Description:

• Motorola's MC3479P stepper motor driver IC is specifically developed to operate bipolar stepper motors, offering accurate and efficient control over their operations.
• Stepper Motor Driver: Controls the current flow through the stepper motor coils to ensure precise stepping.
• Bipolar Mode: Operates in two-phase bipolar mode, which is perfect for bipolar stepper motors.
• Voltage Range: Works with a supply voltage range of 7.2V to 16.5V.
• Output Current: Can supply up to 350mA per coil.
• Logic Sequencing: Contains internal logic sequences to control the stepping process.
• Stepper Motor Driver: Controls the current flow through the stepper motor coils to ensure precise stepping.
• Bipolar Mode: Operates in two-phase bipolar mode, which is perfect for bipolar stepper motors.
• Voltage Range: Works with a supply voltage range of 7.2V to 16.5V.
• Output Current: Can supply up to 350mA per coil.
• Logic Sequencing: Contains internal logic sequences to control the stepping process.
• High output capability: Can drive up to 350mA per coil, making it appropriate for a variety of stepper motors.
• Clamp Diodes: Internal clamp diodes prevent voltage spikes and back-EMF.
• CW/CCW and Full/Half Step Modes: Choose between clockwise (CW) and counterclockwise (CCW) rotation and full or half step operation.
• TTL/CMOS Compatible Inputs: These inputs support typical digital logic levels, making interfacing with controllers easier.
• Internal safeguards ensure safe and reliable functioning.
• This IC is especially suitable for projects that require consistent and accurate control over stepper motor motions.