XYCOM XVME-202 Controller Module Board

XYCOM XVME-202 Controller Module Board

Overview

The XVME-202 PAMUX Controller Module is a single-high VMEbus-compatible interface to the

PAMUX 4, 5, and 6 remote I/O products available from OPTO 22.

The PAMUX is a high-speed distributed I/O system which provides for connection to a VMEbus system via a Xycom Automation XVME-202 module and a 50 conductor flat ribbon cable. 

The PAMUX system provides a family of Digital and Analog Intelligent Brain Boards that may be daisy-chained to provide a total of 500 I/O points. 

The PAMUX Brain Boards may be placed at distances up to 500 feet from the VMEbus master controller.

The XVME-202 board, when combined with the PAMUX equipment form OPTO 22, provides a high

performance remote I/O subsystem ideally suited for the VME environment

Features

• Directly compatible with the OPTO 22 line of

PAMUX 4, 5, and 6 I/O systems

• 16 PAMUX units can be addressed from one

XVME-202 module, providing up to 512 indi

vidual control points

• Cable length between the XVME-202 and the

PAMUX units can be up to 500 feet

Applications

• Robotics

• Numerical Control

• Conveyor Control

• Fault Detection Machinery

Product Overview

XYCOM XVME - 202 Controller Module Board  It is a high-performance controller module board designed specifically for the field of industrial automation control. As an important member of the XYCOM product series, it undertakes critical control and data processing tasks in industrial control systems with advanced technology and reliable performance. This module board can adapt to various industrial application scenarios, providing a solid hardware foundation for the efficient operation and automation control of industrial equipment.

Specification parameters

Processor performance: Equipped with high-performance processors, capable of quickly processing complex instructions and large amounts of data in industrial control processes. The powerful computing capability ensures timely response to tasks such as sensor data acquisition, equipment status monitoring, and control command output in real-time control scenarios, providing strong support for the stable operation of industrial automation systems.

Memory and storage: With an appropriate amount of memory space, it can meet the needs of program operation and data caching, ensuring the smooth execution of control programs. At the same time, it has a certain storage capacity for storing important information such as system programs, control algorithms, and historical data of device operation, which facilitates users' data analysis and system debugging.

Interface configuration: It has a rich variety of interfaces, including but not limited to serial ports (RS-232, RS-485, etc.), Ethernet interfaces, digital input/output interfaces, and analog input/output interfaces. Serial port can be used to connect various industrial instruments and sensors to achieve data acquisition; The Ethernet interface supports high-speed network communication, facilitating data exchange and remote monitoring between the module board and other devices or control systems; Digital and analog input/output interfaces can directly connect actuators and control objects, achieving precise control of industrial equipment.

Working voltage

Supports specific range of working voltage input, such as [specific voltage range], to adapt to the power supply conditions of different industrial sites. The stable voltage adaptability ensures the reliable operation of the module board in complex power environments, reducing the risk of equipment failure caused by voltage fluctuations.

Working temperature range: capable of stable operation within a wide temperature range, such as [- [X] ℃ - [X] ℃]. Whether in high-temperature industrial production workshops or cold outdoor work environments, it can function normally and demonstrate excellent environmental adaptability.

Key advantages

High reliability: Using industrial grade components and rigorous manufacturing processes, after rigorous testing and quality verification, it has excellent resistance to vibration, impact, dust and water, and can operate stably in harsh industrial environments, effectively reducing equipment failure rates, minimizing production interruptions caused by equipment failures, and ensuring the continuity of industrial production.

Powerful compatibility: Rich interfaces and extensive communication protocol support enable it to be compatible with the vast majority of industrial equipment and control systems on the market. Both the construction of new systems and the upgrading and transformation of existing industrial control systems can be easily achieved, greatly improving the convenience and flexibility of system integration and reducing users' system development and maintenance costs.

Flexible Scalability: The modular design concept enables XYCOM XVME-202 Controller Module Board to have good scalability. Users can easily add or replace functional modules according to their actual application needs, such as adding communication interface modules, expanding storage capacity, etc., to meet the constantly changing industrial control requirements, extend the service life and application value of equipment.

Efficient performance: The high-performance processor and optimized software architecture enable it to quickly handle complex industrial control tasks, achieving real-time control and precise adjustment of industrial equipment. In the case of multitasking and large data transmission, it can still maintain a stable and efficient operating state, improving the efficiency and quality of industrial production.

Precautions

Installation and wiring: When installing the module board, it is necessary to strictly follow the requirements of the product manual to ensure a stable installation position and avoid damage to the module board due to vibration or collision. During the wiring process, it is necessary to carefully check the interface type and pin definitions, correctly connect the power line, signal line, and communication line, and prevent equipment damage or system failure caused by wiring errors. At the same time, attention should be paid to grounding measures to reduce the impact of electromagnetic interference on the module board.

Working environment: To ensure the normal operation and service life of the module board, it should be installed in a well ventilated, dry, non corrosive gas and strong electromagnetic interference free environment. Avoid exposing the module board to high temperature, high humidity, or excessive dust for a long time. Regularly clean and maintain the equipment, remove surface dust and debris, and ensure good heat dissipation of the equipment.

Software operation: When programming, configuring, and upgrading software, it is necessary to use official development tools and software versions, and follow the correct operating procedures. Before downloading programs or updating software, it is essential to perform data backup to prevent data loss or system crashes caused by operational errors or software failures. At the same time, attention should be paid to software compatibility to ensure that newly installed software can work properly with module board hardware and other related devices.

Power management: Use power adapters that meet the specifications of the module board to ensure stable power supply voltage and sufficient output power. To avoid using module boards in situations where the power supply is unstable or the voltage fluctuates greatly, it is recommended to equip them with uninterruptible power supplies (UPS) to cope with sudden power outages and ensure that the module board has sufficient time for data storage and normal shutdown to prevent data loss and equipment damage.