This paper describes an Artificial Neural Network (ANN) based speed estimation of BLDC drive using the three-phase current of the motor. The star point of three parallel resistors is used as the artificial star point of the motor. The comparators are connected to motor terminals and star point of resistors. This circuit determines the zero crossing of the back-EMF of the motor phases. Using zero crossing detection of the back-EMF with the estimated speed from the ANN, precise control of the BLDC motor is achieved, without the need for a sensor. The ANN is an offline trained network, trained using data obtained from simulations. The network is validated against different Inputs. The network is precise but at the same time simple enough to be implemented on a low-cost processor. The results are validated with simulations done in MATLAB using the trained neural network The findings and applications of neural networks to control the speed of PMSM are very well presented in the referenced papers, but the same for BLDC motors, especially those used in electric vehicles, have not been explored yet. The presented paper attempts to address the challenges and advantages of adopting this sensor-free approach for speed control in EVs.

Topics
Comparators, Electric vehicles, MATLAB, DC motors, Artificial neural networks
1.
Mohammad
,
Adnan
 &
Abedin
,
Md
 &
Khan
,
Md.
Ziaur
. (
2016
).
Implementation of a three-phase inverter for BLDC motor drive.
337
340
.
https://doi.org/10.1109/ICECE.2016.7853925
.
Google Scholar
 
2.
Shao
,
jianwen
, et al "
A novel microcontroller-based sensorless brushless DC (BLDC) motor drive for automotive fuel pumps
."
IEEE transactions on industry applications
39
.
6
(
2003
):
1734
1740
.
https://doi.org/10.1109/TIA.2003.818973
Google Scholar
Crossref
Search ADS
 
3.
Paun
,
Maria-Alexandra
 &
Sallese
,
Jean-Michel
 &
Kayal
,
Maher
. (
2013
).
Hall Effect Sensors Design, Integration and Behavior Analysis
.
Journal of Sensor and Actuator Networks.
2
.
85
97
.
https://doi.org/10.3390/jsan2010085
.
Google Scholar
Crossref
Search ADS
 
4.
Karimi
Shahri
,
Pouria
 &
Izadi
,
Vahid
 &
Ghasemi
,
Amirhossein
. (
2020
).
Design a High Efficiency and Low Ripple BLDC Motor Based on Multi-Objective Optimization Methods.
156
161
.
https://doi.org/10.23919/ACC45564.2020.9147907
.
Google Scholar
 
5.
M.
Singh
 and
A.
Garg
, "
Performance evaluation of BLDC motor with conventional PI and fuzzy speed controller
,"
2012 IEEE 5th India International Conference on Power Electronics (IICPE)
,
Delhi
,
2012
, pp.
1
6
, doi:
https://doi.org/10.1109/IICPE.2012.6450516
.
Google Scholar
Crossref
Search ADS
 
6.
Mardani
Nejad
,
Reza
 &
Safizadeh
,
Mir
. (
2017
).
Hall Effect Sensor Performance Assessment.
Google Scholar
 
7.
P.
Sreekala
 &
Jose
,
Victor
. (
2012
).
Application of neural network in speed control of brushless DC motor using soft switching inverter
.
AICERA 2012 - Annual International Conference on Emerging Research Areas: Innovative Practices and Future Trends
.
1
5
.
https://doi.org/10.1109/AICERA.2012.6306698
.
Google Scholar
Crossref
Search ADS
 
8.
Capra
,
M.
;
Bussolino
,
B.
;
Marchisio
,
A.
;
Shafique
,
M.
;
Masera
,
G.
;
Martina
,
M.
An Updated Survey of Efficient Hardware Architectures for Accelerating Deep Convolutional Neural Networks
.
Future Internet
2020
,
12
,
113
.
https://doi.org/10.3390/fi12070113
Google Scholar
Crossref
Search ADS
 
9.
Movahedi
,
amir
, and
ghazanfar
shahgholian
. "
Design and simulation of sensorless BLDC motor drive using DTC and SWF
."
Electrical engineering/electronics, computer, telecommunications and information technology (ECTI-CON), 2017 14th international conference on
.
Ieee
,
2017
.
Google Scholar
 
10.
Parker
,
Gary
. (
2016
).
Distributed neural network: Dynamic learning via backpropagation with hardware neurons using Arduino chips.
206
212
.
https://doi.org/10.1109/IJCNN.2016.7727200
.
Google Scholar
 
11.
E.
Elakkia
,
S.
Anita
,
R. Girish
Ganesan
 and
S.
Saikiran
, "
DESIGN AND MODELLING OF BLDC MOTOR FOR AUTOMOTIVE APPLICATIONS
,"
International Journal of Electrical and Electronic Engineering & Telecommunications
, Vol.
1
, No.
1
, pp.
42
48
, March
2015
.
Google Scholar
 
12.
M. R.
Hazari
,
E.
Jahan
,
M. E.
Siraj
,
M. T. I.
Khan
 and
A. M.
Saleque
, "
Design of a Brushless DC (BLDC) motor controller
,"
2014 International Conference on Electrical Engineering and Information & Communication Technology
,
2014
, pp.
1
6
, doi:
https://doi.org/10.1109/ICEEICT.2014.6919048
.
Google Scholar
Crossref
Search ADS
 
13.
Kroičs
,
Kaspars
 &
Zakis
,
Janis
 &
Sirmelis
,
Ugis
. (
2017
).
Implementation of the back EMF zero crossing detection for BLDC motor.
1
4
.
https://doi.org/10.1109/RTUCON.2017.8124770
.
Google Scholar
 
14.
Wu
,
chun-hua
,
guo-cheng
chen
, and
cheng-bo
sun
. "
A wide-angle wave control method of reducing torque ripple for brushless DC motor
."
Journal of shanghai university (english edition)
11
.
3
(
2007
):
300
303
.
https://doi.org/10.1007/s11741-007-0323-1
Google Scholar
Crossref
Search ADS
 
15.
R.
Ramachandran
,
D.
Ganeshaperumal
 and
B.
Subathra
, "
Closed-loop Control of BLDC Motor in Electric Vehicle Applications
,"
2019 IEEE International Conference on Clean Energy and Energy Efficient Electronics Circuit for Sustainable Development (INCCES)
,
2019
, pp.
1
5
, doi:
https://doi.org/10.1109/INCCES47820.2019.9167730
.
Google Scholar
Crossref
Search ADS
 
16.
K.
Sudharshan
 &
Athiya
.
P.
, (
2015
).
Z-Source Inverter-Based Zero Crossing Point Detection of Back EMF for Brushless DC Motor.
Google Scholar
 
17.
N.
Leena
 and
R.
Shanmugasundaram
, "
Artificial neural network controller for improved performance of brushless DC motor
,"
2014 International Conference on Power Signals Control and Computations (EPSCICON)
,
2014
, pp.
1
6
, doi:
https://doi.org/10.1109/EPSCICON.2014.6887513
.
Google Scholar
Crossref
Search ADS
 
18.
I.
Khan
 et al, "
Design of Neural Network With Levenberg-Marquardt and Bayesian Regularization Backpropagation for Solving Pantograph Delay Differential Equations
," in
IEEE Access
, vol.
8
, pp.
137918
137933
,
2020
, doi:
https://doi.org/10.1109/ACCESS.2020.3011820
.
Google Scholar
Crossref
Search ADS
 
19.
Mijwil
,
Maad
. (
2018
).
Artificial Neural Networks Advantages and Disadvantages.
Google Scholar
 
20.
O.
Omijeh
 &
Idoniboyeobu
,
Dikio
 &
O.
Ajabuego
. (
2015
).
Artificial Neural Network Based Induction Motor Speed Controller
.
International Journal of Electronics Communication and Computer Engineering.
6
.
1
5
.
Google Scholar
 
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