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SMBJ4764E3/TR13
Product Overview
Category
The SMBJ4764E3/TR13 belongs to the category of transient voltage suppressor (TVS) diodes.
Use
It is used to protect sensitive electronic components from voltage transients induced by lightning, electrostatic discharge (ESD), and other transient voltage events.
Characteristics
- Fast response time
- Low clamping voltage
- High surge current capability
- RoHS compliant
Package
The SMBJ4764E3/TR13 is available in a DO-214AA (SMB) package.
Essence
The essence of this product lies in its ability to provide reliable protection for electronic circuits against transient voltage events.
Packaging/Quantity
The SMBJ4764E3/TR13 is typically packaged in reels with a quantity of 3000 units per reel.
Specifications
- Standoff Voltage: 64V
- Breakdown Voltage: 71.2V
- Maximum Clamping Voltage: 103V
- Peak Pulse Current: 30A
- Operating Temperature Range: -55°C to +150°C
Detailed Pin Configuration
The SMBJ4764E3/TR13 has two pins, with the anode connected to pin 1 and the cathode connected to pin 2.
Functional Features
- Provides bi-directional protection
- Responds quickly to transient voltage events
- Maintains low leakage current under normal operating conditions
Advantages
- High surge current capability
- Low clamping voltage
- RoHS compliant
Disadvantages
- May require additional circuitry for overvoltage protection beyond the clamping voltage
Working Principles
The SMBJ4764E3/TR13 operates by diverting excessive transient current away from sensitive components, thereby limiting the voltage across the protected circuit.
Detailed Application Field Plans
This TVS diode is commonly used in applications such as: - Telecommunication equipment - Industrial control systems - Automotive electronics - Power supplies - Consumer electronics
Detailed and Complete Alternative Models
Some alternative models to the SMBJ4764E3/TR13 include: - SMAJ series TVS diodes - SMCJ series TVS diodes - P6KE series TVS diodes
In conclusion, the SMBJ4764E3/TR13 transient voltage suppressor diode offers robust protection against transient voltage events, making it an essential component in various electronic applications.
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Enumere 10 preguntas y respuestas comunes relacionadas con la aplicación de SMBJ4764E3/TR13 en soluciones técnicas
What is the SMBJ4764E3/TR13?
- The SMBJ4764E3/TR13 is a transient voltage suppressor diode designed to protect sensitive electronic components from voltage spikes and transients.
What is the maximum working voltage of the SMBJ4764E3/TR13?
- The maximum working voltage of the SMBJ4764E3/TR13 is 64V.
What is the peak pulse power dissipation of the SMBJ4764E3/TR13?
- The peak pulse power dissipation of the SMBJ4764E3/TR13 is 600W.
In what type of applications can the SMBJ4764E3/TR13 be used?
- The SMBJ4764E3/TR13 can be used in various applications such as power supplies, automotive electronics, industrial equipment, and telecommunications equipment.
What is the response time of the SMBJ4764E3/TR13?
- The response time of the SMBJ4764E3/TR13 is very fast, typically responding within nanoseconds to clamp transient voltages.
What are the key features of the SMBJ4764E3/TR13?
- The key features of the SMBJ4764E3/TR13 include low clamping voltage, high surge capability, and fast response time.
How does the SMBJ4764E3/TR13 provide protection to electronic circuits?
- The SMBJ4764E3/TR13 diverts excessive current away from sensitive components by providing a low-impedance path to ground during transient events.
What are the temperature considerations for using the SMBJ4764E3/TR13?
- The SMBJ4764E3/TR13 has a wide operating temperature range, typically from -55°C to 150°C, making it suitable for various environments.
Can the SMBJ4764E3/TR13 be used for ESD protection?
- Yes, the SMBJ4764E3/TR13 can also be used for electrostatic discharge (ESD) protection in electronic circuits.
Are there any specific layout or mounting considerations for using the SMBJ4764E3/TR13?
- It is recommended to minimize the length of the leads and keep the traces short between the SMBJ4764E3/TR13 and the protected circuit to reduce inductance and maximize its effectiveness.