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Schneider LRD4365 | TeSys LRD thermal overload relays – 80…104 A – class 10A

Schneider Electric
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Schneider LRD4365 | TeSys LRD thermal overload relays – 80…104 A – class 10A

7,997 EGP 14,809 EGP

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Introduction to Schneider LRD4365 TeSys

is a cutting-edge electronic device designed for industrial applications, renowned for its reliability and efficiency. This article delves into the intricacies of Schneider LRD4365, its technical specifications, installation guide, maintenance tips, comparisons with alternatives, real-world applications, and future trends.

Understanding the Schneider LRD4365 

Voltage and Current Ratings

is engineered to operate within a wide range of voltage and current ratings, ensuring compatibility with various industrial setups. Its precise voltage and current thresholds make it suitable for diverse electrical systems, providing consistent performance and protection against overload conditions.

Trip Class

One of the distinguishing features of the Schneider LRD4365 is its trip class, which determines the speed and sensitivity of its response to overloads. With adjustable trip settings, users can customize the device according to their specific requirements, optimizing operational efficiency and safety.

Environmental Specifications

Built to withstand harsh industrial environments, it boasts robust construction and superior resistance to temperature fluctuations, moisture, and contaminants. Its adherence to stringent environmental standards ensures reliable performance in challenging conditions, enhancing longevity and durability.

Installation and Setup Guide

Pre-installation Considerations

Before installing the Schneider LRD4365, it is essential to conduct a thorough assessment of the electrical system and ensure compliance with safety regulations. This includes verifying the compatibility of the device with existing components, assessing mounting options, and selecting appropriate protective measures.

Step-by-step Installation Process

The installation process of the Schneider LRD4365 is straightforward, involving mounting the device securely, connecting it to the power supply, and configuring the trip settings as per the application requirements. Detailed instructions provided in the user manual facilitate hassle-free installation, minimizing downtime and maximizing productivity.

Testing and Troubleshooting Tips

Upon completion of the installation, thorough testing of the Schneider LRD4365 is imperative to validate its functionality and effectiveness in detecting and mitigating overload conditions. Additionally, familiarizing oneself with common troubleshooting techniques enables prompt resolution of any issues that may arise during operation, ensuring uninterrupted performance.

Maintenance and Safety Tips

Regular Maintenance Practices

To ensure optimal performance and longevity of the Schneider LRD4365, routine maintenance is recommended, including periodic inspection, cleaning, and calibration. This proactive approach helps prevent potential malfunctions and extends the lifespan of the device, minimizing downtime and maintenance costs.

Safety Precautions During Usage

Adherence to safety protocols is paramount when operating the Schneider LRD4365 to mitigate the risk of electrical hazards and ensure personnel safety. This includes following proper installation procedures, observing warning labels and instructions, and implementing appropriate protective measures, such as wearing personal protective equipment (PPE) and isolating power sources during maintenance.

Common Issues and Their Solutions

Despite its robust design, the Schneider LRD4365 may encounter occasional issues, such as false tripping or erratic behavior. In such instances, troubleshooting techniques such as inspecting connections, recalibrating settings, or replacing faulty components can help restore optimal functionality, minimizing downtime and disruption to operations.

Comparing Schneider LRD4365 with Alternatives

Key Differences

When comparing the Schneider LRD4365 with alternative overload protection devices, several key differences emerge, including its trip class, voltage and current ratings, and environmental specifications. These distinctions influence its suitability for specific applications and contribute to its competitive advantage in the market.

Pros and Cons

While the Schneider LRD4365 offers numerous benefits, including reliability, versatility, and advanced features, it is essential to weigh these against potential drawbacks such as cost and compatibility issues. This comparative analysis enables informed decision-making and ensures the selection of the most suitable overload protection solution for individual requirements.

Which Option Suits Your Needs Better?

Ultimately, the choice between the Schneider LRD4365 and alternative overload protection devices depends on various factors, including the specific application, budget constraints, and performance requirements. By carefully evaluating these factors and conducting a thorough comparison, users can make an informed decision that aligns with their priorities and objectives.

Real-world Applications and Case Studies

Industrial Applications

The Schneider LRD4365 finds widespread use across various industrial sectors, including manufacturing, automation, and renewable energy, where reliable overload protection is critical for safeguarding equipment and ensuring uninterrupted operation. Its versatility and adaptability make it a preferred choice for diverse applications, ranging from motor control to HVAC systems.

Success Stories

Numerous success stories attest to the efficacy and reliability of the Schneider LRD4365 in real-world scenarios, where it has helped businesses enhance operational efficiency, minimize downtime, and reduce maintenance costs. These success stories serve as testimonials to its performance and contribute to its reputation as a trusted solution provider in the industry.

Customer Testimonials

Feedback from satisfied customers further underscores the value proposition of the Schneider LRD4365, highlighting its ease of installation, durability, and effectiveness in protecting valuable assets from overload conditions. These testimonials serve as endorsements of its quality and reliability, instilling confidence in prospective users seeking reliable overload protection solutions.

Main
Range TeSys
Product name TeSys LRD
TeSys Deca
Product or component type Differential thermal overload relay
Device short name LRD
Relay application Motor protection
Product compatibility LC1D115
LC1D150
Network type AC
DC
Thermal overload class Class 10A conforming to IEC 60947-4-1
Thermal protection adjustment range 80…104 A
[Ui] rated insulation voltage Power circuit: 1000 V conforming to IEC 60947-4-1
Power circuit: 600 V conforming to CSA
Power circuit: 600 V conforming to UL
Complementary
Network frequency 0…400 Hz
Mounting support Plate, with specific accessories
Rail, with specific accessories
Under contactor
Tripping threshold 1.14 +/- 0.06 Ir conforming to IEC 60947-4-1
Auxiliary contact composition 1 NO + 1 NC
[Ith] conventional free air thermal current 5 A for signalling circuit
Permissible current 0.06 A at 440 V DC-13 for signalling circuit
0.12 A at 600 V AC-15 for signalling circuit
[Ue] rated operational voltage 1000 V AC 0…400 Hz for power circuit conforming to IEC 60947-4-1
Associated fuse rating 4 A gG for signalling circuit
4 A BS for signalling circuit
[Uimp] rated impulse withstand voltage 6 kV conforming to IEC 60947-1
Phase failure sensitivity Tripping current 130 % of Ir on two phase, the last one at 0
Control type Red push-button: stop
Blue push-button: reset
Temperature compensation -20…60 °C
Connections – terminals Power circuit: screw clamp terminals 1 cable(s) 4…35 mm² flexible with cable end
Control circuit: screw clamp terminals 2 cable(s) 1…2.5 mm² flexible without cable end
Control circuit: screw clamp terminals 2 cable(s) 1…2.5 mm² flexible with cable end
Control circuit: screw clamp terminals 2 cable(s) 1…2.5 mm² solid without cable end
Power circuit: screw clamp terminals 1 cable(s) 4…50 mm² flexible without cable end
Power circuit: screw clamp terminals 1 cable(s) 4…50 mm² solid without cable end
Tightening torque Control circuit: 1.7 N.m – on screw clamp terminals
Power circuit: 9 N.m – on screw clamp terminals
Depth 132 mm
Net weight 0.9 kg
Environment
Climatic withstand conforming to IACS E10
IP degree of protection IP20 conforming to IEC 60529
Ambient air temperature for operation -20…60 °C without derating conforming to IEC 60947-4-1
Ambient air temperature for storage -60…70 °C
Flame retardance V1 conforming to UL 94
Mechanical robustness Vibrations: 6 Gn conforming to IEC 60068-2-6
Shocks: 15 Gn for 11 ms conforming to IEC 60068-2-7
Dielectric strength 2.2 kV at 50 Hz conforming to IEC 60947-1
Standards EN/IEC 60947-4-1
EN/IEC 60947-5-1
UL 60947-4-1
UL 60947-5-1
CSA C22.2 No 60947-4-1
CSA C22.2 No 60947-5-1
GB/T 14048.4
GB/T 14048.5
EN 50495
Product certifications IEC
UL
CSA
CCC
EAC
ATEX INERIS
Packing Units
Unit Type of Package 1 PCE
Number of Units in Package 1 1
Package 1 Height 15.500 cm
Package 1 Width 13.500 cm
Package 1 Length 11.000 cm
Package 1 Weight 836.000 g
Unit Type of Package 2 S03
Number of Units in Package 2 10
Package 2 Height 30.000 cm
Package 2 Width 30.000 cm
Package 2 Length 40.000 cm
Package 2 Weight 8.850 kg
Unit Type of Package 3 P06
Number of Units in Package 3 80
Package 3 Height 75.000 cm
Package 3 Width 60.000 cm
Package 3 Length 80.000 cm
Package 3 Weight 81.084 kg
Contractual warranty
Warranty 18 months

Main documents

Datasheet Download Datasheet
Product datasheet LRD4365
Instruction sheet
Download
Catalogue
Download
CAD Files
Download
Environmental disclosure Download

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فندق انتركونتيننتال سيتى ستارز قاعة السرايا بتاريخ 22-09-2024