Fanuc Corporation | Ge Fanuc VMIC Analog to Digital Converter - VMIVME-3113A

Fanuc Corporation | Ge Fanuc VMIC Analog to Digital Converter - VMIVME-3113A

The VMIVME-3113A is an Analog to Digital Converter (ADC) module from GE Fanuc VMIC. It is designed for use in VMEbus systems, providing high-precision conversion of analog signals to digital data. This module supports multiple input channels and is suitable for integration into industrial and scientific applications where accurate data acquisition is required.

The VMIVME-3113-A is a high-performance Analog to Digital Converter (ADC) module designed by GE Fanuc VMIC for use in VMEbus systems, specifically within the category of PLCs and machine control. This converter board is engineered to provide accurate and efficient conversion of analog signals to digital data, making it an essential component for data acquisition and processing in various industrial and scientific applications. Its robust design and advanced features enable it to meet the demanding requirements of modern control systems where precision and reliability are critical.

One of the standout features of the VMIVME-3113-A is its ability to handle up to 64 input channels. This high channel count allows the module to process multiple analog signals simultaneously, making it suitable for applications that require comprehensive monitoring and control of various input sources. The module's 12-bit resolution ensures that each analog signal is converted into a precise digital representation, providing the accuracy needed for detailed analysis and decision-making in automated systems.

The VMIVME-3113-A operates with a scanning frequency of 33 kHz, which allows it to perform rapid data acquisition across all 64 channels. This high scanning rate is particularly beneficial in environments where timely and accurate data capture is essential, such as in real-time monitoring systems, process control, and high-speed testing applications. The ability to quickly convert and process analog signals into digital data helps ensure that the system can respond swiftly to changes in input conditions, maintaining optimal performance and control.

Weighing in at 10.00 lbs, the VMIVME-3113-A is a solidly constructed module that is designed to withstand the rigors of industrial environments. Its durable build ensures long-term reliability, even in harsh conditions where mechanical stress, temperature variations, and electrical noise may be present. This reliability is crucial for minimizing downtime and maintaining consistent operation in critical applications.

As a PLC module/rack component, the VMIVME-3113-A is designed to integrate seamlessly into existing control systems. It is compatible with standard VMEbus systems, allowing for straightforward installation and configuration. The module's design prioritizes ease of use, with clear labeling and accessible connectors that simplify the process of integrating it into a broader control architecture. This ease of integration reduces the time and effort required to deploy the module, enabling faster setup and commissioning of the overall system.

In terms of its application within PLCs and machine control, the VMIVME-3113-A serves as a key interface between the analog world and digital control systems. By converting analog signals from sensors, transducers, and other input devices into digital data, it enables the precise control and monitoring of processes within an industrial setting. This functionality is essential for applications ranging from manufacturing and automation to research and development, where accurate data acquisition and processing are fundamental to achieving desired outcomes.

The module's 12-bit resolution, combined with its 64-channel capability, allows for a high degree of flexibility in system design. It can be used in a wide range of configurations, from simple monitoring setups to complex control systems that require extensive input processing. The high resolution ensures that even subtle variations in input signals are captured and processed, providing the detailed information needed for fine-tuned control and analysis.

The VMIVME-3113-A's scanning function, operating at 33 kHz, ensures that data is captured rapidly and consistently across all channels. This feature is particularly valuable in applications where real-time data acquisition is required, as it ensures that the system has access to up-to-date information at all times. The ability to quickly scan and process multiple inputs makes the module ideal for use in dynamic environments where conditions can change rapidly and where timely responses are critical.

Overall, the GE Fanuc VMIC VMIVME-3113-A is a highly capable and reliable Analog to Digital Converter module designed for use in demanding industrial and scientific applications. Its combination of high channel count, 12-bit resolution, and fast scanning frequency makes it a versatile and powerful tool for data acquisition and control within VMEbus systems. Whether used in manufacturing, process control, or research settings, the VMIVME-3113-A provides the precision and reliability needed to support advanced automation and data processing tasks. Its durable construction and ease of integration further enhance its value, making it a trusted choice for engineers and system integrators looking to implement robust and accurate analog-to-digital conversion in their systems.

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 

What Our Experts Think

• High Channel Density: Supports up to 64 differential or single-ended analog inputs, ideal for applications with extensive data acquisition needs.

• Precision Conversion: Offers 12-bit resolution for accurate digital representation of analog signals.

• Fast Scanning Rate: Capable of operating at a scanning frequency of 33 kHz, enabling rapid data collection across all channels.

• Programmable Gain Amplifier: Features a jumper-selectable amplifier with multiple gain options (1, 10, 100, 200, 500), handling various signal levels.

• Built-in Self-Test: Equipped with a self-test function to facilitate diagnostics and ensure reliability in demanding environments.

Q&A

Q: What is the VMIVME-3113A Analog to Digital Converter?
A: It’s a GE Fanuc VMIC (VMEbus) analog to digital converter designed to convert analog signals into digital data for processing in industrial automation systems.

Q: What systems is it compatible with?
A: This converter is compatible with GE Fanuc VMIC systems, offering seamless integration with VME-based control and monitoring applications.

Q: What does the analog to digital converter do?
A: It transforms analog signals (such as voltage or current) into digital signals, allowing PLCs or other control systems to process and analyze the data for automation tasks.

Q: Why choose the VMIVME-3113A?
A: It provides accurate and fast conversion, ensuring high performance and reliability in applications that require precise data acquisition and control.

Q: Is this an OEM product?
A: Yes, it’s a genuine GE Fanuc part, guaranteeing full compatibility, high-quality performance, and long-term reliability.

Maintenance Tips

• Inspect for Physical Damage: Regularly check for signs of damage such as cracked components, burnt areas, or loose connections.

• Clean the Converter: Use compressed air or an anti-static brush to remove dust and debris from the converter’s surface and connectors.

• Check Power Supply: Ensure the converter receives stable and appropriate voltage levels to prevent instability or failure.

• Verify Signal Integrity: Test the input and output signals to ensure accurate and stable analog-to-digital conversion.

• Monitor Temperature: Ensure the converter operates within the recommended temperature range and is adequately cooled to prevent overheating.

• Check Connectors and Wiring: Inspect connectors and wiring for secure connections and any signs of wear, corrosion, or damage.

• Inspect for Grounding Issues: Ensure the converter is properly grounded to avoid electrical interference or noise.

• Perform Functional Tests: Regularly test the analog-to-digital conversion functionality to confirm proper performance in the system.