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SMA5J6.5C-E3/5A
Product Overview
Category
The SMA5J6.5C-E3/5A belongs to the category of TVS (Transient Voltage Suppressor) diodes.
Use
It is used for surge protection in electronic circuits, particularly in applications where protection against transient overvoltage events is required.
Characteristics
- Low clamping voltage
- Fast response time
- High surge current capability
Package
The SMA5J6.5C-E3/5A is typically available in a surface mount package.
Essence
The essence of this product lies in its ability to quickly divert excessive voltage away from sensitive components, thereby protecting them from damage.
Packaging/Quantity
The SMA5J6.5C-E3/5A is commonly packaged in reels with quantities varying based on manufacturer specifications.
Specifications
- Standoff Voltage: 6.5V
- Breakdown Voltage: 7.22V
- Maximum Reverse Leakage Current: 1µA
- Peak Pulse Power Dissipation: 5000W
- Operating Temperature Range: -55°C to 150°C
Detailed Pin Configuration
The SMA5J6.5C-E3/5A typically has two pins for surface mount installation. The pin configuration is as follows: - Pin 1: Anode - Pin 2: Cathode
Functional Features
- Rapid response to transient overvoltage events
- Low clamping voltage to protect downstream components
- High surge current handling capability
Advantages and Disadvantages
Advantages
- Effective protection against transient voltage spikes
- Fast response time
- Compact and easy to integrate into circuit designs
Disadvantages
- Limited to low voltage applications
- May require additional components for comprehensive surge protection in high-power applications
Working Principles
The SMA5J6.5C-E3/5A operates by shunting excess voltage away from the protected circuit when a transient overvoltage event occurs. This helps to limit the voltage across the circuit and prevent damage to sensitive components.
Detailed Application Field Plans
The SMA5J6.5C-E3/5A is commonly used in various electronic systems including: - Consumer electronics - Telecommunication equipment - Industrial control systems - Automotive electronics
Detailed and Complete Alternative Models
Some alternative models to the SMA5J6.5C-E3/5A include: - SMAJ6.5A - SMBJ6.5C - SMCJ6.5E
In conclusion, the SMA5J6.5C-E3/5A provides effective surge protection for electronic circuits, making it an essential component in various applications where protection against transient overvoltage events is crucial.
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Seznam 10 běžných otázek a odpovědí souvisejících s aplikací SMA5J6.5C-E3/5A v technických řešeních
What is the maximum voltage rating of SMA5J6.5C-E3/5A?
- The maximum voltage rating of SMA5J6.5C-E3/5A is 6.5V.
What is the peak pulse power dissipation of SMA5J6.5C-E3/5A?
- The peak pulse power dissipation of SMA5J6.5C-E3/5A is 500W.
What is the typical clamping voltage of SMA5J6.5C-E3/5A?
- The typical clamping voltage of SMA5J6.5C-E3/5A is 11.2V at 10A.
What is the forward surge current of SMA5J6.5C-E3/5A?
- The forward surge current of SMA5J6.5C-E3/5A is 100A.
What is the operating temperature range of SMA5J6.5C-E3/5A?
- The operating temperature range of SMA5J6.5C-E3/5A is -55°C to +150°C.
Is SMA5J6.5C-E3/5A suitable for overvoltage protection in electronic circuits?
- Yes, SMA5J6.5C-E3/5A is commonly used for overvoltage protection in electronic circuits due to its fast response time and high surge capability.
Can SMA5J6.5C-E3/5A be used in automotive applications?
- Yes, SMA5J6.5C-E3/5A is suitable for use in automotive applications where transient voltage suppression is required.
What are the typical applications of SMA5J6.5C-E3/5A?
- Typical applications of SMA5J6.5C-E3/5A include protection of sensitive electronic equipment, telecom equipment, industrial control systems, and power supplies.
Does SMA5J6.5C-E3/5A comply with RoHS requirements?
- Yes, SMA5J6.5C-E3/5A is compliant with RoHS (Restriction of Hazardous Substances) requirements.
Are there any recommended layout considerations for using SMA5J6.5C-E3/5A in a circuit?
- Yes, it is recommended to minimize the length of the leads and traces connecting SMA5J6.5C-E3/5A to the circuit to reduce parasitic inductance and optimize its performance.