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    • 2. 发明授权
    • Transformer power supply having an inductively loaded full wave
rectifier in the primary
    • 变压器电源在主电源中具有感应加载的全波整流器
    • US4314324A
    • 1982-02-02
    • US92280
    • 1979-11-08
    • Emmett R. AndersonDouglas S. Schatz
    • Emmett R. AndersonDouglas S. Schatz
    • G05F1/38H02P13/24
    • G05F1/38
    • In a transformer power supply, a full wave rectifier is series connected in circuit with the primary winding of the transformer such that the current flowing through the primary winding of the transformer flows in series through the input of the full wave rectifier. An inductive load is connected across the output terminals of the full wave rectifier such that the rectified output current flows through the inductive load. The full wave rectifier preferably uses silicon controlled rectifiers which are phase triggered in such a manner so as to control their conduction angles so as to control the power flow from the source to the load connected to the secondary of the transformer. The inductance of the load for the rectifier preferably exceeds the critical inductance so as to minimize ripples in the secondary of the transformer. This type of power supply circuit is particularly useful for supplying power to an electron gun which is subject to arcing. The inductive load for the rectifier reduces the transient voltages impressed on the transformer resulting from SCR phase control and also minimizes AC voltage drop across the inductive load while providing transient current limiting as may be encountered by arcing of the electron gun.
    • 在变压器电源中,全波整流器与变压器的初级绕组串联在一起,使得流过变压器初级绕组的电流通过全波整流器的输入串联流动。 感应负载连接在全波整流器的输出端之间,使整流后的输出电流流过感性负载。 全波整流器优选地使用以这种方式相位触发的可控硅整流器,以便控制其导通角度,以便控制从源极到连接到变压器次级的负载的功率流。 整流器负载的电感优选超过临界电感,以便最小化变压器次级的波纹。 这种电源电路特别适用于向受电弧放电的电子枪供电。 整流器的感性负载降低了由SCR相位控制引起的对变压器施加的瞬态电压,并且还使电感负载下的交流电压降最小化,同时提供电子枪电弧可能遇到的瞬态电流限制。
    • 3. 发明授权
    • Continuous deposition of insulating material using multiple anodes
alternated between positive and negative voltages
    • 使用多个阳极的绝缘材料的连续沉积在正电压和负电压之间交替
    • US5897753A
    • 1999-04-27
    • US864766
    • 1997-05-28
    • Douglas S. SchatzRichard A. Scholl
    • Douglas S. SchatzRichard A. Scholl
    • H05H1/46C23C14/34H01J37/34H01L21/316
    • H01J37/3438H01J37/34H01J37/3444
    • A method and an apparatus are disclosed for sputter deposition of an insulating material on a substrate in a continuous mode of operation. A novel design for an anode assembly and driving power supply is disclosed to permit this. Single or multiple anodes are used, which at any given time may be biased negatively with respect to the plasma, so that any insulating material which may have been deposited thereupon may be sputtered away so as to provide a clean positive anode to the system, and at least for some period of time is biased positively so that it acts as an anode. The removal of any insulating material which may have formed on the anode structure permits its continuing effective use in collecting electrons from the plasma when it is biased positively, and therefore its continuing effective use as an anode for the system, permitting continuous operation of the system.
    • 公开了一种用于在连续操作模式下将绝缘材料溅射沉积在衬底上的方法和装置。 公开了用于阳极组件和驱动电源的新颖设计,以允许这一点。 使用单个或多个阳极,其在任何给定时间可能相对于等离子体负偏压,使得可能已经沉积在其上的任何绝缘材料可被溅射掉,以便为系统提供清洁的正极;以及 至少在一段时间内是积极偏见的,以致其作为阳极。 可能在阳极结构上形成的任何绝缘材料的去除允许其在被积极地偏置时从等离子体中收集电子继续有效地使用,因此其作为系统的阳极的持续有效的使用,允许系统的连续操作 。
    • 5. 发明授权
    • Frequency selected, variable output inductor heater system
    • 频率选择,可变输出电感加热器系统
    • US06316754B1
    • 2001-11-13
    • US09462402
    • 2000-04-28
    • Douglas S. SchatzJohn M. Dorrenbacher
    • Douglas S. SchatzJohn M. Dorrenbacher
    • H05B644
    • H01L21/67109C23C16/46C30B25/10H05B6/06H05B6/44
    • An induction heating systems using a plurality of zones in a coil provides selective heating control for better uniformity especially for semiconductor and other thin film processing applications. By arranging the zones to have different resonance frequencies, the power supply may control the various zones by altering its frequency output. The power supply may also act to control the differential heating by switching among zones in conjunction with the frequency control, by sweeping through a variety of frequencies, by simultaneously providing power over different frequencies, by altering the residence time at each frequency, or by outputting different powers to each frequency or the like. Each zone may thus be tuned as appropriate to achieve the desired induction heating characteristic.
    • 在线圈中使用多个区域的感应加热系统提供选择性加热控制,以获得更好的均匀性,特别是对于半导体和其它薄膜处理应用。 通过布置这些区域具有不同的谐振频率,电源可以通过改变其频率输出来控制各个区域。 电源还可以通过在频率范围内切换,通过扫描各种频率,通过在不同频率上同时提供功率,通过改变每个频率的停留时间,或通过输出 每个频率的不同功率等。 因此,可以适当地调整每个区域以实现期望的感应加热特性。
    • 6. 发明授权
    • AC powered system for continuous deposition of a cathode material
    • 用于连续沉积阴极材料的交流供电系统
    • US06183605B2
    • 2001-02-06
    • US09285353
    • 1999-04-02
    • Douglas S. SchatzRichard A. Scholl
    • Douglas S. SchatzRichard A. Scholl
    • C23C1434
    • H01J37/3438H01J37/34H01J37/3444
    • A method and an apparatus are disclosed for sputter deposition of an insulating material on a substrate in a continuous mode of operation. A novel design for an anode assembly and driving power supply is disclosed to permit this. Single or multiple anodes are used, which at any given time may be biased negatively with respect to the plasma, so that any insulating material which may have been deposited thereupon may be sputtered away so as to provide a clean positive anode to the system, and at least for some period of time is biased positively so that it acts as an anode. The removal of any insulating material which may have formed on the anode structure permits its continuing effective use in collecting electrons from the plasma when it is biased positively, and therefore its continuing effective use as an anode for the system, permitting continuous operation of the system.
    • 公开了一种用于在连续操作模式下将绝缘材料溅射沉积在衬底上的方法和装置。 公开了用于阳极组件和驱动电源的新颖设计,以允许这一点。 使用单个或多个阳极,其在任何给定时间可能相对于等离子体负偏压,使得可能已经沉积在其上的任何绝缘材料可能被溅射掉,以便向系统提供清洁的正阳极,以及 至少在一段时间内是积极偏见的,以致其作为阳极。 可能在阳极结构上形成的任何绝缘材料的去除允许其在被积极地偏置时从等离子体中收集电子继续有效地使用,因此其作为系统的阳极的持续有效的使用,允许系统的连续操作 。
    • 8. 发明授权
    • Zone heating system with feedback control
    • 带加热系统带反馈控制
    • US6031211A
    • 2000-02-29
    • US890386
    • 1997-07-11
    • Robert D. MailhoDouglas S. Schatz
    • Robert D. MailhoDouglas S. Schatz
    • C23C16/46C30B25/10H05B3/02
    • C30B25/10C23C16/46
    • A structure and method are disclosed which allow for a tighter control of the temperature across a wafer substrate. In accordance with the present invention, a wafer to be processed is heated to a constant and uniform temperature by an RF induction coil including a plurality of heating zones each of which being shunted by an associated capacitor tuned to a specific frequency. By adjusting the time during which current of a particular frequency is provided to the induction coil, current flow within, and thus the heat generated in, each of the zones may be independently controlled. Since the heat generated in the susceptor quickly changes in response to changes in current flow therein, both deviations of the wafer temperature from the processing temperature and temperature gradients across the surface of the wafer may be quickly corrected. This superior thermal response results in the present invention maintaining a wafer at a uniform temperature during heating and cooling with increased accuracy and precision.
    • 公开了允许对晶片衬底的温度进行更严格控制的结构和方法。 根据本发明,通过包括多个加热区域的RF感应线圈将要处理的晶片加热到恒定均匀的温度,每个加热区域被调谐到特定频率的相关电容器分流。 通过调整将特定频率的电流提供给感应线圈的时间,可以独立地控制每个区域内产生的电流以及因此产生的热量。 由于基座中产生的热量响应于其中的电流变化而快速变化,因此可以快速校正晶片温度与晶片表面的处理温度和温度梯度的偏差。 这种优异的热响应导致本发明在加热和冷却期间以均匀的温度保持晶片的精度和准确度。
    • 10. 发明授权
    • High efficiency remotely controllable solar energy system
    • 高效遥控太阳能系统
    • US08242634B2
    • 2012-08-14
    • US12682559
    • 2008-07-18
    • Douglas S. SchatzRobert M. PorterAnatoli Ledenev
    • Douglas S. SchatzRobert M. PorterAnatoli Ledenev
    • H02J3/00
    • H02J3/385H02J3/00H02J13/0003H02M2001/0077Y02E10/58Y02E40/72Y02P80/23Y04S10/123Y10S136/293Y10T307/609Y10T307/615Y10T307/658Y10T307/685Y10T307/696Y10T307/707Y10T307/718
    • A solar energy system (55) has aspects that can allow individualized control and analysis for overall field power control that can be used while harvesting maximum power from a solar energy source (1) and a string of solar panels (11) for a power grid (10). The invention provides control of power at high efficiency with aspects that can exist independently including: 1) power management with switch disconnect control (64), 2) sequenced start of a solar power system, 3) providing a safety output system that can be handled by installers and maintenance and advantageously controlled, 4) providing programmable power functionality controller (86) either on site or remotely from an administrative facility by radio transmission individual solar panel disconnect control (85), 5) a system with pattern analyzer (87) for operational, installation, and maintenance indications, and 6) systems with individual solar panel string power simulator (89) for disparate components.
    • 太阳能系统(55)具有能够在从太阳能源(1)和用于电力网的太阳能电池板(11))获取最大功率的同时可以使用的整体现场功率控制的个体化控制和分析的方面。 (10)。 本发明能够独立存在的方面提供高效率的电力控制,包括:1)开关断开控制的电源管理(64),2)太阳能发电系统的顺序启动,3)提供可以处理的安全输出系统 通过安装和维护并有利地控制,4)通过无线电传输单独的太阳能电池板断开控制(85)现场或远离管理设施来提供可编程电源功能控制器(86),5)具有模式分析器(87)的系统,用于 操作,安装和维护指示,以及6)具有单独的太阳能电池板功率模拟器(89)的系统,用于不同的组件。