Device Range That Can Be Set - Mitsubishi Electric GOT2000 Series Connection Manual

14.6 Device Range That Can Be Set

The device ranges of controller that can be used for GOT
are as follows.
Note that the device ranges in the following tables are the
maximum values that can be set in GT Designer3.
The device specifications of controllers may differ
depending on the models, even though belonging to the
same series.
Please make the setting according to the specifications of
the controller actually used.
When a non-existent device or a device number outside
the range is set, other objects with correct device settings
may not be monitored.

Setting item
Item
Set the device name, device number, and bit number.
Device The bit number can be set only by specifying the bit of
word device.
Displays the device type and its setting range selected in
Information
[Device].
POINT POINT POINT
(1) Device settings of SICK Safety controller
(a) Input (I), Output (Q)
Device
name
(b) Logic result (LQ), Logic input (LI)
Device
name
(c) EFI input (EI)
Device
name
14 - 6
14. CONNECTION TO SICK SAFETY CONTROLLER
14.6 Device Range That Can Be Set
Description
Input position (1 to 8)
Module number (1 to 12)
Bit position (0 to 7)
Byte number (0 to 3)
Byte number (0 to 3)
Device number (1 to 3)
EFI number (1 to 2)
(d) EFI output (EQ)
Device
name
(2) Engineering software for SICK and device
representation of GT Designer3
The engineering software for SICK and the device
representation of GT Designer3 are different. Set
the device by referring to the following table.
Device GT Designer3
I .
*1
I (1-12(Dec)): Module number
(1-8): Input position
Q .
*1
Q (1-12(Dec)): Module number
(1-8): Output position
LQ .
*1
LQ (0-3): Byte number
(0-7): Bit position
LI .
*1
LI
(0-3): Byte number
(0-7): Bit position
EI
(1-2): EFI number
*1
EI
(1-3): Device number
(0-3): Byte number
EQ
*1
EQ
(1-2): EFI number
(0-2): Byte number
D
D
(0-99(Dec)): Byte number
W
(0-49(Dec)): Word number
Word virtualization of D
W
device
W0= (D1(Upper bits),
D0(Lower bits))
LD
LD
(0-3): Byte number
LW
(0-1): Word number
Word virtualization of LD
LW
device
LW0= (LD1(Upper bits),
LD0(Lower bits))
*1 When the mapping position is changed by the engineering
software for SICK, a mismatch occurs between virtual
devices on GOT and SICK safety controller mapping
devices.
When mapping is changed, use D devices or LD devices.
Byte number (0 to 2)
EFI number (1 to 3)
Engineering software for SICK
[ ].I
: I/O model name
(such as XTIO)
(1-12(Dec)): Module number
(1-8): Input position
[ ].Q
: I/O model name
(such as XTIO)
(1-12(Dec)): Module number
(1-8): Output position
.
: "Result"
(0-3): Byte number
(0-7): Bit position
[0] . .
: CPU type(CPU0, CPU1)
(0-3): Byte number
(0-7): Bit position
[0].EFI : ,Byte
: CPU type(CPU0, CPU1)
(1-2): EFI number
(1-3): Device number
(0-3): Byte number
[0].EFI :1,Byte
: CPU type(CPU0, CPU1)
(1-2): EFI number
(0-2): Byte number
RS232 data
(Safety controller to RS232)
GOT independent device
(Not available)
RS232 data
(RS232 to safety controller)
GOT independent device
(Not available)