Cisco ASR 9000 Series Aggregation Services Router Hardware Installation Guide
Technical Specifications
Downloads: This chapterpdf (PDF - 132.0KB) The complete bookPDF (PDF - 54.4MB) | Feedback

Table of Contents

Technical Specifications

Cisco ASR 9000 Series Routers Physical Descriptions

Cisco ASR 9000 Series Routers Environmental Specifications

Cisco ASR 9000 Series Routers AC Electrical Specifications

Cisco ASR 9000 Series Routers DC Electrical Specifications

AC Input and DC Input Voltage Range

AC Input Voltage Range

DC Input Voltage Range

Power System DC Output Levels

DC Output Levels for Version 1 Power System

DC Output Levels for Version 2 Power System

DC Output Levels for Version 3 Power System

RSP/RP Port Specifications.

RSP Cards, RP Cards, and Fabric Card Power Consumption Specifications

Fan Tray Power Consumption Specifications

Cisco ASR 9000 Series Routers Physical Descriptions

Table A-1 Cisco ASR 9000 Series Routers Physical Descriptions

Router
Chassis Height
Chassis Width
Chassis Depth
Chassis Weight

Cisco ASR 9010 Router

36.75 inches (93.35 cm)

17.50 inches (44.45 cm)
19.0 inches (48.3 cm)
including chassis rack-mount flanges and front door width

28.65 inches (72.72 cm) including cable management system and front cover

Chassis only1

Chassis: fully configured using all card slots and six power modules

149.5 pounds (67.81 kg)

375 pounds (170.5 kg)

Cisco ASR 9006 Router

17.50 inches (44.45 cm)

17.50 inches (44.45 cm)
19.0 inches (48.3 cm) including chassis rack-mount flanges and front door width

28.65 inches (72.72 cm) including cable management system and front cover

Chassis only1

Chassis: fully configured using all card slots and six power modules

87.5 pounds (39.69 kg)

230 pounds (104.33 kg)

Cisco ASR 9904 Router

10.38 inches (26.36 cm)

17.75 inches (45.08 cm)
19.0 inches (48.3 cm) including chassis rack-mount flanges

28.26 inches (71.78 cm) including cable management system

Chassis only1

Chassis: fully configured using all card slots and four power modules

43.3 pounds (19.64 kg)

122.8 pounds (55.70 kg)

Cisco ASR 9922 Router

77.00 inches (195.58 cm)

17.60 inches (44.70 cm)
19.0 inches (48.3 cm) including chassis rack-mount flanges and front door width

26.3 inches (66.82 cm)
30.00 inches (76.20 cm) including cable management system
30.62 inches (77.77 cm) with front doors

Chassis only1

Chassis: fully configured using all card slots and four power modules

300 pounds (136 kg)

1038 pounds (470.28 kg)

Cisco ASR 9912 Router

52.5 inches (133.4 cm)

17.6 inches (44.7 cm)
19.0 inches (48.3 cm) including chassis rack-mount flanges and front doors

25.7 inches (65.2 cm)
29.4 inches (74.7 cm) including cable management system

30.1 inches (76.4 cm) including cable management system and front doors

Chassis only1

Chassis: fully configured using all card slots and three power trays

181 pounds (82.10 kg)

643 pounds (291.66 kg)

1.Chassis only does not include cards, power modules, fan trays, filter or chassis accessories.

 

Cisco ASR 9000 Series Routers Environmental Specifications

Table A-2 Cisco ASR 9000 Series Routers Environmental Specifications

Description
Value

Operating Temperature: 2

41 to 104°F
(5 to 40°C)

Operating Temperature 1,3
(Short term)4,5

23 to 131° F (-5° to 55°C) for Cisco ASR 9904 Router
23 to 131° F (–5° to 55°C) for Cisco ASR 9006 Router
23 to 122° F (–5° to 50°C) for Cisco ASR 9010 Router Cisco ASR 9922 Router, and Cisco ASR 9912 Router

Non-operating Temperature

-40 to 158ºF
(-40 to 70ºC)

Humidity

Operating: 10 to 85 percent noncondensing

Non-operating: 5 to 95 percent noncondensing

Altitude6

Operating: 0 to 13,000 ft. (0 to 4,000 m)
Non-operating: 0 to 15,000 ft (0 to 4,570 m)
16-port 10-Gigabit Ethernet line card: 0 to 5,904 ft (0 to 1,800 m)

Power Dissipation

All Cisco ASR 9000 Series Routers

Use the Cisco Power Calculator (Cisco.com account required) at http://tools.cisco.com/cpc/launch.jsp to estimate the maximum power distribution.

Acoustic noise

78 dB at 80.6°F (27°C) maximum

Shock

Operating (halfsine): 21 in/sec (0.53 m/sec.)
Non-operating (trapezoidal pulse): 20 G7, 52 in/sec (1.32 m/sec)

Vibration

Operating: 0.35 Grms8 from 3 to 500 Hz
Non-operating: 1.0 Grms from 3 to 500 Hz

2.Operating temperature specifications for the router will differ from those listed in this table when 40-port Gigabit Ethernet line cards using GLC-GE-100FX SFP transceiver modules are installed in the router. This is due to the lower temperature specifications of the SFP module. Please contact a Cisco representative for more information.

3.Short term operating temperature specifications for the router will differ from those listed in this table when the 16-port 10-Gigabit Ethernet line card is installed in the router because of the lower temperature specifications of the SFP+ modules and that are used in this line card. When using this line card, the maximum operating temperature is 104°F (40°C).

4.Short-term refers to a period of not more than 96 consecutive hours and a total of no more than 15 days in 1 year. (This refers to a total of 360 hours in any given year, but no more than 15 occurrences during that 1-year period.).

5.The 24 port 10 Gigabit Ethernet linecard requires high temperature optics to run in the extended temperature range.

6.Operating altitude specifications for the router will differ from those listed in this table when the 16-port 10-Gigabit Ethernet line card is installed in the router. When using the SFP-10G-SR module, the maximum altitude is 5905 ft. (1800 m). When using the SFP-10G-LR or SFP-10G-ER modules, the maximum altitude is sea level.

7.G is a value of acceleration, where 1 G equals 32.17 ft./sec2 (9.81 m/sec2).

8.Grms is the root mean square value of acceleration.

Cisco ASR 9000 Series Routers AC Electrical Specifications

 

Table A-3 Cisco ASR-2000 Routers AC Electrical Specifications

Description
Cisco ASR 9010
Cisco ASR 9006
Cisco ASR 9904
Cisco ASR 9922
Cisco ASR 9912

Power modules per system

Version 1 power system: Up to six AC power modules per system, three per tray

Version 2 power system: Up to eight AC power modules per system, four per tray

Version 3 power system: Up to six AC power modules per system, three per tray

Version 1 power system: Up to three AC power modules per system

Version 2 power system: Up to four AC power modules per system

Version 2 power system:

Up to four AC power modules per system

Version 2 power system: Up to sixteen AC power modules per system, four per tray

Version 3 power system: Up to twelve AC power modules per system, three per tray

Version 2 power system:
Up to twelve AC power modules per system, four per tray

Version 3 power system:
Up to nine AC power modules per system, three per tray

Total AC input power per power module

Version 2 power system: 3290 VA (3000 W output module)
Version 3 power system: 6510 VA (6000 W output module)

Version 1 power system: 3400 VA (volt-amps) per AC power module

Version 2 power system: 3290 VA (3000 W output module)

Version 2 power system: 3290 VA (3000 W output module)

Version 2 power system: 3290 VA (3000 W output module)
Version 3 power system: 6510 VA (6000 W output module)

Version 2 power system: 3290 VA (3000 W output module
Version 3 power system: 6510 VA (6000 W output module)

Rated input voltage per power module

200–240 VAC nominal (range: 180 to 264 VAC)
220–240 VAC (UK)

Rated input line frequency 1

50/60 Hz nominal (range: 47 to 63 Hz)
50/60 Hz (UK)

Input current draw 1

15 A maximum at 200 VAC
13 A maximum at 220 to 240 VRMS (UK)

Source AC service requirement 9

20 A North America; 16 A international;
13 A United Kingdom

Redundancy

AC power modules operate in N+N redundancy mode10

At least two AC power modules required for N+1 redundancy for a fully configured system

At least two AC power modules required for N+1 redundancy for a fully configured system

AC power modules operate in N+N redundancy mode2

AC power modules operate in N+N redundancy mode2

9.For each AC power supply module. Some power/chassis configurations may operate at lower current ratings than those specified in this table. Contact your Cisco technical representative for more information.

10. The number of AC power modules needed depends on the configuration of the chassis (e.g. number of line cards, RP cards, and FCs installed). Use the Cisco Power Calculator (Cisco.com account required) at http://tools.cisco.com/cpc/launch.jsp to calculate how many AC power modules are needed.


Caution Be sure that the chassis configuration complies with the required power budgets. Failure to properly verify the configuration may result in an unpredictable state if one of the power units fails. Contact your local sales representative for assistance.

Cisco ASR 9000 Series Routers DC Electrical Specifications

Table A-4 Cisco ASR-2000 Routers DC Electrical Specifications

Description
Cisco ASR 9010
Cisco ASR 9006
Cisco ASR 9904
Cisco ASR 9922
Cisco ASR 9912

Power modules per system

Version 1 power system: Up to six DC power module per system, three per tray

Version 2 power system: Up to eight DC power modules per system, four per tray

Version 3 power system: Up to eight DC power modules per system, four per tray

Version 1 power system: Up to three DC power modules per system

Version 2 power system: Up to four DC power modules per system

Version 2 power system: Up to four DC power modules per system

Version 2 power system: Up to sixteen DC power modules per system, four per tray

Version 3 power system: Up to sixteen DC power modules per system, four per tray

Version 2 power system: Up to twelve DC power modules per system, four per tray

Version 3 power system: Up to twelve DC power modules per system, four per tray

Total DC input power per power module

Version 1 power system: 1700 W (1500 W output module)

Version 2 power system: 2340 W (2100 W output module)

Version 3 power system: 4730 W (4400 W output module)

Version 1 power system: 1700 W (1500 W output module)

Version 2 power system: 2300 W (2100 W output module)

Version 2 power system: 2300 W (2100 W output module)

Version 2 power system: 2340 W (2100 W output module)

Version 3 power system: 4730 W (4400 W output module)

Version 2:
2340 W (2100 W output module)

Version 3 power system:
4730 W (4400 W output module)

Rated input voltage per power module

–48 VDC nominal in North America
–60 VDC nominal in the European Community
(Range: –40.5 to –72 VDC [–75 VDC for 5 ms])

Rated input current draw

49 A maximum at –48 VDC nominal
39 A maximum at –60 VDC nominal

Source DC service requirement 11

Sufficient to supply the rated input current. Local codes apply.

Redundancy

DC power modules operate in N+1 redundancy mode12

At least two DC power modules are required for N+1 redundancy for a fully configured system

At least two DC power modules are required for N+1 redundancy for a fully configured system

DC power modules operate in N+1 redundancy mode2

DC power modules operate in N+1 redundancy mode2

11.For each DC power supply module. Some power/chassis configurations may operate at lower current ratings than those specified in this table. Contact your Cisco technical representative for more information.

12. The number of DC power modules needed depends on the configuration of the chassis (e.g. number of line cards, RP cards, and FCs installed). Use the Cisco Power Calculator (Cisco.com account required) at http://tools.cisco.com/cpc/launch.jsp to calculate how many AC power modules are needed.

AC Input and DC Input Voltage Range

AC Input Voltage Range

 

Table A-5 AC Input Voltage Range (Single-Phase Power Source)

Range
Minimum
Minimum Nominal
Nominal
Maximum Nominal
Maximum

Input Voltage

180 VAC

200 VAC

220 VAC

240 VAC

264 VAC

Line Frequency

47 Hz

50 Hz

50/60 Hz

60 Hz

63 Hz

DC Input Voltage Range

 

Table A-6 DC Input Voltage Range

Range
Minimum
Nominal
Maximum

Input Voltage

–40 VDC

–48 VDC

–72 VDC

Power System DC Output Levels

DC Output Levels for Version 1 Power System

Table A-7 DC Output Levels for Version 1 Power System

Parameter
Value
Voltage

Maximum

–54.5 VDC

Nominal

–54.0 VDC

Minimum

–53.5 VDC

Power

Minimum (one power module)

1500 W

Maximum (three 2100 W power modules per tray x two trays)

12,600 W (Cisco ASR 9010 Router only)13

Maximum (three 2100 W power modules in a single tray)

6300 W (Cisco ASR 9006 Router only)

13.Maximum output power the power system is capable of supporting (not system power consumption).

DC Output Levels for Version 2 Power System

Table A-8 DC Output Levels for Version 2 Power System

Parameter
Value
Voltage

Maximum

–55.5 VDC

Nominal

–54.0 VDC

Minimum

–52.5 VDC

Power

Minimum (one power module)

2100 W

Maximum (four 2100 W DC power modules or 3000 W AC power modules in a single tray)14

8400 W (DC) 12, 000 W (AC)
Cisco ASR 9006 Router and Cisco ASR 9904 Router

Maximum (four 2100 W DC power modules or 3000 W AC power modules per tray x two trays)

16,800 W (DC) 24,000 W (AC)
(Cisco ASR 9010 Router only)

Maximum (four 2100 W DC power modules or 3000 W AC power modules per tray x four trays)

33,600 W (DC) 48,000 W (AC)
(Cisco ASR 9922 Router only)

14.Maximum output power the power system is capable of supporting (not system power consumption).

DC Output Levels for Version 3 Power System

Table A-9 DC Output Levels for Version 3 Power System

Parameter
Value
Voltage

Maximum

–55.5 VDC

Nominal

–54.0 VDC

Minimum

–52.5 VDC

Power

Minimum (one power module)

4400 W

Maximum (four 4400 W DC power modules or three 6000 W AC power modules per tray x two trays)15

35,200 W (DC) 36,000 W (AC)
(Cisco ASR 9010 Router only)

Maximum (four 4400 W power modules or three 6000 W AC power modules per tray x three trays)

52,800 W (DC) 54,000 W (AC)
(Cisco ASR 9912 Router only)

Maximum (four 4400 W power modules or three 6000 W AC power modules per tray x four trays)

70,400 W (DC) 72,000 W (AC)
(Cisco ASR 9922 Router only)

15.Maximum output power the power system is capable of supporting (not system power consumption).

RSP/RP Port Specifications.

Table A-10 RSP/RP Port Specifications

Description
Value

Console port

EIA/TIA-232 RJ-45 interface, 9600 Baud, 8 data, no parity, 2 stop bits with flow control none (default)

Auxiliary port

EIA/TIA-232 RJ-45 interface, 9600 Baud, 8 data, no parity, 1 stop bit with software handshake (default)

Management ports (0, 1)

Dual-speed (100M/1000M) RJ-45

Sync ports (0, 1)

Can be configured as one of the following:

  • BITS (Building Integrated Timing System) port
  • J.211 or UTI (Universal Timing Interface) port

RSP Cards, RP Cards, and Fabric Card Power Consumption Specifications

The following table lists the power consumption specifications for the RSP cards, RP cards, and fabric cards. For power consumption values for the Ethernet line cards, see the Cisco ASR 9000 Series Aggregation Services Router Ethernet Line Card Installation Guide.


Caution Be sure that the chassis configuration complies with the required power budgets. Failure to properly verify the configuration may result in an unpredictable state if one of the power units fails.

 

Table A-11 RSP Cards, RP Cards, and Fabric Card Power Consumption Specifications

Card
Power Consumption
RSP Card

Power consumption

175 W at 77°F (25°C)
205 W at 104°F (40°C)
235 W at 131°F (55°C)

RSP-440 Card

Power consumption

285 W at 77°F (25°C)
350 W at 104°F (40°C)
370 W at 131°F (55°C)

RSP-440 Lite Card

 

Power consumption

240 W at 77°F (25°C)
270 W at 104°F (40°C)
300 W at 131°F (55°C)

RSP-880 Card

 

Power consumption

425 W at 81°F (27°C)
430 W at 104°F (40°C)
450 W at 131°F (55°C)

RP Card

Power consumption

227 W at 77°F (25°C)
251 W at 104°F (40°C)
259 W at 131°F (55°C)

RP2 Card

Power consumption

390 at 81°F (27°C)
400 at 104°F (40°C)
410 at 131°F (55°C)

FC Card (ASR 9922)

Power consumption

135 W at 77°F (25°C)
147 W at 104°F (40°C)
160 W at 131°F (55°C)

FC2 Card (ASR 9922)

 

Power consumption

155 W at 81°F (27°C)
160 at 104°F (40°C)
165 at 131°F (55°C)

FC Card (ASR 9912)

Power consumption

80 W at 77°F (25°C)
82 W at 104°F (40°C)
88 W at 131°F (55°C)

FC2 Card (ASR 9912)

 

Power consumption

94 W at 81°F (27°C)
103 W at 104°F (40°C)
105 W at 131°F (55°C)

Fan Tray Power Consumption Specifications


Note The fan tray power consumption numbers reflect the power budget for a single fan tray


 

Table A-12 Fan Tray Power Consumption Specifications

Description
Power Consumption
ASR 9010 Fan Tray V1

Power consumption

200 W at 77°F (25°C)
300 W at 104°F (40°C)
600 W at 131°F (55°C)

ASR 9010 Fan Tray V2

Power consumption

240 W at 77°F (25°C) |
960 W at 104°F (40°C)
1100 W at 131°F (55°C)

ASR 9006 Fan Tray V2

Power consumption

100 W at 77°F (25°C)
275 W at 104°F (40°C)
375 W at 131°F (55°C)

ASR 9904 Fan Tray V2

Power consumption

100 W at 77°F (25°C)
360 W at 104°F (40°C)
605 W at 131°F (55°C)

ASR 9922 Fan Tray V2

Power consumption

200 W at 77°F (25°C)
870 W at 104°F (40°C)
1000 W at 131°F (55°C)

ASR 9912 Fan Tray V2

Power consumption

290 W at 77°F (25°C)
900 W at 104°F (40°C)
1800 W at 131°F (55°C)