Allicdata Part #: | GSOT12-E3-18-ND |
Manufacturer Part#: |
GSOT12-E3-18 |
Price: | $ 0.00 |
Product Category: | Circuit Protection |
Manufacturer: | Vishay Semiconductor Diodes Division |
Short Description: | TVS DIODE 12V 26V SOT23 |
More Detail: | N/A |
DataSheet: | GSOT12-E3-18 Datasheet/PDF |
Quantity: | 1000 |
Lead Free Status / RoHS Status: | Lead free / RoHS Compliant |
Moisture Sensitivity Level (MSL): | 1 (Unlimited) |
Series: | -- |
Packaging: | Tape & Reel (TR) |
Lead Free Status / RoHS Status: | -- |
Part Status: | Active |
Moisture Sensitivity Level (MSL): | -- |
Type: | Zener |
Unidirectional Channels: | 1 |
Voltage - Reverse Standoff (Typ): | 12V (Max) |
Voltage - Breakdown (Min): | 13.5V |
Voltage - Clamping (Max) @ Ipp: | 26V |
Current - Peak Pulse (10/1000µs): | 12A (8/20µs) |
Power - Peak Pulse: | 312W |
Power Line Protection: | No |
Applications: | General Purpose |
Capacitance @ Frequency: | 115pF @ 1MHz |
Operating Temperature: | -40°C ~ 125°C (TJ) |
Mounting Type: | Surface Mount |
Package / Case: | TO-236-3, SC-59, SOT-23-3 |
Supplier Device Package: | SOT-23 |
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Transient Voltage Suppression (TVS) Diodes play an important role in controlling surges in both electrical and electronic systems. In particular, the GSOT12-E3-18TVS diode is widely used to protect electronic components and circuits. This article will discuss the application field of the GSOT12-E3-18TVS diode, its working principles, and its advantages and disadvantages.
Application Field of the GSOT12-E3-18TVS Diode
The GSOT12-E3-18TVS diode is designed to protect electronic components from hazardous surges arising from static discharges or transients in the power supply. Its large power clamping capability makes it an ideal choice to protect high-speed computer/communications systems, computer peripherals, telecom equipment, circuit boards, and appliances from surge currents and their associated overvoltage-related malfunctions. Additionally, the GSOT12-E3-18TVS diode can also be used in medical equipment, digital and sensitive electronic devices, digital audio/video equipment, and other applications where sensitive circuitry needs to be protected from hazardous transients.
Working Principle of the GSOT12-E3-18TVS Diode
The working principle of the GSOT12-E3-18TVS diode is based on the avalanche effect, which occurs when the reverse current of a semiconductor exceeds a certain level. When the polarity of the applied voltage exceeds the breakdown voltage applied to the reverse bias of the diode, the semiconductor material causes a large number of charge carriers to be created, generating an avalanche effect. This has the effect of controlling the surge current by creating a path of lower resistance, thereby improving the diode\'s capability to handle surges.
The GSOT12-E3-18TVS diode is a low capacitance device with an avalanche breakdown voltage of 1.8 volts. It has a high peak power handling capability and is capable of withstanding noise levels of up to ± 33 volts. The diode is also capable of providing very good clamping performance and fast response time, making it an ideal choice for sensitive applications such as protecting computer/communications systems, digital audio/video equipment, and other applications.
Advantages and Disadvantages of the GSOT12-E3-18TVS Diode
The GSOT12-E3-18TVS diode has several advantages, including high peak power handling capability, low voltage standard deviation, tight voltage tolerance, fast response time, and low capacitance. Additionally, this diode is also capable of providing very efficient and reliable surge protection. The diode can also be used in a variety of applications due to its low cost, small size, and reliability.
However, the GSOT12-E3-18TVS diode also has some disadvantages. Its avalanche effect can produce a high operating temperature, which can potentially cause heat damage to other components in the system. Additionally, the diode is sensitive to power spikes and may fail if proper surge protection is not provided. Finally, the diode is also vulnerable to electrostatic discharge, and may be damaged if it is exposed to excessive static electricity.
Conclusion
In conclusion, the GSOT12-E3-18TVS diode is a versatile and reliable Transient Voltage Suppression (TVS) diode. It has a wide range of applications, including computer/communications systems, digital audio/video equipment, and other applications. The diode is capable of providing high peak power handling capability, low voltage standard deviation, tight voltage tolerance, fast response time, and low capacitance. Despite the diode\'s advantages, its vulnerability to electrostatic discharge and other hazards makes it essential to provide adequate protection.
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GSOT08-E3-08 | Vishay Semic... | -- | 1000 | TVS DIODE 8V 19.2V SOT23-... |
GSOT24-E3-08 | Vishay Semic... | 0.05 $ | 1000 | TVS DIODE 24V 47V SOT23-3 |
GSOT36-E3-08 | Vishay Semic... | 0.05 $ | 1000 | TVS DIODE 36V 71V SOT23-3 |
GSOT03-E3-18 | Vishay Semic... | 0.05 $ | 1000 | TVS DIODE 3.3V 12.3V SOT2... |
GSOT04-E3-18 | Vishay Semic... | 0.05 $ | 1000 | TVS DIODE 4V 14.3V SOT23 |
GSOT05-E3-18 | Vishay Semic... | 0.05 $ | 1000 | TVS DIODE 5V 16V SOT23 |
GSOT08-E3-18 | Vishay Semic... | 0.05 $ | 1000 | TVS DIODE 8V 19.2V SOT23 |
GSOT12-E3-18 | Vishay Semic... | -- | 1000 | TVS DIODE 12V 26V SOT23 |
GSOT15-E3-18 | Vishay Semic... | 0.05 $ | 1000 | TVS DIODE 15V 28.8V SOT23 |
GSOT24-E3-18 | Vishay Semic... | 0.05 $ | 1000 | TVS DIODE 24V 47V SOT23 |
GSOT36-E3-18 | Vishay Semic... | 0.05 $ | 1000 | TVS DIODE 36V 71V SOT23 |
GSOT15C-HT3-GS08 | Vishay Semic... | 0.0 $ | 1000 | TVS DIODE 15V 28.8V LLP75... |
GSOT24C-HT3-GS08 | Vishay Semic... | 0.0 $ | 1000 | TVS DIODE 24V 47V LLP75-3... |
GSOT24-HT3-GS08 | Vishay Semic... | 0.0 $ | 1000 | TVS DIODE 24V 47V LLP75-3... |
GSOT36-HT3-GS08 | Vishay Semic... | 0.0 $ | 1000 | TVS DIODE 36V 71V LLP75-3... |
GSOT03C-HT3-GS08 | Vishay Semic... | 0.0 $ | 1000 | TVS DIODE 3.3V 12.3V LLP7... |
GSOT03-HT3-GS08 | Vishay Semic... | 0.0 $ | 1000 | TVS DIODE 3.3V 12.3V LLP7... |
GSOT05C-HT3-GS08 | Vishay Semic... | 0.0 $ | 1000 | TVS DIODE 5V 16V LLP75-3B |
GSOT05-HT3-GS08 | Vishay Semic... | 0.0 $ | 1000 | TVS DIODE 5V 16V LLP75-3B |
GSOT12C-HT3-GS08 | Vishay Semic... | 0.0 $ | 1000 | TVS DIODE 12V 26V LLP75-3... |
GSOT12-HT3-GS08 | Vishay Semic... | 0.0 $ | 1000 | TVS DIODE 12V 26V LLP75-3... |
GSOT15-HT3-GS08 | Vishay Semic... | 0.0 $ | 1000 | TVS DIODE 15V 28.8V LLP75... |
GSOT36C-HT3-GS08 | Vishay Semic... | 0.0 $ | 1000 | TVS DIODE 36V 71V LLP75-3... |
GSOT03-G3-18 | Vishay Semic... | 0.06 $ | 1000 | TVS DIODE 3.3V 12.3V SOT2... |
GSOT04-G3-18 | Vishay Semic... | 0.06 $ | 1000 | TVS DIODE 4V 14.3V SOT23 |
GSOT05-G3-18 | Vishay Semic... | 0.06 $ | 1000 | TVS DIODE 5V 16V SOT23 |
GSOT08-G3-18 | Vishay Semic... | 0.06 $ | 1000 | TVS DIODE 8V 19.2V SOT23 |
GSOT12-G3-18 | Vishay Semic... | 0.06 $ | 1000 | TVS DIODE 12V 26V SOT23 |
GSOT15-G3-18 | Vishay Semic... | 0.06 $ | 1000 | TVS DIODE 15V 28.8V SOT23 |
GSOT03-G3-08 | Vishay Semic... | 0.06 $ | 1000 | TVS DIODE 3.3V 12.3V SOT2... |
GSOT04-G3-08 | Vishay Semic... | 0.06 $ | 1000 | TVS DIODE 4V 14.3V SOT23 |
GSOT08-G3-08 | Vishay Semic... | 0.06 $ | 1000 | TVS DIODE 8V 19.2V SOT23 |
GSOT12-G3-08 | Vishay Semic... | -- | 1000 | TVS DIODE 12V 26V SOT23 |
GSOT15-G3-08 | Vishay Semic... | 0.06 $ | 1000 | TVS DIODE 15V 28.8V SOT23 |
GSOT24-G3-08 | Vishay Semic... | 0.06 $ | 1000 | TVS DIODE 24V 47V SOT23 |
GSOT36-G3-08 | Vishay Semic... | 0.06 $ | 1000 | TVS DIODE 36V 71V SOT23 |
GSOT03-HE3-18 | Vishay Semic... | 0.06 $ | 1000 | TVS DIODE 3.3V 12.3V SOT2... |
GSOT04-HE3-18 | Vishay Semic... | 0.06 $ | 1000 | TVS DIODE 4V 14.3V SOT23 |
GSOT05-HE3-18 | Vishay Semic... | 0.06 $ | 1000 | TVS DIODE 5V 16V SOT23 |
GSOT08-HE3-18 | Vishay Semic... | 0.06 $ | 1000 | TVS DIODE 8V 19.2V SOT23 |
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