Zero speed sensorless drive capability of fractional slot inset PM machine

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1 Zero speed sensorless drive capability of fractional slot inset PM Adriano Faggion Nicola Bianchi Silverio Bolognani Emanuele Fornasiero Electric Drives Laboratory Department of Industrial Engineering University of Padova PEMD 2012 Power Electronics, Machines and Drives Conference Bristol, March 2012

2 This presentation refers to the paper: Adriano Faggion, Nicola Bianchi, Silverio Bolognani and Emanuele Fornasiero Zero speed sensorless drive capability of fractional slot inset PM IEEE PEMD 2012 Power Electronics, Machines and Drives Conference Bristol (UK), March PEMD 2012 Zero speed sensorless drive capability of fractional slot inset PM 2

3 Outline PEMD 2012 Zero speed sensorless drive capability of fractional slot inset PM 3

4 Sensorless control purpose For the sensorless control purpose, three different rotor configurations are studied in a previous paper:(a) Interior, (b) Ringed pole and (c) Inset Permanent Magnet (PM) Rotor. (a) Interior PM motor (b) Ringed pole PM Motor (c) Inset PM motor PEMD 2012 Zero speed sensorless drive capability of fractional slot inset PM 4

5 Sensorless control purpose For the sensorless control purpose, three different rotor configurations are studied in a previous paper:(a) Interior, (b) Ringed pole and (c) Inset Permanent Magnet (PM) Rotor. Among these the inset PM to have a good performance as far as the sensorless is concerned. Then in the paper a 12 slot 8 pole inset PM configuration is deeply studied. PEMD 2012 Zero speed sensorless drive capability of fractional slot inset PM 5

6 Sensorless technique 1 The of the by means of a high frequency (HF) signal injection is a common sensorless technique. 2 It consists on the injection of a HF voltages in the stator windings, which causes a HF currents. 3 HF current vector draws a figure that contains information of the. PEMD 2012 Zero speed sensorless drive capability of fractional slot inset PM 6

7 Rotation due to the cross-saturation effect Rotating HF voltage vector Ellipse HF current vector trajectory HF saliency can be defined as: ξ HF = I max I min mutual inductance L dqh causes the ellipse inclination ɛ PEMD 2012 Zero speed sensorless drive capability of fractional slot inset PM 7

8 HF rotating voltage, injected in a general rotating reference frame d x q x, of the type: u x d h = U h cos(ω h t) u x q h = U h sin(ω h t) is adopted. It is assumed that the is standstill (electrical speed equal to zero). PEMD 2012 Zero speed sensorless drive capability of fractional slot inset PM 8

9 The magnetic model of the can be described by means of the matrix of differential HF inductances in each operating point, expressed by: [ Ldh L L = dqh L qdh L qh L dh is the HF d axis inductance L qh is the HF q axis inductance ] L avg = L q h + L dh 2 L dif = L q h L dh 2 L dqh is the HF cross saturation inductance L avg is the HF average inductance L dif is the HF difference inductance. PEMD 2012 Zero speed sensorless drive capability of fractional slot inset PM 9

10 High Frequency current vector of two components: ī dqh = īcw + īccw with ī cw = Λ h L avge j(ω ht+ π 2 ) ī ccw = Λ h L 2 dif + L2 dq h e j(2( θ ɛ)+ω ht+ π 2 ) where ɛ is the displacement due to the presence of cross-saturation between the d and q axis. It can be computed as: ɛ = 1 ( 2 arctan L ) dq h L dif and = L dh L qh L 2 dq h, θ = θ me θ me. PEMD 2012 Zero speed sensorless drive capability of fractional slot inset PM 10

11 HF voltage vector injection in the actual dq θ = 0 and then: L 2 dif + L2 dq h e j( 2ɛ+ω ht+ π 2 ) ī dqh = Λ h L avge j(ω ht+ π 2 ) Λ h }{{} ī cw } {{ } ī ccw ī ccw ī cw ī cw ī ccw (d) ξ HF = I max I min = L avg + L avg (e) L 2 dif + L2 dq h L 2 dif + L2 dq h PEMD 2012 Zero speed sensorless drive capability of fractional slot inset PM 11

12 The HF current vector īdq h is used to recognize the maximum axis direction of the ellipse. This should coincide with the d axis. x x x x (f) Ideal case L dqh = 0 (g) Real case L dqh 0 However, because of the cross saturation the actual d axis is not correctly recognized but an axis displaced of the angle error ɛ with respect to the d axis is found. PEMD 2012 Zero speed sensorless drive capability of fractional slot inset PM 12

13 Figure: Sensorless estimation scheme Output of the estimation scheme is: i demf = Λ h L 2 dif + L2 dq h sin(2 θ 2ɛ) This quantity is manipulated in order to zeroing the term θ ɛ. The result is: θ ɛ = 0 θ me = θ me + ɛ PEMD 2012 Zero speed sensorless drive capability of fractional slot inset PM 13

14 Particular case 1 If the motor does not exhibit a cross saturation between the d and q axis, the angle error ɛ becomes equal to zero. The direction of maximum axis is along the d axis. Correct estimation of the. PEMD 2012 Zero speed sensorless drive capability of fractional slot inset PM 14

15 Particular case 1 No cross saturation between the d and q axis. Angle error ɛ becomes zero. ξ HF = L avg + L 2 dif + L2 dq h L avg L 2 dif + L2 dq h ξ HF = L avg + L dif = L qh L avg L dif L dh PEMD 2012 Zero speed sensorless drive capability of fractional slot inset PM 15

16 Particular case 2 If the d and q axis inductances are equal, the current variation on the d and q axis becomes equal. Anyway, the HF saliency remains, due to the cross-saturation. Rotor position estimation with 45 angle error. PEMD 2012 Zero speed sensorless drive capability of fractional slot inset PM 16

17 Particular case 2 d and q axis inductances equal. HF saliency remains, due the presence of the cross-saturation. ξ HF = L avg + L 2 dif + L2 dq h L avg L 2 dif + L2 dqh ξ HF = L avg + L dqh L avg L dqh PEMD 2012 Zero speed sensorless drive capability of fractional slot inset PM 17

18 Particular case 3 In case of: No cross saturation between the two axes d and q axis HF inductances equal then the current ellipse degenerates into a circle. Rotor position not allowable. PEMD 2012 Zero speed sensorless drive capability of fractional slot inset PM 18

19 Particular case 3 No cross saturation and d and q axis inductances equal. The current ellipse degenerates in a circumference. ξ HF = L avg + L 2 dif + L2 dq h L avg L 2 dif + L2 dq h ξ HF = L avg = 1 L avg PEMD 2012 Zero speed sensorless drive capability of fractional slot inset PM 19

20 Geometry of 12 slot 8 pole inset PM motor (a) In red the coil of phase a. The stator exhibits a fractional slot non overlapped coil winding. (b) Variable Dimension measure unity Stack length 90 (mm) External stator diameter (mm) Inner stator diameter 71.5 (mm) PM thickness 4.95 (mm) PM width 16 (mm) PEMD 2012 Zero speed sensorless drive capability of fractional slot inset PM 20

21 Geometry of 12 slot 8 pole inset PM motor I d = 0 and I q = 0. Without the current the flux due to the PMs practically doesn t flow through the tooth. PEMD 2012 Zero speed sensorless drive capability of fractional slot inset PM 21

22 Geometry of 12 slot 8 pole inset PM motor (c) I d = I and I q = 0 (d) I d = 0 and I q = I FE simulation have been done excluding the effect of the magnet. In the case of Fig.(d) there is a more density of the flux lines. Then the L q inductance greater than the L d one. PEMD 2012 Zero speed sensorless drive capability of fractional slot inset PM 22

23 FE Simulations The FE have been carried out with the aim of determining the main characteristics of the motor. Some have been done for different (I d, I q ) currents, to cover a wide range of operating points. Nominal current is I N = 10 A. The current limits are 20 A I d 20 A and 0 A I q 20 A. The differential inductances are computed and the magnetic saliency of the motor is derived. PEMD 2012 Zero speed sensorless drive capability of fractional slot inset PM 23

24 Map of the magnetic saliency ξ HF It is worth noticing that the saliency is sufficiently high in the whole second half plane. It remains around ξ HF = 1.6. PEMD 2012 Zero speed sensorless drive capability of fractional slot inset PM 24

25 I q [A] Map of the ratio L dif /L avg I d [A] The difference inductance L dif is greater than zero in the whole I d I q plane. The is detected even under overload. PEMD 2012 Zero speed sensorless drive capability of fractional slot inset PM 25

26 Map of the ratio L dqh /L avg The cross saturation inductance L dqh is negligible along the MTPA trajectory. The angle error ɛ is very low. PEMD 2012 Zero speed sensorless drive capability of fractional slot inset PM 26

27 Map of the error ɛ due to cross coupling (deg) ɛ remains lower than 1 el.deg. up to the nominal current. ɛ increases for higher currents, however remaining lower than 10 el.deg. along the MTPA trajectory. PEMD 2012 Zero speed sensorless drive capability of fractional slot inset PM 27

28 8 pole rotor configuration Summary of the motor characteristics A difference inductance L dif is always greater than zero in a whole plane, since L qh > L dh. The mutual differential inductance is negligible, since it is quite similar to that on a SPM motor. The angle error due to the cross saturation is very low, especially along the MTPA trajectory. PEMD 2012 Zero speed sensorless drive capability of fractional slot inset PM 28

29 Test bench setup Some experimental tests have been carried out in order to verify the self sensing motor capability in all the dq current plane. INVERTER PEMD 2012 Zero speed sensorless drive capability of fractional slot inset PM 29

30 setup The under test is coupled to a master drive. The master drive can be speed or torque controlled by an industrial inverter. The inset PM is controlled by a laboratory inverter monitored by an acquisition system. A rotating voltage vector, with amplitude U h equal to 20 V, is added to the reference power voltages u d and u q given by the current regulators. The injection frequency is set to 500 Hz. The tests have been carried out locking the inset PM by the master one. PEMD 2012 Zero speed sensorless drive capability of fractional slot inset PM 30

31 High frequency currents at two different working points along the MTPA trajectory 2 0 i d (A) 0 i d (A) 2 i q (A) time (s) time (s) (e) i d = 0 and i q = 0 i q (A) time (s) time (s) (f) i d = 2 and i q = 10 Each current is given by the sum of a constant value and a sinusoidal signal due to the HF voltage injection. The amplitude of the i q current oscillation is lower than that of the i d current, being L qh > L dh. PEMD 2012 Zero speed sensorless drive capability of fractional slot inset PM 31

32 High frequency ellipses in the i d i q plane MTPA HF Ellipse Rotation due to the cross-saturation effect The HF saliency is obtained applying: ξ hf = I max / I min. PEMD 2012 Zero speed sensorless drive capability of fractional slot inset PM 32

33 HF Saliency MTPA HF Ellipse ξ HF for each ellipse are slightly lower to those estimated by FE simulation. ξ HF remains equal to 1.6 in all the left dq half plane. FE highlight that the saliency remains also in overload conditions. PEMD 2012 Zero speed sensorless drive capability of fractional slot inset PM 33

34 Angle error ɛ MTPA HF Ellipse All the ellipses have the maximum axis practically parallel to the d axis. This means that the error ɛ is very low. With ī I N the ɛ remains lower than 1 el.deg.. A low error confirms the low cross saturation effect. This confirms the given by the FE simulation. PEMD 2012 Zero speed sensorless drive capability of fractional slot inset PM 34

35 The 12 slot 8 pole inset PM motor to be very suitable for the sensorless, based on the HF voltage injection. The iron tooth introduced between each couple of PMs yields a proper HF rotor saliency. This magnetic behaviour to be slightly affected by iron saturation and cross saturation phenomena. This characteristics remain also under overload operations. PEMD 2012 Zero speed sensorless drive capability of fractional slot inset PM 35

36 Related Papers by the Authors S. Bolognani, S. Calligaro, R. Petrella, and M. Tursini, Sensorless control of ipm motors in the low speed range and at stand still by hf injection and dft processing., In in IEEE International Electric Machines and Drives Conference, IEMDC 09., May 2009, pp N. Bianchi, S. Bolognani, J. H. Jang, and S. K. Sul, Advantages of inset pm s for zero speed sensorless position, IEEE Trans. on Industry Applications, vol. 44, no. 4, pp , PEMD 2012 Zero speed sensorless drive capability of fractional slot inset PM 36

37 Related Papers by the Authors (cont.) N. Bianchi, S. Bolognani, and A. Faggion, Predicted and measured errors in estimating rotor position by signal injection for salient-pole pm synchronous motors, in IEEE International Electric Machines and Drives Conference, IEMDC 09., May 2009, pp A. Faggion, S. Bolognani, and N. Bianchi, Ringed pole permanent magnet synchronous motor for position sensorless drives, in IEEE Energy Conversion Congress and Exposition, ECCE 2009., 2009, pp PEMD 2012 Zero speed sensorless drive capability of fractional slot inset PM 37

38 Related Papers by the Authors (cont.) A. Faggion, N. Bianchi, and S. Bolognani, A ringed pole spm motor for sensorless drives electromagnetic analysis, prototyping and tests, in IEEE International Symposium on Industrial Electronics, ISIE 2010, Bari, IT, Jul. 4 7, A. Faggion, E. Fornasiero, N. Bianchi and S. Bolognani, Sensorless capability of fractional-slot surface-mounted PM motors, in Electric Machines Drives Conference (IEMDC), 2011 IEEE International, 2011, pp PEMD 2012 Zero speed sensorless drive capability of fractional slot inset PM 38

39 Thank you for the attention. PEMD 2012 Zero speed sensorless drive capability of fractional slot inset PM 39

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