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    • 1. 发明申请
    • FAULT TOLERANT ION SOURCE POWER SYSTEM
    • 容错型离子源电源系统
    • WO2012054390A2
    • 2012-04-26
    • PCT/US2011/056546
    • 2011-10-17
    • VEECO INSTRUMENTS, INC.HANSEN, DennisDEAKINS, JamesCAMUS, Curtis
    • HANSEN, DennisDEAKINS, JamesCAMUS, Curtis
    • H01J37/08
    • H01J37/3053H01J37/24H01J2237/08H02H3/247
    • The presently disclosed technology provides a responsive ion beam source power supply system (200, 300, 400) capable of handling fault events without relying on conventional protection circuitry (e.g., fuses and breakers) so that physical power supply hardware intervention by a user is minimized for typical fault conditions and the ion beam source power supply system (200, 300, 400) may recover automatically after experiencing a fault condition. The presently disclosed technology further discloses an ion beam source power supply system (200, 300, 400) capable of detecting and diagnosing fault states, autonomously implementing command decisions to preserve or protect the function of other ion source modules or sub-systems, and/or mitigating or recovering from the disruptive fault event and returning the ion beam source system (100) to desired user settings.
    • 目前公开的技术提供了能够在不依赖于常规保护电路(例如,熔断器和断路器)的情况下处理故障事件的响应离子束源电源系统(200,300,400),使得物理功率 对于典型的故障状况,用户的供电硬件干预被最小化,并且离子束源电源系统(200,300,400)可以在遇到故障状况之后自动恢复。 目前公开的技术还公开了能够检测和诊断故障状态,自主地实施命令决定以保存或保护其他离子源模块或子系统的功能的离子束源电源系统(200,300,400),和/ 或减轻或恢复破坏性故障事件并将离子束源系统(100)返回到期望的用户设置。
    • 2. 发明申请
    • UNDER- AND/OR OVERVOLTAGE RELEASE
    • 内部和/或过压释放
    • WO01086776A1
    • 2001-11-15
    • PCT/EP2000/010435
    • 2000-10-23
    • H02H3/20H02H3/247
    • H02H3/247H02H3/207
    • An under- and/or overvoltage release (1) is provided with a comparator circuit (2) for comparing a voltage (U1) to be monitored with a preferably adjustable voltage threshold value (U2), and a combination circuit (3), which logically combines the state signal (A) of the comparator circuit (2) with a comparison signal (B) and, in the event of the pulse duration (TA) of the state signal (A) deviating from the pulse duration (T1) of the comparison signal (B), generates an undervoltage pulse (Su) or an overvoltage pulse (SUE) for generating a release pulse (PA).
    • 欠压和/或过电压释放(1)具有比较器电路(2),用于将待监视的电压(U1)与优选可调的电压阈值(U2)和组合电路(3)进行比较,所述组合电路 将比较电路(2)的状态信号(A)与比较信号(B)进行逻辑组合,并且在状态信号(A)的脉冲持续时间(TA)与偏离脉冲持续时间(T1) 比较信号(B)产生用于产生释放脉冲(PA)的欠压脉冲(Su)或过电压脉冲(SUE)。
    • 3. 发明申请
    • FAULT TOLERANT ION SOURCE POWER SYSTEM
    • 故障电源系统
    • WO2012054390A3
    • 2012-06-28
    • PCT/US2011056546
    • 2011-10-17
    • VEECO INSTR INCHANSEN DENNISDEAKINS JAMESCAMUS CURTIS
    • HANSEN DENNISDEAKINS JAMESCAMUS CURTIS
    • H01J37/08
    • H01J37/3053H01J37/24H01J2237/08H02H3/247
    • The presently disclosed technology provides a responsive ion beam source power supply system (200, 300, 400) capable of handling fault events without relying on conventional protection circuitry (e.g., fuses and breakers) so that physical power supply hardware intervention by a user is minimized for typical fault conditions and the ion beam source power supply system (200, 300, 400) may recover automatically after experiencing a fault condition. The presently disclosed technology further discloses an ion beam source power supply system (200, 300, 400) capable of detecting and diagnosing fault states, autonomously implementing command decisions to preserve or protect the function of other ion source modules or sub-systems, and/or mitigating or recovering from the disruptive fault event and returning the ion beam source system (100) to desired user settings.
    • 目前公开的技术提供了能够处理故障事件的响应式离子束源电源系统(200,300,400),而不依赖于常规保护电路(例如,熔断器和断路器),从而使用户的物理电源硬件干预最小化 对于典型的故障条件,离子束源电源系统(200,300,400)可能在经历故障状态后自动恢复。 目前公开的技术还公开了能够检测和诊断故障状态的离子束源电源系统(200,300,400),自主地执行命令决定以保持或保护其他离子源模块或子系统的功能,和/ 或者从破坏性故障事件减轻或恢复,并将离子束源系统(100)返回到期望的用户设置。
    • 4. 发明申请
    • POWER SUPPLY SYSTEMS AND METHODS THAT CAN ENABLE AN ELECTROMAGNETIC DEVICE TO RIDE-THROUGH VARIATIONS IN A SUPPLY VOLTAGE
    • 电源系统和方法可以使电磁装置在电源电压范围内变化
    • WO00067270A1
    • 2000-11-09
    • PCT/US2000/011738
    • 2000-04-28
    • H01H47/04H02H3/247H01H9/00
    • H01H47/043H02H3/247
    • Power supply systems and methods can enable an electromagnetic device, such as an electrical contactor, to ride-through both voltage sags and dropouts. In an illustrative embodiment, a rectifier (24) is used to generate a DC input voltage from an AC supply voltage (VC). An interface circuit (32) supplies the DC voltage to an electrical contactor to provide the necessary power for operating the contactor. In addition, an energy storage device (C2) may be used to store at least some of the DC input voltage. The energy storage device (C2) thus provides a power reservoir that can be accessed during severe voltage sags or even dropouts to ensure continuous operation of the electrical contactor.
    • 电源系统和方法可使诸如电接触器之类的电磁装置能够穿过电压骤降和跌落。 在说明性实施例中,整流器(24)用于从AC电源电压(VC)产生DC输入电压。 接口电路(32)将DC电压提供给电接触器以提供用于操作接触器的必要电力。 此外,可以使用能量存储装置(C2)来存储至少一些DC输入电压。 因此,能量存储装置(C2)提供了在严重的电压骤降或甚至缺失期间可以访问的电力储存器,以确保电接触器的连续操作。
    • 7. 发明申请
    • APPARATUS FOR CONTROLLING INTERCONNECT SWITCH
    • 用于控制互连开关的装置
    • WO2006047656A2
    • 2006-05-04
    • PCT/US2005/038692
    • 2005-10-25
    • TECHNOLOGY RESEARCH CORPORATION
    • LEGATTI, Raymond, H.
    • G05F1/10
    • H01H47/32H02H3/24H02H3/243H02H3/247H02H7/0859
    • An apparatus is disclosed for controlling an interconnect switch connecting a power source to a load. The apparatus comprises an interconnect switch control circuit connected to the inter-connect switch for closing the interconnect switch upon an application of voltage from the power source. A voltage storage circuit stores a voltage related to a nominal operating voltage of the power source. A comparator is connected to the voltage storage circuit for comparing an instanta­neous voltage of the power source relative to a nominal operating voltage of the power source. A timing circuit is connected to the comparator and the interconnect switch control circuit for open-ing the interconnect switch for a selected period of time after a reduction of the voltage of the power source. The apparatus is suitable for disconnecting electrical power to the load after an interruption and/or reduction of voltage of the power source.
    • 公开了一种用于控制将电源连接到负载的互连开关的装置。 该装置包括连接到互连开关的互连开关控制电路,用于在施加来自电源的电压时闭合互连开关。 电压存储电路存储与电源的额定工作电压相关的电压。 比较器连接到电压存储电路,用于比较电源的瞬时电压相对于电源的标称工作电压。 定时电路连接到比较器和互连开关控制电路,用于在电源的电压降低之后选定的时间段内打开互连开关。 该装置适于在电源的中断和/或降低之后断开与负载的电力。
    • 8. 发明申请
    • UNDERVOLTAGE RELEASE WITH AN ELECTROMAGNET AND CLOCKED HOLDING CURRENT CIRCUIT
    • 用电磁欠压定时器和计时保持电路
    • WO01026200A1
    • 2001-04-12
    • PCT/DE2000/003435
    • 2000-09-27
    • H02H3/00H02H3/247H02H9/04
    • H02H3/247H02H3/006H02H9/047
    • The invention relates to an undervoltage release which comprises an electromagnet (EM) for releasing a switching device and a driver circuit that supplies the current for a winding of the electromagnet and serves for producing a clocked holding current for the electromagnet. The aim of the invention is to provide an operating delay which is as short as possible. An electronic switch (ES1) is introduced into the self-holding current of the electromagnet. The self-holding current is realised by means of a freewheeling diode (D1). Said switch can be controlled according to the output signal of an undervoltage detector (OV3, OV4) which is arranged within the driver circuit.
    • 为了使其中包含一个电磁体(EM),用于跳闸的开关装置和所述电磁体的进给驱动器电路,用于产生所述驱动器电路的绕组欠压释放一个时钟保持电流为电磁体被用于实现尽可能低的切换延迟,是在一个装置 续流二极管(D1)来实现电磁铁的自保持电路引入的电子开关(ES1),其响应于设置在欠压检测器(OV3,OV4)内的驱动器电路的输出是可控制的。
    • 10. 发明申请
    • PROTECTIVE CIRCUIT FOR AN ELECTRONIC DEVICE
    • 保护电路用于电子设备
    • WO00062393A1
    • 2000-10-19
    • PCT/AT2000/000046
    • 2000-02-22
    • H02H3/247H02H9/00H02H11/00
    • H02H9/001H02H3/247H02H11/002H02H11/006Y10S323/908
    • The invention relates to a protective circuit for an electronic device. Said protective circuit is located between a DC source (Uv) and the circuit voltage input of the device (G). The protective circuit consists of the serial connection of a diode (Dv) and a limiting resistor (Rv). Said diode (Dv) and said limiting resistor (Rv) are spanned by a controlled switch (S). A circuit voltage (UB, UA) of the device (G) is connected to a voltage monitoring element (W) which emits a switch signal (s) that closes the switch when a determined minimum value of the circuit voltage (UB) is reached.
    • 用于连接直流电压源(UV)和所述装置(G)的工作电压输入端之间的电子设备的保护电路的位置,并从一个二极管(Dv)为组成的串联电路和一个限流电阻(RV)组成。 在此,二极管比(Dv)和受控开关(S)的限流电阻(RV)是桥连的,并且到工作电压的装置的(UB,UA)(G)的电压监视器(W)连接,这对于递送的开关的 是布置闭合开关信号(S)时的工作电压(UB)的可预先确定的最小值。