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SMDJ64A-T7
Introduction
The SMDJ64A-T7 is a diode belonging to the category of transient voltage suppressors (TVS). This entry provides an overview of the basic information, specifications, pin configuration, functional features, advantages and disadvantages, working principles, application field plans, and alternative models of the SMDJ64A-T7.
Basic Information Overview
- Category: Transient Voltage Suppressor Diode
- Use: Protection against voltage transients in electronic circuits
- Characteristics: Fast response time, low clamping voltage, high surge current capability
- Package: DO-214AB (SMC), SMA package
- Essence: Provides protection to sensitive electronic components from voltage spikes
- Packaging/Quantity: Available in tape and reel packaging, quantity varies by manufacturer
Specifications
- Peak Pulse Power: 3000W
- Breakdown Voltage: 64V
- Operating Voltage: 52V
- Clamping Voltage: 82.4V
- Peak Pulse Current: 58.3A
- Operating Temperature Range: -55°C to +150°C
Detailed Pin Configuration
The SMDJ64A-T7 diode has a standard SMA package with two pins. The pin configuration is as follows: - Pin 1: Anode - Pin 2: Cathode
Functional Features
- Fast response to transient over-voltage conditions
- Low clamping voltage to protect downstream components
- High surge current capability for robust protection
Advantages and Disadvantages
Advantages
- Effective protection against voltage transients
- Fast response time
- Compact package size
Disadvantages
- Limited to specific voltage ratings
- May require additional circuitry for comprehensive protection
Working Principles
The SMDJ64A-T7 operates by diverting excess transient voltage away from sensitive components, thereby limiting the voltage across the protected circuit. When a transient voltage spike occurs, the diode rapidly conducts, shunting the excess energy to ground and preventing damage to the connected devices.
Detailed Application Field Plans
The SMDJ64A-T7 is commonly used in various applications including: - Power supplies - Telecommunication equipment - Automotive electronics - Industrial control systems - Consumer electronics
Detailed and Complete Alternative Models
Some alternative models to the SMDJ64A-T7 include: - P6SMBJ64CA - 1.5KE68CA - SMBJ64A
In conclusion, the SMDJ64A-T7 is a vital component in protecting electronic circuits from transient voltage events. Its fast response time, low clamping voltage, and high surge current capability make it an essential part of many electronic systems.
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Seznam 10 běžných otázek a odpovědí souvisejících s aplikací SMDJ64A-T7 v technických řešeních
What is the maximum reverse voltage of SMDJ64A-T7?
- The maximum reverse voltage of SMDJ64A-T7 is 64V.
What is the peak pulse power dissipation of SMDJ64A-T7?
- The peak pulse power dissipation of SMDJ64A-T7 is 3000W.
What is the typical clamping voltage of SMDJ64A-T7?
- The typical clamping voltage of SMDJ64A-T7 is 103V at 10A.
What are the applications of SMDJ64A-T7 in technical solutions?
- SMDJ64A-T7 is commonly used for surge protection in various electronic equipment, such as power supplies, telecommunications equipment, and industrial controls.
What is the operating temperature range of SMDJ64A-T7?
- The operating temperature range of SMDJ64A-T7 is -55°C to 150°C.
Is SMDJ64A-T7 RoHS compliant?
- Yes, SMDJ64A-T7 is RoHS compliant, making it suitable for use in environmentally sensitive applications.
What is the package type of SMDJ64A-T7?
- SMDJ64A-T7 is available in a DO-214AB (SMC) package.
Does SMDJ64A-T7 have a low leakage current?
- Yes, SMDJ64A-T7 features a low leakage current, which is beneficial for maintaining efficiency in circuit designs.
Can SMDJ64A-T7 be used for transient voltage suppression in automotive electronics?
- Yes, SMDJ64A-T7 is suitable for transient voltage suppression in automotive electronics due to its high power dissipation and robust design.
Are there any recommended layout considerations when using SMDJ64A-T7 in a PCB design?
- It is recommended to minimize the length and area of the traces connecting SMDJ64A-T7 to the circuit to reduce parasitic inductance and optimize performance. Additionally, proper thermal management should be considered due to the high power dissipation capability of the device.