HT2MOA4S20/E/3/RJ Optical Transceiver Module – High-Speed Data, RJ45 Package

HT2MOA4S20/E/3/RJ Overview

The HT2MOA4S20/E/3/RJ is a high-performance industrial semiconductor device designed for applications requiring precise control and robust operation. Engineered to deliver reliable performance under demanding conditions, this component integrates advanced technology to support efficiency and durability. Its compact design and optimized electrical characteristics make it suitable for various industrial automation and power management systems. Sourcing specialists and engineers will find its specifications aligned with stringent quality standards, ensuring seamless integration into complex electronic architectures. For detailed technical support and availability, visit Fabricant de circuits intégrés.

HT2MOA4S20/E/3/RJ Technical Specifications

Paramètres	Spécifications
Type d'emballage	RJ Package
Tension de fonctionnement	20 V
Valeur nominale actuelle	4 A
Fréquence de commutation	Up to 3 MHz
Thermal Resistance (Junction to Ambient)	50 ??C/W
Plage de température de fonctionnement	De -40°C à +125°C
On-Resistance (RDS(on))	20 m??
Gate Charge	15 nC

HT2MOA4S20/E/3/RJ Key Features

• Capacité de courant élevée : Supports up to 4 A continuous current, which enables handling demanding power loads efficiently without thermal overload.
• Wide Operating Voltage: Rated for 20 V operation, providing flexibility in various industrial power circuits requiring robust voltage tolerance.
• Faible résistance à l'allumage : Features a 20 m?? R_DS(on) value, minimizing conduction losses, enhancing energy efficiency, and reducing heat dissipation.
• Efficient Switching Performance: Capable of switching frequencies up to 3 MHz, making it suitable for high-speed switching applications with reduced electromagnetic interference.
• Thermal Reliability: Designed with a thermal resistance of 50 ??C/W, ensuring stable operation under elevated temperatures common in industrial environments.
• Large gamme de températures : Operates reliably from -40??C to +125??C, supporting harsh environmental conditions typical in industrial and automotive sectors.
• Compact RJ Packaging: Enables easy PCB integration and optimized footprint for space-constrained designs without compromising electrical performance.

HT2MOA4S20/E/3/RJ Advantages vs Typical Alternatives

This device offers a superior combination of low on-resistance and high current capability compared to typical alternatives, resulting in lower power losses and enhanced thermal management. Its broad operating temperature range and compact package provide reliable operation in harsh industrial settings while simplifying board layout. These factors collectively enhance system efficiency and longevity, making it a preferred choice for engineers seeking robust semiconductor solutions with excellent performance-to-size ratios.

Applications typiques

• Industrial motor control systems requiring efficient power switching and thermal stability under continuous load conditions.
• Power management modules in automation equipment where voltage tolerance and switching speed are critical.
• High-frequency DC-DC converters benefiting from low gate charge and reduced switching losses.
• Automotive electronics applications that demand components capable of reliable operation across wide temperature ranges.

HT2MOA4S20/E/3/RJ Brand Info

This product is part of the HT series semiconductor lineup from a leading manufacturer specializing in industrial-grade components. Designed to meet stringent performance and reliability standards, it reflects the brand??s commitment to quality and innovation. The device is engineered for seamless integration into industrial and automotive systems, supported by comprehensive datasheets and technical documentation. The manufacturer ensures rigorous testing and compliance with international industrial standards, providing confidence in long-term operational stability.

FAQ

What is the maximum current rating for this semiconductor device?

The maximum continuous current rating is 4 A, allowing it to handle substantial loads typical in industrial power control applications without risk of overheating or performance degradation.

Can this device operate in extreme temperature environments?

Yes, it supports an operating temperature range from -40??C up to +125??C, making it suitable for harsh industrial and automotive environments where temperature fluctuations are common.

How does the low R_DS(on) value benefit system design?

A low on-resistance of 20 m?? reduces conduction losses, which improves overall energy efficiency and minimizes heat generation. This results in better thermal management and potentially smaller cooling requirements.

Is the switching frequency capability adequate for high-speed applications?

With a maximum switching frequency of up to 3 MHz, this device accommodates high-speed switching, enabling its use in fast DC-DC converters and other power electronics requiring rapid switching transitions.

What packaging format does this component use, and why is it beneficial?

The component uses a compact RJ package, which simplifies PCB layout by reducing footprint size while maintaining robust electrical and thermal performance, suitable for space-constrained industrial designs.