Electronic fuse suppliers DNT-R1R Series 1300V 160A~1250A High-performance fuses for semiconductors - GRL GRUOP

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Electronic fuse suppliers DNT-R1R Series 1300V 160A~1250A High-performance fuses for semiconductors


Mode:DNT □ -R1R

Voltage: 1300VAC

Current:160A~1250A

Reference: GB/T 13539.4/IEC 60269-4

Email: [email protected]

Keyword:Electronic fuse suppliers

Electronic fuse suppliers DNT-R1R Series 1300V 160A~1250A

Product description

The DNT □ – R1R series semiconductor equipment protection fuse is suitable for AC systems, with a rated voltage of 1300V and a rated current of 160A~1250A. It is used for short-circuit protection of semiconductor components and their complete equipment.

All performance indicators of the product comply with GB/T 13539.4/IEC 60269-4.

Basic parameters of fuse links

Product model size Rated voltage          V Rated current         A Rated breaking  capacity    kA
DNT1-R1R-160 1 AC 1300 160 100
DNT1-R1R-200 200
DNT1-R1R-250 250
DNT1-R1R-315 315
DNT1-R1R-350 350
DNT1-R1R-400 400
DNT1-R1R-450 450
DNT1-R1R-500 500
DNT1-R1R-550 550
DNT2-R1R-350 2 350
DNT2-R1R-400 400
DNT2-R1R-450 450
DNT2-R1R-500 500
DNT2-R1R-550 550
DNT2-R1R-630 630
DNT2-R1R-710 710
DNT2-R1R-800 800
DNT3-R1R-630 3 630
DNT3-R1R-710 710
DNT3-R1R-800 800
DNT3-R1R-900 900
DNT3-R1R-1000 1000
DNT3-R1R-1100 1100
DNT3-R1R-1250 1250

Appearance and installation dimensions

Electronic fuse suppliers

What case studies or industry examples can be showcased to demonstrate the reliability of semiconductor fuses?

 

 

Specific case studies or industry examples that demonstrate the reliability of semiconductor fuses are typically proprietary or not widely publicized in detail for general consumption. However, several industry scenarios can be outlined to illustrate how semiconductor fuses contribute to system reliability and safety. These scenarios are based on common applications and practices in industries where the reliability of semiconductor fuses is critical:

 

  1. Data Center Power Management

Scenario: A major data center operator implements semiconductor fuses in its power distribution units (PDUs) and UPS systems.

 

Outcome: The fuses provide rapid response to overcurrent conditions, preventing potential damage to servers and other critical equipment. In one instance, a power surge caused by an external grid fault triggered the fuses, isolating the problem and allowing the majority of the data center to continue operating uninterrupted. This quick action prevented extensive equipment damage and data loss.

 

  1. Electric Vehicle (EV) Battery Management System

Scenario: An electric vehicle manufacturer incorporates semiconductor fuses into the battery management system of its EVs.

 

Outcome: The fuses protect against overcurrents and short circuits within the high-capacity lithium-ion battery pack. On one occasion, a fuse successfully interrupted a potentially dangerous fault within a battery cell, preventing a thermal runaway condition and potential battery fire, thereby ensuring passenger safety.

 

  1. Renewable Energy Systems

Scenario: A solar power installation uses semiconductor fuses in its inverter systems.

 

Outcome: The fuses protect against faults caused by external factors like lightning strikes or internal component failures. Following a lightning strike that induced a power surge, the semiconductor fuses in the inverters operated correctly, preventing damage to the expensive inverter systems and maintaining the operational integrity of the solar panels.

 

  1. Medical Equipment in Hospitals

Scenario: Semiconductor fuses are integrated into critical medical equipment, such as MRI machines or heart monitors.

 

Outcome: In a hospital, a fuse in an MRI machine successfully interrupts a circuit when a power supply fault occurs, protecting the sensitive electronics. This rapid response prevents more extensive damage to the machine, allowing for a quicker repair turnaround and ensuring it is available for patient diagnostics with minimal downtime.

 

  1. Industrial Automation Systems

Scenario: A manufacturing facility uses semiconductor fuses in its robotic assembly lines.

 

Outcome: The fuses protect against overcurrents due to short circuits or overloads, preventing damage to expensive robotic equipment and control systems. This protection minimizes downtime and maintains production efficiency, demonstrating the fuse’s role in safeguarding industrial equipment.

 

Key Takeaways from These Scenarios:

Prevention of Equipment Damage: Semiconductor fuses quickly interrupt power during overcurrent conditions, preventing damage to sensitive and expensive equipment.

Safety Enhancement: In applications like EVs and medical equipment, the fuses significantly enhance safety by preventing electrical hazards.

Operational Continuity: By isolating faults, semiconductor fuses enable the rest of the system to continue operating, which is crucial in environments like data centers and hospitals.

Cost Savings: The prevention of major failures and the associated downtime leads to significant cost savings and operational efficiencies.

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