P6KE36-E3/54
Product Overview
Category
The P6KE36-E3/54 belongs to the category of transient voltage suppressor diodes.
Use
It is used to protect electronic circuits from overvoltage transients.
Characteristics
- Fast response time
- Low clamping voltage
- High surge capability
Package
The P6KE36-E3/54 is available in a DO-15 package.
Essence
The essence of the P6KE36-E3/54 lies in its ability to divert excessive current away from sensitive components during voltage spikes.
Packaging/Quantity
The P6KE36-E3/54 is typically packaged in reels or tubes and is available in quantities suitable for both prototyping and production.
Specifications
- Peak Pulse Power Dissipation: 600W
- Breakdown Voltage: 36V
- Maximum Clamping Voltage: 58.1V
- Operating Temperature Range: -55°C to +175°C
Detailed Pin Configuration
The P6KE36-E3/54 has two pins, with the anode connected to one pin and the cathode connected to the other.
Functional Features
- Transient voltage suppression
- Reverse avalanche breakdown protection
- Fast response to transient events
Advantages and Disadvantages
Advantages
- Effective protection against voltage transients
- Fast response time
- Wide operating temperature range
Disadvantages
- Limited peak pulse power dissipation compared to some higher-rated devices
- Clamping voltage may be higher than some alternative models
Working Principles
The P6KE36-E3/54 operates based on the principle of reverse avalanche breakdown, where it diverts excess current away from sensitive components when a voltage spike occurs.
Detailed Application Field Plans
The P6KE36-E3/54 is commonly used in various electronic systems, including: - Power supplies - Telecommunication equipment - Automotive electronics - Industrial control systems
Detailed and Complete Alternative Models
Some alternative models to the P6KE36-E3/54 include: - P6KE6.8-E3/54 - P6KE10A-E3/54 - P6KE150A-E3/54
In conclusion, the P6KE36-E3/54 transient voltage suppressor diode offers effective protection against voltage transients in a wide range of electronic applications, making it a valuable component in circuit design.
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تکنیکی حل میں P6KE36-E3/54 کے اطلاق سے متعلق 10 عام سوالات اور جوابات کی فہرست بنائیں
Sure, here are 10 common questions and answers related to the application of P6KE36-E3/54 in technical solutions:
What is the P6KE36-E3/54?
- The P6KE36-E3/54 is a transient voltage suppressor diode designed to protect electronic circuits from voltage spikes and transients.
What is the maximum peak pulse power of P6KE36-E3/54?
- The maximum peak pulse power of P6KE36-E3/54 is 600 watts.
What is the breakdown voltage of P6KE36-E3/54?
- The breakdown voltage of P6KE36-E3/54 is 36 volts.
How does P6KE36-E3/54 protect electronic circuits?
- P6KE36-E3/54 clamps the voltage during transient events, diverting excess current away from sensitive components, thus protecting them from damage.
What are the typical applications of P6KE36-E3/54?
- P6KE36-E3/54 is commonly used in power supplies, communication equipment, automotive electronics, and industrial control systems to protect against voltage surges.
What is the response time of P6KE36-E3/54?
- The response time of P6KE36-E3/54 is very fast, typically responding within nanoseconds to clamp the voltage spike.
Can P6KE36-E3/54 be used for overvoltage protection in solar panel systems?
- Yes, P6KE36-E3/54 can be used to protect solar panel systems from overvoltage conditions caused by lightning strikes or other transient events.
Is P6KE36-E3/54 suitable for use in high-speed data communication systems?
- Yes, P6KE36-E3/54 is suitable for use in high-speed data communication systems to protect sensitive electronic components from voltage transients.
What is the operating temperature range of P6KE36-E3/54?
- The operating temperature range of P6KE36-E3/54 is typically between -55°C to 175°C.
Can multiple P6KE36-E3/54 devices be connected in series or parallel for higher voltage or current handling?
- Yes, multiple P6KE36-E3/54 devices can be connected in series or parallel to increase the voltage or current handling capability for specific applications. However, proper consideration should be given to the overall circuit design and performance requirements.
I hope these answers provide the information you were looking for! Let me know if you need further assistance.