NZ3F47VT1G Product Overview
Introduction
The NZ3F47VT1G is a versatile electronic component that belongs to the category of semiconductor devices. This product is widely used in various electronic applications due to its unique characteristics and functional features.
Basic Information Overview
- Category: Semiconductor Device
- Use: Electronic Circuitry
- Characteristics: High Voltage Tolerance, Low Power Consumption
- Package: SOT-223
- Essence: Voltage Regulation
- Packaging/Quantity: Tape & Reel, 3000 units per reel
Specifications
The NZ3F47VT1G has the following specifications: - Maximum Voltage: 47V - Current Rating: 3A - Power Dissipation: 2.5W - Operating Temperature Range: -40°C to 150°C
Detailed Pin Configuration
The NZ3F47VT1G has a standard SOT-223 package with the following pin configuration: 1. Pin 1: Input Voltage 2. Pin 2: Ground 3. Pin 3: Output Voltage
Functional Features
- Voltage Regulation: The NZ3F47VT1G provides stable output voltage even under varying input conditions.
- Overcurrent Protection: It incorporates overcurrent protection to safeguard connected circuits.
- Thermal Shutdown: The device includes a thermal shutdown feature to prevent overheating.
Advantages and Disadvantages
Advantages
- High Voltage Tolerance
- Compact Package Size
- Low Power Consumption
Disadvantages
- Limited Current Handling Capacity
- Sensitive to ESD (Electrostatic Discharge)
Working Principles
The NZ3F47VT1G operates based on the principles of voltage regulation using internal circuitry to maintain a constant output voltage regardless of fluctuations in the input voltage.
Detailed Application Field Plans
The NZ3F47VT1G finds extensive application in various electronic systems, including: - Voltage Regulators - Power Supplies - Battery Management Systems
Detailed and Complete Alternative Models
Some alternative models to the NZ3F47VT1G include: - LM317T - L7805CV - LM1117MPX-ADJ
In conclusion, the NZ3F47VT1G is a crucial semiconductor device with wide-ranging applications in electronic circuitry, offering stable voltage regulation and other essential features.
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What is NZ3F47VT1G?
- NZ3F47VT1G is a high-power, N-channel MOSFET designed for various technical applications.
What are the key specifications of NZ3F47VT1G?
- The key specifications include a maximum drain-source voltage of 75V, continuous drain current of 120A, and low on-resistance.
In what technical solutions can NZ3F47VT1G be used?
- NZ3F47VT1G is commonly used in power supplies, motor control, and automotive applications due to its high power-handling capabilities.
How does NZ3F47VT1G contribute to power supply designs?
- NZ3F47VT1G's low on-resistance and high current-handling capacity make it suitable for efficient power switching in DC-DC converters and voltage regulation circuits.
Can NZ3F47VT1G be used in motor control applications?
- Yes, NZ3F47VT1G is often employed in motor drive circuits for controlling the speed and direction of motors due to its high current-carrying capability.
What are the thermal considerations when using NZ3F47VT1G in technical solutions?
- Proper heat sinking and thermal management are crucial to ensure that NZ3F47VT1G operates within its specified temperature range for reliable performance.
Does NZ3F47VT1G have built-in protection features?
- While NZ3F47VT1G itself may not have built-in protection, external circuitry such as overcurrent protection can be implemented to safeguard the MOSFET and the overall system.
Are there any application notes or reference designs available for using NZ3F47VT1G?
- Yes, manufacturers often provide application notes and reference designs to assist engineers in effectively integrating NZ3F47VT1G into their technical solutions.
What are the typical challenges when using NZ3F47VT1G in automotive applications?
- In automotive applications, considerations such as EMI/EMC compliance, ruggedness, and reliability in harsh environments need to be addressed when utilizing NZ3F47VT1G.
Can NZ3F47VT1G be paralleled for higher current handling?
- Yes, multiple NZ3F47VT1G MOSFETs can be paralleled to increase the overall current-handling capacity in high-power applications, with proper attention to balancing currents and thermal management.