Addressing block-transfer modules, Addressing summary – Rockwell Automation 1785-Lxxx Enhanced and Ethernet PLC-5 Programmable Controllers User Manual

Publication 1785-UM012D-EN-P - July 2005

Addressing I/O and Controller Memory 4-7

Addressing
Block-Transfer Modules

Block-transfer modules occupy 8 bits in the controller’s I/O image table.
Since all block-transfer modules are bidirectional, they cannot be used to
complement either input or output modules.

Addressing Summary

Use this table as a quick reference for addressing.

To Address

Use

single slot modules assigned I/O rack and group number of the slot in which the

module resides and 0 for the module number

When using 1/2-slot addressing, use the assigned rack
number and the lowest group number and 0 for the module
number.

double-slot modules assigned rack number and the lowest group number and 0 for

the module number

Addressing
Mode

Guidelines

2-slot

•

Two I/O module slots = 1 group

•

Each physical 2-slot I/O group corresponds to one word (16 bits) in the input image table and
one word (16 bits) in the output image table

•

When you use 16-point I/O modules, you must install as a pair an input module and an output
module in an I/O group; if you use an input module in slot 0, you must use an output module in
slot 1 (or it must be empty). This configuration gives you the maximum use of I/O.

•

You cannot use a block-transfer module and a 16-point module in the same I/O group because
block-transfer modules use 8 bits in both the input and output table. Therefore, 8 bits of the
16-point module would conflict with the block-transfer module.

•

You cannot use 32-point I/O modules.

•

Assign one I/O rack number to eight I/O groups.

1-slot

•

One I/O module slot = 1 group

•

Each physical slot in the chassis corresponds to one word (16 bits) in the input image table and
one word (16 bits) in the output image table

•

When you use 32-point I/O modules, you must install as a pair an input module and an output
module in an even/odd pair of adjacent I/O group; if you use an input module in slot 0, you must
use an output module in slot 1 (or it must be empty). This configuration gives you the maximum
use of I/O.

•

Use any mix of 8- and 16-point I/O modules, block-transfer or intelligent modules in a single I/O
chassis. Using 8-point modules results in fewer total I/O.

•

Assign one I/O rack number to eight I/O groups.

1/2-slot

•

One half of an I/O module slot = 1 group

•

Each physical slot in the chassis corresponds to two words (32 bits) in the input image table
and two words (32 bits) in the output image table

•

Use any mix of 8-, 16-, and 32-point I/O or block-transfer and intelligent modules. Using 8-point
and 16-point I/O modules results in fewer total I/O.

•

With the controller-resident local rack set for 1/2-slot addressing, you cannot force the input
bits for the upper word of any slot that is empty or that has an 8-point or 16-point I/O module.
For example, if you have an 8-point or a 16-point I/O module in the first slot of your local rack
(words 0 and 1 of the I/O image table, 1/2-slot addressing), you cannot force the input bits for
word 1 (I:001) on or off.

•

Assign one I/O rack number to eight I/O groups.