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LTC4361HTS8-2
Product Overview
Category: Integrated Circuit (IC)
Use: The LTC4361HTS8-2 is a high voltage surge stopper designed to protect sensitive electronic devices from overvoltage transients. It provides robust protection against voltage spikes and surges, ensuring the safety and reliability of connected equipment.
Characteristics: - High voltage surge protection - Fast response time - Low quiescent current - Wide operating temperature range - Small form factor
Package: The LTC4361HTS8-2 is available in an 8-pin TSOT-23 package, which offers compact size and ease of integration into various electronic systems.
Essence: The essence of the LTC4361HTS8-2 lies in its ability to safeguard electronic devices by preventing excessive voltage from reaching them during transient events, such as power surges or lightning strikes.
Packaging/Quantity: The LTC4361HTS8-2 is typically sold in reels or tubes, with a quantity of 250 units per reel/tube.
Specifications
- Input Voltage Range: 2.5V to 5.5V
- Overvoltage Threshold: Adjustable from 2.6V to 5.7V
- Quiescent Current: 20µA (typical)
- Operating Temperature Range: -40°C to 125°C
- Maximum Continuous Current: 2A
- Reverse Battery Protection: Yes
- Fault Indicator: Yes
Pin Configuration
The LTC4361HTS8-2 features the following pin configuration:
```
| | --| VIN GND |-- Pin 1: Ground --| FLT OUT |-- Pin 2: Output --| OV EN |-- Pin 3: Enable --| UV FB |-- Pin 4: Feedback --| OVSET GATE|-- Pin 5: Gate --| UVSET VCC |-- Pin 6: VCC --| UVSET GND |-- Pin 7: Ground --|___________| ```
Functional Features
Overvoltage Protection: The LTC4361HTS8-2 monitors the input voltage and quickly shuts off the output when an overvoltage condition is detected, preventing damage to downstream components.
Undervoltage Protection: In the event of an undervoltage condition, the LTC4361HTS8-2 disables the output to prevent improper operation of connected devices.
Reverse Battery Protection: The IC provides reverse battery protection, ensuring that the circuit remains safe even if the battery is connected with reversed polarity.
Fault Indicator: The integrated fault indicator pin (FLT) can be used to signal the occurrence of a fault condition, allowing for easy system monitoring and troubleshooting.
Advantages and Disadvantages
Advantages: - Robust surge protection for sensitive electronic devices - Fast response time ensures quick shutdown during transient events - Low quiescent current minimizes power consumption - Compact form factor enables easy integration into various applications - Wide operating temperature range allows for use in harsh environments
Disadvantages: - Limited maximum continuous current of 2A may not be suitable for high-power applications - Adjustable overvoltage threshold requires careful configuration for specific voltage requirements
Working Principles
The LTC4361HTS8-2 employs a combination of voltage comparators, MOSFET switches, and control logic to provide surge protection. It continuously monitors the input voltage and compares it to the user-adjustable overvoltage threshold. If the input voltage exceeds the threshold, the IC rapidly turns off the MOSFET switch, isolating the output from the high voltage source. Similarly, in the event of an undervoltage condition, the IC disables the output to prevent improper operation. The reverse battery protection feature ensures that the circuit remains safe even if the battery is connected with reversed polarity.
Application Field Plans
The LTC4361HTS8-2 finds applications in various fields where protection against voltage surges is critical. Some potential application areas include:
- Power Supplies: Protecting sensitive electronic components in power supply units from voltage spikes and surges.
- Industrial Control Systems: Safeguarding control systems and PLCs from transient events that can cause damage or malfunction.
- Automotive Electronics: Providing surge protection for automotive electronics, such as infotainment systems and engine control modules.
- Telecommunications: Protecting communication equipment, such as routers and switches, from voltage transients caused by lightning strikes or power grid fluctuations.
Alternative Models
- LTC4361HTS8-1: Similar to LTC4361HTS8-2 but with a different overvoltage threshold range.
- LTC4361ITS8-2: Package variant with extended
Seznam 10 běžných otázek a odpovědí souvisejících s aplikací LTC4361HTS8-2 v technických řešeních
Sure! Here are 10 common questions and answers related to the application of LTC4361HTS8-2 in technical solutions:
Q1: What is LTC4361HTS8-2? A1: LTC4361HTS8-2 is a high voltage surge stopper IC designed to protect sensitive components from overvoltage transients.
Q2: What is the maximum input voltage that LTC4361HTS8-2 can handle? A2: LTC4361HTS8-2 can handle input voltages up to 80V.
Q3: How does LTC4361HTS8-2 protect against overvoltage transients? A3: LTC4361HTS8-2 monitors the input voltage and quickly disconnects the load when an overvoltage condition is detected, preventing damage to downstream components.
Q4: Can LTC4361HTS8-2 be used in automotive applications? A4: Yes, LTC4361HTS8-2 is suitable for automotive applications as it can handle high voltage transients commonly found in automotive systems.
Q5: What is the typical quiescent current of LTC4361HTS8-2? A5: The typical quiescent current of LTC4361HTS8-2 is around 20µA.
Q6: Can LTC4361HTS8-2 be used with both AC and DC input sources? A6: Yes, LTC4361HTS8-2 can be used with both AC and DC input sources.
Q7: Does LTC4361HTS8-2 provide reverse polarity protection? A7: No, LTC4361HTS8-2 does not provide reverse polarity protection. It is designed to protect against overvoltage transients only.
Q8: Can multiple LTC4361HTS8-2 devices be used in parallel for higher current applications? A8: Yes, multiple LTC4361HTS8-2 devices can be used in parallel to handle higher current requirements.
Q9: What is the operating temperature range of LTC4361HTS8-2? A9: The operating temperature range of LTC4361HTS8-2 is -40°C to 125°C.
Q10: Are there any specific layout considerations for using LTC4361HTS8-2? A10: Yes, it is recommended to follow the layout guidelines provided in the LTC4361HTS8-2 datasheet to ensure proper performance and reliability.
Please note that these answers are general and it is always recommended to refer to the LTC4361HTS8-2 datasheet and consult with the manufacturer for specific application requirements.