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This chapter describes the Quad and Octal T1/PRI and E1/PRI cards. This chapter includes the following sections:
The Cisco AS5300 universal access server is a versatile data communications platform that provides the functions of an access server, router, and digital modems in a single modular chassis. The access server is intended for Internet service providers (ISPs), telecommunications carriers, and other service providers that offer managed Internet connections, and also medium- to large-sized sites that provide Voice over IP, and both digital and analog access to users on an enterprise network.
By terminating both analog and digital calls on the same chassis simultaneously, the access server provides you with a clear, simple, and easy migration path from today's analog dial access services to tomorrow's digital dial access services.
The access server includes three slots in which you can install a combination of cards. In any one slot you can install your choice of:
Both types of cards contain Bantam jacks for troubleshooting purposes. In the Quad cards, the jacks are controlled through the hardware, and in the Octal cards they are controlled through the software.
In the remaining two slots you can install your choice of a MICA or a Microcom modem card. See the chapters "Microcom Modem Cards" and "MICA Modem Cards" for details.
Table 2-1 shows the memory required for the available cards.
| Cards | Module | Memory Requirements |
|---|---|---|
Octal T1/PRI or E1/PRI | DMM | 64 MB (upgrade included) |
Quad T1/PRI or E1/PRI with serial ports | HMM | 32 MB |
Quad T1/PRI or E1/PRIwithout serial ports | HMM | 32 MB |
You can install one of two types of Quad cards in any unpopulated slot of the access server chassis:
Both types of cards are described in the following sections.
The Quad T1/PRI card (see Figure 2-1) without serial interfaces includes four RJ-45 ports. Cables are not included with the card; however, port pinouts are listed in "Cabling Specifications." Note that these boards support both MICA and Microcom modems.
A 10-position rotary switch allows the user to choose which of the four ports is selected for monitoring through the Bantam jacks (TXMON, TXIN, TXOUT and RXMON, RXIN, RXOUT). The LED labeled MON at each port lights to indicate that port has been selected for monitoring. Only one port can be selected at a time. None of the ports is selected when the switch is set to the OFF position.
Cables are not included with the card. However, cable specifications and port pinouts are listed in "Cabling Specifications."
The Quad E1/PRI WAN card (see Figure 2-2) without serial interfaces includes four RJ-45 ports for terminating 120-ohm balanced lines or 75-ohm unbalanced lines. Cables are not included with the card. However, cable specifications and port pinouts are listed in "Cabling Specifications." Note that these boards support both MICA and Microcom modems.
A 10-position rotary switch allows the user to choose the number of ports that are terminated as 75-ohm unbalanced lines. If the LED labeled 120 at each port is on, it indicates the input impedance of that port is set to 120 ohms. If it is off, the impedance is set to 75 ohms.
Jumper settings on the card can be used to configure the 75-ohm unbalanced ports so the receive shield is connected to ground. Impedance selection switch settings and receive shield jumper positions are described in the section "Setting Input Impedance for E1/PRI WAN Cards" later in this chapter.
Cables are not included with the card. However, cable specifications and port pinouts are listed in "Cabling Specifications."
This section describes the Quad T1/PRI and Quad E1/PRI cards (see Figure 2-3) with serial interfaces. Note that these cards do not support Microcom modems.
The board provides 4 RJ-45 T1 or E1 PRI ports and 4 serial interfaces for backhaul WAN support.
The T1/PRI ports are configured as 100-ohm per port. For the Quad E1/PRI WAN card, the four ports can be configured as 75- or 120-ohm lines. The factory-set default is 120-ohm. Note that for the Octal E1/PRI card you change the impedence using a software command. See the Cisco AS5300 Universal Access Software Configuration Guide for details.
Cables are not included with the card. However, cable specifications and port pinouts are listed in "Cabling Specifications."
You can install an Octal E1/PRI or T1/PRI card (see Figure 2-4) in any slot of the access server chassis. The board provides 8 RJ-45 T1 or E1 PRI ports and 4 serial interfaces for backhaul WAN support. Note that these cards do not support Microcom modems.
The T1/PRI ports are configured as 100-ohm per port. For the Octal E1/PRI WAN card, the eight ports can be configured as 75- or 120-ohm lines. The factory-set default is 120-ohm. Note that, unlike the Quad E1/PRI card, the Octal E1/PRI card does not include a rotary switch to choose the input impedence for the ports; you change the impedence using a software control register. See the Cisco AS5300 Universal Access Software Configuration Guide for details.
Cables are not included with the card. However, cable specifications and port pinouts are listed in "Cabling Specifications."
You require the following software versions:
 | Caution If you skipped "Safety Warnings, Recommendations, and Tools Required," go back and read it now. This chapter provides important safety information and a list of tools you need to successfully remove and install cards without damaging your access server. |
 | Warning Before opening the chassis, disconnect the telephone-network cables to avoid contact with telephone-network voltages. |
| Warning Do not work on the system or connect or disconnect cables during periods of lightning activity. |
Refer to Figure 2-5 and take these steps:
Step 1 Turn the power switch on the access server OFF and disconnect site power. If using a DC-powered unit, refer to Figure 2-5 and complete steps a to d.
| Warning Before performing any of the following procedures, ensure that power is removed from the DC circuit. To ensure that all power is OFF, locate the circuit breaker on the panel board that services the DC circuit, switch the circuit breaker to the OFF position, and tape the switch handle of the circuit breaker in the OFF position. |
(a) Loosen the three locking screws for the negative, positive, and ground connectors on the DC power supply terminal block.
(b) Remove the -48 VDC wire from the terminal block negative connector (-).
(c) Remove the +48 VDC wire from the terminal block positive connector (+).
(d) Remove the safety ground (green wire) from the terminal block ground connector.
Step 2 Attach an ESD-preventive wrist strap.
Step 3 Remove all interface cables from the rear panel of the access server.
Step 4 Loosen the two captive screws that secure the card or blank slot cover to the chassis until each screw is free of the chassis.
Step 5 Insert the card removal tool so that the slots in each arm of the tool are behind the shoulder of each captive screw, as shown in Figure 2-7, and carefully pull the removal tool toward you until the card slides free of the chassis.
 | Caution The EMI protective devices on the cards are designed to make the cards fit tightly. When removing the cards, they can release suddenly. Exercise caution when removing the cards with the removal tool. |
Step 6 Set the removed card aside on an ESD-preventive mat.
Refer to Figure 2-6 and take these steps:
Step 1 Remove the card from the ESD-preventive shipping material.
Step 2 Slide the card into the slot until it touches the backplane connector.
Step 3 Align the captive screws with their holes, and then seat the card completely.
Step 4 Tighten the two captive screws to secure the card to the chassis.
Step 5 If the access server is configured with fewer than three cards, make sure that a blank slot cover is installed over each open slot to ensure proper airflow inside the chassis.
Step 6 Reconnect the AC power cord. Or, if using DC power, refer to Figure 2-8, and then complete steps a to d.
| Caution Do not overtorque the terminal block contact screws. The recommended torque is 8.2 ± 0.4 inch-lb. |
(a) Insert the safety ground (green wire) into the terminal block ground connector and tighten the locking screw. Ensure that no bare wire is exposed.
(b) Insert the +48 VDC wire into the terminal block positive connector (+) and tighten the locking screw. Ensure that no bare wire is exposed.
(c) Insert the -48 VDC wire into the terminal block negative connector (-) and tighten the locking screw. Ensure that no bare wire is exposed.
(d) Make sure the power supply cord is secured to the cable strain-relief clamps on the DC power supply with cable ties.
| Warning After wiring the DC power supply, remove the tape from the circuit breaker switch handle and reinstate power by moving the handle of the circuit breaker to the ON position. |
Step 7 Power ON the access server.
The internal power supply fan should power on.
Use the line-termination command to set the input impedance for Quad and Octal WAN E/PRI cards. Note that if you have a non-WAN Quad E1/PRI card, use the rotary switch to set the impedance. See the section, "Quad Cards Without Serial Interfaces " for details.
You can set the input impedance before or after running the setup script.
| Step | Command | Purpose |
|---|---|---|
| 1 | 5300> enable Password: <password> 5300# | Enter enable mode. Enter the password. You have entered enable mode when the prompt changes to |
| 2 | 5300# configure terminal Enter configuration commands, one per line. End with CNTL/Z. 5300(config)# | Enter global configuration mode. You have entered global configuration mode when the prompt changes to |
| 3 | 5300(config)# controller e1 0 5300(config-controller)# | Enter the controller number to configure. |
| 4 | 5300(config-controller)# line-termination 75-ohm | Sets the input impedance to 75-ohm for the controller. The factory-set default is 120-ohm. Repeat steps 3 and 4 for the other controllers. |
| 10 | 5300(config-controller)# Ctrl-Z 5300# %SYS-5-CONFIG_I: Configured from console by console | Return to enable mode. |
To verify your input impedance:
5300#sh running-config Building configuration... Current configuration: ! version 12.0 no service pad service timestamps debug datetime msec localtime service timestamps log datetime localtime show-timezone no service password-encryption service internal service udp-small-servers service tcp-small-servers ! hostname 5300 ! boot system flash flash:1:vdukki/c5300-i-mz enable secret 5 $1$qfO1$OYKRD2cvIJx7hfQbhrJS61 enable password lab ! bert profile default pattern 220-O.151QRSS threshold 10^-6 error-injection none duration 10 ip subnet-zero no ip domain-lookup ip domain-name cisco.com ! isdn switch-type primary-5ess clock timezone PDT8 -8 clock summer-time PDT8 recurring partition flash 2 8 8 ! ! ! controller E1 0 clock source free-running line-termination 75-ohm pri-group timeslots 1-31 ! controller E1 1 clock source line secondary 1 pri-group timeslots 1-31 ! controller E1 2 clock source line secondary 2 pri-group timeslots 1-31 ! controller E1 3 clock source line secondary 3 pri-group timeslots 1-31 ! controller E1 4 clock source line secondary 4 pri-group timeslots 1-3,16 ! controller E1 5 clock source line secondary 5 pri-group timeslots 1-31 ! controller E1 6 clock source line secondary 6 pri-group timeslots 1-31 ! controller E1 7 clock source line secondary 7 pri-group timeslots 1-31 ! ! ! interface Ethernet0 ip address 1.6.44.2 255.255.255.0 no ip directed-broadcast no ip route-cache no ip mroute-cache ! interface Serial0 ip address 1.1.1.1 255.255.255.0 no ip directed-broadcast no keepalive shutdown no fair-queue e2-clockrate ! interface Serial1 no ip address no ip directed-broadcast no ip route-cache no ip mroute-cache shutdown no fair-queue clockrate 2015232 ! interface Serial2 no ip address no ip directed-broadcast no ip route-cache no ip mroute-cache shutdown no fair-queue clockrate 2015232 ! interface Serial3 no ip address no ip directed-broadcast no ip route-cache no ip mroute-cache shutdown no fair-queue clockrate 2015232 ! interface Serial0:15 no ip address no ip directed-broadcast isdn switch-type primary-5ess no cdp enable hold-queue 10 in ! interface Serial1:15 no ip address no ip directed-broadcast isdn switch-type primary-5ess no cdp enable hold-queue 10 in ! interface Serial2:15 no ip address no ip directed-broadcast isdn switch-type primary-5ess no cdp enable hold-queue 10 in ! interface Serial3:15 no ip address no ip directed-broadcast isdn switch-type primary-5ess no cdp enable hold-queue 10 in ! interface Serial4:15 no ip address no ip directed-broadcast isdn switch-type primary-5ess no cdp enable hold-queue 10 in ! interface Serial5:15 no ip address no ip directed-broadcast isdn switch-type primary-5ess no cdp enable hold-queue 10 in ! interface Serial6:15 no ip address no ip directed-broadcast isdn switch-type primary-5ess no cdp enable hold-queue 10 in ! interface Serial7:15 no ip address no ip directed-broadcast isdn switch-type primary-5ess no cdp enable hold-queue 10 in ! interface FastEthernet0 mac-address 0000.0c00.0011 ip address 15.0.0.1 255.0.0.0 no ip directed-broadcast ip route-cache same-interface no ip route-cache no ip mroute-cache no keepalive duplex full hold-queue 75 in ! ip classless ip route 223.255.254.254 255.255.255.255 Ethernet0 ! access-list 101 permit ip any any access-list 101 deny igrp any any dialer-list 1 protocol ip list 101 arp 25.0.0.1 1234.1234.1241 ARPA arp 27.0.0.1 1234.1234.1243 ARPA arp 26.0.0.1 1234.1234.1242 ARPA arp 28.0.0.1 1234.1234.1244 ARPA ! ! line con 0 exec-timeout 0 0 transport input none line 1 54 line aux 0 transport input all line vty 0 4 password lab login ! scheduler interval 500 end 5300#
After you install or replace a card, you need to complete the following configuration tasks to set up the Quad or Octal card:
1. Configure ISDN PRI.
2. Configure channelized T1 or E1.
3. Configure the D channels for modem signaling.
4. Configure R2 signaling.
See the Cisco AS5300 Universal Access Server Software Configuration Guide for details. You can find the most up-to-date version of this manual online from either CCO or the CD-ROM.
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