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MXSMLJ33CAE3
Product Overview
- Category: Electronic Component
- Use: Transient Voltage Suppressor (TVS) Diode
- Characteristics: High surge capability, low clamping voltage, fast response time
- Package: SOD-123FL
- Essence: Provides protection against transient voltage spikes
- Packaging/Quantity: Tape & Reel, 3000 units per reel
Specifications
- Peak Pulse Power: 3000W
- Breakdown Voltage: 33V
- Operating Voltage: 28.2V
- Clamping Voltage: 45.7V
- Peak Pulse Current: 96.8A
- Reverse Standoff Voltage: 28.2V
- Operating Temperature Range: -55°C to +150°C
Detailed Pin Configuration
The MXSMLJ33CAE3 TVS diode has a standard SOD-123FL package with two pins. Pin 1 is the anode and pin 2 is the cathode.
Functional Features
- Provides protection against transient voltage spikes
- Fast response time ensures minimal damage to protected components
- Low clamping voltage limits voltage excursion during an overvoltage event
Advantages and Disadvantages
Advantages
- High surge capability
- Fast response time
- Compact SOD-123FL package
- Wide operating temperature range
Disadvantages
- Relatively low breakdown voltage compared to some alternative models
- Limited peak pulse current compared to higher power TVS diodes
Working Principles
The MXSMLJ33CAE3 TVS diode works by diverting excess voltage away from sensitive components when a transient voltage spike occurs. It rapidly clamps the voltage to a safe level, protecting downstream electronics from damage.
Detailed Application Field Plans
The MXSMLJ33CAE3 is commonly used in various electronic circuits and systems where protection against transient voltage spikes is required. Some typical applications include: - Power supplies - Communication equipment - Automotive electronics - Industrial control systems
Detailed and Complete Alternative Models
Some alternative TVS diode models that can be considered as alternatives to the MXSMLJ33CAE3 include: - SMAJ33A: Higher breakdown voltage, similar package - P6KE33CA: Axial leaded package, higher peak pulse power - SMCJ33A: Surface mount package, higher peak pulse current
In conclusion, the MXSMLJ33CAE3 TVS diode is a reliable and efficient component for protecting electronic circuits from transient voltage spikes. Its high surge capability, fast response time, and compact package make it suitable for a wide range of applications.
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Seznam 10 běžných otázek a odpovědí souvisejících s aplikací MXSMLJ33CAE3 v technických řešeních
What is MXSMLJ33CAE3?
- MXSMLJ33CAE3 is a transient voltage suppressor diode designed to protect sensitive electronic components from voltage spikes and transients.
What is the maximum working voltage of MXSMLJ33CAE3?
- The maximum working voltage of MXSMLJ33CAE3 is 33V.
What is the peak pulse current rating of MXSMLJ33CAE3?
- The peak pulse current rating of MXSMLJ33CAE3 is typically 300A.
How does MXSMLJ33CAE3 protect electronic circuits?
- MXSMLJ33CAE3 clamps the voltage during transient events, diverting excess current away from sensitive components and preventing damage.
In what applications can MXSMLJ33CAE3 be used?
- MXSMLJ33CAE3 is commonly used in power supplies, communication equipment, automotive electronics, and industrial control systems.
What is the response time of MXSMLJ33CAE3?
- The response time of MXSMLJ33CAE3 is very fast, typically responding within nanoseconds to transient voltage events.
Is MXSMLJ33CAE3 RoHS compliant?
- Yes, MXSMLJ33CAE3 is RoHS compliant, making it suitable for use in environmentally conscious designs.
What is the operating temperature range of MXSMLJ33CAE3?
- MXSMLJ33CAE3 has an operating temperature range of -55°C to 150°C, allowing it to function in a wide range of environments.
Can MXSMLJ33CAE3 be used for surge protection in consumer electronics?
- Yes, MXSMLJ33CAE3 can be used for surge protection in consumer electronics such as TVs, computers, and home entertainment systems.
Are there any recommended layout considerations when using MXSMLJ33CAE3 in a circuit?
- It is recommended to keep the traces short between the protected component and MXSMLJ33CAE3, and to provide a low impedance path to ground for optimal performance.