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VLZ3V0A-GS18
Introduction
The VLZ3V0A-GS18 belongs to the category of voltage regulator diodes. This component is commonly used to regulate voltage in electronic circuits, providing stable and consistent output voltage levels. The VLZ3V0A-GS18 possesses specific characteristics, packaging, and quantities that make it suitable for various applications.
Basic Information Overview
- Category: Voltage Regulator Diode
- Use: Regulating voltage in electronic circuits
- Characteristics: Stable voltage output, low forward voltage drop
- Package: SOD-323
- Essence: Regulating voltage to protect sensitive components
- Packaging/Quantity: Available in reels of 3000 units
Specifications
- Voltage Regulation: 3.0V
- Maximum Forward Voltage Drop: 0.9V
- Maximum Reverse Current: 5μA
- Operating Temperature Range: -55°C to 150°C
Detailed Pin Configuration
The VLZ3V0A-GS18 follows the standard SOD-323 pin configuration with the following layout: 1. Anode 2. Cathode
Functional Features
- Voltage Regulation: Provides a stable 3.0V output
- Low Forward Voltage Drop: Ensures minimal power loss
- Reverse Current Protection: Limits current flow in the reverse direction
Advantages and Disadvantages
Advantages
- Precise voltage regulation
- Low power dissipation
- Small form factor
Disadvantages
- Limited current handling capacity
- Sensitivity to temperature variations
Working Principles
The VLZ3V0A-GS18 operates by utilizing its semiconductor properties to maintain a constant voltage drop across its terminals, ensuring a steady output voltage despite fluctuations in input voltage.
Detailed Application Field Plans
The VLZ3V0A-GS18 is widely used in various electronic devices and systems, including: - Mobile phones - Portable electronics - Power management circuits
Detailed and Complete Alternative Models
- VLZ3V3A-GS08: 3.3V voltage regulator diode
- VLZ2V7A-GS18: 2.7V voltage regulator diode
- VLZ5V6A-GS16: 5.6V voltage regulator diode
In conclusion, the VLZ3V0A-GS18 is a crucial component in electronic circuit design, offering precise voltage regulation and protection for sensitive components.
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10 domande e risposte comuni relative all'applicazione di VLZ3V0A-GS18 nelle soluzioni tecniche
What is the VLZ3V0A-GS18?
- The VLZ3V0A-GS18 is a low voltage, transient voltage suppressor diode designed to protect sensitive electronics from voltage spikes and transients.
What is the maximum voltage rating of the VLZ3V0A-GS18?
- The maximum voltage rating of the VLZ3V0A-GS18 is 3.0V.
What is the typical application of the VLZ3V0A-GS18?
- The VLZ3V0A-GS18 is commonly used in technical solutions to protect integrated circuits, sensors, and other electronic components from voltage surges and ESD events.
How does the VLZ3V0A-GS18 provide protection?
- The VLZ3V0A-GS18 acts as a shunt to divert excess voltage away from sensitive components, preventing damage due to overvoltage conditions.
What are the key features of the VLZ3V0A-GS18?
- The VLZ3V0A-GS18 features low clamping voltage, fast response time, and high surge current capability, making it an effective solution for transient voltage suppression.
Can the VLZ3V0A-GS18 be used in automotive applications?
- Yes, the VLZ3V0A-GS18 is suitable for use in automotive electronics to protect against voltage transients generated by the vehicle's electrical system.
Is the VLZ3V0A-GS18 RoHS compliant?
- Yes, the VLZ3V0A-GS18 is compliant with the Restriction of Hazardous Substances (RoHS) directive, making it environmentally friendly.
What is the operating temperature range of the VLZ3V0A-GS18?
- The VLZ3V0A-GS18 has an operating temperature range of -55°C to 150°C, allowing for reliable performance in a wide range of environments.
Can the VLZ3V0A-GS18 be used in telecommunications equipment?
- Yes, the VLZ3V0A-GS18 is suitable for protecting sensitive circuitry in telecommunications devices and infrastructure from voltage transients.
Are there any recommended layout considerations when using the VLZ3V0A-GS18?
- It is recommended to minimize the trace length between the protected component and the VLZ3V0A-GS18, and to ensure a low impedance path to ground for optimal protection.