传统自行武器的炮控系统结构庞大,控制方式复杂,存在的干扰源多。
Gun control system structure of traditional self-propelled weapon is huge, control method is complex, and disturbance source is large.
本文对全电数字式炮控系统的结构进行了探讨,提出了一种切合实际,可行的实现方案。
The paper analyses the frame of full-electric and digital gun control system and presents a useful and practical solution.
介绍了坦克炮控系统中对交流电机的一种新型控制策略,并在基本型直接转矩控制方法上进行了改进设计。
A new strategy of tank gun control system to apply to control AC motor was introduction and improved-designing of AC motor based on basic method of Direct Torque control was proposed.
该双向全电式炮控系统与现行的坦克炮控系统相比,重量轻了40%,体积减少了30%,效率提高了35%。
The two-direction all - electrical gun control system reduces its weight by 40% , its volume by 30%, while its efficiency raised by 35% as compared with current tank gun control system.
因此选用具有软件支撑、易操作调试、可靠性高和抗干扰能力强的可编程序控制器作为炮控系统的控制核心是最优选择。
So programmable logic controller with software support, easy adjustment, high reliability and anti-jamming capability was used as optical option of control core.
通过测量受力后火炮与炮塔的运动参量,计算出炮控系统的性能参数,为坦克炮控系统能否定型提供依据。提出了利用电动缸与力传感器结合完成施力测量控制的新方法。
Performance parameters of tank GCS were calculated by measuring the movement parameters of the gun and turret with applied force to provide the basis for the approval test of tank GCS.
通过测量受力后火炮与炮塔的运动参量,计算出炮控系统的性能参数,为坦克炮控系统能否定型提供依据。提出了利用电动缸与力传感器结合完成施力测量控制的新方法。
Performance parameters of tank GCS were calculated by measuring the movement parameters of the gun and turret with applied force to provide the basis for the approval test of tank GCS.
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