Cisco T1/E1 Multiflex Voice/WAN Interface Cards
for the Cisco 1700 Series Modular Access Routers


The Cisco T1/E1 Multiflex Voice/WAN Interface Cards (Multiflex VWIC) for the Cisco 1700 Series modular access routers offer service providers and enterprise customers a flexible multiservice solution to support multiple voice, data, and integrated voice/data applications. The Cisco Multiflex VWICs facilitate the migration from data-only or channelized voice and data to packet voice solutions and simplifies deployment, management, and sparing.


Figure 1
Cisco Dual-Port T1/E1 Multiflex Voice/WAN Interface Card

Introduction

The Cisco single- and dual-port T1/E1 Multiflex VWICs combine WIC and VIC functionality providing small and medium-sized businesses and small branch offices unparalleled flexibility, versatility, and investment protection. (See Figure 1.)

The Cisco Multiflex VWICs are supported on the Cisco 1721, Cisco 1751 and 1760 modular access routers. The Multiflex VWICs are shared across Cisco 1700, 2600, and 3600 Series routers using WIC/VIC or VIC slots.1 (Cisco 1721 supports data services only; data and voice supported on the Cisco 1751 and 1760.)

The T1/E1 Multiflex VWICs support both data and voice services. Customers who choose to integrate voice and data in multiple steps can preserve their investment in a T1/E1 WAN interface, because the multiflex VWIC can be reused in packet voice applications.

The Cisco T1/E1 Multiflex Voice/WAN Interface Cards enable the following applications:

  • Data2The multiflex VWIC functions as a WIC for T1/fractional T1 and
    E1/fractional E1 applications. The one- and two-port E1 versions include models that support unframed G.703. To simplify remote management, the T1 version integrates a fully managed data/channel service unit (DSU/CSU) and the E1 version includes a fully managed DSU.
  • Packet voice—The multiflex VWIC functions as a VIC to provide T1 or E1 connections to private branch exchanges (PBXs) and central offices, enabling new services and reducing voice/fax toll charges.
  • Multiplexed voice/data—The multiflex VWIC functions as a dual-port T1 or E1 "drop-and-insert" multiplexer with integrated DSU/CSUs, reducing the complexity and number of network components and facilitating a graceful migration to bandwidth-efficient packet voice.

Key Benefits

The Cisco Dual-Port T1/E1 Multiflex Voice WAN Interface Cards include the features and benefits given in Table 1.

Table 1   Features and Benefits of the Cisco Dual-Port T1/E1 Multiflex Voice WAN Interface Cards for Cisco 1700 Series

Features  Benefits 

Reduces networking life-cycle costs:

  • Enables graceful migration from data-only to multiplexed voice and data to packetized voice applications
  • Reduces training, deployment, management, and sparing inventory over single-purpose interfaces

Maximizes investment protection:

  • Offers multifunction support for LAN-to-LAN routing, multiplexed voice and data, and packetized voice
  • Modules shared between Cisco 1700, 2600, and 3600 Series modular access routers
  • E1 versions support both balanced and unbalanced modes
  • Specific models to support E1 G.703 unframed for utilizing the full 2.048 Mbps; improves branch-office network manageability and reliability
  • Eliminates costly external third-party CSU/DSUs and drop-and-insert multiplexers
  • Simplifies remote network management by allowing a single management tool, such as CiscoView or CiscoWorks, to support the router, CSU/DSU, and drop-and-insert multiplexer

Maximizes system resources:

  • Increases supported T1/E1 port density—up to two
    T1/E1 connections in a single VWIC or VIC slot
  • Increases digital voice channel density—up to 30 digital DS0 voice channels per router
  • Enables new services with easy migration to bandwidth-efficient packet voice

Customers who integrate voice and data in stages can preserve their investment in WAN interfaces: The multiflex VWIC can support data-only applications as a WAN interface; it can be used to integrate voice and data with the drop-and-insert multiplexer functionality; and it can be configured to support packetized voice in the future.

Applications

Packet Voice Solutions: PBX and Central Office Connectivity

The multiflex VWICs provide PBX and Public Switched Telephone Network (PSTN) connectivity for the Cisco 1700 Series routers. The Cisco 1751 and 1760 support the industry-standard H.323, Media Gateway Control Protocol 1.0 (MGCP), and Session Initiation Protocol (SIP)-based voice over IP (VoIP), as well as industry-standard FRF.11- and FRF.12-based voice over Frame Relay (VoFR).

T1 channel associate signaling (T1 CAS), E1 R2, T1/E1 Primary Rate Interface (PRI), and T1/E1 PRI QSIG are supported on the T1/E1 VWIC interfaces. The Cisco 1700 routers support up to 24 digital DS0s for T1 connection and 30 digital DS0s for E1 connection per router. When using for PRI voice application, T1/E1 VWICs have to be plug into WIC/VIC slot on the Cisco 1700 routers.

Data Solutions: Single- and Dual-Port T1/E1 WIC with Integrated DSU/CSU

The multiflex VWICs simplify small branch-office connectivity by integrating the functionality of a router, T1/E1 or fractional T1/E1 serial interface with a fully managed DSU/CSU.

When used for "data-only" WAN connectivity in the WIC/VIC slots, the multiflex VWICs support numerous functions, including Cisco IOS® command-line interface (CLI)-initiated loopback control, which is similar to the popular WIC-1DSU-T1. Additionally, the multiflex VWIC is also offered in a dual-port version, including dual E1 configurations, enabling increased WAN port density for the routers. The E1 VWICs include integrated DSUs, whereas the T1 VWICs integrate CSU and DSU functionality, simplifying remote network management.

The dual-port multiflex VWICs increase configuration flexibility on the Cisco 1700 routers by eliminating the need for two single-port T1/E1 WAN interface cards. Increasing the T1/E1 port density in a single slot enables the deployment of new applications, such as local serial aggregation with the WIC-2T or WIC-2A/S, or ISDN backup with the WIC-1B-S/T or WIC-1B-U.

The VWICs also support a limited channelized capability in which the T1 or E1 service can be flexibly split into two fractional channel groups. Thus, a single physical port can provide connection to two other sites.

The Cisco 1700 routers support up to two full T1/E1 or fractional data services per system. Either two single-port T1/E1 VWICs or one dual-port T1/E1 VWIC can be used to achieve maximum bandwidth.

The VWIC-1MFT-G703 and VWIC-2MFT-G703 are standard E1 interfaces and, therefore, VWIC-1MFT-G703 includes all of the features from the VWIC-1MFT-E1 when it is not in unframed G.703 mode. The VWIC-2MFT-G703 has all the features of the VWIC-2MFT-E1-DI when not in unframed G.703 mode. Additional flexibility is provided on the VWIC-2MFT-G703 and allows the configuration of one port for unframed G.703 while configuring the other for standard framed E1.

Multiplexed Voice/Data Solutions: Dual-Port T1/E1 Drop-and-Insert Multiplexer with Integrated DSU/CSU

These dual-port multiflex VWICs simplify small branch-office connectivity by enabling a Cisco 1700 Router to consolidate the functions of a router, a fully managed drop-and-insert multiplexer, and a fully managed DSU/CSU into a single box. Typically, a drop-and-insert multiplexer is used for channelized (such as time-division multiplexing [TDM]) integration of voice and data onto a single T1/fractional T1 or E1/fractional E1 connection to the central office. Consolidating to a single line is significantly less costly than maintaining two separate physical lines to the central office. Drop-and-insert functionality is supported only between two ports within the same VWIC for Cisco 1700 routers.

To achieve higher availability, enhanced availability drop and insert (EADI) is supported on the T1/E1 drop-and-insert VWICs. EADI enhances availability by allowing the Cisco IOS Software to be reloaded while maintaining TDM switching.

The dual-port T1/E1 drop-and-insert VWIC can be plugged in either the WIC/VIC slots or the VIC slots. While in the former mode, the T1/E1 service is shared either between TDM and data service or between TDM and packet voice services; and in the latter mode, the service is shared only between packet voice services and TDM. When the T1/E1 service is shared between TDM and packet voice services, the router data cannot use either of the VWIC ports as a WAN connection. Figure 2 illustrates how the T1/E1 service is shared between TDM and data service.


Figure 2

Drop and Insert to Share a T1/FT1 or E1/FE1 Service

To illustrate, consider the example of a PBX with a T1 interface that needs to support a maximum of 10 simultaneous calls. With 24 DS0s in a T1 service (1.544 Mbps), only 14 DS0s or 896 kbps of bandwidth is left for the transport of data from the router (14 x 64 kbps). The number of DS0s assigned for PBX calls and the remainder that are available for use with router data are fully configurable (statically, not dynamically). In the case of an E1 service, 30 DS0s are available for division between voice and router data.

In this example, one port of the dual-port drop-and-insert multiflex VWIC is connected to the PBX and the other port is connected to the central office. The ten DS0s from the PBX are TDM-switched to the central-office port on the VWIC itself. The configuration of this TDM switching is flexible so that DS0s on the PBX port do not have to be mapped to DS0s with the same timeslots on the central-office port. The remaining 14 DS0s on the VWIC central-office port terminate through the backplane connector of the VWIC on the router as a single aggregate channel group. The 14 DS0s are not individually addressable by the router as a channelized service, but can be split into two channel groups.

The term "drop and insert" is normally used when router data (or data from another data device) is multiplexed with voice calls. However, when used in the VIC mode, the router data cannot use either of the VWIC ports as a WAN connection. A more generic term for "drop and insert" is "digital crossconnect." Digital cross connection of voice channels only is supported by the dual-port drop-and-insert multiflex VWIC when used in VIC mode. For example, a single T1 connection from a PBX to the PBX port on the VWIC can be divided up between DS0s that are for packetized voice (such as VoIP) and DS0s that are TDM-switched to the central-office port of the VWIC for standard circuit-switched voice connectivity.

In addition to support for drop and insert, the dual-port drop-and-insert VWICs provide all the functionality of the single- and dual-port multiflex VWICs. Thus, they can serve as dual-port T1/E1 interfaces with integrated DSU/CSU when drop and insert is not configured.

TDM Cross Connect Solution

The time-division multiplexing (TDM) DS0 channel can be cross-connected with analog voice ports on the Cisco 1760. This feature called channel bank will provide support for 2 to 6 ports cross connected to a T1 channel associated signal (CAS) using a 2-port Voice Interface Card (VIC), and a maximum of 12 ports using a 4-port VIC.

A comparison of the features and specifications and specifications of the multiflex VWICs are shown in Tables 2 and 3.

Table 2   Multiflex VWIC Feature Comparison

   Data support "WIC mode"  Voice support "VIC mode"  Drop-and- insert multiplexing  Unframed E1 G.703  Two channel groups on one port  Management and diagnostics 
WIC-1DSU-T1

Yes

No

No

No

No

Yes

VWIC-1MFT-T1

Yes

Yes

No

No

Yes

Yes

VWIC-2MFT-T1

Yes

Yes

No

No

Yes

Yes

VWIC-2MFT-T1-DI

Yes

Yes

Yes

No

Yes

Yes

VWIC-1MFT-E1

Yes

Yes

No

No

Yes

Yes

VWIC-2MFT-E1

Yes

Yes

No

No

Yes

Yes

VWIC-2MFT-E1-DI

Yes

Yes

Yes

No

Yes

Yes

VWIC-1MFT-G703

Yes

Yes

No

Yes

Yes

Yes

VWIC-2MFT-G703

Yes

Yes

Yes

Yes

Yes

Yes

Table 3   Specifications

Product Number   Description 
VWIC-1MFT-T1

One-port RJ-48 multiflex trunk - T1

VWIC-2MFT-T1

Two-port RJ-48 multiflex trunk - T1

VWIC-2MFT-T1-DI

Two-port RJ-48 multiflex trunk - T1 with drop and insert

VWIC-1MFT-E1

One-port RJ-48 multiflex trunk - E1

VWIC-2MFT-E1

Two-port RJ-48 multiflex trunk - E1

VWIC-2MFT-E1-DI

Two-port RJ-48 multiflex trunk - E1 with drop and insert

VWIC-1MFT-G703

One-port RJ-48 multiflex trunk - E1 G.703

VWIC-2MFT-G703

Two-port RJ-48 multiflex trunk - E1 G.703

CAB-E1-RJ45BNC

E1 cable RJ-45 to dual BNC (unbalanced)

CAB-E1-RJ45TWIN

E1 cable RJ-45 to twinax (balanced)

Cisco IOS Software Release

The T1/E1 multiflex VWICs are supported on the Cisco 1751 and 1760 routers beginning with the Cisco IOS 12.2(4)YB release. The Cisco 1721 router supports the T1/E1 VWICs in Cisco IOS 12.2(8)YJ release. Cisco IOS 12.2(4)YB and 12.2(8)YJ have integrated into 12.2(15)T. Features of the T1/E1 network interface are shown in Tables 4 and 5.

Data Features

  • T1/E1 or fractional T1/E1 network interface
  • N x64-kbps orN x56-kbps nonchannelized data rates (T1:n = 1 to 24, E1:n = 1 to 31)
  • Standards based, including ANSI T1.403 and AT&T Publication 62411

    Table 4   Specification for T1 Network Interface

         
    Transmit bit rate

    1.544 Mbps ± 50 bps/32 ppm

    Receive bit rate

    1.544 Mbps ± 50 bps/32 ppm

    Line code

    AMI1, B8ZS2

    AMI1 Density

    Enforced for N x56-kbps channels

    Framing format

    D4 (SF)3 and ESF4

    Output level (LBO)

    0, -7.5, or -15 dB

    Input level

    +1 dB0 down to -24 dB0

    DTE interface (WIC mode)

    Fractional service

    DTE interface (VIC mode)

    G.704/structured

    DCE interface

    G.704/structured

    1 Alternate mark inversion

    2 Binary 8-zero substitution

    3 Super Frame

    4 Extended Superframe

Table 5   Specification for E1 Network Interface

     
Transmit bit rate

2.048 Mbps ± 100 bps/50 ppm

Receive bit rate

2.048 Mbps ± 100 bps/50 ppm

Data rate

1.984 Mbps (framed mode) per E1 port

Clocking

Internal and loop (recovered from network)

E1 national bits

Software configurable

Encoding

HDB31

DTE2 interface (WIC mode)

Fractional service

DTE interface (VIC mode)

G.704/structured

DCE interface

G.704/structured

1 High-density bipolar with three zeros

2 Data terminal equipment

Table 6  

Part Number  Number of DSPs 
PVDM-256K-4

1xDSP

PVDM-256K-8

2xDSP

PVDM-256K-12

3xDSP

PVDM-256K-16

4xDSP

PVDM-256K-20

5xDSP

DSP Modules for the Cisco 1751 and 1Cisco 760 Series

Table 7  

Codec  Kbps  Max Channels/DSP (Digital Calls) 
G.711 64 (PCM)

6

G.729a 8 (CS-ACELP)

3

G.726 16 (ADPCM)

3

G.723.1 5.3/6.3 (ACELP)

2

G.728 32 (ADPCM/LDCLP)

2

Maximum Channels Support per DSP

+ DSP used for the digital calls and for the analog calls have to be calculated separately

+ One DSP can support multiple Codecs concurrently

Dimensions (H x W x D)

  • 0.8 x 3.1 x 4.8 in.
  • (2.1 x 7.9 x 12.2 cm)

Weight

  • 0.12 lb (56g) (minimum) to 0.18 lb (81g) (maximum)

Diagnostics

  • ANSI T1.403 Annex B/V.54 loopup/down code recognition, network loopback, and user-initiated loopbacks, network payload loopback, local DTE loopback, remote line (codes: V.54, loop up, and loop down)
  • Bit error rate tester (BERT) patterns all 0s, all 1s, 1:2, 1:8, 3:24, QRW, QRSS, 63, 511, 2047, and V.54/T1.403 annex B bit patterns, two user-programmable 24-bit patterns
  • Alarm detection: alarm indication signal (AIS); time slot 16 AIS; remote alarm; far-end block error (FEBE); out of frame (OOF); cyclic redundancy check (CRC); multiframe OOF; signaling multiframe OOF; frame errors; cyclic redundancy check (CRC) errors; loss of network signal (red alarm); loss of network frame receive (blue alarm); AIS from network receive (yellow alarm) from network Performance Reports/Error Counters CRC; errored seconds; burst errored seconds; severely errored seconds; Ft and Fs framing errors for SF framing; FPS framing errors for ESF framing; 24-hour history stored in 15-minute increments
  • Onboard processor for real-time facility data link (FDL) messaging; in-band code detection and insertion; alarm integration; and performance monitoring
  • Full FDL support and FDL performance monitoring according to configurable standard: ANSI T1.403 or AT&T TR 54016

DSU/CSU

  • Selectable DSX-1 cable length in increments from 0 to 655 feet in DSU mode
  • Selectable DS1 CSU line build-out: 0, -7.5, -15, and -22.5 dB
  • Selectable DS1 CSU receiver gain: 26 or 36 dB

Packet Voice Support

Support for a single multiflex VWIC and basic voice connectivity is as follows:

  • The single-port T1 multiflex or dual-port T1 multiflex VWIC supports 1 to 24 DS0 channels (voice calls)
  • The single-port E1 multiflex or dual-port T1 multiflex VWIC connects 1 to 30 DS0 channels (voice calls)
  • CD (data Carrier Detect)
  • LP (loopback)
  • AL (alarm)

Table 6 identifies various management aspects of the T1/E1 multiplex VWICs.

Table 8   Management

 Feature  Description 
Telnet/console

Remote and local configuration, monitoring, and troubleshooting from Cisco IOS CLI

SNMP1

Router and DSU/CSU managed by single SNMP agent; router/DSU/CSU appear as single network entity to user

Standard MIB2 (MIB II)

Cisco integrated DSU/CSU MIB

RFC 1406 T1 MIB, including alarm detection and reporting

SNMP traps

Generated in response to alarms

1 Simple Network Management Protocol

2 Management Information Base

Environmental

  • Operating temperature: 0° to 40° C (32° to 104° F)
  • Storage temperature: -25° to +70° C (-13° to 158° F)
  • Relative humidity

-5 to 85% noncondensing operating

-5 to 95% noncondensing, nonoperating

T1 Compliance (partial list)

  • ANSI T1.403
  • US (UL 1950, T1)
  • TIA/EIA IS-968
  • CS-03 Part II
  • Canada (CSA 950, T1)
  • U.S. (FCC Part 15 Class B, T1)
  • U.K. (BS6301, EN60950, EN41003)
  • Canada (CSA C108.8 Class A, T1)
  • Bellcore—AT&T Accunet (62411)
  • ATT 54016
  • Japan (VCCI Class 2, VCCI:V-3/97.04, T1, JATE Green Book, IEC950)

E1 Compliance (partial list)

  • Australia (TS 016, AS/NZS 3548:1995)
  • Germany (TUV GS, EN60950)
  • Germany (VDE 0878 parts 3 and 30)
  • France (NFC98020, EN60950, EN41003)
  • Sweden (SS447-2-22, SS636334, EN60950)
  • U.K. (NTR4)
  • Europe (EN55022 Class B, EN55102-1, EN55102-2, CTR12, EN60950, EN50082-1:1992, EN55022:1994)
  • CCITT/ITU G.704, I.431
  • ETSI NET5, ETS300156
  • CTR4
  • CTR13
  • ETS 300011
  • ITU I.431

1 For PRI Voice Application, T1/E1 VWICs work in WIC/VIC slot only.

2 If any channel is used as a data channel, the VWIC has to be plugged into WIC/VIC slot only.

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CISCO T1 DSU/CSU WAN INTERFACE CARD (WIC-1DSU-T1-V2)

Updated T1 WAN Interface Card with Integrated DSU/CSU Simplifies Internet/Intranet Access by Reducing Deployment and Management Tasks.

The updated Cisco® T1 data service unit/channel service unit (DSU/CSU) WAN Interface Card (WIC) is an integrated, fully managed DSU/CSU for T1 or fractional T1 service. The WIC-1DSU-T1-V2 is an updated version of the WIC-1DSU-T1, offering additional supported features with the same performance.
The Cisco T1 DSU/CSU WIC is supported on the Cisco 1700 Series, 2600XM Series, 3631, and 3700 Series routers, and Cisco ICS 7750 Software. It provides a cost-effective router-DSU/CSU combination with the following benefits of integration:

• Fewer devices and cables to deploy and manage

• Remote and local configuration, monitoring, and troubleshooting via the Cisco IOS® Software CLI and Simple Network Management Protocol (SNMP)

• Flexibility and investment protection

• Single-vendor support

• Enhanced reliability

• Physical space savings

Figure 1. Cisco T1 DSU/CSU WAN Interface Card

FEATURES

• T1 or fractional T1 network interface

• Wet T1 support (not available on WIC-1DSU-T1)

• N x 64 kbps or N x 56 kbps nonchannelized data rates (N = 1 to 24)

• Standards-based, including ANSI T1.403 and AT&T Publication 62411

• Full management features:

–Configuration-Capability for remote configuration via Telnet from Cisco IOS CLI.

–Monitoring-Router and DSU/CSU are manageable as a single SNMP entity; extensive DSU/CSU statistics are provided by the Cisco IOS CLI.

–Troubleshooting-Extensive loopbacks (including manual button for network line loopback), bit error rate tester (BERT) test patterns, alarm counters, and performance reports, all of which are accessible from Cisco IOS CLI. LEDs for carrier detect, loopback, and alarm functions.

BENEFITS OF AN INTEGRATED, FULLY MANAGED SOLUTION

The T1 DSU/CSU WIC enables trouble-free Internet/intranet access with a simple, fully managed, integrated solution from a single vendor. Its ease of configuration and management differentiates it from external or separate DSUs/CSUs. Full management capability and modularity differentiates the T1 DSU/CSU WIC from other integrated router-DSU/CSU solutions, which typically have limited management and fixed configuration. This card delivers flexibility and investment protection, extending the growing family of WICs for Cisco 1700 Series, 2600 Series, 3631, and 3700 Series routers and Cisco ICS 7750 Software.

Reduced Deployment, Management Time, and Costs

Ease of configuration and management-The Cisco T1 DSU/CSU WIC simplifies tasks in the following ways:

• Easily configures via Cisco IOS Software initial setup, a utility that prompts a series of basic configuration questions upon router startup.

• Allows simplified remote and local configuration, management, and troubleshooting of the DSU/CSU from Cisco IOS CLI

–Using the familiar Cisco IOS CLI eliminates the need to learn or use command syntax for an external DSU/CSU

–Convenient Telnet or Secure Shell (SSH) Protocol connection to the router eliminates the need for out-of-band management of external DSUs/CSUs

–Cisco IOS CLI provides extensive DSU/CSU statistics (such as 24-hour history) and troubleshooting capability (such as DSU/CSU self test, loopbacks, DSU/CSU reset, alarm counters, and T1 statistics)

• Offers simplified SNMP management, with router and DSU/CSU managed as a single SNMP entity through CiscoWorks/CiscoView. The Cisco T1 DSU/CSU WIC SNMP agent supports the standard MIB II, Cisco integrated DSU/CSU MIB, and T1 MIB (RFC 1406). All T1 performance statistics can be monitored. The router also generates the appropriate SNMP traps in response to DSU/CSU alarms.

• An end-user-initiated manual loopback button allows users at remote sites to easily initiate a T1 network line loopback by pushing a recessed button on the WIC front panel without having to access the router via a console port or Telnet.

• Provides LEDs for carrier detect, loopback, and alarm, allowing for quick troubleshooting.

• Physical convenience-No additional space is needed because the Cisco T1 DSU/CSU WIC is inserted into the router. This integrated solution eliminates the need for a separate serial cable, reducing deployment time and cost.

• High reliability-The integrated DSU/CSU reduces the number of components in the network, leading to higher reliability. The serial cable that connects a router serial port to an external DSU/CSU is eliminated. The integrated DSU/CSU is powered from the router, eliminating the power supply for an external DSU/CSU. The Cisco 2600XM, 3600, and 3700 series are all available with redundant power systems, which cover the integrated DSU/CSU.

Flexibility and Investment Protection

The Cisco T1 DSU/CSU WIC extends the Cisco commitment to providing customers with maximum flexibility and investment protection through modular WICs that are supported on award-winning router platforms. When WAN bandwidth requirements or service provider pricing change, users can easily change WAN services either by changing the software configuration or replacing the WIC. Because the same card can be used on Cisco 1700, 2600XM, and 3700 series router platforms, the number of stocking units can be reduced, and the WIC can be redeployed from one platform to another.

Single-Vendor Support

Because the DSU/CSU plays an equally critical role as the router in helping to ensure WAN connectivity, many customers feel that it is important to have a support contract for both. Support for the integrated DSU/CSU is included in the maintenance contract for the Cisco router at no extra charge. However, if the router and DSU/CSU are from different vendors, it can be inconvenient to manage support contracts from multiple vendors. Further, when you need service and support, it is difficult to pinpoint a problem when phone calls have to be made to different vendors.
Cisco provides single-vendor support for its routers, integrated DSU/CSUs, and other network equipment. With its dedication to reliable support and customer satisfaction, Cisco offers numerous support programs to meet your business needs, including onsite support. A single phone call to a single vendor-Cisco takes full ownership of support when needed.

Enhanced Reliability

An integrated solution has fewer components; hence, fewer points of failure (for example, one less power supply and fewer cables). This leads to enhanced reliability.

Consistency with WIC-1DSU-T1

The Cisco T1 DSU/CSU WIC offers all of the features of the WIC-1DSU-T1 and can be smoothly deployed without requiring any additional learning.

Table 1. Cisco T1 DSU/CSU WIC Features

 

WIC-1DSU-T1-V2

WIC-1DSU-T1

Description

Updated one-port T1/fractional T1 DSU/CSU WIC
One-port T1/fractional T1 DSU/CSU WIC

Router families supported

1700* (1720, 1721, 1751, 1760), 2600XMs, 2691, 3631, 3725, 3745, and ICS 7750
1600**, 1600R2**, 1700***, 2600, 2600XM, 3600, and 3700

Wet T1 Capable

Yes
No

Short Cable Length Command

Yes; used to configure attenuation for short cable lengths (<660 feet)
No

Network Equipment Building Standards (NEBS)

Yes: Type I/III
No

* Cisco 1701, 1710, 1711, and 1712 are fixed-configuration routers and do not support the WIC-1DSU-T1-V2. Also, the Cisco 1750 does not support this WIC
** Note: Cisco 1600 and 1600R routers are no longer sold by Cisco
*** Cisco 1701, 1710, 1711, and 1712 are fixed-configuration routers and do not support the WIC-1DSU-T1.

SPECIFICATIONS

Cisco IOS Software Release

• 12.2(15)ZL PCBU special [Cisco 1700 Series only]

• 12.2(17) Mainline

• 12.3(1) Mainline

• 12.3(1st)T

Support on IAD2430 Series

• The IAD2431-8FXS, IAD2431-16FXS, IAD2432-24FXS, IAD2431-1T1E1 are supported on the following releases:

–12.3(7)T4

–12.3(8)T6

–12.3(11)T2

• Network clock participate was added, and is available in releases:

–12.3(7)T6

–12.3(8)T6

–12.3(11)T2

Dimensions and Weight

• Width: 3.1 in. (7.9 cm)

• Height: 0.8 in. (2.1 cm)

• Depth: 4.8 in. (12.2 cm)

• Weight: 0.14 lb (62g)

Network Interface

• Transmit bit rate: 1.544 Mbps +/- 50 bps

• Receive bit rate: 1.544 Mbps +/- 100 bps

• Line code: AMI, B8ZS

• AMI ones density

–Forced/bit robbing (N X56)

–High-Level Data Link Control (HDLC) data inversion (N X64)

• Framing format: D4 (SF) and ESF

• Output level (LBO): 0, -7.5, or -15 dB

• Input level: +1 dB0 to -24 dB0

Data Interface

• Data rates

–N x 64 kbps (N = 1 through 24); nonchannelized

–N x 56 kbps (N = 1 through 24); nonchannelized

• Interface connector: RJ-45

• System timing: Network and internal

Diagnostics

• Loopbacks

–Network line loopback; user initiated

–Recessed push button for network line loopback; toggle on/off

–Network line loopback; telco initiated

–Network payload loopback

–Local date terminal equipment (DTE) loopback

–Remote line and payload loopback (codes: V.54 loop up, and loop down)

• Self-test

–Self-test activated by user

• Test patterns (BERT)

–1:2, 1:5, 1:8, 3:24, QRW, All 0s, All 1s, user-programmable 24-bit patterns

• Network (T1) alarms

–Red alarm: Loss of network signal

–Blue alarm: Loss of network frame (AIS) from network

–Yellow alarm: Receive from network

• Performance reports and error counters

–Cyclic redundancy check (CRC), bipolar violation (BPV), OOF [EXPAND?], errored seconds, burst errored seconds, severely errored seconds, Ft and Fs framing errors for SF framing, FPS [EXPAND?] framing errors for ESF framing, 24-hour history stored in 15-minute increments

• LEDs

–CD (data carrier detect)

–LP (loopback)

–AL (alarm)

Management

• Telnet/console

–Remote and local configuration, monitoring, and troubleshooting from Cisco IOS CLI

• SNMP

–Router and DSU/CSU managed by single SNMP agent; router, DSU, and CSU appear as a single network entity to user

–Standard MIB (MIB II)

–Cisco integrated DSU/CSU MIB

–RFC 1406

• SNMP traps

–Generated in response to alarms

Regulatory Compliance

• FCC Part 15 Class B

• TIA/EIA-IS-968

• Industry Canada CS-03 Part II

• JATE Digital

• CAN/CSA-C22.2 No. 60950-00

• UL 60950-2000

• IEC/EN 60950

• TS001

• AS/NZS 3260

• NEBS Type I/III

Standards

• AT&T Pub 62411

• ANSI T1.403

Environmental

• Operating temperature

–0 to 40ºC (32 to 104°F)

• Storage temperature

–-20 to 65ºC (-4 to 149°F)

• Relative humidity

–10 to 85 percent noncondensing operating; 5 to 95 percent noncondensing, nonoperating

Table 2. Ordering Information

Product Number

Description

WIC-1DSU-T1-V2
Updated one-port T1/fractional T1 DSU/CSU WIC

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Cisco 4-Port High-Density FXS/DID Analog Voice Interface
Card for the Cisco 1700 Series Modular Access Routers

The Cisco 1700 Modular Access Router is designed to provide a cost-effective integrated access platform for small and medium-sized businesses and small enterprise branch offices. It supports advanced services e-Business features such as VPNs; secure Internet, intranet, and extranet access with optional firewall technology; broadband DSL and cable connectivity; and multiservice voice/video/data/fax integration.


Figure 1
Cisco 4-Port FXS/DID VIC with Caller ID Support


Introduction

The 4-port high-density FXS/DID VIC can support up to 4 foreign-exchange-station (FXS) ports for directly connecting phones or fax machines, or it can be used to connect up to four direct-inward-dial (DID) analog trunks, providing customers the flexibility they need for their unique business environment (refer to Figure 1). Each port on the 4-Port FXS/DID VIC is selectable for use in either FXS or DID mode. The 4-Port FXS/DID VIC is the same size as the existing two-port voice interface cards (VICs), allowing it to slide into either WIC/VIC slot or VIC slot in Cisco 1751 and 1760. The Cisco 1751 can support three VIC-4FXS/DID cards with a maximum of four ports in DID mode. The Cisco 1760 can support four VIC-4FXS/DID cards with a maximum of eight ports in DID mode. Figure 2 shows a typical application of 4-port VIC-FXS/DID in a small enterprise branch office with KTS or small PBX. The VIC-4FXS/DID in the Cisco 1700 is used to connect analog phones or fax machines. The long-distance calls between small enterprise branch offices and headquarters are carried by IP network, while the local calls are carried by PSTN, which also provide backup to the IP network.

DSP Requirements for the Cisco VIC-4FXS/DID

For Cisco 1751 and 1760 routers, the medium-complexity analog digital-signal-processor (DSP) image is the factory default for supporting the 4-Port FXS/DID VIC. This DSP image provides support for four voice channels (of G.711, G.729a, or G.726) for each DSP chip. For example, the Cisco PVDM-256K-4 DSP Module has one DSP chip and is, therefore, capable of supporting four voice channels on the 4-Port FXS/DID VIC. The medium-complexity analog DSP software image supports four channels of G.711, G.729a, G.726, fax relay, or modem or fax pass-through, and it provides support for 32-msec echo cancellation per DSP chip.


Figure 2
Small Offices with POTS Phones and Fax Machines


The 4-Port FXS/DID VIC also support the high-complexity analog DSP software image. This DSP image provides support for two voice channels (of G.711, G.729, G.723.1, G.728, or G.726) for each DSP chip. Therefore, a Cisco PVDM-256K-8 Module (two DSP chips) is required to support four voice channels on the 4-Port FXS/DID VIC. The high-complexity analog DSP image supports two channels of G.711, G.729, G.726, G.728, G.723.1, fax relay, or modem or fax pass-through, and it provides support for 32-msec echo cancellation per DSP chip.

For DSP requirements on the Cisco 1751 and 1760 routers with Cisco IOS® 12.2(8)YN or later releases, refer to the DSP Calculator at the following URL:

http://www.cisco.com/cgi-bin/Support/DSP/dsp-calc.pl

Key Benefits and Technical Specifications

Table 1 provides the benefits and specifications and Table 2 provides the Electro Magnetic Compatibility (EMC) standards for the 4-Port FXS/DID VIC.


Table 1: Benefits and Specifications of the Cisco 4-Port FXS/DID VIC
Part Number: VIC-4FXS/DID
  • 4-port FXS or DID voice/fax interface card with caller ID support
    (DID for United States, Canada, and other countries)

Interface type
  • FXS and DID trunk

Supported platforms
  • Cisco 1751 and Cisco 1760

First Cisco IOS® Release
  • Cisco IOS 12.2(8)YN (this is a short lived Early Deployment (ED) release which will merge into IOS 12.3(1)T)

Minimum Feature Sets
  • IP/VOX PLUS

Ringer Equivalence Number (REN)
  • A maximum of five REN loads can be supported on each voice port

  • A maximum of eight REN loads can be supported on each 4-port FXS/DID VIC

  • A maximum of twenty REN loads can be supported on each Cisco 1751 and 1760 router

Safety
  • UL 60950 (United States), CSA C22.2 No. 60950-00 (Canada), EN 60950 (Europe), AS 3260 (Australia), TS 001 (Australia))

FXS homologation
  • United States (TIA/EIA-1S-968), Canada (CS-03 I)

DID homologation
  • United States (TIA/EIA-1S-968), Australia (ACIF S002/S003)

EMC
  • Refer to Table 2

Spare
  • Part number VIC-4FXS/DID=

Signaling modes
  • FXS—Loop Start

  • DID—Wink, Immediate, and Delay Dial

Address Signaling formats
  • In-band dual tone multifrequency (DTMF)

  • Out-of-band pulse (10/20 pps)

Tone disconnect supervision
  • DID—Power denial (caller party control, far-end disconnect)

Ringing frequencies
  • 20 Hz, 50 Hz

Physical connector
  • RJ-11

Number of connectors
  • 4

Mean time between failure (MTBF)
  • 2,131,306 hours


Table 2: EMC for the Cisco 4-Port FXS/DID VIC
FCC Part 15 Class B

Emissions

EN55022: 1998, Class B

Emissions

EN61000-3-2: 1995

Harmonics

EN61000-3-3: 1995

Flicker

EN50082-1: 1997

Immunity

EN55024: 1998

Immunity

EN61000-3-2

Harmonics

EN61000-3-3

Flicker

EN61000-4-2

ESD

EN61000-4-3

RF fields

EN61000-4-4

EFT

EN61000-4-5

Surge

EN61000-4-6

Conducted RF

EN61000-4-11

Voltage dips/sags/interruptions


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