Product Overview: LB1964T-TLM-E

The LB1964T-TLM-E is a high-performance, low-voltage motor driver IC manufactured by ON Semiconductor, a leading supplier in the semiconductor industry. This compact and efficient integrated circuit is designed to provide a comprehensive solution for controlling small motors found in a variety of applications such as home appliances, office automation equipment, and consumer electronics.

Key Features

• Low Voltage Operation: The LB1964T-TLM-E operates at a voltage range that is ideal for battery-powered devices, ensuring efficient use of power and extending the battery life of portable applications.
• High Efficiency: With its advanced design, the IC offers high efficiency, which is crucial for reducing heat generation and power consumption in compact electronic devices.
• Compact Size: The small form factor of the LB1964T-TLM-E makes it an excellent choice for space-constrained applications where board real estate is at a premium.
• Dual H-Bridge Configuration: The IC incorporates two H-bridge drivers, allowing for bidirectional control of two DC motors or one stepping motor, providing versatility in various motor control applications.
• Protection Features: Equipped with multiple protection features such as thermal shutdown, under-voltage lockout, and overcurrent protection, the LB1964T-TLM-E ensures reliable operation and longevity of the end product.

Applications

The LB1964T-TLM-E is suitable for a wide range of applications, including but not limited to:

• Portable electronic devices
• Office automation machines
• Small home appliances
• Battery-powered toys
• Healthcare devices

Technical Specifications

The LB1964T-TLM-E is available in a TSSOP-16 package and has the following technical specifications:

• Supply Voltage: 2.5V to 9.0V
• Output Current: Up to 1.0A per channel
• Operating Temperature: -20°C to +85°C

With its robust design and comprehensive feature set, the LB1964T-TLM-E from ON Semiconductor is an ideal motor driver solution for designers looking to enhance the performance and reliability of their motor control applications.