Anaheim MICROSTEP DRIVER MDM40001 User Manual

#L010068

#L010068

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18

TIMING

FAULT PROTECTION

The Direction and Microstep Resolution Select inputs are synchronized with the positive

The MDM40001 is internally protected against over temperature and short circuits.

going edge of the Step Clock input. When the Step Clock input goes high, the Direction

The over temperature set point is between 60

EC and 70EC. Care should be taken when

and Microstep Select inputs are latched and further changes to the inputs are ignored

choosing a heatsink so that there is good thermal flow, otherwise hot spots may occur in

until the next rising edge of the Step Clock input.

the MDM40001 which will reduce the effectiveness of the thermal protection.

After these signals are latched, the MDM40001 looks to see if any changes have occurred

The short circuit protection consists of PHASE to PHASE, PHASE to GROUND, and +V

to the Direction and the Microstep Select inputs. If a change has occurred, the

to PHASE.

MDM40001 will execute the change before taking the next step. Only AFTER the
change has been executed will the step be taken. If no change has occurred the

If any fault is detected by the MDM40001, the outputs will be disabled and can not be re-

MDM40001 will simply take the next step. This feature works as an automatic debounce

enabled without resetting or powering down the driver. At the same time the open

for the Direction and Microstep Select inputs.

collector FAULT output is turned on.

The minimum pulse width for the Clock input is 75 nS. The typical execution time for

The FAULT output is non-isolated and has the ability to sustain the maximum driver

a Direction or Microstep Select change is 100nS. The typical execution time for a Clock

voltage. It is capable of sinking up to 25mA which can be used to drive a small relay or

input is 100nS.

LED.

The Reset and Enable inputs are asynchronous to any input and can be changed at any
time.

The Reset requires a minimum pulse width of 500 nS.

The Fullstep output typically occurs 75nS after the positive edge of the Step Clock

overheating. It does this by monitoring the surface temperature of the drive plate and

(excluding changes to the Direction or the Microstep Select inputs).

will automatically shutdown if the temperature reaches 60°C (152°F).

OVER TEMPERATURE PROTECTION

The MDM40001 microstepping is a power device and is designed to protect itself from

To prevent nuisance shutdowns, proper heatsinking is required to limit the temperature
at the drive plate.

A thermal grease or thermal pad should be used between the drive plate and the
mounting surface of the heatsink. The fins of the heatsink should be mounted vertically
with at least 3" of space below and above the heatsink for efficient cooling.

In some applications fan cooling will be required to maintain the plate temperature below
the 60°C shutdown temperature.