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1N5345C/TR8
Product Overview
Category:
The 1N5345C/TR8 belongs to the category of semiconductor devices, specifically in the family of Zener diodes.
Use:
This product is commonly used for voltage regulation and protection in electronic circuits.
Characteristics:
- Zener voltage: 16V
- Power dissipation: 5W
- Package type: Axial leaded
- Operating temperature range: -65°C to +200°C
- Forward voltage: 1.5V
- Reverse current: 5μA
Package:
The 1N5345C/TR8 is typically available in a DO-201AD package.
Essence:
The essence of this product lies in its ability to maintain a constant voltage across its terminals, making it suitable for various electronic applications.
Packaging/Quantity:
It is commonly packaged in reels or tubes, with quantities varying based on manufacturer specifications.
Specifications
- Zener Voltage: 16V
- Power Dissipation: 5W
- Maximum Forward Voltage: 1.5V
- Maximum Reverse Current: 5μA
- Operating Temperature Range: -65°C to +200°C
- Package Type: DO-201AD
Detailed Pin Configuration
The 1N5345C/TR8 typically has two leads, with the cathode being shorter than the anode. The pin configuration is as follows: - Anode (A) - Cathode (K)
Functional Features
The 1N5345C/TR8 operates as a voltage regulator by maintaining a constant voltage drop across its terminals when reverse biased.
Advantages and Disadvantages
Advantages
- Precise voltage regulation
- High power dissipation capability
- Wide operating temperature range
Disadvantages
- Limited voltage options compared to programmable regulators
- Sensitive to temperature variations
Working Principles
When the 1N5345C/TR8 is reverse biased, it allows current to flow once the Zener voltage is reached, effectively regulating the voltage across its terminals.
Detailed Application Field Plans
The 1N5345C/TR8 finds application in various fields such as: - Power supply units - Voltage regulators - Electronic circuit protection
Detailed and Complete Alternative Models
Some alternative models to the 1N5345C/TR8 include: - 1N5333B - 1N5339B - 1N5341B - 1N5349B
In conclusion, the 1N5345C/TR8 Zener diode serves as a reliable voltage regulator and protector in electronic circuits, offering precise voltage regulation and high power dissipation capabilities. Its wide operating temperature range makes it suitable for diverse applications in the field of electronics.
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Enumere 10 preguntas y respuestas comunes relacionadas con la aplicación de 1N5345C/TR8 en soluciones técnicas
What is the maximum voltage rating of 1N5345C/TR8?
- The maximum voltage rating of 1N5345C/TR8 is 16V.
What is the typical application of 1N5345C/TR8?
- 1N5345C/TR8 is commonly used as a voltage regulator in various technical solutions, such as power supplies and voltage stabilization circuits.
What is the maximum current it can handle?
- 1N5345C/TR8 can handle a maximum current of 5A.
How does 1N5345C/TR8 contribute to circuit protection?
- 1N5345C/TR8 provides overvoltage protection by regulating the voltage within a safe range, thus safeguarding sensitive components in the circuit.
What are the key features of 1N5345C/TR8?
- Some key features include its high current capability, low dropout voltage, and thermal regulation.
Can 1N5345C/TR8 be used in automotive applications?
- Yes, 1N5345C/TR8 can be used in automotive applications where voltage regulation is required.
What are the typical operating temperatures for 1N5345C/TR8?
- The typical operating temperature range for 1N5345C/TR8 is -65°C to 175°C.
Is 1N5345C/TR8 suitable for use in industrial equipment?
- Yes, 1N5345C/TR8 is suitable for use in industrial equipment due to its robust design and high current handling capability.
What are the recommended mounting and soldering techniques for 1N5345C/TR8?
- It is recommended to use through-hole mounting and follow standard soldering practices to ensure proper connection and heat dissipation.
Are there any common failure modes associated with 1N5345C/TR8?
- Common failure modes include thermal runaway under excessive load conditions and voltage spikes beyond its maximum rating. Proper heat sinking and transient voltage suppression measures can mitigate these risks.