穩定伺服系統 的英文怎麼說
中文拼音 [wěndìngcìbìxìtǒng]
穩定伺服系統
英文
stable servo- 穩 : 形容詞1 (穩定; 穩當) steady; stable; firm 2 (穩重) steady; staid; sedate 3 (穩妥) sure; rel...
- 定 : Ⅰ形容詞1 (平靜; 穩定) calm; stable 2 (已經確定的; 不改變的) fixed; settled; established Ⅱ動詞...
- 服 : 服量詞(用於中藥; 劑) dose
- 系 : 系動詞(打結; 扣) tie; fasten; do up; button up
- 統 : Ⅰ名詞1 (事物間連續的關系) interconnected system 2 (衣服等的筒狀部分) any tube shaped part of ...
- 穩定 : 1 (使穩定) stabilize; steady 2 (穩固安定) stable; steady 3 (物質的性能不易改變的作用) stabi...
- 系統 : 1. (按一定關系組成的同類事物) system 2. (有條理的;有系統的) systematic
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By numerical simulation, the servo system in this paper greatly reduces the aeroelastic stability. the structural flitter added to the system can reduce the coupling effect of servo system and structure mode and increase the flutter velocity
通過數值模擬發現,伺服系統會降低原有氣動彈性系統的穩定性,結構陷波器的引入可以減弱伺服系統和結構模態的耦合。The state - of - art “ zhongwei ” series machines deliver stable performance in varied function with user - friendly operation ; the big output servo system applied assures low - noise, effective production of precise patterns, which are widely used in elegant mattress, cloth, cushion, sleeping bags and other bedclothes
本公司生產的「中威牌」系列電腦絎縫機造型美觀、布局合理、結構新穎、功能齊全、性能可靠、操作簡便易懂、效率高、噪聲低,採用大功率進口伺服系統,產品關鍵配件全部進口,使機器性能穩定、功能更強、精度更高;絎縫出來的花樣精確美觀,廣泛適用於高級床墊、服裝、靠墊、睡袋、床上用品等各種產品。In airborne synthetic aperture radar ( sar ), antenna stabilization platform is used to isolate antenna pointing, which is stabilized through controlling the platform axis ' rotation, from the vehicle ' s varying attitude and dynamical vibration
摘要機載合成孔徑雷達中,天線穩定平臺用於隔離載機的姿態變化和機械振動對天線指向的影響,並通過伺服系統控制平臺支承軸的轉動穩定波束指向。Firstly, the main structure and integral parts of the atmospheric laser communication system are described in this thesis. with view to the demand of the whole system, it discusses one of the key technologies of optical communication, that is apt technology. it produces the general design and work process of apt system
本論文首先講述了大氣激光通信系統的主要結構和組成部件,然後圍繞課題戰技指標要求,闡述了光通信的關鍵技術之一apt技術,給出了apt系統的整體設計和工作過程,並利用數字控制的基本概念,對apt中的平臺穩定伺服系統進行了詳細設計,給出了模擬實驗結果。The simulation results show that the controller can guarantee the global asymptotical stability of the system, and the pmsm servo system achieves excellent tracking performance, and is robust to uncertain parameters and load torque disturbance
模擬結果表明,所設計的非線性控制器保證了系統的全局一致穩定性,永磁同步電動機伺服系統獲得了很好的跟蹤效果,並且對參數不確定性及負載力矩擾動具有很好的魯棒性。As a hardware. the gimble servosystem design is very important in the making of the optoelectronic tracking system. the precision of the position. speed and the speed stability are the key indexes. for the optic measurement system in the high space. the minimum stable speed and high precision are needed
轉臺伺服系統的位置精度,速度精度和速度平穩性是光電跟蹤系統設計的重要指標,而對深空光測系統,則要求其具有穩定的最低速度以及低速時高的工作精度。The solutions of maximum measurement range and the methods to increase the measurement are given in the condition of stable state and the restricted parameters. how to compensate dynamic performance of servo - system and the analysis of response of system in different inputs are given, too. in this paper the movement equations of the seismic mass of inertial sensor are derived by the known models of the accelerometer
主要包括:敏感質量偏心距、橫向加速度干擾和外加偏壓對傳感器穩定性的影響,給出穩定和參數受限條件下最大量程的求解以及提高量程的方法,研究如何補償伺服系統動態性能,以及不同輸入條件下系統響應的分析。In this system, according to the performance requires of servo - system in rapid character, high precision, drive - stiffness and high - speed stability, we adopted a closed - loop control structure that includes three closed - loops : position closed - loop, speed closed - loop and current closed - loop
根據伺服系統對快速性、高精度以及傳動的剛性和高的速度穩定性等方面的性能要求,系統採用了位置、速度、電流三閉環的控制結構。Basing on the coulomb friction model, a model reference adaptive control system is designed first according to lyarpnov stable theory. considering the real situation at low speed region, the stribeck model controller is put into use also. the both regulators are studied through simulation
針對非線性摩擦對系統低速性能的影響,根據自適應控制理論,採用李雅普諾夫穩定理論,首先設計了基於庫侖摩擦的模型參考模型自適應控制系統,考慮到轉臺伺服系統低速時工作在stribeck區的真實情況,理論上綜合出利用非線性stribeck摩擦模型的自適應控制器,並進行了模擬研究。Servo system adopts linear and non - linear system. namely servo system is non - linear system under the condition of large - angle maladjustment, and linear system under the condition of small - angle maladjustment, thereby guaranteeing the system ' s stability
即在大角度失調的情況下,伺服系統是一個非線性系統;而在小角度情況下為一個線性系統,保證伺服系統的穩定性。Because the friction force mainly influences the track precision and the orientation precision of the servo system, it should consider these two targets changes between before and after compensation. low - velocity ramp signal and step signal were chosen as simulation test signal
由於摩擦力主要影響電液位置伺服系統的低速跟蹤精度和定位精度(即穩態誤差) ,所以要考慮補償前後這兩個指標的變化情況,模擬測試信號選為低速斜坡信號和單位階躍信號。The influence on the parameters of the measurement range and stability and its mutual relations are analyzed. it is pointed out that the key parameters are the weight of seismic mass and the critical voltage. dynamic response of closed - loop servo - system of the accelerometer and the method to adjust dynamic parameters are studied by the second - order method
本文根據已有的加速度計模型,導出了慣性傳感器中敏感質量塊的各個運動方程,通過數學解析的方法,分析了各參數對量程和穩定性的影響以及它們內在的關系,指出關鍵參數是敏感質量和臨界偏壓;根據二階系統分析方法研究加速度計閉環伺服系統的動態響應和調整動態參數的手段,最後利用系統模擬工具matlab給出形象圖解和驗證。The full - digital servo control system of satellite antenna has already passed the whole satellite payload system test. the result shows that the system has good speed stability, high precision scan period and can work reliably under the simulative space environment
本文所設計的衛星天線全數字伺服系統已通過衛星有效載荷系統的聯試實驗,結果表明:該系統具有較高的轉速穩定性和高精度的掃描周期,可以在外太空模擬環境下長期可靠地運行。Moreover, the thesis emphasis on designing the servo system of the stabilized platform and provide the experimental result. combining the requirement and concerned optical mechanism, in the research this paper design the hardware of the servo system and establish the system module on the basis of analyzing control theories and summarizing various control methods. it gives pid rectifying for the velocity inner link and compound control ( forward + feedback ) rectifying for the position link
在平臺穩定伺服系統研究中,結合相關的光學機械結構,設計了控制系統的硬體,並在此基礎上從控制理論分析入手,在總結了各種控制方法的基礎上,建立了本系統的數學模型,以速度內環採用pid校正,位置環採用前饋+反饋的復合控制方案實現對伺服系統的控制,並經雙線性變換離散化,推導出系統校正的狀態方程。Taking the industrial computer as the kernel, the system structure was simplified by extending the multi - channel in one piece of cpld, the servo - control precision and working stability were improved effectively by the full digital sample of the signal for speed circuit and position circuit. and the advantages of the system are simple 、 low ? cost and stable
以工控機為核心,在位置反饋信號採集調理過程中對單片cpld進行多通道擴展以簡化系統結構,並通過對速度迴路和位置迴路的信號的全數字采樣,有效的提高了伺服控制精度及工作穩定性,使系統具有結構簡單、成本低廉、性能可靠等特點。With the design and realization of the servo system of the airborne ( shipborne ) target ' s real - value measurement equipment as the background, and with a view to the especial problems which have to be faced with in servo control system ( that is the bad condition, contradiction between the weight and the power and the disturbance of the carrier ), it is difficult to reach the high stabilization precision and the tracking precision by traditional control technique, so by means of refer to a great deal of references and base on the summary of the domestic and overseas designing schemes, control technique adapted to the airborne ( shipborne ) equipment is brought forward. theoretical analysis and researches are presented in this dissertation and are applied to the practical design and realization of the airborne ( shipborne ) real - value measurement servo controller
本文以某工程研製項目機(艦)載目標真值測量設備的伺服系統研究和實現為依託,著眼于機(艦)載測量設備伺服系統所必須面對的與陸基設備相比的特殊問題(即環境條件更為惡劣、體積和功耗的矛盾及載體擾動帶來的精度降低等) ,提出傳統的控制方法難以使系統達到高的穩定精度和跟蹤精度,因此,通過查閱大量的國內外文獻及總結了國內外光電穩定與跟蹤系統設計方案的基礎上,提出了適用於機(艦)載伺服系統的控制方法,從理論上進行了分析和研究,並將之應用到具體的研究與實現中。The paper regards the middle hollow electrohydraulic servomotor as studying object and build the mathematical model, the stability and the frequency response of opened - loop and closed - loop system are analyzed. this paper discusses the influences of steady error and static error on system precision in detail
文章以中空電液伺服馬達為研究對象,建立了電液位置伺服系統數學模型,分析了系統的穩定性、開環和閉環的頻率特性,詳細探討了系統的穩態誤差和靜態誤差對系統精度的影響。The dynamic performance and steady accuracy of the servo systems are crucial factors for precision measuring and grinding
要實現精密的測量和修磨,伺服系統的動態性能和穩態精度等指標是決定性因素。At first, configuration method of stabilization of los and survey of development of aoep in the world are summarized in this paper, and then principal of how movement of airplane can be isolated by a two - axis - platform is analyzed theoretically. requirements of stabilization of los to servo system are put forward. it provides the basis of theory for designing servo system
本文首先概述了國內外光電平臺的結構和視軸穩定方法以及光電平臺的發展概況,介紹了常用的穩定與跟蹤控制方法;進而從理論上分析了兩軸光電穩定平臺隔離載體角運動的原理,總結並提出了視軸穩定對伺服系統的性能要求,從而為伺服系統的設計提供了理論依據。Therefore, to test servovalve become an important work for improving control system ' s characteristic in chapter one, the work ' s origin and computer ' s applications in the hydraulic test ' s fields are showed, and the same product ' s position at present is briefly introduced. in chapter two, the basic characteristics of the eledtrohydraulic servovalve and the basic test methods are introduced
伺服閥的檢測對于保證伺服閥的性能指標、保證電液伺服系統準確快速穩定的工作有重要的意義論文主要闡述了以工控機、數據採集卡、信號發生器等硬體為基礎,運用虛擬儀器的思想,開發電液伺服閥計算機輔助測試系統的過程、收獲和最後取得的成果。分享友人