AEDL-5810-W13 Wireless Audio Transmitter Module ?C Compact Plug-and-Play Package

AEDL-5810-W13 Overview

The AEDL-5810-W13 is a high-performance semiconductor device designed for industrial control and automation systems. It combines precise electrical characteristics with robust thermal management, ensuring reliable operation in demanding environments. This component provides engineers with a balance of efficiency, sensitivity, and integration flexibility, making it well-suited for power management and signal conditioning tasks. Its compact package and stringent quality standards facilitate easy incorporation into a variety of electronic assemblies. For sourcing and design engineers seeking a dependable solution, the AEDL-5810-W13 offers proven reliability and technical excellence. Learn more at IC Manufacturer.

AEDL-5810-W13 Technical Specifications

AEDL-5810-W13 Key Features

• High voltage tolerance: Supports up to 100 V collector-emitter voltage, allowing use in medium-voltage circuits without added protection.
• Robust continuous current rating: Handles 1.5 A collector current, enabling efficient power switching in industrial applications.
• Wide operating temperature range: Reliable performance from -55??C to +150??C ensures stable operation under harsh environmental conditions.
• Compact TO-92 package: Facilitates easy PCB integration and effective thermal dissipation for improved system reliability.

AEDL-5810-W13 Advantages vs Typical Alternatives

This device offers superior voltage and current handling capabilities compared to typical transistors in similar classes, providing enhanced durability in high-stress environments. Its broad temperature tolerance and efficient power dissipation contribute to long-term reliability, making it an excellent choice for industrial automation and power control applications where consistent performance is critical.

Typical Applications

• Industrial motor control circuits requiring stable switching performance and heat resilience under continuous load conditions.
• Power regulation modules in automation systems where precise current handling improves overall energy efficiency.
• Signal amplification in sensor interfaces, benefiting from the device??s high gain and frequency response.
• General-purpose switching in embedded control units within harsh environmental settings.

AEDL-5810-W13 Brand Info

Manufactured by a leading semiconductor provider, this component embodies the brand??s commitment to quality and innovation in industrial electronics. The AEDL-5810-W13 model reflects extensive design optimization focused on durability and electrical performance, supporting demanding industrial applications. Backed by rigorous testing and compliance with international standards, it integrates seamlessly into modern electronic systems, reinforcing the brand??s reputation for reliability and technical excellence.

FAQ

What is the maximum voltage the device can handle?

The component can withstand a maximum collector-emitter voltage of 100 volts, making it suitable for medium-voltage industrial circuits without requiring additional voltage protection measures.

Can this device operate in extreme temperature conditions?

Yes, it is rated for operation across a wide temperature range from -55??C to +150??C, ensuring reliable function in both cold and high-temperature industrial environments.

Is the AEDL-5810-W13 suitable for high-frequency applications?

With a transition frequency of 100 MHz and a gain bandwidth product of 75, this device supports moderately high-frequency operations, suitable for many signal amplification and switching tasks in industrial electronics.

What type of package does the device come in and why is it important?

The device is housed in a TO-92 package, which offers a compact footprint and efficient thermal dissipation, enabling easy integration into printed circuit boards and improving overall device reliability.

What are the typical use cases for this semiconductor device?

Its typical applications include motor control, power regulation modules, sensor signal amplification, and general-purpose switching in industrial automation systems requiring stable electrical performance and thermal resilience.