XYCOM AUTOMATION 1300-0001000000000 100-240VAC 0.5A UNMP

XYCOM AUTOMATION 1300-0001000000000 100-240VAC 0.5A UNMP

Product Overview

XYCOM Automation 1300-000-1000000 is a device suitable for the field of industrial automation. With its wide voltage input and stable current output characteristics, it can operate stably in various industrial environments. The parameter information in the model contains the key characteristics of the equipment, which can meet the requirements for equipment reliability and compatibility in industrial production and provide strong support for automation control systems.

Specification parameters

（1） Electrical parameters

Voltage Input: Supports a wide voltage input range of 100-240VAC, which enables it to adapt to power grid standards in different regions around the world. Whether in North America with a voltage of 110VAC or most regions in Europe and Asia with a voltage of 220VAC, no additional voltage conversion equipment is required, and it can be directly connected to the power grid, effectively reducing equipment deployment costs and complexity.

Current output: The rated current is 0.5A, and stable current output can provide reliable power support for connected industrial equipment, ensuring that the equipment will not malfunction due to current fluctuations during operation, especially suitable for automation control modules, sensors, and other equipment that require high power stability.

Power range: According to the formula P=UI (power=voltage × current), the power range of this device is approximately between 100 × 0.5=50VA and 240 × 0.5=120VA, which can meet the power needs of various low to medium low power industrial equipment.

（2） Model analysis

Number meaning: The model number "1300-000-1000000" may represent specific product series, functional configurations, or production batches. Among them, "1300" may be a product series code used to distinguish XYCOM Company's other different types of industrial automation products; The subsequent numerical strings may correspond to functional module numbers, customized parameters, production batch numbers, etc., but the specific meanings need to refer to XYCOM's official product coding rules document.

Special identification: "UNMP" may be a special version identification or certification mark of the device, which may represent a specific enhanced version, comply with specific industry standards, or have passed certain certifications (such as safety certification, electromagnetic compatibility certification, etc.). The specific meaning needs to be further checked in the product manual or consulted with XYCOM official technical support personnel.

（3） Physical parameters

Size and weight: Due to limited current information, it is not possible to accurately determine the size and weight of the device. However, when referring to similar industrial automation equipment, its design usually takes into account the installation space inside the industrial control cabinet, which is compact in size and easy to integrate; Moderate weight, convenient for installation and handling, while ensuring the stability of the equipment during operation.

Shell material and protection level: The shell may be made of high-strength engineering plastic or metal material, which has good wear resistance, impact resistance, and corrosion resistance, and can effectively resist dust, oil, and water vapor erosion in industrial environments. The protection level may reach IP20 or above, which can prevent solid foreign objects with a diameter greater than 12.5mm from entering the interior of the equipment, provide basic protection for internal electronic components, and ensure stable operation of the equipment in general industrial environments. If applied to more harsh environments, additional protective measures may be required or a higher protection level model may be chosen.

Core functions

（1） Stable power supply

As a power supply device in industrial automation systems, it provides stable 100-240VAC, 0.5A power supply for connected sensors, controllers, actuators, and other devices. In industrial production lines, stable power output can ensure accurate data collection by sensors, precise execution of instructions by controllers, and stable operation of actuators, avoiding data acquisition errors and control failures caused by power fluctuations, and ensuring the continuity and stability of the entire automated production process.

（2） Compatibility and Scalability

The wide voltage input design enables it to be compatible with power grid systems of different regions and specifications. At the same time, the 0.5A current output can adapt to the power needs of various industrial equipment. In the process of industrial automation system integration, there is no need to frequently replace power equipment, which improves the system's compatibility and integration efficiency. In addition, the device may have reserved expansion interfaces or modular design, which facilitates users to add functional modules according to actual needs, such as adding power output channels, integrating voltage and current monitoring modules, etc., to meet the equipment expansion requirements brought about by industrial production scale expansion or process upgrades.

（3） Fault monitoring and protection

To ensure the safety of the device itself and connected devices, the device may have built-in functions such as overvoltage protection, undervoltage protection, overcurrent protection, and short-circuit protection. When the input voltage is too high or too low and exceeds the normal operating range of the device, the overvoltage/undervoltage protection function is activated, automatically cutting off the power output to prevent equipment damage caused by high voltage or equipment malfunction caused by low voltage; When overcurrent or short circuit occurs, the overcurrent/short circuit protection mechanism responds quickly to avoid serious accidents such as fires and equipment burns caused by abnormal increase in current. Some models may also have fault indicator lights or communication interfaces, which can provide timely feedback of fault information to operators or upper computer systems, facilitating quick positioning and troubleshooting, and reducing equipment downtime.

4、 Working principle

After the XYCOM MOTION 1300-000-1000000 device is connected to the 100-240VAC AC power grid, the internal power conversion circuit first filters the input voltage to remove interference signals such as clutter and harmonics in the power grid, ensuring the purity of the input voltage. Subsequently, the input voltage is converted into the appropriate voltage level required for the internal circuits and connected devices through a transformer, and after rectification, voltage stabilization, and other processes, the AC voltage is converted into stable DC or specific forms of AC output, providing stable power for subsequent devices.

During the power conversion and output process, the monitoring circuit inside the device monitors parameters such as voltage and current in real-time. Once abnormal voltage or current is detected, such as overvoltage, undervoltage, overcurrent, short circuit, etc., the control circuit immediately activates the corresponding protection mechanism, ensuring the safety of the equipment and connected devices by cutting off power output, triggering alarms, and other methods. At the same time, if the device has communication function, monitoring data and fault information will be transmitted to external control systems or display devices through communication interfaces, achieving remote monitoring and fault diagnosis.

5、 Operation and usage guide

（1） Preparation before installation

Confirm that the installation environment meets the equipment requirements, choose a dry, well ventilated place without strong electromagnetic interference, and avoid environments with high temperature, humidity, and excessive dust.

Check if the grid voltage is within the 100-240VAC input range of the equipment, ensuring that the grid lines are connected correctly and stably, without any safety hazards such as leakage or short circuits.

Prepare the necessary tools and materials for installation, such as screwdrivers, wrenches, power cords, fixing brackets, etc., and wear protective equipment such as insulated gloves.

（2） Installation steps

According to the installation size and fixing method of the equipment, determine the installation position on the industrial control cabinet or installation bracket, and use screwdrivers, bolts, etc. to firmly fix the equipment to ensure stable installation and avoid loosening due to vibration during operation.

Connect the power input terminal of the device to the power grid line correctly using a power cord of appropriate specifications. When connecting, strictly follow the equipment wiring terminal identification to ensure that the live wire, neutral wire, and ground wire are connected correctly, avoiding reverse or virtual connections.

Connect the industrial equipment that requires power supply to the power output terminal of the equipment through appropriate cables, accurately connect according to the terminal identification, and check whether the connection is firm to prevent poor contact from causing the equipment to be unable to supply power normally.

（3） Startup and Debugging

After confirming that all wiring is correct, close the power switch and the device should start normally. Observe whether the power indicator light on the device is on. If the indicator light is not on or flashes abnormally, immediately disconnect the power and check whether there are any problems with the wiring, fuse, etc.

Use a multimeter and other testing tools to measure whether the voltage and current at the power output terminal of the device are within the rated range, ensuring stable output.

Start the connected industrial equipment in sequence and observe whether the equipment is running normally. If a device cannot start or runs abnormally, check whether the connection between the device and the power supply device is normal, or try replacing other devices for testing to determine whether it is a fault with the device itself or a power supply issue.

（4） Daily operation and maintenance

Regularly (such as weekly or monthly) check the power indicator status of the equipment, whether the wiring terminals are loose, and whether there is dust accumulation on the surface of the equipment. If the indicator light flashes abnormally or the wiring is loose, promptly handle it; For dust on the surface of the equipment, clean it with a dry soft cloth or compressed air to maintain good heat dissipation and operating environment.

Record the operating parameters of the equipment (such as input voltage, output voltage, current, etc.), regularly compare and analyze the data. If significant fluctuations or deviations from the normal range are found, promptly investigate the cause, which may be caused by factors such as power grid fluctuations, equipment failures, or load changes. If necessary, contact professional technicians for maintenance.

If the equipment is not used for a long time, the power switch should be disconnected, and protective measures such as dust and moisture prevention should be taken to avoid a decrease in equipment performance or damage.