High-speed train asynchronous traction motor square-wave single-loop flux weakening control method
A traction motor and field weakening control technology, applied in motor control, motor generator control, electronic commutation motor control, etc., can solve problems such as poor current tracking response capability and voltage sudden change, achieve smooth switching, and improve current transients. The effect of responsiveness
Active Publication Date: 2017-11-17
BEIJING JIAOTONG UNIV
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[0007] Aiming at the problems of poor current tracking response ability and voltage mutation during switching in existing control schemes, on the basis of traditional vector control strategies, the present invention provides a square-wave single-loop field-weakening control method for asynchronous traction motors of high-speed trains, mainly The purpose has the following two points:
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[0062] The present invention will be described in further detail below in conjunction with the accompanying drawings.
[0063] A square-wave single-loop field-weakening control method for an asynchronous traction motor of a high-speed train according to the present invention comprises the following steps:
[0064] 1. Determine the maximum output voltage U of the inverter smax ;
[0065] The DC side bus voltage U is obtained by AD sampling dc , according to the DC side bus voltage U dc Calculate the maximum output voltage U of the inverter smax , as shown in formula (1):
[0066]
[0067] 2. Calculate d, q axis voltage
[0068] In the synchronous coordinate system, when the asynchronous traction motor does not enter the square wave working condition, the d-axis voltage u of the asynchronous motor sd and q-axis voltage u sq for:
[0069]
[0070] When the asynchronous traction motor enters the square wave working condition, the d-axis voltage u sd and q-axis volta...
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The invention relates to a high-speed train asynchronous traction motor square-wave single-loop flux weakening control method, which comprises the steps that 1, the maximum voltage U<smax> that an inverter can output is determined; 2, when an asynchronous attraction motor does not enter a square-wave operating condition, d-axis voltage u<sd> equals to u<sd1>, q-axis voltage u<sq> equals to u<sq1>, and when the asynchronous attraction motor enters the square-wave operating condition, the d-axis voltage u<sd> equals to u<sd1>, and the q-axis voltage u<sq> equals to the square root of (U<smax><2>-u<sd1><2>); 3, designing a flux weakening PI regulator according to a current relationship of the d-axis and the q-axis; 4, according to a switching control strategy, adopting a double-current-loop vector control strategy is adopted when the d-axis voltage u<sd1> is greater than the square root of (U<smax><2>-u<sd1><2>), and adopting a square-wave single-loop flux weakening control strategy when the d-axis voltage u<sd1> is less than the square root of (U<smax><2>-u<sd1><2>). The square-wave single-loop flux weakening control strategy is adopted, so that the tracking response capability of the current is improved, and thus the transient response capability of the current is improved; and smooth transition between double-current-loop vector control and square-wave single-loop flux weakening control is realized, and the asynchronous traction motor is ensured to have no current and voltage impact when the control strategy is switched.
Description
technical field [0001] The invention relates to the field of traction motor control, in particular to a square-wave single-loop field-weakening control method for an asynchronous traction motor of a high-speed train. Background technique [0002] In a high-power traction drive system, in order to reduce switching losses and make the inverter more compact and lightweight, the inverter usually enters a square wave working condition after the traction motor enters the field-weakening region to make full use of the DC bus voltage and reduce the inverter load. The switching frequency of the converter. After the traction motor enters the square wave, the amplitude of the fundamental wave voltage remains unchanged, only the vector angle of the fundamental wave voltage is adjustable, while the traditional double current loop vector control strategy needs to keep the amplitude and angle of the stator voltage of the motor under control at any time. If the traditional double current l...
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Login to view more IPC IPC(8): H02P21/00
CPCH02P21/00H02P2207/01
Inventor 方晓春杨中平林飞李华朱龙胜孙湖
Owner BEIJING JIAOTONG UNIV
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