Details of Implicit Exchange Objects for the TSX ESF 08T22 Module
(Original Document)
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At a Glance
This section describes the implicit exchange objects used to diagnose and manage channels of the TSX ESF 08T22 module.
Description
The following table presents the meaning of the various EBOOL type objects.
IODDT type
Standard symbol
Access
Meaning
EBOOL address
T_DIS_ESF_IP67_0_STD
SHORT CIRCUIT CH16
R
Short circuit on output 16, bit set to 1.
%I\2.e\0.m.0.0
T_DIS_ESF_IP67_1_STD
SHORT CIRCUIT CH17
R
Short circuit on output 17, bit set to 1.
%I\2.e\0.m.1.0
T_DIS_ESF_IP67_2_STD
SHORT CIRCUIT CH18
R
Short circuit on output 18, bit set to 1.
%I\2.e\0.m.2.0
T_DIS_ESF_IP67_3_STD
SHORT CIRCUIT CH19
R
Short circuit on output 19, bit set to 1.
%I\2.e\0.m.3.0
T_DIS_ESF_IP67_4_STD
SHORT CIRCUIT CH20
R
Short circuit on output 20, bit set to 1.
%I\2.e\0.m.4.0
T_DIS_ESF_IP67_5_STD
SHORT CIRCUIT CH21
R
Short circuit on output 21, bit set to 1.
%I\2.e\0.m.5.0
T_DIS_ESF_IP67_6_STD
SHORT CIRCUIT CH22
R
Short circuit on output 22, bit set to 1.
%I\2.e\0.m.6.0
T_DIS_ESF_IP67_7_STD
SHORT CIRCUIT CH23
R
Short circuit on output 23, bit set to 1.
%I\2.e\0.m.7.0
T_DIS_ESF_EMF_IP67_14_STD
PWR FLT 16 19
R
Power supply missing on channels 16 to 19, bit set to 1.
%I\2.e\0.m.14.0
T_DIS_ESF_EMF_IP67_15_STD
PWR FLT 20 23
R
Power supply missing on channels 20 to 23, bit set to 1.
%I\2.e\0.m.15.0
T_DIS_ESF_EMF_IP67_26_STD
REACTIVE 16 19
R/W
Reactivate outputs 16-19, bit set to 1.
%Q\2.e\0.m.26.0
T_DIS_ESF_EMF_IP67_28_STD
REACTIVE 20 23
R/w
Reactivate outputs 20-23, bit set to 1.
%Q\2.e\0.m.28.0
T_DIS_ESF_EMF_IP67_30_STD
MASK_PWR_FLT_16_19
R/W
Mask the signaling of no power supply on outputs 16-19, bit set to 1.
%Q\2.e\0.m.30.0
T_DIS_ESF_EMF_IP67_31_STD
MASK_PWR_FLT_20_23
R/W
Mask the signaling of no power supply on outputs 20-23, bit set to 1.
%Q\2.e\0.m.31.0
Note
If bits %Q\2.e\0.m.26 and %Q\2.e\0.m.28 are forced to 1, the reset of outputs is automatic after the fault and its thermal effects disappear.
If %Q\2.e\0.m.30 or %Q\2.e\0.m.31 is set to 1, when the corresponding power supply is missing, the power supply missing bit, respectively %I\2.e\0.m.14 or %I\2.e\0.m.15, changes to 1 but %I\2.e\0.m.MOD.ERR remains at 0 and the I/O LED for the CPU remains off.
When the PLC changes to STOP, the missing power supply signaling masks become inoperative.