• Title/Summary/Keyword: Motor gearbox

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Fault Diagnosis Based on MCSA for Gearbox of BLDC Motor (MCSA 기반의 BLDC 모터 기어박스의 고장 진단)

  • Shin, Sa-Chul;Kim, Jun-Young;Yang, Chul-Oh;Park, Kyu-Nam;Song, Myung-Hyun
    • Proceedings of the KIEE Conference
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    • 2011.07a
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    • pp.2069-2070
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    • 2011
  • In this paper, the fault diagnosis for a gearbox of BLDC motor. The stator of BLDC motor consists of coil winding so it is easy to cool down and it also has a high reliability. In addition, it doesn't have a brush so it is less trouble and good in maintenance. Coupling with the motor which is the power sources, the gear has a high power transfer efficiency and various rotation speed. The gear gets a high driving force through deceleration. Thus it has been widely used. The gearbox fault detection area has not attracted much attention from electrical engineering community. A few papers describe gearbox fault based on vibration. Gearbox fault is diagnosed through FFT analysis of current and voltage. Fault characteristic frequency side band detected by calculating fault frequency. A threshold value is suggested by comparing normal peak value with fault peak value using detected fault characteristic frequency side band. Experimental results demonstrate that motor current and voltage signal analysis are viable tools in detecting these gear faults. Lower side band(LSB) is bigger than upper side band(USB) in current FFT. LSB and USB are similar in voltage FFT. Finally, fault diagnosis system that can easily detect flaws is developted for gearbox of BLDC motor.

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A Study on Tooth Profile Modification of Planetary Reducer for 120kW Class Monorail (120kW급 모노레일용 유성기어감속기의 치형수정에 관한 연구)

  • Jeong, Yeong-Sik;Kim, Nam-Kyung;Xu, Zhezhu;Lyu, Sung-Ki
    • Journal of the Korean Society of Manufacturing Process Engineers
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    • v.11 no.6
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    • pp.195-200
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    • 2012
  • In this study, parameters and requirements of an 120kW class monorail planetary gearbox was analysed and the adaptive planetary gearbox design was selected. The specification of the sun gear, planetary gear and carrier was set and the profile & lead was optimized. The mechanical efficiency of the optimized one and the original one was observed. Dynamo-tester system was used to observe the mechanical efficiency of the planetary gearbox. A dynamo unit was connected with the planetary gearbox which straightened through the motor by a coupling. The standard tooth shape planetary gearbox and modified tooth shape planetary gearbox were used as test pieces and the rotation speed was set from 600 to 6000rpm with 600rpm, 2.5min one step. In order to check the mechanical efficiency of the planetary gearbox, the tests were done as follows. 1) The power loss between driving motor and dynamo tester. 2) Temperature variation by different rotation speeds. 3) Noise variation by different rotation speeds.

Integrated Model of Power Electronics, Electric Motor, and Gearbox for a Light EV

  • Hofman, Isabelle;Sergeant, Peter;Van den Bossche, Alex;Koroglu, Selim;Kesler, Selami
    • Journal of Power Electronics
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    • v.15 no.6
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    • pp.1640-1653
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    • 2015
  • This study presents a model of a drivetrain for an integrated design of a light electric vehicle (EV). For the drivetrain of each front wheel of the single-person, battery-powered EV tricycle consists of a battery, an inverter, and an outer rotor permanent magnet synchronous motor (PMSM), which is connected to an in-wheel gearbox. The efficiency of the inverter, motor, and gearbox is analyzed over the New European Driving Cycle. To calculate the losses and efficiency of the PMSM, the power electronics in the inverter and gearbox are used. The analytical models provide a fast, but less accurate result, useful for optimization purposes. To accurately predict the efficiency of the PMSM, a finite element model is used. The models are validated by test setups. Correspondingly, a good agreement between the measurements and the calculated results is achieved. A parameter study is performed to investigate the influence of the detailed component parameters (i.e., outer rotor radius, gear ratio, and number of pole pairs and stator slots) on the average efficiency of the drivetrain.

The study of servo control in ultrasonic motor

  • ;C.B. Besant
    • Proceedings of the Korean Society of Precision Engineering Conference
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    • 1991.04a
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    • pp.158-165
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    • 1991
  • DC servo motors have small torques compared to their weight. In order to reduce the speed and increase the output torque of the DC motor, a gear box is commonly used. The use of a gearbox, however, imposes limitations onmany applications because of the backlash and the reduction in transmission efficiency. Furthemore, the elastic deformation or the compliance of the gearbox decreases the accuracy of the servo mechanism and the stability of the system. In view of the many disadvantages in using the gearbox, a more effective solution has to be found. The solution is the direct drive mechanism. There are many kinds of direct drive motors. I will consider the ultrasonic motor in particular.

A Study on the Starter Control of the Turbo Generator (터보 제너레이터의 시동기 제어에 관한 연구)

  • 박승엽;노민식
    • Journal of Institute of Control, Robotics and Systems
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    • v.10 no.3
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    • pp.286-293
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    • 2004
  • This paper presents the result of a study on the starter control for a turbo generator. Because a starter in gear box type turbo-generator system is composed of gearbox and brush DC motor, it should be replaced with High Speed Generator(HSG)) in HSG type Turbo-generator. There-ore, it is necessary to design a new starting algorithm and starter. In gearbox type system, brush DC motor is rotated to the designed speed using low voltage-high current battery power. After brush DC motor speed is increased to several times by gearbox, gas turbine engine can be rotated to designed starting speed. If we implement a starter with High Speed Generator(HSG), it is necessary to drive high-speed generator to high-speed motor. High-speed generator with permanent magnet on rotor has a low leakage inductance fur driving high-speed rotation, and it is necessary high DC link voltage for inverter when High-speed generator is driven to high speed. This paper presents result of development of the boost converter for converting high voltage DC from low battery voltage and design of the inverter for controlling a high frequency current to be injected to motor winding. Also, we show performance of the designed starter by driving the turbo generator.

The Development of 150HP/ 70,000rpm Super High Speed Motor Driver for Direct Drive Method Turbo Compressor (직접 구동방식의 터보 압축기를 위한 150마력,70,000rpm 초고속 전동기 구동 시스템 개발)

  • 권정혁;변지섭;최종경
    • Journal of the Institute of Electronics Engineers of Korea SC
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    • v.40 no.1
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    • pp.45-54
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    • 2003
  • Turbo compressor needs high speed rotation of impeller in structure, high rated gearbox and conventional induction motor. This mechanical system increased the moment of inertia and mechanical friction loss. Resently, the study of turbo compressor applied super high speed motor and drive, removing gearbox made its sire small and mechanical friction loss minimum. This paper describes the implementation of the vector control schemes for a variable-speed 131㎾ PMSM(Permanent Magnet Synchronous Motor) drive in super-high speed application.

The Development of a super high speed motor driving system for the direct drive type turbo compressor (직접 구동방식의 터보 압축기를 위한 초고속 전동기 구동 시스템 개발)

  • 권정혁;변지섭;최중경
    • Proceedings of the IEEK Conference
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    • 2002.06e
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    • pp.219-222
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    • 2002
  • There are screw, reciprocating type turbo compressor by structure in an air compressor which is essential equipment on the industrial spot. Recently, the application range of a turbo compressor tend to be wide gradually. And this type of compressor needs high speed rotation of impeller in structure so high ratio gearbox and conventional induction motor driving required. This mechanical system have results of increased moment of inertia and mechanical friction loss. Recent studies of modern turbo compressor have been applied to developing super high speed BLDC motor and driver which remove gearbox that make its size small and mechanical friction loss minimum. To accomodate this tendency, we tried to develope a super high speed motor drive system for 150Hp, 70,000rpm direct drive Turbo compressor using DSP(Digital Signal Processor) and SVPWM(Space Vector Modulation PWM) technique. The results of this specific application show that super high speed driver and controller could be implemented well with digital electronics.

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Noise Reduction of Electric Vehicle using Passive Damping Material (수동형 패치를 이용한 전기차 소음 저감)

  • Kim, Hyunsu;Kim, Byeongil;Han, Won-ok
    • Journal of the Institute of Electronics and Information Engineers
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    • v.54 no.6
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    • pp.117-122
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    • 2017
  • Cabin noise due to the electric powertrain of electrical vehicle may consists of motor noise caused by electrical mismatch and gear noise coming from reduction gearbox. These sound may be considered rather small noise compared to those of internal combustion engine, but without masking effect, the noise can be more annoying for customer. Thus, this paper demonstrates the characteristics of electrical vehicle powertrain noise, and the effect of passive damping material for the noise reduction. The typical motor noise can be affected by the motor torque. Also, it is demonstrated that the reduction gearbox may be a weak point for the noise path compared to the motor housing. With vehicle test, it is shown that the damping patch is more effective for noise reduction with deceleration condition than with acceleration condition.

Finding-out the Natural Frequency of the Axle Gearbox Suspension System of the High-speed Train (고속전철 액슬 기어박스 현가계의 고유 진동수 측정)

  • 최진욱;차수덕;김용기;이태화
    • Proceedings of the KSR Conference
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    • 2001.10a
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    • pp.163-170
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    • 2001
  • Axle Gearbox of the High Speed Train has rotational degree of freedom centered on the Axle Shaft Center Line, and constrained by the Reaction Arm connected to the Bogie Frame via Resilient Ring made of Rubber. This System is laid on the Power Train and can influence on the Power transmitted from Motor to Axle. The stiffeness of the Resilient Ring have to be selected for the Natural Frequency of this System do not overlap with the Teeth-mating Frequency. To confirm the Design Parameters, Calculation and Experiment were executed and compared.

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