Influence of Gear Ratio on the Performance of Fractional Slot Concentrated Winding Permanent Magnet Machines

Liu, Yue; Zhu, Z. Q.

doi:10.1109/tie.2018.2885728

Cited by 29 publications

(12 citation statements)

References 23 publications

(37 reference statements)

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“…The waveforms of the change of the driving gear angle position and the driven gear angle position are all triangular waves, and the change rules of the driving gear angle position and the driven gear angle position from increase to decrease or from decrease to increase are consistent. 21,22 According to the physical process described above, the driven gear is out of contact with the driving gear due to backlash after the driving gear moves in reverse direction. Due to the inertia, the driven gear still keeps its original direction for rotation until it contacts again and then rotates in reverse with the driving gear.…”

Section: Test Experiments Of Platform Backlashmentioning

confidence: 99%

On-line measurement method of transmission backlash based on angular velocity and double-end angular position information

Liang

Zhang

et al. 2020

Measurement and Control

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Backlash is the inherent characteristic of gear transmission system. It is an important mean to measure and compensate backlash to improve transmission performance. When the driving gear reverses, due to the existence of backlash, the driven gear will still keep its original steering due to inertial motion until the driven gear collision with the driving gear. In this paper, based on the analysis of the tooth gap of the driving gear and the driven gear, an on-line measurement method of the meshing tooth gap combining the angular velocity of the load end with the information of the Angle position of the two axes of the master-slave gear is presented. This method uses the gyroscope at the load end (driven wheel) to monitor the sudden change of angular velocity at the moment of gear reverse impact and re contact, and the signal is used as the judgment basis for the reverse contact moment of the driving gear and driven gear. Then, the angular position data of driving gear and driven gear are fused at the time of reverse rotation and contact impact, and the backlash of the gear is calculated online. Finally, setting up an experimental platform for measuring backlash, and the proposed method is verified. The experimental results show that the proposed method can achieve accurate backlash measurement.

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Section: Test Experiments Of Platform Backlashmentioning

confidence: 99%

On-line measurement method of transmission backlash based on angular velocity and double-end angular position information

Liang

Zhang

et al. 2020

Measurement and Control

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show abstract

“…Although all the harmonics in (8) and (9) share the same frequency as the fundamental PM airgap flux density, only those having the same pole pair number as the fundamental PM airgap flux density can have average torque production. When v = p , the first component in (8) and (9) will produce average torque, which is called the conventional torque T con , as given in [15, 16]. When v = p ± N s is satisfied, the second component in (8) and (9) can also produce average torque, which is the modulated torque T mod by the stator modulation effect, as shown in (10) and (11).…”

Section: Magnetic Gear Effects In Fscw Pm Machines With Equal and Umentioning

confidence: 99%

“…It is demonstrated in [14] that the FSCW PM machine also belongs to the PM vernier machine family due to the similar modulation effect. In [15], the contribution of modulation effect to the average torque in FSCW PM machines with different slot and pole number combinations is analysed, whilst the number of phase is also considered in [16].…”

Section: Introductionmentioning

confidence: 99%

“…The magnetic gear effect is found to be prevailing in the flux switching machines [6, 7], flux reversal machines [8], vernier machines [9–11], and even DC machines [12] and induction machines [13]. In addition, the magnetic gearing effect or modulation effect in FSCW PM machines has also been revealed in [14–16]. It is demonstrated in [14] that the FSCW PM machine also belongs to the PM vernier machine family due to the similar modulation effect.…”

Section: Introductionmentioning

confidence: 99%

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Contribution of winding space harmonics to average torque in fractional‐slot concentrated permanent magnet machines with equal/unequal teeth

Sun

Wang

et al. 2020

IET Electric Power Applications

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This study investigates the modulation effects in any m-phase permanent magnet machines with fractional-slot concentrated windings and separates the average torque contributed by the winding space harmonics, with particular emphasis on unequal stator teeth. First, winding space harmonics of m-phase machines with double/single layer windings are analysed and modulation effects of equal/unequal teeth are studied. It is found that, apart from the conventional torque contributed by main harmonic (v = p) and modulated torque by v = p ± N s harmonics (N s is slot number and p is pole pair number), additional modulated torque owing to v = p ± N s /2 harmonic appears in the unequal teeth machines. Then, 12-slot/10-pole (12S10P) threephase and 10S8P five-phase machines are employed to verify the analysis through finite element method. It is demonstrated that, for unequal teeth machine, v = p − N s and v = p − N s /2 harmonics have positive average torque contribution, around 6.5 and 6% to the total torque. The v = p + N s and v = p + N s /2 order harmonics produce negative average torque but with much smaller values. Finally, experiments are carried out on the 10S8P unequal teeth prototype.

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“…Compared with traditional distributed winding permanent magnet synchronous motors (PMSMs), fractional slot concentrated winding PMSMs (FSCW-PMSMs) have the advantages of the short end winding, high slot fill factor, low cogging torque and high fault tolerance, which are gaining popularity within the field of motion control in recent years [1][2][3][4].…”

Section: Introductionmentioning

confidence: 99%

Effect of time‐harmonic current on the harmonic leakage inductance of fractional slot concentrated winding permanent magnet synchronous motor

Zhang

et al. 2020

IET Electric Power Applications

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Harmonic leakage inductance occupies a high proportion in the synchronous inductance of fractional slot concentrated winding permanent magnet synchronous motor (FSCW‐PMSM), and the synchronous inductance determines the operating performance of the motor. To calculate the harmonic leakage inductance and synchronous inductance of the FSCW‐PMSM fed by inverters, two‐dimensional finite element analysis and the analytical method are used to study the influence of time‐harmonic current on the harmonic leakage inductance of the three‐phase FSCW‐PMSM in this study, and the influence mechanism is revealed. The relationship between the time‐harmonic magnetic field and space harmonic magnetic field is obtained, and the harmonic leakage coefficient and the working harmonic coefficient with different slot‐pole combinations are investigated. The results show that the time‐harmonic current can reduce the harmonic leakage inductance and increase the magnetising inductance, but has little effect on the synchronous inductance under the unsaturated condition. A prototype was manufactured and tested to verify the accuracy of the analysis model. The research results provide beneficial help for the design of the three‐phase FSCW‐PMSM fed by inverters.

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Influence of Gear Ratio on the Performance of Fractional Slot Concentrated Winding Permanent Magnet Machines

Cited by 29 publications

References 23 publications

On-line measurement method of transmission backlash based on angular velocity and double-end angular position information

On-line measurement method of transmission backlash based on angular velocity and double-end angular position information

Contribution of winding space harmonics to average torque in fractional‐slot concentrated permanent magnet machines with equal/unequal teeth

Effect of time‐harmonic current on the harmonic leakage inductance of fractional slot concentrated winding permanent magnet synchronous motor

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