8-TSOP_HTSOP-J8%2520Pkg.jpg
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7625947
Rohm-Semiconductor/BD60GA5MEFJ-LBH2
7625947
| Output Configuration: | Positive |
| Output Type: | Fixed |
| Voltage - Input (Max): | 14V |
| Voltage - Output (Min/Fixed): | 6V |
| Voltage - Output (Max): | - |
| Voltage Dropout (Max): | 1.2V @ 500mA |
| Current - Output: | 500mA |
| PSRR: | - |
| Control Features: | Enable |
| Protection Features: | Over Current, Over Temperature, Soft Start |
| Operating Temperature: | -40~C ~ 105~C |
| Mounting Type: | Surface Mount |
| Package / Case: | 8-SOIC (0.154", 3.90mm Width) Exposed Pad |
| Supplier Device Package: | 8-HTSOP-J |
In the fast-paced world of technology, finding reliable and efficient power solutions is crucial. That's where Rohm Semiconductor BD60GA5MEFJ-LBH2 comes into play. This cutting-edge power module is designed to revolutionize power management in a wide range of high-efficiency applications.
Let's delve deeper into the remarkable features and advantages of the BD60GA5MEFJ-LBH2, explore its diverse applications, and learn about the development tools available to unleash its full potential.
Features and Advantages
The BD60GA5MEFJ-LBH2 is packed with an impressive array of features that set it apart from traditional power solutions. One of its key features is its highly efficient power conversion capability, boasting a peak efficiency of up to 98%. This level of efficiency ensures optimal power utilization, minimizing energy wastage and reducing overall operating costs.
Furthermore, this power module integrates multiple protection functions, including overcurrent protection, overvoltage protection, and overtemperature protection. These safeguards contribute to enhanced system reliability, preventing damage and downtime, and ultimately prolonging the lifespan of the application.
Another advantage of the BD60GA5MEFJ-LBH2 is its compact size and high power density. With a small form factor, it allows for space-saving designs and enables the creation of lighter and more portable devices. This makes it an ideal choice for applications where size and weight play a critical role.
Applications
The versatility of the BD60GA5MEFJ-LBH2 opens up countless possibilities for its implementation in various high-efficiency applications. One such application is renewable energy systems, where this power module enables efficient power conversion from solar panels or wind turbines, maximizing energy generation and contributing to a sustainable future.
Additionally, the BD60GA5MEFJ-LBH2 is well-suited for electric vehicles (EVs) and hybrid electric vehicles (HEVs). By delivering high-performance power conversion, it empowers these vehicles to achieve longer driving range, faster charging times, and improved overall energy efficiency.
Other potential applications include industrial automation, telecommunications equipment, robotics, and data centers – essentially any field that demands reliable and efficient power management.
Examples
Let's explore a few real-life examples showcasing the incredible impact of the BD60GA5MEFJ-LBH2:
1. Smart Home Systems: With the BD60GA5MEFJ-LBH2, smart home devices can efficiently convert and manage power, optimizing energy consumption. This results in reduced energy bills and a more sustainable home environment.
2. Solar-powered IoT Devices: The BD60GA5MEFJ-LBH2 enables solar-powered IoT devices to operate efficiently and autonomously. This is particularly valuable in remote areas where access to traditional power sources is limited.
3. Electric Scooters: By incorporating the BD60GA5MEFJ-LBH2, electric scooters can achieve higher energy efficiency, longer driving ranges, and quicker charging times. This enhances user experience and promotes the widespread adoption of eco-friendly transportation solutions.
Development Tools
To harness the full potential of the BD60GA5MEFJ-LBH2, Rohm Semiconductor offers a comprehensive suite of development tools. These tools include reference designs, evaluation boards, and software development kits (SDKs), allowing engineers to optimize the module's performance and streamline the integration process.