- play_arrow Fast Track: Initial Installation
- play_arrow Site Planning, Preparation, and Specifications
- play_arrow Planning and Preparing the Site
- Overview of Preparing the Site for the MX2010 Router
- MX2010 Cabinet Airflow Requirements
- MX2010 Cabinet Size and Clearance Requirements
- MX2010 Chassis Moving Guidelines
- MX2010 Physical Specifications
- MX2010 Rack Requirements
- MX2010 Router Transport Kit Moving Requirements and Guidelines
- MX2010 Router Environmental Specifications
- MX2000 Router Grounding Specifications
- MX2010 Site Preparation Checklist
- Clearance Requirements for Airflow and Hardware Maintenance for the MX2010 Router
- play_arrow Transceiver and Cable Specifications
- play_arrow Pinout Specifications
- play_arrow AC Power Requirements, Specifications, and Guidelines
- MX2010 AC Power Requirements
- MX2000 AC Power Cord Specifications
- MX2000 AC Power System Electrical Specifications
- MX2000 Router Grounding Specifications
- MX2000 Three-Phase Delta AC Power Distribution Module Electrical Specifications
- MX2000 Three-Phase Wye AC Power Distribution Module Electrical Specifications
- MX2000 Single-Phase AC Power Distribution Module Electrical Specifications
- Calculating AC Power Requirements for MX2010 Routers
- Mapping Input Power from AC Power Distribution Modules to AC Power Supply Modules on MX2000 Routers
- play_arrow DC Power Requirements, Specifications, and Guidelines
- MX2010 DC Power Requirements
- MX2010 DC Power Distribution Description (-48 V)
- MX2010 DC Power Distribution (240 V China) Description
- MX2010 DC Power (-48 V) System Electrical Specifications
- MX2010 Router DC (240 V China) System Electrical Specifications
- Calculating DC Power Requirements for MX2010 Routers
- DC Power (-48 V) Circuit Breaker Requirements for the MX2010 Router
- DC Power (240 V China) Circuit Breaker Requirements for the MX2000 Router
- DC Power Cable Specifications for the MX2010 Router
- play_arrow Universal (HVAC/HVDC) Power Requirements, Specifications, and Guidelines
- MX2010 High-Voltage Universal (HVAC/HVDC) Power Requirements
- MX2000 High-Voltage Universal PDM (MX2K-PDM-HV) Power Cord Specifications
- MX2000 Router High-Voltage Universal (HVAC/HVDC) Power Subsystem Electrical Specifications
- Determining High-Voltage Universal (HVAC/HVDC) Power Requirements for Your MX2010 Router
- High-Voltage Universal (HVAC/HVDC) Power Circuit Breaker Requirements for the MX2000 Router
-
- play_arrow Initial Installation and Configuration
- play_arrow Installation Overview
- Installing an MX2010 Router Overview
- Tools and Parts Required to Unpack the MX2010 Router
- Tools Required to Install the MX2010 Router Using a Pallet Jack
- Tools Required to Install the MX2010 Router Using a Router Transport Kit
- Tools and Parts Required to Maintain the MX2010 Hardware Components
- Tools and Parts Required for Connecting an MX2000 Router to Power
- Tools and Parts Required for MX2010 Router Connections
- play_arrow Unpacking the Router
- play_arrow Installing the Mounting Hardware
- play_arrow Installing the Router
- Removing Components from the MX2010 Router Chassis Before Installing It in a Rack
- Installing an MX2010 Router Using a Pallet Jack Overview
- Installing the Pallet Jack Attachment
- Installing the MX2010 Router Using a Pallet Jack with Attachment
- Installing an MX2010 Router Using a Router Transport Kit Overview
- Installing the Router Transport Kit on the MX2010 Router
- Securing the MX2010 Router to the Router Transport Platform
- Using the Router Transport Kit to Install the MX2010 Router in a Four-Post Rack
- Using the Router Transport Kit to Install the MX2010 Router in an Open-Frame Rack
- Reinstalling Components in the MX2000 Router After Initially Installing the Router in a Rack
- play_arrow Connecting the Router to Power
- Grounding an MX2000 Router
- Connecting AC Power to an MX2000 Router with Three-Phase Delta AC Power Distribution Modules
- Connecting AC Power to an MX2000 Router with Three-Phase Wye AC Power Distribution Modules
- Connecting Power to an MX2000 Single-Phase AC Power Distribution Module
- Mapping Input Power from AC Power Distribution Modules to AC Power Supply Modules on MX2000 Routers
- Connecting Power to a DC-Powered MX2010 Router with Power Distribution Modules (-48 V)
- Connecting Power to a DC-Powered MX2000 Router with DC Power Distribution Modules (240 V China)
- Connecting Power to a High Voltage-Powered MX2000 Router with Power Distribution Modules
- Connecting an MX2000 DC Router Power Distribution Module (-48 V) Cable
- Connecting an MX2000 DC Router Power Distribution Module (240 V China) Cable
- Powering On the DC-Powered MX2010 Router
- Powering On the DC-Powered (240 V China) MX2000 Router
- Powering On the High-Voltage Powered Universal (HVAC/HVDC) MX2000 Router
- Powering On a Three-Phase AC-Powered MX2000 Router
- play_arrow Connecting the Router to the Network
- Connecting the MX2010 Router to Management and Alarm Devices
- Connecting the MX2010 Router to a Network for Out-of-Band Management
- Connecting an MX2000 Router to a Console or Auxiliary Device
- Connecting an MX2010 Router to an External Alarm-Reporting Device
- Connecting the Alarm Relay Wires to the MX2010 Craft Interface
- Disconnecting the Alarm Relay Wires from the MX2010 Craft Interface
- Connecting MPC or MIC Cables to the MX2010 Router
- Register Products—Mandatory to Validate SLAs
- play_arrow Initially Configuring the Router
-
- play_arrow Installing and Replacing Components
- play_arrow Installing Components
- Installing an MX2010 Adapter Card
- Installing the MX2010 Air Filter
- Installing the MX2010 Craft Interface
- Installing the MX2010 Standard DC Cable Manager
- Installing an MX2000 Router DC Power Distribution Module (-48 V)
- Installing an MX2000 Router DC Power Distribution Module (240 V China)
- Installing an MX2000 Router High-Voltage Universal (HVAC/HVDC) Power Distribution Module
- Installing an MX2010 DC Power Supply Module (-48 V)
- Installing MX2000 Router DC Power Supply Modules (240 V China)
- Installing MX2000 Router High-Voltage Universal (HVAC/HVDC) Power Supply Modules
- Installing an MX2010 Dual-Wide MIC
- Installing the MX2010 Standard EMI Cover
- Installing the MX2010 Extended EMI Cover
- Installing an MX2010 Fan Tray
- Installing the MX2010 Air Baffle
- Installing the MX2010 Standard Cable Manager
- Installing the MX2010 Extended Cable Manager
- Installing the MX2010 Extended DC Cable Manager
- Installing an MX2010 MIC
- Installing an MX2000 SFB
- Installing an MX2010 CB-RE
- Installing MX2000 Router AC Power Supply Modules
- Installing MX2000 Router DC Power Supply Modules (-48 V)
- Installing an MX2000 Router Three-Phase Delta AC Power Distribution Module
- Installing an MX2000 Router Three-Phase Wye AC Power Distribution Module
- Installing an MX2000 Single-Phase AC Power Distribution Module
- Installing an SFP or XFP into an MX2000 MPC or MIC
- play_arrow Replacing Components
- Tools and Parts Required for Replacing MX2010 Hardware Components
- Tools and Parts Required to Remove Components from an MX2010 Router
- Removing a CB-RE from an MX2000 Router
- Upgrading to the Control Board-Routing Engine REMX2K-X8-64G in a Redundant Host Subsystem
- Upgrading to the REMX2K-X8-64G CB-RE in a Nonredundant Host Subsystem
- Replacing a Cable on an MX2010 MPC or MIC
- Replacing the MX2010 Air Filters
- Replacing the MX2010 Standard Cable Managers
- Replacing the MX2010 Extended Cable Manager
- Replacing the MX2010 Craft Interface
- Replacing an MX2010 DC Power Supply Module (-48 V)
- Replacing an MX2000 DC Power Supply Module (240 V China)
- Replacing an MX2000 High-Voltage Second-Generation Universal (HVAC/HVDC) Power Supply Module
- Replacing an MX2000 DC Power Distribution Module (-48 V)
- Replacing an MX2000 DC Power Distribution Module (240 V China)
- Replacing an MX2000 High-Voltage Universal (HVAC/HVDC) Power Distribution Module
- Replacing an MX2010 DC Power Distribution Module Cable
- Connecting an MX2000 DC Router Power Distribution Module (240 V China) Cable
- Replacing the MX2010 Standard EMI Cover
- Replacing the MX2010 Extended EMI Cover
- Replacing an MX2010 Fan Tray
- Replacing the MX2010 Air Baffle
- Replacing an MX2010 MIC
- Replacing an MX2010 MPC and Adapter Card
- Replacing an MX2000 SFB
- Replacing an MX2000 CB-RE
- Replacing an SFP or XFP Transceiver on an MX2010 MPC or MIC
- Replacing an MX2000 AC Power Supply Module
- Replacing an MX2010 Three-Phase Delta AC Power Cord
- Replacing an MX2000 Three-Phase Delta AC Power Distribution Module
- Replacing an MX2010 Three-Phase Wye AC Power Cord
- Replacing an MX2020 Three-Phase Wye AC Power Distribution Module
-
- play_arrow Maintaining the Chassis and Components
- play_arrow Maintaining Components
- Maintaining the MX2010 Adapter Cards
- Maintaining Cables That Connect to MX2010 MPCs or MICs
- Maintaining and Verifying the Status of the MX2010 Router Components
- Maintaining the MX2010 Air Filters
- Maintaining the MX2010 Air Vents
- Maintaining the MX2010 Chassis FRU Power-On Sequence
- Maintaining the MX2010 Control Boards
- Maintaining the MX2010 Cooling System Components
- Maintaining the MX2010 Cooling System Zones
- Maintaining the MX2010 Ethernet Switch
- Maintaining the MX2010 Fan Trays
- Maintaining the MX2010 Air Baffle
- Maintaining the MX2010 Host Subsystem
- Maintaining MX2010 MICs
- Maintaining MX2010 MPCs
- Maintaining MX2010 Packet Forwarding Engine Components
- Maintaining the Power Supply Modules on the MX2000 Line of Routers
- Maintaining the MX2010 Power Usage
- Converting an MX2000 Router Between AC and DC Power
- Maintaining the MX2010 Routing Engines
- Maintaining the MX2010 SFB
- Maintaining the MX2010 Switch Processor Mezzanine Board (SPMB)
- Maintaining and Verifying the MX2010 Router Version
- Maintaining and Verifying the Status of the MX2010 Craft Interface
- Taking an MX2000 Host Subsystem Offline
- Holding an MX2010 MPC
- Storing an MX2010 MPC
- Routine Maintenance Procedures for the MX2010 Router
- play_arrow Packing and Returning Components
- play_arrow Powering Off the Router
-
- play_arrow Troubleshooting Hardware
- play_arrow Contacting Customer Support and Returning the Chassis or Components
- play_arrow Contacting Customer Support
- play_arrow Locating Component Serial Numbers
- Displaying MX2010 Router Components and Serial Numbers
- MX2010 CB-RE Serial Number Label
- MX2010 Chassis Serial Number Label
- MX2010 Craft Interface Serial Number Label
- MX2010 Fan Tray Serial Number Label
- MX2010 MIC Serial Number Label
- MX2010 MPC Serial Number Label
- MX2010 Power Distribution Module Serial Number Label
- MX2010 Power Supply Module Serial Number Label
- MX2010 SFB Serial Number Label
- play_arrow Packing and Returning Components
-
- play_arrow Safety and Compliance Information
- play_arrow General Safety Guidelines and Warnings
- play_arrow Installation and Maintenance Safety Guidelines and Warnings
- play_arrow Radiation and Laser Warnings
- play_arrow Maintenance and Operational Safety Guidelines and Warnings
- play_arrow Electrical Safety Guidelines and Warnings
- General Electrical Safety Guidelines and Warnings
- Prevention of Electrostatic Discharge Damage
- AC Power Electrical Safety Guidelines
- AC Power Disconnection Warning
- DC Power Copper Conductors Warning
- DC Power Disconnection Warning
- DC Power Grounding Requirements and Warning
- DC Power Wiring Sequence Warning
- DC Power Wiring Terminations Warning
- Midplane Energy Hazard Warning
- Multiple Power Supplies Disconnection Warning
- Action to Take After an Electrical Accident
- play_arrow Agency Approvals and Compliance Statements
-
MX2010 Power System Description
The MX2000 routers are available in -48 V and 240 V China DC power configurations, three-phase (delta and wye) AC power configurations, single-phase power configurations, and high voltage AC (HVAC) or high voltage DC (HVDC) configurations. You can add additional power to the rack as needed. The MX2010 router is configurable with up to two AC, DC, 240 V China, or high-voltage second-generation universal (HVAC/HVDC) power distribution modules (PDMs), and up to nine AC, DC, or universal (HVAC/HVDC 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. Table 1 describes the MX2010 DC power components and Table 3 describes the MX2010 AC power components.
Do not mix AC, DC, 240 V China, or universal (HVAC/HVDC) 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. The systems configured for DC (240 V China) input power must use DC (240 V China) PDMs and PSMs. The systems configured for three-phase delta AC input power must use only three-phase delta AC PDMs and three-phase delta AC PSMs. The systems configured for single-phase AC input power must use only single phase AC PDMS and single-phase AC PSMs. The systems configured for universal (HVAC/HVDC) input power must use universal (HVAC/HVDC) PDMs and universal PSMs.
Component | Description |
|---|---|
DC power system | The MX2010 DC power system comprises three components: nine PSMs, two PDMs,, and a power midplane (PMP). The power system distributes power from a pool of 22.5K W (20K W for PSM nonredundant and 2.5 KW reserved for PSM redundancy). This pool provides power to 10 line-card slots, four fan trays, two CB-REs and eight SFBs. |
DC Power Distribution Modules (-48 V) | In the DC (-48 V) power configuration, the router contains up to two DC PDMs located at the rear of the chassis in slots PDM0/Input0 and PDM1/Input1 (bottom to top). A minimum of one PDM is required per system. Two PDMs provide full redundancy. The DC PDM provides a power interface to nine PSMs. Each DC PDM operates with seven feeds or nine feeds of either a 60-A or 80-A amp current limit. You can select the input feed capacity (60-A or 80-A) by setting the DIP switch on the PDM to the rated amperage of the DC power input feeds. Each DC PDM has seven or nine DC inputs (–48 VDC and return terminals for each input). Note: The selected input capacity applies to all inputs of this PDM. Selecting 60 A reduces the available power output capacity of the PSMs supplied by this PDM. In a redundant configuration, the 7-feed DC PDMs support a total of fourteen 60-A or 80-A feeds, and the 9-feed DC PDMs support a total of eighteen 60-A or 80-A feeds. |
DC Power Distribution Modules (240 V China) | In the DC PDM (240 V China) power configuration, the router contains up to two DC PDMs located at the rear of the chassis in slots PDM0/Input0 and PDM1/Input1 (bottom to top). A minimum of one PDM is required per system. Two PDMs provide full redundancy. The DC PDM provides a power interface to nine PSMs. If feeds that connect to one PDM fail in a redundant configuration, the other feed will provide full power. You can install a total of two PDMs into a router. Each DC 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. When both input feeds are present, power is drawn from the feed supplying higher DC voltage. You can set these feeds by using the input mode DIP switch located on the DC PSM (see MX2010 DC Power Supply Module (-48 V) Description). There are two PDMs per power system capable of carrying seven feeds or nine feeds each. The 240 V China PDM has nine feeds. Each DC PSM is capable of delivering 2500 W of power if -48 V/80 A is applied to the -48 V PSM, and 240 V/16 A is applied to the China 240 VDC PSM. |
Component | Description |
|---|---|
HVAC/HVDC power subsystem | The MX2010 HVAC/HVDC power system comprises three components: nine PSMs, two PDMs, and a power midplane (PMP). The power system distributes power from a pool of 30.6 KW (27.2 KW non redundant and 3.4 KW reserved for redundancy) if dual inputs are used. If single inputs are used, the pool is 27 KW (24 KW non redundant and 3 KW reserved for redundancy). This pool provides power to 10 line-card slots, four fan trays, two CB-REs and eight SFBs. |
Universal HVAC/HVDC Power Distribution Modules | In the universal HVAC/HVDC PDM power configuration, the router contains up to two HVAC/HVDC PDMs located at the rear of the chassis in slots PDM0/Input0 and PDM1/Input1 (bottom to top). A minimum of one PDM is required per system. Two PDMs provide full redundancy. The HVAC/HVDC PDM provides a power interface to nine PSMs. If feeds that connect to one PDM fail in a redundant configuration, the other feed provides full power. You can install a total of two PDMs into a router. Each HVAC/HVDC PDM operates with nine feeds. |
Universal HVAC/HVDC Power Supply Modules (PSMs) | The MX2010 universal HVAC/HVDC PSMs are hot-removable and hot-insertable. The universal PSMs are a dual-redundant feed (INP0 and INP1). To provide feed redundancy, you can connect each PSM to two separate feeds from different sources. When both input feeds are present, power is drawn from both feeds equally. You can set these feeds by using the input mode DIP switch located on the HVAC/HVDC PSM (see MX2000 High-Voltage Universal (HVAC/HVDC) Power Supply Module Description). There are two PDMs per system capable of carrying nine feeds each. Each HVAC/HVDC PSM is capable of delivering 3400 W if both feeds are present, and 3000 W if one feed is present. |
Component | Description |
|---|---|
AC power system | The MX2010 supports connection of a single-phase or three-phase (delta or wye) AC power system. In the three-phase power systems, the AC power going to the PSMs is split into three individual phases (wye) or a pair of phases (delta). Each PSM works on a single phase; therefore, the power system works independent of the type of AC feed connected. You can connect one or two AC 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. The single-phase AC PDM provides an AC input connection from the single-phase AC power source, and also provides an input power interface to the PSM through a system power midplane. |
AC Power Distribution Modules (PDMs) | The MX2010 supports connection of a single-phase or three-phase (delta or wye) AC PDM. Four AC PDM models are available: three-phase delta, three-phase wye, seven-feed single-phase, and nine-feed single-phase.
|
AC Power Supply Modules (PSMs) | The MX2010 AC PSMs are hot-removable and hot-insertable. The AC PSMs have a dual redundant feed (INP0 and INP1). One input feed is active during operation. These feeds are set by the input mode DIP switch located on the AC PSM (see MX2000 AC Power Supply Module Description). Each AC PSM works with a single phase derived from either three-phase delta 200–240 VAC (line-to-line) or three-phase wye 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 4.
Name | Model Number | Junos OS Release |
|---|---|---|
DC PSM | MX2000-PSM-DC | 12.3R2 and later |
DC PSM (240-V China) | MX2K-PSM-DC-240V | 18.2R1 and later |
Universal HVAC/HVDC PSM | MX2K-PSM-HV | 19.4R1 and later |
Nine-feed DC PDM (240-V China) | MX2K-PDM-DC-240V | 18.2R1 and later |
Nine-feed DC PDM | MX2000-PDM-DC | 12.3R2 and later |
Seven-feed DC PDM | MX2K-PDM-OP-DC | 15.1R1 |
Nine-feed Universal HVAC/HVDC PDM | MX2K-PDM-HV | 19.4R1 and later |
AC PSM | MX2000-PSM-AC | 12.3R2 and later |
Three-phase delta AC PDM | MX2000-PDM-AC-DELTA | 12.3R2 and later |
Three-phase wye AC PDM | MX2000-PDM-AC-WYE | 12.3R2 and later |
Nine-feed single-phase AC PDM | MX2K-PDM-AC-1PH | 15.1R1 and later |
Seven-feed single-phase AC PDM | MX2K-PDM-OP-AC | 15.1R1 and later |
Routers configured with AC, DC, 240 V China, or universal (HVAC/HVDC) PDMs and PSMs are shipped with blank panels installed.
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.
Turn off the PSM by using its ON/OFF switch.
