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BZX79-C6V2,133
Product Overview
Category
The BZX79-C6V2,133 belongs to the category of Zener diodes.
Use
It is commonly used for voltage regulation and protection in electronic circuits.
Characteristics
- Zener voltage: 6.2V
- Power dissipation: 500mW
- Package type: DO-35
- Operating temperature range: -65°C to +200°C
- Tolerance: ±5%
Package
The BZX79-C6V2,133 is typically available in reels or tubes, with varying quantities based on manufacturer specifications.
Essence
The essence of the BZX79-C6V2,133 lies in its ability to maintain a constant voltage across its terminals when reverse-biased.
Specifications
- Zener voltage: 6.2V
- Power dissipation: 500mW
- Maximum forward voltage: 1.1V
- Reverse current: 5μA
- Temperature coefficient: 5mV/°C
Detailed Pin Configuration
The BZX79-C6V2,133 has two pins and follows the standard pin configuration for DO-35 package diodes.
Functional Features
- Precise voltage regulation
- Overvoltage protection
- Stable performance over a wide temperature range
Advantages
- Small form factor
- High reliability
- Low cost
Disadvantages
- Limited power dissipation capability
- Sensitivity to temperature variations
Working Principles
The BZX79-C6V2,133 operates based on the Zener effect, where it maintains a nearly constant voltage drop across its terminals when reverse-biased, allowing it to regulate voltage in electronic circuits.
Detailed Application Field Plans
The BZX79-C6V2,133 finds extensive use in: - Voltage regulators - Overvoltage protection circuits - Signal clamping applications
Detailed and Complete Alternative Models
Some alternative models to the BZX79-C6V2,133 include: - BZX79-C6V8,133 - BZX79-C7V5,133 - BZX79-C8V2,133
This comprehensive range of Zener diodes allows for flexibility in voltage selection and application-specific requirements.
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Enumere 10 preguntas y respuestas comunes relacionadas con la aplicación de BZX79-C6V2,133 en soluciones técnicas
What is the BZX79-C6V2,133 used for in technical solutions?
- The BZX79-C6V2,133 is a Zener diode commonly used for voltage regulation and overvoltage protection in various electronic circuits.
What is the voltage rating of the BZX79-C6V2,133?
- The BZX79-C6V2,133 has a nominal voltage of 6.2V, making it suitable for applications requiring precise voltage regulation at this level.
How does the BZX79-C6V2,133 provide overvoltage protection?
- When the voltage across the BZX79-C6V2,133 exceeds its rated voltage (6.2V), it conducts heavily, effectively clamping the voltage to protect downstream components.
In what types of circuits is the BZX79-C6V2,133 commonly used?
- The BZX79-C6V2,133 is often employed in power supply circuits, voltage reference circuits, and as a protective element in various electronic devices.
What are the key characteristics of the BZX79-C6V2,133 that make it suitable for technical solutions?
- Its stable voltage regulation, low dynamic impedance, and ability to handle transient overvoltage conditions make it an ideal choice for many applications.
Can the BZX79-C6V2,133 be used in automotive electronics?
- Yes, the BZX79-C6V2,133 can be utilized in automotive electronics for voltage regulation and protection against voltage spikes.
Are there any specific thermal considerations when using the BZX79-C6V2,133?
- It is important to consider the power dissipation of the diode to ensure it operates within its specified temperature range, especially in high-power applications.
What are some typical failure modes of the BZX79-C6V2,133?
- Common failure modes include thermal runaway due to excessive current, and breakdown or degradation of the Zener junction under sustained overvoltage conditions.
Can multiple BZX79-C6V2,133 diodes be connected in series or parallel?
- Yes, multiple diodes can be connected in series to create higher voltage ratings, or in parallel to increase the current-handling capability.
What are some best practices for incorporating the BZX79-C6V2,133 into a technical solution?
- Ensuring proper heat sinking, accurate current limiting, and protection against reverse voltage are important considerations when integrating the BZX79-C6V2,133 into a circuit design.