Network and application layer protocols chapter 12 – Rockwell Automation 1775-KA PLC-3 Communication Adapter Module User Manual User Manual

Network and Application Layer Protocols

Chapter 12

12Ć11

Figure 12.4

PLC/PLC-2 Data Table Byte Addressing

7

6

5

4

3

2

1

0

7

6

5

4

3

2

1

0

10065–I

Least Significant Byte

Transmitted First

Most Significant Byte

Transmitted Last

3rd

Octal

Digit

4th Octal

Digit

5th Octal

Digit

Low/

High

Byte

1st Octal

Digit

2nd Octal

Digit

3rd

Octal

Digit

a) Protected/Unprotected Read/Write ADDR Field

7

6

5

4

3

2

1

0

7

6

5

4

3

2

1

0

Least Significant Byte

Transmitted First

Most Significant Byte

Transmitted Last

3rd

Octal

Digit

4th Octal

Digit

5th Octal

Digit

Low/

High

Byte

1st Octal

Digit

2nd Octal

Digit

3rd

Octal

Digit

b) Physical Read/Write ADDR Field

1

1

1

Set this bit to 0 to select low byte of word

Since ADDR specifies an address as the number of bytes from the
beginning of PC memory, its value is double the corresponding PC word
address.

The PLC–3 logical addressing format also applies to PLC–3 type
commands. You can use this format to specify up to 6 levels of PLC–3
extended addressing. Figure 12.5 shows an example of the logical
addressing format for addressing a word in the PLC–3 data table.

The first field in the format contains a set of bit flags. Each flag is
associated with one of the levels of a PLC–3 extended address. If a flag
bit is set to 1, there must be an address specification for the corresponding
level in the address fields that follow. If a flag bit is zero, the address
fields that follow should not contain an address specification for that
level; instead, a default value is assumed.