Upload
others
View
3
Download
0
Embed Size (px)
Citation preview
Americas Headquarters:Cisco Systems, Inc., 170 West Tasman Drive, San Jose, CA 95134-1706 USA
© 2012 Cisco Systems, Inc. All rights reserved.
Cisco 5940 Embedded Services Router Hardware Technical Reference Guide
Current Release: February 15, 2012
Previous Release: August 28, 2011
About This GuideThis guide describes the Cisco 5940 Embedded Services Router (ESR) including product specifications, installation procedures and hardware information.
This guide is organized into the following sections:
• About This Guide, page 1
– Audience, page 2
– Related Documentation, page 2
– Conventions, page 2
• Introduction, page 3
• Cisco 5940 ESR Air-Cooled Card, page 4
– Air-Cooled LED Definitions, page 7
– Airflow Requirements, page 8
– Installing the Cisco 5940 ESR Air-Cooled Card, page 8
– Removing the Cisco 5940 ESR Air-Cooled Card, page 9
• Cisco 5940 ESR Conduction-Cooled Card, page 9
– Installing the Cisco 5940 ESR Conduction-Cooled Card, page 10
– Removing the Cisco 5940 ESR Conduction-Cooled Card, page 10
• Cisco 5940 Rear Transition Module (RTM) Card, page 11
Cisco 5940 Embedded Services Router Hardware Technical Reference Guide About This Guide
2Cisco 5940 Embedded Services Router
OL-23875-02
– Installing the Cisco 5940 RTM Card, page 12
– Removing the Cisco 5940 RTM Card, page 13
• Using the Cisco 5940 ESR, page 13
– Typical Application for Mobile Network Deployments, page 15
• Product Specifications, page 16
• Hardware Information, page 17
– Cisco 5940 Air-Cooled Card Front Panel Connector Pinouts, page 17
– Cisco 5940 Air-Cooled Card Layout and Dimensions, page 18
– Cisco 5940 Conduction-Cooled Card Layout and Dimensions, page 19
– Interface Pinout Assignments for the Compact PCI J1 and J2 Connectors, page 19
– RTM Console Port Connector Pinout Assignments, page 23
– RTM Ethernet Port Connector Pinout Assignments, page 23
• Obtaining Documentation, Support, and Security Guidelines, page 24
AudienceThis guide is for system integration engineers who are incorporating the board into a chassis.
Related DocumentationUse these publications to help you configure Cisco IOS software features not described in the preceding publications.
The most current Cisco 5940 ESR Release Notes, Software Configuration Guide, and FAQs are located at the following URL: www.cisco.com/go/5900
The most current Cisco IOS configuration guides and command references are located at the following URL: http://www.cisco.com/en/US/products/ps10148/products_installation_and_configuration_guides_list.html
For information about MIBs, refer to the following URL:http://tools.cisco.com/ITDIT/MIBS/servlet/index
ConventionsThis document uses the following typographical conventions:
Convention Description
boldface font Commands, command options, and keywords are in boldface.
italic font Command arguments for which you supply values are in italics.
[ ] Command elements in square brackets are optional.
{ x | y | z } Alternative keywords in command lines are grouped in braces and separated by vertical bars.
[ x | y | z ] Optional alternative keywords are grouped in brackets and separated by vertical bars.
Cisco 5940 Embedded Services Router Hardware Technical Reference Guide Introduction
3Cisco 5940 Embedded Services Router
OL-23875-02
Notes use the following conventions:
Note Means reader take note. Notes contain helpful suggestions or references to material not covered in the publication.
Cautions use the following conventions:
Caution Means reader be careful. In this situation, you might do something that could result in equipment damage or loss of data.
Warnings use the following conventions:
Warning Safety warnings appear throughout this publication in procedures that, if performed incorrectly, may cause harm to you or the equipment. A warning symbol precedes each warning statement.
IntroductionThe Cisco 5900 Series ESRs are optimized for mobile and embedded networks that require IP routing and services. The flexible, compact form factor of the Cisco 5900 routers, complemented by Cisco IOS Software and Cisco Mobile Ready Net capabilities, provide highly secure data, voice, and video communications to stationary and mobile network nodes across wired and wireless links.
The Cisco 5940 ESR is a high-performance router designed for harsh environments. Its highly durable construction provides reliable operation in extreme temperatures and in rugged terrain where mobile devices are often subject to greater degrees of shock and vibration. With onboard hardware encryption, the Cisco 5940 ESR off loads encryption processing from the routing engine to provide highly secure yet scalable video, voice, and data services for mobile and embedded outdoor networks. The Cisco 5940 ESR’s high performance, four Gigabit Ethernet interfaces, and rich Cisco IOS Software feature set provide investment protection for customers deploying bandwidth-intensive applications in mobile or embedded networks in public safety, transportation, defense, heavy construction, and mining markets.
The Cisco 5940 ESR is a 3U Compact PCI router card (Figure 1). Its inclusive and compact design simplifies integration and offers system integrators the ability to use the Cisco 5940 ESR in a wide variety of applications. Electrical connections are industry standard and require no additional active components. Air-cooled and conduction-cooled models accommodate diverse operational environments.
string A nonquoted set of characters. Do not use quotation marks around the string because the string will include the quotation marks.
screen font System displays are in screen font.
boldface screen font
Information you must enter verbatim is in boldface screen font.
italic screen font Arguments for which you supply values are in italic screen font.
This pointer highlights an important line of text in an example.
^ Represents the key labeled Control—for example, the key combination ^D in a screen display means hold down the Control key while you press the D key.
< > Nonprinting characters such as passwords are in angle brackets.
Convention Description
Cisco 5940 Embedded Services Router Hardware Technical Reference Guide Cisco 5940 ESR Air-Cooled Card
4Cisco 5940 Embedded Services Router
OL-23875-02
You can speed up time-to-market by using the Cisco 5940 ESR, along with its associated Rear Transition Module (RTM), in industry standard enclosures. This deployment scenario is typically used for development systems or applications with less severe size, weight and power (SWaP) requirements. The RTM may be eliminated for production systems to save space, reduce cost and incorporate appropriate connectors. The Cisco 5940 ESR is based on industry standards – providing Cisco’s customers with an extensive combination of products and suppliers for designing and developing systems.
Figure 1 Cisco 5900 Series ESRs
Cisco 5940 ESR Air-Cooled Card The Cisco 5940 ESR air-cooled card has four gigabit Ethernet ports and one console port.
Figure 2 shows a Cisco 5940 ESR air-cooled card.You can access the console port using the J2 connector or the RJ45 connector on the faceplate. You can access the gigabit Ethernet interfaces using the J2 connector. Figure 3 shows the LEDs and the RJ45 connector for the console port. Figure 5 displays the Embedded Router Airflow Requirement.
Cisco 5940 Embedded Services Router Hardware Technical Reference Guide Cisco 5940 ESR Air-Cooled Card
5Cisco 5940 Embedded Services Router
OL-23875-02
Figure 2 Cisco 5940 Embedded Services Router Air-Cooled Card
Figure 3 shows the faceplate for the Cisco 5940 ESR air-cooled card, and Table 1 lists the components on the faceplate.
Figure 3 RJ45 Connector on Faceplate
1941
98
J1
J2
1969
01
CONSOLE
3
STATUSHS
2 1 0
1
2
3
4
5
7
8
6
Cisco 5940 Embedded Services Router Hardware Technical Reference Guide Cisco 5940 ESR Air-Cooled Card
6Cisco 5940 Embedded Services Router
OL-23875-02
Table 1 Cisco 5940 ESR Air-Cooled Card Face Plate Markings
1 Ejector button (red) 2 Hot Swap Indicator
3 Port Number (0 to 3) 4 Console Port
5 Activity Indicator 6 1000 Mbps Status
7 100 Mbps Status 8 Status
Cisco 5940 Embedded Services Router Hardware Technical Reference Guide Cisco 5940 ESR Air-Cooled Card
7Cisco 5940 Embedded Services Router
OL-23875-02
Air-Cooled LED DefinitionsFigure 4 illustrates the Ethernet Link LED status for 1000, 100, and 10 Mbps connections.
Figure 4 Ethernet Link LED Status
The Activity Indicator LED blinks to represent transmit and/or receive Ethernet traffic for each port.
The Status Indicator LED is used to convey the current operational status of the card:
• An amber Status Indicator LED indicates that the card is booting
• A red Status Indicator LED indicates that the card is in error
• A green Status Indicator LED indicates that the card is operational
The blue Hot Swap Indicator LED notifies you that the card can be removed. Once the red ejector button is pressed, please wait for the blue LED to become solid before removing the card. The LED may blink for a short period of time in some cases; this means that the card is gracefully shutting down in preparation for removal.
Gigabit link established
100 MBit link established
10 Mbit link established
1000100
ACT
1000100
ACT
1000100
ACT
2365
40
Cisco 5940 Embedded Services Router Hardware Technical Reference Guide Cisco 5940 ESR Air-Cooled Card
8Cisco 5940 Embedded Services Router
OL-23875-02
Airflow RequirementsWhen designing for an air-cooled environment, verify that the air flow meets the ambient temperature requirement illustrated in Figure 5.
Figure 5 Embedded Router Airflow Requirement for Cisco 5940 ESR Air-cooled Card
Installing the Cisco 5940 ESR Air-Cooled Card
Warning When performing the following procedure, wear a grounding wrist strap to avoid ESD damage to the Cisco 5940 ESR air-cooled card. Some platforms have an ESD connector for attaching the wrist strap. Do not directly touch the midplane or backplane with your hand or any metal tool, or you could shock yourself.
To install the Cisco 5940 ESR air-cooled card, perform the following procedure:
Step 1 Carefully align the edges of the card between the upper and lower edges of the module slot and make sure the black handle on the ejector is in the down position.
Step 2 Press the red button on the ejector lever on the module while inserting the card into the slot.
Step 3 Release the red button once the card is fully seated to lock the card into place.
Step 4 Tighten the screws using a Phillips head screwdriver.
1987
36
Cisco 5940 Embedded Services Router Hardware Technical Reference Guide Cisco 5940 ESR Conduction-Cooled Card
9Cisco 5940 Embedded Services Router
OL-23875-02
Removing the Cisco 5940 ESR Air-Cooled Card
Warning When performing the following procedure, wear a grounding wrist strap to avoid ESD damage to the Cisco 5940 ESR air-cooled card. Some platforms have an ESD connector for attaching the wrist strap. Do not directly touch the midplane or backplane with your hand or any metal tool, or you could shock yourself.
To remove the Cisco 5940 ESR air-cooled card, perform the following procedure:
Step 1 Loosen the screws on the faceplate using a Phillips screwdriver.
Step 2 Press the red button on the ejector lever on the card to disengage the lock.
Step 3 Wait for the blue Hot Swap Indicator LED to illuminate.
Step 4 Carefully slide the card out of the chassis.
Cisco 5940 ESR Conduction-Cooled CardThe Cisco 5940 ESR conduction-cooled card has four gigabit Ethernet ports and one console port on the J2 connector. See Table 7 for more information.
Figure 6 shows a Cisco 5940 ESR conduction-cooled card.
Figure 6 Cisco 5940 ESR Conduction-Cooled Card
Cisco 5940 ESR Conduction-Cooled Card Components lists the components of the Cisco 5940 ESR conduction-cooled card.
1969
04
3
1 2
4
5
Table 2 Cisco 5940 ESR Conduction-Cooled Card Components
1 Ejection Lever 2 Wedge locks
3 Dip switches. Do not change!1
1. The default positions for all four dip switches is in the position farthest away from J1/J2 connectors.
4 J1 connector
5 J2 Connector
Cisco 5940 Embedded Services Router Hardware Technical Reference Guide Cisco 5940 ESR Conduction-Cooled Card
10Cisco 5940 Embedded Services Router
OL-23875-02
Installing the Cisco 5940 ESR Conduction-Cooled Card
Warning When performing the following procedures, wear a grounding wrist strap to avoid ESD damage to the Cisco 5940 ESR conduction-cooled card. Some platforms have an ESD connector for attaching the wrist strap. Do not directly touch the midplane or backplane with your hand or any metal tool, or you could shock yourself.
To install the Cisco 5940 ESR conduction-cooled card, perform the following procedure:
Step 1 Carefully align the edges of the card between the upper and lower edges of the module slot.
Step 2 Verify that all the wedge locks lie flat against the board.
Step 3 Slide the card into the module slot.
Step 4 Tighten the wedge locks using a hex torque screwdriver adjusted to 8.0 +/- 0.5 in-lb.
Step 5 After the initial torquing, back out each screw two (2) turns.
Step 6 Jiggle the card back and forth to re-seat the wedge and then repeat step 4.
Removing the Cisco 5940 ESR Conduction-Cooled Card
Warning When performing the following procedure, wear a grounding wrist strap to avoid ESD damage to the Cisco 5940 ESR conduction-cooled card. Some platforms have an ESD connector for attaching the wrist strap. Do not directly touch the midplane or backplane with your hand or any metal tool, or you could shock yourself.
To remove the Cisco 5940 ESR conduction-cooled card, use the following steps:
Step 1 Loosen the wedge locks using a hex screwdriver and completing seven (7) turns.
Caution Do not loosen the wedge locks past seven (7) turns for removal. Doing so could cause the wedge lock to fall off the card into the chassis.
Step 2 Use the ejection levers to disengage the lock.
Step 3 Carefully remove the Cisco 5940 ESR conduction-cooled card out of the conduction-cooled chassis.
Cisco 5940 Embedded Services Router Hardware Technical Reference Guide Cisco 5940 Rear Transition Module (RTM) Card
11Cisco 5940 Embedded Services Router
OL-23875-02
Cisco 5940 Rear Transition Module (RTM) Card The Cisco 5940 Rear Transition Module (RTM) card takes the input and output data from the J2 connector on a midplane and provides four gigabit Ethernet interfaces and one console port on the RTM faceplate (see Figure 8 for an example). The RTM faceplate ports are standard RJ45 connectors and do not require special wiring.
The RTM can be used with either the air-cooled or conduction-cooled cards, but is most frequently used with the air-cooled card. If you do not use the RTM with the conduction-cooled card, you must ensure that you wire correctly from the J2 connector to your chassis connectors. See Table 7 for J2 pin-out assignments.
Figure 7 shows the Cisco 5940 RTM.
Figure 7 Cisco 5940 Rear Transition Module (RTM)
196903
Cisco 5940 Embedded Services Router Hardware Technical Reference Guide Cisco 5940 Rear Transition Module (RTM) Card
12Cisco 5940 Embedded Services Router
OL-23875-02
Figure 8 shows the faceplate for the Cisco 5940 RTM and Table 3 lists the components on the faceplate.
Figure 8 RTM Faceplate
Installing the Cisco 5940 RTM Card
Warning To prevent electrostatic damage to cards in the rugged enclosure, attach an ESD-preventive wrist strap to your wrist and to a bare metal surface on the chassis of the enclosure before you start the card replacement process.
To install the Cisco 5940 RTM, perform the following procedure:
Step 1 Carefully align the edges of the card between the upper and lower edges of the module slot and make sure the black handle on the ejector is in the down position.
Note The Cisco 5940 RTM must be aligned with the Cisco 5940 ESR air-cooled card in the coordinating module slot.
Step 2 Press and hold the red button on the ejector lever on the module and insert the card into the slot.
Step 3 Release the red button once the card is fully seated to lock the card into place.
Step 4 Using a Phillips head screwdriver, tighten the screws.
Table 3 RTM Faceplate Ports
1 Ejector button 2 Gigabit Ethernet Interface 3
3 Gigabit Ethernet Interface 2 4 Gigabit Ethernet Interface 1
5 Gigabit Ethernet Interface 0 6 Console Port
1969
02
CO
NS
OLE
3
2
1
0
1
3
2
4
5
6
Cisco 5940 Embedded Services Router Hardware Technical Reference Guide Using the Cisco 5940 ESR
13Cisco 5940 Embedded Services Router
OL-23875-02
Removing the Cisco 5940 RTM Card
Warning To prevent electrostatic damage to cards in the rugged enclosure, attach an ESD-preventive wrist strap to your wrist and to a bare metal surface on the chassis of the enclosure before you start the card replacement process.
To remove the Cisco 5940 RTM, perform the following procedure:
Step 1 Loosen the screws using a Phillips head screwdriver.
Step 2 Press the red button on the ejector lever on the module to disengage the lock.
Step 3 Carefully remove the Cisco 5940 RTM from the chassis.
Using the Cisco 5940 ESRYou can deploy the Cisco 5940 in a variety of applications and physical formats.
You can use a larger standard chassis, the Cisco 5940 card and Cisco 5940 RTM (Figure 9). In this configuration you connect both the Cisco 5940 ESR and RTM to a standard midplane using the J2 connectors on each board. The RTM provides the gigabit Ethernet interfaces and console ports that can connect to the other modules in the chassis or network.
Figure 9 Using the Cisco 5940 ESR and RTM in a Standard Chassis
Chassis
2365
55
Car
d D
Car
d A
Car
d B
Car
d C
4 GE ports (1 on each card)
Cis
co 5
940
ES
R
RT
M
RT
M
RT
M
RT
M
RT
M
Rear Transition Moduleconnects to J2 connectoron Standard Midplane
Standard Midplane
Cisco 5940 Embedded Services Router Hardware Technical Reference Guide Using the Cisco 5940 ESR
14Cisco 5940 Embedded Services Router
OL-23875-02
You can also deploy the Cisco 5940 ESR into a custom chassis without using the Cisco 5940 RTM (Figure 10). This solution requires that the J2 connector signals be directly wired to the custom backplane. Any card to card connections are made by the backplane wiring. This solution has the advantage that you can design your custom chassis much smaller than most standard chassis that are available. The portions of the backplane not associated with the J2 I/O signals should still be designed in accordance with the cPCI specification.
Figure 10 Cisco 5940 ESR in Custom Chassis
A third possible solution can be the most compact and has the lowest power and weight. You can create custom connector wiring assemblies to wire the J1 and J2 connector signals on the Cisco 5940 ESR to chassis connector(s) (Figure 11). To use this method, the SYSEN# signal (J2.C2) and the BD_SEL# signal (J1.D15) need to be connected to GND. This makes the custom connector assembly emulate the system slot of a normal cPCI backplane to the Cisco 5940 ESR card.
Figure 11 Directly Wiring the Cisco 5940 ESR
Cis
co 5
940
ES
R
Car
d D
J2 to Console Port Connection
Car
d A
Car
d B
Car
d C
Custom Backplane
Custom chassis
4 GE ports (1 on each card)
Ethernet Hardwired on the
backplane (J2)
2365
54
2365
52
Cisco 5940 ESR Cable: Ethernet, Console, and LED (wired to J2)
Cable: Power (wired to J1)
Cisco 5940 Embedded Services Router Hardware Technical Reference Guide Using the Cisco 5940 ESR
15Cisco 5940 Embedded Services Router
OL-23875-02
Typical Application for Mobile Network DeploymentsFigure 12 shows a typical deployment scenario for a mobile communication node. In this example, three of the GE interfaces of the Cisco 5940 ESR provide WAN connections via Satcom, Cellular, and 802.11 radios. The fourth GE interface of the Cisco 5940 ESR connects to an Ethernet Switch card. Additional Ethernet interfaces on the Switch card are available as LAN ports. One of the LAN ports connects to a single board computer which can run mission critical applications.
Figure 12 Cisco 5940 ESR in a Mobile Deployment
Cis
co 5
940
ES
R
Eth
erne
t Sw
itch
Car
d
Sin
gle
Boa
rd C
ompu
ter
Backplane
3200
13
IP
LANEthernetInterfaces
SatcomRadio
CellularRadio
Wi-FiRadio...
Cisco 5940 Embedded Services Router Hardware Technical Reference Guide Product Specifications
1616Cisco 5940 Embedded Services Router
OL-23875-02
Product SpecificationsTable 4 lists technical specifications for the Cisco 5940 ESR.
Table 4 Cisco 5940 ESR Technical Specifications
Feature Description
Hardware Encryption • Onboard hardware encryption processor supporting IP Security (IPsec)
• Secure Sockets Layer with transparent LAN services (SSL/TLS)
• Secure Real-time Transport Protocol (SRTP)
• Triple Digital Encryption Standard (3DES)
• Advanced Encryption Standard (AES)
• Internet Key Exchange (IKE)
Memory
DRAM 1 GB
Flash Memory 256 MB
Interface Support
Gigabit Ethernet Four 10/100/1000 Gigabit Ethernet ports supporting auto negotiation
Router Console Port One RS-232 console port supporting signaling
Environmental Specifications
Industrial-grade components –40º to +185° F (–40° to +85°C) component local ambient temperature ranges
Operating temperature • The conduction-cooled router can withstand extended temperature ranges of –25º to +185º F (–32º to +85º C).
Note Temperatures are measured at card edge rail. Card edge rail must be 85º C or lower.
• The air-cooled router can withstand extended temperature ranges of 0º to +125ºF (–18º to +52ºC).
Note For air flow requirements, see Figure 5.
• Temperature ranges for completed solutions depend on hardware configuration variables, including enclosures and third-party components.
Non-Operating Temperature • -60º to +185º F (-51º to +85º C) for both the air-cooled and conduction cooled boards
Altitude (low-pressure operation)
• Up to 15,000 ft. (4572 m) for both the air-cooled and conduction-cooled boards
EMI/EMC • Conforms to FCC Class A limits
• Cisco recommends that you use shielded cables with the Cisco 5940 ESR
Cisco 5940 Embedded Services Router Hardware Technical Reference Guide Hardware Information
17Cisco 5940 Embedded Services Router
OL-23875-02
Hardware InformationThis section shows layout of the Cisco 5940 ESR cards, pinout assignments, and other hardware specification information.
Cisco 5940 Air-Cooled Card Front Panel Connector PinoutsFigure 13 shows the console port connector for the Cisco 5940 ESR air-cooled card.
Figure 13 Console Port Connector
Hardware Specifications
Power requirements/profile • 5 VDC from J1 connector (5V) Max (theoretical): 30WTypical (rail temperature @25C): 17W1
Typical (rail temperature @85C): 21.5W1
InRush: 7.9A
• 3.3 VDC from J1 connector (3.3V) Max (theoretical): 3WTypical (rail temperature @25C): 2W1
Typical (rail temperature @85C): 2W1
InRush: 11A
• TotalMax (theoretical): 33WTypical: (rail temperature @25C): 19W1
Typical: (rail temperature @85C): 23.5W1
Weight • Conduction Cooled: 1 lb.
• Air Cooled: 0.5 lb.
• RTM: 0.25 lb.
Mean Time Before Failure (MTBF) 2
• Air cooled card (Ground, Fixed, Controlled): 380,000 hours
• Air cooled card (Ground, Mobile): 63,000 hours
• Conduction cooled card (Ground, Fixed, Controlled): 431,000 hours
• Conduction cooled card (Ground, Mobile): 71,000 hours
1. Based on lab testing with traffic on all ports (CPU utilization +90%).
2. All values determined using 90% Upper Confidence Level (UCL) for the steady-state failure rate calculated per Telcordia SR-332, Issue 2, September 2006.
Table 4 Cisco 5940 ESR Technical Specifications (continued)
Feature Description
8 7 6 5 4 3 2 1
1999
22
Cisco 5940 Embedded Services Router Hardware Technical Reference Guide Hardware Information
18Cisco 5940 Embedded Services Router
OL-23875-02
Table 5 lists the pinout assignments for the Cisco 5940 ESR air-cooled card console port connector.
Cisco 5940 Air-Cooled Card Layout and DimensionsFigure 14 shows the layout and dimensions of the Cisco 5940 ESR air-cooled card.
Figure 14 Layout of the Air-Cooled Card
Table 5 Cisco 5940 Air-Cooled Card Console Port Pinout Assignments
Pin Function Pin Function
1 RTS 5 GND
2 DTR1
1. DTR permanently asserted.
6 RXD
3 TXD 7 Unused
4 GND 8 CTS
3200
24
Cisco 5940 Embedded Services Router Hardware Technical Reference Guide Hardware Information
1919Cisco 5940 Embedded Services Router
OL-23875-02
Cisco 5940 Conduction-Cooled Card Layout and DimensionsFigure 15 shows the layout and dimensions of the Cisco 5940 ESR conduction-cooled card.
Figure 15 Layout of the Conduction-Cooled Card
Interface Pinout Assignments for the Compact PCI J1 and J2 ConnectorsFigure 16 shows the Cisco 5940 ESR CompactPCI J1 and J2 connectors.
J1 on the Cisco 5940 ESR is a TE Connectivity part # 5352068-1. J2 on the Cisco 5940 ESR is a TE Connectivity part # 5352152-1. The connector manufacturer's website lists several options for mating connectors (the component used in the backplane or wiring assembly). The mating connector selection depends on the application (for instance, a thicker backplane requires longer leads on the mating connector).
Figure 16 Cisco 5940 ESR CompactPCI J1 and J2 Connectors
Table 6 lists the pinout assignments for the CompactPCI J1 connector.
198735
1987
34
Board edge Board edge
A1A1
J1 J2
Cisco 5940 Embedded Services Router Hardware Technical Reference Guide Hardware Information
20Cisco 5940 Embedded Services Router
OL-23875-02
Note Column F in Table 6 represents the connector edge for grounding.
1.Cisco 5940 ESR accepts 3.3V or 5V for V(I/O).
Table 7 lists the pinout assignment for the compact PCI J2 connector.
Table 6 J1 Pinout Assignments
Color Code: Long Pins Medium Pins Short Pins
Column
Row A B C D E F
25 5V REQ64# ENUM# 3.3V 5V GND
24 AD[1] 5V V(I/O)1 AD[0] ACK64# GND
23 3.3V AD[4] AD[3] 5V AD[2] GND
22 AD[7] GND 3.3V AD[6] AD[5] GND
21 3.3V AD[9] AD[8] M66EN C/BE[0]# GND
20 AD[12] GND V(I/O)1 AD[11] AD[10] GND
19 3.3V AD[15] AD[14] GND AD[13] GND
18 SERR# GND 3.3V PAR C/BE[1]# GND
17 3.3V IPMB_SCL IPMB_SDA GND PERR# GND
16 DEVSEL# GND V(I/O)1 STOP# LOCK# GND
15 3.3V FRAME# IRDY# BD_SEL# TRDY# GND
14
KEY AREA13
12
11 AD[18] AD[17] AD[16] GND C/BE[2]# GND
10 AD[21] GND 3.3V AD[20] AD[19] GND
9 C/BE[3]# IDSEL AD[23] GND AD[22] GND
8 AD[26] GND V(I/O)1 AD[25] AD[24] GND
7 AD[30] AD[29] AD[28] GND AD[27] GND
6 REQ0# GND 3.3V CLK0 AD[31] GND
5 BRSVP1A5 BRSVP1B5 RST# GND GNT0# GND
4 IPMB_PWR HEALTHY# V(I/O)1 INTP INTS GND
3 INTA# INTB# INTC# 5V INTD# GND
2 TCK 5V TMS TDO TDI GND
1 5V -12V TRST# +12V 5V GND
Cisco 5940 Embedded Services Router Hardware Technical Reference Guide Hardware Information
2121Cisco 5940 Embedded Services Router
OL-23875-02
Note Column F in Table 7 represents the connector edge for grounding.
Table 7 J2 Pinout Assignments
ColorCode:
GbE Console
Reserved cPCI Spec LED
Row Column
A B C D E F
22 GA4 GA3 GA2 GA1 GA0 GND
21 N/C1
1. Assigned by cPCI specification, but unused by Cisco 5940 ESR
GND Reserved3 Reserved3 Reserved3 GND
20 N/C1 GND Reserved3 Reserved3 Reserved3 GND
19 GND GND Reserved3 Reserved3 Reserved3 GND
18 RxD Reserved3 Reserved3 Reserved3 CTS2 GND
17 TxD Reserved3 PRST# N/C1 N/C1 GND
16 STS_LEDG RTS2
2. Connection not required for normal console operation
Reserved3
3. Leave disconnected
GND DTR2, 4
4. DTR is permanently asserted
5. Cisco 5940 ESR accepts 3.3V or 5V for V(I/O)
GND
15 STS_LEDR STS_LEDRTN Reserved3 N/C1 N/C1 GND
14 ETH0_DA+ ETH0_DA- ETH0_LED1000# ETH0_DC+ ETH0_DC- GND
13 ETH0_DB+ ETH0_DB- ETH0_LED10_100# ETH0_DD+ ETH0_DD- GND
12 ETH1_DA+ ETH1_DA- ETH1_LED1000# ETH1_DC+ ETH1_DC- GND
11 ETH1_DB+ ETH1_DB- ETH1_LED10_100# ETH1_DD+ ETH1_DD- GND
10 ETH2_DA+ ETH2_DA- ETH2_LED1000# ETH2_DC+ ETH2_DC- GND
9 ETH2_DB+ ETH2_DB- ETH2_LED10_100# ETH2_DD+ ETH2_DD- GND
8 ETH3_DA+ ETH3_DA- ETH3_LED1000# ETH3_DC+ ETH3_DC- GND
7 ETH3_DB+ ETH3_DB- ETH3_LED10_100# ETH3_DD+ ETH3_DD- GND
6 Reserved3 Reserved3 Reserved3 Reserved3 Reserved3 GND
5 Reserved3 Reserved3 Reserved3 Reserved3 Reserved3 GND
4 V(I/O)5 Reserved3 Reserved3 Reserved3 Reserved3 GND
3 CLK4 GND GNT3# REQ4# GNT4# GND
2 CLK2 CLK3 SYSEN# GNT2# REQ3# GND
1 CLK1 GND REQ1# GNT1# REQ2# GND
Cisco 5940 Embedded Services Router Hardware Technical Reference Guide Hardware Information
22Cisco 5940 Embedded Services Router
OL-23875-02
Figure 17 shows how the Ethernet Link LED signal is wired on the Cisco 5940 ESR. This applies to the air-cooled and conduction-cooled card.
Figure 17 Ethernet Link LED Connections
Figure 18 shows how the Status LED is wired on the Cisco 5940 ESR air-cooled or conduction-cooled card.
Figure 18 Status LED Connections
ETHx_LED10_100 #
300ETHx_ LED1000 #
vOH=2.3V-2.63V (nominal of 2.5V)vOL=0V-0.2V
iOH=4mA; iOL=-8mADriver tolerant of 3.47V
vOH=2.4V-3.47V (nominal of 3.3V)vOL=0V-0.4V
iOH=8mA; iOL=-8mADriver tolerant of 5.5V
Link Status
1000Base-T
100Base-T
10Base-T
No Link
ETHx_LED10_100#
HIGH
LOW
LOW
HIGH
ETHx_LED1000#
LOW
HIGH
HIGH
HIGH
LEDDriver
LEDDriver
2367
78
STS_LEDRSTS_LEDG
vOH=2.4V-3.47V (nominal of 3.3V)vOL=0V-0.4V
iOH=8mA; iOL=-8mADriver tolerant of 5.5V
STS_LEDRTNConnected on Cisco 5940 ESR to GND
Status
Card booting
Error
Operational
STS_LEDR
HIGH
HIGH
LOW
STS_LEDG
HIGH
LOW
HIGH
LEDDriver
2367
79
Cisco 5940 Embedded Services Router Hardware Technical Reference Guide Hardware Information
23Cisco 5940 Embedded Services Router
OL-23875-02
RTM Console Port Connector Pinout AssignmentsFigure 19 shows the RTM Console Port Connector.
Figure 19 RJ45 Console Port Connector
Table 8 lists the pinouts assignments for the console port RJ45 connector.
RTM Ethernet Port Connector Pinout AssignmentsFigure 20 shows the RJ45 Ethernet port connector.
Figure 20 RJ45 Ethernet Port Connector
Table 9 lists the pinout assignments for the RJ45 Ethernet Port Connector.
8 7 6 5 4 3 2 1
1999
22
Table 8 Console Port RJ45 Pinout Assignments
Pin Function Pin Function
1 RTS 5 GND
2 DTR1
1. DTR permanently asserted.
6 RXD
3 TXD 7 Unused
4 GND 8 CTS
8 7 6 5 4 3 2 1
1999
22
Table 9 RJ45 Ethernet Port Connector Pinout Assignments
Pin Function Pin Function
1 TX+/DA+ 5 NC/DC-
2 TX-/DA- 6 RX-/DB-
Cisco 5940 Embedded Services Router Hardware Technical Reference Guide Obtaining Documentation, Support, and Security Guidelines
24Cisco 5940 Embedded Services Router
OL-23875-02
Obtaining Documentation, Support, and Security GuidelinesFor information on obtaining documentation, submitting a service request, and gathering additional information, see the monthly What’s New in Cisco Product Documentation, which also lists all new and revised Cisco technical documentation, at the following URL:
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. Cisco currently supports RSS Version 2.0.
Cisco and the Cisco Logo are trademarks of Cisco Systems, Inc. and/or its affiliates in the U.S. and other countries. A listing of Cisco's trademarks can be found at www.cisco.com/go/trademarks. Third party trademarks mentioned are the property of their respective owners. The use of the word partner does not imply a partnership relationship between Cisco and any other company. (1005R)
© 2012 Cisco Systems, Inc. All rights reserved.
3 RX+/DB+ 7 NC/DD+
4 NC/DC+ 8 NC/DD-
Table 9 RJ45 Ethernet Port Connector Pinout Assignments (continued)
Pin Function Pin Function