ON Semiconductor LV4904V-TLM-E Motor Driver IC

The LV4904V-TLM-E from ON Semiconductor is a high-performance motor driver IC designed to meet the demanding requirements of modern motor control applications. This versatile chip is capable of driving both brushed DC motors and stepper motors, making it an excellent choice for a wide range of consumer electronics, automotive, and industrial systems.

Key Features

• Multiple Motor Types: Compatible with brushed DC and stepper motors, offering flexibility in application design.
• High Voltage Operation: Capable of operating at voltages up to 36V, making it suitable for a variety of power environments.
• High Output Current: Delivers up to 1A of continuous output current per channel, ensuring robust performance for demanding applications.
• Integrated Protection Circuits: Features under-voltage lockout (UVLO), thermal shutdown (TSD), and over-current protection (OCP) to ensure safe operation under adverse conditions.
• Low RDS(on): Minimizes power loss and heat generation with its low on-resistance.
• Small Package: Comes in a compact SSOP24 package, saving valuable board space in space-constrained applications.

Applications

The LV4904V-TLM-E is ideal for a variety of applications where precise and reliable motor control is essential. It is commonly used in:

• Office automation machines like printers and scanners
• Consumer electronics including cameras and gaming consoles
• Automotive applications such as mirror adjustment and HVAC systems
• Small industrial equipment

Performance and Efficiency

ON Semiconductor's LV4904V-TLM-E is engineered for efficiency. With its low RDS(on), the IC ensures minimal power loss during operation, which translates to lower heat dissipation and improved energy savings. Additionally, the integrated protection features contribute to the longevity of the IC and the overall reliability of the system it controls.

Whether you're developing a new product or optimizing an existing one, the LV4904V-TLM-E provides the performance, flexibility, and reliability that modern motor control applications demand.