Xycom Aout XVME-530 Vme Bus 71530D 70530-001 Platte

Xycom Aout XVME-530 Vme Bus 71530D 70530-001 Platte

Brand background

Xycom has been deeply involved in the fields of industrial automation and embedded computing for many years. With its persistent pursuit of technological innovation and strict control over product quality, it has established a good reputation in the industry. Its products are known for their high reliability, high performance, and excellent environmental adaptability, and are widely used in key industries such as energy, manufacturing, and transportation, providing solid guarantees for the stable operation of various complex industrial systems. In the research and production of analog output boards, Xycom has accumulated profound technical expertise and continuously launched high-quality products that meet market demand.

Product Overview

Xycom Aout XVME-530 Vme Bus 71530D 70530-001 Platte is an analog output board designed based on the VME (VersaModule Eurocard) bus standard. It is mainly used to convert digital signals into analog signals and plays a key role in industrial automation control systems. By accurately outputting analog signals, precise control of actuators such as regulating valves and frequency converters can be achieved, enabling precise adjustment of various parameters in industrial production processes and ensuring stable and efficient operation of the production process.

Specification parameters

Analog output channel: Equipped with 16 independent analog output channels, it can simultaneously control multiple devices to meet the multi parameter adjustment requirements of complex industrial systems. Each channel is independent of each other to avoid signal interference and ensure output accuracy.

Output signal type: Supports multiple standard analog output signals, including 4-20mA current output, 0-10V voltage output, and ± 10V voltage output. Users can flexibly select the output signal type through hardware configuration or software settings according to the requirements of the actual connected device.

Output accuracy: With 16 bit high resolution, the output accuracy reaches ± 0.1% FSR (full range), which can achieve fine adjustment of analog signals and meet the strict requirements of high-precision industrial control scenarios.

Update rate: The update rate of analog output signals can reach 1000 times per second, which can quickly respond to changes in control system instructions, ensuring timely adjustment of output during dynamic industrial production processes and achieving real-time control of equipment.

VME bus interface: fully compliant with the VME bus standard, supports 32-bit data transmission, with a maximum data transmission rate of up to 40MB/s, and can achieve high-speed and stable data interaction with other modules in the VME bus system.

Working power supply: It adopts DC power supply, with a working voltage range of+5V DC ± 5%,+12V DC ± 5%, and -12V DC ± 5%. It has overvoltage, overcurrent, and reverse connection protection functions, effectively ensuring the stable operation of the board in complex power environments.

Working temperature range: It can operate stably in harsh environmental temperatures ranging from -40 ℃ to+85 ℃, with a storage temperature range of -55 ℃ to+125 ℃, suitable for various industrial site environments such as high temperature, low temperature, and high humidity.

Core functions

Digital to analog signal conversion: Using high-precision digital to analog conversion chips, the digital signals output by the control system are accurately converted into analog signals. Both control instructions and data feedback can be quickly and accurately converted, providing reliable control signals for the executing mechanism.

Precise output control: Independently and precisely control each analog output channel according to the instructions of the control system. It can achieve functions such as linear output and nonlinear compensation, ensuring that the output signal can accurately match the operating requirements of the equipment and improve the accuracy of industrial production control.

Fault diagnosis and protection: Equipped with a comprehensive fault diagnosis mechanism, it can monitor the status of each output channel in real time. When faults such as signal out of range, channel short circuit or open circuit occur, an alarm can be triggered immediately, and the faulty channel output can be automatically switched to a safe state to prevent equipment damage or production accidents caused by abnormal signals.

Communication and configuration: Communicate with the main controller through the VME bus, receive control instructions, and upload the working status information of the board. Support parameter configuration through supporting software, such as output signal type, range, update rate, etc., to facilitate users to flexibly adjust board functions according to actual needs.

Working principle

This board card is connected to the main controller in the VME bus system through the VME bus interface and receives digital control signals sent by the main controller. The data receiving module inside the board extracts the digital signals on the bus and transmits them to the data processing unit. The data processing unit parses and processes digital signals based on preset parameters and control logic, and distributes the processed data to the corresponding analog output channels. The digital to analog conversion circuit of each output channel converts the digital signal into an analog current or voltage signal, which is then amplified, filtered, and processed by the signal conditioning circuit. Finally, the stable and accurate analog signal is output to the external execution device through the output terminal to achieve control of the device. At the same time, the fault monitoring circuit continuously checks the output channels and internal circuits of the board. Once any abnormalities are found, the fault information is immediately fed back to the main controller.

Key advantages

High precision and stability: Using high-quality components and advanced manufacturing processes, combined with precise circuit design, to ensure high precision and stability of analog output. Even in complex electromagnetic interference environments, it can maintain the accuracy of output signals, effectively reduce control deviations, and improve industrial production quality.

Flexible Scalability: Based on the modular design of the VME bus, it is convenient to combine with other VME series boards and easily expand system functions. Users can flexibly configure the number of analog output channels and signal types according to their actual needs, meeting the diverse needs of different industrial scenarios.

High reliability: Designed according to strict industrial standards, it has excellent anti-interference ability and environmental adaptability. After rigorous testing and verification, it can operate stably for a long time in harsh industrial environments, reducing equipment failure rates and maintenance costs.

Convenient integration and use: Provides comprehensive driver programs and development toolkits for easy integration with mainstream industrial control systems. The accompanying configuration software is easy and intuitive to operate, allowing users to quickly set board parameters and debug functions without complex programming, reducing the threshold for use.

Precautions

Installation and wiring: When installing the board, be sure to ensure that the VME bus chassis is powered off, strictly follow the installation manual instructions, insert the board correctly and fix it, and ensure good contact. When wiring analog output signals, use shielded cables to avoid signal interference, and strictly distinguish between current output and voltage output wiring methods to prevent misconnection. At the same time, ensure that the power wiring is correct, verify that the voltage level is consistent with the requirements of the board, and prevent damage to the board due to power issues.

Parameter configuration: Before use, it is necessary to accurately configure the board parameters through the accompanying software. Carefully check the output signal type, range, update rate, and other settings to avoid output abnormalities caused by parameter errors. After modifying the parameters, save the configuration in a timely manner and conduct testing to ensure that the board works properly.

Environmental requirements: When installing and using the board, it is necessary to ensure good ventilation and avoid high temperature, humidity, and strong electromagnetic interference environments. Regularly clean the surface dust of the board to prevent the accumulation of dust from affecting heat dissipation and electrical performance.

Maintenance and troubleshooting: Regularly check the status of the board, check if the indicator lights are normal and if the interfaces are loose. If the board malfunctions, do not disassemble it by yourself. Contact Xycom technical support personnel in a timely manner and follow the instructions for troubleshooting and maintenance.