Feature(may vary by option.)
●8 high-power MOSFETs separately mounted on the motherboard with 100V voltage resistance, 93A current resistance, and equivalent resistance as low as 6mΩ, significantly enhancing the drives performance;
●Supports a maximum voltage of 60V, a maximum effective current (IRMS) of 10.6A, and a sine wave peak current of up to 15A; StealthChop mode and SpreadCycle mode selectable, with standalone mode, UART mode, and SPI mode selectable;
●Integrated heat sink design, providing high heat dissipation while enhancing structural integrity and aesthetics; Heat sink pre-designed with fan mounting holes for DIY fan installation.
●On-board 24V always-on fan interface facilitates active cooling; ESD protection on the drive power, logic power, etc., to prevent damage due to power fluctuations and static electricity;
●Supplied with adapters and wires for both standard drives and EZ drive, for user convenience; Encoder interface reserved for DIY usage;
[TMC5160T V1.0 (without case)]
[S2DW V1.0]
[Manta M8P V2.0]
[TMC5160T V1.0 (with case)]
Description
BIGTREETECH TMC5160T Plus Stepper Motor Driver
Product Specifications:
Drive Chip: TMC5160-TA
Input Voltage (HVIN): 8V-60V
Maximum Effective Current: 10.6A, Sine Wave Peak Current 15A
Capacitor: 2 x 560uF
Maximum Subdivision: 256
Operating Mode: SPI, SD
Sampling Resistor: 22mΩ
Note:
1.Turn off the power before installing the driver to prevent damage.
2.Do not plug or unplug the driver module with power on to avoid damage.
3.Be cautious of polarity when connecting; reversing can cause the driver to burn out.
4.The factory-installed heat sink should not be removed, as doing so will decrease heat dissipation in the absence of thermal interface material.
5.For large currents (greater than 3A), active cooling is required for normal operation.
6.This product uses a 0.022R sampling resistor, so the maximum effective driving current is 10.6A.
7.Pay attention to the power sequence; ensure the driver power is turned on before the logic power. That is, turn on the driver power first, then power on the motherboard.
8.Regardless of whether the driver uses high or low voltage power delivery, the output voltage from the main control board to the drive must not exceed 24V; exceeding this will damage the driver.