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Motorola 326X V.34 User Manual

Page 176

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B-8 Cabling and Interface Pinouts

Inter

face

Pinout

s

Table B-4 shows a range of data rates and maximum allowable capacitances. The
maximum capacitance is a total of the inter-conductor capacitance (between the
conductors represented as Cc in Table B-4), and the capacitance between the shield
and the conductor (represented as Cs in Table B-4).

The maximum allowable cable capacitance decreases as DTE rates increase. The
more capacitance in the cable, the shorter the allowable length at a DTE rate.
Similarly, the allowable lengths become shorter as DTE rates increase.

Since newer PCs support EIA 232-D type receivers/drivers at higher rates, you must
use information in this section to determine cable length.

To determine the per foot capacitance of your cable:

1) Determine the length of the cable you require for your application.

2) Determine the range of rates that the modem will use. (For example, to

routinely operate the modem’s DTE port between 20.0 and 96.0 kbps,
determine the cable capacitance for the higher rate. You can operate the
modem up to, but not exceeding, the maximum rate capacitance that you
calculate.)

3) Refer to Table B-4 for the maximum allowable cable capacitance for a given

rate. (For example, to operate the modem at 64.0 kbps, the maximum
capacitance is 900 pF.)

4) Divide the maximum cable capacitance by the length of the cable. This results

in the total cable capacitance per foot. The formula below illustrates how to
calculate the per-foot capacitance:

Table B-4.
Maximum Cable Capacitance per Data Rate

Data Rate
(kbps)

Maximum Cable Capacitance (Cc+Cs) in
Pico Farads (pF)*

0-20.0

2400 pF

20.0-64.0

900 pF

64.0-96.0

400 pF

115.2

200 pF

Notes:

*(1) The total capacitance in this column is the total allowable cable capacitance.

(2) Maximum resistance of cable conductors is 25 Ohms.

Maximum Cable Capacitance (pF)

Total Cable Length in Feet

=

Maximum Cable Capacitance (pF)
per Foot