scholarly journals A review on linear switched reluctance motor

2017 ◽  
Vol 50 (3) ◽  
pp. 261-270 ◽  
Author(s):  
Juan Chowdhury ◽  
Gaurav Kumar ◽  
Karuna Kalita ◽  
Kari Tammi ◽  
Sashindra K Kakoty
Keyword(s):  
Developmental Stages ◽  
Force Density ◽  
Switched Reluctance Motors ◽  
Switched Reluctance ◽  
Wide Range ◽  
Salient Points ◽  
Reluctance Motor ◽  
Actuator Application ◽  
Linear Switched Reluctance Motor ◽  
And Control

Switched reluctance motors have been extensively studied by researchers for their unparalleled advantages in wide range of applications. The linear versions of it, possessing similar attributes and prospects, have been developed in recent years. Owing to their frugal design, robust built and high force density, the linear switched reluctance motors (LSRM) has had significant stages of development and optimization. The flexibility in design and operation makes LSRM a prime contender for any linear motor-actuator application. This paper provides a bird’s eye view across its developmental stages and its various aspects in design, analysis and control. The following content discusses the salient points of research and the contribution by researchers in this field.

A linear switched reluctance motor: converter and control

2000 ◽  
Vol 36 (5) ◽  
pp. 1351-1359 ◽  
Author(s):  
Han-Kyung Bae ◽  
Byeong-Seok Lee ◽  
P. Vijayraghavan ◽  
R. Krishnan
Keyword(s):  
Switched Reluctance Motor ◽  
Switched Reluctance ◽  
Reluctance Motor ◽  
Linear Switched Reluctance Motor ◽  
And Control

Design and Experimental Verification of Linear Switched Reluctance Motor with Tapered Poles

2015 ◽  
Vol 787 ◽  
pp. 878-882 ◽  
Author(s):  
V. Ganesh Sampath ◽  
R. Elavarasan ◽  
N.C. Lenin ◽  
R. Arumugam
Keyword(s):  
Acoustic Noise ◽  
Switched Reluctance Motors ◽  
Element Analysis ◽  
Switched Reluctance ◽  
Machine Failure ◽  
Reluctance Motor ◽  
New Type ◽  
Linear Switched Reluctance Motor ◽  
Force Ripple ◽  
Vibration Parameters

Linear switched reluctance motors (LSRMs) are considered for numerous applications because of its inherent properties. The force ripple and hence acoustic noise and vibration make this machine failure in compete with the existing linear induction and linear synchronous machines. In this paper a new type of stator structure is proposed and experimented. The proposed structure provides less force ripple and vibration. Parameters like force ripple and vibration are predicted using finite element analysis (FEA). Experimental results are closely correlated with the predicted results.

scholarly journals Prospects for Use of Synchronous Reluctance Motors in Low-Power Electrical Devices

2015 ◽  
Vol 52 (2) ◽  
pp. 40-48 ◽  
Author(s):  
J. Dirba ◽  
L. Lavrinovicha ◽  
R. Dobriyan
Keyword(s):  
Low Power ◽  
Power Devices ◽  
Switched Reluctance Motors ◽  
Switched Reluctance ◽  
Synchronous Reluctance Motor ◽  
Wide Range ◽  
Electrical Devices ◽  
Reluctance Motor ◽  
Improved Design ◽  
External Rotor

Abstract This paper focuses on studying the synchronous reluctance motors as an alternative to low-power commutator motors. Analysis is done for the improved design of synchronous reluctance motor with a segmental external rotor. Relevant equations and a suitable method are proposed for calculating characteristics of the synchronous reluctance motors operating in a specific mode with electronic commutation as switched reluctance motors. It is concluded that synchronous reluctance motors in this mode can provide a wide range of characteristics and are quite competitive with commutator motors used in low-power devices.

Switched Reluctance Motor for Electric Submersible Pump

2021 ◽  
Author(s):  
Robert Adams ◽  
Jinjiang Xiao ◽  
Michael Cross ◽  
Max Deffenbaugh
Keyword(s):  
Reverse Direction ◽  
Submersible Pump ◽  
Switched Reluctance Motors ◽  
Pump System ◽  
Switched Reluctance ◽  
Precise Control ◽  
Reluctance Motor ◽  
And Control ◽  
Starting Torque ◽  
Electric Submersible Pump

Abstract Switched reluctance motors may be advantageous when used as the primary motor for an electric submersible pump system. They are less susceptible to jamming failures due to their high starting torque and ability to reverse direction. Driving these motors requires well-timed pulse waveforms and precise control of the motor based on its rotational position. It is demonstrated that the pulses required to drive switched reluctance motors can still be applied over along cable lengths. Additionally, the current at the surface can be used to monitor and control the operation of the motor downhole, even with long cable lengths separating the surface power source and downhole motor.

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