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V5.2 Example Configuration Trace

Important! This release of V5.2 supports LE only.

Important! AN is not supported for V5.2. Any text or illustrations (for example, call flows) indicating the AN side is for clarification purposes only.

Overview

The following trace shows an example configuration for a system using the V5.2 protocol. In this example, both ends of the V5.2 interface are shown in one CSP system; the LE side and the AN side.

The following is a list of objects that the host must manage for this implementation of the V5.2 protocol:

V5 IDs

This example shows the host creating four new V5 IDs within the system. V5 IDs 0 and 2 are assigned for the LE side, and V5 IDs 1 and 3 are assigned for the AN side. These V5 IDs are logical entities that the host uses to manage the V5 interfaces within the system. Once the V5 IDs are created within the system, the host must associate link IDs with each V5 ID.

Attributes

• Create

• Destroy

• Bring In Service

• Take Out of Service

• Modify Variant ID

• Modify Variant Type

• Modify Network Side

• Modify V5 Interface ID

Contains

• Associated Links with C Channels

• Links without C Channels

• User Ports

 

Links

Each V5 ID has associated links that carry the voice data. These links are logically represented as logical link IDs for each V5 ID. Each link ID corresponds to a unique logical span ID. Links can carry data only (no C Channels residing on them), or may contain C Channels that carry the signaling information for the V5.2 protocol and data.

Attributes

• Add links

• Remove links

Contains

• Associated C Channels

C Channels

Each V5 ID within the system has a corresponding C Channel. The host must manage logical C Channel IDs for each V5 ID within the system. For the V5.2 protocol, there is a primary C Channel and a secondary C Channel for redundancy. The C Channels must reside on timeslot 16 of the links on which they are assigned.

Attributes

• Add C Channel

• Remove C Channel

Logical Span IDs

The host must manage logical span IDs within the CSP system. Logical span IDs are assigned to the physical trunk interfaces to terminate E1 spans. These logical span IDs are associated with the V5 link IDs. The host associates the span IDs with the link IDs when configuring the links using the add link TLV contained within the V5 configure message.

Attributes

• Assign

• De-assign

• Bring In Service

• Bring Out of Service

• Modify Span Format

User Ports

A group of user port IDs are assigned by the host, to each V5 ID within the system. A user port ID represents an actual user of the service.

Attributes

• Add User Port Range Type

• Remove User Port Range Type

This example shows:

• De-assigning any previously configured spans within the system

• Assigning eight logical span IDs to the physical E1 span IDs (0-7)

• Formatting the E1 spans to clear channel

• Creating four V5 IDs (0-3)

• Configuring each V5 ID:

V5 ID 0

• V5 Interface ID: 000001 (Actual ID used across the network)

• V5 Variant ID: 0001

• V5 Variant Type: 02 (V5.2)

• V5 Network Side: 00 (LE)

V5 ID 1

• V5 Interface ID: 000001 (Actual ID used across the network)

• V5 Variant ID: 0001

• V5 Variant Type: 02 (V5.2)

• V5 Network Side: 01 (AN)

V5 ID 2

• V5 Interface ID: 000002 (Actual ID used across the network)

• V5 Variant ID: 0002

• V5 Variant Type: 02 (V5.2)

• V5 Network Side: 00 (LE)

V5 ID 3

• V5 Interface ID: 000002 (Actual ID used across the network)

• V5 Variant ID: 0002

• V5 Variant Type: 02 (V5.2)

• V5 Network Side: 01 (AN)

Adding User Port Ranges to each V5 ID

V5 ID 0,1,2,3

• User Port Range: 100 user port IDs 0x00-0x63

Adding Links to each V5 ID

V5 ID 0

• Link ID 1: Logical Span ID 0

• Link ID 2: Logical Span ID 2

V5 ID 1

• Link ID 1: Logical Span ID 1

• Link ID 2: Logical Span ID 3

V5 ID 2

• Link ID 1: Logical Span ID 4

• Link ID 2: Logical Span ID 6

V5 ID 3

• Link ID 1: Logical Span ID 5

• Link ID 2: Logical Span ID 7

Adding C Channels to each V5 ID

V5 ID 0

• C Channel Type: 1 (Primary C Channel)

• Logical Span ID for Primary Link: 0

• Primary Physical Channel: 0x1E (Timeslot 16)

• C Channel ID: 0

• Link ID 1

 

• C Channel Type: 2 (Secondary C Channel)

• Logical Span ID for Primary Link: 2

• Primary Physical Channel: 0x1E (Timeslot 16)

• C Channel ID: 1

• Link ID: 2

 

V5 ID 1

• C Channel Type: 1 (Primary C Channel)

• Logical Span ID for Primary Link: 1

• Primary Physical Channel: 0x1E (Timeslot 16)

• C Channel ID: 0

• Link ID: 1

 

• C Channel Type: 2 (Secondary C Channel)

• Logical Span ID for Primary Link: 3

• Primary Physical Channel: 0x1E (Timeslot 16)

• C Channel ID: 1

• Link ID: 2

V5 ID 2

• C Channel Type: 1 (Primary C Channel)

• Logical Span ID for Primary Link: 4

• Primary Physical Channel: 0x1E (Timeslot 16)

• C Channel ID: 0

• Link ID: 1

 

• C Channel Type: 2 (Secondary C Channel)

• Logical Span ID for Primary Link: 6

• Primary Physical Channel: 0x1E (Timeslot 16)

• C Channel ID: 1

• Link ID: 2

V5 ID 3:

• C Channel Type: 1 (Primary C Channel)

• Logical Span ID for Primary Link: 5

• Primary Physical Channel: 0x1E (Timeslot 16)

• C Channel ID: 0

• Link ID: 1

 

• C Channel Type: 2 (Secondary C Channel))

• Logical Span ID for Primary Link: 7

• Primary Physical Channel: 0x1E (Timeslot 16)

• C Channel ID: 1

• Link ID: 2