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1N4730A_S00Z
Product Overview
Category
The 1N4730A_S00Z belongs to the category of semiconductor devices.
Use
It is commonly used as a voltage regulator in electronic circuits.
Characteristics
- The 1N4730A_S00Z is a silicon planar power Zener diode.
- It is designed for use in stabilizing and clipping circuits with high power rating.
Package
The 1N4730A_S00Z is typically available in a DO-41 package.
Essence
This component serves as a crucial element in maintaining stable voltage levels within electronic systems.
Packaging/Quantity
It is usually packaged in reels or tubes, with quantities varying based on manufacturer specifications.
Specifications
- Voltage Range: 3.9V to 4.3V
- Power Dissipation: 1.0W
- Operating Temperature Range: -65°C to +200°C
- Storage Temperature Range: -65°C to +200°C
Detailed Pin Configuration
The 1N4730A_S00Z has two pins, anode, and cathode, which are identified by their physical placement on the device.
Functional Features
- Provides a constant voltage output when operated within its specified range.
- Protects sensitive components from voltage spikes and fluctuations.
Advantages
- High power dissipation capability.
- Precise voltage regulation.
Disadvantages
- Limited voltage range compared to other Zener diodes.
- Sensitive to temperature variations.
Working Principles
The 1N4730A_S00Z operates based on the principle of the Zener effect, where it maintains a nearly constant voltage across its terminals when reverse-biased.
Detailed Application Field Plans
Voltage Regulation
The 1N4730A_S00Z is widely used in voltage regulation circuits for electronic devices such as power supplies and amplifiers.
Overvoltage Protection
It is employed in circuits to protect sensitive components from overvoltage conditions.
Detailed and Complete Alternative Models
- 1N4728A_S00Z
- 1N4729A_S00Z
- 1N4731A_S00Z
- 1N4732A_S00Z
These alternative models offer similar characteristics and can be used interchangeably based on specific design requirements.
In conclusion, the 1N4730A_S00Z is a vital component in electronic circuitry, providing stable voltage regulation and protection against overvoltage conditions. Its specifications, functional features, and application field plans make it a versatile choice for various electronic designs.
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기술 솔루션에 1N4730A_S00Z 적용과 관련된 10가지 일반적인 질문과 답변을 나열하세요.
Sure, here are 10 common questions and answers related to the application of 1N4730A_S00Z in technical solutions:
What is the 1N4730A_S00Z diode used for?
- The 1N4730A_S00Z is a Zener diode commonly used for voltage regulation and protection in electronic circuits.
What is the voltage rating of the 1N4730A_S00Z diode?
- The 1N4730A_S00Z has a nominal voltage of 3.9V.
How does the 1N4730A_S00Z diode regulate voltage?
- The 1N4730A_S00Z operates in the reverse-biased breakdown region, maintaining a nearly constant voltage across its terminals.
Can the 1N4730A_S00Z be used for overvoltage protection?
- Yes, the 1N4730A_S00Z can be used to protect sensitive components from overvoltage by shunting excess voltage to ground.
What are the typical applications of the 1N4730A_S00Z diode?
- Typical applications include voltage regulation in power supplies, voltage reference circuits, and overvoltage protection in various electronic devices.
What is the maximum power dissipation of the 1N4730A_S00Z diode?
- The 1N4730A_S00Z has a maximum power dissipation of 1.0W.
Is the 1N4730A_S00Z suitable for automotive applications?
- Yes, the 1N4730A_S00Z can be used in automotive electronics for voltage regulation and protection.
What is the temperature coefficient of the 1N4730A_S00Z diode?
- The temperature coefficient is typically around -2mV/°C, indicating a relatively stable voltage reference over a range of temperatures.
Can multiple 1N4730A_S00Z diodes be connected in series or parallel?
- Yes, multiple 1N4730A_S00Z diodes can be connected in series to create higher voltage references or in parallel to increase current-handling capability.
Are there any specific considerations for PCB layout when using the 1N4730A_S00Z diode?
- It's important to minimize trace lengths and keep the diode close to the components it is regulating or protecting to reduce parasitic effects and ensure proper performance.
I hope these answers provide the information you were looking for! If you have any more questions, feel free to ask.