SMAJ13 Diode

Product Overview

The SMAJ13 diode belongs to the category of transient voltage suppressor (TVS) diodes. These diodes are used to protect sensitive electronic components from voltage spikes and transients. The SMAJ13 diode is characterized by its high surge capability, low clamping voltage, and fast response time. It is typically packaged in a DO-214AC (SMA) package and is available in various quantities per package.

Specifications

Part Number: SMAJ13
Category: TVS Diode
Voltage Rating: 13V
Package Type: DO-214AC (SMA)
Quantity per Package: Varies

Detailed Pin Configuration

The SMAJ13 diode has two pins, anode, and cathode. The anode is connected to the positive side of the circuit, while the cathode is connected to the negative side.

Functional Features

Transient Voltage Suppression: Protects against voltage spikes and transients.
Fast Response Time: Quickly clamps excessive voltage to protect downstream components.
High Surge Capability: Can handle large transient currents without damage.

Advantages and Disadvantages

Advantages

Effective protection against voltage surges
Fast response time
Compact size

Disadvantages

Limited to specific voltage ratings
May require additional components for comprehensive surge protection

Working Principles

When a voltage spike occurs in the circuit, the SMAJ13 diode conducts and clamps the voltage to a safe level, protecting the connected components. This is achieved through the rapid transition of the diode into its conducting state when the voltage exceeds its threshold.

Detailed Application Field Plans

The SMAJ13 diode finds extensive use in various applications such as: - Power supply units - Communication equipment - Automotive electronics - Industrial control systems

Detailed and Complete Alternative Models

Some alternative models to SMAJ13 include: - SMBJ13: Similar characteristics but in an SMB package - P6SMB13: Higher power handling capability in a larger package - SMCJ13: Greater surge capability in an SMC package

In conclusion, the SMAJ13 diode is a crucial component in protecting electronic circuits from voltage transients and spikes. Its fast response time, high surge capability, and compact size make it an ideal choice for a wide range of applications.

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Noem 10 veelgestelde vragen en antwoorden met betrekking tot de toepassing van SMAJ13 in technische oplossingen

What is SMAJ13?
- SMAJ13 is a type of surface mount transient voltage suppressor diode that is commonly used to protect electronic circuits from overvoltage transients.
What is the maximum peak pulse power dissipation of SMAJ13?
- The maximum peak pulse power dissipation of SMAJ13 is 400 watts.
What is the breakdown voltage of SMAJ13?
- The breakdown voltage of SMAJ13 is 13 volts.
What are the typical applications of SMAJ13?
- SMAJ13 is commonly used in various technical solutions such as protection of sensitive electronic components, surge suppression in power supplies, and safeguarding communication equipment from voltage spikes.
What is the response time of SMAJ13?
- The response time of SMAJ13 is very fast, typically in the nanosecond range, which allows it to quickly clamp transient voltages to safe levels.
How does SMAJ13 provide protection in technical solutions?
- SMAJ13 diverts excessive current away from sensitive components by providing a low-impedance path to ground during voltage surges, thus protecting the circuitry.
Can SMAJ13 be used for both AC and DC applications?
- Yes, SMAJ13 can be used for both AC and DC applications, making it versatile for a wide range of technical solutions.
What is the operating temperature range of SMAJ13?
- The operating temperature range of SMAJ13 is typically between -55°C to +150°C, allowing it to function effectively in various environments.
Is SMAJ13 RoHS compliant?
- Yes, SMAJ13 is RoHS compliant, ensuring that it meets environmental standards for hazardous substances.
Are there any recommended layout considerations when using SMAJ13 in technical solutions?
- It is recommended to minimize the length of the traces connecting SMAJ13 to the circuit to reduce inductance and ensure efficient transient voltage suppression. Additionally, proper grounding and placement near the protected components are important considerations for optimal performance.