Verilink DPRI 2922 (880-503142-001) Product Manual User Manual

Configuring the DPRI 2922 Via the NCM 2000 Craft Interface

3-8

Verilink DPRI 2922

Ln

Line Coding: Use this option to choose Alternate Mark Inversion (AMI) or

Bipolar Eight-Zero Substitution (B8ZS) as dictated by your T1 facility.

B8ZS is a protocol that replaces eight consecutive Zero bits with two

intentional bipolar violations (BPVs) that are not counted as errors by the

B8ZS equipment. B8ZS enables each DS0 to transmit at 64 kbit/s with

unlimited zeros. This option overrides any selected network density

enforcement. This is the recommended option for ISDN.

AMI is a T1 signal in which successive Ones (pulses) alternate in polarity

and in which Zeros (spaces) are of zero amplitude. AMI is the original T1

line format that does not support long strings of zeros. Normally, this

option is used in conjunction with the network density enforcement option.

If the T1 facility experiences pattern sensitive errors or constant dribbling

errors, verify that the unit is not mis-optioned for AMI. The intentional

errors inserted by B8ZS equipment cannot be decoded by the AMI

equipment.

AMI requires use of an ISDN inverted D-channel.

1) AMI

2) B8ZS

Bn

Line Build Out: Line Build-Out is the signal strength used by the CSU and is

calculated by considering the length of the cable connecting the first line

repeater and the CSU. It is the db loss inserted to compensate for

transmitting levels to first repeaters when no network interface is involved.

Choose one of the following options:

0 db: if the repeater is between 2000 and 3000 feet from the CSU, or if you

are using a network interface unit (smart jack) used by most phone

companies.

-7.5 db: if the repeater is between 1000 and 1999 feet from the CSU.

-15 db: if the repeater is between 250 and 999 feet from the CSU.

-22.5 db: if the repeater is between 0 and 249 feet from the CSU.

1) 0 db

2) -7.5 db

3) -15 db

4) -22.5 db

NDn

Network Density: Use this option to specify the type of network density

enforcement to use with PRI line coding. Digital transmissions over public

switched telephone network lines cannot support long strings of zeros

(repeaters and clocking devices lose synchronization). Therefore, the

density algorithms ensure that a minimum pulse density is met to ensure

stable system timing.

Choose one of the following if using 64K AMI. Note that these options are

ignored with B8ZS line code:

None: does not insert a one. Use this option with B8ZS or a 56K channel.

Also recommended for ISDN capability.

80 zeros: inserts a one into every string of more than 80 consecutive zeros.

15 zeros: inserts a one into every string of more than 15 consecutive zeros.

12.5% & 80 zeros: inserts a one into every string of eight or more

consecutive zeros when the average density of ones fall below 12.5% or if

there are more than 80 consecutive zeros.

TR 62411: inserts a one into every string of more than 15 consecutive

zeros or when there are less than a minimum number of N ones in every

window of 8(N+1) data bits (12.5%). N can be any value from 1 to 23. This

option is the same as 12.5% + 15 zeros.

1) NONE

2) 80 zeros

3) 15 zeros

4) 12.5% & 80

zeros

5) TR 62411

NLn

Network Initiated Loop: Use this option to specify if you wish to allow your

DPRI to be remotely put into a line loopback.

Yes or No

(Y/N)

Command

Description

Options