Patton electronic Model 2711 User Manual

11

Switches SW1.1 SW1.2, SW1.3, SW 2.7 & SW2.8

These switches set the starting channel. The starting channel is

the first channel that carries valid data. This channel can be set to any
value between 1 and 24. If the starting channel is other than 1, then
the maximum possible bandwidth will be less than 1536 kbps. For
example, if the starting channel is set to be 12, then the maximum
bandwidth is limited to 13x64 kbps (channels 12~24), or 832 kbps. This
must be kept in mind when setting the starting channel. The Model
2711 will flash the ERR indicator LED if the switch setting is invalid.
Refer to section 5.1 for a more detailed explanation of the ERR LED
function.

T1 STARTING CHANNEL

T1 Starting Channel

SW1.3

SW1.2

SW1.1

SW2.8

SW2.7

(maximum value of n)

Off

Off

Off

Off

Off

1 (24)

Off

Off

Off

Off

On

2 (23)

Off

Off

Off

On

Off

3 (22)

Off

Off

Off

On

On

4 (21)

Off

Off

On

Off

Off

5 (20)

Off

Off

On

Off

On

6 (19)

Off

Off

On

On

Off

7 (18)

Off

Off

On

On

On

8 (17)

Off

On

Off

Off

Off

9 (16)

Off

On

Off

Off

On

10 (15)

Off

On

Off

On

Off

11 (14)

Off

On

Off

On

On

12 (13)

Off

On

On

Off

Off

13 (12)

Off

On

On

Off

On

14 (11)

Off

On

On

On

Off

15 (10)

Off

On

On

On

On

16 (9)

On

Off

Off

Off

Off

17 (8)

On

Off

Off

Off

On

18 (7)

On

Off

Off

On

Off

19 (6)

On

Off

Off

On

On

20 (5)

On

Off

On

Off

Off

21 (4)

On

Off

On

Off

On

22 (3)

On

Off

On

On

Off

23 (2)

On

Off

On

On

On

24 (1)

12

Switches SW2.6 & SW2.5 Line Build Out

These switches are used to set the line build out (LBO). The LBO

controls the pulse shape and attenuation of the signal sent to the net-
work. The amount of LBO depends on the distance to the nearest
repeater. The telephone company providing the T1 service will advise
you of the required LBO setting.

SW2.6

SW2.5

LBO

Off

Off

0 dB, 0-133 ft

Off

On

-7.5 dB

On

Off

-15.0 dB

On

On

-22.5 dB

Switch SW2.4 Line Coding

This switch is used to set the line code. There are two line coding

options available through the DIP switches: B8ZS and AMI. The line
code refers to the way that the signal-the sequence of ones and zeros
sent to the network-is encoded. AMI reverses the polarity of consecu-
tive pulses. B8ZS is identical to AMI, except that, under certain circum-
stances, the alternate polarity rule is deliberately violated.

AMI:

This stands for "Alternate Mark Inversion." The CSU/DSU

transmits data as a sequence of ones and zeros. Ones are
usually sent as pulses, and zeros as spaces (no pulse). In
order to maximize transmission range, every pulse is of the
opposite polarity of the preceding pulse. AMI does nothing
else. Maintaining network integrity requires a minimum pulse
density (ones desity) of the signal being transmitted on the
network. AMI does not inherently provide for this feature.
Thus, if a long sequence of zeros happen to be sent, the net-
work may suffer. To meet this requirement using AMI requires
one of two methods: Reduce the rate of each time slot (DS0)
to 56 kbps, so that the last bit can be used to guarantee the
minimum ones density. Or, make sure that the DTE sends
data in such a way that ones density is always maintained.
For this reason, B8ZS may be preferred over AMI.