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Driving device, fluid utilization device, and air conditioner

A drive device and synchronous motor technology, applied in the direction of control of electromechanical transmission, motor control, motor generator control, etc., can solve the problem of cost increase, and achieve the effect of inhibiting the rotation from becoming unstable

Pending Publication Date: 2022-02-25
MITSUBISHI ELECTRIC CORP
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, when using the same number of power converters as the number of synchronous motors, since the number of synchronous motors increases, the number of power converters also increases, so an increase in cost is a technical problem.

Method used

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  • Driving device, fluid utilization device, and air conditioner
  • Driving device, fluid utilization device, and air conditioner
  • Driving device, fluid utilization device, and air conditioner

Examples

Experimental program
Comparison scheme
Effect test

Embodiment approach 1

[0065] figure 1 It is a diagram showing a configuration example of the drive device according to Embodiment 1 of the present invention. Synchronous motors are broadly classified into permanent magnet field type synchronous motors in which permanent magnets are installed on the rotor, wound field type synchronous motors in which field windings are wound on the rotor, and saliency of the rotor. A reluctance synchronous motor that obtains rotational torque. Two synchronous motors of the same type among these types of synchronous motors, for example, permanent magnetic field type synchronous motors, are connected in parallel to the drive device 100 of the first embodiment. In Embodiment 1, one of the two synchronous motors is referred to as a master-side synchronous motor 1a, and the other is referred to as a slave-side synchronous motor 1b. The master-side synchronous motor 1a is a first synchronous motor, and the slave-side synchronous motor 1b is a second synchronous motor. ...

Embodiment approach 2

[0193] In Embodiment 2, a configuration example in which a magnetic flux current is determined using a ripple component of the active power consumed by the secondary-side synchronous motor 1b will be described. In order to solve technical problems such as increased noise and vibration, and reduced motor efficiency, it is necessary to accurately detect the self-oscillation phenomenon of the secondary synchronous motor 1b caused by motor elastic resonance even under the condition of a large change in magnetic flux current. One method for this is the method using the ripple component of the torque current described in the first embodiment. However, when the load connected to the primary synchronous motor 1a and the secondary synchronous motor 1b, that is, the moment of inertia of the mechanical system is relatively large, the magnetic flux can be determined by using the pulsating component of the active power instead of the pulsating component of the torque current. current. As ...

Embodiment approach 3

[0204] Figure 27 It is a diagram showing a configuration example of a drive device according to Embodiment 3 of the present invention. The driving device 100B of Embodiment 3 includes a pulsation component extraction unit 70B instead of figure 1 The pulsation component extractor 70 is shown. The pulsating component extracting unit 70B includes the secondary torque current pulsating component extracting unit 7 , the primary torque current pulsating component extracting unit 12 , and the subtractor 8 a. Other structures are the same or equivalent to those of Embodiment 1, and the same or equivalent structural parts are given the same reference numerals and repeated descriptions are omitted.

[0205] In Embodiment 3, it is determined based on the difference between the torque current ripple component that is the ripple component of the torque current of the secondary synchronous motor 1b and the torque current ripple component that is the ripple component of the torque current...

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PUM

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Abstract

A driving device (100), provided with a power converter (2), a magnetic-pole-position-specifying unit (5a), a magnetic-pole-position-specifying unit (5b), a subtractor (8), and a current control unit (6). The power converter (2) supplies electrical power to a main-side synchronous motor (1a) and a sub-side synchronous motor (1b). The decelerator (8) obtains an angle difference (lambda) using the magnetic pole position of the rotor of the main-side synchronous motor (1a) specified by the magnetic-pole-position-specifying unit (5a) and the magnetic pole position of the rotor of the sub-side synchronous motor (1b) specified by the magnetic-pole-position-specifying unit (5b). A magnetic flux current command compensation unit (10) adjusts the absolute value of a magnetic flux current command (id *) on the basis of the angle difference (lambda). The current control unit (6) controls the power converter (2) using a torque current command (iq *) and the magnet flux current command (id *) in which the absolute value has been adjusted by the magnetic flux command compensation unit (10).

Description

technical field [0001] The present invention relates to a drive device for driving two synchronous motors connected in parallel to one power converter, a fluid utilization device provided with the drive device, and an air conditioner provided with the fluid utilization device. Background technique [0002] If the synchronous motor does not use the information on the rotational position of the rotor to apply an appropriate voltage corresponding to the rotational position of the rotor, it may not be able to properly generate torque, and may be out of step or stop working. Therefore, conventionally, when driving a plurality of synchronous motors, the same number of power converters as the number of synchronous motors has been used in order to apply a voltage corresponding to the rotational position of a rotor included in each synchronous motor. However, when using the same number of power converters as the number of synchronous motors, as the number of synchronous motors increa...

Claims

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Application Information

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IPC IPC(8): H02P6/04H02P21/24H02P21/22H02P21/04H02P21/05H02P25/022
CPCH02P5/74H02P21/18H02P2203/05H02P2203/11
Inventor 谷山雄纪高桥健治清水裕一和田康彦
Owner MITSUBISHI ELECTRIC CORP