Choosing a power supply, Recommended power supplies – Applied Motion ST10-Plus User Manual

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ST5/10-S Hardware manual

920-0027 Rev. D

2/7/14

Current

The maximum supply current you could ever need is the sum of the two phase currents. However, you will gener-

ally need a lot less than that, depending on the motor type, voltage, speed and load conditions. That’s because

the ST drives use switching amplifiers, converting a high voltage and low current into lower voltage and higher

current. The more the power supply voltage exceeds the motor voltage, the less current you’ll need from the

power supply. A motor running from a 48 volt supply can be expected to draw only half the supply current that it

would with a 24 volt supply.

We recommend the following selection procedure:

1. If you plan to use only a few drives, get a power supply with at least twice the rated phase current of the

motor.

2. If you are designing for mass production and must minimize cost, get one power supply with more than

twice the rated current of the motor. Install the motor in the application and monitor the current coming out

of the power supply and into the drive at various motor loads. This will tell you how much current you really

need so you can design in a lower cost power supply.

Recommended Power Supplies

Applied Motion Products offers two Power Supplies recommended for use with the ST drives. These are switch-

ing power supplies offering 24V and 48V, and an overload current capability making them ideal for use with drive

applications.

Model

Power Output Voltage

PS150A24

150W 24VDC

PS320A48

320W 48VDC

Choosing a Power Supply

When choosing a power supply, there are many things to consider. If you are manufacturing equipment that will

be sold to others, you probably want a supply with all the safety agency approvals. If size and weight are an issue

use a switching supply.

You must also decide what size of power supply (in terms of voltage and current) is needed for your application.

Voltage

PWM drives work by switching the voltage to the motor terminals on and off while monitoring current to achieve a

precise level of phase current. To do this efficiently and silently, you’ll want to have a power supply with a voltage

rating at least five times that of the motor. Depending on how fast you want to run the motor, you may need even

more voltage than that.

If you choose an unregulated power supply, make sure the no load voltage of the supply does not exceed the

drive’s maximum input voltage specification.