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SMCJ16CA-13

SMCJ16CA-13

Product Overview

Category

The SMCJ16CA-13 belongs to the category of transient voltage suppressor diodes.

Use

It is used to protect sensitive electronic devices from voltage transients induced by lightning, inductive load switching, and electrostatic discharge.

Characteristics

  • Fast response time
  • Low clamping voltage
  • High surge current capability
  • RoHS compliant

Package

The SMCJ16CA-13 is available in a DO-214AB (SMC) package.

Essence

The essence of the SMCJ16CA-13 lies in its ability to provide robust overvoltage protection for electronic circuits.

Packaging/Quantity

The SMCJ16CA-13 is typically packaged in reels or trays and is available in quantities suitable for both prototyping and production.

Specifications

  • Peak Pulse Power: 1500W
  • Breakdown Voltage: 16V
  • Maximum Clamping Voltage: 25.2V
  • Operating Temperature Range: -55°C to +150°C

Detailed Pin Configuration

The SMCJ16CA-13 has two pins, with the anode connected to the positive side and the cathode connected to the negative side.

Functional Features

  • Provides bi-directional protection
  • Responds quickly to transient voltage spikes
  • Maintains low leakage current under normal operating conditions

Advantages

  • High surge current capability
  • Low clamping voltage ensures minimal stress on protected circuits
  • RoHS compliance for environmental friendliness

Disadvantages

  • Limited breakdown voltage range
  • May require additional circuitry for comprehensive overvoltage protection

Working Principles

When a transient voltage spike occurs, the SMCJ16CA-13 conducts current to divert the excess energy away from the protected circuit, thereby limiting the voltage across it.

Detailed Application Field Plans

The SMCJ16CA-13 is commonly used in: - Telecommunication equipment - Industrial control systems - Automotive electronics - Power supplies - Consumer electronics

Detailed and Complete Alternative Models

Some alternative models to the SMCJ16CA-13 include: - P6SMB16CA - 1.5SMC16CA - SMBJ16CA

In conclusion, the SMCJ16CA-13 transient voltage suppressor diode offers reliable overvoltage protection for a wide range of electronic applications, making it an essential component in safeguarding sensitive circuits from damaging voltage transients.

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قم بإدراج 10 أسئلة وإجابات شائعة تتعلق بتطبيق SMCJ16CA-13 في الحلول التقنية

  1. What is the SMCJ16CA-13?

    • The SMCJ16CA-13 is a type of transient voltage suppressor diode designed to protect electronic circuits from overvoltage events.
  2. What is the maximum peak pulse current for SMCJ16CA-13?

    • The maximum peak pulse current for SMCJ16CA-13 is typically 300A.
  3. What is the breakdown voltage of SMCJ16CA-13?

    • The breakdown voltage of SMCJ16CA-13 is 16V.
  4. How does SMCJ16CA-13 protect electronic circuits?

    • SMCJ16CA-13 diverts excessive current away from sensitive components when voltage spikes occur, safeguarding the circuit from damage.
  5. In what applications is SMCJ16CA-13 commonly used?

    • SMCJ16CA-13 is often used in power supplies, telecommunications equipment, and automotive electronics to protect against transient voltage events.
  6. What is the response time of SMCJ16CA-13?

    • The response time of SMCJ16CA-13 is very fast, typically responding within nanoseconds to voltage transients.
  7. Can SMCJ16CA-13 be used for surge protection in outdoor environments?

    • Yes, SMCJ16CA-13 can be used for surge protection in outdoor environments, provided it is housed in an appropriate protective enclosure.
  8. What is the operating temperature range of SMCJ16CA-13?

    • The operating temperature range of SMCJ16CA-13 is typically -55°C to 150°C.
  9. Is SMCJ16CA-13 RoHS compliant?

    • Yes, SMCJ16CA-13 is generally RoHS compliant, meaning it meets the Restriction of Hazardous Substances directive.
  10. Are there any specific layout considerations when using SMCJ16CA-13 in a circuit?

    • It is important to minimize the length and impedance of the traces connecting SMCJ16CA-13 to the circuit to ensure optimal performance during transient events.