- play_arrow Fast Track: Initial Installation
- play_arrow Overview
- play_arrow MX2010 Router Overview
- play_arrow Chassis Components and Descriptions
- MX Series Router Architecture
- MX2010 Chassis Description
- MX2010 Backplane Description
- MX2010 Component Redundancy
- MX2010 Field-Replaceable Units
- MX Series Router Packet Forwarding Engine (PFE) Architecture
- Line Cards Supported on MX Series Routers
- Ethernet Frame Counts and Statistics on MX Series Routers
- Understanding Trio Layer 2 Feature Parity
- MX2010 Router Hardware Components and CLI Terminology
- play_arrow Alarm and Display Components
- play_arrow Cable and Rack Management
- play_arrow Cooling System
- play_arrow Host Subsystem Components
- MX2000 Host Subsystem CB-RE Description
- RE-MX2000-1800x4 CB-RE Description
- REMX2K-X8-64G and REMX2K-X8-64G-LT CB-RE Description
- REMX2K-X8-128G CB-RE Description
- CB-RE LEDs
- MX2000 Switch Fabric Board (SFB) Overview
- MX2000-SFB-S Switch Fabric Board Description
- MX2000-SFB2-S Enhanced Switch Fabric Board Description
- MX2000-SFB3 Switch Fabric Board Description
- MX2000 Switch Fabric Board LED
- play_arrow Interface Modules— ADCs, MPCs, and MICs
- MX Series Interface Module Reference
- MX2000 Adapter Card (ADC) Description
- MX2010 Modular Port Concentrator Description
- MPCs Supported by MX Series Routers
- MX2010 Modular Port Concentrator LEDs
- MX2010 MPC Terminology
- MX2010 Modular Interface Card Description
- MICs Supported by MX Series Routers
- MX2010 Modular Interface Card LEDs
- MX2010 Port and Interface Numbering
- play_arrow Power System
- MX2010 Power System Description
- MX2010 Power Midplane Description
- MX2000 Three-Phase Delta AC Power Distribution Module Description
- MX2000 Three-Phase Wye AC Power Distribution Module Description
- MX2000 Seven-Feed Single-Phase AC Power Distribution Module Description
- MX2000 Nine-Feed Single-Phase AC Power Distribution Module Description
- MX2000 Three-Phase Delta and Wye AC Power Distribution Module LEDs
- MX2000 AC Power Supply Module Description
- MX2010 AC Power Supply Module LEDs
- MX2010 DC Power Distribution Module (-48 V) Description
- MX2000 DC Power Distribution Module (240 V China) Description
- MX2010 DC Power Distribution Module (-48 V) LEDs
- MX2000 DC Power Distribution Module (240 V China) LEDs
- MX2010 DC Power Supply Module (-48 V) Description
- MX2000 DC Power Supply Module (240 V China) Description
- MX2010 DC Power Supply Module LEDs
- MX2010 High-Voltage Universal (HVAC/HVDC) Power Distribution Module Description
- MX2010 High-Voltage Universal (HVAC/HVDC) Power Distribution Module LEDs
- MX2010 High-Voltage Universal (HVAC/HVDC) Power Supply Module Description
- MX2010 High-Voltage Universal (HVAC/HVDC) Power Supply Module LEDs
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- 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
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- 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
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- 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
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- 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
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- 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
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MX2010 DC Power Requirements
Table 1 lists the FRU power requirements for SFBs, CB-REs, MPCs, and MICs. In addition, Table 1 lists the MPC power requirements with MICs and optics at various operating temperatures.
Typical power represents power under certain temperatures and normal operating conditions.
For PDMs with 60 A feeds, we recommend that you select the 60 A @ –48 VDC switch for each input.
For PDMs with 80 A feeds, we recommend that you select the 80 A @ –48 VDC switch for each input.
The 240 V China DC PDMs do not have a switch selection.
If you do not plan to provision as recommended above, you can use the information in Table 1 to calculate the power consumption for your hardware configuration.
Component | Model Number | Maximum Power Requirement |
|---|---|---|
| Switch Fabric Boards (SFBs) | ||
SFB | MX2000-SFB-S | 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° C 250 W at 40° C 240 W at 25° C |
| Fan Trays | ||
Fan trays, Upper | MX2000-FANTRAY-S | 100 W (Typical) 330 W at 55° C 330 W at 40° C 300 W at 25° C |
Fan Trays, Lower | 100 W (Typical) 1700 W at 55° C 1150 W at 40° C 350 W at 25° C | |
| Adapter Cards | ||
ADC | MX2000-LC-ADAPTER | 150 W |
| 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 (seeMPC-3D-16XGE-SFPP) | MPC-3D-16XGE-SFPP | 440 W at 55° C ambient |
MPC1 (see MPC1) | MX-MPC1-3D MX-MPC1E-3D | 165 W With MICs and optics:239 W at 55° C 227 W at 40° C 219 W at 25° C |
MPC1 Q (see MPC1 Q) | MX-MPC1-3D-Q MX-MPC1E-3D-Q | 175 W With MICs and optics:249 W at 55° C 237 W at 40° C 228 W at 25° C |
MPC2 (see MPC2) | MX-MPC2-3D MX-MPC2E-3D | 274 W With MICs and optics:348 W at 55° C 329 W at 40° C 315 W at 25° C |
MPC2 Q (see MPC2 Q) MPC2 EQ (see MPC2 EQ) | MX-MPC2-3D-Q MX-MPC2-3D-EQ MX-MPC2E-3D-Q MX-MPC2E-3D-EQ | 294 W With MICs and optics:368 W at 55° C 347 W at 40° C 333 W at 25° C |
MCP2E P (see MPC2E P) | MX-MPC2E-3D-P | 294 W With MICs and optics:368 W at 55° C 347 W at 40° C 333 W at 25° C |
MPC3E (see MPC3E) | MX-MPC3E-3D | 440 W With MICs and optics:520 W at 55° C, two 40 W MICs 420 W at 40° C, two CFP MICs with LR4 optics 408 W at 25° C, two CFP MICs with LR4 optics |
32x10GE MPC4E (see 32x10GE MPC4E) | MX-MPC4E-3D-32XGE-SFPP | 610 W With MICs and optics:610 W at 55° C, two 40 W MICs 560 W at 40° C, two CFP MICs with LR4 optics 550 W at 25° C, two CFP MICs with LR4 optics |
2x100GE + 8x10GE MPC4E (see 2x100GE + 8x10GE MPC4E) | MX-MPC4E-2CGE-8XGE | 610 W 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° C, two CFP MICs with LR4 optics |
MPC5E-40G10G MPC5EQ-40G10G | With optics: 607 W at 55° C 541 W at 40° C 511 W at 25° C | |
MPC5E-100G10G MPC5EQ-100G10G | With optics: 607 W at 55° C 541 W at 40° C 511 W at 25° C | |
MX2K-MPC6E | 1088 W with MICs and optics | |
MPC7E-MRATE | 400 W (Typical) 545 W at 55° C 465 W at 40° C 440 W at 25° C | |
| (without MICs) | MX2K-MPC8E | 688 W (Typical) 805 W at 55° C 720 W at 40° C 690 W at 25° C |
| (without MICs) | MX2K-MPC9E | 838 W (Typical) 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 | MIC-3D-20-GE-SFP | 37 W |
10-Gigabit Ethernet MIC with XFP | 2-Port: MIC-3D-2XGE-XFP 4-Port: MIC-3D-4XGE-XFP | 2-Port: 29 W 4-Port: 37 W |
10-Gigabit Ethernet MIC with SFP+ | MIC6-10G | 74 W With optics:53 W at 55° C, 40° C and 25° C with 10G BASE-SR and 10G BASE-LR optics 66 W at 55° C, 40° C and 25° C with 10G BASE-ER optics 74 W at 55° C, 40° C and 25° C with 10G BASE-ZR optics |
10-Gigabit Ethernet DWDM OTN MIC | 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° C with 10G BASE-LR OTN optics |
40-Gigabit Ethernet MIC with QSFPP | MIC3-3D-2X40GE-QSFPP | 18 W |
100-Gigabit Ethernet MIC with CFP | MIC3-3D-1X100GE-CFP | 40 W |
100-Gigabit Ethernet MIC with CXP | MIC3-3D-1X100GE-CXP | 20 W |
100-Gigabit Ethernet MIC with CFP2 | MIC6-100G-CFP2 | 104 W With optics:94 W at 55° C with 100G BASE-LR4 OTN optics 86 W at 40° C with 100G BASE-LR4 OTN optics 74 W at 25° C with 100G BASE-LR4 OTN optics |
100-Gigabit Ethernet MIC with CXP | MIC6-100G-CXP | 57 W 49 W at 55° C with CXP SR10 optics 49 W at 40° C with CXP SR10 optics 49 W at 25° C with CXP SR10 optics |
100-Gigabit DWDM OTN MIC with CFP2 | MIC3-100G-DWDM | With optics: 91 W at 55° C 83 W at 25° C |
SONET/SDH OC3/STM1 Multi-Rate MIC | 4-Port: MIC-3D-4OC3OC12-1OC48 8-Port: MIC-3D-8OC3OC12-4OC48 | 4-Port: 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° C 26.5 W at 25° C |
OC192/STM64 MIC with XFP | MIC-3D-1OC192-XFP | 41 W at 55° C 38.5 W at 40° C 36 W at 25° C |
Channelized SONET/SDH OC3/STM1 Multi-Rate MIC | 4-Port: MIC-3D-4CHOC3-2CHOC12 8-Port: MIC-3D-8CHOC3-4CHOC12 | 4-Port: 41 W at 55° C 40 W at 40° C 39 W at 25° C 8-Port: 52 W at 55° C 50.5 W at 40° C 49 W at 25° C |
Channelized OC48/STM16 MIC with SFP | MIC-3D-1CHOC48 | 56.5 W at 55° C 54.5 W at 40° C 53 W at 25° C |
Tri-Rate MIC | MIC-3D-40GE-TX | 41 W |
MIC-MRATE |
| |
DS3/E3 MIC | MIC-3D-8DS3-E3 MIC-3D-8CHDS3-E3-B | 36 W at 55° C 35 W at 40° C 34 W at 25° C |
Channelized OC3/STM1 (Multi-Rate) Circuit Emulation MIC with SFP | MIC-3D-4COC3-1COC12-CE | 33.96 W |
