耗散功 的英文怎麼說
中文拼音 [hàosǎngōng]
耗散功
英文
dissipative work-
This diode produces about nine times more radiant power than that one.
這只二級管的耗散功率比那隻大8倍。Extremum problem in the wheatstone bridge circuit
惠斯通電橋電路中耗散功率的極值問題Laboratory measurement of the power dissipation characteristics of aeolian vibration dampers for single conductors
單根導線風吹震動阻尼器功率耗散特性的實驗室測量And the results of calculation and numerical simulation indicate, without increasing the intrinsic collector - junction area of power devices, collector - combed structure helps to raise the intrinsic heat - dissipating area and base ' s perimeter, improve heat - dissipating method of each cell of the chip, enhance the distribution uniformity of junction temperature and current of each cell of the chip, reduce the thermal resistance and raise the dissipation power pd and output power p0, fairly well relax the contradiction among frequency, out - put power and dissipation power of the devices, and further improve the devices " property against second breakdown
而計算分析和二維數值模擬分析結果表明:梳狀集電結(基區)結構在不增加器件本徵集電結面積的條件下,增大了器件的本徵散熱面積和基區周長,改進了每個子器件單元內的散熱方式,提高了單元內結溫和電流分佈的均勻性,降低了器件的熱阻,增大了器件的耗散功率和輸出功率,較好地緩解了目前傳統結構中頻率與功率、功耗的矛盾,並有利於改善器件抗二次擊穿的性能。The temperature rises and the dc voltage are proportional to the power dissipated, which is equal to the power of the source being measured if the input impedance is suitably matched to the source impedance
熱偶冷熱結之間的溫度差和熱電勢均正比于耗散在ta2n電阻上的微波功率,如果熱偶的工作電阻與同軸傳輸系統電阻匹配適當,該功率就等於被測源的功率。Especially, the locus of photoinhibition and its expression, its causes, possible manners and functions of thermal dissipation in photoinhibition were introduced in detail
由於葉黃素循環在水稻耐光抑制、增加熱耗散中起著十分重要的作用,也總結了葉黃素循環的功能。Owing to having the advantages of large size, good thermal conductivity, high precision of manufacturing and assembling, the all - metal slow - wave structures are widely used in the wide - band, high power traveling wave tube ( twt ) and relativistic twt. furthermore, the disc - loaded cylindrical waveguide is one of the most important slow - wave structures in the all - metal slow - wave structures ( sws )
全金屬慢波結構因其尺寸大、熱耗散能力強、整體性能好等優點被廣泛應用於寬帶、大功率行波管和相對論行波管中,而膜片加載慢波系統正是全金屬結構中最重要、應用最廣泛的一大類結構。Measuring of dissipation power
耗散功率的測定Anode dissipation power
屏極耗散功率Blank detail specification for metal - ceramic transmitting tubes dissipation over 1kw
陽極耗散功率大於1kw的金屬陶瓷發射管空白詳細規范Blank detail specification for glass enevelope transmitting tubes of anode dissipation over 1kw
陽極耗散功率大於1kw的玻殼發射管空白詳細規范Blank detail specification for small power transmitting tubes of anode dissipation up to 1kw
陽極耗散功率不大於1kw的小功率發射管空白詳細規范Measurements of the electrical properties of transmitting tubes - measuring methods of maximum grid dissipation power
發射管電性能測試方法柵極最大耗散功率的測試方法Based on the analysis of damper movement during load test period, a concept for the dissipation power of damper is suggested
摘要根據阻尼器的加載過程分析,提出了阻尼器耗散功率概念。Measurements of the electrical properties of transmitting tubes - measuring methods of maximum anode dissipation power and anode overload dissipation power
發射管電性能測試方法陽極最大耗散功率和陽極過載耗散功率的測試方法Under distributing fault centralizing mode , constucting the mathematic mode of distribution network based on the theory of structure variable dissipated network. structure variable dissipated network is a new algorithm which can actualize distribution automation efficiently
在配電網採用故障集中控制模式下,通過簡化的配電網模型,以變結構耗散網路理論為基礎建立配電網的數學模型,並在此模型下實現配電網饋線故障區域定位的功能。Experimental sample dct375 with collector - combed structure has better parameter such as icm, pq, pd and / r etc. than traditional - structure devices and overseas devices of the same kind. collector - combed structure technology opens up a new way for the further research of new high - frequency, microwave power devices
研製出的梳狀集電結(基區)結構試驗管dct375 ,其最大電流容量、最大輸出功率、最大耗散功率以及頻率特性等電參數明顯比傳統結構器件和國外同類產品有大的提高。Comparing with the traditional method using hysteretic loop, the method of dissipation power seems obviously more useful when assessing the capacity of damper ' s power dissipation
對耗散功率譜法和傳統滯回曲線法在評價阻尼器耗能能力方面進行了比較,特別在復雜加載情況下,耗散功率譜法具有顯著的優點。Moreover, multiple frequency stimulation method can increase consumption of ic obviously and surface diffuse reflection method can improve surface emission coefficient of ic availably
混和信號激勵法能明顯增大三極體放大電路耗散功率,特別是第一級耗散功率;增頻激勵法能有效提高ic耗散功率;表面漫射法能有效增大元器件的發射系數。Based on the specification, the right phase control thyristor is chosen and the series number of thyristor is calculated. the paper also calculates the power loss of thyristor under the pulsing load, choosing the heat sink and forecast the temperature rising
以此為基礎,合理選擇了所用的高壓晶閘管元件,計算了所需元件的串聯個數,對類似於脈沖負荷下的晶閘管耗散功率進行了計算,並選擇了元件的散熱器,預計了元件的溫升。分享友人