. Carefully move the AC power cable out of the way. 14. Disconnect the AC power cord from the AC PDM. SEE ALSO Installing an MX2010 Three-Phase Delta AC Power Cord | 566 Installing an MX2010 Three-Phase Delta AC Power Cord To install a three-phase delta AC power cord: 1.
Page 583 NOTE: After powering off a PSM, wait at least 60 seconds before turning it back on. 4. Using a number 2 Phillips (+) screwdriver, loosen the four screws on the cover of the metal wiring compartment that protects the AC terminal block. 5.
Page 584 The three-phase delta AC PDM terminal blocks will be flipped depending on which slot the PDM gets plugged into. NOTE: The color of each AC power wire might vary. The MX2010 chassis is not sensitive to phase rotation sequence—either CW or CCW will operate correctly. CAUTION: Wire label configuration is for Juniper Networks supplied cable only.
Page 585 (DVM). Then turn off the AC breaker, de-energizing the PDM, and install the metal cover and engage all AC PSMs. NOTE: Three-phase delta AC wire assembly kits can be purchased from Juniper Networks. Table 97: Supported Three-Phase Delta AC Wire Gauge Wire Gauge...
Page 586 12. Screw the retaining nut onto the AC power cord to secure it to the metal wiring compartment. 13. Using a number 2 Phillips (+) screwdriver, tighten the four captive screws on the metal AC wiring compartment. 14. Verify that the AC power cord does not touch or block access to router components, and that it does not drape where people could trip on it.
Page 587: Replacing An Mx2000 Three-Phase Delta Ac Power Distribution Module
Installing an MX2000 Router Three-Phase Delta AC Power Distribution Module | 576 Removing an MX2000 Three-Phase Delta AC Power Distribution Module NOTE: The MX2008, MX2010, and MX2020 routers support the same power modules (AC/DC PSMs and AC/DC PDMs). Before you remove a three-phase delta AC PDM, be aware of the following: WARNING: Before performing AC power procedures, disconnect all power sources.
Page 588 NOTE: After powering off a PDM, wait at least 60 seconds before turning the circuit breaker to the ON position. To remove a three-phase delta AC PDM: 1. Make sure that the voltage across the AC power source cord is 0 V and that there is no chance that the cord might become active during the removal process.
Page 589 To remove wires from the terminal block that serves six PSMs: a. Remove the wire labeled L3 from the input terminal labeled C1. b. Remove the wire labeled L2 from the input terminal labeled B1. c. Remove the wire labeled L1 from the input terminal labeled A1. d.
Page 590 15. Grasp the levers on the PDM faceplate and pull firmly. Slide it halfway out of the chassis (see Figure 300 on page 575, Figure 301 on page 575 (MX2010), and Figure 302 on page 576 (MX2008). CAUTION: Each three-phase delta AC PDM weighs approximately 12 lb (5.44 kg).
Page 591 Figure 300: Removing a Three-Phase Delta AC Power Distribution Module (MX2020 Router) Figure 301: Removing a Three-Phase Delta AC Power Distribution Module (MX2010 Router)
Page 592: Installing An Mx2000 Router Three-Phase Delta Ac Power Distribution Module
Figure 302: Removing a Three-Phase Delta AC Power Distribution Module (MX2008 Router) NOTE: Each PDM slot not occupied by a AC PDM must be covered by a PDM blank panel. SEE ALSO MX2000 Three-Phase Delta AC Power Distribution Module Description | 100 MX2000 Three-Phase Delta AC Power Distribution Module Electrical Specifications | 178 Installing an MX2000 Router Three-Phase Delta AC Power Distribution Module Before you install a three-phase delta AC power distribution module (PDM), be aware of the following:...
Page 593 CAUTION: To maintain proper cooling and prevent thermal shutdown of the operating power supply unit, each PDM slot must contain either a PDM or a blank panel. If you remove a PDM, you must install a replacement PDM or a blank panel shortly after the removal.
Page 594 8. Using a number 2 Phillips (+) screwdriver, loosen the four screws on the cover of the metal wiring compartment that protects the AC terminal block. Figure 303: Installing a Three-Phase Delta AC Power Distribution Module (MX2020) Figure 304: Installing a Three-Phase Delta AC Power Distribution Module (MX2010)
Page 595 Figure 305: Installing a Three-Phase Delta AC Power Distribution Module (MX2008) 9. Remove the cover of the metal AC wiring compartment. 10. Unscrew the retaining nut from the AC power cord. 11. Place the retaining nut inside the metal wiring compartment. 12.
Page 596 CAUTION: Wire label configuration is for Juniper Networks supplied cable only. If you are using your own cable, make sure you use the proper connections. To insert wires into the terminal block that serves three PSMs: a.
Page 597 (DVM). Then turn off the AC breaker to remove power from the PDM and install the metal cover. NOTE: Three-phase delta AC wire assembly kits can be purchased from Juniper Networks. Table 98: Supported Three-Phase Delta AC Wire Gauge Wire Gauge...
Page 598 16. Screw the retaining nut onto the AC power cord to secure it to the metal wiring compartment. 17. Using a number 2 Phillips (+) screwdriver, tighten the four captive screws on the metal AC wiring compartment. 18. Verify that the AC power cord does not touch or block access to router components, and that it does not drape where people could trip on it.
Page 599: Replacing An Mx2010 Three-Phase Wye Ac Power Cord
Replacing an MX2010 Three-Phase Wye AC Power Cord The MX2010 router has either one redundant PDM or two redundant PDMs. An AC power supply cord on a redundant PDM is hot-insertable and hot-removable. When a redundant PDM is powered down, the other PDM automatically assumes the entire electrical load for the router.
Page 600 Figure 307: Three-Phase Wye AC Power Supply Cord 6. Remove the ESD grounding strap from the approved site ESD grounding point. See the instructions for your site. Reconnect the strap to one of the ESD points on the chassis. 7. Using a number 2 Phillips (+) screwdriver, loosen the four screws on the cover of the metal wiring compartment that protects the AC terminal block.
Page 601 Figure 308: Disconnecting the Power Cord from a Three-Phase Wye AC Power Distribution Module To remove wires from the terminal block that serves three PSMs: a. Remove the wire labeled N from the input terminal labeled N2. b. Remove the wire labeled L3 from the input terminal labeled C2. c.
Page 602: Installing An Mx2010 Three-Phase Wye Ac Power Cord
14. Disconnect the AC power cord from the AC PDM. SEE ALSO Installing an MX2010 Three-Phase Wye AC Power Cord | 586 Preventing Electrostatic Discharge Damage to an MX Series Router MX2000 Three-Phase Wye AC Power Distribution Module Description | 102...
Page 603 10. Connect the wires to the AC terminal block on the three-phase delta AC PDM (see Figure 309 on page 587). Loosen each of the input terminal or grounding point screws, insert the wire into the grounding point or input terminal, and tighten the screw (see Table 99 on page 588 for approved AC wire gauge).
Page 604 NOTE: The color of each AC power wire might vary. The MX2010 chassis is not sensitive to phase rotation sequence—either CW or CCW will operate correctly. CAUTION: Wire label configuration is for Juniper Networks supplied cable only. If using your own cable, make sure you use the proper connections.
Page 605 Table 99: Supported Three-Phase Wye AC Wire Gauge (continued) 5 x 10-AWG or equivalent 5 conductor wires, each wire is 10-AWG NOTE: We recommend that you use the proper gauge wire in order for the cable clamps to hold the AC cables. Using smaller gauge wiring will result in the cable clamps not tightening properly.
Page 606: Replacing An Mx2020 Three-Phase Wye Ac Power Distribution Module
MX2000 Three-Phase Wye AC Power Distribution Module Description | 102 MX2000 Three-Phase Delta and Wye AC Power Distribution Module LEDs | 107 Replacing an MX2010 Three-Phase Wye AC Power Distribution Module Troubleshooting the MX2000 Router Power System | 320 MX2000 AC Power Cord Specifications | 170...
Page 607 WARNING: Before performing AC power procedures, disconnect all power sources. To ensure that all power is off, locate the circuit breaker on the panel board that services the AC circuit, move the circuit breaker to the OFF position, and tape the switch handle of the circuit breaker in the OFF position.
Page 608 Figure 310: Three-Phase Wye AC Power Cord 5. Remove the ESD grounding strap from the approved site ESD grounding point. See the instructions for your site. Reconnect the strap to one of the ESD points on the chassis. 6. Using a number 2 Phillips (+) screwdriver, loosen the four screws on the cover of the metal wiring compartment that protects the AC terminal block.
Page 609 Figure 311: Disconnecting the Power Cord from a Three-Phase Wye AC Power Distribution Module To remove wires from the terminal block that serves three PSMs: a. Remove the wire labeled N from the input terminal labeled N2. b. Remove the wire labeled L3 from the input terminal labeled C2. c.
Page 610 9. Loosen the plastic cable tie fastening the AC power cord to the PDM. 10. Loosen and remove the retaining nut from the AC power cord. 11. Pull the AC power cord out of the metal wiring compartment. 12. Carefully move the AC power cable out of the way. 13.
Page 611 Figure 313: Removing an MX2010 Three-Phase Wye AC Power Distribution Module Figure 314: Removing an MX2008 Three-Phase Wye AC Power Distribution Module...
Page 612: Installing An Mx2000 Router Three-Phase Wye Ac Power Distribution Module
NOTE: Each PDM slot not occupied by a AC PDM must be covered by a PDM blank panel. Installing an MX2000 Router Three-Phase Wye AC Power Distribution Module Each three-phase wye AC PDM weighs approximately 12 lb (5.44 kg). To install a three-phase wye AC PDM: WARNING: Before performing AC power procedures, ensure that power is removed...
Page 613 4. Pull the locking levers on either side of the faceplate away until they stop. 5. Using both hands, slide the PDM into the chassis until you feel resistance (see Figure 198 on page 418, Figure 199 on page 418, or Figure 200 on page 419.
Page 614 Figure 316: Installing a Three-Phase Wye AC PDM (MX2010) Figure 317: Installing an Three-Phase Wye AC PDM (MX2008) 6. Push the lock levers completely in until they make contact with the PDM faceplate.
Page 615 7. Tighten the two captive screws on the locking levers of the PDM faceplate to secure the PDM in the chassis. 8. Using a number 2 Phillips (+) screwdriver, loosen the four screws on the cover of the metal wiring compartment that protects the AC terminal block.
Page 616 CW or CCW will operate correctly. CAUTION: Wire label configuration is for Juniper Networks supplied cable only. If using your own cable, make sure you use the proper connections. To insert wires into the terminal block that serves three PSMs: a.
Page 617 Use a 5/32-in. (4 mm) Allen wrench for the 5/16-in. hex screws. NOTE: Three-phase wye AC wire assembly kits can be purchased from Juniper Networks. Table 100: Supported Three-Phase Wye AC Wire Gauge Wire Gauge...
Page 618 16. Screw the retaining nut onto the AC power cord to secure it to the metal wiring compartment. 17. Reinstall the metal PDM wiring cover, and using a number 2 Phillips (+) screwdriver, tighten the four captive screws on the metal AC wiring compartment. 18.
Page 619: Maintaining The Chassis And Components
PART Maintaining the Chassis and Components Maintaining Components | 605 Packing and Returning Components | 693 Powering Off the Router | 697...
Page 621: Maintaining Components
Maintaining the MX2010 Adapter Cards | 606 Maintaining Cables That Connect to MX2010 MPCs or MICs | 607 Maintaining and Verifying the Status of the MX2010 Router Components | 609 Maintaining the MX2010 Air Filters | 609 Maintaining the MX2010 Air Vents | 610...
Page 622: Maintaining The Mx2010 Adapter Cards
Reference. RELATED DOCUMENTATION MX2010 Chassis Description | 7 Installing an MX2010 MPC into an Adapter Card | 533 Connecting MPC or MIC Cables to the MX2010 Router | 348 Installing a Cable on an MX2010 MPC or MIC | 445...
Page 623: Maintaining Cables That Connect To Mx2010 Mpcs Or Mics
Figure 319: Lower Cable Manager Cable Routing NOTE: The MX2010 supports a standard and extended upper and lower cable manager. Place excess cable out of the way in the lower cable manager. Do not allow fastened loops of cable to dangle from the connector or cable manager because this stresses the cable at the fastening point.
Page 624 Use only an approved alcohol-free fiber-optic cable cleaning kit, such as the Opptex Cletop-S Fiber Cleaner. Follow the directions for the cleaning kit you use. RELATED DOCUMENTATION Tools and Parts Required to Maintain the MX2010 Hardware Components | 218 MX2010 Router Hardware Components and CLI Terminology | 25 Maintaining MX2010 MPCs | 653...
Page 625: Maintaining And Verifying The Status Of The Mx2010 Router Components
Maintaining the MX2010 Switch Processor Mezzanine Board (SPMB) on page 681 Maintaining and Verifying the MX2010 Router Version on page 682 Maintaining and Verifying the Status of the MX2010 Craft Interface on page 684 Maintaining the MX2010 Air Filters Purpose For optimum cooling, verify the condition of the air filters.
Page 626: Maintaining The Mx2010 Air Vents
On a regular basis, check the vents and clean them as necessary. RELATED DOCUMENTATION Clearance Requirements for Airflow and Hardware Maintenance for the MX2010 Router | 147 MX2010 Cooling System Description | 45 Maintaining the MX2010 Chassis FRU Power-On Sequence Purpose For optimum router performance, verify the condition of the FRU power-on sequence.
Page 627: Maintaining The Mx2010 Control Boards
On a regular basis: Check the status of the MX2010 chassis FRU power on-sequence by issuing the show chassis power sequence command. The following output displays the chassis FRU power-on sequence: user@host> show chassis power sequence Chassis FRU Power On Sequence: 0 1 2 3 4 5 6 7 8 9...
Page 628 During normal operations: The green OK LED on the CB-RE faceplate is lit. The red FAIL LED on the CB-RE faceplate is not lit. Issue the show chassis environment cb command to check the status of the CB-REs. The output is similar to the following: user@host>...
Page 629: Maintaining The Mx2010 Cooling System Components
For optimum cooling, verify the condition of the air vents. Dust can clog air vents, reducing cooling system efficiency. Action On a regular basis, check the vents and clean them as necessary. SEE ALSO Clearance Requirements for Airflow and Hardware Maintenance for the MX2010 Router | 147 MX2010 Cooling System Description | 45...
Page 630: Maintaining The Mx2010 Air Filters
(32° C). Note that if the material flakes, or becomes brittle when rubbed or deformed, it is no longer usable. SEE ALSO Tools and Parts Required to Maintain the MX2010 Hardware Components | 218 MX2010 Router Hardware Components and CLI Terminology | 25 MX2010 Cooling System Description | 45...
Page 631: Maintaining The Mx2010 Fan Trays
Action On a regular basis, check the air baffle and adjust accordingly to redirect exhaust air. SEE ALSO Tools and Parts Required for Replacing MX2010 Hardware Components | 430 MX2010 Cooling System Description | 45 Maintaining the MX2010 Fan Trays Purpose For optimum cooling, verify the condition of the fans.
Page 632 PSM 5 28 degrees C / 82 degrees F PSM 6 27 degrees C / 80 degrees F PSM 7 30 degrees C / 86 degrees F PSM 8 33 degrees C / 91 degrees F PDM 0 PDM 1 CB 0 IntakeA-Zone0 30 degrees C / 86 degrees F CB 0 IntakeB-Zone1...
Page 633 SFB 2 Exhaust-Zone0 32 degrees C / 89 degrees F SFB 2 SFB-XF2-Zone1 44 degrees C / 111 degrees F SFB 2 SFB-XF1-Zone0 41 degrees C / 105 degrees F SFB 2 SFB-XF0-Zone0 43 degrees C / 109 degrees F SFB 3 Intake-Zone0 34 degrees C / 93 degrees F SFB 3 Exhaust-Zone1...
Page 634 FPC 0 Intake 30 degrees C / 86 degrees F FPC 0 Exhaust A 37 degrees C / 98 degrees F FPC 0 Exhaust B 35 degrees C / 95 degrees F FPC 0 QX 0 TSen 41 degrees C / 105 degrees F FPC 0 QX 0 Chip 43 degrees C / 109 degrees F FPC 0 LU 0 TCAM TSen...
Page 635 FPC 9 Exhaust A 40 degrees C / 104 degrees F FPC 9 Exhaust B 52 degrees C / 125 degrees F FPC 9 LU 0 TSen 49 degrees C / 120 degrees F FPC 9 LU 0 Chip 51 degrees C / 123 degrees F FPC 9 LU 1 TSen 49 degrees C / 120 degrees F FPC 9 LU 1 Chip...
Page 636 For monitoring the temperature of specific items in the MX2010 router, the output for the show chassis environment monitored command is similar to the following: user@host> show chassis environment monitored Class Item Status Measurement Temp CB 0 IntakeA-Zone0 30 degrees C / 86 degrees F...
Page 637 SFB 2 SFB-XF0-Zone0 42 degrees C / 107 degrees F SFB 3 Intake-Zone0 33 degrees C / 91 degrees F SFB 3 Exhaust-Zone1 34 degrees C / 93 degrees F SFB 3 IntakeA-Zone0 28 degrees C / 82 degrees F SFB 3 IntakeB-Zone1 27 degrees C / 80 degrees F SFB 3 Exhaust-Zone0...
Page 638 FPC 0 QX 0 TSen 41 degrees C / 105 degrees F FPC 0 QX 0 Chip 43 degrees C / 109 degrees F FPC 0 LU 0 TCAM TSen 41 degrees C / 105 degrees F FPC 0 LU 0 TCAM Chip 42 degrees C / 107 degrees F FPC 0 LU 0 TSen 41 degrees C / 105 degrees F...
Page 639 FPC 9 LU 0 Chip 50 degrees C / 122 degrees F FPC 9 LU 1 TSen 49 degrees C / 120 degrees F FPC 9 LU 1 Chip 54 degrees C / 129 degrees F FPC 9 LU 2 TSen 49 degrees C / 120 degrees F FPC 9 LU 2 Chip 42 degrees C / 107 degrees F...
Page 640 CB 1 IntakeB-Zone1 CB 1 IntakeC-Zone0 CB 1 ExhaustA-Zone0 CB 1 ExhaustB-Zone1 CB 1 TCBC-Zone0 SPMB 0 Intake SFB 0 Intake-Zone0 SFB 0 Exhaust-Zone1 SFB 0 IntakeA-Zone0 SFB 0 IntakeB-Zone1 SFB 0 Exhaust-Zone0 SFB 0 SFB-XF2-Zone1 SFB 0 SFB-XF1-Zone0 SFB 0 SFB-XF0-Zone0 SFB 1 Intake-Zone0 SFB 1 Exhaust-Zone1 SFB 1 IntakeA-Zone0...
Page 641 SFB 2 IntakeB-Zone1 SFB 2 Exhaust-Zone0 SFB 2 SFB-XF2-Zone1 SFB 2 SFB-XF1-Zone0 SFB 2 SFB-XF0-Zone0 SFB 3 Intake-Zone0 SFB 3 Exhaust-Zone1 SFB 3 IntakeA-Zone0 SFB 3 IntakeB-Zone1 SFB 3 Exhaust-Zone0 SFB 3 SFB-XF2-Zone1 SFB 3 SFB-XF1-Zone0 SFB 3 SFB-XF0-Zone0 SFB 4 Intake-Zone0 SFB 4 Exhaust-Zone1 SFB 4 IntakeA-Zone0 SFB 4 IntakeB-Zone1...
Page 642 SFB 5 SFB-XF1-Zone0 SFB 5 SFB-XF0-Zone0 SFB 6 Intake-Zone0 SFB 6 Exhaust-Zone1 SFB 6 IntakeA-Zone0 SFB 6 IntakeB-Zone1 SFB 6 Exhaust-Zone0 SFB 6 SFB-XF2-Zone1 SFB 6 SFB-XF1-Zone0 SFB 6 SFB-XF0-Zone0 SFB 7 Intake-Zone0 SFB 7 Exhaust-Zone1 SFB 7 IntakeA-Zone0 SFB 7 IntakeB-Zone1 SFB 7 Exhaust-Zone0 SFB 7 SFB-XF2-Zone1 SFB 7 SFB-XF1-Zone0...
Page 643 Fan 1, Fan 2, Fan 3, Fan 4, Fan 5, and Fan 6 refer to the fans on the fan tray. There are six fans for each fan tray. SEE ALSO Installing an MX2010 Fan Tray | 385 Removing an MX2010 Fan Tray | 509 Maintaining the MX2010 Cooling System Zones...
Page 644 (0 and 1). Zone 1 consists of the CB-REs and SFBs located in the upper portion of the chassis. Zone 1 is cooled by fan trays 2 and 3. Two fan trays are at the bottom of the chassis, and two fan trays are at the top of the chassis.
Page 645: Maintaining The Mx2010 Cooling System Zones
Troubleshooting the MX2010 Cooling System | 706 RELATED DOCUMENTATION MX2010 Cooling System Description | 45 Troubleshooting the MX2010 Cooling System | 706 MX2010 Component LEDs on the Craft Interface | 31 Replacing an MX2010 Fan Tray | 508 Maintaining the MX2010 Cooling System Zones Purpose For optimum router performance, verify the status of the two cooling zones (zone 0 and zone 1) of the chassis.
Page 646: Maintaining The Mx2010 Ethernet Switch
Num Fans Missing Num Fans Failed RELATED DOCUMENTATION MX2010 Cooling System Description | 45 Troubleshooting the MX2010 Cooling System | 706 Maintaining the MX2010 Ethernet Switch Purpose For optimum router performance, verify the status of the Gigabit Ethernet ports connected to MPCs.
Page 647 Displaying summary for switch 0 Link is good on GE port 0 connected to device: FPC0 Speed is 1000Mb Duplex is full Autonegotiate is Enabled Flow Control TX is Disabled Flow Control RX is Disabled Link is good on GE port 1 connected to device: FPC1 Speed is 1000Mb Duplex is full Autonegotiate is Enabled...
Page 648 Speed is 1000Mb Duplex is full Autonegotiate is Enabled Flow Control TX is Disabled Flow Control RX is Disabled Link is good on GE port 7 connected to device: FPC7 Speed is 1000Mb Duplex is full Autonegotiate is Enabled Flow Control TX is Disabled Flow Control RX is Disabled Link is good on GE port 8 connected to device: FPC8 Speed is 1000Mb...
Page 649: Maintaining The Mx2010 Fan Trays
Junos OS System Basics and Services Command Reference. RELATED DOCUMENTATION MX2000 Host Subsystem CB-RE Description | 51 Troubleshooting the MX2010 Host Subsystems | 709 Maintaining the MX2010 Fan Trays Purpose For optimum cooling, verify the condition of the fans. Action Monitor the status of the fans.
Page 650 Class Item Status Measurement Temp PSM 0 31 degrees C / 87 degrees F PSM 1 28 degrees C / 82 degrees F PSM 2 28 degrees C / 82 degrees F PSM 3 26 degrees C / 78 degrees F PSM 4 28 degrees C / 82 degrees F PSM 5...
Page 651 SFB 1 SFB-XF1-Zone0 52 degrees C / 125 degrees F SFB 1 SFB-XF0-Zone0 63 degrees C / 145 degrees F SFB 2 Intake-Zone0 34 degrees C / 93 degrees F SFB 2 Exhaust-Zone1 34 degrees C / 93 degrees F SFB 2 IntakeA-Zone0 29 degrees C / 84 degrees F SFB 2 IntakeB-Zone1...
Page 652 SFB 7 IntakeA-Zone0 28 degrees C / 82 degrees F SFB 7 IntakeB-Zone1 28 degrees C / 82 degrees F SFB 7 Exhaust-Zone0 32 degrees C / 89 degrees F SFB 7 SFB-XF2-Zone1 46 degrees C / 114 degrees F SFB 7 SFB-XF1-Zone0 42 degrees C / 107 degrees F SFB 7 SFB-XF0-Zone0...
Page 653 FPC 2 XM 0 Chip 59 degrees C / 138 degrees F FPC 2 XF 0 TSen 47 degrees C / 116 degrees F FPC 2 XF 0 Chip 71 degrees C / 159 degrees F FPC 2 PLX Switch TSen 47 degrees C / 116 degrees F FPC 2 PLX Switch Chip 46 degrees C / 114 degrees F...
Page 654 2760 RPM Fan Tray 3 Fan 6 2640 RPM For monitoring the temperature of specific items in the MX2010 router, the output for the show chassis environment monitored command is similar to the following: user@host> show chassis environment monitored Class Item...
Page 655 SFB 1 SFB-XF0-Zone0 63 degrees C / 145 degrees F SFB 2 Intake-Zone0 34 degrees C / 93 degrees F SFB 2 Exhaust-Zone1 34 degrees C / 93 degrees F SFB 2 IntakeA-Zone0 29 degrees C / 84 degrees F SFB 2 IntakeB-Zone1 27 degrees C / 80 degrees F SFB 2 Exhaust-Zone0...
Page 656 SFB 7 IntakeB-Zone1 28 degrees C / 82 degrees F SFB 7 Exhaust-Zone0 32 degrees C / 89 degrees F SFB 7 SFB-XF2-Zone1 46 degrees C / 114 degrees F SFB 7 SFB-XF1-Zone0 40 degrees C / 104 degrees F SFB 7 SFB-XF0-Zone0 42 degrees C / 107 degrees F FPC 0 Intake...
Page 657 FPC 2 XF 0 TSen 47 degrees C / 116 degrees F FPC 2 XF 0 Chip 69 degrees C / 156 degrees F FPC 2 PLX Switch TSen 47 degrees C / 116 degrees F FPC 2 PLX Switch Chip 45 degrees C / 113 degrees F FPC 9 Intake 32 degrees C / 89 degrees F...
Page 658 CB 0 ExhaustA-Zone0 CB 0 ExhaustB-Zone1 CB 0 TCBC-Zone0 CB 1 IntakeA-Zone0 CB 1 IntakeB-Zone1 CB 1 IntakeC-Zone0 CB 1 ExhaustA-Zone0 CB 1 ExhaustB-Zone1 CB 1 TCBC-Zone0 SPMB 0 Intake SFB 0 Intake-Zone0 SFB 0 Exhaust-Zone1 SFB 0 IntakeA-Zone0 SFB 0 IntakeB-Zone1 SFB 0 Exhaust-Zone0 SFB 0 SFB-XF2-Zone1 SFB 0 SFB-XF1-Zone0...
Page 659 SFB 1 SFB-XF1-Zone0 SFB 1 SFB-XF0-Zone0 SFB 2 Intake-Zone0 SFB 2 Exhaust-Zone1 SFB 2 IntakeA-Zone0 SFB 2 IntakeB-Zone1 SFB 2 Exhaust-Zone0 SFB 2 SFB-XF2-Zone1 SFB 2 SFB-XF1-Zone0 SFB 2 SFB-XF0-Zone0 SFB 3 Intake-Zone0 SFB 3 Exhaust-Zone1 SFB 3 IntakeA-Zone0 SFB 3 IntakeB-Zone1 SFB 3 Exhaust-Zone0 SFB 3 SFB-XF2-Zone1 SFB 3 SFB-XF1-Zone0...
Page 660 SFB 5 IntakeA-Zone0 SFB 5 IntakeB-Zone1 SFB 5 Exhaust-Zone0 SFB 5 SFB-XF2-Zone1 SFB 5 SFB-XF1-Zone0 SFB 5 SFB-XF0-Zone0 SFB 6 Intake-Zone0 SFB 6 Exhaust-Zone1 SFB 6 IntakeA-Zone0 SFB 6 IntakeB-Zone1 SFB 6 Exhaust-Zone0 SFB 6 SFB-XF2-Zone1 SFB 6 SFB-XF1-Zone0 SFB 6 SFB-XF0-Zone0 SFB 7 Intake-Zone0 SFB 7 Exhaust-Zone1 SFB 7 IntakeA-Zone0...
Page 661 FPC 6 For the fan trays, the output for the show chassis fan command is similar to the following: user@host> show chassis fan Item Status % RPM Measurement Fan Tray 0 Fan 1 100% 9720 RPM Fan Tray 0 Fan 2 100% 9000 RPM Fan Tray 0 Fan 3...
Page 662: Maintaining The Mx2010 Air Baffle
The air baffle is optional. Figure 321: Air Baffle Action On a regular basis, check the air baffle and adjust accordingly to redirect exhaust air. RELATED DOCUMENTATION Tools and Parts Required for Replacing MX2010 Hardware Components | 430 MX2010 Cooling System Description | 45...
Page 663: Maintaining The Mx2010 Host Subsystem
Maintaining the MX2010 Host Subsystem IN THIS SECTION Maintaining the MX2010 Routing Engines | 647 Maintaining the MX2010 Control Boards | 649 Maintaining the MX2010 Routing Engines Purpose Each host subsystem comprises a Control Board and Routing Engine (CB-RE) functioning together.
Page 664 Issue the show chassis routing-engine command to check the status of the Routing Engines. The output is similar to the following: user@host> show chassis routing-engine Routing Engine status: Slot 0: Current state Master Election priority Master (default) Temperature 39 degrees C / 102 degrees F CPU temperature 35 degrees C / 95 degrees F DRAM...
Page 665: Maintaining The Mx2010 Control Boards
Check the host subsystem LEDs on the craft interface. For more information about the LEDs and the display, see “MX2010 Craft Interface Description” on page 29 During normal operations: The green host subsystem ONLINE LED on the craft interface is lit.
Page 666 For further description of the command output, see the Junos OS System Basics and Services Command Reference. RELATED DOCUMENTATION MX2000 Host Subsystem CB-RE Description | 51 MX2010 Component LEDs on the Craft Interface | 31 Troubleshooting the MX2010 Host Subsystems | 709...
Page 667: Maintaining Mx2010 Mics
Maintaining MX2010 MICs Purpose For optimum router performance, verify the condition of the Modular Interface Cards (MICs). Action On a regular basis: Check the LEDs on MIC faceplates. The meaning of the LED states differs for various MICs. For more...
Page 668 Junos OS System Basics and Services Command Reference. RELATED DOCUMENTATION Tools and Parts Required to Maintain the MX2010 Hardware Components | 218 MX2010 Router Hardware Components and CLI Terminology | 25 MX2010 Modular Port Concentrator Description | 70 Maintaining the MX2010 Ethernet Switch | 630...
Page 669: Maintaining Mx2010 Mpcs
Maintaining MX2010 MPCs Purpose The router can have up to 10 Modular Port Concentrators (MPCs) mounted vertically in the MPC card cage at the front of the chassis. For optimum router performance, verify the condition of the MPCs. Action On a regular basis: Check the LEDs on the craft interface directly above each MPC slot.
Page 670 Start time: 2013-02-17 02:21:23 PST Uptime: 2 days, 12 hours, 41 minutes, 29 seconds Max Power Consumption 249 Watts Slot 1 information: State Online Temperature Total CPU DRAM 2048 MB Total RLDRAM 662 MB Total DDR DRAM 3072 MB Start time: 2013-02-17 02:21:31 PST Uptime: 2 days, 12 hours, 41 minutes, 21 seconds...
Page 671 Slot 1 Online MPC4E 3D 2CGE+8XGE PIC 0 Online 4x10GE SFPP PIC 1 Online 1X100GE CFP PIC 2 Online 4x10GE SFPP PIC 3 Online 1X100GE CFP Slot 2 Online MPC4E 3D 32XGE PIC 0 Online 8X10GE SFPP PIC 1 Online 8X10GE SFPP PIC 2 Online...
Page 672: Maintaining Mx2010 Packet Forwarding Engine Components
Junos OS System Basics and Services Command Reference. RELATED DOCUMENTATION Tools and Parts Required to Maintain the MX2010 Hardware Components | 218 MX2010 Router Hardware Components and CLI Terminology | 25 MX2010 Chassis Description | 7 MX2010 Modular Port Concentrator Description | 70...
Page 673 On a regular basis: Check the LEDs on the craft interface directly above each MPC slot. The green LED labeled OK lights steadily when a MPC is functioning normally. Check the OK/FAIL LED on the MPC. For more information, see MX Series Interface Module Reference.
Page 674 Total RLDRAM 662 MB Total DDR DRAM 3072 MB Start time: 2013-02-17 02:21:31 PST Uptime: 2 days, 12 hours, 41 minutes, 21 seconds Max Power Consumption 348 Watts Slot 2 information: State Online Temperature Total CPU DRAM 2048 MB Total RLDRAM 1036 MB Total DDR DRAM 6656 MB...
Page 675 PIC 2 Online 8X10GE SFPP PIC 3 Online 8X10GE SFPP Slot 3 Online MPC4E 3D 32XGE PIC 0 Online 8X10GE SFPP PIC 1 Online 8X10GE SFPP PIC 2 Online 8X10GE SFPP PIC 3 Online 8X10GE SFPP Slot 4 Online MPC4E 3D 2CGE+8XGE PIC 0 Online 4x10GE SFPP...
Page 676: Maintaining Mx2010 Mics
Tools and Parts Required to Maintain the MX2010 Hardware Components | 218 MX2010 Router Hardware Components and CLI Terminology | 25 MX2010 Chassis Description | 7 MX2010 Modular Port Concentrator Description | 70 MX2010 Component LEDs on the Craft Interface | 31...
Page 677 For further description of the command output, see the Junos OS System Basics and Services Command Reference. SEE ALSO Tools and Parts Required to Maintain the MX2010 Hardware Components | 218 MX2010 Router Hardware Components and CLI Terminology | 25 MX2010 Modular Port Concentrator Description | 70...
Page 678: Maintaining The Mx2010 Ethernet Switch
Maintaining the MX2010 Ethernet Switch | 630 MX2010 Modular Interface Card LEDs | 90 Troubleshooting the MX2010 MICs | 725 Replacing an MX2010 MIC | 515 Maintaining the MX2010 Ethernet Switch Purpose For optimum router performance, verify the status of the Gigabit Ethernet ports connected to MPCs.
Page 679 Duplex is full Autonegotiate is Enabled Flow Control TX is Disabled Flow Control RX is Disabled Link is good on GE port 4 connected to device: FPC5 Speed is 1000Mb Duplex is full Autonegotiate is Enabled Flow Control TX is Disabled Flow Control RX is Disabled Link is good on GE port 5 connected to device: FPC4 Speed is 1000Mb...
Page 680 Link is down on XE port 27 connected to device: Other RE-10GigE For further description of the command output, see the Junos OS System Basics and Services Command Reference. SEE ALSO MX2000 Host Subsystem CB-RE Description | 51 Troubleshooting the MX2010 Host Subsystems | 709...
Page 681: Maintaining Cables That Connect To Mx2010 Mpcs Or Mics
Figure 322: Lower Cable Manager Cable Routing NOTE: The MX2010 supports a standard and extended upper and lower cable manager. Place excess cable out of the way in the lower cable manager. Do not allow fastened loops of cable to dangle from the connector or cable manager because this stresses the cable at the fastening point.
Page 682: Maintaining The Power Supply Modules On The Mx2000 Line Of Routers
Use only an approved alcohol-free fiber-optic cable cleaning kit, such as the Opptex Cletop-S Fiber Cleaner. Follow the directions for the cleaning kit you use. SEE ALSO Tools and Parts Required to Maintain the MX2010 Hardware Components | 218 MX2010 Router Hardware Components and CLI Terminology | 25 Maintaining MX2010 MPCs | 653...
Page 683 On a regular basis: Check the status of the PSMs by issuing the show chassis environment psm command. The following output displays environmental information about the PSMs in an MX2020: user@host> show chassis environment psm PSM 2 status: State Online Temperature DC Input Feed...
Page 684 Temperature DC Input Feed Voltage(V) Current(A) Power(W) INP0 50.40 18.90 952.56 INP1 0.00 0.00 0.00 DC Output Voltage(V) Current(A) Power(W) Load(%) 52.00 16.75 871.00 41.48 Hours Used 6140 PSM 7 status: State Online Temperature DC Input Feed Voltage(V) Current(A) Power(W) INP0 50.40 19.20...
Page 685 State Online Temperature DC Input Feed Voltage(V) Current(A) Power(W) INP0 0.00 0.00 0.00 INP1 50.40 18.00 907.20 DC Output Voltage(V) Current(A) Power(W) Load(%) 52.00 16.00 832.00 39.62 Hours Used 6143 PSM 14 status: State Online Temperature DC Input Feed Voltage(V) Current(A) Power(W) INP0 0.00...
Page 686 The following output displays environmental information about the PSMs in an MX2010: user@host> show chassis environment psm PSM 0 status: State Online Temperature DC Input Feed Voltage(V) Current(A) Power(W) INP0 51.20 14.70 752.64 INP1 0.00 0.00 0.00 DC Output Voltage(V) Current(A)
Page 687 PSM 4 status: State Online Temperature DC Input Feed Voltage(V) Current(A) Power(W) INP0 51.20 14.00 716.80 INP1 0.00 0.00 0.00 DC Output Voltage(V) Current(A) Power(W) Load(%) 51.25 13.00 666.25 26.65 Hours Used 2055 PSM 5 status: State Online Temperature DC Input Feed Voltage(V) Current(A) Power(W)
Page 688: Maintaining The Mx2010 Power Usage
MX2010 Power System Description | 95 MX2010 Troubleshooting Resources | 703 Troubleshooting the MX2000 Router Power System | 320 Overview of Preparing the Site for the MX2010 Router | 125 MX2020 Power Subsystem Description MX2020 Troubleshooting Resources Overview of Preparing the Site for the MX2020 Router...
Page 689 Issue the show chassis power command to display the information about the AC or DC power system. The following output displays the AC chassis power for 2500 W capacity. user@hostshow chassis power PSM 0: State: Online AC input: OK (Both feed expected, Both feed connected) Capacity: 2500 W (maximum 2500 W) DC output: 349.31 W (6.75 A at 51.75 V, 13.97% of capacity)
Page 690 Capacity: 2500 W (maximum 2500 W) DC output: 362.25 W (7.00 A at 51.75 V, 14.49% of capacity) PSM 7: State: Online AC input: OK (Both feed expected, Both feed connected) Capacity: 2500 W (maximum 2500 W) DC output: 364.00 W (7.00 A at 52.00 V, 14.56% of capacity) PSM 8: State: Online...
Page 691 State: Online DC input: OK (INP0 feed expected, INP0 feed connected) Capacity: 2500 W (maximum 2500 W) DC output: 612.00 W (12.00 A at 51.00 V, 24.48% of capacity) PSM 3: State: Online DC input: OK (INP0 feed expected, INP0 feed connected) Capacity: 2500 W (maximum 2500 W) DC output: 627.81 W (12.25 A at 51.25 V, 25.11% of capacity)
Page 692 Allocated power: 13318 W (9182 W remaining) Actual usage: 5631.94 W The output displays the 240 V China DC chassis power for 2100 W capacity. user@host> show chassis power PSM 0: State: Empty Input: Absent PSM 1: State: Empty Input: Absent PSM 2: State:...
Page 693 Capacity: 2100 W (maximum 2500 W) DC output: 333.12 W (Lower Zone, 6.50 A at 51.25 V, 15.86% of capacity) PSM 8: State: Online DC input: OK (INP1 feed expected, INP1 feed connected) Capacity: 2100 W (maximum 2500 W) DC output: 333.12 W (Lower Zone, 6.50 A at 51.25 V, 15.86% of capacity) PSM 9: State: Empty...
Page 694: Maintaining The Mx2010 Routing Engines
For further description of the command output, see the Junos OS System Basics and Services Command Reference. RELATED DOCUMENTATION MX2010 Power System Description | 95 Preventing Electrostatic Discharge Damage to an MX Series Router Troubleshooting the MX2000 Router Power System | 320 Maintaining the MX2010 Routing Engines Purpose Each host subsystem comprises a Control Board and Routing Engine (CB-RE) functioning together.
Page 695 On a regular basis: Check the host subsystem LEDs on the craft interface. For more information about the LEDs, and the display, see “MX2010 Craft Interface Description” on page 29. During normal operations: NOTE: Even though the Routing Engine is combined with a Control Board (CB-RE), separate LEDs on the craft interface show the status of the Routing Engines, and separate LEDs show the status of the Control Boards.
Page 696: Maintaining The Mx2010 Sfb
0.00 0.00 0.00 For further description of the command output, see the Junos OS System Basics and Services Command Reference. Maintaining the MX2010 SFB Purpose For optimum router performance, verify the condition of the SFBs. Action On a regular basis:...
Page 697: Maintaining The Mx2010 Switch Processor Mezzanine Board (Spmb)
Reference. RELATED DOCUMENTATION Replacing an MX2000 SFB | 536 Removing an MX2000 SFB | 537 Maintaining the MX2010 Switch Processor Mezzanine Board (SPMB) Purpose For optimum router performance, verify the switch processor mezzanine board (SPMB) status. Action On a regular basis:...
Page 698: Maintaining And Verifying The Mx2010 Router Version
Junos OS System Basics and Services Command Reference. RELATED DOCUMENTATION Maintaining and Verifying the Status of the MX2010 Router Components | 609 Maintaining and Verifying the MX2010 Router Version Purpose Verify the router model, Junos OS version, and system software installed.
Page 699 JUNOS Services IPSec [12.3-20130216.0] JUNOS Runtime Software Suite [12.3-20130216.0] JUNOS platform Software Suite [12.3-20130216.0] JUNOS Routing Software Suite [12.3-20130216.0] RELATED DOCUMENTATION Tools and Parts Required to Maintain the MX2010 Hardware Components | 218 MX2010 Router Hardware Components and CLI Terminology | 25...
Page 700: Maintaining And Verifying The Status Of The Mx2010 Craft Interface
Maintaining and Verifying the Status of the MX2010 Craft Interface Purpose Verify the system status of the craft interface. Action On a regular basis, check the status of the craft interface. To display the status of the craft interface, issue the show chassis craft-interface command.
Page 701: Taking An Mx2000 Host Subsystem Offline
Check the status-reporting devices on the craft interface—system alarms and LEDs. RELATED DOCUMENTATION Tools and Parts Required to Maintain the MX2010 Hardware Components | 218 MX2010 Router Hardware Components and CLI Terminology | 25 Maintaining the MX2010 Cooling System Components | 613...
Page 702 user@host> show chassis routing-engine Routing Engine status: Slot 0: Current state Master Election priority Master (default) Temperature 35 degrees C / 95 degrees F CPU temperature 32 degrees C / 89 degrees F DRAM 16351 MB (16384 MB installed) Memory utilization 7 percent CPU utilization: User...
Page 703 The Routing Engine might continue forwarding traffic for approximately 5 minutes after the request system halt command has been issued. RELATED DOCUMENTATION MX2000 Host Subsystem CB-RE Description | 51 Maintaining the MX2010 Host Subsystem | 647 Maintaining the MX2020 Host Subsystem...
Page 704: Holding An Mx2010 Mpc
Holding an MX2010 MPC When carrying an MPC, you can hold it either vertically or horizontally. NOTE: A typical MPC can weigh 25 lb (11.34 kg) or more. Be prepared to accept the full weight of the MPC as you lift it.
Page 705 Figure 323: Do Not Grasp the Connector Edge Never carry the MPC by the faceplate with only one hand. Do not rest any edge of an MPC directly against a hard surface (see Figure 324 on page 689). Do not stack MPCs. Figure 324: Do Not Rest the MPC on an Edge...
Page 706: Storing An Mx2010 Mpc
MX2010 MPC Terminology | 78 Storing an MX2010 MPC | 690 Troubleshooting the MX2010 MPCs | 726 Replacing an MX2010 MPC and Adapter Card | 525 Storing an MX2010 MPC You must store an MPC as follows: In the router...
Page 707: Routine Maintenance Procedures For The Mx2010 Router
Do not run the router for more than a few minutes without the air filter in place. RELATED DOCUMENTATION Tools and Parts Required to Maintain the MX2010 Hardware Components | 218 MX2010 Router Hardware Components and CLI Terminology | 25 Maintaining the MX2010 Air Filters | 609...
Page 708: Packing And Returning Components
Guidelines for Packing Hardware Components for Shipment | 693 Packing the MX2010 Router for Shipment | 694 Returning a Hardware Component to Juniper Networks, Inc. | 696 Guidelines for Packing Hardware Components for Shipment To pack and ship individual components: When you return components, make sure that they are adequately protected with packing materials and packed so that the pieces are prevented from moving around inside the carton.
Page 709: Packing The Mx2010 Router For Shipment
To pack the router for shipment: 1. Retrieve the shipping crate and packing materials in which the router was originally shipped. If you do not have these materials, contact your Juniper Networks representative about approved packaging materials. 2. On the console or other management device connected to the master CB-RE, enter CLI operational mode and issue the following command to shut down the router software.
Page 710 16. Write the RMA number on the exterior of the box to ensure proper tracking. RELATED DOCUMENTATION Preventing Electrostatic Discharge Damage to an MX Series Router Powering Off the DC-Powered MX2000 Router | 698 Replacing an MX2010 Three-Phase Delta AC Power Cord | 563...
Page 711: Returning A Hardware Component To Juniper Networks, Inc
Do not return any component to Juniper Networks, Inc. unless you have first obtained an RMA number. Juniper Networks, Inc. reserves the right to refuse shipments that do not have an RMA. Refused shipments are returned to the customer by collect freight.
Page 712: Powering Off The Router
CHAPTER 25 Powering Off the Router IN THIS CHAPTER Powering Off the AC-Powered MX2000 Router | 697 Powering Off the DC-Powered MX2000 Router | 698 Powering Off the AC-Powered MX2000 Router NOTE: After powering off a power supply module (PSM), wait at least 60 seconds before turning it back on.
Page 713: Powering Off The Dc-Powered Mx2000 Router
NOTE: After powering off a PSM, wait at least 60 seconds before turning it back on. To power off an MX2010 or MX2020 DC-powered router: 1. On the external management device connected to the CB-RE, issue the request system halt both-routing-engines operational mode command.
Page 714 RELATED DOCUMENTATION Prevention of Electrostatic Discharge Damage | 794 Grounding an MX2000 Router | 289 Powering On the DC-Powered MX2010 Router | 315 Powering On the DC-Powered (-48 V) MX2020 Router Powering On the DC-Powered (240 V China) MX2000 Router...
Page 715: Troubleshooting Hardware
PART Troubleshooting Hardware Troubleshooting Components | 703...
Page 717: Troubleshooting Components
Component LEDs | 705 Command-Line Interface To troubleshoot an MX2010 router, you use the Junos OS CLI, alarms, devices connected to the alarm relay contacts, and LEDs on both the components and craft interface. LEDs—When the Routing Engine detects an alarm condition, it lights the red or yellow alarm LED on the craft interface.
Page 718: Chassis And Interface Alarm Messages
The alarm relay contacts are located on the upper right of the craft interface. Craft Interface LEDs The craft interface displays system status messages and enables you to troubleshoot the MX2010 router. The craft interface is located on the upper front of the router and contains LEDs for the router components,...
Page 719: Component Leds
The craft interface includes the following LEDs: Alarm LEDs—One large red circular LED and one large yellow triangular LED, located on the upper right of the craft interface, indicate two levels of alarm conditions. The circular red LED lights to indicate a critical condition that can result in a system shutdown.
Page 720: Troubleshooting The Mx2010 Cooling System
PSM. RELATED DOCUMENTATION MX2010 Craft Interface Description | 29 Troubleshooting the MX2010 Cooling System | 706 Troubleshooting the MX2010 MPCs | 726 Troubleshooting the MX2010 MICs | 725 Troubleshooting the MX2000 Router Power System | 320...
Page 721 4. Use the CLI to check the status of the fans. For example, you can issue the following command to get information about the source of an alarm condition: user@host>show chassis alarms For information about the alarms (see Table 101 on page 707). Table 101: MX2010 Cooling System Alarms Alarm Component Type CLI Message Alarm Condition...
Page 722 Table 101: MX2010 Cooling System Alarms (continued) Alarm Component Type CLI Message Alarm Condition Solution Temperature sensors Temperature Hot The chassis Verify that the temperature room temperature exceeded the hot is within temperature acceptable limits. threshold. If this Verify that there...
Page 723: Troubleshooting The Mx2010 Host Subsystems
Issue the show chassis alarms command to view the alarms. RELATED DOCUMENTATION MX2000 Host Subsystem CB-RE Description | 51 MX2010 Craft Interface Description | 29 Troubleshooting the MX2000 Router Power System Problem Description: The following alarms, LEDs, and other conditions indicate a problem with the AC or DC power...
Page 724 The yellow INP0 LED blinks when the AC or DC voltage is present, but out of limits. This LED blinks continuously for approximately a few seconds on and a few seconds off. The yellow INP1 LED blinks when the AC or DC voltage is present, but out of limits. This LED blinks continuously for approximately a few seconds on and a few seconds off.
Page 725 State indicates that each of the PSMs is functioning normally. NOTE: For the MX2010, the PSMs are referred to as PSM0 through PSM8. For the MX2020, the PSMs are referred to as PSM0 through PSM8 (bottom) and PSM9 through PSM17 (top).
Page 726 PSM 1 status: State Online Temperature AC Input Feed Voltage(V) Current(A) Power(W) INP0 225.00 1.40 315.00 INP1 2.50 0.00 0.00 DC Output Voltage(V) Current(A) Power(W) Load(%) 52.00 4.25 221.00 10.52 Hours Used 6862 PSM 2 status: State Online Temperature AC Input Feed Voltage(V) Current(A) Power(W)
Page 727 Hours Used 7462 PSM 6 status: State Online Temperature AC Input Feed Voltage(V) Current(A) Power(W) INP0 222.50 1.50 333.75 INP1 3.75 0.00 0.00 DC Output Voltage(V) Current(A) Power(W) Load(%) 52.00 5.00 260.00 12.38 Hours Used 7462 PSM 7 status: State Online Temperature AC Input...
Page 728 52.00 8.50 442.00 21.05 Hours Used 6862 PSM 11 status: State Online Temperature AC Input Feed Voltage(V) Current(A) Power(W) INP0 225.00 2.10 472.50 INP1 0.00 0.00 0.00 DC Output Voltage(V) Current(A) Power(W) Load(%) 52.00 8.25 429.00 20.43 Hours Used 7438 PSM 12 status: State Online...
Page 729 DC Output Voltage(V) Current(A) Power(W) Load(%) 52.00 8.00 416.00 19.81 Hours Used 6837 PSM 16 status: State Online Temperature AC Input Feed Voltage(V) Current(A) Power(W) INP0 226.25 2.20 497.75 INP1 5.00 0.00 0.00 DC Output Voltage(V) Current(A) Power(W) Load(%) 52.00 8.25 429.00 20.43...
Page 730 PSM 6 status: State Online Temperature DC Input Feed Voltage(V) Current(A) Power(W) INP0 0.00 0.00 0.00 INP1 50.80 11.20 568.96 DC Output Voltage(V) Current(A) Power(W) Load(%) 51.25 10.00 512.50 24.40 Hours Used 2969 PSM 7 status: State Online Temperature DC Input Feed Voltage(V) Current(A) Power(W)
Page 731 Hours Used 1722 PSM 15 status: State Online Temperature DC Input Feed Voltage(V) Current(A) Power(W) INP0 0.00 0.00 0.00 INP1 50.80 10.15 515.62 DC Output Voltage(V) Current(A) Power(W) Load(%) 51.25 9.50 486.88 23.18 Hours Used 2970 PSM 16 status: State Online Temperature DC Input...
Page 732 Temperature DC Input Feed Voltage(V) Current(A) Power(W) INP0 0.00 0.00 0.00 INP1 240.00 1.00 240.00 DC Output Voltage(V) Current(A) Power(W) Load(%) 52.75 4.00 211.00 8.44 Hours Used 3144 PSM 2 status: State Online Temperature DC Input Feed Voltage(V) Current(A) Power(W) INP0 0.00 0.00...
Page 733 State Online Temperature DC Input Feed Voltage(V) Current(A) Power(W) INP0 0.00 0.00 0.00 INP1 240.00 1.10 264.00 DC Output Voltage(V) Current(A) Power(W) Load(%) 52.25 4.25 222.06 8.88 Hours Used 2616 PSM 7 status: State Online Temperature DC Input Feed Voltage(V) Current(A) Power(W) INP0 0.00...
Page 734 PSM 11 status: State Online Temperature DC Input Feed Voltage(V) Current(A) Power(W) INP0 240.00 0.50 120.00 INP1 0.00 0.00 0.00 DC Output Voltage(V) Current(A) Power(W) Load(%) 52.75 1.50 79.12 3.17 Hours Used 2712 PSM 12 status: State Online Temperature DC Input Feed Voltage(V) Current(A) Power(W)
Page 735 Hours Used 2736 PSM 16 status: State Online Temperature DC Input Feed Voltage(V) Current(A) Power(W) INP0 240.00 0.50 120.00 INP1 0.00 0.00 0.00 DC Output Voltage(V) Current(A) Power(W) Load(%) 52.25 1.50 78.38 3.13 Hours Used 2664 PSM 17 status: State Online Temperature DC Input...
Page 736 NOTE: If the system temperature exceeds the threshold, the Junos OS shuts down all power supplies so that no status is displayed. The Junos OS also can shut down one of the power supplies for other reasons. In this case, the remaining power supplies provide power to the router, and you can still view the system status through the CLI or display.
Page 737 If output power is not load-balancing correctly in the same zone on an MX2000 router with a high-capacity AC or DC power supply module, connect two feeds and change the DIP switch to 1 to boost the voltage on the power supply module. Each High Capacity AC or DC power supply accepts two AC or DC feeds in two unique AC or DC receptacles.
Page 738 If you cannot determine the cause of the problem or need additional assistance, see “Contacting Customer Support” on page 731. RELATED DOCUMENTATION MX2000 Three-Phase Delta and Wye AC Power Distribution Module LEDs | 107 MX2010 Craft Interface Description | 29 MX2020 Craft Interface Description...
Page 739: Troubleshooting The Mx2010 Mics
MX2010 Troubleshooting Resources | 703 MX2020 Troubleshooting Resources Troubleshooting the MX2010 MICs Problem Description: A MIC LED lit red indicates a problem with the MIC. Solution To troubleshoot a MIC: 1. Check the status of each port on a MIC by looking at the LED located on the MIC faceplate. For...
Page 740: Troubleshooting The Mx2010 Mpcs
RELATED DOCUMENTATION MX2010 Modular Port Concentrator Description | 70 Maintaining MX2010 MICs | 651 Maintaining Cables That Connect to MX2010 MPCs or MICs | 607 Replacing an MX2010 MIC | 515 Troubleshooting the MX2010 MPCs Problem Description: The following LEDs indicate a problem with an MPC: The red FAIL LED above the MPC is lit.
Page 741 user@host> show chassis fpc Temp CPU Utilization (%) Memory Utilization (%) Slot State Total Interrupt DRAM (MB) Heap Buffer Online 2048 Online 2048 Online 2048 Empty Online 2048 Empty Empty Empty Empty Online 2048 Use the detail option to display more detailed information. The following example does not specify a slot number, which is optional: For further description of the command output, see the Junos OS System Basics Configuration...
Page 742 5 hours, 28 minutes, 31 seconds Max Power Consumption 440 Watts RELATED DOCUMENTATION MX2010 Craft Interface Description | 29 MX2010 Modular Port Concentrator Description | 70 Maintaining MX2010 MPCs | 653 Replacing an MX2010 MPC and Adapter Card | 525...
Page 743: Contacting Customer Support And Returning The Chassis Or Components
PART Contacting Customer Support and Returning the Chassis or Components Contacting Customer Support | 731 Locating Component Serial Numbers | 733 Packing and Returning Components | 751...
Page 745: Contacting Customer Support
Contacting Customer Support | 731 Contacting Customer Support You can contact Juniper Networks Technical Assistance Center (JTAC) 24 hours a day, 7 days a week in one of the following ways: On the Web, using the Service Request Manager link at: https://support.juniper.net/support/...
Page 746: Locating Component Serial Numbers
MX2010 SFB Serial Number Label | 749 Displaying MX2010 Router Components and Serial Numbers Before contacting Juniper Networks, Inc. to request a Return Materials Authorization (RMA), you must find the serial number on the router or component. To display all the router components and their serial...
Page 747 PSM 1 Rev 0C 740-033726 WA00062 AC 52V Power Supply Module PSM 2 Rev 0C 740-033726 WA00034 AC 52V Power Supply Module PSM 3 Rev 0C 740-033726 WA00048 AC 52V Power Supply Module PSM 4 Rev 0C 740-033726 WA00092 AC 52V Power Supply Module PSM 5 Rev 0C 740-033726...
Page 748 PIC 2 BUILTIN BUILTIN 2x 10GE Xcvr 0 REV 03 740-014289 C907BQ026 XFP-10G-SR PIC 3 BUILTIN BUILTIN 2x 10GE FPC 2 REV 03 750-045372 CAAD9393 MPCE Type 3 3D REV 08 711-035209 CAAD9067 HMPC PMB 2G MIC 0 REV 02 750-028380 JG8549 3D 2x 10GE XFP...
Page 749 The sample output below shows the DC power chassis hardware: user@host> show chassis hardware Hardware inventory: Item Version Part number Serial number Description Chassis JN120BCC4AFK MX2010 Midplane REV 35 750-044636 ABAB8695 Lower Backplane Midplane 1 REV 02 711-044557 ABAB9172 Upper Backplane...
Page 750 SFB 6 REV 05 711-044466 ABBT2143 Switch Fabric Board SFB 7 REV 05 711-044466 ABBT2147 Switch Fabric Board FPC 1 REV 36 750-028467 CAAS7536 MPC 3D 16x 10GE FPC 2 REV 06 750-036284 YZ6735 MPCE 3D 16x 10GE FPC 3 REV 33 750-028467 CAAF5552...
Page 751 Xcvr 4 REV 01 740-021308 ANA0MLR SFP+-10G-SR Xcvr 5 REV 01 740-021308 ANA0PXW SFP+-10G-SR Xcvr 6 REV 01 740-021308 ANA0MZC SFP+-10G-SR Xcvr 7 REV 01 740-021308 ANA0PXU SFP+-10G-SR Xcvr 8 REV 01 740-021308 ANA0NFH SFP+-10G-SR Xcvr 9 REV 01 740-021308 ANA09YS SFP+-10G-SR Xcvr 10...
Page 752: Mx2010 Cb-Re Serial Number Label
MX2010 CB-RE Serial Number Label | 739 MX2010 SFB Serial Number Label | 749 MX2010 Power Distribution Module Serial Number Label | 745 MX2010 Power Supply Module Serial Number Label | 747 MX2010 Fan Tray Serial Number Label | 742...
Page 753: Mx2010 Chassis Serial Number Label
Figure 327: CB-RE Serial Number Label RELATED DOCUMENTATION Removing a CB-RE from an MX2000 Router | 433 Displaying MX2010 Router Components and Serial Numbers | 733 Contacting Customer Support | 731 Returning a Hardware Component to Juniper Networks, Inc. | 696...
Page 754: Mx2010 Craft Interface Serial Number Label
Figure 328: MX2010 Chassis Serial Number Label RELATED DOCUMENTATION Displaying MX2010 Router Components and Serial Numbers | 733 MX2010 Craft Interface Serial Number Label | 741 MX2010 MPC Serial Number Label | 744 MX2010 MIC Serial Number Label | 743...
Page 755: Mx2010 Fan Tray Serial Number Label
Figure 329: Craft Interface Serial Number Label RELATED DOCUMENTATION Replacing the MX2010 Craft Interface | 468 Displaying MX2010 Router Components and Serial Numbers | 733 Contacting Customer Support | 731 Returning a Hardware Component to Juniper Networks, Inc. | 696...
Page 756: Mx2010 Mic Serial Number Label
Figure 330: MX2010 Fan Tray Serial Number Label RELATED DOCUMENTATION Displaying MX2010 Router Components and Serial Numbers | 733 Contacting Customer Support | 731 Returning a Hardware Component to Juniper Networks, Inc. | 696 Guidelines for Packing Hardware Components for Shipment | 693...
Page 757: Mx2010 Mpc Serial Number Label
Figure 331: MIC Serial Number Label RELATED DOCUMENTATION Replacing an MX2010 MIC | 515 Displaying MX2010 Router Components and Serial Numbers | 733 Contacting Customer Support | 731 Returning a Hardware Component to Juniper Networks, Inc. | 696 Guidelines for Packing Hardware Components for Shipment | 693...
Page 758: Mx2010 Power Distribution Module Serial Number Label
Figure 332: MPC Serial Number Label RELATED DOCUMENTATION Replacing an MX2010 MPC and Adapter Card | 525 Displaying MX2010 Router Components and Serial Numbers | 733 Contacting Customer Support | 731 Returning a Hardware Component to Juniper Networks, Inc. | 696...
Page 759 Figure 333: AC Power Distribution Module Three-Phase Delta and Wye Serial Number Label Figure 334: DC Power Distribution Module Serial Number Label Figure 335: DC Power Distribution Module (240 V China) Serial Number Label Serial number ID label...
Page 760: Mx2010 Power Supply Module Serial Number Label
Replacing an MX2000 Three-Phase Delta AC Power Distribution Module | 571 Replacing an MX2000 DC Power Distribution Module (-48 V) | 484 Displaying MX2010 Router Components and Serial Numbers | 733 Contacting Customer Support | 731 Returning a Hardware Component to Juniper Networks, Inc. | 696...
Page 761 Figure 337: DC Power Supply Module Serial Number Label...
Page 762: Mx2010 Sfb Serial Number Label
Figure 338: DC Power Supply Module (240 V China) Serial Number Label RELATED DOCUMENTATION Replacing an MX2010 AC Power Supply Module Replacing an MX2010 DC Power Supply Module (-48 V) | 475 Displaying MX2010 Router Components and Serial Numbers | 733 Contacting Customer Support | 731 Returning a Hardware Component to Juniper Networks, Inc.
Page 763 OK/FA IL RELATED DOCUMENTATION Replacing an MX2000 SFB | 536 Displaying MX2010 Router Components and Serial Numbers | 733 Contacting Customer Support | 731 Returning a Hardware Component to Juniper Networks, Inc. | 696 Guidelines for Packing Hardware Components for Shipment | 693...
Page 764: Packing And Returning Components
Returning a Hardware Component to Juniper Networks, Inc. | 756 Contacting Customer Support to Obtain Return Material Authorization If you are returning a device or hardware component to Juniper Networks for repair or replacement, obtain a Return Material Authorization (RMA) number from Juniper Networks Technical Assistance Center (JTAC).
Page 765: Guidelines For Packing Hardware Components For Shipment
To pack the router for shipment: 1. Retrieve the shipping crate and packing materials in which the router was originally shipped. If you do not have these materials, contact your Juniper Networks representative about approved packaging materials. 2. On the console or other management device connected to the master CB-RE, enter CLI operational mode and issue the following command to shut down the router software.
Page 766 Wait until a message appears on the console confirming that the operating system has halted. For more information about the command, see the Junos OS System Basics and Services Command Reference. 3. Attach an electrostatic discharge (ESD) grounding strap to your bare wrist, and connect the strap to one of the ESD points on the chassis.
Page 767 Remove the shipping brackets and hardware, and set them aside. Guide the router in the shipping crate.
Page 768 Using a router transport kit: Position the router transport platform in front of the rack, and adjust the four leveling mounts using an 8 mm Allen wrench to align the platform with the bottom of the mounting shelf and the chassis. Unscrew and remove the mounting screws from the front mounting flange on the rack.
Page 769: Returning A Hardware Component To Juniper Networks, Inc
Returning a Hardware Component to Juniper Networks, Inc. If a hardware component fails, please contact Juniper Networks, Inc. to obtain a Return Material Authorization (RMA) number. This number is used to track the returned material at the factory and to...
Page 770 Do not return any component to Juniper Networks, Inc. unless you have first obtained an RMA number. Juniper Networks, Inc. reserves the right to refuse shipments that do not have an RMA. Refused shipments are returned to the customer by collect freight.
Page 771: Safety And Compliance Information
PART Safety and Compliance Information General Safety Guidelines and Warnings | 761 Installation and Maintenance Safety Guidelines and Warnings | 769 Radiation and Laser Warnings | 779 Maintenance and Operational Safety Guidelines and Warnings | 785 Electrical Safety Guidelines and Warnings | 793 Agency Approvals and Compliance Statements | 811...
Page 773: General Safety Guidelines And Warnings
CHAPTER 30 General Safety Guidelines and Warnings IN THIS CHAPTER General Safety Guidelines and Warnings | 761 Definitions of Safety Warning Levels | 762 Qualified Personnel Warning | 765 Fire Safety Requirements | 766 Warning Statement for Norway and Sweden | 767 General Safety Guidelines and Warnings The following guidelines help ensure your safety and protect the device from damage.
Page 774: Definitions Of Safety Warning Levels
Replace fuses only with fuses of the same type and rating. Do not open or remove chassis covers or sheet-metal parts unless instructions are provided in the hardware documentation for this device. Such an action could cause severe electrical shock. Do not push or force any objects through any opening in the chassis frame.
Page 776 WARNING: This symbol means danger. You are in a situation that could cause bodily injury. Before you work on any equipment, be aware of the hazards involved with electrical circuitry and be familiar with standard practices for preventing accidents. Waarschuwing Dit waarschuwingssymbool betekent gevaar. U verkeert in een situatie die lichamelijk letsel kan veroorzaken.
Page 777: Qualified Personnel Warning
Varning! Denna varningssymbol signalerar fara. Du befinner dig i en situation som kan leda till personskada. Innan du utför arbete på någon utrustning måste du vara medveten om farorna med elkretsar och känna till vanligt förfarande för att förebygga skador. Qualified Personnel Warning WARNING: Only trained and qualified personnel should install or replace the device.
Page 778: Fire Safety Requirements
To keep warranties effective, do not use a dry chemical fire extinguisher to control a fire at or near a Juniper Networks device. If a dry chemical fire extinguisher is used, the unit is no longer eligible for coverage under a service agreement.
Page 779: Warning Statement For Norway And Sweden
Warning Statement for Norway and Sweden WARNING: The equipment must be connected to an earthed mains socket-outlet. Advarsel Apparatet skal kobles til en jordet stikkontakt. Varning! Apparaten skall anslutas till jordat nätuttag.
Page 780: Installation And Maintenance Safety Guidelines And Warnings
CHAPTER 31 Installation and Maintenance Safety Guidelines and Warnings IN THIS CHAPTER Installation Instructions Warning | 770 Chassis and Component Lifting Guidelines | 770 Ramp Warning | 771 Rack-Mounting and Cabinet-Mounting Warnings | 771 Grounded Equipment Warning | 777...
Page 781: Installation Instructions Warning
Installation Instructions Warning WARNING: Read the installation instructions before you connect the device to a power source. Waarschuwing Raadpleeg de installatie-aanwijzingen voordat u het systeem met de voeding verbindt. Varoitus Lue asennusohjeet ennen järjestelmän yhdistämistä virtalähteeseen. Attention Avant de brancher le système sur la source d'alimentation, consulter les directives d'installation.
Page 782: Ramp Warning
Up to 39.7 lb (18 kg): One person. 39.7 lb (18 kg) to 70.5 lb (32 kg): Two or more people. 70.5 lb (32 kg) to 121.2 lb (55 kg): Three or more people. Above 121.2 lbs (55 kg): Material handling systems (such as levers, slings, lifts and so on) must be used. When this is not practical, specially trained persons or systems must be used (riggers or movers).
Page 784 De onderstaande richtlijnen worden verstrekt om uw veiligheid te verzekeren: De Juniper Networks switch moet in een stellage worden geïnstalleerd die aan een bouwsel is verankerd. Dit toestel dient onderaan in het rek gemonteerd te worden als het toestel het enige in het rek is.
Page 785 Les directives ci-dessous sont destinées à assurer la protection du personnel: Le rack sur lequel est monté le Juniper Networks switch doit être fixé à la structure du bâtiment. Si cette unité constitue la seule unité montée en casier, elle doit être placée dans le bas.
Page 786 Il Juniper Networks switch deve essere installato in un telaio, il quale deve essere fissato alla struttura dell'edificio. Questa unità deve venire montata sul fondo del supporto, se si tratta dell'unica unità da montare nel supporto. Quando questa unità viene montata in un supporto parzialmente pieno, caricare il supporto dal basso all'alto, con il componente più...
Page 787 El Juniper Networks switch debe instalarse en un bastidor fijado a la estructura del edificio. Colocar el equipo en la parte inferior del bastidor, cuando sea la única unidad en el mismo. Cuando este equipo se vaya a instalar en un bastidor parcialmente ocupado, comenzar la instalación desde la parte inferior hacia la superior colocando el equipo más pesado...
Page 788: Grounded Equipment Warning
Grounded Equipment Warning WARNING: The device is intended to be grounded. During normal use, ensure that you have connected earth ground to the chassis. Waarschuwing Deze apparatuur hoort geaard te worden Zorg dat de host-computer tijdens normaal gebruik met aarde is verbonden. Varoitus Tämä...
Page 789: Radiation And Laser Warnings
Class 1 LED Product Warning | 781 Laser Beam Warning | 782 Juniper Networks devices are equipped with laser transmitters, which are considered a Class 1 Laser Product by the U.S. Food and Drug Administration and are evaluated as a Class 1 Laser Product per EN 60825-1 requirements.
Page 790: Class 1 Laser Product Warning
WARNING: Unterminated optical connectors can emit invisible laser radiation. The lens in the human eye focuses all the laser power on the retina, so focusing the eye directly on a laser source—even a low-power laser—could permanently damage the eye. Class 1 Laser Product Warning WARNING: Class 1 laser product.
Page 791: Class 1 Led Product Warning
Class 1 LED Product Warning WARNING: Class 1 LED product. Waarschuwing Klasse 1 LED-product. Varoitus Luokan 1 valodiodituote. Attention Alarme de produit LED Class I. Warnung Class 1 LED-Produktwarnung. Avvertenza Avvertenza prodotto LED di Classe 1. Advarsel LED-produkt i klasse 1. Aviso Produto de classe 1 com LED.
Page 792: Laser Beam Warning
Laser Beam Warning WARNING: Do not stare into the laser beam or view it directly with optical instruments. Waarschuwing Niet in de straal staren of hem rechtstreeks bekijken met optische instrumenten. Varoitus Älä katso säteeseen äläkä tarkastele sitä suoraan optisen laitteen avulla. Attention Ne pas fixer le faisceau des yeux, ni l'observer directement à...
Page 793: Radiation From Open Port Apertures Warning
Radiation from Open Port Apertures Warning WARNING: Because invisible radiation might be emitted from the aperture of the port when no fiber cable is connected, avoid exposure to radiation and do not stare into open apertures. Waarschuwing Aangezien onzichtbare straling vanuit de opening van de poort kan komen als er geen fiberkabel aangesloten is, dient blootstelling aan straling en het kijken in open openingen vermeden te worden.
Page 794: Maintenance And Operational Safety Guidelines And Warnings
CHAPTER 33 Maintenance and Operational Safety Guidelines and Warnings IN THIS CHAPTER Maintenance and Operational Safety Guidelines and Warnings | 785 Maintenance and Operational Safety Guidelines and Warnings IN THIS SECTION Battery Handling Warning | 786 Jewelry Removal Warning | 787 Lightning Activity Warning | 789 Operating Temperature Warning | 790 Product Disposal Warning | 792...
Page 795: Battery Handling Warning
Battery Handling Warning WARNING: Replacing a battery incorrectly might result in an explosion. Replace a battery only with the same or equivalent type recommended by the manufacturer. Dispose of used batteries according to the manufacturer's instructions. Waarschuwing Er is ontploffingsgevaar als de batterij verkeerd vervangen wordt. Vervang de batterij slechts met hetzelfde of een equivalent type dat door de fabrikant aanbevolen is.
Page 796: Jewelry Removal Warning
Jewelry Removal Warning...
Page 797 WARNING: Before working on equipment that is connected to power lines, remove jewelry, including rings, necklaces, and watches. Metal objects heat up when connected to power and ground and can cause serious burns or can be welded to the terminals. Waarschuwing Alvorens aan apparatuur te werken die met elektrische leidingen is verbonden, sieraden (inclusief ringen, kettingen en horloges) verwijderen.
Page 798: Lightning Activity Warning
se conectan a la alimentación y a tierra, lo que puede ocasionar quemaduras graves o que los objetos metálicos queden soldados a los bornes. Varning! Tag av alla smycken (inklusive ringar, halsband och armbandsur) innan du arbetar på utrustning som är kopplad till kraftledningar. Metallobjekt hettas upp när de kopplas ihop med ström och jord och kan förorsaka allvarliga brännskador;...
Page 799: Operating Temperature Warning
Operating Temperature Warning...
Page 800 40° C. Para evitar a restrição à circulação de ar, deixe pelo menos um espaço de 15,2 cm à volta das aberturas de ventilação. ¡Atención! Para impedir que un encaminador de la serie Juniper Networks switch se recaliente, no lo haga funcionar en un área en la que se supere la temperatura ambiente máxima recomendada de 40°...
Page 801: Product Disposal Warning
Varning! Förhindra att en Juniper Networks switch överhettas genom att inte använda den i ett område där den maximalt rekommenderade omgivningstemperaturen på 40° C överskrids. Förhindra att luftcirkulationen inskränks genom att se till att det finns fritt utrymme på minst 15,2 cm omkring ventilationsöppningarna.
Page 802: Electrical Safety Guidelines And Warnings
CHAPTER 34 Electrical Safety Guidelines and Warnings IN THIS CHAPTER General Electrical Safety Guidelines and Warnings | 793 Prevention of Electrostatic Discharge Damage | 794 AC Power Electrical Safety Guidelines | 796 AC Power Disconnection Warning | 797 DC Power Copper Conductors Warning | 798 DC Power Disconnection Warning | 799 DC Power Grounding Requirements and Warning | 801 DC Power Wiring Sequence Warning | 803...
Page 803: Prevention Of Electrostatic Discharge Damage
CAUTION: Before removing or installing components of a device, connect an electrostatic discharge (ESD) grounding strap to an ESD point and wrap and fasten the other end of the strap around your bare wrist. Failure to use an ESD grounding strap could result in damage to the device.
Page 804 Always use an ESD wrist strap when you are handling components that are subject to ESD damage, and make sure that it is in direct contact with your skin. If a grounding strap is not available, hold the component in its antistatic bag (see Figure 340 on page 795) in one hand and touch the exposed, bare metal of the device with the other hand immediately before...
Page 805: Ac Power Electrical Safety Guidelines
AC Power Electrical Safety Guidelines CAUTION: For devices with AC power supplies, an external surge protective device (SPD) must be used at the AC power source. The following electrical safety guidelines apply to AC-powered devices: Note the following warnings printed on the device: “CAUTION: THIS UNIT HAS MORE THAN ONE POWER SUPPLY CORD.
Page 806: Ac Power Disconnection Warning
AC Power Disconnection Warning WARNING: Before working on the device or near power supplies, unplug all the power cords from an AC-powered device. Waarschuwing Voordat u aan een frame of in de nabijheid van voedingen werkt, dient u bij wisselstroom toestellen de stekker van het netsnoer uit het stopcontact te halen. Varoitus Kytke irti vaihtovirtalaitteiden virtajohto, ennen kuin teet mitään asennuspohjalle tai työskentelet virtalähteiden läheisyydessä.
Page 807: Dc Power Copper Conductors Warning
DC Power Copper Conductors Warning WARNING: Use copper conductors only. Waarschuwing Gebruik alleen koperen geleiders. Varoitus Käytä vain kuparijohtimia. Attention Utilisez uniquement des conducteurs en cuivre. Warnung Verwenden Sie ausschließlich Kupferleiter. Avvertenza Usate unicamente dei conduttori di rame. Advarsel Bruk bare kobberledninger. Aviso Utilize apenas fios condutores de cobre.
Page 808: Dc Power Disconnection Warning
DC Power Disconnection Warning...
Page 809 WARNING: Before performing any of the DC power procedures, ensure that power is removed from the DC circuit. To ensure that all power is off, locate the circuit breaker on the panel board that services the DC circuit, switch the circuit breaker to the OFF position, and tape the device handle of the circuit breaker in the OFF position.
Page 810: Dc Power Grounding Requirements And Warning
que toda a corrente foi DESLIGADA, localize o disjuntor no painel que serve o circuito de corrente contínua e coloque-o na posição OFF (Desligado), segurando nessa posição a manivela do interruptor do disjuntor com fita isoladora. ¡Atención! Antes de proceder con los siguientes pasos, comprobar que la alimentación del circuito de corriente continua (CC) esté...
Page 811 WARNING: When you install the device, the ground connection must always be made first and disconnected last. Waarschuwing Bij de installatie van het toestel moet de aardverbinding altijd het eerste worden gemaakt en het laatste worden losgemaakt. Varoitus Laitetta asennettaessa on maahan yhdistäminen aina tehtävä ensiksi ja maadoituksen irti kytkeminen viimeiseksi.
Page 812: Dc Power Wiring Sequence Warning
DC Power Wiring Sequence Warning...
Page 813 WARNING: Wire the DC power supply using the appropriate lugs. When connecting power, the proper wiring sequence is ground to ground, +RTN to +RTN, then –48 V to –48 V. When disconnecting power, the proper wiring sequence is –48 V to –48 V, +RTN to +RTN, then ground to ground.
Page 814 para moler. Observe que el alambre de tierra se debe conectar siempre primero y desconectar por último. Observe que el alambre de tierra se debe conectar siempre primero y desconectar por último. ¡Atención! Wire a fonte de alimentação de DC Usando os talões apropriados na extremidade da fiação.
Page 815: Dc Power Wiring Terminations Warning
DC Power Wiring Terminations Warning...
Page 816 WARNING: When stranded wiring is required, use approved wiring terminations, such as closed-loop or spade-type with upturned lugs. These terminations must be the appropriate size for the wires and must clamp both the insulation and conductor. Waarschuwing Wanneer geslagen bedrading vereist is, dient u bedrading te gebruiken die voorzien is van goedgekeurde aansluitingspunten, zoals het gesloten-lus type of het grijperschop type waarbij de aansluitpunten omhoog wijzen.
Page 817: Midplane Energy Hazard Warning
conexión vueltas hacia arriba. Estos terminales deberán ser del tamaño apropiado para los cables que se utilicen, y tendrán que sujetar tanto el aislante como el conductor. Varning! När flertrådiga ledningar krävs måste godkända ledningskontakter användas, t.ex. kabelsko av sluten eller öppen typ med uppåtvänd tapp. Storleken på dessa kontakter måste vara avpassad till ledningarna och måste kunna hålla både isoleringen och ledaren fastklämda.
Page 818: Multiple Power Supplies Disconnection Warning
Multiple Power Supplies Disconnection Warning WARNING: The network device has more than one power supply connection. All connections must be removed completely to remove power from the unit completely. Waarschuwing Deze eenheid heeft meer dan één stroomtoevoerverbinding; alle verbindingen moeten volledig worden verwijderd om de stroom van deze eenheid volledig te verwijderen.
Page 819 2. Disconnect power from the device. 3. If possible, send another person to get medical aid. Otherwise, assess the condition of the victim, then call for help.
Page 820: Agency Approvals And Compliance Statements
CHAPTER 35 Agency Approvals and Compliance Statements IN THIS CHAPTER Agency Approvals and Compliance Statements for the MX2010 Router | 811 Compliance Statements for EMC Requirements | 815 Compliance Statements for Environmental Requirements | 816 Compliance Statements for NEBS | 816...
Page 821 GR-63-Core: NEBS, Physical Protection NOTE: The Premium 2 Chassis is not NEBs compliant. SEE ALSO Compliance Statements for NEBS for the MX2010 Router | 813 Compliance Statements for EMC Requirements for the MX2010 Router | 813 Compliance Statements for Environmental Requirements | 814...
Page 822: Compliance Statements For Nebs For The Mx2010 Router
GR-1089-CORE. SEE ALSO Agency Approvals for MX2010 Routers | 811 Compliance Statements for EMC Requirements for the MX2010 Router | 813 Compliance Statements for Environmental Requirements | 814 Compliance Statements for EMC Requirements for the MX2010 Router IN THIS SECTION...
Page 823: Israel
Israel Translation from Hebrew—Warning: This product is Class A. In residential environments, the product might cause radio interference, and in such a situation, the user might be required to take adequate measures. Japan Translation from Japanese—This is a Class A product. In a domestic environment this product might cause radio interference in which case the user might be required to take adequate measures.
Page 824 Compliance Statements for EMC Requirements IN THIS SECTION Canada | 815 European Community | 815 Israel | 815 Japan | 815 United States | 816 Canada CAN ICES-3 (A)/NMB-3(A) European Community This is a Class A product. In a domestic environment, this product might cause radio interference in which case the user might be required to take adequate measures.
Page 825 The preceding translates as follows: This is a Class A product based on the standard of the Voluntary Control Council for Interference by Information Technology Equipment (VCCI). If this product is used near a radio or television receiver in a domestic environment, it might cause radio interference.