XYCOM AOUT XVME-530 VME BUS 71530D 70530-001 BOARD

XYCOM AOUT XVME-530 VME BUS 71530D 70530-001 BOARD

Product Overview

XYCOM AOUT XVME-530 VME BUS 71530D 70530-001 BOARD is an analog output board developed by Xycom based on the VME (VersaModule Eurocard) bus standard, and is one of the XVME series products. This board is mainly used to convert digital signals into analog signals for output. In industrial automation control systems, it can accurately control various actuators such as regulating valves, frequency converters, etc. By outputting analog signals to adjust the operating parameters of equipment, precise control and regulation of industrial production processes can be achieved, ensuring stable system operation.

Brand background extension

As a senior brand in the fields of industrial automation and embedded computing, Xycom has always served the market with innovative technology and reliable products. Its products are widely used in multiple industries such as energy, manufacturing, and transportation due to their excellent performance, high reliability, and adaptability to complex industrial environments. In the research and development of products such as analog output boards, Xycom has accumulated rich experience and is committed to providing customers with high-precision, stable and reliable analog output solutions to meet the needs of signal conversion and control in different industrial scenarios.

Specification parameters

Analog output channels: Usually equipped with 8 or 16 independent analog output channels, each channel can simultaneously output different analog signals to meet the control requirements of multiple devices and parameters. For example, in large industrial production lines, it is possible to simultaneously control the opening of multiple regulating valves.

Output signal type: Supports multiple standard analog output signals, commonly including 4-20mA current output, 0-5V voltage output, 0-10V voltage output, etc. Users can flexibly choose between hardware jumpers or software configurations based on the needs of the connected devices, ensuring good compatibility with external actuators.

Output accuracy: With high output accuracy, the resolution can generally reach 12 or 16 bits. Taking 16 bit resolution as an example, fine adjustment of analog signals can be achieved, and the output accuracy can reach ± 0.01% of the full range, effectively improving the accuracy of control and meeting the requirements of high-precision industrial control scenarios.

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

VME bus interface: strictly following the VME bus standard, supporting 32-bit data transmission, with a maximum data transmission rate of up to 40MB/s, ensuring efficient and stable data exchange with other modules in the VME bus system. At the same time, it has good electrical compatibility and can work stably in complex VME bus environments.

Working power supply: DC power supply is used, with a working voltage range of+5V DC ± 5%,+12V DC ± 5%, and -12V DC ± 5% combined power supply to meet the working requirements of different circuit modules inside the board. The power input has overcurrent and overvoltage protection functions to prevent damage to the board due to abnormal power supply.

Working temperature range: It can operate stably in an ambient temperature range of -40 ℃ to+85 ℃, with a storage temperature range of -55 ℃ to+125 ℃. It is suitable for harsh industrial environments such as high temperature, low temperature, and high humidity, ensuring long-term reliable operation in various industrial sites.

Core functions

Digital to analog signal conversion: The core function is to convert the digital signals output by the control system (such as control instructions issued by PLC or computer) into analog signals. By using an internal high-precision digital to analog conversion (DAC) chip, precise conversion of digital signals to analog current or voltage signals is achieved, providing accurate control signals for external actuators.

Signal output and control: According to the instructions of the control system, stable analog signals are output to the connected execution devices for precise control of the equipment. For example, in chemical production, according to the set values of parameters such as temperature and pressure, corresponding analog signals are output to adjust the valve opening, control the material flow rate, and maintain the stability of the production process; In the motor speed control system, the output analog signal adjusts the output frequency of the frequency converter to achieve control of the motor speed.

Fault diagnosis and protection: Built in fault diagnosis circuit can monitor the working status of analog output channels in real time. When there is an abnormal output signal (such as signal out of range, channel short circuit or open circuit), it can detect and trigger an alarm in a timely manner. At the same time, according to the preset protection strategy, the output of the abnormal channel can be automatically switched to a safe state (such as outputting a fixed value or disconnecting the output) to prevent equipment damage or production accidents caused by signal failure.