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Product Name: CPU Module
Brand Name: General Electric
Model Number: IC697CPU782
Place of Origin: USA
Warranty: 12 Months
Whatsapp:+86 18020776782
Email:[email protected]
Sales |
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Jim Pei |
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Minimum Order Quantity |
1 Piece |
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Price |
Contact for Jim |
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Packaging Details |
Original new Factory Sealed |
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Delivery Time |
3–7 Days |
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Payment Terms |
T/T |
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Shipping Method |
DHL / FedEx / UPS / TNT |
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Supply Ability |
In stock |
The GE IC697CPU782 is a high-performance CPU module designed for the GE Fanuc Series 90-70 PLC platform. Serving as the central processing unit of the automation system, it executes control programs, manages I/O operations, and coordinates communication between system components. Powered by a 16 MHz processor and supporting floating-point mathematics, the module delivers reliable processing performance for demanding industrial control applications.
Designed for medium- to large-scale automation systems, the IC697CPU782 supports up to 12K discrete I/O points and 8K analog I/O points, making it suitable for complex manufacturing, process control, and infrastructure applications. With integrated RS485 communication, VME system compatibility, and up to 512 KB of RAM, the module provides a robust platform for efficient and scalable industrial automation.
| Product Name | GE IC697CPU782 CPU Module |
| Manufacturer | General Electric |
| Product Type | CPU Module |
| Part Number | IC697CPU782 |
| Weight | 0.52 kg |
| Estimated shipping dimensions | 4x21.7x29.2cm |
| Place of shipment | Xiamen, China |
| Country of origin | USA |
| Discrete I/O | 12 K, max (any combination) |
| LED indicators | Module OK, RUN, Outputs enabled |
| Product Description | Central Processing Unit (CPU) |
| Boolean Execution speed | 0.4 microseconds per boolean function |
| Operating temperature | 0 to 60 degrees Celsius |
| Communication port | One (1) RS485 interface |
| VME | System designed to support the VME standard C.1 |
| Discrete I/O memory | 12 KB |
| Compatibility | GE Fanuc 90-70 PLCs |
| Analog I/O memory | 8 KB |
| Clock speed | 16 megahertz |
| Maximum RAM | 512 kilobytes |
| Floating Point math | Supported |
| Current input | 1.6 Amps |
| Serial port | 1 |
| Analog I/O | 8 K max |
| Communication port | RS485 interface |
| Voltage input | 5 Volts DC |
| Module location | slot 1 of rack 0 |
Higher I/O capacity: supports up to 12K discrete I/O and 8K analog I/O, exceeding the capabilities of many standard PLC CPUs
Faster processing performance: 0.4 μs Boolean execution speed enables quicker program execution and response times
Advanced computational capability: floating-point math support improves handling of complex calculations and process control tasks
Large memory capacity: up to 512 KB RAM allows larger and more sophisticated control programs
Integrated communication: built-in RS485 interface reduces the need for additional communication hardware
Compared with similar products: offers faster logic execution, larger I/O capacity, and stronger processing capability than many conventional PLC processor modules
Reliable industrial operation: designed for continuous operation in demanding automation environments
Compared with similar PLC CPU modules, the IC697CPU782 delivers faster processing speeds, greater I/O capacity, larger memory resources, and enhanced computational capabilities, making it an excellent choice for complex and high-performance industrial automation systems.
The IC697CPU782 is fully compatible with GE Fanuc Series 90-70 PLC systems and is designed to operate as the primary processor in slot 1 of rack 0. It integrates seamlessly with Series 90-70 I/O modules, communication modules, and expansion components through the PLC backplane, ensuring coordinated operation across the entire automation system.
The module supports interoperability with a wide range of discrete and analog field devices through compatible I/O modules and provides communication capabilities through its integrated RS485 interface. Its compliance with the VME standard allows smooth integration within existing Series 90-70 architectures, enabling scalable deployment in complex industrial control and monitoring applications.
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