Overview of LM2662MX/NOPB by Texas Instruments
The LM2662MX/NOPB is a 200mA switched capacitor voltage converter, housed in an 8-SOIC package and capable of operating within a temperature range of -40 to 85 degrees Celsius. This device serves primarily as a charge pump and can function both as a voltage doubler and inverter, making it highly versatile for various circuit designs. The device supports an adjustable output type and handles an input voltage range from a minimum of 1.5V to a maximum of 5.5V. The converter IC case follows the SOIC standard and the component has eight pins.
The Switching Regulator or Controllers are critical in power management applications allowing them to function efficiently with minimal energy loss. Offering a high degree of flexibility, the LM2662MX/NOPB accommodates numerous part data attributes, such as moisture sensitivity level 1, switching frequency max of 75 kHz, nominal supply voltage of 5V, and a maximum output voltage of 11V. It’s compliant with RoHS, REACH, and encapsulated in a green, plastic, environmentally friendly package, certified as Pb-free. These features make it an essential component for engineers and designers focusing on creating eco-friendly and energy-efficient solutions.
Industry Applications for LM2662MX/NOPB
The versatile specifications of LM2662MX/NOPB allow it to potentially fit into various industrial applications. Here are examples where this part could be useful subject to proper verification and analysis by engineering teams:
- Consumer Electronics: It could potentially be used in portable devices that require efficient power management systems to extend battery life. Features like the adjustable output and wide input voltage range make it suitable for devices like portable media players and digital cameras that need a stable and efficient power supply.
- Energy and Power Systems: The part’s ability to operate across a wide range of temperatures and its high switching frequency might make it suitable for use in energy management devices within smart grids or renewable energy systems, where varying power levels need to be managed consistently and efficiently.
- Automotive: Although specific automotive standards like AEC-Q100 are not mentioned in its attributes, if further tested and qualified, this component might be used in vehicle power systems where voltage conversion with minimal space and heat generation is crucial.
Note that these potential industry applications are only conceptual/illustrative and require thorough analysis and verification by engineering and design teams for adherence to industry standards and specific application requirements.
About Texas Instruments
Texas Instruments (TI) is widely recognized for its robust catalog of semiconductor products, including a significant emphasis on Switching Regulator or Controllers within the broader category of Power Circuits. TI’s commitment to innovation in power management technology is evident from their extensive range of products similar to the LM2662MX/NOPB, which are designed to enhance the efficiency and performance of electronic systems across a multitude of applications. Products like these not only underscore TI’s expertise in CMOS technology but also reflect their dedication to sustainability through lead-free and RoHS-compliant manufacturing practices.
Where to Find LM2662MX/NOPB by Texas Instruments
To procure the LM2662MX/NOPB, it’s advisable to utilize resources such as findchips.com. By visiting findchips.com you can access real-time information on stock availability and pricing from various distributors. Historically, this part has been available from distributors such as Win Source Electronics, Chip1Stop, Ameya Holding Limited, Mouser Electronics, DigiKey, and Newark. However, checking on findchips.com is recommended to get the latest on procurement options.
Moreover, for alternative parts, exploring the Switching Regulator or Controllers link will help find other options that Texas Instruments or other manufacturers might offer which could suit different application needs depending on current design requirements.