anuc Corporation GE Fanuc | CPU - IC200CPU002
The IC200CPU002 is a CPU module from the Versamax Series manufactured by GE Fanuc Emerson. It features a Run/Stop switch and supports floating point data functions. The module comes with embedded RS-232 and RS-485 communication capabilities.
Equipped with seven LEDs, the IC200CPU002 provides indication for power status, operating mode, and status reporting. The Power LED illuminates upon receiving 5V from the power supply, while the OK LED indicates successful completion of power-up diagnostics.
Information About IC200CPU002
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The IC200CPU002, manufactured by GE Fanuc Emerson, is a CPU module belonging to the Versamax Series. This module comes equipped with various features to facilitate efficient operation within industrial environments.
One notable feature is the inclusion of a Run/Stop switch, allowing users to transition the CPU between Stop and Run modes. This switch, situated behind the module door, serves additional functionalities such as halting program writing, memory modification, and overriding isolated data.
Embedded within the IC200CPU002 are floating-point data functions, which enhance computational accuracy and precision for diverse industrial applications. Moreover, the module integrates RS-232 and RS-485 communication protocols, providing seamless connectivity for data transmission and reception.
The IC200CPU002 boasts a user-friendly design, with the RUN/STOP switch conveniently positioned for easy access. Users can effectively manage system operations and resolve faults using this switch, which also facilitates the clearing of fault tables and transitioning the CPU to RUN mode when the RUN LED is blinking.
Manufacturer information
GE FANUC, now part of Emerson Automation Solutions, was a leading provider of industrial automation and control systems. Known for innovative solutions, GE FANUC played a key role in advancing manufacturing, offering a range of products including PLCs, CNCs, and HMI solutions.
Specifications
| Part Number |
IC200CPU002 |
| Manufacturer |
FANUC |
| Brand |
GE FANUC |
| Category |
PLCs / Machine Control |
| Subcategory |
PLC Module / Rack – CPU Module |
| Model |
VersaMax |
| User Memory |
42K |
| Operating Voltage |
5 VDC |
| Processing Time |
1.80 msec/K of logic |
| I/O Count |
2048 |
| Serial Ports |
1x RS232, 1x RS485 |
| LED Indicators |
7 status LEDs |
| Run/Stop Switch |
Included |
| Data Functions |
Supports floating point data operations |
What our Experts Think
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Versatile Control: Ideal for small to mid-sized automation systems with up to 2048 digital I/O points.
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Flexible Programming: Supports Ladder Diagram and Instruction List programming languages.
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Dual Communication Ports: Equipped with RS-232 and RS-485 ports for diverse connectivity.
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Real-Time Clock: Built-in real-time clock with a battery life of up to 5 years.
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User-Friendly Interface: Includes a Run/Stop switch and seven status LEDs for easy monitoring.
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Reliable Performance: Provides a Boolean execution speed of 1.8 ms per K.
Q&A
Q: What is the IC200CPU002 CPU?
A: It’s a GE Fanuc CPU module designed for use in industrial control systems, providing the processing power necessary for automation and control operations.
Q: What systems is it compatible with?
A: This CPU is compatible with GE Fanuc Series 90-30 PLC systems, widely used in industrial automation, manufacturing processes, and control applications.
Q: What does the CPU module do?
A: The IC200CPU002 processes control instructions, manages system inputs and outputs, and coordinates communication between various components within the automation system.
Q: Why choose the IC200CPU002?
A: It offers reliable performance, robust processing power, and seamless integration with other GE Fanuc components, ensuring smooth operation of complex industrial control systems.
Q: Is this an OEM product?
A: Yes, it’s a genuine GE Fanuc part, ensuring full compatibility, reliability, and long-term durability in industrial automation environments.
Maintenance Tips
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Visual Inspection: Regularly check the CPU for visible signs of damage, such as burnt components, cracked or broken traces, or damaged connectors.
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Clean the CPU: Use dry compressed air or an anti-static brush to clear dust, dirt, or debris. Avoid using liquid cleaners, which could damage sensitive components or create short circuits.
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Check Solder Joints: Inspect solder joints for cracks, corrosion, or signs of wear, particularly around high-current areas. Faulty soldering can lead to poor connections or module failures.
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Verify Input and Output Signals: Test the input and output signals to ensure they fall within the proper voltage ranges. Incorrect voltage levels can cause malfunction or failure to properly execute commands.
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Run Diagnostics: Use diagnostic tools or software to verify the functionality of the CPU. Look for error codes or performance issues indicating hardware problems or software malfunctions.
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Monitor Power Supply: Ensure the CPU is receiving the correct voltage and that the power supply is stable. Voltage fluctuations can cause the CPU to malfunction or permanently damage it.
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Check for Loose Connections: Inspect all connectors and wiring for secure attachment. Loose or corroded connections can cause communication issues and system instability.
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Temperature Monitoring: Ensure that the CPU is operating within the recommended temperature range. Overheating can degrade the CPU’s performance and reduce its lifespan.
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Firmware Updates: Verify that the CPU is running the latest firmware version for optimal performance and compatibility with connected devices.
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ESD Protection: Always use electrostatic discharge (ESD) protection, such as wrist straps and anti-static mats, when handling the CPU to prevent damage from static electricity.
