Stepper motor driver
Leadshine ND1082

Analog Technology, max. 100VAC/8.2A

Download data sheet Download user manual

The ND1082 is a high performance microstepping drive based on pure-sinusoidal current control technology. Owing to that and the self-adjustment technology (self-adjust current control parameters) according to different motors, the driven motors can run with less noise, generating less heat, move smoother and have better performance at higher speed than most of the drives on the market. In addition, the ND1082 has a built-in EMI filter which can make the driver operate with higher reliability. The driver is suitable for driving 2-phase and 4-phase hybrid stepping motors.

• High performance, cost-effective
• Supply voltage up to 100VAC (140VDC)
• Output current up to 8.2A
• Output current selectable in 16 steps via DIP-switch
• Automatic idle-current reduction (in standstill mode) to reduce motor heating; function switchable
• Self-adjustment technology
• Pure-sinusoidal current control technology
• Pulse input frequency up to 400 kHz
• TTL compatible and optically isolated input
• 15 selectable resolutions in decimal and binary, up to 25,600 steps/rev
• Suitable for 2-phase and 4-phase motors
• Support PUL/DIR and CW/CCW modes
• Short-voltage, over-voltage, over-current protections

Parameters	Min	Typ.	Max	Unit
Output current	0.7 (0.3 RMS)	-	8.2 (5.86 eff.)	A
Supply voltage	60 (84)	80 (100)	100 (140)	VAC (VDC)
Logic signal current	7	10	16	mA
Puls input frequency	0	-	400	kHz
Insulation resistance	500			MO

Parameters	Min	Typ.	Max
Microsteps/1.8°	400		25,600
PUL/PUL CW		X
Double pulse CCW		X
NEMA sizes	17		34
Motor type Mecheltron	42BYGH-XXXX		86BYGH-XXXX

Suitable for a wide range of stepping motors of NEMA sizes 17, 23, 24 and 34 (42x42 mm to 86x86 mm). It can be used in various kinds of machines, such as X-Y tables, engraving machines, labeling machines, laser cutters, pick-place devices, and so on. Particularly well suited for applications where low noise levels, less heat development, high speed and high precision are desired.

A typical system consists of stepper motor, stepper motor driver, power supply and controller. The following image shows a typical connection schematic: