Logic voltage levels – Rockwell Automation 2706 DL40 HARDWARE USER MANUAL User Manual

Chapter 9
Using the Parallel Port

9 – 4

Table 9.E
Sample value obtained by summing the BCD value of each data line’s logic level

Data Line

Logic Level

Value

D0

D1

D2

D3

D4

D5

D6

D7

D8

D9

D10

D11

D12

D13

D14

D15

=

=

=

=

=

=

=

=

=

=

=

=

=

=

=

=

Logic 1

Logic 0

Logic 1

Logic 0

Logic 0

Logic 0

Logic 1

Logic 0

Logic 1

Logic 0

Logic 1

Logic 0

Logic 1

Logic 0

Logic 1

Logic 0

=

=

=

=

=

=

=

=

=

=

=

=

=

=

=

=

1

0

4

0

0

0

40

0

100

0

400

0

1000

0

4000

0

Sum of all values

5545

Adding the values of the individual data lines provides the value being
entered, in this case 5545.

Each parallel input interprets two voltage levels:

ON

or

OFF

. There is also a

third state which should be avoided, an “I don’t know” or “indeterminate”
state. The “indeterminate” state occurs when the voltage is between the ON
voltage range and the OFF voltage range. Table 9.F lists the voltage levels
and their logic values.

Table 9.F
Input Voltage Ranges and Their Logic Values

Voltage Range

High True Logic

Low True Logic

0 – 0.8 VDC

0 (OFF)

1 (ON)

0.8 – 3.5 VDC

Indeterminate

Indeterminate

3.5 – 24 VDC

1 (ON)

0 (OFF)

You can select either the High True or Low True Logic using the Offline
Programming Software.

Note: You can use 120 volt AC/60 Hz input voltages if two Catalog Number
2706-NG2 Input Converters are used.

The parallel port is compatible with Allen-Bradley’s DC Output Modules
(Catalog No. 1771-OB, 1746-OB8, or 1746-OB16) and AC Output Module
(Catalog No. 1771-OA). Two 2706-NG2 AC input converters are required

Logic Voltage Levels