TB67S102AFTG,EL

Product Overview

• Category: Integrated Circuit
• Use: Motor Driver
• Characteristics: High voltage, high current, bipolar stepper motor driver
• Package: QFN (Quad Flat No-leads)
• Essence: This product is a motor driver integrated circuit designed to control bipolar stepper motors.
• Packaging/Quantity: Available in tape and reel packaging, with 2500 units per reel.

Specifications

• Operating Voltage: 10V to 44V
• Output Current: Up to 3.5A per phase
• Microstepping: Full-step, half-step, quarter-step, eighth-step, sixteenth-step, and thirty-second-step modes supported
• Protection Features: Overcurrent protection, thermal shutdown, and undervoltage lockout
• Control Interface: Step and direction inputs, enable input, and fault output

Detailed Pin Configuration

The TB67S102AFTG,EL has the following pin configuration:

1. VREF - Reference voltage for motor current control
2. OUT1A - Output 1A of motor coil A
3. OUT1B - Output 1B of motor coil A
4. GND - Ground
5. OUT2A - Output 2A of motor coil B
6. OUT2B - Output 2B of motor coil B
7. VM - Motor supply voltage
8. VCC - Logic supply voltage
9. STP - Step input
10. DIR - Direction input
11. EN - Enable input
12. FLT - Fault output

Functional Features

• Supports various microstepping modes for smooth motor operation
• Built-in protection features ensure safe operation and prevent damage to the motor and driver
• Easy integration into existing motor control systems with step and direction control interface
• Compact package design allows for space-efficient PCB layout

Advantages and Disadvantages

Advantages: - High voltage and current capability for driving powerful stepper motors - Wide operating voltage range provides flexibility in motor selection - Multiple microstepping modes allow for precise motor control - Integrated protection features enhance system reliability

Disadvantages: - Limited to bipolar stepper motor control, not suitable for other motor types - Requires external power supply for motor operation

Working Principles

The TB67S102AFTG,EL operates by receiving step and direction signals from a controller. These signals determine the rotation direction and step size of the connected stepper motor. The integrated circuit then generates the necessary current waveforms to drive the motor coils accordingly. By controlling the timing and sequence of these current waveforms, the motor can be accurately positioned and rotated.

Detailed Application Field Plans

The TB67S102AFTG,EL is commonly used in various applications that require precise control of bipolar stepper motors. Some typical application fields include:

1. Robotics: Used in robotic systems for precise movement control of robot arms, grippers, and other motorized components.
2. CNC Machines: Integrated into computer numerical control (CNC) machines to control the movement of cutting tools, spindles, and other mechanical parts.
3. 3D Printers: Utilized in 3D printers to control the positioning of the print head and the extrusion of filament.
4. Automated Equipment: Incorporated into automated equipment such as conveyor systems, packaging machines, and assembly lines for accurate and synchronized movement control.

Detailed and Complete Alternative Models

1. DRV8825: A popular motor driver IC with similar specifications and functionality.
2. A4988: Another widely used motor driver IC suitable for bipolar stepper motors.
3. L298N: Dual H-bridge motor driver IC capable of driving both bipolar and unipolar stepper motors.

These alternative models offer similar features and can be considered as substitutes for the TB67S102AFTG,EL depending on specific requirements and system compatibility.

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