Twotrees TB6600 Stepper Motor Driver for NEMA 23 & NEMA 17 | Twotrees CNC Router Parts Accessories

This is a professional two-phase stepper motor driver. It can realize forward and reverse control, select 7-speed subdivision control through 3-position DIP switch (1,2/A,2/B,4,8,16,32) select 8-level current through 3-position DIP switch Control (0.5A, 1A, 1.5A, 2A, 2.5A, 2.8A, 3.0A, 3.5A) suitable for driving 57 and 42 two-phase and four-phase hybrid stepping motors. It can drive the motor with low vibration, low noise and high speed.

- Original brand new stepper motor driver chip
- The current is selected by the DIP switch
- Large-area heat sink is not afraid of high temperature environment use
- Seven subdivisions are adjustable
- Automatic half flow to reduce heat generation
- The interface adopts high-speed optocoupler isolation
- Strong anti-high frequency interference ability
- Input voltage anti-reverse protection
- Overheating, overcurrent short circuit protection

Input voltage: DC9-40V
Input Current: Recommended to use switching power supply power 5A
Output current: 0.5-4.0A
Maximum power consumption: 160W
Subdivided: 1, 2/A, 2/B, 4, 8, 16, 32
Temperature: Working temperature-10~45 °C; Storage temperature -40 C~ 70 °C
Humidity: No condensation, no water drops
Gas: No flammable gas and conductive dust

The number of subdivisions is selected and set by the dial switch on the drive board. The user can set according to the data of the subdivision selection table on the drive box (preferably set when the power is off). The step angle is calculated by the following method: step angle = motor inherent step angle / number of subdivisions. For example: A stepping motor with an inherent step angle of 1.8° under4 subdivisions has a step angle of 1.8° /4=0.45 DIP switch on drive board 1, 2, and 3 on the drive board correspond to S1, S2, and S3 respectively.

There are three input signals, they are: Ostep pulse signal PUL+, PUL-; ②direction level signal DIR+, DIR- ③offline signal EN+, EN-. There are two connection methods for the input signal interface. Users can adopt common anode connection or common cathode connection according to their needs. Common anode connection: connect PUL+, DIR+, EN+ to the power supply of the control system respectively. The pulse input signal is connected through CP-, the direction signal is connected through DIR-, and the enable signal is connected through EN-. As shown below:

Common cathode connection: Connect PUL-,DIR-, EN-to the ground of the control system respectively: the pulse input signal is connected through PUL+, the direction signal is connected through DIR+, and the enable signal is connected through EN+. If a current-limiting resistor is required, the connection method of the current-limiting resistor R is the same as the common anode connection. As shown below:

Note: The EN terminal can be left unconnected. When EN is valid, the motor rotor is in a free state (off-line state). At this time, you can manually rotate the motor shaft to make adjustments that suit you. After the manual adjustment is completed, set EN to an invalid state to continue automatic control.

The wiring between the driver and the controller, motor, and power supply, take the common anode connection as an example, as shown in the figure below:

Note:
Please disconnect the power when wiring, and the motor wiring needs to be careful not to be out of phase and short-circuit within the phase to avoid damage to the drive.

About offline function
After turning on the offline function, the motor rotor is in a free and unlocked state and can rotate easily. At this time, the input pulse signal does not respond. After turning off this signal, the motor receives the pulse signal and runs normally.

Frequently Asked Questions
1. Question: How can I get started as soon as possible when using this stepper driver for the first time?
Answer: After connecting the power supply and the motor correctly, only connect the pulse signal PUL (first set the frequency to within 1K), set the subdivision to 16 directions and hang off-line. At this time, the motor will rotate forward by default after power-on.After running without error, test the acceleration (increasing frequency), direction, subdivision and offline functions in turn.

2. Question: Is it necessary to add series resistance when the control signal is higher than 5V?
Answer: No, the drive control signal supports 3.3V-24V voltage after the upgrade.

3. Question: After wiring, the power indicator is on, but the motor does not rotate. What is the reason?
Answer: If the wiring is correct, but it still does not turn, it means that the drive capacity of the control part is not enough. This situation often occurs in the direct control mode of the io port of the single-chip microcomputer. Please ensure that the control interface has a 5mA drive capability.

4. Question: How to judge the definition of the four lines of a stepper motor?
Answer: When connecting any two wires of the motor, there is resistance when twisting the motor rotor by hand, then the two wires are the same phase and can be connected to the drive A+ and A-; the other two wires still have resistance when they are shorted. Then connect these two lines to B+ and B-.

5. Question: The forward and reverse rotation of the motor is opposite to what should actually be achieved?
Answer: It is only necessary to interchange the two wires of one phase of the motor.

Specifications

Power Supply: DC
Motor Type: Stepper Motor
Model Number: TB6600
Certification: CE
Brand Name: TwoTrees