MX480 Power Planning
Power Requirements for an MX480 Router
The following tables list the MX480 component power requirements. Table 1 lists the MX480 base system power requirements. Table 2 lists the Switch Control Board (SCB) power requirements. Table 3 lists the FRU power requirements for Routing Engines, Modular Port Concentrators (MPCs), Modular Interface Cards (MICs), and Dense Port Concentrators (DPCs).
Component |
Power Requirement (Watts) |
|---|---|
Base system |
40 W |
Normal-capacity cooling system |
110 W |
High-capacity cooling system |
160 W |
The power for the cooling system comes from a different tap on the power supply, reserved for the cooling system only. The cooling system power requirement does not need to be deducted from the output power budget of the power supply.
Component |
Ambient Temperature |
Maximum Power Requirement |
|---|---|---|
131° F (55° C) 104° F (40° C) 77° F (25° C) |
185 W 160 W 155 W |
|
131° F (55° C) 104° F (40° C) 77° F (25° C) |
160 W 130 W 120 W |
|
131° F (55° C) 104° F (40° C) 77° F (25° C) |
185 W 160 W 155 W |
|
131° F (55° C) 104° F (40° C) 77° F (25° C) |
295 W (SCB 0 (Primary); 425 W SCB 1 (Backup) 200 W (SCB 0 (Primary); 400 W SCB 1 (Backup) 265 W (SCB 0 (Primary); 385 W SCB 1 (Backup) |
Component |
Part Number |
Maximum Power Requirement |
|---|---|---|
Routing Engines |
||
RE-S-X6-64G RE-S-X6-128G |
110 W |
|
RE-S-1300-2048 (EOL’d) RE-S-2000-4096 (EOL’d) RE-S-1800 (all variants) |
90 W |
|
Fixed Configuration Modular Port Concentrators (MPC) |
||
MPC-3D-16XGE-SFPP MPC-3D-16XGE-SFPP-R-B |
440 W at 131° F (55° C) ambient 423 W at 77° F (25° C) ambient |
|
MS-MPC-128G |
590 W |
|
MPC4E-3D-32XGE-SFPP |
610 W With optics:607 W at 131° F (55° C), with SFPP ZR optics 584 W at 40° C, with SFPP ZR optics 565 W at 77° F (25° C), with SFPP ZR optics |
|
MPC4E-3D-2CGE-8XGE |
610 W With optics:607 W at 131° F (55° C), with SFPP ZR and CFP LR4 optics 584 W at 104° F (40° C), with SFPP ZR and CFP LR4 optics 565 W at 77° F (25° C), with SFPP ZR and CFP LR4 optics |
|
MPC5E-40G10G MPC5EQ-40G10G |
With optics:
607 W at 131° F (55° C) 541 W at 104° F (40° C) 511 W at 77° F (25° C) |
|
MPC5E-100G10G MPC5EQ-100G10G |
With optics:
607 W at 131° F (55° C) 541 W at 104° F (40° C) 511 W at 77° F (25° C) |
|
MPC7E-MRATE |
With optics:
545 W at 131° F (55° C) 465 W at 104° F (40° C) 440 W at 77° F (25° C) |
|
MPC10E-10C-MRATE |
620 W at 131° F (55° C) 590 W at 104° F (40° C) 545 W at 77° F (25° C) |
|
MPC10E-15C-MRATE |
785 W at 104° F (40° C): 720 W at 77° F (25° C) |
|
Modular Port Concentrators (MPC) |
||
MX-MPC1-3D MX-MPC1E-3D |
165 W With MICs and optics:239 W at 131° F (55° C) 227 W at 104° F (40° C) 219 W at 77° F (25° C) |
|
MX-MPC1-3D-Q MX-MPC1E-3D-Q |
175 W With MICs and optics:249 W at 131° F (55° C) 237 W at 104° F (40° C) 228 W at 77° F (25° C) |
|
MX-MPC2-3D MX-MPC2E-3D |
274 W With MICs and optics:348 W at 131° F (55° C) 329 W at 104° F (40° C) 315 W at 77° F (25° C) |
|
MX-MPC2-3D-Q MX-MPC2E-3D-Q MX-MPC2-3D-EQ MX-MPC2E-3D-EQ |
294 W With MICs and optics:368 W at 131° F (55° C) 347 W at 104° F (40° C) 333 W at 77° F (25° C) |
|
MX-MPC2E-3D-P |
294 W With MICs and optics:368 W at 131° F (55° C) 347 W at 104° F (40° C) 333 W at 77° F (25° C) |
|
MPC2E-3D-NG |
474 W With MICs and optics:474 W at 131° F (55° C) 417 W at 104° F (40° C) 400 W at 77° F (25° C) |
|
MPC2E-3D-NG-Q |
529 W With MICs and optics:529 W at 131° F (55° C) 460 W at 104° F (40° C) 438 W at 77° F (25° C) |
|
MX-MPC3E-3D |
440W With MICs and optics:500 W at 131° F (55° C), two 40 W MICs 485 W at 104° F (40° C), two CFP MICs with LR4 optics 473 W at 77° F (25° C), two CFP MICs with LR4 optics |
|
MPC3E-3D-NG |
534 W With MICs and optics:534 W at 131° F (55° C) 485 W at 104° F (40° C) 461 W at 77° F (25° C) |
|
MPC3E-3D-NG-Q |
583 W With MICs and optics:583 W at 131° F (55° C) 532 W at 104° F (40° C) 503 W at 77° F (25° C) |
|
Modular Interface Cards (MIC) |
||
MPC4E-3D-2CGE-8XGE |
610 W With optics:607 W at 131° F (55° C), with SFPP ZR and CFP LR4 optics 584 W at 40° C, with SFPP ZR and CFP LR4 optics 565 W at 77° F (25° C), with SFPP ZR and CFP LR4 optics |
|
MIC-3D-20-GE-SFP |
37 W |
|
2-Port: MIC-3D-2XGE-XFP 4-Port: MIC-3D-4XGE-XFP |
2-Port: 29 W 4-Port: 37 W |
|
MIC3-3D-2X40GE-QSFPP |
18 W |
|
MIC3-3D-1X100GE-CFP |
40 W |
|
MIC6-100G-CFP2 |
104 W |
|
MIC3-3D-1X100GE-CXP |
20 W |
|
MIC6-100G-CXP |
57 W |
|
MIC3-100G-DWDM |
With optics:
91 W at 131° F (55° C) 83 W at 77° F (25° C) |
|
MIC3-100G-DWDM |
With optics:
91 W at 131° F (55° C) 83 W at 77° F (25° C) |
|
MS-MIC-16G |
60 W |
|
4-Port: MIC-3D-4OC3OC12-1OC48 |
4-Port: 24 W at 131° F (55° C) 22.75 W at 40° C 21.5 W at 77° F (25° C) |
|
8-Port: MIC-3D-8OC3OC12-4OC48 |
8-Port: 29 W at 131° F (55° C) 27.75 W at 40° C 26.5 W at 77° F (25° C) |
|
MIC-3D-1OC192-XFP |
41 W at 131° F (55° C) 38.5 W at 40° C 36 W at 77° F (25° C) |
|
4-Port: MIC-3D-4CHOC3-2CHOC12 |
4-Port: 41 W at 131° F (55° C) 40 W at 40° C 39 W at 77° F (25° C) |
|
8-Port: MIC-3D-8CHOC3-4CHOC12 |
8-Port: 52 W at 131° F (55° C) 50.5 W at 40° C 49 W at 77° F (25° C) |
|
MIC-3D-40GE-TX |
41 W |
|
MIC-3D-8DS3-E3 MIC-3D-8CHDS3-E3-B |
36 W at 131° F (55° C) 35 W at 40° C 34 W at 77° F (25° C) |
|
MIC-3D-16CHE1-T1-CE |
29.08 W at 131° F (55° C) 27.84 W at 40° C 26.55 W at 77° F (25° C) |
|
Channelized OC3/STM1 (Multi-Rate) Circuit Emulation MIC with SFP |
MIC-3D-4COC3-1COC12-CE |
36.48 W at 131° F (55° C) 35.04 W at 40° C 33.96 W at 77° F (25° C) |
Dense Port Concentrators (DPC) |
||
DPC-R-40GE-SFP |
335 W |
|
DPCE-R-40GE-SFP DPCE-X-40GE-SFP |
335 W |
|
Gigabit Ethernet Enhanced Queuing IP Services DPCs with SFPGigabit Ethernet Enhanced Queuing Ethernet Services DPC with SFP |
DPCE-R-Q-40GE-SFP DPCE-X-Q-40GE-SFP |
365 W |
DPCE-R-Q-20GE-SFP |
200 W |
|
DPC-R-4XGE-XFP |
310 W |
|
DPCE-R-2XGE-XFP |
175 W |
|
DPCE-R-4XGE-XFP DPCE-X-4XGE-XFP |
310 W |
|
10-Gigabit Ethernet Enhanced Queuing Ethernet Services DPC with XFP |
DPCE-R-Q-4XGE-XFP DPCE-X-Q-4XGE-XFP |
330 W |
Multi-Rate Ethernet Enhanced Ethernet Services DPC with SFP and XFP |
DPCE-R-20GE-2XGE DPCE-X-20GE-2XGE |
333 W |
Multi-Rate Ethernet Enhanced Queuing IP Services DPC with SFP and XFP |
DPCE-R-Q-20GE-2XGE |
335 W |
Tri-Rate Enhanced DPC or Tri-Rate Enhanced Ethernet Services DPC |
DPCE-R-40GE-TX DPCE-X-40GE-TX |
320 W |
MS-DPC |
265 W |
|
Flexible PIC Concentrators (FPC) |
||
FPC Type 2 |
MX-FPC2 |
190 W (with PICs and optics) |
FPC Type 3 |
MX-FPC3 |
265 W (with PICs and optics) |
See Also
Calculating Power Requirements for MX480 Routers
The information in this topic helps you determine which power supplies are suitable for various configurations, as well as which power supplies are not suitable because output power is exceeded. You determine suitability by subtracting the total power draw from the maximum output of the power supplies. Afterward, the required input power is calculated. Finally, you calculate the thermal output. A sample configuration is provided in Table 5.
We recommend that you provision power according to the maximum input current listed in the power supply electrical specifications (see AC Electrical Specifications for the MX480 Routerand DC Power Supply Electrical Specifications for MX240 and MX480).
Use the following procedures to calculate the power requirement:
Calculate the power requirement.
Evaluate the power budget.
Calculate input power.
Calculate thermal output (BTUs) for cooling requirements.
Both normal-capacity and high-capacity MX480 chassis with DC power supplies are zoned, meaning that certain components are powered by specific power supplies (see Table 4 for information on zoning). When calculating power requirements, be sure that there is adequate power for each zone.
For an AC-powered chassis, there is one overall zone. Two AC power supplies are mandatory for high-line, and three AC power supplies are mandatory for low-line power.
Zone |
Power Supply (PEM) |
Components Receiving Power |
|---|---|---|
Zone 0 |
PEM 0 or 2 |
|
Zone 1 |
PEM 1 or 3 |
|
The following sample configuration shows a DC-powered MX480 with:
Two 16-port 10-Gigabit Ethernet MPCs with SFP+(slots 0 and 1)
Two SCBs with two (redundant) RE-1800x2 routing engines (SCB slot 0 and SCB slot 1)
One DPCE-R-4XGE-XFP (slot 3)
High-capacity cooling system
Note:The high-capacity cooling system satisfies cooling requirements of MPCs, and must be used for proper cooling.
Calculate the power requirements (usage) using the values in Power Requirements for an MX480 Router as shown in Table 5.
Table 5: Sample Power Requirements for an MX480 Router Chassis Component
Part Number
Power Requirement
Zone
Base system
MX480BASE-DC-HIGH
40 W
Zone 0 and Zone 1
High-capacity cooling system
FFANTRAY-MX480-HC
160 W
Zone 0 and Zone 1
MPC - Slot 2
MPC-3D-16XGE-SFPP-R-B
440 W
Zone 1
MPC - Slot 1
MPC-3D-16XGE-SFPP-R-B
440 W
Zone 0
SCB 1
SCBE2-MX with
RE-S-1800X2-8G
185 W
90 W
Zone 0
SCB 0
SCBE2 with
RE-S-1800X2-8G
185 W
90 W
Zone 0
DPC - Slot 3
DPCE-R-4XGE-XFP
310 W
Zone 1
Zone 0 total output power
Zone 1 total output power
1090 W
850 W
Zone 0 total output power (excluding cooling system)
Zone 1 total output power (excluding cooling system)
1010 W
770 W
Evaluate the power budget. In the case of a DC-powered chassis, evaluate the budget for each zone. In this step, we check the required power against the maximum output power of available power supply options.
Note:The power for the cooling system comes from a different tap on the power supply, reserved for the cooling system only. The cooling system power requirement does not need to be deducted from the output power budget of the power supply.
Table 6 lists the power supplies, their maximum output power, and unused power (or a power deficit) for MX480 AC chassis.Table 7 lists the power supplies, their maximum output power, and unused power (or a power deficit) for MX480 DC chassis. See AC Electrical Specifications for the MX480 Router and DC Power Supply Electrical Specifications for MX240 and MX480 for more information about the MX480 power supply electrical specifications.
Table 6: Calculating Power Budget for a MX480 AC Chassis Power Supply
Maximum System Output Power
Unused Power1
MX480 AC Normal-capacity (low-line)
3081 W
2071 W
MX480 AC Normal-capacity (high-line)
3200 W
2190 W
MX480 AC High-capacity (low-line)
3501 W
2491 W
MX480 AC High-capacity (high-line)
4100 W
3090 W
1 For this configuration, output power excluding the cooling system is 1360 W.
Table 7: Calculating Power Budget for a MX480 DC Chassis Power Supply
Maximum System Output Power
Zone 0 Unused Power1
Zone 1 Unused Power2
MX480 DC Normal-capacity
3200 W
2190 W
2430 W
MX480 DC High-capacity (DIP=0)
Note:The DIP switch position is expected input current; the correct feeds must be present to obtain the desired output power.
4800 W
3790 W
4030 W
MX480 DC High-capacity (DIP=1)
Note:The DIP switch position is expected input current; the correct feeds must be present to obtain the desired output power.
5200 W
4190W
4430W
1 For this configuration, output power excluding the cooling system is 1010 W.
2 For this configuration, output power excluding the cooling system is 770 W.
Calculate input power. In this step, the input power requirements for the example configuration are calculated. To do this, divide the total output requirement by the efficiency of the power supply as shown in Table 8.
Table 8: Calculating Input Power Examples Power Supply
Power Supply Efficiency1
Input Power Requirement2
MX480 AC Normal-capacity (high-line)
85 %
1282 W
MX480 AC High-capacity (high-line)
89 %
1225 W
MX480 DC Normal-capacity
~98 %
1112 W3
MX480 DC High-capacity
~98 %
1112 W3
1 These values are at full load and nominal voltage.
2 For this configuration, total power is 1090 W.
3 Zone 0 requirement.
Calculate thermal output (BTUs). To calculate this, multiply the input power requirement (in watts) by 3.41.
Table 9: Calculating Thermal Output Power Supply
Thermal Output (BTUs per hour)
MX480 AC Normal-capacity (high-line)
1282 * 3.41 = 4372 BTU/hr
MX480 AC High-capacity (high-line)
1225 * 3.41 = 4177 BTU/hr
MX480 DC Normal-capacity
1112 * 3.41 = 3792 BTU/hr1
MX480 DC High-capacity
1112 * 3.41 = 3792 BTU/hr1
1 Zone 0 output.