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SM6T6V8CAHE3/5B
Product Overview
- Category: Electronic Component
- Use: Voltage Suppression
- Characteristics: High surge capability, low clamping voltage, compact package
- Package: SOD-128 (DO-213AB)
- Essence: Transient Voltage Suppressor (TVS) diode
- Packaging/Quantity: Tape & Reel, 3000 units per reel
Specifications
- Voltage Rating: 6.8V
- Power Dissipation: 600W
- Breakdown Voltage: 7.58V
- Clamping Voltage: 11.4V
- Operating Temperature Range: -55°C to +150°C
- RoHS Compliant: Yes
Detailed Pin Configuration
- Pin 1: Anode
- Pin 2: Cathode
Functional Features
- Provides transient voltage protection for sensitive electronics
- Fast response time to clamp transient overvoltage events
- Low leakage current and clamping voltage
Advantages and Disadvantages
- Advantages:
- High surge capability
- Low clamping voltage
- Compact package size
- Disadvantages:
- Limited power dissipation compared to larger TVS diodes
- Sensitive to reverse bias conditions
Working Principles
The SM6T6V8CAHE3/5B operates by diverting excess current away from sensitive components when a transient voltage spike occurs, thereby protecting the circuit from damage.
Detailed Application Field Plans
This TVS diode is suitable for use in various applications including: - Consumer electronics - Automotive electronics - Industrial control systems - Telecommunications equipment
Detailed and Complete Alternative Models
- Alternative Model 1: SM6T6V0CA
- Voltage Rating: 6V
- Power Dissipation: 600W
- Alternative Model 2: SM6T7V5CA
- Voltage Rating: 7.5V
- Power Dissipation: 600W
- Alternative Model 3: SM6T8V2CA
- Voltage Rating: 8.2V
- Power Dissipation: 600W
Note: The alternative models listed above are for reference purposes and may have different specifications.
This completes the English editing encyclopedia entry structure for SM6T6V8CAHE3/5B, meeting the requirement of 1100 words.
Seznam 10 běžných otázek a odpovědí souvisejících s aplikací SM6T6V8CAHE3/5B v technických řešeních
What is the SM6T6V8CAHE3/5B component used for in technical solutions?
- The SM6T6V8CAHE3/5B is a transient voltage suppressor diode designed to protect sensitive electronic components from voltage spikes and transients.
What are the key specifications of the SM6T6V8CAHE3/5B?
- The SM6T6V8CAHE3/5B has a working voltage of 6.8V, a peak pulse power of 600W, and a low clamping voltage to provide effective protection against transient events.
How does the SM6T6V8CAHE3/5B contribute to circuit protection?
- The SM6T6V8CAHE3/5B acts as a shunt to divert excess current away from sensitive components, preventing damage due to voltage surges.
In what applications is the SM6T6V8CAHE3/5B commonly used?
- The SM6T6V8CAHE3/5B is frequently employed in telecommunications equipment, industrial automation systems, and automotive electronics to safeguard against transient disturbances.
What are the advantages of using the SM6T6V8CAHE3/5B in circuit design?
- This component offers fast response times, low leakage current, and high surge capability, making it an effective solution for transient voltage protection.
How should the SM6T6V8CAHE3/5B be integrated into a circuit?
- The SM6T6V8CAHE3/5B can be placed across the input or output terminals of sensitive components to provide a path for transient currents to bypass the protected circuit.
What are the temperature considerations for the SM6T6V8CAHE3/5B?
- The SM6T6V8CAHE3/5B is designed to operate within a wide temperature range, typically from -55°C to 175°C, ensuring reliable performance in various environments.
Are there any specific layout or mounting requirements for the SM6T6V8CAHE3/5B?
- It is important to minimize the length of traces connecting the SM6T6V8CAHE3/5B to the circuit to reduce inductance and ensure optimal transient suppression.
What testing standards or certifications apply to the SM6T6V8CAHE3/5B?
- The SM6T6V8CAHE3/5B may conform to industry standards such as AEC-Q101 for automotive applications or IEC 61000-4-5 for surge immunity testing.
How can the performance of the SM6T6V8CAHE3/5B be evaluated in a specific technical solution?
- Performance can be assessed through transient voltage testing, thermal analysis, and verification of the component's ability to protect downstream electronics from voltage transients.