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MSMLJ8.5CAE3/TR
Introduction
The MSMLJ8.5CAE3/TR is a component belonging to the category of transient voltage suppressor diodes. This entry provides an overview of its basic information, specifications, pin configuration, functional features, advantages and disadvantages, working principles, application field plans, and alternative models.
Basic Information Overview
- Category: Transient Voltage Suppressor Diode
- Use: Protection against transient voltage spikes
- Characteristics: Fast response time, low clamping voltage, high surge current capability
- Package: DO-214AB (SMC), SOD-123FL
- Essence: Silicon junction diode
- Packaging/Quantity: Tape & Reel, 3000 units per reel
Specifications
- Peak Pulse Power: 1500W
- Breakdown Voltage Range: 7.58V to 8.42V
- Operating Temperature Range: -55°C to +150°C
- Storage Temperature Range: -55°C to +150°C
Detailed Pin Configuration
The MSMLJ8.5CAE3/TR has two pins with the following configuration: 1. Anode (A) 2. Cathode (K)
Functional Features
- Fast response time
- Low clamping voltage
- High surge current capability
- RoHS compliant
Advantages and Disadvantages
Advantages
- Effective protection against transient voltage spikes
- Wide operating temperature range
- RoHS compliant
Disadvantages
- Sensitive to reverse voltage polarity
- Limited breakdown voltage range
Working Principles
The MSMLJ8.5CAE3/TR operates by diverting excessive current away from sensitive electronic components when exposed to transient voltage spikes. It achieves this through rapid conduction and clamping of the voltage to a safe level, thereby protecting downstream circuitry.
Detailed Application Field Plans
The MSMLJ8.5CAE3/TR 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 MSMLJ8.5CAE3/TR include: - P6SMBJ8.5CA - SMBJ8.5CA - 1.5KE8.5CA
In conclusion, the MSMLJ8.5CAE3/TR is a vital component in safeguarding electronic circuits against transient voltage spikes, offering fast response times, low clamping voltages, and high surge current capabilities. Its wide application field and availability of alternative models make it a versatile choice for various electronic designs.
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Seznam 10 běžných otázek a odpovědí souvisejících s aplikací MSMLJ8.5CAE3/TR v technických řešeních
What is MSMLJ8.5CAE3/TR?
- MSMLJ8.5CAE3/TR is a type of transient voltage suppressor diode used to protect electronic circuits from voltage spikes and transients.
How does MSMLJ8.5CAE3/TR work?
- When a voltage spike occurs, the MSMLJ8.5CAE3/TR conducts and shunts the excess current to protect the circuitry from damage.
Where is MSMLJ8.5CAE3/TR commonly used?
- MSMLJ8.5CAE3/TR is commonly used in various electronic devices such as power supplies, communication equipment, and automotive electronics.
What are the key specifications of MSMLJ8.5CAE3/TR?
- The key specifications include its breakdown voltage, maximum clamping voltage, peak pulse current, and operating temperature range.
How do I select the right MSMLJ8.5CAE3/TR for my application?
- You should consider factors such as the maximum expected voltage transients, the power handling capability, and the physical size constraints of your application.
Can MSMLJ8.5CAE3/TR be used for surge protection in power lines?
- Yes, MSMLJ8.5CAE3/TR can be used for surge protection in low-voltage power lines to protect sensitive electronics.
What are the advantages of using MSMLJ8.5CAE3/TR in technical solutions?
- The advantages include fast response time, low clamping voltage, high surge current capability, and compact size.
Are there any limitations to using MSMLJ8.5CAE3/TR?
- One limitation is that it may not be suitable for very high-power or high-frequency applications.
How should MSMLJ8.5CAE3/TR be mounted on a PCB?
- It should be mounted close to the protected circuitry with short traces to minimize inductance and maximize its effectiveness.
What are some best practices for integrating MSMLJ8.5CAE3/TR into a design?
- Best practices include proper PCB layout, ensuring adequate thermal management, and considering the overall system protection scheme.