Schneider TR25D3R2504TPE | TransferPacT Remote, 250A, 400V, 3P, Remote, frame 250A

Schneider TR25D3R2504TPE: A Powerful 2500A 3-Pole MCCB for Heavy-Duty Applications

Introduction

Schneider Electric continues to lead the field in electrical protection with their range of Molded Case Circuit Breakers (MCCBs), and the Schneider TR25D3R2504TPE is no exception. This 2500A 3-pole MCCB is designed to deliver superior protection and reliability in large-scale power distribution systems. With its robust design and advanced features, the TR25D3R2504TPE is ideal for applications that require high-current handling, ensuring electrical safety and system stability.

What is the Schneider TR25D3R2504TPE?

it is a 2500A 3-pole MCCB engineered for three-phase systems. Its primary function is to provide overload and short-circuit protection in power distribution networks. The MCCB is crucial in preventing damage to electrical components, improving system reliability, and minimizing downtime in critical systems.

Key Benefits of the TR25D3R2504TPE

• High Current Rating: Handles up to 2500A, suitable for heavy-duty electrical applications.
• Three-Phase System Protection: The 3-pole configuration ensures comprehensive protection for each phase.
• Thermal-Magnetic Trip Unit: Automatically responds to overloads and short circuits, ensuring precise protection.

Key Features of the Schneider TR25D3R2504TPE

it is equipped with several features that make it a reliable and high-performance solution for large-scale power systems:

• High Current Capacity: Rated for 2500A, allowing it to protect large power distribution networks effectively.
• 3-Pole Design: Specifically designed for three-phase electrical systems, ensuring balanced protection across all phases.
• Thermal-Magnetic Trip Unit: This feature provides two forms of protection: thermal for overloads and magnetic for short-circuits.
• High Breaking Capacity: Built to handle substantial fault currents without sustaining damage, ensuring long-term operational reliability.

Technical Specifications

Here are the key technical specifications for the Schneider TR25D3R2504TPE:

• Rated Current (In): 2500A
• Rated Voltage (Un): 400-690V AC
• Breaking Capacity: 50-85 kA depending on system configuration
• Poles: 3 (suitable for three-phase systems)
• Trip Unit: Thermal-magnetic for both overload and short-circuit protection
• Mounting Type: Can be installed using DIN rail or panel mounting

These specifications reflect the MCCB’s capability to provide solid protection in heavy-duty industrial and commercial environments.

Applications of the Schneider TR25D3R2504TPE

it is designed for demanding applications where electrical protection is critical, such as:

• Industrial Plants: Ideal for machinery and equipment protection in manufacturing and processing industries.
• Large Commercial Buildings: Ensures safe power distribution in high-rise office complexes, malls, and other commercial facilities.
• Infrastructure and Energy Projects: Protects energy distribution systems in airports, railways, and power plants.
• Power Distribution Systems: Offers reliable protection for extensive energy distribution panels and systems.

Design and Build Quality

Schneider Electric ensures that it is built to withstand harsh conditions. Its robust construction and high-quality materials make it a durable option for environments where power loads and operational demands are high.

Safety Features

• Advanced Trip Mechanism: The thermal-magnetic trip unit reacts quickly to overloads and short circuits, protecting connected equipment and systems.
• Arc Suppression Technology: Reduces the risk of electrical arcing, enhancing overall system safety.

Installation Process

Installing it is straightforward and can be done by following these steps:

1. Turn Off Power: Ensure the entire system is powered down before installation.
2. Mount the MCCB: Mount the breaker on a DIN rail or panel, depending on the system’s setup.
3. Connect Wiring: Carefully connect the wiring to ensure secure and proper connections across all three phases.
4. Adjust Trip Settings: Customize the thermal-magnetic trip unit based on the system’s load requirements.
5. Test the System: After installation, run tests to confirm that the MCCB operates correctly and provides adequate protection.