Important warning, Connecting the motors – RoboteQ Dual Channel Digital Motor Controller AX500 User Manual

Connecting Power and Motors to the Controller

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AX500 Motor Controller User’s Manual

Version 1.9b. June 1, 2007

There is no need to insert a separate switch on Power cables, although for safety reasons,
it is highly recommended that a way of quickly disconnecting the Motor Power be provided
in the case of loss of control and all of the AX500 safety features fail to activate.

Powering the Controller Using a Main and Backup Battery

In typical applications, the main motor batteries will get eventually weaker and the voltage
will drop below the level needed for the internal microcomputer to properly operate. For all
professional applications it is therefore recommended to add a separate 12V (to 24V)
power supply to ensure proper powering of the controller under any conditions. This dual
battery configuration is highly recommended in 12V systems.

Important Warning

Unless you can ensure a steady 8V to 24V voltage in all conditions, it is recom-
mended that the battery used to power the controller’s electronics be separate from
the one used to power the motors. This is because it is very likely that the motor bat-
teries will be subject to very large current loads which may cause the voltage to
eventually dip below 12V as the batteries’ charge drops. The separate backup power
supply should be connected to the VCon input.

Connecting the Motors

Connecting the motors is simply done by connecting each motor terminal to the M1+
(M2+) and M1- (M2-) terminal. Which motor terminal goes to which of the + or - controller
output is typically determined empirically.

12V to 24V

Motor Battery

12V to 24V

Backup Battery

Power on/off

switch

-

+

+

-

Motor1

Motor2

Controller

Fuse

VMot

VMot

M1+

M1

-

V

Con

GND

GND

GND

M2+

M2-

FIGURE 10. Powering the AX500 with a Main and Backup Supply