靜電放電
The igniting capacity of electrostatic discharge to space suits is investigated in the condition of pure oxygen and common air.
通過實驗研究了在純氧和普通大氣條件下,靜電放電對各種航天服的引燃能力。
The necessity and basic idea of electrostatic protection in assembling electronic devices are presented by introducing the electrostatic and electrostatic discharge(ESD)briefly.
通過對靜電及靜電放電(ESD)的簡單介紹,提出了在電子裝聯中進行靜電防護的必要性和基本思路。
The cause of electrostatic discharge production was introduced, and the way and method of eliminating the static electricity were discussed.
分析了靜電和靜電放電産生的機理,探讨了消除電子産品靜電的途經和方法。
The Detecting Technique of Electrostatic Discharge is applied mainly in electrostatic hazard protection, fault diagnosis in high voltage power system.
靜電放電探測技術是靜電危害防護、高壓電力故障診斷等領域的關鍵技術。
Electrostatic discharge(ESD) is a kind of electromagnetic interference phenomenon that many electronic and electrical equipments must withstand.
靜電放電(ESD)是許多電子設備必須承受的一種嚴重的電磁幹擾形式。
Note: When integrating a Pentium 4 processor-based system, be sure to take the proper electrostatic discharge () precautions.
注:當集成一個基于奔騰4處理器的系統時,請确保已經采取靜電放電()預防。
When a person replaces a cable or even touches an I/O port, such as an IC, electrostatic discharge(ESD) occurs.
在微機系統組裝時插拔電纜或者是人體接觸微機I/O接口件時,将引起靜電沖擊(ESD)的産生。
Investigation revealed that the vendor shop was not using correct electrostatic discharge-sensitive protection on repaired units.
調查發現,修理廠家對修理組件沒有采用正确的放靜電保護。
An on-chip electrostatic discharge(ESD) protection scheme is demonstrated for an emerging technology of microelectromechanical systems(MEMS)-based embedded sensor(ES) system-on-a-chip(SoC).
是本文提出了一種應用于微機電系統嵌入式傳感器片上系統新工藝上的靜電放電防護器件的電路結構。
Using electrostatic discharge(ESD)shock on rabbits, we have gotten the decending and returning characteristics of the arterial pressure.
對家兔進行了不同電壓(電量)的電擊,顯示了電擊以後血壓下降和恢複的規律特點。
After analyzing the basic principle of Electrostatic Discharge, the limitation of traditional ESD protection circuits applied in high speed circuits was pointed out in the paper.
分析了靜電放電(ESD)保護的基本原理,指出了傳統的用于模拟電路的ESD保護電路在高速電路應用中的局限性。
Don't forget to take ESD (electrostatic discharge) precautions and store the parts in antistatic bags if possible.
别忘了靜電放電(ESD )的預防措施和存儲部件的防靜電袋如果可能的話。
By investigating the physical characteristics of the ignition processing of electrostatic discharge (ESD) sparks, the igniting capability of the ESD sparks are arrived.
通過對靜電放電火花點火過程的物理特征研究,分析與總結了典型靜電放電火花的點燃能力。
They can be used to protect circuits from electrostatic discharge and other high voltage surges .
它們能被用來保護電路不受靜電放電和其它高壓沖擊。
Using a new electrostatic discharge (ESD) simulation and testing set-up, we investigated the characteristics of air ESD at a fixed gap distance.
為更好地研究空氣式靜電放電,利用新型ESD模拟測試系統研究了固定間隙的空氣式靜電放電特性。
The limitations of the electrostatic discharge models and the problems that arise in direct testing of the resistance of the spark discharge channel are briefly analyzed.
簡要分析了現有靜電放電模型的局限性和直接測試靜電放電火花隙電阻值存在的問題。
Through studying the real ignition ability of typical electrostatic discharge (ESD) sparks, the ignition risk caused by ESD sparks in practical production engineering was quantitatively assessed.
通過研究典型靜電放電火花的實際點燃能力,對實際生産工藝工程中的靜電放電火花的點燃危險性進行定量評價。
Integrated fire control equipment meets the requirements of GB16806-1997. The test items include Electrical transient bursts, Electrostatic discharge , and Radiated electromagnetic fields.
消防聯動控制設備應符合GB16806-1997 标準的要求。檢測項目有:靜電放電;輻射電磁場;電快速瞬變脈沖群。
Electrostatic discharge caused by astronauts and space suits could ignite the suits? It would influence the safety of the shuttle.
人—航天服系統産生的靜電放電能否引燃航天服關系到載人航天飛機的安全性。
Control and indicating equipment (c. i. e) meets the requirements of GB4717-1993. The test items include Electrical transient bursts , Electrostatic discharge , and Radiated electromagnetic fields.
火災報警控制器應符合GB4717-1993 标準的要求。檢測項目有:靜電放電;輻射電磁場;電快速瞬變脈沖群。
The lens Cap protects the LED from physical damage while guarding the components from electrostatic discharge (ESD), up to 16KV. More economical than indicator light assemblies.
燈頭蓋能夠保護LED在檢測其它部件時免受靜電放電造成的物理傷害,最高16千伏。較指示燈組件價格低廉。
Component breakdown caused by electrostatic discharge damage to the electronics industry the most common and most serious static damage, it points to the hard breakdown and soft breakdown.
靜電放電引起的元器件擊穿損害是電子工業最普遍、最嚴重的靜電危害,它分硬擊穿和軟擊穿。
The physical characteristics of the ignition processing caused by electrostatic discharge(ESD) sparks and the igniting characteristics of the ESD sparks are investigated.
由分析靜電放電火花點火過程的物理特征和靜電放電火花的點燃特性。
The electrostatic susceptibility of digital relay was experimentally stu***d through discharging to the shell by the electrostatic discharge (ESD) generator.
為研究智能電器監控單元的靜電放電敏感性,利用靜電放電發生器對設備機殼放電進行了實驗研究。
Therefore, the test of electrostatic discharge has already been an important item in the evaluation of the MOS device′s reliability.
因此,靜電放電測試已經成為對器件可靠性評估的一個重要項目。
This paper introduces the characteristic of electromagnetic pulse produced during electrostatic discharge(ESD EMP).
介紹了靜電放電電磁脈沖(ESDEMP)的特性。
A research on the space electric field distribution of the electrostatic discharge needle installed on the aircraft was undertaken.
研究了飛機上安裝的靜電放電針空間電場分布。
With static objects in their surroundings to form electrostatic field, will produce mechanical effects, electrostatic discharge effect and induction effects.
帶靜電的物體,在其周圍形成靜電場,會産生力學效應,放電效應和靜電感應效應。
靜電放電(Electrostatic Discharge, ESD)是物體表面靜電荷積累到一定程度後,通過瞬間電流釋放能量的物理現象。其本質是靜電場強度超過介質擊穿阈值時,電荷在物體間或物體與地之間快速轉移的過程。典型的ESD事件電壓可達數千伏,但持續時間僅納秒至微秒級(來源:美國靜電放電協會标準ANSI/ESD S20.20)。
在電子制造領域,ESD是導緻集成電路損壞的主要因素之一。例如,人體攜帶的靜電接觸敏感元件時,可能引發介質擊穿或金屬層熔融(來源:IEEE《靜電放電對電子設備的影響》白皮書)。防護措施包括使用防靜電工作台、接地手環,以及采用靜電屏蔽材料包裝元器件(來源:國際電工委員會IEC 61340-5-1标準)。
工業流程中,ESD控制被納入質量管理體系。美國國家消防協會NFPA 77标準明确規定了危險環境中的靜電防護要求,涉及石油化工、制藥等行業的可燃物處理場景。現代ESD檢測設備可實時監測靜電壓水平,确保生産環境符合安全阈值(來源:美國職業安全與健康管理局技術指南)。
"Electrostatic discharge"(ESD)是一個物理學術語,通常縮寫為ESD,中文譯為靜電放電。以下是詳細解釋:
靜電放電是指兩個不同電位的物體之間因電荷不平衡而突然産生電流的現象。這種現象通常由靜電荷的積累引發,當電荷積累到一定程度時,會通過空氣、導體或其他介質瞬間釋放,形成短暫的高壓電流。
在電子工業中,ESD防護是産品質量控制的關鍵環節。例如,芯片制造車間需嚴格控制靜電,避免微電路擊穿;日常生活中,ESD防護可延長手機、電腦等設備壽命。
如果需要進一步了解具體案例或防護技術細節,建議參考物理或電子工程領域的專業資料。
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