شنايدر GM1AD4N10H4BEE | مفتاح نقل يدوي، GoPact MTS 1000، 4 أقطاب، 1000 أمبير، 415 فولت تيار متردد 50/60 هرتز، مقبض دوار ممتد، انتقال مفتوح

Schneider GM1AD4N10H4BEE: The Reliable 1000A MCCB for Advanced Electrical Protection

Introduction

Schneider Electric is known for its reliable and innovative electrical solutions, and the Schneider GM1AD4N10H4BEE stands out as a top-performing 1000A 4-pole Molded Case Circuit Breaker (MCCB). Designed to handle substantial power loads and offer precise protection, this MCCB is an ideal choice for various demanding applications. Whether in industrial plants or large commercial facilities, the GM1AD4N10H4BEE ensures the safety and efficiency of electrical systems.

What is the Schneider GM1AD4N10H4BEE?

it is a 1000A 4-pole MCCB that provides comprehensive circuit protection for high-power systems. Its primary function is to prevent damage caused by overloads, short circuits, and other electrical faults. The 4-pole design is particularly beneficial in systems where the neutral requires protection, ensuring that the MCCB guards against potential electrical hazards across all conductors.

Key Benefits of the GM1AD4N10H4BEE

• High Current Capacity: Rated for 1000A,it can handle demanding power requirements efficiently.
• Comprehensive Protection: Offers protection for all three phases plus neutral, making it suitable for complex electrical systems.
• High Reliability: Built for longevity and durability in both commercial and industrial environments.

Key Features of the Schneider GM1AD4N10H4BEE

it MCCB incorporates several high-performance features to ensure the protection and safety of electrical installations:

• Rated Current: Capable of handling a load of 1000A, suitable for a wide range of medium to large-scale electrical systems.
• Rated Voltage: Operates within a range of 400-690V AC, ensuring it can be applied to diverse setups.
• 4-Pole Configuration: The 4-pole design protects three-phase systems with neutral, offering better coverage and safety.
• Breaking Capacity: High fault current interruption capacity allows safe disconnection in case of overloads or short circuits.
• Thermal-Magnetic Trip Unit: Provides adjustable trip settings to protect the system from both overload and short circuit conditions.

Technical Specifications

Here is a detailed breakdown of the GM1AD4N10H4BEE technical specifications:

• Rated Current (In): 1000A
• Rated Voltage (Un): 400-690V AC
• Breaking Capacity: 50-85 kA, depending on system configuration and environment
• Number of Poles: 4, ensuring protection for three-phase systems with neutral
• Trip Unit: Thermal-magnetic trip unit for customized protection
• Mounting: Compatible with both panel mounting and DIN rail installation

These specifications illustrate the MCCB’s capability to deliver robust protection in demanding electrical environments.

Applications 

The GM1AD4N10H4BEE is well-suited for various industrial and commercial applications, including:

• Manufacturing Facilities: Suitable for environments with heavy machinery and high electrical loads.
• Commercial Buildings: Office complexes, shopping malls, and large-scale commercial facilities benefit from its protection.
• Infrastructure Projects: Ideal for power distribution in airports, railways, and other large infrastructures.
• Power Panels: Used in power distribution panels to ensure reliable circuit protection.

Design and Build Quality

it is designed for longevity and reliability. Built using durable materials, it is capable of withstanding harsh environmental conditions while maintaining optimal performance. It adheres to the highest safety standards, ensuring that it provides dependable protection for critical electrical installations.

Safety Certifications

• Arc Suppression Technology: Designed to reduce the risk of dangerous electrical arcing.
• Overload and Short Circuit Protection: Protects against potential system failures due to electrical faults.

Installation Process

Installing it is straightforward for qualified electricians. The steps include:

1. Power Off: Ensure the main power supply is disconnected.
2. Mounting: Install the MCCB onto a panel or DIN rail based on system design.
3. Wiring: Connect the three-phase and neutral conductors according to the provided wiring diagram.
4. Trip Unit Adjustment: Set the thermal-magnetic trip unit to match the system’s requirements.
5. Testing: Run a thorough test to verify that the MCCB is operating correctly.

Following these steps ensures that the MCCB will function safely and effectively in its designated system.

Performance and Reliability

it is built for consistent performance under heavy loads. Its high breaking capacity allows it to safely handle fault conditions without damaging the system. The thermal-magnetic trip unit adds an extra layer of reliability, ensuring that faults are detected and addressed quickly.

Energy Efficiency and Environmental Impact

Schneider Electric emphasizes sustainability in its product designs, and it is no exception. It features low internal resistance, which reduces energy losses and contributes to overall efficiency. The use of eco-friendly materials also aligns with Schneider’s environmental goals, making it a sustainable option for large electrical systems.