The 1V5KE13CA is a transient voltage suppressor (TVS) diode designed to protect electronic circuits from voltage transients. This entry provides a comprehensive overview of the 1V5KE13CA, including its product details, specifications, functional features, advantages, disadvantages, working principles, application field plans, and alternative models.
The 1V5KE13CA TVS diode has an axial leaded package with two leads. The pin configuration is as follows: - Pin 1: Anode - Pin 2: Cathode
The 1V5KE13CA operates based on the principle of avalanche breakdown. When a transient voltage spike occurs, the diode rapidly conducts, diverting excess current away from the protected circuit. This action effectively limits the voltage across the circuit to a safe level, preventing damage to sensitive components.
The 1V5KE13CA is widely used in various applications requiring protection against voltage transients, including: - Power supplies - Telecommunication equipment - Automotive electronics - Industrial control systems - Consumer electronics
Several alternative models to the 1V5KE13CA include: - P6KE12CA - 1.5KE15CA - SA15CA - SMAJ13CA
These alternative models offer similar transient voltage suppression capabilities and can be selected based on specific application requirements.
In conclusion, the 1V5KE13CA transient voltage suppressor diode offers effective protection against voltage transients in electronic circuits, making it a crucial component in various industries. Its fast response time, high surge capability, and robust design make it a popular choice for engineers seeking reliable transient voltage protection.
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What is 1V5KE13CA?
What is the maximum voltage rating of 1V5KE13CA?
What is the peak pulse power handling capability of 1V5KE13CA?
How does 1V5KE13CA provide surge protection?
In what applications can 1V5KE13CA be used?
What are the key features of 1V5KE13CA?
What is the operating temperature range of 1V5KE13CA?
How is 1V5KE13CA packaged?
What are the industry standards or certifications applicable to 1V5KE13CA?
How can 1V5KE13CA be integrated into a circuit design?