background image

44-pin HD-Sub-D connection on the valve terminal

Pin 31

Pin 44

Pin 1

Pin 15

Pin 16

Pin 30

Fig. 11

Pin allocation of the variant V21:

Pin

Addr.

VP. no./coil

Pin

Addr.

VP. no./coil

1

0

0/14

23

22

11/14

2

1

0/12

24

23

11/12

3

2

1/14

25

24

12/14

4

3

1/12

26

25

12/12

5

4

2/14

27

26

13/14

6

5

2/12

28

27

13/12

7

6

3/14

29

28

14/14

8

7

3/12

30

29

14/12

9

8

4/14

31

30

15/14

10

9

4/12

32

31

15/12

11

10

5/14

33

32

16/14

12

11

5/12

34

33

16/12

13

12

6/14

35

34

17/14

14

13

6/12

36

35

17/12

15

14

7/14

37

36

18/14

16

15

7/12

38

37

19/14

17

16

8/14

39

38

20/14

18

17

8/12

40

39

21/14

19

18

9/14

41

40

22/14

20

19

9/12

42

41

23/14

21

20

10/14

43

Com for coil 0 … 41

1)

22

21

10/12

44

Com for coil 0 … 41

1)

1)

Connect 0 V with positive-switching control signals, 24 V with negative-switching control signals.

Fig. 12

26-pin connection for ribbon cable on the valve terminal

Pin 26

Pin 1

Pin 2

Pin 25

Fig. 13

Pin allocation of the variants V20:

Pin

Addr.

Maximum number of valve positions

12

16

20

24

Valve position no./coil designation

1

0

0/14

0/14

0/14

0/14

2

1

0/12

0/12

0/12

23/14

3

2

1/14

1/14

1/14

1/14

4

3

1/12

1/12

1/12

22/14

5

4

2/14

2/14

2/14

2/14

6

5

2/12

2/12

2/12

21/14

7

6

3/14

3/14

3/14

3/14

8

7

3/12

3/12

3/12

20/14

9

8

4/14

4/14

4/14

4/14

10

9

4/12

4/12

19/14

19/14

11

10

5/14

5/14

5/14

5/14

12

11

5/12

5/12

18/14

18/14

13

12

6/14

6/14

6/14

6/14

14

13

6/12

6/12

17/14

17/14

15

14

7/14

7/14

7/14

7/14

16

15

7/12

7/12

16/14

16/14

17

16

8/14

8/14

8/14

8/14

18

17

8/12

15/14

15/14

15/14

19

18

9/14

9/14

9/14

9/14

20

19

9/12

14/14

14/14

14/14

21

20

10/14

10/14

10/14

10/14

22

21

10/12

13/14

13/14

13/14

23

22

11/14

11/14

11/14

11/14

24

23

11/12

12/14

12/14

12/14

25

Com

1)

26

Com

1)

1)

Connect 0 V with positive-switching control signals, 24 V with negative-switching control signals.

Fig. 14

50-pin connection for flat cable on the valve terminal

Pin 2

Pin 1

Pin 50

Pin 49

Fig. 15

Pin allocation of the variant V26

Pin

Addr.

VP. no./coil

Pin

Addr.

VP. no./coil

1

0

0/14

26

25

12/12

2

1

0/12

27

26

13/14

3

2

1/14

28

27

13/12

4

3

1/12

29

28

14/14

5

4

2/14

30

29

14/12

6

5

2/12

31

30

15/14

7

6

3/14

32

31

15/12

8

7

3/12

33

32

16/14

9

8

4/14

34

33

16/12

10

9

4/12

35

34

17/14

11

10

5/14

36

35

17/12

12

11

5/12

37

36

18/14

13

12

6/14

38

37

18/12

14

13

6/12

39

38

19/14

15

14

7/14

40

39

19/12

16

15

7/12

41

40

20/14

17

16

8/14

42

41

20/12

18

17

8/12

43

42

21/14

19

18

9/14

44

43

21/12

20

19

9/12

45

44

22/14

21

20

10/14

46

45

22/12

22

21

10/12

47

46

23/14

23

22

11/14

48

47

23/12

24

23

11/12

49

Com

1)

25

24

12/14

50

Com

1)

1)

Connect 0 V with positive-switching control signals, 24 V with negative-switching control signals.

Fig. 16

4

I-Port connection

Up to 48 solenoid coils can be actuated with the VTUG-...-V.
The VTUG-...-V can be connected as follows via the I-Port connection:
– directly to the fieldbus by mounting a CTEU bus node on the VTUG-...-V
– decentralised at an external I-Port
– to an IO-Link master in the IO-Link mode.

4.1 Pin allocation of the plug of the I-Port/IO-Link cable

Plug connector,
5-pin, M12x1,
A-coded

Pin

Allocation

1

24 V

EL/SEN

 (PS), operating voltage

2

24 V

VAL/OUT

 (PL), load voltage

3

0 V

EL/SEN

 (PS), operating voltage

4

C/Q

I-PORT

, data communication

5

0 V

VAL/OUT

 (PL), load voltage

Housing

FE, functional earth  (optional)

Fig. 17

4.2 Fieldbus connection

Information on the CTEU-... bus node can be found in the Internet

(

è

 www.festo.com/sp).

Содержание VTUG M Series

Страница 1: ...ektrische Versorgung ausschließlich PELV Stromkreise nach IEC 60204 1 EN 60204 1 verwenden Ausschließlich Spannungsquellen verwenden die eine sichere elektrische Trennung vom Netz nach IEC 60204 1 EN 60204 1 gewährleisten Die Anforderungen der IEC 60204 1 EN 60204 1 an PELV Stromkreise berück sichtigen Hinweis Beschädigungen und Funktionsstörungen der Ventilinsel vermeiden Vor dem Trennen oder Zus...

Страница 2: ...hl Ventilplätze 4 5 10 12 16 20 24 Ventilplatz Nr Spulenbezeichnung 1 0 0 14 0 14 0 14 0 14 2 1 0 12 0 12 0 12 23 14 3 2 1 14 1 14 1 14 1 14 4 3 1 12 1 12 1 12 22 14 5 4 2 14 2 14 2 14 2 14 6 5 2 12 2 12 2 12 21 14 7 6 3 14 3 14 3 14 3 14 8 7 3 12 3 12 3 12 20 14 9 8 4 14 4 14 4 14 4 14 10 9 4 12 4 12 19 14 19 14 11 10 5 14 5 14 5 14 5 14 12 11 5 12 5 12 18 14 18 14 13 12 6 14 6 14 6 14 6 14 14 13...

Страница 3: ...0 14 22 21 10 12 13 14 13 14 13 14 23 22 11 14 11 14 11 14 11 14 24 23 11 12 12 14 12 14 12 14 25 Com1 26 Com1 1 0 V bei plusschaltenden Steuersignalen bei minusschaltenden Steuersignalen 24 V anschließen Fig 14 50 poliger Anschluss für Flachbandkabel auf der Ventilinsel Pin 2 Pin 1 Pin 50 Pin 49 Fig 15 Pin Belegung der Variante V26 Pin Adr VP Nr Spule Pin Adr VP Nr Spule 1 0 0 14 26 25 12 12 2 1 ...

Страница 4: ...tigen Anschluss 14 mit Steuerluft Selektor zugeführt werden è Fig 4 Die Montage des Steuerluft Selektors ist in der Montageanleitung VABM L1 GR bzw VABM L1 HWS1 2 GR beschrieben 8 Druckzonen Mit Hilfe von Trennelementen kann die Ventilinsel VTUG in Druckzonen aufgeteilt werden Die Montage dieser Trennelemente ist in der Montageanleitung VABD B beschrieben Hinweis Beschädigung der Versorgungsplatte...

Страница 5: ...tor 1 5 Nm 20 5 Nm 20 Erdungsschraube 1 0 Nm 20 Betriebs und Steuermedium Druckluft nach ISO 8573 1 2010 7 4 4 Entlüftung Bei mehr als 6 gleichzeitig geschalteten Ventilen ist das beidseitige Entlüften er forderlich Elektromagnetische Verträglichkeit EMV 3 è Konformitätserklärung www festo com Schutz gegen elektrischen Schlag Schutz gegen di rektes und indirektes Berühren nach IEC EN 60204 1 durch...

Страница 6: ...stem For the electrical power supply use only PELV circuits in accordance with IEC 60204 1 EN 60204 1 Use only voltage sources that ensure a reliable electric separation from the mains network in accordance with IEC 60204 1 EN 60204 1 Observe the requirements of IEC 60204 1 EN 60204 1 for PELV circuits Note Avoid damage to and malfunctions of the valve terminal Switch off voltage before plugging t...

Страница 7: ... variants V20 Pin Addr Maximum number of valve positions 4 5 10 12 16 20 24 Valve position no coil designation 1 0 0 14 0 14 0 14 0 14 2 1 0 12 0 12 0 12 23 14 3 2 1 14 1 14 1 14 1 14 4 3 1 12 1 12 1 12 22 14 5 4 2 14 2 14 2 14 2 14 6 5 2 12 2 12 2 12 21 14 7 6 3 14 3 14 3 14 3 14 8 7 3 12 3 12 3 12 20 14 9 8 4 14 4 14 4 14 4 14 10 9 4 12 4 12 19 14 19 14 11 10 5 14 5 14 5 14 5 14 12 11 5 12 5 12 ...

Страница 8: ...14 10 14 22 21 10 12 13 14 13 14 13 14 23 22 11 14 11 14 11 14 11 14 24 23 11 12 12 14 12 14 12 14 25 Com1 26 Com1 1 Connect 0 V with positive switching control signals 24 V with negative switching control signals Fig 14 50 pin connection for flat cable on the valve terminal Pin 2 Pin 1 Pin 50 Pin 49 Fig 15 Pin allocation of the variant V26 Pin Addr VP no coil Pin Addr VP no coil 1 0 0 14 26 25 12...

Страница 9: ... profile connecting plate the pilot air can also be fed through the front side connection 14 with pilot air selector è Fig 4 Mounting of the pilot air supply selector is described in the assembly instructions VABM L1 GR or VABM L1 HWS1 2 GR 8 Pressure zones Using separators the valve terminal VTUG can be divided into pressure zones Mounting of these separators is described in the assembly instruct...

Страница 10: ...5 Nm 20 0 7 Nm 20 Selector 1 5 Nm 20 5 Nm 20 Earthing screw 1 0 Nm 20 Operating and pilot medium Compressed air to ISO 8573 1 2010 7 4 4 Exhausting If there are more than 6 simultaneously switched valves exhausting on both sides is required Electromagnetic compatibility EMC 3 è Declaration of conformity www festo com Protection against electric shock protection against direct and indirect contact ...

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