Affiliation:
1. OMRON Corporation Kyoto Japan
2. Osaka Metropolitan University Osaka Japan
Abstract
AbstractPermanent magnet synchronous motors (PMSM) are very popular in the industrial market. Recently, robots are installed to compensate for the shortage of labor. Due to the increase in motors, the number of power lines and position sensor cable wiring are increased; this increase in complicated wiring is a problem. As a method to solve these problems, power superimposition technology in the power line of a PMSM is expected to reduce the distribution cables. In this paper, the power superposition technology method, and circuit equations of mounting transformers in power lines are presented and are then verified by experiment, simulation, and linear analysis. The circuit equation is proposed as a three‐phase circuit equation, which is transformed into a dq‐circuit equation by a transformation matrix. The characteristics of the electric angular frequency versus the dq‐axis voltage demonstrated satisfactory results, with errors within 1% in linear analysis and simulation. The linear analysis and experiment are shown to be similar, although there are some errors. The validity of the circuit equations could be demonstrated by the verification results.
Reference11 articles.
1. MorimotoS YoshimiD KanedaH et al New Motor drive development by technological innovation using new power devices Inverter Integrated servo drive system using GaN power device.2017 IEE Japan Industry Applications Society Conference [III‐51]‐[III‐56];2017. (in Japanese).
2. KiribuchiT ZaitsuT DoiM KusakaK ItohJ.Impedance‐based stability analysis of DC bus system for servo drives.2019 21st European Conference on Power Electronics and Applications (EPE’19 ECCE Europe) Paper number: 20;2019.
3. Impedance-based Stability Analysis of Servo Drive DC Bus Systems
4. Power line communication;Katayama M;J Soc Instrum Control Eng,2005
5. Trend of high‐speed power line communication technology;Ogawa O;IEEJ Trans Electron Inf Syst,2010