- Overview
- Specifications
- Description
- Applications
- Field Wiring
- FAQ
- Recommended Products
Overview
Place of Origin: |
USA |
Brand Name: |
GE |
Model Number: |
IC693MDL753 |
Packaging Details: |
Original new Factory Sealed |
Delivery Time: |
5-7 days |
Payment Terms: |
T/T |
Supply Ability: |
In stock |
Specifications
|
Parameter |
Value |
|
Module Name |
IC693MDL753 Positive Logic Output Module |
|
Module Type |
Positive Logic Output Module |
|
Dimensions |
3.6 x 13 x 13.5 cm |
|
Weight |
0.28 kg |
|
Rated Voltage |
12–24 V DC |
|
Output Voltage Range |
10.2–28.8 V DC |
|
Outputs per Module |
32 (four groups of 8 outputs each) |
|
Isolation |
Field to logic side: 1500 V; Between groups: 250 V |
|
Output Current |
0.5 A per point; 4 A max per group; 3 A max per group common pin |
|
Inrush Current |
5.4 A for 10 ms |
|
On-state Voltage Drop |
0.3 V DC |
|
Off-state Leakage Current |
0.1 mA max |
|
On Response Time |
0.5 ms max |
|
Off Response Time |
0.5 ms max |
|
Internal Power Consumption |
260 mA max from 5 V bus on backplane; 16.5 mA max per group @24 VDC; 9.6 mA max per group @12 VDC (all outputs on) |
Description
The IC693MDL753 12/24 volt DC, 0.5A Positive Logic Output module for the Series 90-30 Programmable Logic Controller provides 32 discrete outputs. The outputs are arranged in four isolated groups of eight (A1 - A8, B1 - B8, C1 - C8, and D1 - D8); each group has its own common. The outputs are positive logic or sourcing type outputs in that they switch the loads on the positive side of the power supply, and therefore supply current to the load. The outputs can switch user loads over the range of +12 through +24 VDC (+20%, –15%) and are capable of sourcing a maximum current of 0.5 amps per point. Two pins are provided on the user I/O connectors for each group common. Each pin has a current handling capability of 3 amperes. It is recommended that connections are made to both pins when connecting the common; however, it is a requirement for high current applications (between 3 and 4 amperes).
Applications
Manufacturing: Automobile manufacturing, electronics manufacturing, etc.
Petrochemicals: Used in process control systems.
Food and beverage: Used in packaging production lines.
Industrial automation: Used in various industrial automation systems, such as production lines and packaging lines.
Process control: In process control systems, controlling the actuators.
Machine control: Controlling the various actions of a machine.
Field Wiring
The following table is provided for the convenience of our customers as an aid to wiring the 24-pin connectors using cable IC693CBL315. It includes all of the required wiring information in one table. This table has the following information:
1 module point number: A1 - A8, B1 - B8, C1 - C8, D1 - D8, voltage and common points
2 connector pin number: A1 through A12, and B1 through B12
3 cable pair number: pair 1 through pair 12
4 wire color code: base color or base color with tracer color
Columns are also provided for circuit references and customer wire numbers. Please copy and
use the work sheets on this and the following page as needed when wiring the 12/24 Volt DC,
0.5A Positive Logic, 32 Point Output module.
FAQ
Q: Does the IC693MDL753 come with a warranty?
A: Yes, the IC693MDL753 includes a 1-year warranty.
Q: How many output groups does the IC693MDL753 have?
A: The IC693MDL753 has four (4) output groups of eight (8) channels each.
Q: What is the output current rating per point of the IC693MDL753?
A: The IC693MDL753’s output current per point is 0.5 A.
Q: What is the group isolation rating of the module?
A: The IC693MDL753 has a group isolation rating of 250 VAC.
Q: What is the current consumption of the IC693MDL753?
A: The IC693MDL753 has a current consumption of 260 mA from the 5VDC backplane, specifically 3 mA + 3 mA per point ON + 4.7 mA per LED indicator.
Q: What is the compatible cable assembly for the IC693MDL753?
A: The compatible cable assembly is IC693CBL315.
Q: What is the response time of the IC693MDL753?
A: The IC693MDL753 has a response time of 0.5 ms for both signal transitions.