Selecting precision motors for smart defence applications

12 February, 2024

Selecting the right motion solution

As each design offers varying advantages, the motor selection depends on the prioritisation of parameters, particularly within the required size and weight envelope. Of these parameters, torque density is a typical priority. High-energy magnets that generate high flux density coupled with a coreless coil configuration is an optimal design, and both BLDC slotless and slotted motor technologies can provide high continuous torque without magnetic saturation. In comparison to cylindrical motors, BLDC flat designs typically offer the highest torque density to form factor. Maximum motor speed is also a common requirement, and electrically commutated BLDC motors can achieve higher speeds, with cylindrical designs achieving over 40,000 rpm. At these high speeds, motors require specially designed bearing systems, and the package is balanced to minimise vibration. For dynamic speed operation, the BLDC slotted motor is the preferred choice for low rotor inertia due to the relatively small rotor diameter.

Friction counteracts heat and energy efficiency, so combating this factor is also an important design consideration. Low-friction materials can minimise the effect, even in brushed motors, while BLDC designs remove the issue of friction in commutation. For the same reason, BLDC motors also have a longer operational life than their brushed counterparts. Creating a similar impact on heat and energy efficiency, iron core DC motors generate eddy current losses at higher speeds, meaning that coreless designs are favoured for higher-speed applications. However, magnetic design and material selection can minimise loses even for iron core motors.

Meanwhile, cogging torque, which can create uneven motion, is the result of the rotor’s preferred magnet position in relation to the stator lamination teeth. Coreless technology eliminates iron laminations, removing the problem. While slotted designs are inherently susceptible to cogging torque, this can be minimised with an adjusted alignment of the core laminations, or by optimising the combination of poles and slots or teeth.

Deployed in any environmental arena, the flexibility to handle harsh conditions is also a key consideration. The BLDC slotted motor is best suited to handle high shock and vibration, as well as high humidity and saline conditions, due to its robust stator and rotor designs. However, BLDC slotless and DC coreless motors can also be used in, and prepared for, applications that must withstand the requirements of MIL-STD-810.

Motion solution customisation

While meeting the STD-MIL-810 environmental specification is essential, to achieve the application’s performance requirements, specific design is required. Additionally, meeting the needs of operational deployment, long term storage requirements, such as preventing corrosion and retaining lubrication, might also be necessary.

While a fully bespoke design might be required, a customisable off-the-shelf (COTS) design approach could be used to meet operational needs, while speeding up time to market and reducing development costs. Whichever strategy is used to achieve the motion solution’s exacting specification, design experience and expertise for smart defence applications is crucial.

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