ABB PHARPSCH100000 MPS III Power Supply Chasis

ABB PHARPSCH100000 MPS III Power Supply Chasis

Basic Information

ABB PHARPSCH100000 MPS III Power Supply Chassis is a power supply chassis for MPS III systems from ABB, which plays a key role in providing stable power to all components in the whole system. The chassis is usually manufactured in Sweden and other ABB sites, and is an important part of the company's automation product line, often used in conjunction with other modules in the same series to build a complete automation system architecture.

Functional characteristics

Stable power supply

Able to output a variety of stable voltage levels to meet the diverse power requirements of different devices and modules in the MPS III system, such as 5V DC, 12V DC, 24V DC and other common DC voltages, to ensure the normal and stable operation of all parts, to ensure the orderly operation of the entire system.

With high-precision voltage regulation, the accuracy of output voltage can be controlled within a small error range, for example, for some critical voltage output, the accuracy can reach within ±1%, which enables the sensitive electronic equipment connected to it to obtain accurate and stable power supply, and reduces the abnormalities caused by voltage fluctuations in the operation of the equipment.

Redundant Power Supply Design

Redundant power supply configuration, generally equipped with multiple power modules, when one of the power modules fails, other normal power modules can seamlessly take over the power supply task, to ensure that the power supply of the entire system will not be interrupted, which greatly improves the reliability of the system operation, especially for industrial automation scenarios that require high continuity of power supply, such as in the continuous production of the chemical production line, the critical power monitoring system and other application scenarios, can effectively improve the reliability of the system operation, such as in the continuous production of chemical production lines, critical power monitoring system. It is especially suitable for industrial automation scenarios that require high power supply continuity, such as chemical production lines in continuous production, critical power monitoring systems, and other application scenarios, which can effectively avoid the risk of system downtime due to power failure.

Overload and short circuit protection

Integrated with perfect protection mechanism, with overload protection and short-circuit protection function. When the output current exceeds the rated value or a short-circuit situation occurs, it can quickly cut off the corresponding circuit to avoid the power supply itself and the connected equipment from being damaged due to excessive current impact, and at the same time, it will inform the operation and maintenance personnel of the fault situation through the corresponding alarm indication, so as to facilitate timely investigation and repair of the problem, and guarantee the safety of the equipment and the system.

Status monitoring and communication function

It can real-time monitor its various operating states, such as output voltage, output current, the working state of each power module, etc., and can transmit these state information to the control system or the host computer through the communication interface (such as common RS485, Ethernet and other interfaces), so as to facilitate operation and maintenance personnel to remotely monitor the operation of the power supply chassis to achieve intelligent operation and maintenance management, and to grasp the health of power supply in time and make maintenance plans in advance. and make maintenance plan in advance.

Technical Parameters

Input parameters

Input voltage range: Generally, it can adapt to a wide range of input voltage, for example, it can accept 100V AC - 240V AC AC AC mains input, and some of them also support a specific range of DC input, so as to adapt to the access requirements of different regions' grid conditions and different power supply environments.

Input Frequency Range: For AC input, it can adapt to the common frequency range of 50Hz - 60Hz, which ensures that it can be normally accessed in areas with different grid frequency standards.

Output parameters

Output Voltage Types and Values: As mentioned above, it can output a variety of DC voltages, with different output branches corresponding to different voltage values, and the output power of each branch also has corresponding rated standards to meet the power requirements of different load equipment.

Output current capacity: Each output voltage branch has a clear rated output current limit, and the overall output current capacity varies according to different configurations, which generally meets the power demand of each module in the MPS III system and ensures the stable operation of the system at full load.

Electrical Isolation

Good electrical isolation between inputs and outputs as well as between different output circuits, with isolation voltages typically reaching thousands of volts, e.g., around 1500V - 3000V, effectively preventing the propagation of electrical faults between different circuits and improving the electrical safety of the entire system.

Application Areas

Industrial automation control systems

Widely used in various industrial automation production scenarios, such as in automated production lines, providing stable power supply for PLC controllers, various types of sensors (temperature sensors, pressure sensors, etc.), actuators (motors, cylinders, etc.) and other equipment, to ensure the continuous and stable operation of the production process, to ensure product quality and production efficiency.

Energy Management System

In the system related to energy monitoring and management, it provides power support for data collection equipment, communication modules, control hosts, etc., helping to achieve accurate monitoring and reasonable regulation of energy consumption, power parameters, etc., and helping enterprises to achieve the goals of energy conservation, emission reduction and optimisation of energy use.

Intelligent Building System

In the automation system of intelligent buildings, such as building automation control system, intelligent lighting system, lift control system, etc., power supply is provided for the internal electronic equipment and control module to ensure the intelligent operation of the facilities in the building, and to enhance the comfort and convenience of living and using.