8-28 VersaMax Modules, Power Supplies and Carriers User's Manual
GFK-1504N
8
IC200MDL742
Output Module, 24 V DC Positive Logic 0.5 A, w/ESCP 32 Points
Module Specifications
Module Characteristics
Points
2 groups of 16 outputs
Module ID
80808080
Isolation:
User input to logic (optical) and to
frame ground
Group to group
Point to point
250 V AC continuous; 1500 V AC for 1 minute
250 V AC continuous; 1500 V AC for 1 minute
None
LED indicators
One green LED per point shows individual point on/off state
One amber LED per point shows individual point overloads
FLD PWR LED indicates field power is present
OK LED indicates backplane power is present
Backplane current consumption
5 V output: 150mA maximum
External power supply
+18 to +30 V DC, +24 V DC nominal
Thermal derating
Refer to associated diagram
Compatibility
Cimplicity
ME
Versa
Pro
Control
90
CPU
001
CPU
002
CPU
005
CPU
E05
DBI
001
EBI
001
GBI
001
PBI
001
HW,FW vers.
FW release
2.11
1.1
2.4
AA
1.0
AA
1.5
AA
2.1
AA
2.1
AA
1.1
AA
1.0
AA
1.0
AA
1.0
Output Characteristics
Output voltage
+18 to +30 V DC, +24 V DC nominal
Output voltage drop
0.5 V maximum
Load current
0.5A at 30 V DC maximum (resistive)
2.0A inrush maximum for 100ms
Steady-state overcurrent trip point
1.6A typ., 0.7A to 2.5A max range
Output leakage current
0.5mA at 30 V DC maximum
On and Off response time
0.5ms, maximum
Protection (each output)
Short circuit and overcurrent protection, free-wheeling diodes
External Power Supply Requirements
The external power supply used to power the loads must provide sufficient field
power for the module during short circuit events. When a load is shorted, an
inadequate external power supply may allow field power to drop below the specified
operating range, causing misoperation of the module. The external power supply
must be capable of providing short circuit energy without degradation of output
voltage levels. The amount of energy required depends on the number of
simultaneously-shorted points that might occur. Refer to power supply short circuit
operation specifications when selecting the power supply to be used with the loads.
Local energy storage (either batteries or capacitors) can be used to compensate for
insufficient power supply characteristics. Additional best practices including
minimizing wiring resistance from the external power supply to the module must be
observed.