Microsemi Corporation
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CDLL3033B
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CDLL3033B

Product Overview

Category

The CDLL3033B belongs to the category of semiconductor devices.

Use

It is commonly used as a rectifier diode in electronic circuits.

Characteristics

  • Forward voltage: 1.1V
  • Reverse current: 10µA
  • Maximum repetitive peak reverse voltage: 200V
  • Package type: DO-213AB
  • Operating temperature range: -65°C to +175°C

Package

The CDLL3033B is typically available in a DO-213AB package.

Essence

The essence of the CDLL3033B lies in its ability to efficiently rectify alternating current into direct current in electronic circuits.

Packaging/Quantity

It is usually packaged in reels with a quantity of 3000 units per reel.

Specifications

  • Maximum repetitive peak reverse voltage: 200V
  • Average forward current: 150mA
  • Peak forward surge current: 2A
  • Operating temperature range: -65°C to +175°C
  • Storage temperature range: -65°C to +175°C

Detailed Pin Configuration

The CDLL3033B has two pins, anode and cathode, which are identified by the marking on the package.

Functional Features

  • High reliability
  • Low forward voltage drop
  • Fast reverse recovery time
  • High surge current capability

Advantages

  • Efficient rectification of AC to DC
  • Reliable performance
  • Low power dissipation

Disadvantages

  • Limited maximum repetitive peak reverse voltage
  • Sensitive to temperature variations

Working Principles

The CDLL3033B operates based on the principle of creating a one-way flow of current when connected in a circuit, allowing it to convert AC to DC.

Detailed Application Field Plans

The CDLL3033B is widely used in power supplies, battery chargers, inverters, and other electronic equipment where rectification of AC to DC is required.

Detailed and Complete Alternative Models

Some alternative models to the CDLL3033B include: - 1N5820 - HER303 - UF4007 - FR307

In conclusion, the CDLL3033B is a reliable rectifier diode with efficient performance and is commonly used in various electronic applications for converting AC to DC.

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Enumere 10 preguntas y respuestas comunes relacionadas con la aplicación de CDLL3033B en soluciones técnicas

  1. What is CDLL3033B?

    • CDLL3033B is a type of diode commonly used in electronic circuits for voltage regulation and rectification.

  2. How does CDLL3033B differ from other diodes?

    • CDLL3033B is a Zener diode, which means it is designed to maintain a constant voltage across its terminals when operated in the reverse breakdown region.

  3. What are the typical applications of CDLL3033B in technical solutions?

    • CDLL3033B is often used for voltage regulation, surge protection, and as a reference voltage source in various electronic devices and circuits.

  4. What is the maximum power dissipation of CDLL3033B?

    • The maximum power dissipation of CDLL3033B is typically around 1.5 watts.

  5. Can CDLL3033B be used for overvoltage protection?

    • Yes, CDLL3033B can be used to protect sensitive components from overvoltage by shunting excess current away from the protected circuit.

  6. What is the voltage rating of CDLL3033B?

    • The voltage rating of CDLL3033B is 33 volts, which means it will maintain a relatively constant voltage drop of 33V when operated in the reverse breakdown region.

  7. Is CDLL3033B suitable for low-power applications?

    • Yes, CDLL3033B is suitable for low-power applications where precise voltage regulation or reference voltage is required.

  8. Can CDLL3033B be used in temperature-sensitive environments?

    • CDLL3033B has a relatively stable voltage characteristic over a range of temperatures, making it suitable for use in temperature-sensitive environments.

  9. What are the key parameters to consider when using CDLL3033B in a technical solution?

    • Key parameters to consider include voltage regulation accuracy, power dissipation, temperature stability, and current-handling capability.

  10. Are there any common failure modes associated with CDLL3033B?

    • Common failure modes for CDLL3033B include thermal runaway due to excessive power dissipation and overstress from voltage spikes or transients.

Please let me know if you need further information on any of these questions!