P6KE12A
Manufacturer Part Number: P6KE12A | Manufacturer / Brand: Littelfuse |
Part of Description: ESD Suppressors / TVS Diodes 10.2Vr 600W 36A 5% Uni-Directional | Lead Free Status / RoHS Status: Lead free / RoHS Compliant |
Ship From: HK/Shen Zhen | Shipment Way: DHL/Fedex/TNT/UPS |
Datasheets:
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Product parameters
Manufacturer | Littelfuse |
RoHS | Details |
Product Type | TVS Diodes |
Polarity | Unidirectional |
Working Voltage | 10.2 V |
Number of Channels | 1 Channel |
Termination Style | Axial |
Package / Case | DO-204AC-2 |
Breakdown Voltage | 11.4 V |
Clamping Voltage | 16.7 V |
Pppm – Peak Pulse Power Dissipation | 600 W |
Vesd – Voltage ESD Contact | 30 kV |
Vesd – Voltage ESD Air Gap | 30 kV |
Cd – Diode Capacitance | – |
Ipp – Peak Pulse Current | 36.5 A |
Minimum Operating Temperature | – 55 C |
Maximum Operating Temperature | + 175 C |
Series | P6KE |
Packaging | Cut Tape |
Brand | Littelfuse |
Pd – Power Dissipation | 5 W |
Factory Pack Quantity | 4000 |
Vf – Forward Voltage | 3.5 V |
Unit Weight | 0.015000 oz |
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Write about “What is P6KE12A?
P6KE12A is an electronic component known as a transient voltage suppressor (TVS) diode. It is used to protect sensitive electronic components from damage caused by electrical surges or overvoltage. The P6KE12A is a unidirectional device that is designed to protect against high-voltage, high-energy transients. It has a reverse breakdown voltage of 12V and a peak pulse power of 600W. It is also capable of withstanding high-energy surges of up to 20A. The P6KE12A is widely used in applications such as industrial equipment, consumer electronics, telecom equipment, automotive systems, and medical electronics.
The P6KE12A is an ideal choice for protecting electronic components from short-duration, high-energy transients. It is relatively inexpensive, small in size, and has a fast response time. The device is also highly reliable and can withstand multiple transient events without damage. The P6KE12A is widely available and can be easily integrated into a variety of circuits.
How to use P6KE12A?
The P6KE12A is typically used in circuits as a protection device. It is connected across the power supply lines or the load to provide protection against overvoltage and transients. The device should be connected with the anode terminal towards the load and the cathode terminal towards the power supply. The device should also be connected in parallel with a fuse as a safety measure. In addition, the P6KE12A should be mounted on a heat sink to dissipate any excess heat.
Features and Specifications
• Reverse Breakdown Voltage: 12V
• Peak Pulse Power: 600W
• Clamping Voltage: 30V
• Response Time: <1µs
• Surge Rating: 20A
• Operating Temperature: -55°C to 150°C
• Storage Temperature: -55°C to 150°C
• Package Type: SMA (DO-214AC)
Customer Reviews and Scores
The P6KE12A is a popular device and is highly rated by customers. It is praised for its reliability and fast response time, as well as its small size and low cost. Customers also appreciate the fact that it can be easily integrated into a variety of circuits. The majority of customers give the P6KE12A a rating of 5 out of 5 stars.
Pros and Cons
Pros
• Reliable
• Fast response time
• Small size
• Low cost
• Easy to integrate
Cons
• Must be mounted on a heat sink
• Must be connected in parallel with a fuse
FAQ
Q: What is the peak pulse power of the P6KE12A?
A: The peak pulse power of the P6KE12A is 600W.
Q: What is the operating temperature range of the P6KE12A?
A: The operating temperature range of the P6KE12A is -55°C to 150°C.
Q: Is the P6KE12A unidirectional?
A: Yes, the P6KE12A is a unidirectional device.
Conclusion
The P6KE12A is an ideal choice for protecting sensitive electronic components from overvoltage and transient events. It is highly reliable, fast-responding, and small in size, making it an excellent choice for a variety of applications. The device is also relatively inexpensive and can be easily integrated into a variety of circuits. All in all, the P6KE12A is a great choice for protecting sensitive components from overvoltage and transients.