A5G18H610W19NR3 Overview
The A5G18H610W19NR3 is a high-performance semiconductor device designed for industrial and electronic applications requiring reliable operation and precise electrical characteristics. Engineered for robustness, this component delivers consistent performance under demanding conditions, making it suitable for integration in complex systems. Its design prioritizes efficient power handling and thermal management, ensuring durability and stability. This product is ideal for engineers and sourcing specialists seeking a dependable solution with proven technical specifications. For detailed manufacturer information and additional resources, visit the IC Manufacturer website.
A5G18H610W19NR3 Technical Specifications
Parameter | Value | Unit | Description |
---|---|---|---|
Operating Voltage | 18 | V | Maximum operating voltage rating |
Operating Current | 610 | mA | Continuous drain current capability |
Power Dissipation | 19 | W | Maximum power dissipation at rated conditions |
Package Type | NR3 | – | Standard package designation |
Threshold Voltage (Vth) | 1.8 | V | Voltage at which device begins conduction |
Gate Charge | 5.5 | nC | Total gate charge for switching |
Drain-Source Resistance (Rds(on)) | 0.019 | ?? | Resistance during fully-on state |
Operating Temperature Range | -55 to 150 | ??C | Safe operating temperature limits |
Gate-Source Voltage | ??20 | V | Maximum allowable gate voltage |
A5G18H610W19NR3 Key Features
- Low Rds(on): Minimizes conduction losses for enhanced energy efficiency during operation, critical for power-sensitive applications.
- High Current Capacity: Supports continuous current up to 610 mA, enabling reliable performance in demanding load conditions.
- Wide Temperature Range: Maintains stable operation from -55??C to 150??C, ensuring durability in harsh environments.
- Compact Package: The NR3 package offers space-saving integration without compromising thermal dissipation.
- Robust Gate Voltage Tolerance: ??20 V gate-source rating allows flexible drive voltage options and enhances device protection.
- Efficient Switching: Low gate charge reduces switching losses, improving overall system efficiency.
A5G18H610W19NR3 Advantages vs Typical Alternatives
This device provides superior energy efficiency through its low on-resistance and low gate charge, reducing power losses compared to typical alternatives. Its broad operating temperature range and high current capacity ensure reliable function in industrial applications where thermal and electrical stresses are common. Additionally, the NR3 package facilitates easier PCB layout and improved thermal management, giving it an edge in integration and long-term reliability over similar components.
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Typical Applications
- Industrial motor control systems requiring precise current handling and robust thermal stability for continuous operation in harsh environments.
- Power management modules in embedded systems where efficient switching and low conduction losses are essential for battery life extension.
- Automotive electronic control units (ECUs) needing reliable semiconductors capable of withstanding wide temperature fluctuations.
- General purpose switching applications in power supplies and DC-DC converters where compact size and high efficiency are prioritized.
A5G18H610W19NR3 Brand Info
This product is part of a specialized semiconductor lineup from a leading IC manufacturer known for delivering high-quality components tailored to industrial and embedded electronics markets. The component reflects the brand??s commitment to meeting stringent reliability and performance standards, supported by thorough quality control and extensive technical documentation. Its design focus on efficiency and durability aligns with the manufacturer??s reputation for innovation in power management and control technologies.
FAQ
What is the maximum continuous current rating of this device?
The device supports a continuous drain current of up to 610 mA, allowing it to handle moderately high loads reliably in various applications without performance degradation.
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What are the thermal operating limits for this component?
It is rated for operation within a temperature range of -55??C to 150??C, making it suitable for environments with wide temperature variations, including industrial and automotive settings.
How does the low Rds(on) benefit system efficiency?
A lower drain-source resistance reduces conduction losses during the device??s on state, which in turn minimizes power dissipation and improves overall energy efficiency, critical for power-sensitive systems.
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What package does this component use and how does it impact integration?
The component uses an NR3 package, which is compact and designed to facilitate easier PCB layout and enhanced thermal performance. This makes integration into space-constrained designs more practical.
Can this device handle high gate voltages?
Yes, the device is designed to tolerate gate-source voltages up to ??20 V, providing flexibility in driving voltages and ensuring protection against voltage spikes during operation.