Connecting Power and Motors to the Controller

It is therefore essential that the AX500 be connected to rechargeable batteries. If a power supply is used instead, the current will attempt to flow back in the power supply during regeneration, potentially damaging it and/or the controller.

Regeneration can also cause potential problems if the battery is disconnected while the motors are still spinning. In such a case, and depending on the command level applied at that time, the regenerated current will attempt to flow back to the battery. Since none is present, the voltage will rise to potentially unsafe levels. The AX500 includes an overvolt- age protection circuit to prevent damage to the output transistors (see “Overvoltage Pro- tection” on page 32). However, if there is a possiblity that the motor could be made to spin and generate a voltage higher than 40V, a path to the battery must be provided, even after a fuse is blown. This can be accomplished by inserting a diode across the fuse .

Please download the Application Note “Understanding Regeneration” from the

www.roboteq.com for an in-depth discussion of this complex but important topic.

Important Warning

Use the AX500 only with a rechargeable battery as supply to the Motor Power wires(VMot terminals). If a transformer or power supply is used, damage to the con- troller and/or power supply may occur during regeneration. See “Using the Control- ler with a Power Supply” on page 33 for details.

Important Warning

Avoid switching Off or cutting open the main power cables (VMot terminals) while the motors are spinning. Damage to the controller may occur.

Overvoltage Protection

The AX500 includes a battery voltage monitoring circuit that will cause the output transis- tors to be turned Off if the main battery voltage rises above 43V.

This protection is designed to prevent the voltage created by the motors during regenera- tion to be “amplified” to unsafe levels by the switching circuit.

The controller will resume normal operation when the measured voltage drops below 43V.

Undervoltage Protection

In order to ensure that the power MOSFET transistors are switched properly, the AX500 monitors the internal 12V power supply that is used by the MOSFET drivers. If the internal voltage drops below 10V, the controller’s output stage is turned Off. The rest of the control- ler’s electronics, including the microcomputer, will remain operational as long as the inter- nal voltage is above 8V.

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AX500 Motor Controller User’s Manual

Version 1.9b. June 1, 2007

Page 32
Image 32
RoboteQ AX500 manual Overvoltage Protection, Undervoltage Protection