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Tailoring the motor to the application through appropriate coil selection

21/09/2021 11:33:02
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ImagesClick Image for 300dpi jpg fileTailoring the motor to the application through appropriate coil selectionTailoring the motor to the application through appropriate coil selection

During the selection of a miniature DC motor, the design engineer will of course consider the dimensions needed to fit the desired space as well as the working point (the torque and speed at which the motor is required to operate). This information will be readily available in most motor product catalogues. Alongside this information there will also often be a choice of coils.

Valentin Raschke, application engineer at Portescap, examines how choice of coil impacts on the motor specification, making it possible to adapt the motor to the available power source to create the most efficient solution for a given application.

Regardless of its construction, a DC motor is always performing the same job – converting electrical energy into mechanical energy. For any given application, there might be a whole range of motors available that could potentially do the job, with the designer making the eventual selection based on parameters such as size, weight, efficiency, torque & speed requirements, lifespan and cost.

Taking those factors into consideration might lead the designer to a single, best choice of motor. But what is not always appreciated is that there might be the opportunity to tweak motor design – and therefore boost efficiency – by selection of the most appropriate coil.

So how does the coil impact on our design considerations? The torque produced by the motor will be determined by the current consumed and the torque constant. The torque constant, in turn, is defined by the radius of the coil, the magnetic flux density, the length of the motor and the number of turns of the coil. The first three of these parameters are fixed by the chosen motor and its diameter. Adjusting the number of turns of the coil, though, can impact the torque constant for a given size of motor.

This is important because, for a given motor and neglecting friction, the no-load speed of the motor is defined by the available supply voltage and the torque constant of the coil. If we look at a motor manufacturer’s catalogue for a suitable product to meet a specific operating point and power, we might find a choice of several coils that meet our needs, but with different supply voltages and different current requirements. The coil is therefore chosen to adapt the motor to the available power supply.

Choice of coil also impacts on the motor efficiency in the application. Look for example at ironless DC motors: these are renowned, among other things, for their high efficiency. Where there are losses, aside from friction, it tends to be heat generated by the current running through the copper wile of the coil. These losses are proportional to the coil resistance multiplied by the square of the current. Motor efficiency is higher at lower torque due to the lower motor current, so here again choice of coil can have a big impact.

Making the choice

If we were to consider an application requiring continuous operation at a fixed speed and torque – perhaps something like a medical infusion pump – then we might find a number of coils in the motor manufacturer’s catalogue that would seem to meet our needs at the required working point and power.

If the available power supply for our application is a voltage source, supplying a fixed voltage, that will narrow down the choice of coils further, and the designer can select the one that is the best fit to optimise the application. With a voltage source, it is typical for a reduced number of options of coils, and indeed, there may only be one option for a given application.

The number of options tends to be greater if a current source – a given maximum current across a range of supply voltages – is available instead of a voltage source to achieve the same working point. Now we might have a higher number of possible coils to meet the application requirement, and the design engineer can really begin to tailor the application.

If total efficiency is the prime consideration, that might lead us in one direction. In other applications, the coil with the lowest current consumption might provide the best choice, as it will result in a longer lifetime of the commutation system and increase the number of cycles with a single battery charge for battery-powered applications.

Custom manufactured coils

The availability of a number of standard coils can take us a long way towards tailoring the motor to the application, but even so there may be instances where the design engineer needs something even more optimised. In a critical application where cost pressures are less of a consideration than ultimate performance, and where the design engineer doesn’t have the freedom to adapt the power supply for a standard coil, then a custom designed coil could provide the best solution.

We can see, then, that the choice of coil based on the required motor working point and the power supply has a big impact on the optimisation of the application. For a given task, there may be different standard coils which can achieve the same working point with different voltage and current requirements, with each having different applications for efficiency, current consumption and lifespan. Or it may be desirable to ask the motor supplier to manufacture a custom coil if the application warrants it.

But the coil considerations also emphasise the advantages of engaging with a with knowledgeable motor manufacturer such as Portescap at the earliest stages of a design, before critical parameters are set in stone, and when there is the greatest opportunity to truly tailor the motor to the needs of the application.

Image Captions:

Image 1: The heart of an ironless DC motor is its rotor, based on a self-supporting coil.

Image 2: Portescap Ironless DC motor design.

About Portescap

Portescap offers the broadest miniature and specialty motor products in the industry, encompassing coreless brush DC, brushless DC, stepper can stack, gearheads, digital linear actuators, and disc magnet technologies. Portescap products have been serving diverse motion control needs in wide spectrum of medical and industrial applications, lifescience, instrumentation, automation, aerospace and commercial applications, for more than 70 years.

Portescap has manufacturing centres in the United States, St. Kitts, and India, and utilises a Global Product Development network with research and development centres in the United States, China, India, and Switzerland.

For more information, visit

The image(s) distributed with this press release are for Editorial use only and are subject to copyright. The image(s) may only be used to accompany the press release mentioned here, no other use is permitted.

Editor Contact

DMA Europa : Brittany Kennan
Tel: +44 (0)1562 751436 Fax:

Company Contact

Portescap : Nicole Monaco, Global Marketing Manager
Tel: +1 404.877.2534 Fax:

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