CAN Bus Workshop_Version 03__06-2008_EN.pdf - 第282页

1 - 74 Siplace C AN T est Box 1 CAN T est Box Edition 04/200 8 74 Fig. 1.10 - 50 CAN bus structure X4 variant 3 V i s i o n c o n t r o l 0 0 3 6 3 9 6 1 ( q d ) C A N X 2 q d X 2 q d D o c k i n g u n i t 2 D o c k i n …

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Siplace CAN Test Box

Edition 04/2008 1 CAN Test Box

1.10.9.10 CAN Bus Siplace X4 (Variant 3)

Depending on the head configuration the subsystems MTC2 and stationary cameras (IC/FC) can

be installed. Maximum of two stationary cameras in each placement area can be installed.

Fig. 1.10 - 49 CAN bus structure X4 variant 03

SMP BUS

Computer Unit

CAN Bus cable

PA 1

X6pn

Trailing Interface

Gantry 1

Transport

Control unit

COT 1 / CAN node

(Tape cutter, NC)

optional stat.

Camera vers.04)

Axis unit

PA 1

CAN I/O

Sub Module

SUB Distributor Sector 4

Trailing Interface

Gantry 4

Head board(C500)

Gantry 4

Terminator

(120 OHM)

Head board(C500)

Gantry 1

Terminator

(120 OHM)

CAN Bus cable

PA 2

X7pn

Main Distributor Sector 2

Axis unit

PA 2

CAN I/O

Main Module

COT 2 / MTC2

CAN node

(Tape cutter, NC)

(optional stat.

Camera vers.04)

Trailing Interface

Gantry 2

Trailing Interface

Gantry 3

Head board(C500)

Gantry 2

Terminator

(120 OHM)

Head board(C500)

Gantry 3

Terminator

(120 OHM)

COT 3 / CAN node

(Tape cutter, NC)

(optional stat.

Camera vers.04)

COT 4 / MTC2

CAN node

(Tape cutter, NC)

(optional stat.

Camera vers.04)

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Siplace CAN Test Box

1 CAN Test Box Edition 04/2008

Fig. 1.10 - 50 CAN bus structure X4 variant 3

V i s i o n c o n t r o l

0 0 3 6 3 9 6 1 ( q d )

C A N

X 2 q d

D o c k i n g u n i t 2 D o c k i n g u n i t 1

X 1 2 5X 1 2 6

C A N I NC A N O U T

X 1 1 5X 1 1 6

C A N I NC A N O U T

C A N

P C B c o n t r o l

X 2 2 a o

C A N I / O - m o d u l e 0 0 3 5 5 0 5 1 ( q b )

0 3 0 1 0 0 5 0

C A N

0 3 0 1 0 0 5 1

X 2 r d

X 1 4 5

C A N I N

S o

A x i s u n i t

0 3 0 5 0 3 6 5

X 3 0 _ 2 s q

C A N

D o c k i n g u n i t 3

X 1 3 6

C A N O U T

X 4 0 c a

C A N

X 2 r d

C A N

V i s i o n c o n t r o l

0 0 3 6 3 9 6 1 ( r d )

D o c k i n g u n i t 4

( c a )

C a b l e c a r r i e r i n t e r f a c e

0 3 0 1 0 6 1 2

P 3

0 3 0 1 0 0 5 4

X 1 3 5

C A N I N

X 6 8

A m b i e n t p r e s s u r e s e n s o r

P n e u m a t i c u n i t

P l a c e m e n t a r e a 2

P l a c e m e n t a r e a 1

C A N b u s w i r i n g

w i r e n o . w i r i n g S u b - D - P I N

1 " 1 - W i r e " 1

2 G N D 6

3 C A N _ L 2

4 C A N _ H 7

5 G N D 3

6 R E S E T 8

7 P o w e r F a i l 4

8 f r e e 9

C A N _ I N T 5

C A N

X 3 0 _ 2 s q

X 3 0 _ 1 s q

X 3 0 _ 2 t q X 3 0 _ 1 t q

X 1 4 6

C A N O U T

C A N I / O m o d u l e 0 0 3 5 5 0 5 1 ( r b )

X 4 0 a a

( a a )

C a b l e c a r r i e r i n t e r f a c e

0 3 0 1 0 6 1 2

P 1

0 3 0 1 0 0 5 9

X 4 0 c a

X 4 0 b a

0 3 0 1 0 0 5 3

X 4 0 a a

X 1 r b

X 1 q bX 6 q f

X 6 q f

C A N

X 2 q f

I n t e r f a c e 1 - W i r e C A T 5 ( q f )

0 3 0 4 1 5 7 8

M a i n d i s t r i b u t o r 0 3 0 4 6 2 2 5 ( q a )

X 6 r f

X 1 2 p n X 1 1 p n

X 7 p n

C A N c a r d

X 6 p n

C A N b u s 1C A N b u s 2

C A N

0 3 0 4 1 5 7 8

I n t e r f a c e 1 - W i r e C A T 5 ( r f )

X 2 r f

S u b d i s t r i b u t o r 0 3 0 4 6 2 2 6 ( r a )

S o

S oS o

S o S o

S o

S o P i nP i n

P i n P i nS oS o

S o

M a c h i n e

c o n t r o l l e r

0 3 0 5 2 0 3 2

0 3 0 5 7 1 4 5

P a t c h c a b l e 5 m

X 1 f e

0 3 0 5 7 1 4 5

P a t c h c a b l e 5 m

C A N

2 / 3

X 3 0 _ 2 t q X 3 0 _ 1 t q

C A N

0 3 0 1 0 0 5 2

X 3 0 _ 1 s q

s p a r e

X 4 0 d a

C A N

( d a )

C a b l e c a r r i e r i n t e r f a c e

0 3 0 1 0 6 2 2

P 4

X 4 h e

C A N I n

X 5 h e

X 2 h eX 1 h e

1 - W i r e C A T 5 g a n t r y

0 3 0 4 2 2 1 4 ( f e )

C A N I n

X 5 f e

X 4 f e

X 2 f e X 1 f e

X 4 k e

C A N I n

X 4 0 d a

S o

X 5 k e

X 2 k e

X 1 k e X 2 k e

S w i t c h p o s . : t o p

X 2 f e

C A N

X 4 0 b a

( b a )

C a b l e c a r r i e r i n t e r f a c e

0 3 0 1 0 6 2 2

P 2

X 1 g eX 2 g e

1 - W i r e C A T 5 g a n t r y

0 3 0 4 2 2 1 4 ( g e )

S w i t c h p o s . : t o p

C A N I n

X 5 g e

X 4 g e

X 2 g eX 2 h e

0 3 0 4 2 3 4 7

1 - w i r e b r i d g e

1 - W i r e C A T 5 g a n t r y

0 3 0 4 2 2 1 4 ( h e )

S w i t c h p o s . : b o t t o m

1 - W i r e C A T 5 g a n t r y

0 3 0 4 2 2 1 4 ( k e )

S w i t c h p

o s . : b o t t o m

0 3 0 4 2 3 4 7

1 - w i r e b r i d g e

A x i s u n i t 1 / 4

0 3 0 5 0 3 6 5

X 1 h e

1 - 75

Siplace CAN Test Box

Edition 04/2008 1 CAN Test Box

1.10.9.11 CAN Bus Siplace X4I

For the Siplace X4I with stationssoftware 70, only one configuration depending on the subsystems

is possible. That means, the tape cutter and the nozzle changer will be control via the VAN node

and it is not possible to install an MTC2 or stationäry cameras. Therefore we have only the CAN

Bus structure which you can see below.

Fig. 1.10 - 51 CAN bus structure X4I

CAN Bus cable

PA 1

X6pn

Trailing Interface

Gantry 1

Transport

Control unit

COT 1

CAN node

(Tape cutter, NC)

Axis unit

PA 1

CAN I/O

Sub Module

SUB Distributor Sector 4

Trailing Interface

Gantry 4

Head board(C500)

Gantry 4

Terminator

(120 OHM)

Head board(C500)

Gantry 1

Terminator

(120 OHM)

CAN Bus cable

PA 2

X7pn

Main Distributor Sector 2

Axis unit

PA 2

CAN I/O

Main Module

COT 2

CAN node

(Tape cutter, NC)

Trailing Interface

Gantry 2

Trailing Interface

Gantry 3

Head board(C500)

Gantry 2

Terminator

(120 OHM)

Head board(C500)

Gantry 3

Terminator

(120 OHM)

COT 3

CAN node

(Tape cutter, NC)

COT 4

CAN node

(Tape cutter, NC)

Stationcomputer (Box PC)