Overview of RB160MM-50TR by ROHM Semiconductor
The RB160MM-50TR by ROHM Semiconductor is a Schottky barrier diode specified for a reverse voltage of up to 40 volts and a forward current of 1 ampere. It is encapsulated in a small outline SOD-123FL package and is typically supplied in tape and reel format, facilitating automated assembly processes. As a Rectifier Diode, it is designed for general-purpose applications where high efficiency and low power loss are required.
This diode is characterized by its small package size, the SC-109B, 2 PIN, which is a small outline package ideal for compact electronic devices. It supports a maximum operating temperature of 150°C and can handle a peak reverse voltage (rep pk reverse voltage) of up to 50 volts, making it robust for various electronic environments. Its moisture sensitivity level (MSL) is rated at 1, indicating high reliability during soldering at a peak reflow temperature of 260°C for no more than 10 seconds.
The RB160MM-50TR stands out due to its environmental and compliance features: it is lead-free, RoHS compliant, while not being REACH compliant, and classified under the ECCN Code “EAR99” for export control, which simplifies international trade. The diode technology is based on silicon, utilizing Schottky technology for enhanced performance in rectification applications.
Industry Applications for RB160MM-50TR
The RB160MM-50TR may be potentially applicable across various industries due to its general-purpose nature and electronic characteristics. Here are a few industries where it might be used, considering its operational specifications and attributes:
- Consumer Electronics: Devices such as laptops, cameras, or portable music players could potentially utilize this diode for power management and efficiency, enhancing device reliability and battery life.
- Telecommunications: This diode could possibly be used in telecommunications equipment for rectifying signals or in power supplies, where minimal power loss and high efficiency are critical.
- Computing and Data Storage: In computing hardware, high-speed rectification is essential for power supply units and data storage systems. The RB160MM-50TR could be used to optimize the performance and reliability of these systems.
- Industrial Automation: Automated machinery and control systems that require dependable power management might incorporate this diode to ensure consistent operation under varying electrical loads.
Please note that these potential industry applications are illustrative and require further evaluation by engineering and design teams to ensure adherence to specific industry standards and application requirements.
About ROHM Semiconductor
ROHM Semiconductor is a prominent manufacturer in the electronics industry, particularly known for its high-quality Rectifier Diodes and other diode technologies. The company specializes in the design and manufacture of semiconductors, integrated circuits, and other electronic components, which are widely used across various applications and industries. The RB160MM-50TR represents just one example of ROHM’s innovative approach to semiconductor design, offering dependable performance for general-purpose rectification needs. ROHM’s commitment to environmental compliance and high reliability makes its products suitable for a wide range of both consumer and industrial applications.
Where to Find RB160MM-50TR by ROHM Semiconductor
To purchase the RB160MM-50TR, it is recommended to visit findchips.com where you can compare current stock levels and pricing from various distributors. Historically, this part has been available through distributors such as Chip1Stop, Avnet Silica, Ameya Holding Limited, TTI, Quest Components, Future Electronics, Mouser Electronics, Avnet Americas, and DigiKey. However, availability can vary, so checking real-time stock and pricing information on findchips.com is advisable. Additionally, for those interested in alternative Rectifier Diodes that might be offered by ROHM Semiconductor or other manufacturers, findchips.com provides a comprehensive platform to explore these options.