電池過量充電 的英文怎麼說

中文拼音 [diànchíguòliángchōngdiàn]
電池過量充電 英文
battery over charge
  • : Ⅰ名詞1 (有電荷存在和電荷變化的現象) electricity 2 (電報) telegram; cable Ⅱ動詞1 (觸電) give...
  • : 名詞1 (池塘) pool; pond 2 (旁邊高中間窪的地方) an enclosed space with raised sides 3 (舊指劇...
  • : 過Ⅰ動詞[口語] (超越) go beyond the limit; undue; excessiveⅡ名詞(姓氏) a surname
  • : 量動1. (度量) measure 2. (估量) estimate; size up
  • : Ⅰ形容詞(滿; 充足) sufficient; full; ample Ⅱ動詞1 (裝滿; 塞住) fill; charge; stuff 2 (擔任; ...
  • 電池 : [電學] cell; battery; element; electric battery
  • 過量 : excessive; overdose; surfeit; excess; overmeasure; overage; bellyful
  1. According to the requirements of disign, the system apply mcu at89c2051 to extend 32 keybords, and meantime the system can use battery which can be recharged to supply power. as a whole, the system charact eristic of inputting by keyboard and interacting by chinese characters can display and store spectrum data automatically and accomplish data handling. what ' s more. the system can communicate with other computers by the interface of rs - 232c

    同時,為了實現人機交互,系統採用at89c2051擴展了32鍵鍵盤。在系統的供方面系統可採用。總體來說,系統採用按鍵輸入,漢字人機對話,能自動顯示和存儲測譜線,並完成數據處理工作,除此之外,系統可通rs - 232c與其它計算機聯機使用。
  2. Presently, the world largest scale and most influential brand meeting : 2004 international vehicle maintenance equipment exhibition attracts exhibiters from more than 100 countries and regions in the world to participate the conference in german frankfort. zonda auto group, the leader in chinese maintenance trade, introduced the new product which behalf the international advanced technology, such as paint equipment, became the spot light on the exhibition. the new product zd - 900 of zonda is a new - type of energy - conserving product, adopt international advanced technical, the heat system which the core parts of the product meet the high level demand

    車輛行駛時,可利用富餘功率給,無需停車,也不必增加站該車每100公里油耗僅22 . 4升,比同等噸位的燃油汽車節油30 % ,加滿一箱油可行駛650公里尾氣排放達到了歐標準維修費用僅為燃油車的1 3該車在國家汽車質檢測中心通了54項強制性試驗,下線后已行駛1 . 7萬公里,表現出了良好的安全性能。
  3. The effects of the fabrication conditions on the crystal structure, grain size, micromorphology and electrochemical performance of these materials have been studied in depth. the reaction mechanism of the low - heating solid - state reaction method has also been investigated. in addition, a novel electrochemical method ( rpg method ) based on the concept of " ratio of potentio - galvano - charge capacity " has been for the first time developed to determine the diffusion coefficient of lithium - ion within insertion - host materials on the basis of the spherical diffusion model

    本論文較系統地考察了低熱固相反應法合成鋰離子正極材料的可行性問題,研究了工藝條件對材料的晶體結構、晶粒尺寸、微觀形貌及化學性能等的影響,探討了低熱固相反應的機理,並通引進「恆壓-恆流比」的概念,給出了一種測定鋰離子嵌入脫出固相擴散系數的新方法。
  4. Edit : i checked the overcharged cell temperatures with an ir thermometer : 127f. now being over 4000 ma * h, i pulled them from the charger to reduce the damage to my cells

    我用紅外線溫度計測了的溫度: 127華士度。由於已經4000毫安時的容,我把它們從器里取出以減少對的損傷。
  5. For safe and full charge, after the charging is finished, charger will change into trickle charge process automatically and the trickle charge rate can be chosen according to battery ’ s self discharge amount

    后,為了補因自放而損失的器將自動轉入涓流程,涓流速率可根據自放的程度來選擇。
  6. My takes charge of rests on " may repeatedly charging and discharging lithium ion power battery " the patent development product after the national most authoritative examination organization - - information industrial department chemical physics power source product quality surveillance test center strictest examination, may make any, all users to feel relieved absolutely to the high efficiency power source safety performance

    敝司依據《可反復的鋰離子動力》專利研製的產品經國家最權威的檢測機構? ?信息產業部化學物理源產品質監督檢驗中心的最嚴格的檢驗,可令任何、所有用戶對大功率源的安全性能絕對放心。
  7. But the battery management system ( bsm ) of hev is very expensive and its circuit is complex, simultaneously, chemical changes are also complex during discharging and charging of nimh battery, so it is extraordinarily difficult to calculate and estimate an accurate surplus energy and state of charge of nimh batteries. up to now, this technology is still researching and developing

    但是管理系統成本昂貴,路復雜,而且程中的化學變化也很復雜,要精確計算和預測的荷狀態和剩餘能及壽命是很困難的,到目前為止,這一技術仍在研究發展中。
  8. Based on a number of charging and discharging experiments, a thought is put forward that the polarization may be detected according to the terminal voltages at charging, terminal voltage at the short pause, and the soc ( state of charge ) ; the depolarization by momentary discharge according to the reference of optimal curve

    在論文撰寫程中,作者主要進行了如下方面的研究: -對鉛酸蓄化學機理進行分研究,並在大實驗的基礎上,提出了依據蓄時和停瞬間的端壓和蓄狀態檢測蓄極化狀況的思想。 -依據最佳曲線給定,採取瞬間放減少極化。
  9. If one cell fails, the whole battery fails. with use the normal battery management system, the difference between cells enlarge. it " s recommend that a cell management system which embedded a powerful microchip to manage the charge and discharge of cell will solve this problem well

    本文分析不一致性對蓄使用程中的影響,試驗驗證不一致性隨著使用次數的增加而增大,造成在程中,不均衡,容足的在放,造成了惡性循環,縮短蓄的壽命。
  10. All vanadium redox flow battery is a new - style and environmentally friendly energy storage battery that has many characteristics such as instant recharge by replacing the spent electrolytes, discharged at large current density, really fully discharged ( 100 % ), increasing storage capacity easily, a theoretically unlimited life, sim - ple operation and maintenance. therefore, it is undergoing a exciting development and commercialization. however, there are still some questions to be solved during its commercialization, such as how to prepare highpurity vanadium electrolyte, to enhance its energy density and efficiency, to improve its charge / discharge performance. so it is very important for improving the perfoemance of vanadium redox flow battery and its commercialization to select adaptive electrode materials, to investigate the mechanism of the electrode reaction and to select some additives

    如何制備高純度的釩液流解質、進一步提高釩的能密度和效率,提高其性能,是釩實用化程中需要解決的問題。因此,選擇合適的極材料,進一步探討釩離子的極反應機理,研究釩程的變化,適當選擇並探討添加劑對釩行為和性能的影響,對進一步改善和提高釩性能以及釩的實用化具有重要的理論意義和實用價值。
  11. The redox of v ( ) / v ( ), v ( ) / v ( ) couple on the graphite displayed one electron quasi - reversibility. it is proved that trace in3 +, sb3 + can inhibit cathodic hydrogen evolution during the charge process by increasing the hydro - gen overvoltage in addition that sb3 + is a stabilizing / kinetic enhancing ion. during the charge / discharge process, cross - mix and self - discharge rarely happened. the maximal energy density of the lab - level vanadium battery is 21 wh / kg. the capacity efficiency of the lab - level vanadium battery is as high as 94. 7 %

    末期,會發生水的解反應,痕銦離子的加入提高了析氫位,抑制了程中負極氫氣的析出;銻離子的加入不僅可以抑制氫氣的析出,還提高了正極反應速率,增強了正極表面的穩定性。實驗中得到的最高質比能為21wh / kg ,程中僅有極少的交叉混合和自放發生,自製釩的容效率可高達94 . 7 %
  12. The charging and discharging electrochemistry mechanism of the storage battery is analyzed. the equipment of measuring capacity of storage batteries is developed

    分析了蓄、放程中化學反應機理,研製了一套蓄、放測試系統。
  13. Firstly, let me introduce the features of this cell. adapted such method to give birth to energy as zinc granules reation with o2 of air, this cell possesses the virture that there is a good relationship between discharging energy and charging energy, which is testified by the test of meters from company and actual experiments. meanwhile, repeat number of charging can be ignored for cell because it get energy again by substituting substance in fuel cell. so, we can get the conclusion that this cell belongs to such type as whose energy rebirthes without history factor which always influnences other types of cells. from the above analysises, it will be easy to get some solution to detect energy of zinc / air fuel cell in related precision

    該公司生產的鋅空與傳統的有著完全不同的特點。首先,它採用鋅粉在反應液中與空氣的氧氣反應產生,經測試(包括出廠參數測試、現場測試和實驗測試) ,的放出有著對使用非常有利的某種關系特點;其次,它採用更換反應液的方式來重新得到,這樣就使得的重復率可不作為的因素。該鋅空屬于可重復植入,但沒有產生影響的傳統參數?歷史效果因素。
  14. Principle of the reaction of the mh / ni battery, the characteristics and existed problems of different kinds of soc measuring methods are compared, such as use voltage or resistance of the batteries to get the soc, then put forward the way of ann to estimate soc of the batteries in this research

    研究了鎳氫蓄soc的幾種預測方法:即通計算時的累積來估計的soc的累積法:通計算鎳氫的內阻來計算soc的阻測法和通的開路壓來估計soc的壓測法,比較了它們的優缺點,並提出了本文的基於人工神經網路的soc測方法的思想。
  15. There is 148mah / g theory capacity in spinel limn2o4, which has lots of advantages, such as synthesize method is simple, the price is low, and is friendly to environment. the spinel limn2o4 is perfect substitution of li - ion batteries cathode. but now it has not been commercialized because its capacity fades during the cycle of charge - discharge

    Limn2o4具有尖晶石結構,其理論放達148mah / g ,由於制備工藝簡單、價格低廉、對環境友好等,是一種很有應用前景的鋰離子正極材料;尖晶石limn2o4正極材料在循環程中由於錳元素的溶解、晶格發生jahn - teller變形和解液的氧化分解,使得容衰減較快,至今未能商業化。
  16. Charge / discharge processes of the batteries are studied by differential capacity method

    運用差分容方法分析程。
  17. You can trust vector ' s smart battery chargers to never overheat or overcharge your battery

    你可以信任向的智能器來從未出現熱或你的
  18. In the course of charge and discharge, the collected parameters of battery can be written in the background database, thus the battery capability and soc can be analyzed and researched farther after charge and discharge

    程中就把採集到的參數寫到了后臺的數據庫中,這樣便於完后,對的性能及剩餘容作進一步的分析和研究。
  19. While testing ofeis at different depth of dischargeand charge - discharge at different charge - discharge rate reveale that, these material indicate lower conductivity at highcharge - discharge rate, resulting in bad electrochemical perforemence. melting - cooling and inorganic sol - gel were adopted, which facility - simpleand operating - easy, to prepare v _ 2o _ 5 xeroxes as positive material of li - ion battery. the comparision of structual and electrochemical performance between thesecathode materials were investigated for the first time. their electrochemicalbehaviorswerestudiedbygalvanostaticcharge - discharge, cyclicvoltammetry ( cv ), and electrochemical impedance spectroscopy ( eis ) techniques. the results indicte the sample that prepared by melting - cooling revealed moreexcellent performance at low charge - discharge rate, which achieved a high initialdischarge specific capacity of approximate 320 mah ? g - 1

    各種測試,循環伏安( cv )曲線以及化學阻抗譜( eis )等測試手段對材料的化學性能進行表徵,結果發現,在低倍率放下,熔融淬冷法合成的材料具有更好的化學性能, 0 . 1c恆流放至1 . 8v時首次放達320mah ? g - 1 ,並且發現, v _ 2o _ 5作為正極材料組裝成的鋰離子二次,除首次循環具有較大的不可逆容外,其餘循環可逆且容保持能力較好, 20次循環后,容只衰減了6 . 40 % 。
  20. Fast charging with a high current supply should not be attempted on a deeply discharged battery ? the battery would draw excessive current, pull the vdd voltage down, and possibly cause a handset malfunction or shutdown due to an under - voltage lockout condition

    不要嘗試用大流給一塊完全沒有快速能夠吸取流,拉低vdd的壓,使手機處于欠壓條件下,可能造成手機故障或關機。
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