ABB IPCHS02 MPS II Power Chassis

ABB IPCHS02 MPS II Power Chassis

Basic Introduction

ABB IPCHS02 MPS II Power Chassis is a power supply chassis from ABB, belonging to the MPS II (Multiplexed Power System II) series. It is designed to meet the demand for reliable and efficient power supply in industrial automation systems, power systems and other fields.

Functional Features

Power distribution and management functions

Multiplexed Power Outputs: Usually with multiple power output channels, it can provide independent power supplies for different devices or modules. These output channels can be configured for different voltage and current levels to meet diverse equipment power supply needs. For example, it can simultaneously provide stable power for devices requiring 24V DC, 48V DC and 125V DC, which is convenient for powering various devices in complex industrial control systems.

Power monitoring and regulation: With power monitoring function, it can monitor the voltage, current and other parameters of each output channel in real time. When voltage fluctuation or current abnormality is detected, it can be automatically adjusted to ensure stable quality of the output power supply. For example, if the voltage of an output channel drops, it can restore the voltage to the set value through the internal regulation mechanism to ensure the normal operation of the connected equipment.

System Integration Convenience

Modular design: The adoption of the modular design concept facilitates integration with other ABB equipment and third-party equipment. Various power modules, control modules, etc. can be easily installed to build a complete power supply system. For example, in an industrial automation control cabinet, it can be used as a basic chassis and combined with PLC (Programmable Logic Controller) power modules, sensor power modules, etc., to realize system power supply and management.

Rich communication interfaces: Equipped with a variety of communication interfaces, such as Ethernet interface, RS-485 interface, etc., it supports common industrial communication protocols, such as Modbus, Ethernet/IP, etc. Through these communication interfaces, it is possible to integrate the power supply and management of the system with the PLC (Programmable Logic Controller) power supply module. Through these communication interfaces, the power supply chassis can be connected to the upper computer control system or other monitoring equipment to realize remote monitoring and management. For example, in the power management system of a data center, the IPCHS02 chassis can be connected to a monitoring server through an Ethernet interface to transmit real-time power status information, which is convenient for managers to operate and maintain remotely.

Reliability and Redundancy

Redundant Power Input Support: Supports redundant power inputs, capable of connecting two or more independent power sources. When one power source fails, the system can automatically switch to another power source to ensure the continuity of power supply. This redundant design can effectively avoid system downtime due to power failure in situations that require extremely high power reliability, such as power substations and important industrial production lines.

High Reliability Components: High-quality, highly reliable electronic components and mechanical structures are used. The electronic components are strictly screened and tested to have a low failure rate; the mechanical structure is reasonably designed to withstand a certain degree of vibration, shock and temperature changes and other harsh environmental conditions. For example, in the control cabinet in the industrial field, even if affected by the vibration of the surrounding equipment, IPCHS02 chassis can still maintain a stable working condition.

Technical Parameters

Electrical Parameters

Input Voltage Range: Generally supports a wide range of input voltages, such as 100V - 240V AC (alternating current), and can adapt to different frequencies of power supply, such as 50Hz - 60Hz, which makes it possible to work normally in a variety of different power grid environments.

Output Voltage and Current: Output voltage and current are dependent on the specific configuration and module. The output voltage can include common industrial power supply voltages such as 24V DC, 48V DC, 125V DC, etc. The rated current of each output channel can also vary from a few amperes to tens of amperes to meet the power supply needs of different power devices.

Power conversion efficiency: Power conversion efficiency is high, generally between 70% - 90%, the specific efficiency value depends on the size of the load and input and output voltages and other factors. Higher conversion efficiency helps to reduce energy consumption and heat dissipation requirements.

Mechanical Parameters

Dimensions: External dimensions vary according to specific design and application scenarios, and generally have standard cabinet mounting dimensions, e.g., length, width, and height may be in the range of 400mm - 800mm, 200mm - 400mm, and 100mm - 300mm, which is convenient for installation in industrial control cabinets or enclosures.

Weight: Weight varies by configuration and size, typically between 10kg - 30kg. The weight is designed to allow for ease of installation and handling, as well as ensuring chassis stability.

Communication Parameters

Communication Protocols and Interfaces: Supports a variety of communication protocols, such as Modbus, Ethernet/IP and so on. Communication interfaces include Ethernet interface (RJ45 interface, supporting 10/100Mbps or 1000Mbps communication rate), RS-485 interface (communication rate generally between 9600bps - 115200bps), etc., which is convenient for data exchange and remote monitoring with other devices.