Automation power supplies header

Automation Power Supplies

The Automation market covers a massively diverse set of applications, industrial printing, pharmaceutical, process, building, lab, home, MRO, with systems requiring power for motors, actuators, pumps, fans and the need to deal with the peak current demands seen with this type of equipment. Fidus have the products and the knowledge to offer the best technical solution at a competitive price.

Our automation power products

AC-DC Power Supplies

AC-DC Power Supplies

AC-DC Power Supplies from 2 to 2200 Watts, encapsulated PCB mount, chassis mount, configurable and open-frame formats. The latest IT and Medical approvals. Peak power products available for optimal power supply selection.

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DC-DC Converter

DC-DC Converter

Low cost reliable industry standard DC/DC converters from 0.75 to 60W. Wide range inputs, high isolation options and impressive power densities. Product available with short lead-times and with high stock on common items. Form, fit and function equivalents of most suppliers.

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More information about automation power

The current drawn in most automation style applications is non-linear and has peak demands, such as the start-up current of a motor. Traditionally, a design engineer will select the power supply based on the expected maximum total system power; Calculating the total power from the maximum current and voltage used in each of the load elements in the system. By looking more closely at the peak currents used it is possible to offer a reliable solution but with cost savings.

Peak power

VKR300 automation power supply

When driving electromechanical devices, the current can be significantly higher than normal for short durations, often lasting for hundreds of milliseconds or a few seconds at the very most. A good alternative to adding up the total maximum powers is to select a power supply with a peak power rating which have the ability to exceed their normal power ratings for short periods without going into over current protection. A major concern of engineers is system lifetime. The peak power requirements typically have a very minor impact on power supply average operating component temperature and so have little impact on lifetime.

Understanding peak power allows you to optimise your power supply selection. Power supplies are rated with either a convection cooled and/or fan cooled rating and some with a peak power rating. The peak ratings are specified for a limited period of time and for a maximum duty cycle. The duty cycle is defined as a percentage of the total operating time. When using peak power, it is important to make sure the average power rating does not exceed the continuous power rating.

For example purposes consider our 3 x 5” package VKR300. It has a convection rating of 200W, a fan cooled rating of 300W and a peak rating of 400W. The peak rating can last for 5s at a max duty cycle of 10%.

Robotics Diagram

Fig. 1: Peak, non-peak and max average power.

Definitions, equations & example calculations –

  • Pnpk - Available non-peak power 
  • Pavm - Maximum available average power (PSU rating) 
  • Ppk - Peak power 
  • T - Total period 
  • t – Peak pulse width

Using the VKR300 ratings for the example; it is useful for an engineer to be able to calculate what the available non-peak power is, knowing his peak power requirements. For this example, we will consider the customer’s application as 400W peak for 5sec, duty cycle 10%. So “T” equals 5/0.1=50sec. 200W convection rating maximum continuous power.

Equation Two

So the non-peak available convection cooled power equals 178Watts.

In this situation you have selected a 200W convection cooled power supply, considered your peak power, understand that the non-peak power is 178W and that it can cope with a 400W peak for 5sec with a 10% duty cycle. The designer who just adds up his maximum requirements will specify a 400W power supply, which will be 50-70% higher cost and with a larger form factor. The pressure for modern designers to achieve high quality, reliable solutions at a good price has increased. Considering the load like this will give large benefits to your design.

If you know both your peak and non-peak power levels and duration and duty cycle you can calculate your average power and verify if it exceeds the maximum rating of your possible power supply selection. The equation for this is below –

Equation 3

Where Pav is the average power of the application and T1 is the duration of non-peak power.

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