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TB6560AHQ

Overview

Category: Integrated Circuit (IC)
Use: Motor Driver
Characteristics:
- High voltage and high current driver
- Bipolar stepper motor control
- Suitable for CNC machines and robotics applications
Package: HQFP (Heat Sink Quad Flat Package)
Essence: Efficient and precise motor control
Packaging/Quantity: Typically sold in reels of 250 units

Specifications

Supply Voltage: 10V to 35V
Output Current: Up to 3.5A per phase
Maximum Output Power: 50W
Logic Input Voltage: 3.3V to 5V
Operating Temperature Range: -40°C to +85°C

Pin Configuration

The TB6560AHQ has a total of 32 pins, which are assigned as follows:

VCC1: Supply voltage for the internal logic circuitry.
GND1: Ground reference for the internal logic circuitry.
IN1: Input pin for controlling the motor winding A+.
IN2: Input pin for controlling the motor winding A-.
OUT1: Output pin for driving the motor winding A+.
OUT2: Output pin for driving the motor winding A-.
VREF1: Reference voltage input for setting the motor current.
VCC2: Supply voltage for the motor driver circuitry.
GND2: Ground reference for the motor driver circuitry.
IN3: Input pin for controlling the motor winding B+.
IN4: Input pin for controlling the motor winding B-.
OUT3: Output pin for driving the motor winding B+.
OUT4: Output pin for driving the motor winding B-.
VREF2: Reference voltage input for setting the motor current.
CP1: Charge pump output for boosting the gate voltage of the high-side MOSFETs.
CP2: Charge pump output for boosting the gate voltage of the high-side MOSFETs.
VCC3: Supply voltage for the charge pump circuitry.
GND3: Ground reference for the charge pump circuitry.
ENA: Enable input for enabling/disabling the motor driver.
ENB: Enable input for enabling/disabling the motor driver.
CLK: Clock input for controlling the microstepping mode.
DIR: Direction input for controlling the motor rotation direction.
M0: Microstep resolution selection input.
M1: Microstep resolution selection input.
M2: Microstep resolution selection input.
RESET: Reset input for resetting the internal logic circuitry.
SLEEP: Sleep input for putting the motor driver into sleep mode.
FAULT: Fault output indicating overcurrent or thermal shutdown conditions.
VREF3: Reference voltage input for setting the charge pump voltage.
VCC4: Supply voltage for the fault detection circuitry.
GND4: Ground reference for the fault detection circuitry.
VREF4: Reference voltage input for setting the fault detection threshold.

Functional Features

Bipolar stepper motor control: The TB6560AHQ is specifically designed to drive bipolar stepper motors, providing precise control over motor speed and position.
High voltage and high current capability: With a supply voltage range of 10V to 35V and an output current of up to 3.5A per phase, this motor driver can handle demanding applications that require high torque and power.
Microstepping support: The TB6560AHQ supports various microstepping modes (full-step, half-step, 1/4-step, 1/8-step, and 1/16-step), allowing for smoother and more accurate motor movements.
Thermal shutdown and overcurrent protection: The integrated fault detection circuitry ensures the safety of the motor driver by detecting and protecting against excessive temperature and current conditions.

Advantages

Versatile motor driver suitable for a wide range of applications, including CNC machines and robotics.
High voltage and high current capability enable driving powerful stepper motors.
Microstepping support allows for precise control and smooth motor movements.
Integrated fault detection circuitry provides protection against overcurrent and thermal shutdown conditions.

Disadvantages

Limited to bipolar stepper motor control, not compatible with unipolar stepper motors.
Requires external components (such as resistors and capacitors) for proper operation and motor current adjustment.

Working Principles

The TB6560AHQ operates by receiving control signals from a microcontroller or other control circuitry. These control signals determine the motor rotation direction, step size, and enable/disable status. Based on these inputs, the internal logic circuitry generates appropriate drive signals for the motor windings

Maglista ng 10 karaniwang tanong at sagot na nauugnay sa aplikasyon ng TB6560AHQ sa mga teknikal na solusyon

Sure! Here are 10 common questions and answers related to the application of TB6560AHQ in technical solutions:

Question: What is TB6560AHQ?
- Answer: TB6560AHQ is a stepper motor driver IC that can be used to control bipolar stepper motors.
Question: What is the maximum voltage rating for TB6560AHQ?
- Answer: The maximum voltage rating for TB6560AHQ is 40V.
Question: What is the maximum current rating for TB6560AHQ?
- Answer: The maximum current rating for TB6560AHQ is 3A.
Question: Can TB6560AHQ be used with both unipolar and bipolar stepper motors?
- Answer: No, TB6560AHQ is designed specifically for bipolar stepper motors.
Question: How many stepper motors can be controlled using TB6560AHQ?
- Answer: TB6560AHQ can control one bipolar stepper motor.
Question: Does TB6560AHQ support microstepping?
- Answer: Yes, TB6560AHQ supports up to 1/16 microstepping.
Question: What is the recommended power supply voltage for TB6560AHQ?
- Answer: The recommended power supply voltage for TB6560AHQ is 12-24V DC.
Question: Can TB6560AHQ be used in CNC machines?
- Answer: Yes, TB6560AHQ is commonly used in CNC machines for controlling the movement of stepper motors.
Question: Is TB6560AHQ compatible with Arduino?
- Answer: Yes, TB6560AHQ can be easily interfaced with Arduino or other microcontrollers for motor control.
Question: Are there any important precautions to consider when using TB6560AHQ?
- Answer: Yes, it is important to properly heatsink the TB6560AHQ to prevent overheating. Additionally, ensure that the power supply voltage and current are within the specified limits to avoid damaging the IC.