Examples of telegram configuration, Data format of the output signal – VEGA VEGAFLEX 81 Profibus PA User Manual

93

11 Supplement

VEGAFLEX 81 • Profibus PA

44217-EN-130910

•

Long for Profibus master only supporting the "Identifier Format" byte, e.g. Siemens

S7-300/400

Examples of telegram configuration

In the following you will see how the modules can be combined and how the appendant data tel-

egram is structured.
Example 1

•

AI FB1 (OUT)

•

AI FB2 (OUT)

•

AI FB3 (OUT)

Byte-

No.

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

Format IEEE-754-Floating point

value

Status IEEE-754-Floating point

value

Status IEEE-754-Floating point

value

Status

Value

AI FB1 (OUT)

AI FB1

AI FB2 (OUT)

AI FB2

AI FB3 (OUT)

AI FB3

Example 2

•

AI FB1 (OUT)

•

Free Place

•

Free Place

Byte-No.

1

2

3

4

5

Format

IEEE-754-Floating point value

Status

Value

AI FB1 (OUT)

AI FB1

Note:

Bytes 6-15 are not used in this example.

Data format of the output signal

Byte4 Byte3 Byte2 Byte1 Byte0

Status

Value (IEEE-754)

Fig. 64: Data format of the output signal

The status byte corresponds to profile 3.02 "Profibus PA Profile for Process Control Devices" coded.

The status "Measured value OK" is coded as 80 (hex) (Bit7 = 1, Bit6 … 0 = 0).
The measured value is transferred as a 32 bit floating point number in the IEEE-754 format.

Byte n

Byte n+1

Bit

7

VZ

Exponent

Bit

6
2

Bit

5
2

Bit

4
2

Bit

3
2

Bit

2
2

Bit

1
2

Bit

0
2

Bit

7
2

Bit

6
2

Bit

5
2

Bit

4
2

Bit

3
2

Bit

2
2

Bit

1
2

Bit

0
2

Sign

Bit

Significant

7

6

5

4

3

2

1

0

-1

-2

-3

-4

-5

-6

-7

Byte n+2

Byte n+3

Bit

7
2

Significant

Bit

6
2

Bit

5
2

Bit

4
2

Bit

3
2

Bit

2
2

Bit

1
2

Bit

0
2

Bit

7
2

Bit

6
2

Bit

5
2

Bit

4
2

Bit

3
2

Bit

2
2

Bit

1
2

Bit

0
2

Significant

-9

-10 -11 -12 -13 -14 -15 -16 -17 -18 -19 -20 -21 -22 -23

-8

Value = (-1)

VZ

2

(Exponent - 127)

(1 + Significant)

Fig. 65: Data format of the measured value