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Cisco Systems 861W Network Router User Manual

1. DC Power Shelf 0 w DC DC 2KW Power Distribution Power Supply Modules DC A1 60A TEATS PMO DC B1 60A gt DC A2 60A TEAS gt 54V PM1 DC B2 60A gt INE DC A3 60A TB 2 1 PM2 Fan Tray x4 DC B3 60A 5 zac oft Sta DC A4 60A TEMS gt j BNB Circuit DC B4 60A E 54V RIRES B 54V yos ilter an ans Fan Controller DC Power Shelf 1 w DC DC 2KW Power Supply Modules DC AS 60A TBAT PM4 DC B5 60A 5 DC AG 60A TA gt 54V roe Card x20 i PM5 Soft Start arrow DC B6 60A 5 gt Cini Range Point of DC A7 60A TEATS gt 54V EMI 54V Fixed 10 8V aad DC B7 60A J gt PMG uu gt PBS Filter and gt f POL DC A8 60A Tey 34 UN 10 8V Converters DC B8 60A 5 PM7 Converter TB B8 DC Power Shelf 2 w DC DC 2KW Power Supply Mod
2. Figure 2 44 Cisco ASR 9010 Router DC Power System Block Diagram Version 2 Power System DC Power Shelf 1 Power Distribution Fan Tray 0 with DC DC Power Supply Backplane xu Modules DC A1 EMI DC DC fee 60A gt 5AN Soft Start _54y Controller dud a SD Circuit F gt and odule EMI Filter Cooling DC BIL p gt EMI Ly PMO Fans 60A Filter 2 KW TB B1 TB A2 DC A2 EMI DC DC 54V 60A Filter Pwr Sply gt gt gt Module DC B2 EMI PM1 60A Filter 2KW TB B2 TB A3 FEE DC A3 NS EMI DC DC ine Card x8 60A Filter Pwr Sply N Module arrow DC 88 EMI PM2 Range Point of 60A Filter 2 KW Soft Stat E Fixed MB Load TH DID Circuit Ratio gt POL Nu EMI Filter 5 1 C t DC A4 EMI gt DC DC 54V RTN C epa SE 60A Filter Pwr Sply E onverter Module DC B4 EMI PM3 60A Filter 2KW TB B4 DC Power Shelf 2 with DC DC Power Supply TBAS Haa RSP Card x2 DC A5 EMI DC DC 60A Filter Pwr Sply Narrow Module Range Point of DC B5 EMI PM4 Soft Start oint o gt 54V oft Start _54V Fixed 10 8V 60A Filter 2 KW gt gt gt gt gt Circuit gt Ratio gt Load En EMI Filter 5 1 POL TB A6 10 8V Converters DC A6 EM
3. Figure 2 50 Cisco ASR 9904 Router DC Power System Block Diagram Version 2 Power System DC DC Power Shelf Power Distribution Line Card x1 connected to 4 Power Supply Backplane xad Modules Narrow E Range DOAI gt EMI gt DC DC Soft Start Fixed Point of 60A Filter Pwr Sply 54V t Start 54V gt Load Module 0 D gt Du Cru gt Ratio m gt POL DC B1 gt EMI 1 5 KW or ne on Converters 60A Filter 2KW TB B1 Converter TB A2 DC A2 EMI DC DC 54V 60A Filter Pwr Sply gt gt gt gt Module 1 RSP Card x2 DC B2 EMI 15 KW or us 60A Filter 2KW TB B2 bid ange DC hel Soft Start 54V Fixed Point of A3 h gt EMI DC DC DD Circuit gt Ratio gt Load 60A Filter gt Pwr Sply EMI Filter 5 1 Por Module 3 Converters DC B3 EMI 11 5 KW 10 8V gt NN or Converter 60A Filter 2kW TB B3 TB A4 54V RTN DC A4 EMI DC DC 7 60A Filter Pwr Sply 7 Line Card x1 Module 4 DC B4 EMI 1 5 KW or 604 gt Fitter gt 2KW Bara TB B4 Range Point of Soft Start 54y Fixed oint o DD Circuit gt Ratio POL EMI Eiter 5 1 Converters 10 8V Converter Fan Tray Fan 54V Soft Start 54V Controller YD Circuit gt and EMI Filter Cooling Fans
4. AC Power Shelf with Power Distribution Line Card x1 AC DC Power Supply Modules Backplane AC DC Rs AC1 1 Pwr Sply E Point of EMI 54V Soft Start 54V Fixed 10 8V 220V DF ee Module DYD Circuit 9 Ratio F gt Load 20A 1 AO POL EMI Filter b 1 3KW 10 8V Converters V Converter AC DC AC 1 2 Pwr Sply 220V gt EMI F gt Module gt gt gt 20A 1 Al RSP Card x2 3KW Narrow Range AC DC 54V Soft Start ESAV Fixed 10 8V Point of AC1 3 EMI Pwr Sply XD Circuit gt Ratio gt Load 220V gt Filter 2 Module EMI Filter 5 1 POL 20A 1 A2 10 8V Converters 3KW Converter AC DC B RUN AC1 4 Pwr Sply EMI 220v gt gt Filter gt Module Line Card x1 20A 1 A3 KW 3 Narrow Range Point of 54V Soft Start 54V Fixed 10 8V s DD Circuit Ratio gt 98 EMI Filter 5 1 POL 10 8V Converters Converter Fan Tray Fan E Soft Start _54V Controller SV gt gt gt gt Circuit gt and EMI Filter Cooling Fans S 5 8 Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 ESN Chapter2 Functional Description H Power System Functional Description
5. 1 DC output power blades 3 Power switch 2 IEC input receptacles with retention brackets 4 I2C cable from backplane Figure 2 58 Version 2 AC Power tray Rear Panel f P M3 e M2 Mo y I S pls b 5 lo pis Im 7 lE E O H gt gee 200 240V 50 60 Hz 16A MAX 4X J ur TII DIY 1 DC output power blades 3 I2C cable from backplane 2 IEC input receptacles with retention brackets AC Tray Power Switch Each AC power tray provides a single pole single throw power switch to power on and put in standby mode all power modules installed in the tray simultaneously When the power modules are turned off only the DC output power is turned off the power module fans and LEDs still function The power switch Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide Ea OL 17501 09 Chapter2 Functional Description Power System Functional Description W for the version 1 power tray is on the back of the tray as shown in Figure 2 57 The power switch for the version 2 power tray is on the front of the tray as shown in Figure 2 59 Figure 2 59 Location of AC Power Switch Version 2 Power System 331402 1 Power switch AC Input Voltage Range Each AC module accepts an individual single phase
6. Figure 3 1 AC System Power Redundancy for the Cisco ASR 9010 Router Version 1 3000W AC 3000W AC 3000W AC 3000W AC 3000W AC 3000W AC 3000W AC 3000W AC 3 000W AC system 9 000W AC system 1 1 min power redundancy 3 3 max power redundancy a Figure 3 2 AC System Power Redundancy for the Cisco ASR 9010 Router Version 2 3000W AC 3000W AC 3000W AC 3000W AC 3000W AC 3000W AC 3000W AC 3000W AC 3000W AC 3000W AC _ 3 000W AC system 1 1 min power 12 000W AC system 2 redundancy 4 4 max power redundancy Figure 3 3 AC System Power Redundancy for the Cisco ASR 9006 Router Version 2 3000W AC 3000W AC 3000W AC 3000W AC 3000W AC 3000W AC 3 000W AC system 1 1 min power 9 000W AC system g redundancy 3 1 max power redundancy 5 Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide Em OL 17501 09 Chapter3 High Availability and Redundant Operation Power Supply Redundancy H Figure 3 4 AC System Power Redundancy for the Cisco ASR 9904 Router Version 2 3000W AC 3000W AC 3000W AC 3000W AC 3000W AC system 1 1 min power redundancy 12 000W AC system 3 1 max power redundancy 390184 Figure 3 5 AC System Power Redundancy for the Cisco ASR 9922 Router
7. Figure 2 41 Cisco ASR 9010 Router AC Power System Block Diagram Version 1 Power System AC Power Shelf 0 Power Distribution Fan Tray 0 w AC DC Power Supply Modules Backplane AC DC Fan AC1 1 Pwr Sply EMI 4 Soft Start 54y Controller km Fio eg SV gt gt gt Circuit gt and 3KW EMI Filter Cooling Fans 54V AC DC AC1 2 Pwr Sply 220V gt F EM gt Module gt gt gt 20A 18 PM1 Line Card x8 3KW Narrow AC DC EN Soft Start _54V pou 10 8V Point of AC1 3 emi Pwr Sply DDH Circuit gt Ratio gt Load 220V gt Filter gt Module EMI Filter 5 1 POL 20A 1 PM2 10 8V Converters SKW Converter 54V RTN AC Power Shelf 1 A RSP Card x2 w AC DC Power Supply Modules AC DC Narrow AC2 1 EMI Pwr Sply Soft Start _say pag 10 8V Point of id gt gt riter ee kv SV gt gt Circuit L3 Ratio gt Load 3KW EMI Filter 5 1 POL D 10 8V Converters F Converter AC DC AC2 2 Pwr Sply 220v gt EMI Z gt Module gt 20A 18 PM4 Fan Tray 1 3KW Fan AC DC 54V Soft Start 54y Controller AC2 3 EMI Pwr Sply D Circuit gt and 220V J Filter gt Module EMI Filter Cooling 20A 1 PM5 Fans 3KW eo g N Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 EN
8. Figure 2 12 RP Component Interconnections a Ol System Cong Timin oniro g Interface gt B GE a gt lt gt CPU Switch C k i Arbiter a n e S voQ Fabric I e a Punt Scheduler Interface RP 3 Figure 2 13 FC Component Interconnections Control Interface gt e a C Fabri abric p Interface f F a n e Fabric S Interface gt FC S 9 5 Processor to Processor Communication The RSP RP card communicates with the control processors on each line card through the Ethernet Over Backplane Channel EOBC Gigabit Ethernet switch This path is for processor to processor communication such as IPC InterProcess Communication The Active RSP RP card also uses the EOBC to communicate to the Standby RSP RP card if installed Route Processor Fabric Interconnect The RSP card has a fabric interface chip FIC attached to the switch fabric and linked to the Route Processor through a Gigabit Ethernet interface through a packet diversion FPGA This path is used for external traffic diverted to the RSP card by line card network processors Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide P28 E OL 17501 09 Chapter2 Functional Description Fabric Controller Card Ml The packet diversion FPGA has three key fun
9. Figure 2 3 Major System Components and Interconnections in the Cisco ASR 9000 Series Routers f a _ RSP 0 Fabric RSP 1 Fabric Interface CPU Interface CPU Chip Chip Data Plane auuuuua S System Fabric VOQ GE System Fabric VOQ GE Control Plane Timing Chip Scheduler Switch Timing Chip Scheduler Switch t r r Y Y Backplane ii AA i AA H AA yy YY YY 40x1GE Fabric GE PHY 8x10GE 2 1 Fabric GE PHY 4x10GE Fabric GE PHY Line Card Interface Oversubscribed interface Line Card Interface Chip Line Card Chip Chip CPU CPU CPU FPGA FPGA FPGA FPGA FPGA FPGA sa E Ba NPU NPU NPU NPU NPU NPU NPU NPU NPU NPU NPU NPU VOX X X Y 10 10 10 10 101 101 10 110 10 10 10 10 GE GE GE GE GE GE GE GE GE GE GE GE XIXIIXIX IIXI XIX X X X X X 10x 10x 10x 10 x FIFIIFIFIIFIFIIFIF F F F F SFP SFP SFP SFP PJPJIPJ PI PI PJ P IP P P P P V BJ Vua iii Backplane KA kA 8x10GE 80G ni 2x10GE 20x1GE m Line Rate Card vy Combo Line Card vv Fabric Fabric GE Fabric GE Interface Interface PHY Interfa
10. BSKCSSXTOGE TR E Ora k N LeeLee tee tototoetotototioto to tot 333944 Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 m Chapter2 Functional Description H Ethernet Line Cards 1 Ejector lever one of two 5 Port 12 SFP cage 2 Captive installation screw one of two 6 Port 23 SFP cage 3 Port 0 SFP cage 7 Line Card Status LED 4 Port 11 SFP cage 36 port 10 Gigabit Ethernet Line Card The 36 port 10 Gigabit Ethernet line card provides three stacked 2x6 cage assemblies for SFP Ethernet optical interface modules The 36 SFP modules operate at a rate of 10 Gbps The card consists of two boards a motherboard and a daughter board Major components on the motherboard include two Network Processors a CPU and ASICs Major components on the daughter board include four Network Processors two ASICs six Hex Phys and three 2x6 SFP cages With two RP cards installed in the Cisco ASR 9922 Router the 36 port10 Gigabit Ethernet line card runs at line rate With a single RP card installed in the Cisco ASR 9922 Router the 36 port 10 Gigabit Ethernet line card is a 220 Gbps line rate card The 36 port 10 Gigabit Ethernet line card is available in either an SE Service Edge Optimized or TR Packet T
11. ASR 2022 AP TA elo 344073 e y C Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide Em OL 17501 09 Chapter2 Functional Description Route Processor Card W Alarm Out DB9 connector 1 SYNC BITS J 211 ports 8 External USB port 2 SFP SFP ports 9 Management LAN ports 3 IEEE 1588 port 10 CONSOLE and AUX ports 4 Inter chassis nv SyncO 11 Alarm Cutoff ACO and Lamp Test push buttons 5 Inter chassis nv Syncl GPS ToD 12 Nine discrete LED indicators 6 10 MHz and 1 PPS indicators 13 LED matrix display 7 Front Panel Connectors This section describes the front panel ports and connectors of the RSP RP card Management LAN Ports Console Port Auxiliary Port Alarm Out Two dual speed 100M 1000M management LAN RJ 45 connectors are provided for use as out of band management ports The speed of the management LAN is autonegotiated The EIA TIA 232 RJ 45 Console Port provides a data circuit terminating equipment DCE interface for connecting a console terminal This port defaults to 9600 Baud 8 data no parity 2 stop bits with flow control none The EIA TIA 232 RJ 45 auxiliary port provides a data circuit terminating equipment DCE interface that supports flow control Use this port to connect a modem a channel service unit CSU or other
12. DC DC Power Shelf Power Distribution Fan Tray 0 connected to 4 Power Supply Backplane Modules Fan EMI DC DC v E Soft Start 54y Controller Eier LE zeal D Circuit gt and Edi KW EMI Filter Cooling Fans Filter EMI 4 DC DC 54V Filter Pwr Sply gt gt gt Module 1 Line Card x4 EMI 2 KW Filter Narrow Range Soft Start 54y Fixed Point of EMI DC DC D gt Circuit H gt Ratio gt Load Filter Pwr Sply EMI Filter 5 1 POL Module 2 10 8V Converters EMI gt 2 KW Converter Filter 54V RTN EMI 4 DC DC mh Filter Pwr Sply RSP Card x2 Module 3 EMI gt 2kw Narrow Filter Range Bonus Soft Start 54y Fixed oint o SYD Circuit gt Ratio gt Load EMI Filter 5 1 POL 10 8V Converters Converter Fan Tray 1 Fan 54V Soft Start 54V Controller YD Circuit gt and EMI Filter Cooling Fans E 3 N Figure 2 49 and Figure 2 50 shows block diagrams of the Cisco ASR 9904 Router with the AC and DC version 2 power system Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide 0L 17501 09 Chapter2 Functional Description Power System Functional Description W Figure 2 49 Cisco ASR 9904 Router AC Power System Block Diagram Version 2 Power System
13. VO b Q e Qe Sa old DU GO 00 00 OO O 331401 Lae Vim S The Cisco ASR 9006 Router and Cisco ASR 9904 Router are similar except that Figure 1 31 The Cisco ASR 9006 Router supports one power tray with up to three version 1 power modules or four version 2 power modules The Cisco ASR 9904 Router supports one power tray with up to four version 2 power modules see Figure 1 31 Front System View of Power Tray Cisco ASR 9904 Router with Version 2 Power Tray To operate the Cisco ASR 9922 Router on AC power four AC power trays should be installed each with up to four power modules which are fed by a single phase 220 V 20 A branch circuit Eight power modules are enough to power a fully populated chassis Sixteen power modules are required for N N redundancy Fewer power modules can be used if the chassis is populated with fewer line cards To operate the Cisco ASR 9922 Router on DC power four DC power trays should be installed each with up to four power modules which are fed by separate pairs of redundant 48 V 60 A branch sources Fifteen power modules are enough to power a fully populated chassis Sixteen power modules are required for N 1 redundancy Fewer power modules can be used if the chassis is populated with fewer line cards OL 17501 09 Cisco ASR 9000 Series Aggregat
14. BA ASK 1Xi100GE SE 4 1 Ejector lever one of two 3 100 GE Port 2 Captive installation screw one of two 4 Line Card Status LED Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 EZ Chapter2 Functional Description H Modular Line Cards Modular Line Cards The modular line card is available in two network processing unit 80 gb throughput and in four network processing unit 160 gb throughput versions Each version is available in either a Service Edge Optimized SE or Packet Transport Optimized TR version Both versions are functionally equivalent but vary in configuration scale and buffer capacity Figure 2 34 shows a modular line card with a 20 port Gigabit Ethernet modular port adapter MPA installed in the lower bay As shown in Figure 2 34 Bay 0 is the upper or left bay and Bay 1 is the lower or right bay Figure 2 34 Modular Line Card The MPA has Active Link A L LEDs visible on the front panel Each A L LED shows the status of both the port and the link A green A L LED means the state is on the port is enabled and the link is up An amber A L LED means the state is on the port is enabled and the link is down An A L LED that is off means the state is off the port is not enabled and the link is down The modular line card provides two bays that support the following MPAs e 20 port GE MPA e 8 port 10 G
15. Compact Flash type I II Alarm Cutoff ACO and LAMP TEST push buttons Eight discrete LED indicators Management LAN ports CONSOLE and AUX ports SYNC BITS J 211 ports Alarm Out DB9 connector A UJ N o N o Cl LED matrix display Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide Em OL 17501 09 Chapter2 Functional Description Route Switch Processor Card W Figure 2 7 shows the front panel of the RSP 440 card Figure 2 7 RSP 440 Card Front Panel bd uzt sua zn sua TONAS r 0 dds C L das 5 1 4 N 19V NI 900 Ni Bi E 8891 3331 M sol aowisol L I 3OVAUSLNI S z Ano wav L EY sua ONVILON m J lala 8 zr S LNY119N 308803 Xxnv tht STA 330841 1 SYNC BITS J 211 ports 7 External USB port 2 SFP ports 8 Management LAN ports 3 IEEE 1588 port 9 CONSOLE and AUX ports 4 ToD port 10 Alarm Cutoff ACO and LAMP TEST push buttons 5 10MHz and 1PPS indicators 11 Eight discrete LED indicators 6 Alarm Out DB9 connector 12 LED matrix display
16. 44 70 cm 343945 Front of chassis Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 EX Chapter 1 Overview and Physical Description H Rack Mounting Considerations Figure 1 12 Cisco ASR 9912 Router Chassis Footprint Dimensions Top Down View Rear of chassis 18 97 in K 48 18 cm i YIMOT AVUL NWS Yad aro avran Vd A 29 44 in 22 in 74 78 cm 55 88 cm S 9 9 9 uU LJ y PST m lt 17 60 in 44 70 cm 303667 Front of chassis Chassis Slots All Cisco ASR 9010 Router chassis line cards and RSP cards are front facing and mounted vertically with ejector levers and captive screws at the top and bottom of each card All Cisco ASR 9006 Router and Cisco ASR 9904 Router chassis line cards and RSP cards are front facing and mounted horizontally with ejector levers and captive screws at the left and right ends of each card All Cisco ASR 9922 Router chassis RP FC and line cards are front facing and mounted vertically with ejector levers and captive screws at the top and bottom of each card Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 Chapter 1 Overview and Physical Description Rack Mount
17. OL 17501 09 Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide H Chapter2 Functional Description H Route Processor Card Route Processor Card The RP card is the main control element in the Cisco ASR 9922 Router and Cisco ASR 9912 Router chassis The switch fabric element has been moved to the FC cards The RP card provides system control packet switching and timing control for the system To provide redundancy there are two RP cards in the system one as the active control RP and the other as the standby RP The standby RP takes over all control functions should the active RP fail Figure 2 8 shows the front panel connectors and indicators of the RP card Figure 2 8 RP Card Front Panel Connectors and Indicators amp J 9e 0 IWAS EE LINAS E j D SUS SME 1 xm Gousu e am guisan wnan TIWSMALNI Sal LNO MUT of 3 ge CANCER 144 Bo w Oam w a S a a uon a bT 7 1 LL Eee 90 52 5d Lielei eleleileleleleleleileleleilseleloelelelelsellseslisl1is xW TOSHI
18. Figure 2 66 shows the cooling path of the Cisco ASR 9904 Router chassis Figure 2 66 Cisco ASR 9904 Router Chassis Cooling Path RSPs and line cards NN N NN NN Room air i Air exhaust m pum NN 1 N b E 351295 Power modules Pp The cages of the Cisco ASR 9922 Router chassis have a front to rear cooling path The inlet is at the front of the middle cage and the exhaust is at the upper and lower rear Figure 2 67 and Figure 2 68 show the cooling path of the Cisco ASR 9922 Router chassis Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 EXE Chapter2 Functional Description H Cooling System Functional Description Figure 2 67 Cisco ASR 9922 Router Chassis Cooling Path Side View Power modules E Air exhaust SS Rear Air exhaust plenum Fan trays RPs and FCs Fan trays Rear Air exhaust plenum Line cards Air exhaust amp S Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide EN OL 17501 09 Chapter2 Functional Description Cooling System Functional Description Bi Figure 2 68 Cisco ASR 9912 Router Chassis Cooling Path Side View 7 Air exhaust Fan trays Line cards Rear Air exhaust plenum
19. i i i 1 i li A9K 8T 4E M La X Os 1 Ejector lever one of two 4 Port 7 XFP cage 2 Port 0 XFP cage 5 Line Card Status LED Port Status LED one per port 6 Captive installation screw one of two 4 Port 10 Gigabit Ethernet 4x10GE Line Card The 4 port 10 Gigabit Ethernet 4x 10GE line card has four 10 Gigabit Ethernet XFP module ports One 10 Gigabit Ethernet port connects to an XAUI interface on each of the four NPUs Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 EZ Chapter 2 Functional Description H Ethernet Line Cards The 4x10GE line card is available in base extended and low queue versions All versions are functionally equivalent with the extended version of the line card providing typically twice the service scale of the base line card Figure 2 21 shows the block diagram for the 4x10GE Line card and Figure 2 22 shows the front panel connectors and indicators Figure 2 21 4 Port 10 Gigabit Ethernet 4x10GE Line Card Block Diagram rdp GE Gr PHY i lt gt CPU gt NPU 10GE XFP B lt FPGA a lt z gt NPU 10GE XFP p Fabric gt Interface a Chip s gt NPU 10GE XFP FPGA gt NPU 10GE XFP 4
20. NPU 10G PHY j SFP lt r Chip gt 10G PHY gt SFP B lt gt NPU e HG PHY gt SFP gt 10G PHY SFP lt gt NPU lt 9106 PHY j SFP 16x10GE SFP Line Card 248885 H Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 Chapter2 Functional Description Ethernet Line Cards W Figure 2 28 16 Port 10 Gigabit Ethernet 16x10GE Oversubscribed Line Card Front Panel x x 1 xi1x1siziziziziziziuzisil 1 lt a Fb Cxdx1c izizisisizizizisizsizizizcsizsizi i A9K 16T 8 B II a Osm Che te te te 21 248671 1 Ejector lever one of two 5 Line Card Status LED 2 Port 0 SFP cage 6 Port 15 SFP cage 3 Port Status LED one per port 7 Port 7 SFP cage 4 Port 8 SFP cage 8 Captive installation screw one of two Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide 0L 17501 09 EXG Chapter2 Functional Description H Ethernet Line Cards 24 Port 10 Gigabit Ethernet Line Card The 24 port 10 Gigabit Ethernet line card provides two stacked 2x6 cage assemblies for SFP Ethernet optical interface modules The 24 SFP modules operate at a rate of 10 Gbps With two RSP cards installed in the router the 24 port 10 Gigabit Ethernet line card runs at line rate With a sin
21. 1 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 E Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 AppendixA Technical Specifications Table A 9 lists the AC electrical specifications for the Cisco ASR 9904 Router Table A 9 Description Cisco ASR 9904 Router AC Electrical Specifications Value Power modules per system Version 2 power system Up to four AC power modules per system Total AC input power per power module 3400 VA volt amps per AC power module Rated input voltage per power module 200 240 VAC nominal range 180 to 264 VAC 220 240 VAC UK Rated input line frequency 50 60 Hz nominal range 47 to 63 Hz 50 60 Hz UK Input current draw 15 A maximum at 200 VAC 13 A maximum at 220 to 240 VRMS UK Source AC service requirement 20 A North America 16 A international 13 A United Kingdom Redundancy At least two AC power modules are required for N 1 redundancy for a fully configured system 1 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 amp Both the AC powered and DC powered
22. J RPs and FCs J J Power trays 303670 Fan Trays Cisco ASR 9010 Router Fan Trays The Cisco ASR 9010 Router contains two fan trays for redundancy see Figure 2 69 The fan tray has an LED indicator to indicate fan tray status If a fan tray fails it is possible to swap a single fan tray assembly while the system is operational Fan tray removal does not require removal of any cables OL 17501 09 Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide H Chapter2 Functional Description H Cooling System Functional Description Figure 2 69 Cisco ASR 9010 Router Fan Tray 1 Fan tray status LED e The fan tray contains 12 axial 120 mm 4 72 in fans There is a fan control board at the back end of each tray with a single power data connector that connects with the backplane e The fan tray aligns through two guide pins inside the chassis and it is secured by two captive screws The controller board floats within the fan tray to allow for alignment tolerances e A finger guard is adjacent to the front of most fans to keep fingers away from spinning fan blades during removal of the fan tray The maximum weight of the fan tray is 13 82 Ib 6 29 kg Cisco ASR 9006 Router Fan Trays The Cisco ASR 9006 Router contains two fan trays for redundancy see Figure 2 70 If a fan tray fails i
23. 54V Fans AC DC AC1 2 EMI Pwr Sply 220V H gt Filter 7 Module H gt gt gt gt 20A 1 A1 Line Card x4 3KW Narrow Range f Ed a 54V Soft Start _54V Fixed 10 8V gt 2201 gt EMI Lo Module DP UNE c NEN o0 20A 10 Filter A2 5 1 Converters 10 8V 3KW Converter 54V RTN a gt RSP Card x2 Narrow Soft Start js Point of 5AV it Start 54V Fixed 10 8V Load YD Circuit Ratio gt POL EMI Filter 5 1 SM 10 8V Converter Fan Tray 1 Fan 54V Soft Start _54V Controller Y gt Circuit gt and EMI Filter Cooling Fans 8 5 E Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide H OL 17501 09 Chapter 2 Functional Description H Power System Functional Description Cisco ASR 9006 Router AC Power System Block Diagram Version 2 Power System Figure 2 46 AC Power Shelf with Power Distribution Fan Tray 0 AC DC Power Supply Modules Backplane AC DC Fan AC1 1 Pwr Sply EMI 54V Soft Start 54V Controller En Filter gt cs Y gt Circuit gt and 3 KW EMI Filter Cooling Fans 54V AC DC AC1 2 Pwr Sply 220V gt EMI gt Module gt gt gt 20A 1 l A1 Line Card x4 3 KW Narrow AC DC Range Point of Soft Start 54V Fixed 10 8V AC1 3 Emi Pwr Sply SV _ gt
24. ci m5 O N Port 12 SFP cage 2 port 100 Gigabit Ethernet Line Card The 2 port 100 GE line card provides two CFP cages for CFP Ethernet optical interface modules that operate at a rate of 100 Gbps The two CFP modules can be100 Gigabit Ethernet multimode connections The 2 port 100 GE line card is available in either an SE Service Edge Optimized or TR Packet Transport Optimized version Both versions are functionally equivalent but vary in configuration scale and buffer capacity Each CFP cage on the 2 port 100 GE line card has an adjacent Link LED visible on the front panel The Link LED indicates the status of the associated CFP port Figure 2 32 shows the front panel and connectors of the 2 port 100 GE line card Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide 0L 17501 09 Chapter2 Functional Description Ethernet Line Cards Ml Figure 2 32 2 Port 100 Gigabit Ethernet 2x100GE Line Card Front Panel O x x1x1xlxlsizisisziis l amp lslsisiszisi i x1x11 1z19191219191215191ss1951 AQK 2T2 GE E 1 Ejector lever one of two 4 100 GE CFP connector two of two Line Card Status LED 330754 c1 Captive installation screw one of two 100 GE C
25. Chapter2 Functional Description H Power System Functional Description Figure 2 42 Cisco ASR 9010 Router AC Power System Block Diagram Version 2 Power System AC Power Shelf 0 Power Distribution Fan Tray 0 w AC DC Power Supply Modules Backplane AC DC Fan AC1 1 Pwr Sply Soft Start Controll EMI g 54V Controller 220V gt iter Module SN gt gt gt Circuit gt and 20A 1 PMO EMI Filter Cooling 3 KW V Fans AC DC AC 1 2 Pwr Sply 220V gt F EM gt Module gt gt gt 20A 1 add PM1 3 KW AC DC Line Card x8 AC1 3 Pwr Sply EMI 220V D gt fiter Module NAFTON 20A 1 PM2 Range 3 KW 54N Soft Start _54y Fixed 10 8V pur Y gt Circuit gt Ratio 0a AC DC EMI Filter 5 1 POL AC1 4 E Pwr Sply 10 8V Converters 220V gt Filter Module 54V RTN Converter 20A 1 PM3 3 KW A AC Power Shelf 1 w AC DC Power Supply Modules RSP Card x2 AC DC AC2 1 Pwr Sply Narrow 220V gt gt ES Module Range 20A 1 PM4 E S
26. OL 17501 09 AppendixA Technical Specifications Table A 6 Cisco ASR 9000 Series Environmental Specifications continued Description Value Shock Operating halfsine 21 in sec 0 53 m sec Non operating trapezoidal pulse 20 G 52 in sec 1 32 m sec Vibration Operating 0 35 Grms from 3 to 500 Hz Non operating 1 0 Grms from 3 to 500 Hz 1 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 2 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 that are used in this line card When using this line card the maximum operating temperature is 104 F 40 C 3 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 4 The 24 port 10 Gigabit Ethernet linecard requires high temperature optics to run in the extended temperature range 5 Operating altitude specifi
27. Chapter 1 Overview and Physical Description H Power System AC and DC Power Modules Each AC or DC power tray houses up to four power modules The AC and DC power trays in the Cisco ASR 9006 Router and Cisco ASR 9904 Router provide N 1 redundancy The AC power trays in the Cisco ASR 9010 Router Cisco ASR 9922 Router and Cisco ASR 9912 Router provide N N redundancy The DC power trays provide N 1 redundancy The power trays drive a single output bus that delivers 54 V to all cards and fan trays that are plugged into the backplane Figure 1 29 shows a front view of six version 1 power modules in the Cisco ASR 9010 Router Figure 1 29 Front System View of Power Trays Cisco ASR 9010 Router with Version 1 Power Trays DO 00 00 00 00 O 242900 Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide P34 OL 17501 09 Chapter Overview and Physical Description Power System MI Figure 1 30 shows a front view of eight version 2 power modules in the Cisco ASR 9010 Router Figure 1 30 Front System View of Power Trays Cisco ASR 9010 Router with Version 2 Power Trays
28. 8 S 8 Figure 2 51 and Figure 2 52 show block diagrams of the Cisco ASR 9922 Router with AC and DC version 2 power systems Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide 7260 H OL 17501 09 Chapter2 Functional Description Power System Functional Description W Figure 2 51 Cisco ASR 9922 Router AC Power System Block Diagram Version 2 Power System AC Power Shelf 0 w AC DC 3KW Power Distribution Power Supply Modules AC1 1 EMI 220V gt PMO 20A 10 gt Filter 54V aw 5 EMI py 20A 18 Filter gt gt AC1 3 220V EMI PM2 Fan Tray x4 20A 18 Filter Abid Soft Start EMI Circuit 220V _ 20A 1 2 Filter gt PMS 54V gt gt _ EM 94V Cooling Filter and Fans Fan Controller AC Power Shelf 1 w AC DC 3KW Power Supply Modules AC2 1 EMI zw
29. LEDs and Fan Tray LEDs light until the button is released The LED matrix display is not affected Functional Description The switch fabric and route processor functions are combined on a single RSP card in the Cisco ASR 9010 Router Cisco ASR 9006 Router and Cisco ASR 9904 Router In the Cisco ASR 9922 Router and Cisco ASR 9912 Router the route processor functions are on the RP card whereas the switch fabric is on the FC card The RSP RP card also provides shared resources for backplane Ethernet timing and chassis control Redundant RSP RP cards provide the central point of control for chassis provisioning management and data plane switching Switch Fabric The switch fabric portion of the RSP card links the line cards together The switch fabric is configured as a single stage of switching with multiple parallel planes The fabric is responsible for getting packets from one line card to another but has no packet processing capabilities Each fabric plane is a single stage non blocking packet based store and forward switch To manage fabric congestion the RSP card also provides centralized Virtual Output Queue VOQ arbitration Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide EM OL 17501 09 Chapter2 Functional Description Route Processor Card W In systems with the RSP card the switch fabric is capable of delivering 80 Gbps per line card slot In systems with the RSP 440 card the sw
30. PTT EEEE gt PHY gt SW lt gt To NPUs gt NPU 10GE XFP B lt a gt FPGA C lt k PH NPU m 10GE XFP p Pee fe a erface Chip e gt NPU 10x1GE SFP lt lt FPGA a gt NPU 4 10x1GE SFP 194815 2x10GE 20x1GE Combination Line Card Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide 7232 H OL 17501 09 Chapter2 Functional Description Figure 2 26 2 port Ethernet Line Cards 10 Gigabit Ethernet 20 Port 1 Gigabit Ethernet 2x10GE 20x1GE Combination Line Card Front Panel fe Oa l On u A9K 2T2 GE E 3 STATUS o Ca Ejector lever one of two D 1GE Port 18 SFP cage 10GE Port 0 XFP cage Line Card Status LED XFP Port Status LED one per XFP port 1GE Port 19 SFP cage 1GE Port 0 SFP cage O oo No 1GE Port 1 SFP cage cim OO N N SFP Port Status LED one per SFP port 10 Captive installation screw one of two OL 17501 09 Cisco ASR 9000 Series Aggregation Services Router Overview and
31. RSP cards 4 E C Slot 0 RSPO 3 Power shelf gt MO M1 M2 Pp NS P Y Power modules Figure 1 19 Cisco ASR 9006 Router Slot ID Numbering Version 2 Power Tray Ino BESTE C Slot 5 Line card 3 Li d Slot 4 Line card 2 HERR Slot 3 Line card 1 Slot 2 Line card 0 gt Slot 1 RSP1 RSP cards _ lt L Slot 0 RSPO 3 Power shelf MO M1 M2 M3 Power modules Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide ELEM OL 17501 09 Chapter Overview and Physical Description Rack Mounting Considerations Figure 1 20 shows slot ID numbering for the Cisco ASR 9904 Router with the version 2 power tray Figure 1 20 Cisco ASR 9904 Router Slot ID Numbering Version 2 Power Tray Single fan tray rear view Line card 1 gt Slot 3 Line card 1 Slot 2 RSP1 RSP cards SSS Slot 1 RSPO Line card 0 gt Slot 0 Line card 0 E Power shelf MO M1 M2 M3 we Power modules Figure 1 21 shows slot numbering for the Cisco ASR 9922 Router with version 2 power trays Figure 1 22 shows slot numbering for the Cisco ASR 9912 Router with version 2 power trays amp Note For the Cisco ASR 9922 Router line cards must be installed upside down in slots 10 through 19 of the bottom card cage whereas i
32. Subscriber aware broadband aggregation The Cisco ASR 9000 Series Routers meet carrier class requirements for redundancy availability packaging power and other requirements traditional to the service provider The Cisco ASR 9000 Series consists of seven routers Cisco ASR 9001 Router Cisco ASR 9001 S Router Cisco ASR 9010 Router Cisco ASR 9006 Router Cisco ASR 9904 Router Cisco ASR 9922 Router Cisco ASR 9912 Router OL 17501 09 Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide H Chapter 1 Overview and Physical Description H Chassis Physical Overview This chapter briefly describes the chassis configuration and components of the Cisco ASR 9000 Series Routers For information on the Cisco ASR 9001 and Cisco ASR 9001 S Routers see Cisco ASR 9001 and Cisco ASR 9001 S Routers Hardware Installation Guide Cisco ASR 9010 Router The Cisco ASR 9010 Router chassis is centered around a redundant pair of RSP cards along with eight line cards The 10 slot chassis size fits in Telco EIA and ETSI racks and cabinets The version 1 power system has three power modules in each of two power trays The version 2 power system has four power modules in each of two power trays Figure 1 1 shows the slot locations for the chassis with version 1 power trays Figure 1 2 shows the slot locations for the chassis with version 2 power trays Figure 1 1 Cisco ASR 9010 Router Chassis Components Version 1
33. gt 10G PHY gt SFP gt 10G PHY gt SFP lt gt 10G PHY gt SFP gt 10G PHY SFP gt 10G PHY SFP gt 10G PHY gt SFP 10G PHY lt gt QO m lt gt a NPUs To FPGAs 248890 E Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide 0L 17501 09 Chapter2 Functional Description Route Switch Processor Card W Figure 2 5 Major System Components and Interconnections in the Cisco ASR 9922 Series Router RP 0 RP 1 Punt lt gt CPU Punt gt CPU System Fabric VOQ GE Control 1 System Fabric VOQ GE Control Timing Interface lt gt scheduler Switch Interface ROUGE Timing Interface lt gt scheduler Switch Interface n T r t FH Backplanes FCO FC1 FC6 Control Interface Control Interface Control Interface Backplanes LCO BPID LC19 BPID GE e Arbiter PEDIS GE PHY Arbiter Fabric Interface Interface Chip Chip Legend P P ow Sa B oe EOBC e e o o Arbi
34. 09 Chapter2 Functional Description Cooling System Functional Description Bi Figure 2 72 Cisco ASR 9922 Router and Cisco ASR 9912 Router Fan Tray 1 Fan tray status LED The fan tray contains 12 axial 120 mm 4 72 in fans There is a fan control board at the back end of each tray with a single power data connector that connects with the backplane e The fan tray aligns through two guide pins inside the chassis and it is secured by two captive screws The controller board floats within the fan tray to allow for alignment tolerances e A finger guard is adjacent to the front of most fans to keep fingers away from spinning fan blades during removal of the fan tray The maximum weight of the fan tray is 18 00 Ib 8 16 kg e The fan tray width is increased from 16 3 inches to 17 3 inches The overall fan tray depth remains the same at 23 inches The individual fan current rating is increased to 2 A to support higher speeds Status Indicators The fan tray has a Run Fail status LED on the front panel to indicate fan tray status After fan tray insertion into the chassis the LED lights up temporarily appearing yellow During normal operation The LED lights green to indicate that all fans in the module are operating normally The LED lights red to indicate a fan failure or another fault in the fan tray module Possible faults are Fan stopped Fans running below required speed to maintain sufficient cool
35. 9000 Series Routers chassis is cooled by removable fan trays The fan trays provide full redundancy and maintain required cooling if a single fan failure should occur In the Cisco ASR 9010 Router the two fan trays are located one above the other below the card cage and are equipped with handles for easy removal In the Cisco ASR 9006 Router the two fan trays are located above the card cage left of center and side by side They are covered by a fan tray door hinged at the bottom which must be opened before removing the fan trays In the Cisco ASR 9904 Router a single fan tray is located to the left of the card cage accessible from the rear and is equipped with handles for easy removal In the Cisco ASR 9922 Router the two top fan trays are located between the top and middle cages while the two bottom fan trays are located between the middle and bottom cages The two bottom fan trays are inserted upside down compared to the two top fan trays In the Cisco ASR 9912 Router the two fan trays are located above the line card cage Each fan tray holds 12 axial fans and includes a controller that reduces the speed of the fans when the chassis temperature is within limits thereby reducing the generation of acoustic noise The fan controller also senses and reports individual fan failures The Cisco ASR 9010 Router chassis has a front to rear cooling path The inlet is at the bottom front of the chassis and the exhaust is at the upper rear Fig
36. 9904 Router Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 EN Chapter2 Functional Description H Router Operation Figure 2 1 Cisco ASR 9010 Router Cisco ASR 9006 Router and Cisco ASR 9904 Router Platform Architecture AAA AAAA AAAA P Distributed Distributed Distributed Forwarding Forwarding Forwarding Line Card Line Card Line Card maim Switch Fabric RSP 0 Route Processor RSP 1 Figure 2 2 shows the platform architecture of the Cisco ASR 9922 Router and Cisco ASR 9912 Router Figure 2 2 Cisco ASR 9922 Router and Cisco ASR 9912 Router Platform Architecture AAA AAAA AAAA Distributed Distributed Distributed Forwarding Forwarding Forwarding Line Card Line Card Line Card 242918 RP 0 RP 1 Fabric Controller cards FCO to FC6 Route Processor A ALLLLLLLLLt 344071 Figure 2 3 shows the major system components and interconnections of the Cisco ASR 9000 Series Routers Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide Em OL 17501 09 Chapter2 Functional Description Router Operation H
37. Card Packet Transport Optimized Requires SFP SFP Modules 36 port 10 GE DX Line Card Service Edge Optimized Requires SFP SFP Modules 2 port 100 GE DX Line Card Packet Transport Optimized Requires CFP CFP Modules OL 17501 09 Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide H Chapter2 Functional Description H Ethernet Line Cards Table 2 7 Ethernet Line Cards Available for the Cisco ASR 9000 Series Routers continued Line Card Module Type 2 port 100 GE DX Line Card Service Edge Optimized Requires CFP CFP Modules 1 port 100 GE DX Line Card Packet Transport Optimized Requires CFP CFP Modules 1 port 100 GE DX Line Card Service Edge Optimized Requires CFP CFP Modules 80 Gigabyte Modular Line Card Packet Transport Optimized N A 80 Gigabyte Modular Line Card Service Edge Optimized N A 160 Gigabyte Modular Line Card Packet Transport Optimized N A 160 Gigabyte Modular Line Card Service Edge Optimized N A 20 port GE Modular Port Adapter MPA SFP 8 port 10 GE MPA SFP 4 port 10 GE MPA XFP 2 port 10 GE MPA XFP 2 port 40 GE MPA QSFP 1 port 40 GE MPA QSFP 1 SFP Gigabit Ethernet small form factor pluggable transceiver module 2 XFP 10 Gigabit Ethernet small form factor pluggable transceiver module 3 SFP 10 Gigabit Ethernet small form factor pluggable transceiver module 4 CFP 100 Gigabit Ethernet small form factor pl
38. Chassis weight e Chassis only e 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 any cards power modules fan trays or chassis accessories Table A 6 lists the environmental specifications for the Cisco ASR 9000 Series Routers Table A 6 Cisco ASR 9000 Series Environmental Specifications Description Value Operating Temperature 41 to 104 F 5 to 40 C Operating Temperature Short term e 23 to 131 F 5 to 55 C for Cisco ASR 9904 Router e 23 to 131 F 5 to 55 C for Cisco ASR 9006 Router e 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 158 F 40 to 70 C Humidity Operating 10 to 85 percent noncondensing Non operating 5 to 95 percent noncondensing Altitude 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 Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide Technical Specifications
39. Description Power Fail Green FC card powered on and FPGA is programmed FAIL Monitor CLI messages for status Note Fabric Data Link failure is not detected so LED remains green Red Fault or malfunction in FC card power up or FPGA programming Note Once any ejector lever release button is pushed in the FC card must be physically removed and reinserted OIR to restart the FC card During this time before the FC card is restarted the LED is red Amber FC card powered on but fabric not active Off FC card powered off via CLI Default after reset Ethernet Line Cards Table 2 7 lists the Ethernet line cards available for the Cisco ASR 9000 Series Routers Table 2 7 Ethernet Line Cards Available for the Cisco ASR 9000 Series Routers Line Card Module Type 40 port Gigabit Ethernet 40x IGE line card SFP 8 port 10 Gigabit Ethernet 8x 10GE 2 1 oversubscribed line card XFP 4 port 10 Gigabit Ethernet 4x TOGE line card XFP 8 port 10 Gigabit Ethernet 5x 10GE 80G line rate card XFP 2 port 10 Gigabit Ethernet plus 20 port Gigabit Ethernet 2x 10GE 20x 1GE combination line card XFP for 10GE ports SFP for 1GE ports 16 port 10 Gigabit Ethernet 16x10GE oversubscribed line card SFP 3 24 port 10 GE DX Line Card Packet Transport Optimized Requires SFP SFP Modules 24 port 10 GE DX Line Card Service Edge Optimized Requires SFP SFP Modules 36 port 10 GE DX Line
40. IETF For example a soft reboot of certain software modules does not hinder network processors the switch fabric or the physical interface operation of forwarding packets Similarly a soft reset of a non data path device such as a Ethernet Out of Band Channel Gigabit Ethernet switch does not impact the forwarding of packets Nonstop Routing Nonstop routing NSR allows forwarding of data packets to continue along known routes while the routing protocol information is being refreshed following a processor switchover NSR maintains protocol sessions and state information across SSO functions for services such as MPLS VPN TCP connections and the routing protocol sessions are migrated from the active RSP RP card to the standby RSP RP card after the RSP RP switchover without letting peers know about the switchover The sessions terminate and the protocols running on the standby RSP RP card reestablish the sessions after the standby RSP RP goes active NSR can also be used with graceful restart to protect the routing control plane during switchovers The NSR functionality is available only for Open Shortest Path First Protocol OSPF and Label Distribution Protocol LDP routing technologies Graceful Restart Graceful restart GR provides a control plane mechanism to ensure high availability by allowing detection and recovery from failure conditions while preserving Nonstop Forwarding NSF services Graceful restart is a way to recover from si
41. N P rA Series Router A SH Fic Line Card Fabric NST LC 4 Chip FA P RP Chip FIC Line Card LC 7 3 V J Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 EX Chapter2 Functional Description H Route Processor Card Figure 2 10 shows the Cisco ASR 9922 Router switch fabric Figure 2 10 Cisco ASR 9922 Router Switch Fabric Each path is 55 Gbps FIC Each path is 55 Gbps _ Arco FIC FC1 FIC VEERFCeH7 amp FIC La Each path is 55 Gbps Each path is 55 Gbps 333323 Unicast Traffic Unicast traffic through the switch is managed by a VOQ scheduler chip The VOQ scheduler ensures that a buffer is available at the egress of the switch to receive a packet before the packet can be sent into the switch This mechanism ensures that all ingress line cards have fair access to an egress card no matter how congested that egress card may be The VOQ mechanism is an overlay separate from the switch fabric itself VOQ arbitration does not directly control the switch fabric but ensures that traffic presented to the switch will ultimately have a place to go when it exits the
42. Power Trays p lt Rear air exhaust Cable management tray Two center slots Rack mount bracket reserved for redundant RSPs Eight slots H four on each side for line cards Two fan trays 1 Front air intake Six AC DC or DC DC p gt power modules 242893 Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide Em OL 17501 09 Chapter 1 Overview and Physical Description Chassis Physical Overview W Figure 1 2 Cisco ASR 9010 Router Chassis Components Version 2 Power Trays Cable management tray Two center slots reserved for redundant RSPs four on each side for line cards Two fan trays Eight slots Front air intake Eight AC DC k DC DC power modules 284400 Rear air exhaust Rack mount bracket OL 17501 09 Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide H Chapter 1 Overview and Physical Description H Chassis Physical Overview Cisco ASR 9006 Router The Cisco ASR 9006 Router chassis is centered around a redundant pair of RSP cards along with four line cards The 6
43. Router Each SFP cage on the 8 Port 10 Gigabit Ethernet modular port adapter has an adjacent A L Active Link LED visible on the front panel The A L Active Link LED indicates the status of the associated SFP port Figure 2 36 shows an example of the 8 Port 10 Gigabit Ethernet MPA Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 H 245 Chapter2 Functional Description H Modular Line Cards Figure 2 36 8 Port 10 Gigabit Ethernet MPA 4 Port 10 Gigabit Ethernet Modular Port Adapter The 4 Port 10 Gigabit Ethernet MPA provides four cages for XFP Ethernet optical interface modules that operate at a rate of 10 Gbps The four XFP modules can be 10 Gigabit Ethernet multimode connections Each XFP cage on the 4 Port 10 Gigabit Ethernet MPA has an adjacent A L LED visible on the front panel The A L LED indicates the status of the associated XFP port Figure 2 37 shows an example of the 4 Port 10 Gigabit Ethernet MPA Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide ELS OL 17501 09 Chapter2 Functional Description Modular Line Cards H Figure 2 37 4 Port 10 Gigabit Ethernet MPA 2 port 10 Gigabit Ethernet Modular Port Adapter The 2 Port10 Gigabit Ethernet MPA provides two cages for XFP Ethernet optical interface modules that operate at a rate of 10 Gbps The two XFP modules can be 10 Gigabit Ethernet multimode connections Each XF
44. Version 2 3000W AC 3000W AC 3000W AC 3000W AC 3000W AC 3000W AC 3000W AC 3000W AC 3000W AC 3000W AC 3000W AC 3000W AC 3000W AC 3000W AC 3000W AC 3000W AC 3000W AC 3000W AC 3000W AC 3000W AC 6 000W AC system 2 2 min power redundancy 24 000W AC system 8 8 max power redundancy 344095 Figure 3 6 AC System Power Redundancy for the Cisco ASR 9912 Router Version 2 3000W AC 3000W AC 3000W AC 3000W AC 3000W AC 3000W AC 3000W AC 3000W AC 3000W AC 3000W AC 3000W AC 3000W AC 3000W AC 3000W AC 3000W AC 3000W AC 6 000W AC system 2 2 min power redundancy 18 000W AC systems 6 6 max power redundancy 350774 S Note The Cisco ASR 9010 Router Cisco ASR 9922 Router and Cisco ASR 9912 Router are capable of operating with power modules installed in only one of their power trays However such a configuration does not provide any redundancy Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 EN Chapter 3 High Availability and Redundant Operation H Power Supply Redundancy amp Note AC power redundancy for the Cisco ASR 9010 Router Cisco ASR 9922 Router and Cisco ASR 9912 Router requires that power modules be installed in multiple power trays DC Power Redundancy The DC power modules are a modular design allo
45. application windows to provide CLI access External or XML clients can programmatically access the configuration and operational data of the Cisco ASR 9000 Series Router using XML The XML support includes retrieval of inventory interfaces alarms and performance data The system is capable of supporting 15 simultaneous XML SSH sessions The system supports alarms and event notifications over XML and also supports bulk PM retrieval and bulk alarms retrieval XML clients are provided with the hierarchy and possible contents of the objects that they can include in their XML requests and can expect in the XML responses documented in the form of an XML schema When the XML agent receives a request it uses the XML Service Library to parse and process the request The Library forwards the request to the Management Data API MDA Client Library which retrieves data from the SysDB The data returned to the XML Service Library is encoded as XML responses The agent then processes and sends the responses back to the client as response parameter of the invoke method call The alarm agent uses the same XML Service Library to notify external clients about configuration data changes and alarm conditions The SNMP interface allows management stations to retrieve data and to get traps It does not allow setting anything in the system In conformance with SMIv2 Structure of Management Information Version 2 as noted in RFC 2580 the system supports SNMPv
46. gt NPU 10xSFP B lt p gt FPGA a lt lt k L gt NPU amp gt 10xSFP p Fabric lt L Interface a Chip 3 gt NPU 10xSFP a FPGA a gt NPU gt 10xSFP 40x1GE 5 Line Card E Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide 0L 17501 09 Chapter2 Functional Description Ethernet Line Cards Ml Figure 2 18 40 Port Gigabit Ethernet 40x 1GE Line Card Front Panel SN a E SEPstietstetetetstotetstsetetetstetetstsetoetistetoetsa te tote te a a a e teste tl 242982 Line Card Status LED Port 39 SFP cage Port 1 SFP cage Ejector lever one of two Port 0 SFP cage Port Status LED one per port Port 38 SFP cage B W N co oO Ci Captive installation screw one of two Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 EZ Chapter 2 Functional Description H Ethernet Line Cards 8 Port 10 Gigabit Ethernet 8x10GE 2 1 Oversubscribed Line Card The 8 port 10 Gigabit Ethernet 8x IOGE 2 1 oversubscribed line card has eight 10 Gigabit Ethernet oversubscribed XFP module ports Two 10 Gigabit Ethernet ports connect to XAUI interfaces on each of the four
47. may cause harmful interference to radio communications Operation of this equipment in a residential area is likely to cause harmful interference in which case users will be required to correct the interference at their own expense The following information is for FCC compliance of Class B devices The equipment described in this manual generates and may radiate radio frequency energy If it is not installed in accordance with Cisco s installation instructions it may cause interference with radio and television reception This equipment has been tested and found to comply with the limits for a Class B digital device in accordance with the specifications in part 15 of the FCC rules These specifications are designed to provide reasonable protection against such interference in a residential installation However there is no guarantee that interference will not occur in a particular installation Modifying the equipment without Cisco s written authorization may result in the equipment no longer complying with FCC requirements for Class A or Class B digital devices In that event your right to use the equipment may be limited by FCC regulations and you may be required to correct any interference to radio or television communications at your own expense You can determine whether your equipment is causing interference by turning it off If the interference stops it was probably caused by the Cisco equipment or one of its peripheral devices If the equipme
48. optional equipment for Telnet management This port defaults to 9600 Baud 8 data no parity 1 stop bit with software handshake Alarm circuitry on the RSP RP activates dry contact closures that are accessible through the nine pin Alarm Out connector on the RSP RP front panel Each RSP RP card drives a set of three alarm output contacts Both normally open and normally closed contacts are available Only the active RSP RP drives the alarm outputs Should a switchover to the standby RSP RP occur the newly active RSP RP drives the alarm outputs Synchronization Ports The SYNC 0 and SYNC 1 ports are timing ports that can be configured as Building Integrated Timing System BITS ports A BITS port provides a connection for an external synchronization source to establish precise frequency control at multiple network nodes if required for your application The RSP RP card contains a Synchronous Equipment Timing Source SETS that can receive a frequency reference from an external BITS timing interface or from a clock signal recovered from any incoming OL 17501 09 Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide H Chapter2 Functional Description H Route Processor Card RP USB Port interface such as a Gigabit Ethernet 10 Gigabit Ethernet or SONET interface The RSP RP SETS circuit filters the received timing signal and uses it to drive an outgoing Ethernet interface or BITS output port The timin
49. switch fabric Route Processor Functions The Route Processor performs the ordinary chassis management functions The ASR 9000 Series Routers run Cisco IOS XR software so the Route Processor runs the centralized portions of the software for chassis control and management Secondary functions of the Route Processor include boot media system timing frequency and time of date synchronization precision clock synchronization backplane Ethernet communication and power control through a separate CAN bus controller network The Route Processor communicates with other route processors and linecards over a switched Ethernet out of band channel EOBC for management and control purposes Figure 2 11 shows the route processor interconnections on the RSP Figure 2 12 shows the component interconnections on the RP Figure 2 13 shows the component interconnections on the FC Figure 2 11 Route Processor Interconnections C B CPU Interface lt FPGA lt ______ B CPU Packet R VOQ a I lt Diversion Scheduler R C FPGA k p a a Fabric Interface System Chip Timing Fabric 3 hi Y Chip GE RSP Switch lt E Q OL 17501 09 Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide H Chapter2 Functional Description H Route Processor Card
50. version of the line card providing typically twice the service scale of the base line card Figure 2 23 shows the block diagram for the Sx IOGE 80 G line rate card and Figure 2 24 shows the front panel connectors and indicators Figure 2 23 8 Port 10 Gigabit Ethernet 8x10GE 80 Gbps Line Rate Card Block Diagram P PE o gt GE gt CPU lt gt GE lt To FPGAs gt okt CEET gt PHY lt gt lt gt SW lt gt To NPUs lt gt NPU gt 10GE XFP ic lt gt 10GE XFP BT interface ais B i FPGA c Chip a x lt gt NPU lt gt 10GE XFP k i lt gt NPU lt gt 10GE XFP a n e lt gt NPU gt 10GE XFP ic e 10GE XFP ee i FPGA Chip a x lt gt NPU lt gt 10GE XFP lt gt NPU 10GE XFP 8x10GE 80G Line Rate Card 2 2 Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide Ex OL 17501 09 Chapter2 Functional Description Ethernet Line Cards Ml Figure 2 24 8 Port 10 Gigabit Ethernet 8x10GE 80 Gbps Line Rate Card Front Panel i um UUE IIa cltaizelaizaiaeialioeizizeietzizeizizetzizletuxize
51. 0GE Line Card 2 28 8 port 10 Gigabit Ethernet 8x10GE 80 Gbps Line Rate Card 2 30 2 Port 10 Gigabit Ethernet 20 port 1 Gigabit Ethernet 2x10GE 20x1GE Combination Line Card 2 32 Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide mm OL 17501 09 Contents MI 16 port 10 Gigabit Ethernet 16x10GE Oversubscribed Line Card 2 34 24 Port 10 Gigabit Ethernet Line Card 2 36 36 port 10 Gigabit Ethernet Line Card 2 38 2 port 100 Gigabit Ethernet Line Card 2 40 1 Port 100 Gigabit Ethernet Line Card 2 42 Modular Line Cards 2 44 20 port Gigabit Ethernet Modular Port Adapter 2 44 8 port 10 Gigabit Ethernet Modular Port Adapter 2 45 4 Port 10 Gigabit Ethernet Modular Port Adapter 2 46 2 port 10 Gigabit Ethernet Modular Port Adapter 2 47 2 Port 40 Gigabit Ethernet Modular Port Adapter 2 48 1 Port 40 Gigabit Ethernet Modular Port Adapter 2 49 Power System Functional Description 2 50 Power Modules 2 63 Power Module Status Indicators 2 64 System Power Redundancy 2 65 AC Power Trays 2 66 AC Tray Power Switch 2 67 AC Input Voltage Range 2 67 DC Output Levels 2 67 AC System Operation 2 68 Power Up 2 68 Power Down 2 68 DC Power Trays 2 68 DC Tray Power Switch 2 68 DC Power Tray Read Panel 2 68 DC Power Tray Power Feed Indicator 2 69 DC System Operation 2 70 Power Up 2 70 Power Down 2 71 Cooling System Functional Description 2 71 Cooling Path 2 72 Fan Trays 2 76 Cisco A
52. 1 SNMPv2c and SNMPv3 interfaces The system supports feature consistency between the CLI and SNMP management interfaces The system is capable of supporting at least 10 SNMP trap destinations Reliable SNMP Trap Event handling is supported OL 17501 09 Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide H Chapter2 Functional Description H Online Diagnostics For SNMPv1 and SNMPv2c support the system supports SNMP View to allow inclusion exclusion of Miss for specific community strings The SNMP interface allows the SNMP SET operation MIBs The Device Management MIBs supported by the ASR 9000 Series Routers are listed at http cisco com public sw center netmgmt cmtk mibs shtml Online Diagnostics System run time diagnostics are used by the Cisco Technical Assistance Center TAC or the end user to troubleshoot a field problem and assess the state of a given system Some examples of the run time diagnostics include the following Monitoring line card to RSP RP card communication paths Monitoring line card to RSP RP card data path Monitoring CPU communication with various components on the line cards and RSP RP cards Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide TETTE CHAPTER High Availability and Redundant Operation This chapter describes the high availability and redundancy features of the Cisco ASR 9000 Series Routers Features Overvi
53. 2 Filter gt PM4 AG 54V Line Card x20 220v gt Cun p PMS Soft Start Narrow 20A 1 ilter gt gt gt sea Range Circuit Point of AC2 3 EMI 54V EMI 54V Fixed 10 8V Load 220V Lo wN i anis 12 Filter gt PM6 D Filter and gt pus gt POL Pc EMI este aay eeu 220V L 20A 1 gt Filter E PM Converter AC Power Shelf 2 w AC DC 3KW Power Supply Modules Route Processor x2 Narrow AC3 1 EMI Soft Start Nube Range Ens gt Filter g PM8 Circuit DN Wai 40 8V Point of 54V 54V RIR EMI Ratio Load 2 5 EMI pug Filter and gt 5 1 gt POL 20A 1 Filter l Fan 40 8V Converters Controller N eun EMI Converter a 2 Filter m PM10 AC3 4 EMI 220V L 20A 1 gt Filter m M11 Fabric Card x7 Soft Start m AC Power Shelf 3 w AC DC 3KW Circuit inge Point of Power Supply Modules 54V EMI E hed cu Load PPP riter and B F POL AC4 1 220V gt EE Lp PM12 M 40 8V Converters 20A dg GAV Converter AC4 2 F EMI 220V 20A 1 2 Filter gt PM13 gt gt AC4 3 220V X e gt PM14 ate 54V RTN AC4 4 EMI 2 220V 20A 1 gt Filter g PM15 77 Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 EIN Chapter2 Functional Description H Power System Functional Description Figure 2 52 Cisco ASR 9922 Router DC Power System Block Diagram Version 2 Power System
54. 2100W DC 2100W DC 2100W DC 2100W DC 2100W DC 2100W DC 2100W DC 2100W DC 2100W DC 2100W DC 2100W DC 2100W DC 2100W DC 2100W DC 2100W DC 6 300W DC system 3 1 min power redundancy S Note The Cisco ASR 9000 Series Routers are capable of operating with one power module However such a configuration does not provide any redundancy 23 100W DC system 11 1 max power redundancy 350775 Redundant 48 VDC power feeds are separately routed to each power tray For maximum diversity the power entry point to each tray is spatially separated to the left and right edges of the tray Each feed can support the power consumed by the entire tray There is load sharing between the feeds Each power module in the tray uses either feed for power enabling maintenance or replacement of a power feed without causing interruption Detection and Reporting of Power Problems All 48 VDC feed and return lines have fuses and are monitored Any fuse blown can be detected and reported The input voltages are monitored against an over and under voltage alarm threshold The controller area network CAN monitors the power output voltage levels Cooling System Redundancy The Cisco ASR 9000 Series Routers are configured in such a way that a fan failure or its subsequent replacement does not cause a significant outage During either a fan replacement or a fan failure the airflow is maintained and
55. 220 VAC 20 A source Table A 17 shows the limits of the specified AC input voltage The voltages given are single phase power source DC Output Levels The output for each module is within the tolerance specifications see Table A 19 under all combinations of input voltage variation load variation and environmental conditions The combined total module output power does not exceed 3000 W The AC tray output capacity depends on how many modules are populated Maximum output current is determined by multiplying the maximum module current times module quantity For example to determine the maximum capacity with three power supply modules multiply the current by three x3 AC System Operation This section describes the normal sequence of events for system AC power up and power down Power Up 1 AC power is applied to the power tray by toggling the user s AC circuit breakers to the ON position 2 AC DC power supplies are enabled by toggling the Power On Off logic switch located in each of the power trays to the ON position 3 AC DC modules in the power trays provide 54 VDC output within six seconds after the AC is applied Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 EIN Chapter2 Functional Description H Power System Functional Description Power Down DC Power Trays The soft start circuit in the logic cards takes 100 milliseconds to charge the input capacitor of
56. E MPA e 4 port 10 GE MPA e 2 port 10 GE MPA e 2 port 40 GE MPA e l port 40 GE MPA 20 port Gigabit Ethernet Modular Port Adapter The 20 port Gigabit Ethernet MPA provides 10 double stacked SFP 20 total cages that support either fiber optic or copper Gigabit Ethernet transceivers It also supports copper SFP modules with 10 100 1000 Mbps speed Each SFP cage on the Gigabit Ethernet MPA has an adjacent A L LED visible on the front panel The A L LED indicates the status of the associated SFP port Figure 2 35 shows an example of the 20 port Gigabit Ethernet MPA Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide ES OL 17501 09 Chapter2 Functional Description Modular Line Cards H Figure 2 35 20 Port Gigabit Ethernet MPA 8 port 10 Gigabit Ethernet Modular Port Adapter The 8 Port 10 Gigabit Ethernet modular port adapter provides eight cages for SFP Ethernet optical interface modules that operate at a rate of 10 Gbps The 8 Port 10 Gigabit Ethernet modular port adapter has the following guidelines and limitations The 8 Port 10 Gigabit Ethernet modular port adapter is supported on the 160 Gigabyte Modular Line Card only A9K MOD160 TR and A9K MOD160 SE The 8 Port 10 Gigabit Ethernet modular port adapter is not supported on the 80 Gigabyte Modular Line Card A9K MOD80 TR and A9K MOD80 SE The 8 Port 10 Gigabit Ethernet modular port adapter is not supported on the Cisco ASR 9001
57. E Modular Port Adapter MPA OL 17501 06 September 2012 Information added about the new Cisco ASR 9922 Router RP card FC card and the new 1 port 40 GE Modular Port Adapter MPA the new 36 Port 10 Gigabit Ethernet Line Card and the new 1 Port 100 Gigabit Ethernet Line Card OL 17501 05 March 2012 Information about the two types of image files P PIE files and X86 based PX PIE files added to the Functional Description chapter OL 17501 04 December 2011 Information added about the new RSP 440 card 24 port 10 GE fixed line card 2 port 100 GE fixed line card and the modular line card supporting the 20 port GE Modular Port Adapter MPA 4 port 10 GE MPA and 2 port 10 GE MPA Information added about the new version 2 power system The Cisco ASR 9006 Router and Cisco ASR 9010 Router now support both version 1 and version 2 power systems OL 17501 03 May 2010 Information added about the new 16x10 GE SFP line card and additional versions of existing cards OL 17501 02 December 2009 Information added about new 8x 10GE 80 Gbps line rate card and 2x10GE 20x1GE combination line card OL 17501 01 March 2009 Initial release of this document Document Conventions This publication uses the following conventions e Ctrl represents the key labeled Control For example the key combination Ctrl Z means hold down the Control key while you press the Z key Command descripti
58. FP connector one of two 1 Port 100 Gigabit Ethernet Line Card The 1 port 100 GE line card provides one CFP cage for a CFP Ethernet optical interface module that operates at a rate of 100 Gbps The CFP module can be a 100 Gigabit Ethernet multimode connection Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 EZ Chapter2 Functional Description H Ethernet Line Cards The 1 port 100 GE line card is available in either an SE Service Edge Optimized or TR Packet Transport Optimized version Both versions are functionally equivalent but vary in configuration scale and buffer capacity The CFP cage has an adjacent Link LED visible on the front panel The Link LED indicates the status of the CFP port Figure 2 33 shows the front panel of the 1 port 100 GE line card Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide 7242 H OL 17501 09 Chapter2 Functional Description Ethernet Line Cards Ml Figure 2 33 1 Port 100 Gigabit Ethernet 1x100GE Line Card Front Panel ac VU r E e do 1 139139139131391 391 391 91 1 1 91 91 91 91 91 91 1 91 139139139139313 91391 391913919139139139313913911
59. I 4 DC DC Converter 60A Filter Pwr Sply Module DC B6 EMI PM5 60A Filter 2 KW TB B6 TB A7 DC A7 EMI DC DC 60A Fiter Pwr Spiy Module Fan Tray 1 DC B7 gt EMI _ PM6 60A Filter 2KW TB B7 Fan TB A8 54V Soft Start _54V Controller DC A8 gt EMI DC DC DP Circuit gt and 60A Filter Pwr Sply EMI Filter Cooling Module Fans DC B8 EMI PM7 60A Fiter 2KW E TB B8 amp Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide EIN OL 17501 09 Chapter2 Functional Description Power System Functional Description W Figure 2 45 and Figure 2 46 show block diagrams of the Cisco ASR 9006 Router AC power system with version 1 and version 2 power systems Figure 2 47 and Figure 2 48 show block diagrams of the Cisco ASR 9006 Router DC power system with version 1 and version 2 power systems Figure 2 45 Cisco ASR 9006 Router AC Power System Block Diagram Version 1 Power System AC Power Shelf with Power Distribution Fan Tray 0 AC DC Power Supply Modules Backplane AC DC Fan AC1 1 Pwr Sply EMI d 54N Soft Start 5ay Controller Kru Filter I gt gt Circuit gt and 3KW EMI Filter Cooling
60. LEDs still function The power switch is on the front panel DC Power Tray Rear Panel Figure 2 60 shows the rear panel of the power tray for the version 1 power system Figure 2 61 shows the rear panel of the power tray for the version 2 power system Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 Chapter2 Functional Description Power System Functional Description W Figure 2 60 DC Power Tray Rear Panel gt iC F F LER K OOO OGG SOS OOo de Si VL e A a E b 1 DC output power blades 4 I2C cable from backplane A feed connectors 5 Primary ground B feed connectors 6 Power switch Figure 2 61 DC Power Tray Rear Panel Cisco ASR 9006 Router and Cisco ASR 9904 Router with Version 2 Power System Onn B SD peg eae omy oma Ea q o C iM i On J 4 j 4 o F i t J 284281 1 DC output power blades 3 B feed connectors 2 A feed connectors 4 I2C cable from backplane DC Power Tray Power Feed Indicator Figure 2 62 shows the location of the power feed indicators on the rear panel of the DC power tray for th
61. NPUs The 8x10GE 2 1 oversubscribed line card is available in base extended and low queue versions All versions are functionally equivalent with the extended version of the line card providing typically twice the service scale of the base line card Figure 2 19 shows the block diagram for the 8x IOGE 2 1 oversubscribed line card and Figure 2 20 shows the front panel connectors and indicators Figure 2 19 8 Port 10 Gigabit Ethernet 8x10GE 2 1 Oversubscribed Line Card Block Diagram NPU 10GE XFP 10GE XFP NPU 10GE XFP 10GE XFP NPU 10GE XFP 10GE XFP P uada GE S FL PHY i lt gt CPU B FPGA a lt c Fabric p abric Interface a Chip n i lt FPGA 8x10GE Line Card NPU 10GE XFP 10GE XFP 243065 Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide 0L 17501 09 Chapter2 Functional Description Ethernet Line Cards Ml Figure 2 20 8 Port 10 Gigabit Ethernet 8x 10GE 2 1 Oversubscribed Line Card Front Panel lt 1 ONN HR Che te te taer te te te tete teste teteotetoetototoetotetetetetetetoetetetetstetetetetett z W v v V Vv V Vv
62. ONSEQUENTIAL OR INCIDENTAL DAMAGES INCLUDING WITHOUT LIMITATION LOST PROFITS OR LOSS OR DAMAGE TO DATA ARISING OUT OF THE USE OR INABILITY TO USE THIS MANUAL EVEN IF CISCO OR ITS SUPPLIERS HAVE BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES CCVP the Cisco logo and Welcome to the Human Network are trademarks of Cisco Systems Inc Changing the Way We Work Live Play and Learn is a service mark of Cisco Systems Inc and Access Registrar Aironet Catalyst CCDA CCDP CCIE CCIP CCNA CCNP CCSP Cisco the Cisco Certified Internetwork Expert logo Cisco IOS Cisco Press Cisco Systems Cisco Systems Capital the Cisco Systems logo Cisco Unity Enterprise Solver EtherChannel EtherFast EtherSwitch Fast Step Follow Me Browsing FormShare GigaDrive HomeLink Internet Quotient IOS iPhone IP TV iQ Expertise the iQ logo iQ Net Readiness Scorecard iQuick Study LightStream Linksys MeetingPlace MGX Networkers Networking Academy Network Registrar PIX ProConnect ScriptShare SMARTnet StackWise The Fastest Way to Increase Your Internet Quotient and TransPath are registered trademarks of Cisco Systems Inc and or its affiliates in the United States and certain other countries Cisco and the Cisco logo are trademarks or registered trademarks of Cisco and or its affiliates in the U S and other countries To view a list of Cisco trademarks go to this URL www cisco com go trademarks Third party trademarks mentioned are the property o
63. P cage on the 2 Port10 Gigabit Ethernet MPA has an adjacent A L LED visible on the front panel The A L LED indicates the status of the associated XFP port Figure 2 38 shows an example of the 2 port10 Gigabit Ethernet MPA Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 ETE Chapter2 Functional Description H Modular Line Cards Figure 2 38 2 Port 10 Gigabit Ethernet MPA 2 Port 40 Gigabit Ethernet Modular Port Adapter The 2 Port 40 Gigabit Ethernet MPA provides two cages for QSFP Ethernet optical interface modules that operate at a rate of 40 Gbps The two QSFP modules can be 40 Gigabit Ethernet multimode or single mode connections Each QSFP cage on the 2 Port 40 Gigabit Ethernet MPA has an adjacent A L LED visible on the front panel The A L LED indicates the status of the associated QSFP port Figure 2 39 shows an example of the 2 Port 40 Gigabit Ethernet MPA Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide ELM OL 17501 09 Chapter2 Functional Description Modular Line Cards W Figure 2 39 2 Port 40 Gigabit Ethernet MPA 1 Port 40 Gigabit Ethernet Modular Port Adapter The 1 Port 40 Gigabit Ethernet modular port adapter provides a cage for a QSFP Ethernet optical interface module that operates at a rate of 40 Gbps The QSFP module can support either a 40 Gigabit Ethernet multimode connection or a 40 Gigabit Ethernet single
64. R 9000 Series Aggregation Services Router Overview and Reference Guide 0L 17501 09 Chapter 1 Overview and Physical Description Rack Mounting Considerations W Figure 1 17 Cisco ASR 9010 Router Slot ID Numbering Version 2 Power Trays RSP cards Line cards 0 3 Line cards 4 7 EM C UT aay 0 1 23 4 5 6 7 o 0 0 D o 0 0 o Sig alal o risci s al a Oo Of E A EE 909 ol o oj oln Dol oovo S S E E S 4 4 4 Ol au om wo o n ojo S S 5 5 5 5 oJ oO DN DD OD HD HD OD OD oD w FTO Fan trays FT1 Front air intake Power shelves 5 PSO MO M1 M2 M3 3 PS1 X Mo Mi M2 M3 Power modules OL 17501 09 Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide H Chapter 1 Overview and Physical Description H Rack Mounting Considerations Figure 1 18 shows slot ID numbering for the Cisco ASR 9006 Router with the version 1 power tray Figure 1 19 shows slot ID numbering for the Cisco ASR 9006 Router with the version 2 power tray Figure 1 18 Cisco ASR 9006 Router Slot ID Numbering Version 1 Power Tray Fan trays TON Slot 5 Line card 3 T T Slot 4 Line card 2 Slot 3 Line card 1 Slot 2 Line card 0 7 Slot 1 RSP1
65. RJ 45 e Alarm Output DB9 port with three alarm outputs Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide Er OL 17501 09 Chapter Overview and Physical Description Route Switch Processor and Route Processor Cards W Figure 1 23 shows the front panel of the RSP card Figure 1 23 RSP Card Front Panel Her am HD UM HSY LIVJNOI el Cretetetetetetotrototoiotoiototototnotototetsetetsetoetetstetsetrteiototototoetotot 242983 J ret FAL O OS aT O O Woot HH O OMO Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 EEG Chapter 1 Overview and Physical Description H Route Switch Processor and Route Processor Cards Figure 1 24 shows the front panel of the RSP 440 card Figure 1 24 Mz sua zn sug RSP 440 Card Front Panel L daS Tn SEE Alli Sddl ZHWOL ier C J N t sug 8 LT S UZT S Ili Ano wav ONVILON m nv F gt CUETISIIISIsisisizsisiesiosisiesiotieoliolesieieisisisisisisizsisisis 330841 1 SYNC BITS J 211 ports 7 Extern
66. Reference Guide H Chapter 2 Functional Description H Ethernet Line Cards 16 port 10 Gigabit Ethernet 16x10GE Oversubscribed Line Card The 16 port 10 Gigabit Ethernet 16x 10GE oversubscribed line card has sixteen 10 Gigabit Ethernet oversubscribed SFP 10 Gigabit Ethernet SFP module ports Two 10 Gigabit Ethernet ports connect to XAUI interfaces on each of the eight NPUs The 16x10GE oversubscribed line card is available in a base version Figure 2 27 shows the block diagram for the 16x10GE oversubscribed line card and Figure 2 28 shows the front panel connectors and indicators Figure 2 27 16x10GE Oversubscribed Line Card Block Diagram 2 POPPE ccc gt GE gt CPU lt gt GE lt To FPGAs SEEE CEET gt PHY lt gt SW To NPUs gt 10G PHY SFP lt gt NPU gt 10G PHY gt SFP gt 10G PHY lt gt SFP ic lt gt k B lt lt Fabric NPU 4 10G PHY lt gt SFP Interface FPGA a e Chip gt 10G PHY lt gt SFP lt gt NPU gt 10G PHY gt SFP p gt 10G PHY lt gt SFP NPU 108 PHY j SFP a n gt 10G PHY SFP e NPU e LH0GPHY SFP lt gt 10G PHY gt SFP HR e La Fr
67. SR 9010 Router Fan Trays 2 76 Cisco ASR 9006 Router Fan Trays 2 76 Cisco ASR 9904 Router Fan Tray 2 77 Cisco ASR 9922 Router and Cisco ASR 9912 Router Fan Trays 2 78 Status Indicators 2 79 Fan Tray Servicing 2 79 Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 EN H Contents Slot Fillers 2 80 Chassis Air Filter 2 80 Speed Control 2 86 Temperature Sensing and Monitoring Servicing 2 87 System Shutdown 2 87 System Management and Configuration 2 87 Cisco IOS XR Software 2 87 System Management Interfaces 2 87 Command Line Interface 2 88 Craft Works Interface 2 88 XML 2 88 SNMP 2 88 SNMP Agent 2 88 MIBs 2 89 Online Diagnostics 2 89 CHAPTER 3 High Availability and Redundant Operation 3 1 Features Overview 3 1 High Availability Router Operations 3 1 Stateful Switchover 3 1 Fabric Switchover 3 2 Active Standby Status Interpretation 3 2 Non Stop Forwarding 3 2 Nonstop Routing 3 2 Graceful Restart 3 2 Process Restartability 3 3 Fault Detection and Management 3 3 Power Supply Redundancy 3 3 AC Power Redundancy 3 4 DC Power Redundancy 3 6 Detection and Reporting of Power Problems Cooling System Redundancy 3 8 Cooling Failure Alarm 3 9 APPENDIX A Technical Specifications A 1 3 8 E Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide 0L 17501 09 Preface This guide provides an overview of the basic har
68. Starting execution of MBI IOXR Cisco IOS XR Software is starting execution ACTV RSP role is determined to be active RSP STBY RSP role is determined to be standby RSP PREP Preparing disk boot Table 2 4 RSP 440 and RP LED Matrix Boot Stage and Runtime Display LED Matrix Display Description INIT Card is inserted and microcontroller is initialized BOOT Card is powered on and CPU is booting IMEM Starting initialization of memory IGEN Starting initialization of card ICBC Initializing communication with the microcontroller SCPI Board is not plugged in properly STID CBC was unable to read slot ID pins correctly PSEQ CBC detected power sequencer failure DBPO CBC detected an issue during board power up KPWR CBC detected an issue during board power up LGNP CBC detected an issue during board power up LGNI CBC detected an issue during board power up RMN All tests finished and ROMMON is ready for commands LOAD Downloading Minimum Boot Image MBI image to CPU RRST ROMMON rebooting board after MBI validation timeout MVB ROMMON trying MBI validation boot MBI Starting execution of MBI IOXR Cisco IOS XR Software is starting execution LDG The RSP RP is loading MBI started and card preparing for activity INCP The software or configuration is incompatible with the RSP RP OOSM The RSP RP is in Out of Service Maintenance mode Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide 01 17501 09 A Chapter2 Functio
69. abit Ethernet small form factor pluggable SFP transceiver modules e 10 Gigabit Ethernet small form factor pluggable SFP transceiver modules e 100 Gigabit Ethernet small form factor pluggable CFP transceiver modules e Optional card cage doors amp Note The backplanes and BPID cards are not FRUs Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 Chapter Overview and Physical Description Rack Mounting Considerations Rack Mounting Considerations The chassis width of the Cisco ASR 9000 Series Routers fits into the following racks Telco racks with a rail to rail dimension of 17 50 inches 44 54 cm for the Cisco ASR 9010 Router Telco racks with a rail to rail dimension of 17 75 inches 45 09 cm for the Cisco ASR 9006 Router Telco racks with a rail to rail dimension of 17 75 inches 45 09 cm for the Cisco ASR 9904 Router Telco racks with a rail to rail dimension of 17 75 inches 45 09 cm for the Cisco ASR 9922 Router Telco racks with a rail to rail dimension of 17 75 inches 45 09 cm for the Cisco ASR 9912 Router e EIA racks 19 inches 48 26 cm wide e Adaptable to 23 inches 58 42 cm to fit into ETSI racks 23 62 inches 60 00 cm wide The Cisco ASR 9010 Router chassis height is 36 75 inches 93 35 cm or 21 RU rack units which includes a rack tray mounting option Two chassis fit into a commonly used 42 RU rack and therefore will fit into an ETSI 45 RU rac
70. acket processing features enabled the lower the packets per second that can be processed in the pipeline This corresponds to up to 15 Gbps of bidirectional packet processing capability for an NPU There is a minimum packet size of 64 bytes and a maximum packet size of 9 KB 9216 from the external interface The NPU can handle frames up to 16 KB and the bridge FPGA and fabric interface chip have been designed to handle a frame size of 10 KB Packet streams are processed by the NPUs and are routed either locally over the Gigabit Ethernet link to the local CPU or to the RSP RP fabric card through two bridge FPGAs and the fabric interface chip The total bandwidth of the path from four NPUs to two bridge FPGAs is 60 Gbps The total bandwidth of OL 17501 09 Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide H Chapter2 Functional Description H Ethernet Line Cards the path from the two bridge FPGAs to the fabric interface chip is 60 Gbps The total bandwidth from fabric interface chip to the backplane is 46 Gbps redundant The fabric interface chip connects through four 23 Gbps links to the backplane Each NPU can handle up to 15 Gbps of line rate traffic depending on the packet size and processing requirements The line cards can handle many different Ethernet protocols to provide Layer2 Layer3 switching Each NPU can handle 30 Gbps of line rate data in a fully subscribed configuration All switching betw
71. al USB port 2 SFP SFP ports 8 Management LAN ports 3 IEEE 1588 port 9 CONSOLE and AUX ports 4 ToD port 10 Alarm Cutoff ACO and Lamp Test push buttons 5 10 MHz and 1 PPS indicators 11 Eight discrete LED indicators 6 Alarm Out DB9 connector 12 LED matrix display Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 Chapter 1 Overview and Physical Description Route Switch Processor and Route Processor Cards RP Front Panel and Access Ports System alarms reside on the RP Alarms consist of visual indicators with three levels Critical red Major red and Minor amber There is a console interface for remote viewing of alarms and fault information The RP front panel has the following information and alarm LEDs and connectors Two BITS RJ 45 Sync timing ports Two 10 GE SFP SFP ports IEEE1588 RJ 45 Timestamp port RS232 422 GPS TOD RJ 45 port for system timing input 10 MHz and 1 PPS clock input SMB ports Alarm Output DB9 port with three alarm outputs External USB2 class A port Two RJ 45 100 1000 Mbit Ethernet Management ports RJ 45 Console port RJ 45 Auxiliary AUX port Alarm Cut Off ACO and Lamp Test momentary push buttons RP Discrete Status LEDs SSD LED FC Fault LED GPS LED Critical Alarm LED red Major Alarm LED red Minor Alarm LED amber Power Fail LED ACO LED amber SYNC LED green and amber One 4 character 5x7 LED dot mat
72. and Access Ports 1 33 Line Card Serviceability 1 33 Line Card Ejector Levers 1 33 Power System 1 33 Line Card Front Panel and Access Ports 1 33 Line Card Serviceability 1 33 Line Card Ejector Levers 1 33 Power System 1 33 Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 m H Contents AC and DC Power Modules 1 34 Cooling System 1 36 Cooling Path 1 37 Fan Trays 1 37 Management and Configuration 1 37 cHAPTER 2 Functional Description 2 1 Router Operation 2 1 Route Switch Processor Card 2 5 Route Processor Card 2 8 Front Panel Connectors 2 9 Management LAN Ports 2 9 Console Port 2 9 Auxiliary Port 2 9 Alarm Out 2 9 Synchronization Ports 2 9 RP USB Port 2 10 Front Panel Indicators 2 10 LED Matrix Display 2 12 LED Matrix Boot Stage and Runtime Display 2 12 LED Matrix CAN Bus Controller Error Display 2 14 Push Buttons 2 14 Functional Description 2 14 Switch Fabric 2 14 Unicast Traffic 2 16 Multicast Traffic 2 16 Route Processor Functions 2 17 Processor to Processor Communication 2 18 Route Processor Fabric Interconnect 2 18 Fabric Controller Card 2 19 FC Card Front Panel Indicator 2 21 Ethernet Line Cards 2 21 Functional Description 2 22 40 Port Gigabit Ethernet 40x1GE Line Card 2 24 8 Port 10 Gigabit Ethernet 8x10GE 2 1 Oversubscribed Line Card 2 26 4 Port 10 Gigabit Ethernet 4x1
73. ble A 9 Cisco ASR 9904 Router AC Electrical Specifications Table A 10 Cisco ASR 9922 Router AC Electrical Specifications Table A 11 Cisco ASR 9912 Router AC Electrical Specifications Table A 12 Cisco ASR 9010 Router DC Electrical Specifications Table A 13 Cisco ASR 9006 Router DC Electrical Specifications Table A 14 Cisco ASR 9904 Router DC Electrical Specifications Table A 15 Cisco ASR 9922 Router DC Electrical Specifications Table A 16 Cisco ASR 9912 Router DC Electrical Specifications Table A 17 AC Input Voltage Range Table A 18 DC Input Voltage Range Table A 19 DC Output Levels for Version 1 Power System Table A 20 DC Output Levels for Version 2 Power System Table A 21 RSP RP Port Specifications Table A 22 Card and Fan Tray Power Consumption Specifications OL 17501 09 Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide H AppendixA Technical Specifications Table A 1 lists the physical specifications for the Cisco ASR 9010 Router Table A 1 Cisco ASR 9010 Router Physical Specifications Description Value Chassis height 36 75 inches 93 35 cm Chassis width 17 50 inches 44 45 cm 19 0 inches 48 3 cm including chassis rack mount flanges and front door width Chassis depth 28 65 inches 72 72 cm including cable management system and front cover Chassis weight e Chassis only 149 5 pounds 67 81 kg e Chassis fully configured 375 pounds 170 5 kg using all ca
74. ble front rails if the rack cabinet doors must be able to close with the chassis installed Figure 1 8 shows the top down view dimensions of the Cisco ASR 9010 Router Figure 1 9 shows the top down view dimensions of the Cisco ASR 9006 Router Figure 1 10 shows the top down view dimensions of the Cisco ASR 9904 Router Figure 1 11 shows the top down view dimensions of the Cisco ASR 9922 Router Figure 1 12 shows the top down view dimensions of the Cisco ASR 9912 Router Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 H 1 9 Chapter 1 Overview and Physical Description H Rack Mounting Considerations Figure 1 8 Cisco ASR 9010 Router Chassis Footprint Dimensions Top Down View Rear of chassis 17 38 in 44 15 cm 18 92 in 48 06 cm 243432 Front of chassis Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide EM OL 17501 09 Chapter Overview and Physical Description Rack Mounting Considerations W Figure 1 9 Cisco ASR 9006 Router Chassis Footprint Dimensions Top Down View Rear of chassis 17 38 in IS am 28 93 in 73 48 cm Rack mounting o surface d 5 73 in N R Front of chassis 243430 Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 EEIN Chapter 1 Overview and Physical Desc
75. ble of delivering 550 Gbps per line card slot When five FC cards are installed in the chassis the switch fabric is 4 1 redundant When all seven FC cards are installed in the chassis the switch fabric is 6 1 redundant The switch fabric is fully redundant with one copy of the fabric on each FC and each FC carries enough switching capacity to meet the chassis throughput specifications OL 17501 09 Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide H Chapter2 Functional Description H Fabric Controller Card Figure 2 14 shows the FC card Figure 2 14 FC Card pe 0 302403 Omm Figure 2 15 shows the front panel of the FC card The front panel has a status LED ejector levers ejector lever release buttons and mounting screws Figure 2 15 FC Card Front Panel 302405 Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide EXE OL 17501 09 Chapter2 Functional Description FC Card Front Panel Indicator Ethernet Line Cards The front panel of the FC card has one tri color LED indicator for system information Table 2 6 lists the display definitions of the discrete LED on the FC card front panel Table 2 6 FC Card LED Display Definitions Indicator Label Color
76. cal Specifications Table A 20 lists the DC output tolerances for AC or DC power modules for the version 2 power system Table A 20 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 power modules in a single tray 8400 W Cisco ASR 9006 Router and Cisco ASR 9904 Router Maximum four 2100 W power modules per tray x two 16 800 W Cisco ASR 9010 Router only trays Maximum four 2100 W power modules per tray x four 33 600 W Cisco ASR 9922 Router only trays 1 Maximum output power the power system is capable of supporting not system power consumption Table A 21 lists the RSP RP port specifications Table A 21 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 e BITS Building Integrated Timing System port e J211 or UTI Universal Timing Interface port OL 17501 09 Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide H Appe
77. cations 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 6 Gis a value of acceleration where 1 G equals 32 17 ft sec 9 81 m sec 7 Grms is the root mean square value of acceleration Table A 7 lists the AC electrical specifications for the Cisco ASR 9010 Router Table A 7 Cisco ASR 9010 Router AC Electrical Specifications Description Value 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 Total AC input power per 3400 VA volt amps power module Rated input voltage per 200 240 VAC nominal range 180 to 264 VAC power module 220 240 VAC UK Rated input line frequency 50 60 Hz nominal range 47 to 63 Hz 50 60 Hz UK Input current draw 15 A maximum at 200 VAC 13 A maximum at 220 to 240 VRMS UK Source AC service 20 A North America 16 A international 13 A UK requirement Redundancy At least four AC power modules two per power tray are required for 2N redundancy for a fully configured system version 1 and version 2 1 For each AC power supply module Some power chassis configurations may operate at lower curr
78. ce Guide H Chapter2 Functional Description H Route Processor Card Table 2 2 RP Discrete LED Display Definitions continued Indicator Label Color Description Synchronization Green System timing is synchronized to an external timing source including SYNC IEEE 1588 Amber System timing is free running Off LED never turns off Default after reset Internal Solid State Hard Disk Drive SSD Green Internal Solid State Hard Disk Drive SSDO is busy active The LED is driven by the SSD controller Off Internal Solid State Hard Disk Drive is not busy active Default after reset FC Fault Amber A fault has occurred on any or all of the FC cards installed This LED will be on during the boot phase of the FC Off FC cards are booted up and ready Default after reset GPS Green GPS interface provisioned and ports are turned on ToD 1 PPS 10 Mhz are all valid Off Either the interface is not provisioned or the ports are not turned on ToD Default after reset PPS and 10 Mhz are not valid LED Matrix Display The LED matrix displays one row of four characters The matrix becomes active when the CPU powers on and displays the stages of the boot process as well as displaying runtime information during normal operation If there are CAN Bus Controller problems error messages are displayed LED Matrix Boot Stage and Runtime Display Table 2 3 describes the RSP LED matrix displa
79. ce PHY Chip Chip Chip i FPGA FPGA CPU FPGA FPGA CPU lt _ gt lt gt lt _ gt VOV Y Y Y Y Yo ye dy NPU INPU NPU NPU NPU NPU NPU NPU GE NPU NPU UNPU GE SW SW 10 110 10 110 10 10 10 110 To 10x 10x 10 10 To GE GE GE GE GE GE GE GE NPUs ss GE GE NPUs X X X X X X X X To F F X X To F F F F F F F F F F P P P P P P P P FPGAs P P P P FPGAs S a Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 EN Chapter 2 Functional Description H Router Operation Figure 2 4 Additional System Components in the Cisco ASR 9000 Series Routers Backplane iv 16x10GE SFP HH Line Card Vy Fabric Fabric GE Interface Interface PHY Chip Chip FPGA FPGA CPU Y Z c Yoox U NPU z c Y L Y z c NPU NPU c Y SFP gt 10G PHY SFP gt 10G PHY gt SFP gt 10G PHY SFP 10G PHY SFP 10G PHY SFP gt 10G PHY gt SFP 10G PHY SFP 10G PHY SFP 10G PHY gt SFP lt
80. ctions e Packet header translation between the header used by the fabric interface chip and the header exchanged with the Ethernet interface on the route processor e I O interface protocol conversion rate matching between the 20 Gbps DDR bus from the fabric interface chip and the 1 Gbps interface on the processor Flow control to prevent overflow in the from fabric buffer within the packet diversion FPGA in case of fabric congestion The Route Processor communicates with the switch fabric via a FIC to process control traffic The FIC has sufficient bandwidth to handle the control traffic and flow control in the event of fabric congestion External traffic is diverted to the Route Processor by the line card network processors The RP and FC cards in the Cisco ASR 9922 Router have control interface chips and FICs attached to the backplanes that provide control plane and punt paths Fabric Controller Card On the Cisco ASR 9922 Router and Cisco ASR 9912 Router the switch fabric has been moved to FC cards The switch fabric is configured as a single stage of switching with multiple parallel planes The switch fabric is responsible for transporting packets from one line card to another but has no packet processing capabilities Each fabric plane is a single stage non blocking packet based store and forward switch To manage fabric congestion the RP provides centralized Virtual Output Queue VOQ arbitration The switch fabric is capa
81. d running Off Standby power is normal Critical Alarm Red Critical Alarm LED A critical alarm has occurred CRIT Off No critical alarm has occurred Default after reset Major Alarm MAJ Red Major alarm LED A major alarm has occurred Off Default after reset No major alarm has occurred Minor Alarm MIN Amber Minor alarm LED A minor alarm has occurred Off Default after reset No minor alarm has occurred Synchronization SYNC Green System timing is synchronized to an external timing source Amber System timing is free running Off LED never turns off E Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 Chapter2 Functional Description Route Processor Card W Table 2 1 RSP and RSP 440 Discrete LED Display Definitions continued Indicator Label Color Description Internal Hard Green Hard Disk Drive is busy active The LED is driven by the SAS controller Disk Drive Off Hard Disk Drive is not busy active HDD Default after reset External Green Compact Flash is busy active a Flash Off Compact Flash is not busy active Default after reset Alarm Cutoff ACO Amber Alarm Cutoff has been enabled The ACO push button was pressed after at least one alarm has occurred Off Default after reset Alarm Cutoff is not enabled External USB 2 0 RSP 440 Green E
82. de OL 17501 09 Chapter3 High Availability and Redundant Operation Power Supply Redundancy H Figure 3 9 DC System Power Redundancy for the Cisco ASR 9006 Router Version 2 2100W DC 2100W DC 2100W DC 2100W DC 2100W DC 2100W DC 2100W DC 2100W DC 2100W DC 2100W DC 2 100W DC system 1 1 min 14 700W DC system 2 power redundancy 7 1 max power redundancy 3 Figure 3 10 DC System Power Redundancy for the Cisco ASR 9904 Router Version 2 2100W DC 2100W DC 2100W DC 2100W DC 2 100W DC system 1 1 min power 6 300W DC system 390185 redundancy 3 1 max power redundancy Figure 3 11 DC System Power Redundancy for the Cisco ASR 9922 Router Version 2 2100W DC 2100W DC 2100W DC 2100W DC 2100W DC 2100W DC 2100W DC 2100W DC 2100W DC 2100W DC 2100W DC 2100W DC 2100W DC 2100W DC 2100W DC 2100W DC _ 2100W DC 2100W DC 2100W DC 2100W DC 6 300W DC system 31 500W DC system 3 1 min power redundancy 15 1 max power redundancy 3 Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide 0L 17501 09 Em Chapter 3 High Availability and Redundant Operation BE Cooling System Redundancy Figure 3 12 DC System Power Redundancy for the Cisco ASR 9912 Router Version 2 2100W DC
83. delivering 550 Gbps per line card slot When five FC cards are installed in the chassis the switch fabric is 4 1 redundant When all seven FC cards are installed in the chassis the switch fabric is 6 1 redundant The switch fabric is fully redundant with one copy of the fabric on each FC and each FC carries enough switching capacity to meet the chassis throughput specifications Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide EEG OL 17501 09 Chapter Overview and Physical Description Fabric Controller Card W Figure 1 27 shows the FC card Figure 1 27 FC Card e a 6 f L A L A Q L D gt TI F of T Figure 1 28 shows the front panel of the FC card The front panel has a status LED ejector levers ejector lever release buttons and mounting screws Figure 1 28 FC Card Front Panel 302405 Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 EX Chapter 1 Overview and Physical Description H Ethernet Line Cards FC Card Ejector Levers Ejector levers are provided for inserting and removing the FC cards from the backplane connectors The insertion and removal force of the card ejector levers is about 16 Ibs 7 27 kg To release th
84. dware configuration and features of the Cisco ASR 9000 Series Aggregation Services Routers Audience page vii Related Documentation page vii Changes to This Document page viii Document Conventions page viii e Obtaining Additional Information and Support page ix Audience This guide is written for hardware installers and system administrators of Cisco routers This publication assumes that the reader has a substantial background in installing and configuring router and switch based hardware The reader should also be familiar with electronic circuitry and wiring practices and have experience as an electronic or electromechanical technician Related Documentation For more information on the Cisco ASR 9000 Series Aggregation Services Router additional documents found at http www cisco com en US products ps9853 prod installation guides list html Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 EN Changes to This Document Table 1 lists the technical changes made to this document since it was first created Table 1 Revision Date Changes to This Document Change Summary OL 17501 09 September 2013 Information added about the Cisco ASR 9904 Aggregation Services Router OL 17501 08 July 2013 Information added about the Cisco ASR 9912 Aggregation Services Router OL 17501 07 May 2013 Information added about the new 8 port 10 G
85. e Cisco ASR 9010 Router and Cisco ASR 9006 Router with a version 1 power system Figure 2 63 shows the location of the power feed indicators on the rear panel of the DC power tray for the Cisco ASR 9006 Router and Cisco ASR 9904 Router with a version 2 power system Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 EIN Chapter2 Functional Description H Power System Functional Description Figure 2 62 DC Power tray Power Feed Indicator Version 1 Power System L PS3y PS2 48V 60VDC RTN B PWR B RTN B _ 60A MAX 6X Ojo g PS PWR B RTN B PWR B O O O O 1 Power feed indicators Figure 2 63 DC Power tray Power Feed Indicator Version 2 Power System d M3 PWR A RTN A M2 PWR A 7 RTN A M1PWR A RTN A MO PWR A C RTN A O 1 Power feed indicators DC System Operation This section describes the normal sequence of events for system DC power up and power down Power Up 1 DC power is applied to the power tray by toggling the user s DC circuit breakers to ON position 2 DC DC power supplies are enabled by toggling the Power On Off logic switch located in each of the power tray to ON position 3 DC DC power supply modules in the power tray provides 54 VDC output within
86. e ejector levers push in the ejector lever release buttons amp Note Once any ejector lever release button is pushed in the FC card must by physically removed and reinserted OIR to restart the FC card Ethernet Line Cards This set of line cards for the Cisco ASR 9000 Series Routers is based on a single base card containing the processors fabric interface power and forwarding circuitry Mounted on the base card are daughter cards containing I O circuitry 40 port Gigabit Ethernet with SFP small form factor pluggable optics 4 port 10 Gigabit Ethernet line rate card with XFP optics 8 port 10 Gigabit Ethernet 2 1 oversubscribed card with XFP optics 8 port 10 Gigabit Ethernet 80 Gbps line rate card with XFP optics Combination 2 port 10 Gigabit Ethernet plus 20 port Gigabit Ethernet card with XFP and SFP optics 16 port 10 Gigabit Ethernet oversubscribed card with SFP optics 24 port 10 GE DX Line Card Packet Transport Optimized with SFP optics 24 port 10 GE DX Line Card Service Edge Optimized with SFP optics 36 port 10 GE DX Line Card Packet Transport Optimized with SFP optics 36 port 10 GE DX Line Card Service Edge Optimized with SFP optics 2 port 100 GE DX Line Card Packet Transport Optimized with CFP optics 2 port 100 GE DX Line Card Service Edge Optimized with CFP optics l port 100 GE DX Line Card Packet Transport Optimized with CFP optics l port 100 GE DX Line Card Service Edge Optimized with CFP optics 80 G
87. e equipped with handles for easy removal In the Cisco ASR 9006 Router the two fan trays are located above the card cage left of center and side by side They are covered by a fan tray door hinged at the bottom which must be opened before removing the fan trays In the Cisco ASR 9904 Router a single fan tray is located in the rear right side of the card cage and is equipped with a handle for easy insertion In the Cisco ASR 9922 Router the two top fan trays are located between the top and middle cages whereas the two bottom fan trays are located between the middle and bottom cages The two bottom fan trays are inserted upside down compared to the two top fan trays In the Cisco ASR 9912 Router the two fan trays are located above the line card cage Each fan tray holds 12 axial fans and includes a controller that reduces the speed of the fans when the chassis temperature is within limits thereby reducing the generation of acoustic noise The fan controller also senses and reports individual fan failures gp Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide 0L 17501 09 Chapter 1 Overview and Physical Description Cooling Path Fan Trays Management and Configuration W The Cisco ASR 9010 Router chassis has a front to rear cooling path The inlet is at the bottom front of the chassis and the exhaust is at the upper rear Figure 2 64 shows the cooling path of the Cisco ASR 9010 Router chass
88. e fan tray has 12 fans arranged in three groups of four fans each Two fans in each group share a fan controller The power supplied to the fan controller is 1 3 protected A single fan failure has no impact on air flow because the other eleven fans will compensate for it If a fan controller fails there is a possibility of up to two fans failing however the design always has two fans operating to compensate for the air speed In the Cisco ASR 9922 Router the two top fan trays are located between the top and middle card cages while the two bottom fan trays are located between the middle and bottom card cages In the Cisco ASR 9912 Router the two fan trays are located above the line card cage Each fan tray has 12 fans arranged in three groups of four fans each Two fans of each group share a fan controller The power supplied to the fan controller is 1 3 protected A single fan failure has no impact on air flow because the other 11 fans will compensate for it If the fan controller fails there is a possibility of up to two fans failing however the design always has two fans operating in a row three rows of fans to compensate for the air speed Caution If only one fan tray is installed in the system one single point of failure does not cause all fans to stop However the system cannot operate without a fan tray The system shuts itself off if all fan trays are removed and the system crosses the Shutdown Temperature Threshold STT C
89. een ports is handled on the RSP RP card which is connected through the backplane to all line cards VOQ is implemented in the fabric interface chip both on the line cards and on the RSP RP card which assures that all ingress data paths have equal access to their egress data ports Although the usable fabric bandwidth over the backplane from the fabric interface ASIC is 80 Gbps only up to 40 Gbps usable data flows over the interface plus any added overhead traffic 46 Gbps 40 Port Gigabit Ethernet 40x1GE Line Card The 40 port Gigabit Ethernet 40x1GE line card has 40 ports connected to SFP modules handling 40 Gigabit Ethernet interfaces through SGMII connections to four NPUs The 40 SFP ports are organized into four blocks of 10 ports Each block of 10 ports connects to one NPU through an SGMII serial bus interface The 40x1GE line card is available in base extended and low queue versions All versions are functionally equivalent with the extended version of the line card providing typically twice the service scale of the base line card Figure 2 17 shows a block diagram for the 40x1GE line card and Figure 2 18 shows the front panel connectors and indicators Figure 2 17 40 Port Gigabit Ethernet 40x1GE Line Card Block Diagram r dnp GE DE j CPU lt gt PHY B r
90. ent ratings than those specified in this table Contact your Cisco technical representative for more information OL 17501 09 Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide H AppendixA Technical Specifications A 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 Table A 8 lists the AC electrical specifications for the Cisco ASR 9006 Router Table A 8 Cisco ASR 9006 Router AC Electrical Specifications Description Value Power modules per system Version power system Up to three AC power modules per system Version 2 power system Up to four AC power modules per system Total AC input power per power module 3400 VA volt amps per AC power module Rated input voltage per power module 200 240 VAC nominal range 180 to 264 VAC 220 240 VAC UK Rated input line frequency 50 60 Hz nominal range 47 to 63 Hz 50 60 Hz UK Input current draw 15 A maximum at 200 VAC 13 A maximum at 220 to 240 VRMS UK Source AC service requirement 20 A North America 16 A international 13 A United Kingdom Redundancy At least two AC power modules are required for N 1 redundancy for a fully configured system version 1 and version 2
91. er modules per system four per tray Total DC input power per power module Version 2 power system 2300 W 2100 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 Input current draw 49 A maximum at 48 VDC nominal 39 A maximum at 60 VDC nominal H Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 AppendixA Technical Specifications Table A 15 Cisco ASR 9922 Router DC Electrical Specifications continued Description Value Source DC service Sufficient to supply the rated input current Local codes apply requirement Redundancy DC power modules operate in N 1 redundancy mode Up to sixteen DC power modules are supported The number of DC power modules needed depends on the configuration of the chassis e g number of line cards RPs and FC cards installed Use the Cisco Power Calculator Cisco com account required at http tools cisco com cpc launch jsp to calculate how many DC power modules are needed 1 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 S Both the AC powered and DC powered versions of the Cisco ASR 9922 Router support only version 2
92. ervices Router Overview and Reference Guide OL 17501 09 Chapter Overview and Physical Description Chassis Physical Overview W Cisco ASR 9904 Router The Cisco ASR 9904 Router chassis is centered around a redundant pair of RSP cards along with two line cards The 4 slot chassis size fits in Telco EIA and ETSI racks and cabinets The router supports the version 2 power system that has four power modules in the single power tray Figure 1 5 shows the slot locations for the chassis with a version 2 power tray Figure 1 5 Cisco ASR 9904 Router Chassis Components Version 2 Power Tray Side air exhaust gt Line card 1 gt Two slots reserved for sy Side air intake redndant RSPs Line card 0 gt Power shelf gt Pp bs Four AC DC or DC DC power modules 390179 Cisco ASR 9922 Router The Cisco ASR 9922 Router chassis is centered around a redundant pair of RP cards seven redundant FC cards and twenty line cards The 22 slot chassis size fits in Telco EIA and ETSI racks and cabinets The Cisco ASR 9922 Router chassis has two backplanes connected via up to seven FC cards and two RP cards The upper backplane connects to its one backplane identification BPID card ten line cards two fan trays and four power trays The lower backplane connects to its BPID card ten line cards and t
93. ew The Cisco ASR 9000 Series Routers are designed to have high Mean Time Between Failures MTBF and low Mean Time To Resolve MTTR rates thus providing a reliable platform that minimizes outages or downtime and maximizes availability In addition the Cisco ASR 9000 Series Routers offer the following high availability HA features to enhance network level resiliency and enable network wide protection High Availability Router Operations Stateful Switchover Fabric Switchover Non Stop Forwarding Process Restartability Fault Detection and Management Power Supply Redundancy e Cooling System Redundancy High Availability Router Operations The Cisco ASR 9000 Series Routers offer a variety of hardware and software high availability features Stateful Switchover The RSP RP cards are deployed in active standby configurations Stateful switchover SSO preserves state and configuration information if a switchover to the standby RSP RP card occurs The standby RSP RP card has a mirror image of the state of protocols users configuration interface state subscriber state system state and other parameters Should a hardware or software failure occur in the active RSP RP card the standby RSP RP card changes state to become the active RSP RP card This stateful switchover has no impact in forwarding traffic Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 EN Chapte
94. f their respective owners The use of the word partner does not imply a partnership relationship between Cisco and any other company 1110R Any Internet Protocol IP addresses used in this document are not intended to be actual addresses Any examples command display output and figures included in the document are shown for illustrative purposes only Any use of actual IP addresses in illustrative content is unintentional and coincidental Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide 2019 2013 Cisco Systems Inc All rights reserved CONTENTS Preface xiii CHAPTER 1 Overview and Physical Description 1 1 Chassis Physical Overview 1 1 Cisco ASR 9010 Router 1 2 Cisco ASR 9006 Router 1 4 Cisco ASR 9904 Router 1 5 Cisco ASR 9922 Router 1 5 Cisco ASR 9912 Router 1 7 Field Replaceable Units 1 8 Rack Mounting Considerations 1 9 Chassis Slots 1 14 Fiber and Interface Cable Management 1 16 Routing of DC Power Tray Source Cables 1 17 Slot Numbering and Marking 1 18 Power Module Hardware and Software Identification 1 23 Route Switch Processor and Route Processor Cards 1 24 RSP Front Panel and Access Ports 1 24 RP Front Panel and Access Ports 1 27 Management Features 1 29 Alarm Connector 1 29 Serviceability 1 30 RSP and RP Card Ejector Levers 1 30 Fabric Controller Card 1 30 FC Card Ejector Levers 1 32 Ethernet Line Cards 1 32 Line Card Front Panel
95. four power modules 1 Chassis only does not include cards power modules fan trays filter or chassis accessories Table A 4 lists the physical specifications for the Cisco ASR 9922 Router Table A 4 Cisco ASR 9922 Router Physical Specifications Description Value Chassis height 71 00 inches 195 58 cm Chassis width 17 60 inches 44 70 cm 19 0 inches 48 3 cm including chassis rack mount flanges and front door width Chassis depth 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 weight e Chassis only 300 pounds 136 kg e Chassis fully configured using all card slots 1038 pounds 470 28 kg and four power trays 1 Chassis only does not include any cards power modules fan trays or chassis accessories Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 EH Appendix A Table A 5 lists the physical specifications for the Cisco ASR 9912 Router Table A 5 Description Cisco ASR 9912 Router Physical Specifications Value Chassis height 52 5 inches 133 4 cm Chassis width 17 6 inches 44 7 cm 19 0 inches 48 3 cm including chassis rack mount flanges and front doors Chassis depth 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
96. g port s can also be configured as J 211 or DTI ports A DOCSIS Timing Interface DTD port is used to connect to an external DTI server to synchronize timing and frequency across multiple routers The timing function allows precise synchronization of real time clocks in a network for measurements of network performance for example measuring delay across a VPN The frequency reference acts like a BITS input The RP card has a single external Universal Serial Bus USB port A USB flash memory device can be inserted to load and transfer software images and files This memory device can be used to turboboot the system or as the installation source for Package Information Envelopes PIE and Software Maintenance Upgrades SMU This memory device can also be used for users data files core files and configuration backups Front Panel Indicators The RSP card has eight discrete LED indicators and an LED dot matrix display for system information The RSP 440 adds three USB specific LEDs The RP has nine discrete LED indicators and an LED dot matrix display for system information Table 2 1 shows the display definitions of the eight discrete LEDs on the RSP front panel and the three RSP 440 specific USB LEDs Table 2 1 RSP and RSP 440 Discrete LED Display Definitions Indicator Label Color Description Power Fail Red Standby Power Fail LED The LED is turned off by the Controller Area FAIL Network CAN bus controller after it is up an
97. gle RSP card installed in the router the 24 port 10 Gigabit Ethernet line card is a 220 Gbps line rate card The 24 port 10 Gigabit Ethernet line card is available in either an SE Service Edge Optimized or TR Packet Transport Optimized version Each SFP cage on the 24 port 10 Gigabit Ethernet line card has an adjacent Link LED visible on the front panel The Link LED indicates the status of the associated SFP port Figure 2 29 shows the front panel and connectors of the 24 port 10 Gigabit Ethernet line card Figure 2 29 24 Port 10 Gigabit Ethernet Line Card gp Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide 0L 17501 09 Chapter2 Functional Description Ethernet Line Cards Ml Figure 2 30 24 port 10 Gigabit Ethernet 24x10GE Line Card Front Panel 2 1 AV o t eiie ioiei oi 91 91 93 31 p u e V e t wv w 1 wv 1 v 1 3 vi w v a V f qu Le
98. gnaling and control plane failures without impacting the Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 Chapter 3 High Availability and Redundant Operation Power Supply Redundancy H forwarding plane Cisco IOS XR Software uses graceful restart and a combination of check pointing mirroring route switch processor redundancy and other system resiliency features to recover before a timeout and avoid service downtime as a result of network reconvergence Process Restartability The Cisco IOS XR distributed and modular microkernel operating system enables process independence restartability and maintenance of memory and operational states Each process runs in a protected address space Checkpointing facilities reliable transports and retransmission features enable processes to be restarted without impacting other components and with minimal or no disruption of traffic Usually any time a process fails crashes or incurs any faults the process restarts itself For example if a Border Gateway Protocol BGP or Quality of Service QoS process incurs a fault it restarts to resume its normal routine without impacting other processes Fault Detection and Management To minimize service outage the Cisco ASR 9000 Series Routers provide rapid and efficient response to single or multiple system component or network failures When local fault handling cannot recover from critical faults
99. gt Circuit gt Ratio gt Load 220V gt 5 gt Module EMI Filter 5 1 POL 20A 19 Filter A2 10 8V Converters 3 KW Converter AC DC 54V RTN AC1 4 EMI Pwr Sply J 220V gt Fil gt Module RSP Card x2 20A 19 ner A3 3 KW Narrow Range Point of 54V Soft Start 54V Fixed 10 8v Peinto YDH Circuit gt Ratio gt Load EMI Filter 5 1 POL 10 8V Converters Converter Fan Tray 1 Fan Soft Start _54V Controller a D gt Circuit gt and EMI Filter Cooling Fans 3 amp 0L 17501 09 Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide Chapter2 Functional Description Power System Functional Description 243404 Figure 2 47 Cisco ASR 9006 Router DC Power System Block Diagram Version 1 Power System DC DC Power Shelf Power Distribution Fan Tray 0 connected to 3 Power Supply Backplane Dua Modules DC A1 an 60A gt E r E sof 54V Soft Start 54y Controller Module 0 DD gt Circ
100. hassis configurations may operate at lower current ratings than those specified in this table Contact your Cisco technical representative for more information Table A 14 lists the DC electrical specifications for the Cisco ASR 9904 Router Table A 14 Description Cisco ASR 9904 Router DC Electrical Specifications Value Power modules per system Version 2 power system Up to four DC power modules per system Total DC input power per power module Version 2 power system 2300 W 2100 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 Input current draw 49 A maximum at 48 VDC nominal 39 A maximum at 60 VDC nominal Source DC service requirement Sufficient to supply the rated input current Local codes apply Redundancy At least two DC power modules are required for N 1 redundancy for a fully configured system 1 Foreach 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 Table A 15 lists the DC electrical specifications for the Cisco ASR 9922 Router Table A 15 Description Cisco ASR 9922 Router DC Electrical Specifications Value Power modules per system Version 2 power system Up to 16 DC pow
101. ies Aggregation Services Router Overview and Reference Guide OL 17501 09 EZ Chapter2 Functional Description H Cooling System Functional Description Figure 2 71 Cisco ASR 9904 Router Fan Tray 351299 e The fan tray contains twelve axial 88 mm 3 46 in fans There is a fan control board at the back end of the tray with a single power data connector that connects with the backplane e The fan tray aligns through two guide pins inside the chassis and it is secured by one captive screw The controller board floats within the fan tray to allow for alignment tolerances Afinger guard is adjacent to the front of most of the fans to keep fingers away from spinning fan blades during removal of the fan tray The maximum weight of the fan tray is 11 0 Ib 4 99 kg Cisco ASR 9922 Router and Cisco ASR 9912 Router Fan Trays The Cisco ASR 9922 Router contains four fan trays and the Cisco ASR 9912 Router contains three fan trays for redundancy The fan tray has an LED indicator to indicate fan tray status If a fan tray fails it is possible to swap a single fan tray assembly while the system is operational Fan tray removal does not require removal of any cables Note Do not operate the chassis with any of the fan trays completely missing Replace any missing fan tray within five minutes Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide ES OL 17501
102. igabyte Modular Line Card Packet Transport Optimized 80 Gigabyte Modular Line Card Service Edge Optimized 160 Gigabyte Modular Line Card Packet Transport Optimized 160 Gigabyte Modular Line Card Service Edge Optimized 20 port GE Modular Port Adapter MPA with SFP optics 8 port 10 GE MPA with SFP optics 4 port 10 GE MPA with XFP optics 2 port 10 GE MPA with XFP optics 2 port 40 GE MPA with QSFP optics l port 40 GE MPA with QSFP optics Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 Chapter 1 Overview and Physical Description Power System W For line card installation information see s Cisco ASR 9000 Series Aggregation Services Routers Ethernet Line Card Installation Guide In addition to the line cards listed here a SPA Interface Processor SIP and Shared Port Adapters SPA are supported on the Cisco ASR 9000 Series Routers For information about these components see Cisco ASR 9000 Aggregation Services Router SIP and SPA Hardware Installation Guide Line Card Front Panel and Access Ports Each line card drives a set of three alarm output contacts one set for each of Critical Major and Minor Alarm circuitry on the RSP RP activates dry contact closures that are accessible through a nine pin connector on the RSP RP faceplate See the Ethernet Line Cards section on page 2 21 for a description of each line card s front panel indicators and their mea
103. ing Controller card has a fault Fan Tray Servicing No cables or fibers must be moved during installation or removal of the fan tray s Replacing fan trays does not interrupt service Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 EXIN Chapter2 Functional Description H Cooling System Functional Description Slot Fillers To maintain optimum cooling performance in the chassis and at the slot level unused slots must be filled with card blanks or flow restrictors These slot fillers are simple sheet metal only and are not active Software cannot detect their presence Chassis Air Filter The chassis air filters in the ASR 9000 Series Routers are NEBS compliant The filter is not serviceable but is a field replaceable unit Replacing the filter does not interrupt service In the Cisco ASR 9010 Router a chassis air filter is located underneath the fan trays see Figure 2 73 Figure 2 73 Cisco ASR 9010 Router Chassis Air Filter Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide 7280 H OL 17501 09 Chapter2 Functional Description Cooling System Functional Description Bi In the Cisco ASR 9006 Router a chassis air filter is located along the right side of the chassis and is accessible from the rear of the chassis see Figure 2 74 Figure 2 74 Cisco ASR 9006 Router Chassis Air Filter ee oo eo oo oo oo oo oo oo o
104. ing Considerations W All Cisco ASR 9912 Router chassis RP FC and line cards are front facing and mounted vertically with ejector levers and captive screws at the top and bottom of each card The chassis components include Two RSP cards in the Cisco ASR 9010 Router Cisco ASR 9006 Router and Cisco ASR 9904 Router Two RP and seven FC cards in the Cisco ASR 9922 Router and Cisco ASR 9912 Router Ethernet line cards Cisco ASR 9010 Router Up to eight Cisco ASR 9006 Router Up to four Cisco ASR 9904 Router Up to two Cisco ASR 9922 Router Up to twenty Cisco ASR 9912 Router Up to ten Backplane s Cisco ASR 9010 Router One Cisco ASR 9006 Router One Cisco ASR 9904 Router One Cisco ASR 9922 Router Two Cisco ASR 9912 Router One BPID card s Cisco ASR 9010 Router One Cisco ASR 9006 Router One Cisco ASR 9904 Router One Cisco ASR 9922 Router Two Cisco ASR 9912 Router One Fan tray controllers Cisco ASR 9010 Router Two Cisco ASR 9006 Router Two Cisco ASR 9904 Router One Cisco ASR 9922 Router Four Cisco ASR 9912 Router Two Power trays Cisco ASR 9010 Router Two AC power trays in AC powered systems or two DC power trays in DC powered systems Cisco ASR 9006 Router One AC power tray in AC powered systems or one DC power tray in DC powered systems Cisco ASR 9904 Router One AC power tray in AC powered systems or one DC power tray in DC powered systems Cisco ASR 9922 Router F
105. ing air to the internal components If a fan fails the others increase in speed to compensate Fan tray removal triggers environmental alarms and increases the fan speed of the remaining tray to its maximum speed Servicing The system is populated with two fan trays for redundancy If a fan tray failure occurs it is possible to swap a single fan tray assembly while the system is operational Fan tray removal does not require removal of any cables Assuming redundant configuration removal of a fan tray results in zero packet loss System Shutdown When the system reaches critical operating temperature points it triggers a shutdown sequence of the system System Management and Configuration The Cisco IOS XR Software on the ASR 9000 Series Routers provides the system manageability interfaces CLI XML and SNMP Cisco IOS XR Software The ASR 9000 Series Routers run Cisco IOS XR Software and use the manageability architecture of that operating system which includes CLI XML and SNMP Craft Works Interface CWI a graphical craft tool for performance monitoring is embedded with the Cisco IOS XR Software and can be downloaded through the HTTP protocol However the ASR 9000 Series Routers support only a subset of CWI functionality In this mode a user can edit the router configuration file open Telnet SSH application windows and create user defined applications System Management Interfaces The system management interfaces consist
106. ion Services Router Overview and Reference Guide H Chapter 1 Overview and Physical Description H Cooling System To operate the Cisco ASR 9912 Router on AC power three AC power trays should be installed each with up to four power modules which are fed by a single phase 220 V 20 A branch circuit Six power modules are enough to power a fully populated chassis Twelve power modules are required for N N redundancy Fewer power modules can be used if the chassis is populated with fewer line cards e To operate the Cisco ASR 9912 Router on DC power three DC power trays should be installed each with up to four power modules which are fed by separate pairs of redundant 48 V 60A branch sources Eleven power modules are enough to power a fully populated chassis Twelve power modules are required for N 1 redundancy Fewer power modules can be used if the chassis is populated with fewer line cards Figure 1 32 shows the front view of sixteen version 2 power modules installed in the Cisco ASR 9922 Router Figure 1 32 Front System View of Power Trays Cisco ASR 9922 Router with Version 2 Power Trays 344075 Cooling System The Cisco ASR 9000 Series chassis is cooled by removable fan trays The fan trays provide full redundancy and maintain required cooling if a single fan failure should occur In the Cisco ASR 9010 Router the two fan trays are located one above the other below the card cage and ar
107. is The Cisco ASR 9006 Router chassis has a side to top to rear cooling path The inlet is at the right side of the chassis and the exhaust is at the upper rear Figure 2 65 shows the cooling path of the Cisco ASR 9006 Router chassis The Cisco ASR 9904 Router has a side to side cooling path Figure 2 66 shows the cooling path of the Cisco ASR 9904 Router chassis The inlet is at the right side of the chassis and the exhaust is at the left side If the router is installed in a 2 post 23 inch rack air flow is circulated front to back An optional air baffle accessory kit ASR 9904 BAFFLE is available for mounting the router chassis in this configuration For air baffle installation information see Cisco ASR 9000 Series Aggregation Services Router Hardware Installation Guide The cages of the Cisco ASR 9922 Router chassis have a front to rear cooling path The inlet is at the front of the middle cage and the exhaust is at the upper and lower rear Figure 2 67 shows the cooling path of the Cisco ASR 9922 Router chassis The Cisco ASR 9912 Router chassis has a front to rear cooling path The inlet is at the front of the RP FC card cage and the exhaust is at the upper rear Figure 2 68 shows the cooling path of the Cisco ASR 9912 Router chassis The Cisco ASR 9010 Router Cisco ASR 9006 Router and Cisco ASR 9912 Router contain two fan trays for redundancy see Figure 2 69 Figure 2 70 Figure 2 72 The Cisco ASR 9904 Router contai
108. isplay 7 Figure 1 26 shows the RP card Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide 0L 17501 09 Chapter Overview and Physical Description Route Switch Processor and Route Processor Cards W Figure 1 26 RP Card NCC Om Gm m Om m wm YN VSN WO WO URNA NYE A V T WA s ES 1 V L WO SEL l l aa Iaa s 302406 WV Management Features Two management LAN ports MGT LAN 0 MGT LAN 1 are provided on the RSP RP front panel These are triple speed RJ 45 connectors for use as out of band management ports An Auxiliary AUX port and Console port are also provided on the RSP RP front panel These are EIA TIA 232 also known as RS 232 asynchronous serial ports for connecting external devices to monitor and manage the system The RSP RP card front panel also has a two synchronization S YNC timing ports that can be configured as BITS or J 211 ports These ports provide connections for external timing and synchronization sources Alarm Connector Each RSP RP card drives a set of three alarm output contacts Alarm circuitry on the RSP RP card activates dry contac
109. itch fabric is capable of delivering 200 Gbps per line card slot The switch fabric is 1 1 redundant with one copy of the fabric on each redundant RSP card Each RSP card carries enough switching capacity to meet the router throughput specifications allowing for full redundancy In the Cisco ASR 9922 Router and Cisco ASR 9912 Router the switch fabric element has been moved to dedicated FC cards that connect to the backplanes alongside the RP cards The switch fabric is capable of delivering 550 Gbps per line card slot When five FC cards are installed in the chassis the switch fabric is 4 1 redundant When all seven FC cards are installed in the chassis the switch fabric is 6 1 redundant The switch fabric is fully redundant with one copy of the fabric on each FC and each FC carries enough switching capacity to meet the chassis throughput specifications Figure 2 9 shows the switch fabric interconnections Figure 2 9 Switch Fabric Interconnections Local fabric interface Each path is Line cards connect to two chip connects route nominally 20 Gbps primary and two redundant processor to fabric double line is 40 Gbps paths for 80 Gbps total bandwidth when using 80G line rate cards C is RP Line Card Fabric F H FC Tc o Chip I E id C ASR 9006 VA Series Router v s EL NAA E ip 4 SS H I X N FIC plos RSP 0 JN q H A X Wx X ASR 9010 RSP 1
110. k with a height of 78 74 inches 200 00 cm The Cisco ASR 9006 Router chassis height is 17 50 inches 44 45 cm or 10 RU rack units which includes a rack tray mounting option Four chassis fit into a commonly used 42 RU rack and therefore will fit into an ETSI 45 RU rack with a height of 78 74 inches 200 00 cm The Cisco ASR 9904 Router chassis height is 10 38 inches 26 36 cm or 6 RU rack units which includes a rack tray mounting option Seven chassis fit into a commonly used 42 RU rack and therefore will fit into an ETSI 45 RU rack with a height of 78 74 inches 200 00 cm The Cisco ASR 9922 Router chassis height is 77 00 inches 195 58 cm or 44 RU rack units The rail mounting option height is 1 00 inch The Cisco ASR 9922 Router chassis will fit into an ETSI 45 RU rack with a height of 78 74 inches 200 00 cm The Cisco ASR 9912 Router chassis height is 52 50 inches 133 35 cm or 30 RU rack units The rail mounting option height is 1 00 inch The Cisco ASR 9912 Router chassis will fit into an ETSI 45 RU rack with a height of 78 74 inches 200 00 cm The chassis depth for these five Cisco ASR 9000 Series Routers fits into a 31 50 inch 80 00 cm deep EIA rack or an equivalent 80 00 cm deep ETSI rack This space includes cable management space front and rear The chassis has fixed rack mount rails that are set back 5 00 inches 12 7 cm including front cable management space amp Note Racks and cabinets require adjusta
111. lnet SSH application windows and create user defined applications Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide P38 OL 17501 09 CHAPTER Functional Description This chapter provides a functional description of the Cisco ASR 9000 Series Router Route Switch Processor RSP card Route Processor RP card Fabric Controller FC card Ethernet line cards power and cooling systems and subsystems such as management configuration alarms and monitoring Router Operation page 2 1 e Route Switch Processor Card page 2 5 Route Processor Card page 2 8 e Fabric Controller Card page 2 19 e Ethernet Line Cards page 2 21 Modular Line Cards page 2 44 e Power System Functional Description page 2 50 e Cooling System Functional Description page 2 71 e System Management and Configuration page 2 86 Router Operation The ASR 9000 Series Routers are fully distributed routers that use a switch fabric to interconnect a series of chassis slots each of which can hold one of several types of line cards Each line card in the Cisco ASR 9000 Series has integrated I O and forwarding engines plus sufficient control plane resources to manage line card resources Two slots in the chassis are reserved for RSP RP cards to provide a single point of contact for chassis provisioning and management Figure 2 1 shows the platform architecture of the Cisco ASR 9010 Router Cisco ASR 9006 Router and Cisco ASR
112. ly gt gt gt Module Line Card x8 DC B2 gt EMI PM1 E 60A Filter 2KW Narrow TB B2 TB A3 Soft Start Pd Point of oft Start _54y Fixed 10 8V DC A3 EMi L DO DC DDH Circuit gt Ratio gt Load 60A Filter Pwr Sply EMI Filter 5 1 FOD Module 10 8V Converters DC B3 EMI PM2 Converter 604 Fiter gt 2Kw TB B3 54V RTN DC Power Shelf 2 A RSP Card x2 with DC DC Power Supply show Modules Narrow DC A4 Range C gt EMI gt DC DC Soft Start _ Fixed Point of 60A Filter Pwr Sply otar 54V 10 8V Gad Module YDP Circuit Ratio 9 Loa DC B4 EMI PM S 5 1 en gt gt 10 8V Converters 60A Filter 2KW TB B4 Converter TB A5 DC A5 EMI DC DC 54v 60A P Filter gt Pwr Sply gt gt gt gt Module Fan Tray 1 DC B5 EMI _ PM4 y 60A Filter 2KW TB B5 Fan TB A6 Soft Start Controller 54V 54V DC A6 EMI DC DC 2 DD Circuit gt and 60A Filter Pwr Sply EMI Filter Cooling Module Fans DC B6 gt EMI PM5 60A Filter 2KW E TB B6 S N Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 EX Chapter2 Functional Description H Power System Functional Description
113. mode connection Each QSFP cage on the 1 Port 40 Gigabit Ethernet modular port adapter has an adjacent A L Active Link LED visible on the front panel The A L LED indicates the status of the associated QSFP port Refer to Figure 2 40 below for an example of the 1 Port 40 Gigabit Ethernet modular port adapter Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 H 249 Chapter2 Functional Description H Power System Functional Description Figure 2 40 1 Port 40 Gigabit Ethernet Modular Port Adapter Power System Functional Description The Cisco ASR 9000 Series Routers can be powered with an AC or DC source power The power system is based on a distributed power architecture centered around a 54 VDC printed circuit power bus on the system backplane The 54 VDC system backplane power bus can be sourced from one of two options e AC systems AC DC bulk power supply tray connected to the user s 200 to 240 V 10 percent 180 to 264 VAC source DC systems DC DC bulk power supply tray connected to the user s Central Office DC battery source 54 VDC nominal The system backplane distributes DC power from the backplane to each card and the fan trays Each card has on board DC DC converters to convert the 54 VDC from the distribution bus voltage to the voltages required by each particular card The power system has single point grounding on the 54 VDC Return that is
114. n slots 0 though 9 of the top card cage the line cards are installed right side up Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 EEN Chapter 1 Overview and Physical Description H Rack Mounting Considerations Figure 1 21 Cisco ASR 9922 Router Components and Slot Numbering Power modules 7 3 ec Power shelves trays PSO gt MO M1 M2 M3 Psi 4 M4 M5 M6 M7 Pd M8 M9 M10 M11 PEN M12 M13 M14 M15 A o e 10 cO amp o id s er etr e iar Eee o a Line cards 4 ojej j Y O oN ojo o6 S 5 S 5 5 5 5 5 3 DAR nnana i FTO Fan trays ETI O c NIM snor Il o ololol lololol LL LL L l jejej LC FT2 Fan trays y FT3 aJn onnan njo 9 9 9 29 229 2 9 99 Line cards 4 2 g lo xlololuol o Ert EE BS pt gm um 9 9 99 9 9 9 9 9 o oO mj c O01 Oo 0O0 o V Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide ELM OL 17501 09 Chapter Overview and Physical Description Rack Mounting Considerations Figure 1 22 Cisco ASR 9912 Router Components and Slot Numbering L Fan t
115. nal Description H Route Processor Card Table 2 4 RSP 440 and RP LED Matrix Boot Stage and Runtime Display continued LED Matrix Display Description ACT The RSP RP is active IOS XR completely up and ready for traffic STBY The RSP RP is standby IOS XR completely up and ready LED Matrix CAN Bus Controller Error Display Table 2 5 shows the error messages the LED matrix displays if the RSP card fails one of the power on self tests Table 2 5 RSP LED Matrix CAN Bus Controller Status Display LED Matrix Display Description PSTI Failed DDR RAM memory test PST2 Failed FPGA image cyclic redundancy checking CRC check PST3 Failed card type and slot ID verification Push Buttons Two push buttons are provided on the RSP RP card front panel e Alarm Cutoff ACO ACO activation suppresses alarm outputs When the ACO button is pushed while critical alarms are active the ACO LED turns on and the corresponding alarm output contacts revert to the normally open non alarm state thus suppressing the alarm If subsequent critical alarms are detected and activated after the ACO activation the ACO function is deactivated to notify the user of the arrival of the new alarm s In this case the ACO LED will turn off and any active alarms are again indicated by driving their alarm output contacts to the alarm state Lamp Test When the Lamp Test button is pushed the RSP RP status LED line card status and port
116. ndix A Technical Specifications Table A 22 lists the power consumption specifications for the RSP card RP card FC card line cards and fan tray 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 N Note The fan tray power consumption numbers reflect the power budget for a single fan tray Table A 22 Card and Fan Tray Power Consumption Specifications Description Value 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 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 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 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 8 Port 10 Gigabit Ethernet 2 1 Oversubscribed Line Card Power consumption 310 W at 77 F 25 C 320 W at 104 F 40 C 350 W at 131 F 55 C 4 Port 10 Gigabit Ethernet Line Card Power consumption 310 W at 77 F 25 C 320 W at 104 F 40 C 350 W at 131 F 55 C Cisco ASR 9000 Series Aggregation Services Router Over
117. ning Line Card Serviceability Line cards can be inserted or removed when adjacent cabled RSP or line cards are installed Line Card Ejector Levers Ejector levers are provided for inserting and removing line cards from the backplane connectors Insertion and removal force of the card ejector levers is about 16 Ibs 7 27 kg Power System 1 The Cisco ASR 9000 Series Routers can be powered with an AC or DC source power The power system provides power for the cards and fan trays The power system is based on a distributed power architecture centered around a 54 VDC printed circuit power bus on the system backplane The 54 VDC system backplane power bus can be sourced from one of two options i e AC systems AC DC bulk power supply tray connected to the user 200 to 240 VAC 10 percent 180 to 264 VAC source e DC systems DC DC bulk power supply tray connected to the user Central Office DC battery source 48 VDC 60 VDC 54 VDC nominal DC output power from each power tray is connected to the router by two power blades that mate to the power bus on the backplane The system backplane distributes DC power through connectors on the backplane to each card and the fan trays Each card has on board DC DC converters to convert the 54 VDC from the distribution bus voltage to the voltages required by each particular card OL 17501 09 Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide g
118. no outage occurs Also the fan trays are hot swappable so that no outage occurs during replacement The Cisco ASR 9010 Router has two fan trays at the bottom of the card tray Each fan tray has 12 fans arranged in three groups of four fans each Two fans of each group share a fan controller The power supplied to the fan controller is 1 3 protected A single fan failure has no impact on air flow because the other 11 fans will compensate for it If the fan controller fails there is a possibility of up to two fans failing however the design always has two fans operating in a row three rows of fans to compensate for the air speed The Cisco ASR 9006 Router has two fan trays at the top left of the chassis Each fan tray has six fans arranged in three groups of two fans each The two fans in a group share a fan controller The power supplied to the fan controller is 1 3 protected A single fan failure has no impact on air flow because the other five fans will compensate for it If the fan controller fails there is a possibility of up to two fans failing however the design always has two fans operating to compensate for the air speed Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide 738 H OL 17501 09 Chapter3 High Availability and Redundant Operation A Cooling System Redundancy H The Cisco ASR 9904 Router has a single fan tray located at the left side of the chassis and is accessible from the rear Th
119. ns a single fan tray for redundancy see Figure 2 71 The Cisco ASR 9922 Router contains four fan trays for redundancy see Figure 2 72 The fan tray has an LED indicator to indicate fan tray status If a fan fails it is possible to swap a single fan tray assembly while the system is operational Fan tray removal does not require removal of any cables Note Due to air leakage the chassis should not be operated with any of the fan trays completely missing Replace any missing fan tray within five minutes Any fan tray replacement should be performed when the chassis is back to room temperature Management and Configuration The Cisco ASR 9000 Series Routers run IOS XR software and use the system manageability architecture of that operating system The system management interfaces consist of the following three protocols running on the Cisco ASR 9000 Series Routers e CLI Command line interface e XML Extensible Markup Language e SNMP Simple Network Management Protocol By default only CLI on the console is enabled OL 17501 09 Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide H Chapter 1 Overview and Physical Description H Management and Configuration Craft Works Interface CWI a graphical craft tool for performance monitoring is embedded with the Cisco IOS XR software and can be downloaded through the HTTP protocol You can use CWI to edit the router configuration file open Te
120. nt causes interference to radio or television reception try to correct the interference by using one or more of the following measures Turn the television or radio antenna until the interference stops Move the equipment to one side or the other of the television or radio Move the equipment farther away from the television or radio Plug the equipment into an outlet that is on a different circuit from the television or radio That is make certain the equipment and the television or radio are on circuits controlled by different circuit breakers or fuses Modifications to this product not authorized by Cisco Systems Inc could void the FCC approval and negate your authority to operate the product The Cisco implementation of TCP header compression is an adaptation of a program developed by the University of California Berkeley UCB as part of UCB s public domain version of the UNIX operating system All rights reserved Copyright O 1981 Regents of the University of California NOTWITHSTANDING ANY OTHER WARRANTY HEREIN ALL DOCUMENT FILES AND SOFTWARE OF THESE SUPPLIERS ARE PROVIDED AS IS WITH ALL FAULTS CISCO AND THE ABOVE NAMED SUPPLIERS DISCLAIM ALL WARRANTIES EXPRESSED OR IMPLIED INCLUDING WITHOUT LIMITATION THOSE OF MERCHANTABILITY FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT OR ARISING FROM A COURSE OF DEALING USAGE OR TRADE PRACTICE IN NO EVENT SHALL CISCO OR ITS SUPPLIERS BE LIABLE FOR ANY INDIRECT SPECIAL C
121. o S 1 Air filter 2 Thumb screw In the Cisco ASR 9904 Router the chassis air filter is located along the right side of the chassis and is accessible from the rear of the chassis see Figure 2 75 Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 EB Chapter2 Functional Description H Cooling System Functional Description Figure 2 75 Cisco ASR 9904 Router Air Filter 351304 1 Air filter Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide 0L 17501 09 Chapter2 Functional Description Cooling System Functional Description W The Cisco ASR 9922 Router has three air filters on the middle cage see Figure 2 76 The center air filter covers the front of the FC cards The side air filters cover the RP cards Figure 2 76 ASR 9922 Router Chassis Air Filters Y fox eggo TIE E 7 344069 Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide 0L 17501 09 A Chapter2 Functional Description H Cooling System Functional Description The Cisco ASR 9912 R
122. ocesses and tools such as the Route Consistency Checker to diagnose inconsistencies between the routing and forwarding tables Power Supply Redundancy The Cisco ASR 9000 Series Routers are configured such that a power module failure or its subsequent replacement does not cause a significant outage A power supply failure or over under voltage at the output of a power module is detected and an alarm raised OL 17501 09 Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide H Chapter 3 High Availability and Redundant Operation H Power Supply Redundancy AC Power Redundancy The AC power modules are a modular design allowing replacement without any outage Figure 3 1 shows the minimum and maximum module configurations for version 1 power modules Figure 3 2 shows that version 2 is similar with a minimum of one module per tray At least one fully loaded AC tray is required to power a fully loaded system Each module outputs 3000 W For Cisco ASR 9010 Routers the slot location of a module in the power trays is irrelevant as long as the two power trays have an equal number of modules installed in case one tray should fail see Figure 3 1 For Cisco ASR 9006 Routers and Cisco ASR 9904 Routers the slot location of a module in the tray is irrelevant as long as there are N 1 number of modules see Figure 3 3 and Figure 3 4
123. odule Some power chassis configurations may operate at lower current ratings than those specified in this table Contact your Cisco technical representative for more information S Both the AC powered and DC powered versions of the Cisco ASR 9922 Router support only version 2 power systems Table A 11 lists the AC electrical specifications for the Cisco ASR 9912 Router Table A 11 Cisco ASR 9912 Router AC Electrical Specifications Description Value Power modules per system Version 2 power system Up to 12 AC power modules per system four per tray Total AC input power per 3400 VA volt amps power module Rated input voltage per 200 240 VAC nominal range 180 to 264 VAC power module 220 240 VAC UK Rated input line frequency 50 60 Hz nominal range 47 to 63 Hz 50 60 Hz UK Input current draw 15 A maximum at 200 VAC 13 A maximum at 220 to 240 VRMS UK Source AC service 20 A North America 16 A international 13 A UK requirement Redundancy AC power modules operate in N N redundancy mode Up to 12 AC power modules are supported The number of AC power modules needed depends on the configuration of the chassis e g number of line cards RPs and FC cards 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 1 For each AC power supply module Some power chassis configuration
124. of the CLI XML and SNMP protocols By default only CLI on the console is enabled When the management LAN port is configured various services can be started and used by external clients such as Telnet SSH and SNMP In addition TFTP and Syslog clients can interact with external servers CWI can be downloaded and installed on a PC or Solaris box Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide 4286 H OL 17501 09 Chapter2 Functional Description System Management and Configuration W For information about SNMP see the SNMP section on page 2 87 All system management interfaces have fault and physical inventory Command Line Interface The CLI supports configuration file upload and download through TFTP The system supports generation of configuration output without any sensitive information such as passwords keys etc The ASR 9000 Series Routers support Embedded Fault Manager TCL scripted policies through CLI commands The system also supports feature consistency between the CLI and SNMP management interfaces Craft Works Interface XML SNMP SNMP Agent The system supports CWI a graphical craft tool for performance monitoring configuration editing and configuration rollback CWI is embedded with Cisco IOS XR software and can be downloaded through the HTTP protocol A user can use CWI to edit the router configuration file create user defined applications and open Telnet SSH
125. oft Start _54V Fixed 10 8v Point of 3 KW gt gt Circuit gt Ratio gt Load 54V EMI Filter 5 1 POL AC DC 10 8V Converters AC2 2 Pwr Sply Converter 220V gt gt ES Module 20A 19 Mid PM5 3 KW AC DC AC2 3 Pwr Sply EMI 220V gt Module Fan Tray 1 20A 1 Filter PM6 gt gt gt 3 KW Fan AC DC 54V Soft Start _54y Controller AC2 4 EMI Pwr Sply gt gt Circuit gt and 220V gt Module EMI Filter Cooling 20A 1 gius PM7 Fans 3 KW Ny amp Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide 7252 H OL 17501 09 Chapter2 Functional Description Power System Functional Description W Figure 2 43 Cisco ASR 9010 Router DC Power System Block Diagram Version 1 Power System DC Power Shelf 1 Power Distribution Fan Tray 0 with DC DC Power Supply Backplane TRAY Modules DC A1 EMI DC DC a 604 F Fiter Pwr Sply BV Sor Start agg controller ircuit an Module EMI Filter Cooling DC BIL S EMI L PMO Fans 60A Filter 2KW TB B1 TB A2 DC A2 EMI DC DC 54V 60A Filter gt Pwr Sp
126. on submitting a service request to obtain support and gathering additional information see the monthly What s New in Cisco Product Documentation which also lists all new and revised Cisco technical documentation http www cisco com en US docs general whatsnew whatsnew html Subscribe to the What s New in Cisco Product Documentation as a Really Simple Syndication RSS feed and set content to be delivered directly to your desktop using a reader application The RSS feeds are a free service and Cisco currently supports RSS Version 2 0 OL 17501 09 Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide H Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide m OL 17501 09 CHAPTER 1 Overview and Physical Description This chapter provides an overview of the Cisco ASR 9000 Series Aggregation Services Routers and description of the system components Chassis Physical Overview page 1 1 Rack Mounting Considerations page 1 9 Route Switch Processor and Route Processor Cards page 1 24 Fabric Controller Card page 1 30 Ethernet Line Cards page 1 32 Power System page 1 33 Cooling System page 1 36 Management and Configuration page 1 37 Chassis Physical Overview The Cisco ASR 9000 Series Routers are next generation edge access routers optimized for service provider applications designed to fulfill various roles in Layer 2 and Layer 3 Ethernet aggregation
127. ons use these conventions Examples that contain system prompts denote interactive sessions indicating the commands that you enter at the prompt For example RP O RSPO CPUO router Commands and keywords are in bold font Arguments for which you supply values are in italic font Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 A e Elements in square brackets are optional e Alternative but required keywords are grouped in braces and separated by vertical bars I Caution amp Means be careful You are capable of doing something that might result in equipment damage or loss of data Note Means take note Notes contain helpful suggestions or references to materials not contained in this manual Timesaver A Means the described action saves time You can save time by performing the action described in the paragraph Warning This warning 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 To see translations of the warnings that appear in this publication refer to the Regulatory Compliance and Safety Information document that accompanied this device Obtaining Additional Information and Support For information on obtaining documentati
128. ooling Failure Alarm Temperature sensors are installed in all cards and fan trays These sensors detect and report any fan failure or high temperature condition and raise an alarm Fan failure can be a fan stopping fan controller failure power failure or a failure of a communication link to the RSP RP card Every card has temperature measurement points in the hottest expected area to clearly indicate a cooling failure The line cards have two sensors one at the inlet and one near the hottest devices on the card The RSP RP card also has two sensors OL 17501 09 Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide H Chapter 3 High Availability and Redundant Operation BE Cooling System Redundancy Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide EXE OL 17501 09 APPENDIX A Technical Specifications This appendix lists specifications for the Cisco ASR 9000 Series Aggregation Services Routers Table A 1 Cisco ASR 9010 Router Physical Specifications Table A 2 Cisco ASR 9006 Router Physical Specifications Table A 3 Cisco ASR 9904 Router Physical Specifications Table A 4 Cisco ASR 9922 Router Physical Specifications Table A 5 Cisco ASR 9912 Router Physical Specifications Table A 6 Cisco ASR 9000 Series Environmental Specifications Table A 7 Cisco ASR 9010 Router AC Electrical Specifications Table A 8 Cisco ASR 9006 Router AC Electrical Specifications Ta
129. our AC power trays in AC powered systems or four DC power trays in DC powered systems OL 17501 09 Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide H Chapter 1 Overview and Physical Description H Rack Mounting Considerations Cisco ASR 9912 Router Three AC power trays in AC powered systems or three DC power trays in DC powered systems Note The line card slots are dedicated to only line cards RSP RP FC cards cannot occupy these slots The RSP RP FC slots are dedicated to only RSP RP FC cards line cards cannot occupy these slots A keying mechanism keeps line cards from entering RSP RP FC slots and RSP RP FC cards from entering line card slots the keying mechanism pins engage before the card alignment pins engage Fiber and Interface Cable Management Figure 1 13 shows how card interface cables are managed at the front of the Cisco ASR 9010 Router chassis using a cable management tray Figure 1 13 Cable Management Tray 242979 The cable management tray is located above the card cage the Cisco ASR 9922 Router and Cisco ASR 9912 Router have an additional cable management tray below the bottom card cage and does not interfere with the insertion or removal of cards A hinged cover at the top of the tray can be raised for ease of access for routing cables Line cards and RSP RP cards share the same cable management t
130. outer has three air filters on the RP FC card cage see Figure 2 77 The center air filter covers the front of the FC cards The side air filters cover the RP cards Figure 2 77 Cisco ASR 9912 Router Chassis Air Filters Figure 2 78 shows how to replace the foam media inside the center air filter Figure 2 78 Cisco ASR 9922 Router Chassis Center Air Filter oe ae BOAT 55 2005 ep sone GO X OX K 0 OOX ons XS os 909 e Qe F HR RRI ORR K Q Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide 7284 H OL 17501 09 Chapter2 Functional Description Cooling System Functional Description W 1 Loosen thumb screws 3 Remove foam filter media 2 Rotate and lower inner frame Figure 2 79 shows how to replace the foam media inside one of the two side air filters Figure 2 79 Cisco ASR 9922 Router Chassis Side Air Filter 302421 1 Loosen thumb screws 3 Remove foam filter media 2 Rotate and lower inner frame Speed Control The cooling system adjusts its speed to compensate for changes in system or external ambient temperatures To reduce operating noise the fans have variable speeds Speed can also vary depending on system configurations that affect total powe
131. ower Supply Redundancy section on page 3 3 Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide 0L 17501 09 EIS Chapter2 Functional Description H Power System Functional Description AC Power Trays The AC power tray provides 20 A UL CSA rated 16 IEC rated AC receptacles The version 1 receptacle has a bail lock retention bracket to retain the power cord The version 2 receptacle has a clamp mechanism with a screw that can be tightened to retain the power cord DC output power from the AC power tray is connected to the router by two power blades that mate to the power bus on the backplane System communication is through a I2C cable from the backplane Figure 2 57 shows the back of the version 1 AC power tray and Figure 2 58 shows the back of the version 2 power tray Figure 2 57 Version 1 AC Power Tray Rear Panel age O NO he e 242977 O O 33308 LO 1 Ta gt 17 T E gii B r Q S Q Q e
132. power systems Table A 16 lists the DC electrical specifications for the Cisco ASR 9912 Router Table A 16 Cisco ASR 9912 Router DC Electrical Specifications Description Value Power modules per system Version 2 power system Up to 12 DC power modules per system four per tray Total DC input power per Version 2 power system power module 2300 W 2100 W output module Rated input voltage per 48 VDC nominal in North America power module 60 VDC nominal in the European Community Range 40 5 to 72 VDC 75 VDC for 5 ms Input current draw 49 A maximum at 48 VDC nominal 39 A maximum at 60 VDC nominal Source DC service Sufficient to supply the rated input current Local codes apply requirement Redundancy DC power modules operate in N 1 redundancy mode Up to 12 DC power modules are supported The number of DC power modules needed depends on the configuration of the chassis e g number of line cards RPs and FC cards installed Use the Cisco Power Calculator Cisco com account required at http tools cisco com cpc launch jsp to calculate how many DC power modules are needed 1 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 N Both the AC powered and DC powered versions of the Cisco ASR 9912 Router support only version 2 po
133. r 3 High Availability and Redundant Operation H High Availability Router Operations Fabric Switchover In the Cisco ASR 9010 Router Cisco ASR 9006 Router and Cisco ASR 9904 Router the RSP card makes up most of the fabric The fabric is configured in an active active configuration model which allows the traffic load to be distributed across both RSP cards In the case of a failure the single active switch fabric continues to forward traffic in the systems In the Cisco ASR 9922 Router and Cisco ASR 9912 Router fabric switching across the RP and line cards is provided by a separate set of seven OIR FC cards operating in 6 1 redundancy mode Any FC card can be removed from the chassis power cycled or provisioned to remain unpowered without impacting system traffic All FC cards remain active unless disabled or faulty Traffic from the line cards is distributed across all FC cards Active Standby Status Interpretation Status signals from each RSP RP card are monitored to determine active standby status and if a failure has occurred that requires a switchover from one RSP RP card to the other Non Stop Forwarding Cisco IOS XR Software supports non stop forwarding NSF to enable the forwarding of packets without traffic loss during a brief outage of the control plane NSF is implemented through signaling and routing protocol implementations for graceful restart extensions as standardized by the Internet Engineering Task Force
134. r dissipation If lower power cards are installed the system could run at slower speeds if higher power cards are installed the system could run at faster speeds Fan speed is managed by the RSP RP card and the controller card in the fan tray The RSP RP monitors card temperatures and sends a fan speed to the controller card If the failure of a single fan within a module is detected the failure causes an alarm and all the other fans in the fan tray go to full speed Complete failure of one fan tray causes the remaining fan tray to operate its fans at full speed continuously until a replacement fan tray is installed Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 EIS Chapter2 Functional Description H System Management and Configuration Temperature Sensing and Monitoring Temperature sensors are present on cards to monitor the internal temperatures Line cards and RSP RP cards have their leading edge inlet and hottest spot continuously monitored by temperature sensors Some cards have additional sensors located near hot components that need monitoring Some ASICS have internal diodes that might be used to read junction temperatures If the ambient air temperature is within the normal operating range the fans operate at the lowest speed possible to minimize noise amp power consumption If the air temperature in the card cage rises fan speed increases to provide additional cool
135. ral CISCO Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide September 2013 Cisco Systems Inc WWW CISCO COM Cisco has more than 200 offices worldwide Addresses phone numbers and fax numbers are listed on the Cisco website at www cisco com go offices Text Part Number OL 17501 09 THE SPECIFICATIONS AND INFORMATION REGARDING THE PRODUCTS IN THIS MANUAL ARE SUBJECT TO CHANGE WITHOUT NOTICE ALL STATEMENTS INFORMATION AND RECOMMENDATIONS IN THIS MANUAL ARE BELIEVED TO BE ACCURATE BUT ARE PRESENTED WITHOUT WARRANTY OF ANY KIND EXPRESS OR IMPLIED USERS MUST TAKE FULL RESPONSIBILITY FOR THEIR APPLICATION OF ANY PRODUCTS THE SOFTWARE LICENSE AND LIMITED WARRANTY FOR THE ACCOMPANYING PRODUCT ARE SET FORTH IN THE INFORMATION PACKET THAT SHIPPED WITH THE PRODUCT AND ARE INCORPORATED HEREIN BY THIS REFERENCE IF YOU ARE UNABLE TO LOCATE THE SOFTWARE LICENSE OR LIMITED WARRANTY CONTACT YOUR CISCO REPRESENTATIVE FOR A COPY The following information is for FCC compliance of Class A devices This equipment has been tested and found to comply with the limits for a Class A digital device pursuant to part 15 of the FCC rules These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment This equipment generates uses and can radiate radio frequency energy and if not installed and used in accordance with the instruction manual
136. ransport Optimized version Both versions are functionally equivalent but vary in configuration scale and buffer capacity Figure 2 31 shows the front panel connectors and indicators of the 36 port 10 GE line card Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide P2338 H OL 17501 09 Chapter2 Functional Description Ethernet Line Cards Ml Figure 2 31 36 Port 10 Gigabit Ethernet 36x10GE Line Card Front Panel 2 A T A py ay Dv AY a o 4 w v BY y y ay Ay QW Eb AGK S8X10GE TR i 343820 Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 EXN Chapter 2 Functional Description H Ethernet Line Cards Ejector lever one of two Port 23 SFP cage Captive installation screw one of two Port 24 SFP cage Port 0 SFP cage Port 35 SFP cage Port 11 SFP cage eco oO Line Card Status LED
137. ray Cables to a card must be disconnected before its removal this does not affect adjacent cards Removal of a line card or RSP RP card does not require removal or adjustment of cables other than those associated with the card itself A cable management bend radius of 1 5 inches 3 81 cm is accommodated Line card slots at the extreme ends of the cable management trays use space outside of the chassis width to accommodate the 1 5 inch 3 81 cm radii due to limited space per slot Space for the fiber bend radii and strain relief is 3 75 inches 9 53 cm in front of the faceplate Figure 1 14 shows how the fiber and cables are routed upward away from slot number labels Therefore slot number labels located at the lower part of the card cage are not obscured by the cables Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 Chapter Overview and Physical Description Rack Mounting Considerations W Figure 1 14 Fiber Cable Routing in the Cisco ASR 9010 Router 0p C p h of VIT o W hT ec j Se AI o 8 H H 3 CIA NIIT os S E Jd n E k Routing of DC Power Tray Source Cables Power cables are located in the rear The A and B source feeds to the DC power supply modules are separated so the cables route to opposite sides of the chassis A cable tie down point is provided Figure 1 15 shows the DC power cable
138. rays 4 a rear instertion a T IQ N R Si S3 SR S Line cards 4 A t W V kl CO O 5 5 5 5 5 3 5 5 3 DN D DH al DN nH HO NR S Cl 019 aS LO oO C olooIoIoooa DE TE tL tL l LL LL LE E a MO M1 M2 M3 R Power shelves trays PS1 fi M4 M5 M6 M7 3 Ps2 M8 M9 M10 M11 Pp b zl Power modules Power Module Hardware and Software Identification The power modules have software IDs that differ from the hardware ID labels on the chassis shown in the figures above Table 1 1 lists the hardware IDs and the corresponding software IDs for the power modules Table 1 1 Power Module Hardware and Software IDs Hardware ID Software ID PSO MO PMO PSOMI PMI PSO M2 PM2 PSO M3 PM3 PS1 MO PM4 Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 EL Chapter 1 Overview and Physical Description H Route Switch Processor and Route Processor Cards Table 1 1 Power Module Hardware and Software IDs Hardware ID Software ID PS1 MI PM5 PS1 M2 PM6 PS1 M3 PM7 PS2 MO PM8 PS2 M1 PM9 PS2 M2 PM10 PS2 M3 PM11 PS3 MO PM12 PS3 M1 PM13 PS3 M2 PM14 PS3 M3 PM15 Route Switch Processor and Route Processor Cards The RSP card is the main control and switch fabric element in the Cisco ASR 9010 Router and Cisco ASR 9006 Router and Cisco ASR 9904 Router To pro
139. rd slots and six power modules 1 Chassis only does not include cards power modules fan trays filter or chassis accessories Table A 2 lists the physical specifications for the Cisco ASR 9006 Router Table A 2 Cisco ASR 9006 Router Physical Specifications Description Value Chassis height 17 50 inches 44 45 cm Chassis width 17 50 inches 44 45 cm 19 0 inches 48 3 cm including chassis rack mount flanges and front door width Chassis depth 28 65 inches 72 72 cm including cable management system and front cover Chassis weight e Chassis only 87 5 pounds 39 69 kg e Chassis fully configured 230 pounds 104 33 kg using all card slots and three power modules 1 Chassis only does not include cards power modules fan trays filter or chassis accessories Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide Em OL 17501 09 AppendixA Technical Specifications Table A 3 lists the physical specifications for the Cisco ASR 9904 Router Table A 3 Cisco ASR 9904 Router Physical Specifications Description Value Chassis height 10 38 inches 26 36 cm Chassis width 17 75 inches 45 08 cm 19 0 inches 48 3 cm including chassis rack mount flanges Chassis depth 28 26 inches 71 78 cm including cable management system Chassis weight e Chassis only 43 3 pounds 19 64 kg e Chassis fully configured 122 8 pounds 55 70 kg using all card slots and
140. rds e Rack mount bracket Three bays for power trays 1 Two edge slots for RP cards Rear air exhaust B C N Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 EN Chapter 1 Overview and Physical Description H Chassis Physical Overview Field Replaceable Units In the Cisco ASR 9010 Router Cisco ASR 9006 Router and Cisco ASR 9904 Router the following components are field replaceable units FRUs e All line cards e RSP cards Power modules Power trays Only version 2 power trays are FRUs Router must be powered down before power tray removal e Fan trays e Air filters e Line card and RSP blank fillers e Compact flash disk e Gigabit Ethernet small form factor pluggable SFP transceiver modules e 10 Gigabit Ethernet small form factor pluggable SFP transceiver modules e 10 Gigabit Ethernet small form factor pluggable XFP transceiver modules e Optional card cage doors Cisco ASR 9010 Router only S Note The backplane BPID and version 1 power trays are not FRUs In the Cisco ASR 9922 Router and the Cisco ASR 9912 Router the following components are FRUs e All line cards e RP cards e FC cards Power modules e Power trays These routers use only version 2 power trays These routers must be powered down before power tray removal e Fan trays and covers e Air filters and foam media e Line card and RP blank fillers e Gig
141. regation Services Router Overview and Reference Guide H Chapter2 Functional Description H Power System Functional Description Power Module Status Indicators Figure 2 55 shows the status indicators for the version 1 power module and Figure 2 56 shows the status indicators for the version 2 power module The indicator definitions follow the two figures Figure 2 55 Version 1 Power Module Status Indicators SHIRE sitis iU B Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide ELEM OL 17501 09 Chapter2 Functional Description Power System Functional Description W Figure 2 56 Version 2 Power Module Status Indicators me Cae nm 1 Input LED ON continuously when the input voltage is present and within the correct range BLINKING when the input voltage is out of acceptable range OFF when no input voltage is present 2 Output LED ON when the power module output voltage is present BLINKING when the power module is in a power limit or overcurrent condition 3 Fault LED ON to indicate that a power supply failure has occurred System Power Redundancy Both the AC and DC power systems have system power redundancy depending on the chassis configuration Each tray can house up to four modules and can be configured for multiple power configurations For more information about power system redundancy see the P
142. ription H Rack Mounting Considerations Figure 1 10 Cisco ASR 9904 Router Chassis Footprint Dimensions Top Down View Rear of chassis 2 45 in 17 57 in 6 22cm 44 64 cm T A 1 7 7 9 e o 5 5 of jo 1 11 o 9 9 DL u o 9 o 25 02 in 63 54 cm o 0 11 9 9 15 24 cm 15 24 cm 0 10 o o e 5 Rack mounting surface 0 10 E P 2 45 in 6 22 cm Y la Y 2 282 in b 79 cm fe 18 97 in s s 48 19 cm es Front of chassis Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide EN OL 17501 09 Chapter Overview and Physical Description Rack Mounting Considerations W Figure 1 11 Cisco ASR 9922 Router Chassis Footprint Dimensions Top Down View Rear of chassis C C e e of I X amp 9 e la Ko amp EA AA EA HT T J U J U lo 30 11 in 22 in 76 48 cm i i 55 88 cm 1 gt t j m m a m m m m m 5 05 in Y mm Y E 17 60 in
143. rix display Figure 1 25 shows the front panel of the RP card OL 17501 09 Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide H Chapter 1 Overview and Physical Description H Route Switch Processor and Route Processor Cards Figure 1 25 RP Card Front Panel No le Psi id wee aw uer suo um H coins AL ous Au 8 3941810 dl gene 5 O ml r Food 10 UT D N wav YMT NO Q KVT 1900 NO s108H09 MIIAN 11 Xn E ea Hes esu mme o o O XX LL amp s o iO el Kd v5 RS E ASR 9822 AP TA g On O He 344073 Alarm Out DB9 connector 1 SYNC BITS J 211 ports 8 External USB port 2 SFP SFP ports 9 Management LAN ports 3 IEEE 1588 port 10 CONSOLE and AUX ports 4 Inter chassis nv SyncO 11 Alarm Cutoff ACO and Lamp Test push buttons 5 Inter chassis nv Syncl GPS ToD 12 Nine discrete LED indicators 6 10 MHz and 1 PPS indicators 13 LED matrix d
144. routing on the power trays Figure 1 15 Routing of DC Power Tray Source Cables 66 66 66 242894 Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 EZ Chapter 1 Overview and Physical Description H Rack Mounting Considerations Slot Numbering and Marking All card slots are clearly numbered Labels identifying slots are visible from the front of the chassis and are clearly numbered below each slot As mentioned previously fiber and cables are routed upward and do not obscure the slot ID labels Figure 1 16 shows slot ID numbering for the Cisco ASR 9010 Router with version 1 power trays Figure 1 17 shows slot ID numbering for the Cisco ASR 9010 Router with version 2 power trays Figure 1 16 Cisco ASR 9010 Router Router Slot ID Numbering Version 1 Power Trays RSP cards Line cards 0 3 Line cards 4 7 NXN XA z S y 0 1 2113 41 15 6117 Pie SS PE B B Sl g a al olr g gl cic oO 0j OF OB 9 O O ol o olol A o olojo S S S E c i E E 4 4 Ol m1 N OO O oN CO o S 5 S 5 5 5 5 5 3 DN DN D ND RRR wo FTO Fan trays FT1 Front air intake Power shelves 2 PSO gt MO M1 M2 a PS1 gt MO M1 M2 gt Y Power modules E Cisco AS
145. s Aggregation Services Router Overview and Reference Guide OL 17501 09 EX AppendixA Technical Specifications Table A 22 Card and Fan Tray Power Consumption Specifications continued Description Value 160 Gigabyte Modular Line Card Power consumption 520 W at 77 F 25 C 590 W at 104 F 40 C 620 W at 131 F 55 C Fan Tray Version 1 ASR 9010 Power consumption 200 W at 77 F 25 C 300 W at 104 F 40 C 600 W at 131 F 55 C Fan Tray Version 2 ASR 9010 Power consumption 240 W at 77 F 25 C 960 W at 104 F 40 C 1100 W at 131 F 55 C Fan Tray ASR 9006 Power consumption 100 W at 77 F 25 C 275 W at 104 F 40 C 375 W at 131 F 55 C Fan Tray ASR 9904 Power consumption 100 W at 77 F 25 C 360 W at 104 F 40 C 605 W at 131 F 55 C Fan Tray ASR 9922 Power consumption 200 W at 77 F 25 C 870 W at 104 F 40 C 1000 W at 131 F 55 C Fan Tray ASR 9912 Power consumption 290 W at 77 F 25 C 900 W at 104 F 40 C 1800 W at 131 F 55 C E Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09
146. s may operate at lower current ratings than those specified in this table Contact your Cisco technical representative for more information N Both the AC powered and DC powered versions of the Cisco ASR 9912 Router support only Version 2 power systems Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide VAS H OL 17501 09 AppendixA Technical Specifications Table A 12 lists the DC electrical specifications for the Cisco ASR 9010 Router Table A 12 Description Cisco ASR 9010 Router DC Electrical Specifications Value Power modules per system Version 1 power system Up to six DC power modules per system three per tray Version 2 power system Up to eight DC power modules per system four per tray Total DC input power per power module Version 1 1700 W 1500 W output module Version 2 2300 W 2100 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 Input current draw 49 A maximum at 48 VDC nominal 39 A maximum at 60 VDC nominal Source DC service requirement Sufficient to supply the rated input current Local codes apply Redundancy At least four DC power modules two per power tray are required for N 1 redundancy for a fully configured system version and version 2 1 For each DC power supply mod
147. seven seconds after the DC is applied Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide EZE OL 17501 09 Chapter2 Functional Description Power Down Cooling System Functional Description W 4 The soft start circuit in the logic cards takes 100 milliseconds to charge the input capacitor of the on board DC DC converters 5 The card power controller MCU enables the power sequencing of the DC DC converters and POLs through direct communication using a PMBus interface to digital controllers such as LT7510 or through a digital wrapper such as LT2978 6 The output of the DC DC converters ramp up to regulation within 50 milliseconds maximum after the program parameters are downloaded to each POL and On Off control pin has been asserted 1 Power conversion is disabled by toggling the Power On Off logic switch in the power tray to OFF position 2 The DC DC modules in the power tray stays within regulation for a minimum of 3 5 milliseconds after the Power On Off logic switch is disabled 3 The 54V DC to the logic card ramps down to 36 VDC in 3 5 milliseconds minimum from the time the DC DC modules starts ramping down from its minimum regulation level 4 The DC DC converters powers off immediately after the On Off pin is deasserted 5 The output of the DC DC converters stays in regulation for an additional 0 1 millisecond Cooling System Functional Description Cooling Path The Cisco ASR
148. slot chassis size fits in Telco EIA and ETSI racks and cabinets The version 1 power system has three power modules in the single power tray The version 2 power system has four power modules in the single power tray Figure 1 3 shows the slot locations for the chassis with a version power tray Figure 1 4 shows the slot locations for the chassis with a version 2 power tray Figure 1 3 Cisco ASR 9006 Router Chassis Components Version 1 Power Tray 48 Fan tray door F Pp two fan trays Rear air exhaust Four slots for line cards Two bottom slots reserved for redundant RSPs Power shelf gt 3 amp Rack mount bracket A AUS 4 Side air intake N AN WW NNNNN 243378 R Three AC DC or DC DC power modules Figure 1 4 Cisco ASR 9006 Router Chassis Components Version 2 Power Tray Fan tray door r two fan trays lt Rear air exhaust Four slots for line cards Two bottom slots reserved for redundant RSPs Power shelf gt lt Rack mount bracket SN z Side air intake MQ AAs QQ J 284274 lt k Four AC DC or DC DC power modules Cisco ASR 9000 Series Aggregation S
149. switch preventing congestion in the fabric The VOQ scheduler is also one for one redundant with one VOQ scheduler chip on each of the two redundant RSP RP cards Multicast Traffic Multicast traffic is replicated in the switch fabric For multicast including unicast floods the Cisco ASR 9000 Series Routers replicate the packet as necessary at the divergence points inside the system so that the multicast packets can replicate efficiently without having to burden any particular path with multiple copies of the same packet Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide Ka OL 17501 09 Chapter2 Functional Description Route Processor Card W The switch fabric has the capability to replicate multicast packets to downlink egress ports In addition the line cards have the capability to put multiple copies inside different tunnels or attachment circuits in a single port There are 64 K Fabric Multicast Groups RSP 2 based line cards or 128 K Fabric Multicast Groups RSP 440 based line cards in the system which allow the replication to go only to the downlink paths that need them without sending all multicast traffic to every packet processor Each multicast group in the system can be configured as to which line card and which packet processor on that card a packet is replicated to Multicast is not arbitrated by the VOQ mechanism but it is subject to arbitration at congestion points within the
150. t closures that are accessible through a nine pin connector on the RSP RP faceplate Both normally open and normally closed contacts are available Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 EIN Chapter 1 Overview and Physical Description H Fabric Controller Card Serviceability RSP RP cards can be inserted or removed when adjacent cabled RSP RP or line cards are installed Compact Flash is serviceable without the need to remove the RSP card Servicing the hard drive requires removal of the RSP RP card RSP and RP Card Ejector Levers Ejector levers are provided for inserting and removing the RSP RP cards The insertion and removal force of the card ejector levers is about 16 lbs 7 27 kg Longer ejector levers are provided for the RSP RP cards than for the line cards due to the higher pin count of the RSP RP card Fabric Controller Card On the Cisco ASR 9922 Router and Cisco ASR 9912 Router the switch fabric has been moved to FC cards The switch fabric is configured as a single stage of switching with multiple parallel planes The switch fabric is responsible for transporting packets from one line card to another but has no packet processing capabilities Each fabric plane is a single stage non blocking packet based store and forward switch To manage fabric congestion the RP provides centralized Virtual Output Queue VOQ arbitration The switch fabric is capable of
151. t is possible to swap a single fan tray assembly while the system is operational Fan tray removal does not require removal of any cables S Note Both fan trays are required for normal system operation for the Cisco ASR 9010 Router and Cisco ASR 9006 Router If both fan trays in the router are pulled out or are not installed a critical alarm is raised Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide 4276 H OL 17501 09 Chapter2 Functional Description Cooling System Functional Description W Figure 2 70 Cisco ASR 9006 Router Fan Tray 243374 e The fan tray contains six axial 92 mm 3 62 in fans There is a fan control board at the back end of each tray with a single power data connector that connects with the backplane The fan tray aligns through two guide pins inside the chassis and is secured by one captive screw The controller board floats within the fan tray to allow for alignment tolerances e A finger guard is adjacent to the front of most of the fans to keep fingers away from spinning fan blades during removal of the fan tray The maximum weight of the fan tray is 39 7 Ib 18 0 kg Cisco ASR 9904 Router Fan Tray The Cisco ASR 9904 Router contains a single fan tray If a fan tray fails it is possible to swap a single fan tray assembly while the system is operational Replace the missing fan tray within 4 minutes Cisco ASR 9000 Ser
152. the 54 VDC Return is grounded to the chassis ground on the backplane only In the Cisco ASR 9922 Router and Cisco ASR 9912 Router the internal 54 VDC power distribution is isolated from the central office by the transformers inside the power modules It has single point grounding on the 54 VDC Return internal distribution bus All field replaceable modules of the power system are designed for Online Insertion and Removal OIR so they can be installed or removed without causing interruption to system operation Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide Ex OL 17501 09 Chapter2 Functional Description Power System Functional Description W Figure 2 41 and Figure 2 42 show block diagrams of the ASR 9010 Router AC power system with version 1 and version 2 power systems Figure 2 43 and Figure 2 44 show block diagrams of the ASR 9010 Router DC power system with version 1 and version 2 power systems Note The Cisco ASR 9000 Series Routers have two available DC version 1 power modules a 2100 W module and a 1500 W module Both types of power modules can be used in a single chassis The ASR 9000 Series Routers have one available DC version 2 power module 2100 W
153. the on board DC DC converters The card power controller MCU enables the power sequencing of the DC DC converters and points of load POLs through direct communication using the PMBus interface to digital controllers The output of the DC DC converters ramps up to regulation within 50 milliseconds maximum after the program parameters are downloaded to each POL and the On Off control pin has been asserted Power conversion is disabled by toggling the Power On Off logic switch to the OFF position or unplugging the power cords from the AC power source The AC DC modules in the power trays stay within regulation for a minimum of 15 milliseconds after the AC power is removed The 54 V to the logic card ramps down to 36 V in 15 milliseconds minimum from the time the AC DC modules starts ramping down from its minimum regulation level The DC DC converters turn off immediately after the On Off control pin is deasserted The output of the DC DC converters stays in regulation for an additional 0 1 millisecond The DC power tray see Figure 2 60 provides two power feed connector banks A feed and B feed System communication is through a I2C cable from the backplane DC Tray Power Switch Each DC power tray provides a single pole single throw power switch to power on and off all of the power modules installed in the tray simultaneously When the power modules are turned off only the DC output power is turned off the power module fans and
154. the 2 port 100GE DX line card the 80 gigabyte modular line card the 160 gigabyte modular line card and the modular port adapters MPAs they support have four NPUs per card There are two data paths from the NPUs The primary path is to a bridge FPGA which manipulates the header and does interface conversion then to the fabric interface ASIC where packets are where packets are queued using VOQ and then sent to the backplane where they flow to the RSP RP fabric This path handles all main data and also control data that are routed to the RSP RP card CPU The second path is to the local CPU through a switched Gigabit Ethernet link This second link is used to process control data routed to the line card CPU or packets sent to the RSP RP card through the fabric link The backplane Gigabit Ethernet links one to each RSP RP card are used primarily for control plane functions such as application image download system configuration data from the IOS XR software statistics gathering and line card power up and reset control A CAN bus controller CBC supervises power supply operation and power on reset functions The CBC local 3 3 V regulator uses 10 V from the backplane to be operational at boot up It then controls a power sequencer to control the power up of the rest of the circuits on the card Each NPU can handle a total of approximately 25 to 30 million packets per second accounting for ingress and egress with a simple configuration The more p
155. the system offers robust fault detection correction failover and event management capabilities e Fault detection and correction In hardware the Cisco ASR 9000 Series Routers offer error correcting code ECC protected memory If a memory corruption occurs the system automatically restarts the impacted processes to fix the problem with minimum impact If the problem is persistent the Cisco ASR 9000 supports switchover and online insertion and removal OIR capabilities to allow replacement of defective hardware without impacting services on other hardware components in the system Resource management Cisco ASR 9000 Series Routers support resource threshold monitoring for CPU and memory utilization to improve out of resource OOR management When threshold conditions are met or exceeded the system generates an OOR alarm to notify operators of OOR conditions The system then automatically attempts recovery and allows the operator to configure flexible policies using the embedded event manager Online diagnostics Cisco ASR 9000 Series Routers provide built in online diagnostics to monitor functions such as network path failure detection packet diversion failures faulty fabric link detections etc The tests are configurable through the CLI e Event management Cisco ASR 9000 Series Routers offer mechanisms such as fault injection testing to detect hardware faults during lab testing a system watchdog mechanism to recover failed pr
156. tration Plane Punt Path NPU NPU Control Plane Data Plane Optical Optical Module Module 3 o e Route Switch Processor Card The RSP card is the main control and switch fabric element in the Cisco ASR 9010 Router Cisco ASR 9006 Router and Cisco ASR 9904 Router chassis The RSP card provides system control packet switching and timing control for the system To provide redundancy there can be two RSP cards in the system one as the active control RSP and the other as the standby RSP The standby RSP takes over all control functions should the active RSP fail Figure 2 6 shows the front panel connectors and indicators of the RSP card Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 EN Chapter2 Functional Description H Route Switch Processor Card Figure 2 6 RSP Card Front Panel Indicators and Connectors IN GETT M E alana je E le see e E le V I ale E ia le a rr lg in 2 Br un I e a ud JF le 28 1 9 seai i ajer o n 5 le spe H le IR t IA 8 i IR IR IN IR IR 035079 433 SS399V HSV14 LOVdl O2 9 e aco ALam Oresr FAIL O OSYNC CRIT O OHDD MAJ O O CF L ssi 243091 MIN O OACO
157. tziaizizaietalaeteitaiziaisall 194795 1 Ejector lever one of two 4 Port 7 XFP cage 2 Port Status LED one per port 5 Line Card Status LED 3 Port 0 XFP cage 6 Captive installation screw one of two Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 EX Chapter2 Functional Description H Ethernet Line Cards 2 Port 10 Gigabit Ethernet 20 port 1 Gigabit Ethernet 2x10GE 20x1GE Combination Line Card The 2 port 10 Gigabit Ethernet 20 port 1 Gigabit Ethernet 2x10GE 20x1GE combination line card has two 10 Gigabit Ethernet XFP module ports and 20 Gigabit Ethernet SFP module ports Each port XFP or SFP connects to an XAUI interface on one of the four NPUs The 2x10GE 20x1GE combination line card supports WAN PHY and OTN modes as well as the default LAN mode The 2x10GE 20x1GE combination line card is available in base extended and low queue versions All versions are functionally equivalent with the extended version of the line card providing typically twice the service scale of the base line card Figure 2 25 shows the block diagram for the 2x10GE 20x1GE combination line card and Figure 2 26 shows the front panel connectors and indicators Figure 2 25 2 Port 10 Gigabit Ethernet 20 Port Gigabit Ethernet 2x10GE 20x1GE Combination Line Card Block Diagram POM c gt GE gt p CPU gt GE To FPGAs
158. uggable transceiver module 5 QSFP 40 Gigabit Ethernet quad small form factor pluggable transceiver module 6 QSFP 40 Gigabit Ethernet quad small form factor pluggable transceiver module Functional Description Ethernet line cards for the Cisco ASR 9000 Series Routers provide forwarding throughput of line rate for packets as small as 64 bytes The small form factor pluggable SFP SFP QSFP XFP or CFP transceiver module ports are polled periodically to keep track of state changes and optical monitor values Packet features are implemented within network processor unit NPU ASICs see Figure 2 16 Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide 7222 H OL 17501 09 Chapter2 Functional Description Ethernet Line Cards W Figure 2 16 General Line Card Data Plane Block Diagram e A Optics Network P gt Processor Unit 9 NEN Optics lt gt Fabric Interface B gt ti a Network ap bii z gt Processor Unit p Optics a n e P Timing E E Control Plane _ CAN lt Controller Processor Power Converters 243063 Most of the line cards have four NPUs per card the 80 G line rate card has eight The 2 port 100GE DX line card has eight NPUs per card while
159. uit gt _ and DC B1 EMI 11 5 KW or EMI Filter Cooling 60A Filter 2KW Fans TB B1 TB A2 DC A2 EMI 4 DC DC 54V GOA Filter Pwr Sply gt gt gt Module 1 Line Card x4 DC B2 gt EMI gt 1 5 KW or 60A Filter 2KW TB B2 Narrow Range peas EMI D Soft Start Hig Fixed ju C DC DD Circuit gt Ratio gt gt l 60A Filter gt Pwr Sply EMI Filter 5 1 bue Module 3 10 8V Converters DC B3 EMI 1 5 KW or Converter 60A gt Filter lt 2KW TB B3 54V RTN a RSP Card x2 Narrow Range Soft Start _54y Fixed Point of DDH Circuit Hs Ratio gt Load EMI Filter 5 1 POL 10 8V Converters Converter Fan Tray 1 Fan 54V Soft Start 54V Controller D Circuit gt _ and EMI Filter Cooling Fans Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 EN Chapter 2 Functional Description H Power System Functional Description Figure 2 48 TB A1 Cisco ASR 9006 Router DC Power System Block Diagram Version 2 Power System DC A1 60A DC B1 60A TB B1 TB A2 DC A2 60A DC B2 60A TB B2 TB A3 DC A3 60A DC B3 60A TB B3 TB A4 DC A4 60A DC B4 60A TB B4
160. ule Some power chassis configurations may operate at lower current ratings than those specified in this table Contact your Cisco technical representative for more information Table A 13 lists the DC electrical specifications for the Cisco ASR 9006 Router Table A 13 Description Cisco ASR 9006 Router DC Electrical Specifications Value Power modules per system Version 1 power system Up to three DC power modules per system Version 2 power system Up to four DC power modules per system Total DC input power per power module Version power system 1700 W 1500 W output module Version 2 power system 2300 W 2100 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 Input current draw 49 A maximum at 48 VDC nominal 39 A maximum at 60 VDC nominal OL 17501 09 Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide H Appendix A Technical Specifications Table A 13 Cisco ASR 9006 Router DC Electrical Specifications continued Description Value Source DC service Sufficient to supply the rated input current Local codes apply requirement Redundancy At least two DC power modules are required for N 1 redundancy for a fully configured system version 1 and version 2 1 For each DC power supply module Some power c
161. ules Route Processor x2 DC A9 60A TEAS Soft Start Aa DC B9 60A PM8 Circuit 9e Point of mu 7 54V emi 54 Fixed 10 8V oad DC A10 60A re S 54V m A Fitter and gt Ratio 9 POL DC B10 60A _ gt Fm9 Fan Pn Converters DC A11 60A retis Controller Converter DC B11 60A gt PIO DC A12 60A Te tz gt PM11 DC B12 60A _ 5 Fabric Card x7 Soft Start P DC Power Shelf 3 w DC DC 2KW Circuit Fixed Point of Power Supply Modules 54V Sb _ EMI EN ou 7108V Load Filter and gt POL DC A13 60A TeaTS gt 5 1 PM12 Fan 10 8V Converters DC B13 60A _ gt gt Controller C onverter DC A14 60A T amp Au s gt 54V DC B14 60A gt PM13 P DC A15 60A TB A15 2 gt PM14 LI DC B15 60A 5 5AV RTN DC A16 60A TB A16 3 gt eo DC B16 60A _ gt PM15 3 e Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide Ex OL 17501 09 Chapter2 Functional Description Power System Functional Description Power Modules Multiple AC DC power modules can be installed in each AC DC power tray Figure 2 53 shows the version 1 power module and Figure 2 54 shows the version 2 power module Figure 2 53 Version 1 Power Module T m Bg 1 Doorlatch 2 Door and ejector lever 3 LED indicators Figure 2 54 Version 2 Power Module OL 17501 09 Cisco ASR 9000 Series Agg
162. ure 2 64 shows the cooling path of the Cisco ASR 9010 Router chassis OL 17501 09 Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide H Chapter 2 Functional Description H Cooling System Functional Description Figure 2 64 Fan trays gum Room air 7 i Front air intake f RSPs and line cards J 7 J Power modules Power modules m Air exhaust 242696 Cisco ASR 9010 Router Chassis Cooling Path Side View n Rear air exhaust plenum The Cisco ASR 9006 Router chassis has a side to top to rear cooling path The inlet is at the right side of the chassis and the exhaust is at the upper rear Figure 2 65 shows the cooling path of the Cisco ASR 9006 Router chassis Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide 0L 17501 09 Chapter2 Functional Description Cooling System Functional Description W Figure 2 65 Cisco ASR 9006 Router Chassis Cooling Path Air exhaust 11 Fan trays P D TT RSPs and line cards it Power modules Pp The Cisco ASR 9904 Router has a side to side cooling path The inlet is at the right side of the cage and the exhaust is at the left side ZZ Room air 243379
163. versions of the Cisco ASR 9904 Router support only version 2 power systems Table A 10 lists the AC electrical specifications for the Cisco ASR 9922 Router Table A 10 Description Cisco ASR 9922 Router AC Electrical Specifications Value Power modules per system Version 2 power system Up to 16 AC power modules per system four per tray Total AC input power per power module 3400 VA volt amps Rated input voltage per power module 200 240 VAC nominal range 180 to 264 VAC 220 240 VAC UK Rated input line frequency 50 60 Hz nominal range 47 to 63 Hz 50 60 Hz UK Input current draw 15 A maximum at 200 VAC 13 A maximum at 220 to 240 VRMS UK OL 17501 09 Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide H Appendix A Technical Specifications Table A 10 Cisco ASR 9922 Router AC Electrical Specifications Description Value Source AC service 20 A North America 16 A international 13 A UK requirement Redundancy AC power modules operate in N N redundancy mode Up to sixteen AC power modules are supported The number of AC power modules needed depends on the configuration of the chassis e g number of line cards RPs and FC cards 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 1 For each AC power supply m
164. vide redundancy there can be two RSP cards in each router one as the active control RSP and the other as the standby RSP The standby RSP takes over all control functions should the active RSP fail The RP card is the main control element in the Cisco ASR 9922 Router and Cisco ASR 9912 Router The RP card provides centralized chassis control management and data plane switching To provide redundancy there are two RP cards in each router one as the active control RP and the other as the standby RP The standby RP takes over all control functions should the active RP fail On the Cisco ASR 9922 Router and Cisco ASR 9912 Router the switch fabric has been moved to FC cards RSP Front Panel and Access Ports System alarms reside on the RSP Alarms consist of visual indicators with three levels Critical red Major red and Minor yellow There is a console interface for remote viewing of alarms and fault information The RSP has the following information and alarm LEDs and connectors One external Compact Flash type I II not on RSP 440 Two EIA TIA 232 RJ232 serial RJ 45 ports one each for Console and Auxiliary modem ports with Manufacturing Test connections to the backplane Two dual speed 100 1000 Mbit Ethernet Management ports e One 4 character 5x7 LED dot matrix display and discrete status LEDs e Alarm Cut Off ACO and Lamp Test momentary push buttons Two RJ 45 Sync timing ports with Link and Fault LEDs built into the
165. view and Reference Guide nia H OL 17501 09 AppendixA Technical Specifications Table A 22 Card and Fan Tray Power Consumption Specifications continued Description Value 40 port Gigabit Ethernet Line Card Power consumption 310 W at 77 F 25 C 320 W at 104 F 40 C 350 W at 131 F 55 C 8 port 10 Gigabit Ethernet 80 Gbps Line Rate Card Power consumption 565 W at 77 F 25 C 575 W at 104 F 40 C 630 W at 131 F 55 C 2 port 10 Gigabit Ethernet 20 port Gigabit Ethernet Combination Line Card Power consumption 315 W at 77 F 25 C 326 W at 104 F 40 C 335 W at 131 F 55 C 16 port 10 Gigabit Ethernet Oversubscribed Line Card Power consumption 565 W at 77 F 25 C 575 W at 104 F 40 C 630 W at 131 F 55 C 24 port 10 Gigabit Ethernet Line Card Power consumption 775 W at 77 F 25 C 850 W at 104 F 40 C 895 W at 131 F 55 C 36 port 10 Gigabit Ethernet Line Card Power consumption 850 W at 77 F 25 C 860 W at 104 F 40 C 920 W at 131 F 55 C 2 port 100 Gigabit Ethernet Line Card Power consumption 800 W at 77 F 25 C 875 W at 104 F 40 C 920 W at 131 F 55 C 1 port 100 Gigabit Ethernet Line Card Power consumption 460 W at 77 F 25 C 480 W at 104 F 40 C 510 W at 131 F 55 C 80 Gigabyte Modular Line Card Power consumption 350 W at 77 F 25 C 400 W at 104 F 40 C 420 W at 131 F 55 C Cisco ASR 9000 Serie
166. wer systems Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide 0L 17501 09 H An Appendix A Technical Specifications Table A 17 lists the AC input voltage range for the AC powered Cisco ASR 9000 Series Routers single phase power source Table A 17 AC Input Voltage Range Minimum Maximum Range Minimum Nominal Nominal 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 Table A 18 lists the DC input voltage range for the DC powered Cisco ASR 9000 Series Routers Table A 18 DC Input Voltage Range Range Minimum Nominal Maximum Input Voltage 40 VDC 48 VDC 72 VDC Table A 19 lists the DC output tolerances for AC or DC power modules for the version 1 power system Table A 19 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 12 600 W Cisco ASR 9010 Router only trays Maximum three 2100 W power modules in a single tray 6300 W Cisco ASR 9006 Router only 1 Maximum output power the power system is capable of supporting not system power consumption Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide Ex OL 17501 09 AppendixA Techni
167. wing replacement without any outage Each tray houses up to three version 1 power modules or four version 2 power modules Figure 3 7 shows the minimum and maximum module configurations for the version 1 power modules Figure 3 8 shows that version 2 is similar with a minimum of one module per tray The Cisco ASR 9000 Series Routers have two available DC power modules a 2100 W module and a 1500 W module Both types of power modules can be used in a single chassis See Appendix A Technical Specifications for power module specifications The slot location of a module in a tray is irrelevant as long as there are N 1 number of modules Figure 3 7 DC System Power Redundancy for the Cisco ASR 9010 Router Version 1 2100W DC 2100W DC 2100W DC 2100W DC 2100W DC 2100W DC 2100W DC 2100W DC 2 100W DC system 10 500W DC system 1 1 min power redundancy Figure 3 8 5 1 max power redundancy DC System Power Redundancy for the Cisco ASR 9010 Router Version 2 242899 2100W DC 2100W DC 2100W DC 2100W DC 2100W DC 2100W DC 2100W DC 2100W DC 2100W DC 2100W DC power redund 2 100W DC system 1 1 min ancy 14 700W 7 1 max power redundancy DC system 344092 Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Gui
168. wo fan trays The version 2 power system has four power modules in each of four power trays Figure 1 6 shows the slot locations for the chassis Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 EN Chapter 1 Overview and Physical Description H Chassis Physical Overview Figure 1 6 Cisco ASR 9922 Router Chassis Components Sixteen AC DC or DC DC 4 en io power modules j E Rear air exhaust Ten slots for line cards Two fan trays 4l Seven center slots reserved for redundant fabric controller cards Rack mount bracket Two edge slots reserved for redundant RPs Ten slots for line cards 344085 Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 Chapter Overview and Physical Description Chassis Physical Overview W Cisco ASR 9912 Router The Cisco ASR 9912 Router chassis is centered around a redundant pair of RP cards seven redundant FC cards and ten line cards The chassis fits in Telco EIA and ETSI racks and cabinets Figure 1 7 shows the slot locations for the chassis Figure 1 7 Cisco ASR 9912 Router Chassis Components f N NON Hye Y l H N M WW Ten slots for line cards 5 Two fan trays rear insertion Seven center slots for FC ca
169. x10GE Line Card 243064 Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide 0L 17501 09 Chapter2 Functional Description Ethernet Line Cards Ml Figure 2 22 4 Port 10 Gigabit Ethernet 4x10GE Line Card Front Panel x 6 CLASS 1 LASER MI XXXXXXXXX LslisisielsislsileielsisisieielsisisieleisisiIelIeieisiIsiIesieiesisisieisesisisisis v aV M N O e X H D H I 1 Ejector lever one of two 4 Port 3 XFP cage 2 Port 0 XFP cage 5 Line Card Status LED 3 Port Status LED one per port 6 Captive installation screw one of two Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 EZ Chapter2 Functional Description H Ethernet Line Cards 8 port 10 Gigabit Ethernet 8x10GE 80 Gbps Line Rate Card The 8 port 10 Gigabit Ethernet Bx IOGE 80 Gbps line rate card has eight 10 Gigabit Ethernet XFP module ports One 10 Gigabit Ethernet port connects to an XAUI interface on each of the eight NPUs The 8x 10GE 80 Gbps line rate card supports WAN PHY and OTN modes as well as the default LAN mode The 8x10GE 80 Gbps line rate card is available in base extended and low queue versions All versions are functionally equivalent with the extended
170. xternal USB is busy active Off Default after reset External USB is not busy active Internal USB 2 0 A RSP 440 Green Internal USB is busy active Off Default after reset Internal USB is not busy active Internal USB 2 0 Green Internal USB is busy active B Off Internal USB is not busy active RSP 440 Default after reset Table 2 2 lists the display definitions of the nine discrete LEDs on the RP front panel Table 2 2 RP Discrete LED Display Definitions Indicator Label Color Description Power Fail Red Standby Power Fail LED The LED is turned off by the CAN bus controller FAIL Default after power on after it is up and running Off Standby power is normal Critical Alarm Red Critical Alarm LED A critical alarm has occurred CRIT Off No critical alarm has occurred Default after reset Major Alarm MAJ Red Major alarm LED A major alarm has occurred Off Default after reset No major alarm has occurred Minor Alarm MIN Amber Minor alarm LED A minor alarm has occurred Off Default after reset No minor alarm has occurred Alarm Cutoff ACO Amber Alarm Cutoff has been enabled The ACO push button was pressed after at least one alarm has occurred Off Default after reset Alarm Cutoff is not enabled OL 17501 09 Cisco ASR 9000 Series Aggregation Services Router Overview and Referen
171. ys of the stages of the boot process and runtime information Table 2 4 describes the RSP 440 and RP LED matrix displays of the stages of the boot process and runtime information Not all of these messages are seen during a successful boot up process because the screen is updated too quickly for the message to be visible A failure detected during the boot up process results in the message remaining visible indicating the stage where the boot up process stopped When possible the RSP RP card logs the failure information and reboots Table 2 3 LED Matrix Display RSP LED Matrix Boot Stage and Runtime Display Description INIT Card is inserted and microcontroller is initialized BOOT Card is powered on and CPU is booting IMEM Starting initialization of memory IGEN Starting initialization of card ICBC Initializing communication with the microcontroller Cisco ASR 9000 Series Aggregation Services Router Overview and Reference Guide OL 17501 09 Chapter2 Functional Description Route Processor Card W Table 2 3 RSP LED Matrix Boot Stage and Runtime Display continued LED Matrix Display Description PDxy Loading programmable devices x FPGA y ROMMON PSTx Power on self test x RMN All tests finished and ROMMON is ready for commands LOAD Downloading Minimum Boot Image MBI image to CPU MBI

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