Overview of L293DD013TR by STMicroelectronics
The L293DD013TR by STMicroelectronics is a push-pull four-channel driver equipped with diodes, designed to drive both DC and stepper motors. It is encapsulated in a SOIC-20 package, providing a compact solution for controlling motors in a variety of applications. This driver is capable of outputting 600mA per channel, with the supply voltage ranging from 4.5V to a maximum of 36V. Its output current capacity, wide voltage range, and integration of diodes for back-EMF protection make it a versatile choice for driving small to medium-sized DC or stepper motors.
This part is noteworthy for its robustness, featuring built-in thermal protection and a moisture sensitivity level (MSL) of 3, which ensures reliable operation in various environments. The L293DD013TR supports both source and sink output current flow directions, offering flexibility in connecting loads. It is RoHS compliant, indicating adherence to strict hazardous material standards in its manufacture. As an active component within STMicroelectronics’ portfolio, its lifecycle status guarantees ongoing availability and support, which is crucial for long-term projects and designs.
Industry Applications for L293DD013TR
The L293DD013TR is potentially suitable for a diverse array of industries thanks to its versatility and robust feature set. While its applications are vast, here are some key industries and potential use cases:
- Education and Research: In educational settings or research labs, the L293DD013TR might be employed in the development of prototype robotic systems or in laboratory automation equipment, benefiting from its simplicity and ease of use for driving motors.
- Robotics and Drones: For robotics applications, this motor driver could potentially be used in small autonomous robots, drone actuators, or other unmanned vehicles, leveraging its ability to control motors precisely and efficiently.
- Agriculture Technology: In the burgeoning field of agriculture technology, the L293DD013TR could conceptually be utilized in automated farming equipment, such as small-scale seed planters or soil analysis devices, benefiting from its durability and power efficiency.
- Consumer Electronics: This driver might find use in consumer electronics, for instance, in battery-operated toys or handheld electronic devices, where compact size and efficient power use are paramount.
Please note that these potential industry applications are conceptual and illustrative. The suitability of the L293DD013TR for any given application requires thorough analysis and verification by engineering and design teams to ensure adherence to industry standards and specific application requirements.
About STMicroelectronics
STMicroelectronics is a global leader in the semiconductor industry, known for its broad range of electronic components, including an extensive portfolio of Peripheral Drivers. Among these, the L293DD013TR stands out as a testament to STMicroelectronics’ commitment to innovation and reliability in motor control technology. STMicroelectronics designs and manufactures a variety of similar parts tailored to different application needs, ensuring that design engineers can find the right component for their specific requirements. Their focus on quality, performance, and sustainability makes them a preferred choice for professionals in the field of Drivers And Interfaces.
Where to Find L293DD013TR by STMicroelectronics
To purchase the L293DD013TR or explore alternative Peripheral Drivers suitable for your application, referring to findchips.com is recommended. Findchips.com offers a comprehensive database of components from various manufacturers, including STMicroelectronics, allowing users to compare stock availability, pricing, and other pertinent details. Historically, the L293DD013TR has been available from distributors such as Win Source Electronics, Mouser Electronics, DigiKey, and Newark, among others. However, to obtain the most current information on stock levels, pricing, and potential alternatives, visiting findchips.com is advisable.