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1.5KE300AE3/TR13 Product Overview
Introduction
The 1.5KE300AE3/TR13 is a transient voltage suppressor (TVS) diode that belongs to the category of electronic components used for surge protection in various electrical and electronic circuits. This entry provides an overview of the basic information, specifications, detailed pin configuration, functional features, advantages and disadvantages, working principles, application field plans, and alternative models of the 1.5KE300AE3/TR13.
Basic Information Overview
- Category: Electronic Components
- Use: Surge Protection
- Characteristics: High energy absorption capability, fast response time, low clamping voltage
- Package: DO-201AE
- Essence: Protects sensitive electronic components from voltage surges
- Packaging/Quantity: Available in tape and reel packaging, quantity varies by manufacturer
Specifications
- Peak Pulse Power: 1500W
- Breakdown Voltage: 300V
- Operating Voltage: 256V
- Maximum Clamping Voltage: 414V
- Peak Pulse Current: 19.2A
- Operating Temperature Range: -55°C to +175°C
Detailed Pin Configuration
The 1.5KE300AE3/TR13 TVS diode has a standard DO-201AE package with two leads. The pin configuration is as follows: - Pin 1: Anode - Pin 2: Cathode
Functional Features
- Fast response time to clamp transient voltages
- High energy absorption capability to protect downstream components
- Low clamping voltage to limit the voltage across protected circuits
Advantages and Disadvantages
Advantages
- Effective surge protection for sensitive electronic components
- Fast response time ensures minimal impact on the protected circuit
- High energy absorption capability for reliable protection
Disadvantages
- Can degrade over time after multiple surge events
- May require replacement after significant surge occurrences
Working Principles
The 1.5KE300AE3/TR13 TVS diode operates by diverting excess transient voltage away from sensitive components. When a surge occurs, the diode rapidly conducts, providing a low-impedance path for the surge current, thus limiting the voltage across the protected circuit.
Detailed Application Field Plans
The 1.5KE300AE3/TR13 is commonly used in various applications including: - Power supplies - Communication equipment - Industrial control systems - Automotive electronics - Consumer electronics
Detailed and Complete Alternative Models
Some alternative models to the 1.5KE300AE3/TR13 TVS diode include: - P6KE300A - SA15CA - SMBJ300A
In summary, the 1.5KE300AE3/TR13 TVS diode is a crucial component for surge protection in a wide range of electronic applications, offering fast response times, high energy absorption capabilities, and low clamping voltages to safeguard sensitive circuits from transient voltage events.
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Enumere 10 preguntas y respuestas comunes relacionadas con la aplicación de 1.5KE300AE3/TR13 en soluciones técnicas
Sure, here are 10 common questions and answers related to the application of 1.5KE300AE3/TR13 in technical solutions:
What is the maximum peak pulse power dissipation of 1.5KE300AE3/TR13?
- The maximum peak pulse power dissipation is 1500W for a 10/1000μs waveform.
What is the breakdown voltage of 1.5KE300AE3/TR13?
- The breakdown voltage is 300V.
What is the typical clamping voltage of 1.5KE300AE3/TR13?
- The typical clamping voltage is 486V at 19.9A.
What is the operating temperature range for 1.5KE300AE3/TR13?
- The operating temperature range is -55°C to +175°C.
What are the typical applications for 1.5KE300AE3/TR13?
- Typical applications include transient voltage suppression in industrial and telecommunication equipment, automotive electronics, and power supplies.
What is the peak pulse current capability of 1.5KE300AE3/TR13?
- The peak pulse current capability is 19.9A.
Does 1.5KE300AE3/TR13 meet RoHS requirements?
- Yes, it is compliant with RoHS requirements.
What is the package type of 1.5KE300AE3/TR13?
- It comes in a DO-201AD (DO-27) package.
Is 1.5KE300AE3/TR13 suitable for surge protection in electronic circuits?
- Yes, it is suitable for surge protection in various electronic circuits.
Can 1.5KE300AE3/TR13 be used in high-reliability applications?
- Yes, it is suitable for use in high-reliability applications due to its robust design and performance characteristics.
I hope these questions and answers are helpful for your technical solutions! If you have any more specific questions, feel free to ask.