Description
Product Overview
The IC697MDL240 Discrete Input Module from GE Fanuc’s Series 90-70 PLC family provides 16 isolated input points rated for 120VAC. Each input includes a 20-millisecond filter to eliminate signal noise and ensure stable operation. The module supports both 2-wire and 3-wire proximity switches, making it suitable for a wide range of industrial applications.
Each input point is optically isolated, allowing the IC697MDL240 to interface with different AC phases. Integrated status LEDs provide clear visual feedback for each channel. The module draws 0.25A from the 5V backplane and includes a mechanical key for secure installation and replacement. It supports configuration through SNP or Ethernet TCP/IP ports using Windows NT or Windows 95-based software.
Technical Specifications
| Specification |
Details |
| Model Number |
IC697MDL240 |
| Module Type |
Discrete Input Module |
| Product Series |
Series 90-70 |
| Manufacturer |
GE Fanuc |
| Dimensions |
4 × 21.8 × 29.3 cm |
| Weight |
0.62 kg |
| Input Channels |
16 (isolated) |
| Input Voltage Rating |
120 VAC |
| Input Filter Delay |
20 milliseconds |
| Input Current (ON) |
10 mA |
| Leakage Current (OFF) |
4 mA |
| Input Type |
Reactive, 2-wire/3-wire switches |
| Status Indicators |
16 LEDs (input status) |
| Backplane Current Draw |
0.25 A @ 5 VDC |
| Configuration Interface |
SNP or Ethernet TCP/IP |
| Installation Feature |
Mechanical key, center rail lock |
| Heat Dissipation |
Capacitive input circuitry |
| Compliance |
CE, UL/CUL 508 |
| HS Code |
8537101190 |
| Condition |
Brand New |
| Origin |
USA |
| System Compatibility |
PLC |
| Discontinued Status |
Active |
| Minimum Order Quantity |
1 |
| Lead Time |
In Stock |
Features & Benefits
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The IC697MDL240 supports 16 isolated AC inputs with 20ms filtering for noise suppression.
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Each channel includes an LED indicator for real-time input status monitoring.
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Mechanical keying ensures correct installation and prevents module mismatch.
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Reactive input design supports proximity switches and multi-phase AC systems.
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Low leakage current and efficient heat dissipation improve long-term reliability.
