Abstract:In traditional electric machines, it is usually possible to achieve constant power high-speed operation by employing field weakening through the injection of a negative d-axis current component. However, in machines with low armature inductance, such as high power density permanent magnet synchronous machines, and more specifically, coreless machines, which are gaining increasing attention because of their high specific torque, the extended speed range obtained using this method is very narrow. This paper summ… Show more
“…A disadvantage of this machine is high ac copper loss due to eddy currents that can be mitigated by using Litz wire and a careful winding design. Another issue is its low inductance which limits the constant power speed range (CPSR) [13]. This is discussed in detail in a following section.…”
“…The increased I ch for the coreless machine limits its speed range. One solution is to employ an inverter with larger ratings [13]. Another method could be to dynamically reduce λ pm of the coreless machine.…”
“…A disadvantage of this machine is high ac copper loss due to eddy currents that can be mitigated by using Litz wire and a careful winding design. Another issue is its low inductance which limits the constant power speed range (CPSR) [13]. This is discussed in detail in a following section.…”
“…The increased I ch for the coreless machine limits its speed range. One solution is to employ an inverter with larger ratings [13]. Another method could be to dynamically reduce λ pm of the coreless machine.…”
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