Leadshine Technology ME542 User Manual Download Page 6

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ME542 Economical Microstepping Driver Manual V1.0

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Parallel Connections

An 8 lead motor in a parallel configuration offers a more stable, but lower torque at lower speeds. But
because of the lower inductance, there will be higher torque at higher speeds. Multiply the per phase
(or unipolar) current rating by 1.96, or the bipolar current rating by 1.4, to determine the peak output
current.

Figure 9: 8-lead motor parallel connections

6. Power Supply Selection

The ME542 can match medium and small size stepping motors (from Nema size 17 to 34) made by
Leadshine or other motor manufactures around the world. To achieve good driving performances, it is
important  to  select  supply  voltage  and  output  current  properly.  Generally  speaking,  supply  voltage
determines  the  high  speed  performance  of  the  motor,  while  output  current  determines  the  output
torque  of  the  driven  motor  (particularly  at  lower  speed).  Higher  supply  voltage  will  allow  higher
motor speed to be achieved, at the price of more noise and heating. If the motion speed requirement is
low, it

’

s better to use lower supply voltage to decrease noise, heating and improve reliability.

Regulated or Unregulated Power Supply

Both  regulated  and  unregulated  power  supplies  can  be  used  to  supply  the  driver.  However,
unregulated power supplies are preferred due to their ability to withstand current surge. If regulated
power  supplies  (such  as  most  switching  supplies.)  are  indeed  used,  it  is  important  to  have  large
current  output  rating  to  avoid  problems  like  current  clamp,  for  example  using  4A  supply  for  3A
motor-driver operation. On the other hand, if unregulated supply is used, one may use a power supply
of lower current rating than that of motor (typically 50%

～

70% of motor current). The reason is that

the driver draws current from the power supply capacitor of the unregulated supply only during the
ON duration of the PWM cycle, but not during the OFF duration. Therefore, the average current
withdrawn from power supply is considerably less than motor current. For example, two 3A motors
can be well supplied by one power supply of 4A rating.

Multiple Drivers

It is recommended to have multiple drivers to share one power supply to reduce cost, if the supply

ME542 Economical Microstepping Driver Manual V1.0

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has enough capacity. To avoid cross interference,

DO NOT

daisy-chain the power supply input pins

of the drivers. (Instead, please connect them to power supply separately.)

Attention:

NEVER connect power and ground in the wrong direction, as it will damage the ME542.

Selecting Supply Voltage

The power MOSFETS inside the ME542 can actually operate within +20V

－

+50VDC, including

power  input  fluctuation  and  back  EMF  voltage  generated  by  motor  coils  during  motor  shaft
deceleration.  Higher  supply  voltage  can  increase  motor  torque  at  higher  speeds,  thus  helpful  for
avoiding losing steps. However, higher voltage may cause bigger motor vibration at lower speed, and
it may also cause over-voltage protection or even driver damage. Therefore, it is suggested to choose
only  sufficiently  high  supply  voltage  for  intended  applications,  and  it  is  suggested  to  use  power
supplies  with  theoretical  output  voltage  of  +20

～

+ 45V, leaving room for power fluctuation and

back-EMF.

7. Selecting Microstep Resolution and Driver Output Current

This driver uses an 8-bit DIP switch to set microstep resolution, and motor operating current, as
shown below:

Microstep Resolution Selection

Microstep resolution is set by SW5, 6, 7, 8 of the DIP switch

as shown in the following table:

Microstep

Steps/rev.(for 1.8

motor)

SW5