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    • 3. 发明申请
    • HIGH-FREQUENCY POWER APPARATUS
    • 高频电源设备
    • US20070047271A1
    • 2007-03-01
    • US11467229
    • 2006-08-25
    • Hiroyuki KOTANIHirotaka TAKEI
    • Hiroyuki KOTANIHirotaka TAKEI
    • H02M1/12
    • H02M7/53806
    • A high-frequency power apparatus including: an oscillator, outputting an oscillating signal, an output level of the oscillating signal being variable; an amplifier, amplifying the oscillating signal output from the oscillator and outputting high-frequency power; a DC power supply, supplying DC power to the amplifier, an output level of the DC power being variable; a high-frequency power measuring unit, measuring a power value of the high-frequency power at an output terminal of the high-frequency power apparatus and outputting the measured power value as a high-frequency power measured value; a DC power measuring unit, measuring a power value of the DC power supplied to the amplifier and outputting the measured DC power value as a DC power measured value; a first controller, controlling the output level of the oscillating signal to be output from the oscillator such that the high-frequency power measured value is substantially equal to an output power set value; and a second controller, controlling the output level of the DC power to be supplied from the DC power supply to the amplifier such that a calculated value obtained by dividing the high-frequency power measured value by the DC power measured value is substantially equal to a predetermined efficiency set value.
    • 一种高频电力设备,包括:振荡器,输出振荡信号,所述振荡信号的输出电平是可变的; 放大器,放大从振荡器输出的振荡信号并输出​​高频功率; 直流电源,向放大器提供直流电力,直流电力的输出电平是可变的; 高频功率测量单元,测量高频电力设备的输出端子处的高频功率的功率值,并输出测量的功率值作为高频功率测量值; 直流功率测量单元,测量提供给放大器的直流电力的功率值,并将所测量的直流功率值输出为直流功率测量值; 第一控制器,控制从振荡器输出的振荡信号的输出电平,使得高频功率测量值基本上等于输出功率设定值; 以及第二控制器,控制从DC电源向放大器提供的DC电力的输出电平,使得通过将高频功率测量值除以DC功率测量值而获得的计算值基本上等于 预定效率设定值。
    • 4. 发明授权
    • Carbon dioxide gas laser oscillation apparatus
    • 二氧化碳气体激光振荡装置
    • US5754580A
    • 1998-05-19
    • US728214
    • 1996-10-10
    • Hiroyuki KotaniNaoki UraiTetsuji AkakiTamotsu Ueno
    • Hiroyuki KotaniNaoki UraiTetsuji AkakiTamotsu Ueno
    • H01S3/036H01S3/07H01S3/097H01S3/223H01S3/038
    • H01S3/073H01S3/097H01S3/036H01S3/2232
    • A carbon dioxide gas laser oscillation apparatus having one or more discharge tubes each having a pair of anode and cathode electrodes at least one of which is non-grounded and one or more high voltage DC power sources each connected between the pair of electrodes of each discharge tube provides with one or more conductors each being arranged on each discharge tube in the vicinity of the non-grounded electrode of the pair of electrodes but on one side of the non-grounded electrode opposite to a space between the pair of electrodes. The CO.sub.2 gas laser oscillation apparatus further provides with one or more current detection circuit for detecting a current flowing between zero-potential terminal and ground terminal of the high voltage DC power source, thereby enabling to detect an abnormal discharge within each discharge tube.
    • 一种具有一个或多个放电管的二氧化碳气体激光振荡装置,每个放电管具有一对阳极和阴极电极,其中至少一个是非接地的,以及一个或多个高压直流电源,每个连接在每个放电的一对电极之间 管提供一个或多个导体,每个导体各自布置在该对电极的非接地电极附近的每个放电管上,但是在非接地电极的与该对电极之间的空间相对的一侧上。 二氧化碳气体激光振荡装置还提供一个或多个电流检测电路,用于检测在高压直流电源的零电位端子和接地端子之间流动的电流,从而能够检测每个放电管内的异常放电。
    • 5. 发明授权
    • Game which recognizes commands by the type and rhythm of operation input
    • 通过操作输入的类型和节奏识别命令的游戏
    • US09144736B2
    • 2015-09-29
    • US12167523
    • 2008-07-03
    • Hiroyuki Kotani
    • Hiroyuki Kotani
    • A63F13/00A63F13/40
    • A63F13/42A63F13/10A63F13/46A63F13/54A63F13/814A63F2300/6045A63F2300/6081A63F2300/8047
    • A game control technique with high entertainment value is provided. In a game device, a confirmation sound output unit assigns a sound to each type of an operation input from a player; and upon the reception of the operation input from the player, the confirmation sound output unit outputs the sound assigned to the operation input. A command memory unit stores a plurality of types and patterns of the rhythms of the operation input in association with commands which is issued upon the reception of the operation inputs. A command determination unit acquires the type and rhythm of the operation input from the player and determines whether the type and rhythm of the operation input match the pattern stored in the command memory unit. A repetition unit outputs the sound corresponding to the pattern when the operation input from the player is determined to match the pattern stored in the command determination unit. A game control unit issues the command determined by the command determination unit and advances the game.
    • 提供了具有高娱乐价值的游戏控制技术。 在游戏装置中,确认声音输出单元从播放器向每种类型的操作输入分配声音; 并且在接收到来自播放器的操作输入时,确认声音输出单元输出分配给操作输入的声音。 命令存储单元与接收到操作输入时发出的命令相关联地存储操作输入的节奏的多种类型和模式。 命令确定单元获取来自玩家的操作输入的类型和节奏,并且确定操作输入的类型和节奏是否与存储在命令存储单元中的模式相匹配。 当确定与播放器的操作输入相匹配时,重复单元输出与模式相对应的声音,以匹配存储在命令确定单元中的模式。 游戏控制单元发出由命令确定单元确定的命令并使游戏前进。
    • 6. 发明授权
    • High-frequency power supply system
    • 高频电源系统
    • US08134816B2
    • 2012-03-13
    • US12834579
    • 2010-07-12
    • Hiroyuki KotaniHirotaki TakeiYoshifumi IbukiHiroaki Oichi
    • Hiroyuki KotaniHirotaki TakeiYoshifumi IbukiHiroaki Oichi
    • H02H3/00
    • H01J37/32174H01J37/32935H03H7/40H05H1/46
    • A high-frequency power supply system includes an anomaly detector 3 which detects an anomaly occurring in a circuit on the side of a load L as from an outputting end A of a high-frequency power source 1. The anomaly detector 3 includes a first detector 21 which detects a voltage value Vf of a high-frequency forward wave, a second detector 22 which detects a voltage value Vr of a high-frequency reflected wave, a reflection coefficient calculator 23 and a differentiator 24 which calculate a reflection coefficient differential value dΓ/dt from the forward wave voltage value Vf and the reflected wave voltage value Vr, and an anomaly determiner 25 which determines of an occurrence of an anomaly based on the reflection coefficient differential value dΓ/dt. When the anomaly detector 3 outputs an anomaly detection signal to the high-frequency power source 1, high-frequency power source 1 stops its power output operation.
    • 高频电源系统包括异常检测器3,其从高频电源1的输出端A检测在负载L侧的电路中发生的异常。异常检测器3包括第一检测器 21检测高频正向波的电压值Vf,检测高频反射波的电压值Vr的第二检测器22,计算反射系数微分值d&Ggr的反射系数计算器23和微分器24 ; / dt和反射波电压值Vr,以及基于反射系数微分值d&Ggr; / dt确定异常的发生的异常判定器25。 当异常检测器3向高频电源1输出异常检测信号时,高频电源1停止其电力输出动作。
    • 7. 发明申请
    • HIGH-FREQUENCY POWER SUPPLY SYSTEM
    • 高频电源系统
    • US20100277843A1
    • 2010-11-04
    • US12834579
    • 2010-07-12
    • Hiroyuki KOTANIHirotaka TakeiYoshifumi IbukiHiroaki Oichi
    • Hiroyuki KOTANIHirotaka TakeiYoshifumi IbukiHiroaki Oichi
    • H02H3/00G01R21/06
    • H01J37/32174H01J37/32935H03H7/40H05H1/46
    • A high-frequency power supply system includes an anomaly detector 3 which detects an anomaly occurring in a circuit on the side of a load L as from an outputting end A of a high-frequency power source 1. The anomaly detector 3 includes a first detector 21 which detects a voltage value Vf of a high-frequency forward wave, a second detector 22 which detects a voltage value Vr of a high-frequency reflected wave, a reflection coefficient calculator 23 and a differentiator 24 which calculate a reflection coefficient differential value dΓ/dt from the forward wave voltage value Vf and the reflected wave voltage value Vr, and an anomaly determiner 25 which determines of an occurrence of an anomaly based on the reflection coefficient differential value dΓ/dt. When the anomaly detector 3 outputs an anomaly detection signal to the high-frequency power source 1, high-frequency power source 1 stops its power output operation.
    • 高频电源系统包括异常检测器3,其从高频电源1的输出端A检测在负载L侧的电路中发生的异常。异常检测器3包括第一检测器 21检测高频正向波的电压值Vf,检测高频反射波的电压值Vr的第二检测器22,计算反射系数微分值d&Ggr的反射系数计算器23和微分器24 ; / dt和反射波电压值Vr,以及基于反射系数微分值d&Ggr; / dt确定异常的发生的异常判定器25。 当异常检测器3向高频电源1输出异常检测信号时,高频电源1停止其电力输出动作。
    • 9. 发明申请
    • High-frequency power supply system
    • 高频电源系统
    • US20070121267A1
    • 2007-05-31
    • US10580815
    • 2004-11-26
    • Hiroyuki KotaniHirotaka TakeiYoshifumi IbukiHiroaki Oichi
    • Hiroyuki KotaniHirotaka TakeiYoshifumi IbukiHiroaki Oichi
    • H02H3/00
    • H01J37/32174H01J37/32935H03H7/40H05H1/46
    • A high-frequency power supply system includes an anomaly detector 3 which detects an anomaly occurring in a circuit on the side of a load L as from an outputting end A of a high-frequency power source 1. The anomaly detector 3 includes a first detector 21 which detects a voltage value Vf of a high-frequency forward wave, a second detector 22 which detects a voltage value Vr of a high-frequency reflected wave, a reflection coefficient calculator 23 and a differentiator 24 which calculate a reflection coefficient differential value dΓ/dt from the forward wave voltage value Vf and the reflected wave voltage value Vr, and an anomaly determiner 25 which determines of an occurrence of an anomaly based on the reflection coefficient differential value dΓ/dt. When the anomaly detector 3 outputs an anomaly detection signal to the high-frequency power source 1, high-frequency power source 1 stops its power output operation.
    • 高频电源系统包括异常检测器3,其从高频电源1的输出端A检测在负载L侧的电路中发生的异常。异常检测器3包括第一检测器 21检测高频正向波的电压值Vf,检测高频反射波的电压值Vr的第二检测器22,计算反射系数微分值dGamma的反射系数计算器23和微分器24 / dt与反射波电压值Vr,以及异常判定器25,其基于反射系数微分值dGamma / dt确定异常的发生。 当异常检测器3向高频电源1输出异常检测信号时,高频电源1停止其电力输出动作。
    • 10. 发明授权
    • High-frequency power supply system
    • 高频电源系统
    • US07796368B2
    • 2010-09-14
    • US10580815
    • 2004-11-26
    • Hiroyuki KotaniHirotaki TakeiYoshifumi IbukiHiroaki Oichi
    • Hiroyuki KotaniHirotaki TakeiYoshifumi IbukiHiroaki Oichi
    • H02H3/00
    • H01J37/32174H01J37/32935H03H7/40H05H1/46
    • A high-frequency power supply system includes an anomaly detector 3 which detects an anomaly occurring in a circuit on the side of a load L as from an outputting end A of a high-frequency power source 1. The anomaly detector 3 includes a first detector 21 which detects a voltage value Vf of a high-frequency forward wave, a second detector 22 which detects a voltage value Vr of a high-frequency reflected wave, a reflection coefficient calculator 23 and a differentiator 24 which calculate a reflection coefficient differential value dΓ/dt from the forward wave voltage value Vf and the reflected wave voltage value Vr, and an anomaly determiner 25 which determines of an occurrence of an anomaly based on the reflection coefficient differential value dΓ/dt. When the anomaly detector 3 outputs an anomaly detection signal to the high-frequency power source 1, high-frequency power source 1 stops its power output operation.
    • 高频电源系统包括异常检测器3,其从高频电源1的输出端A检测在负载L侧的电路中发生的异常。异常检测器3包括第一检测器 21检测高频正向波的电压值Vf,检测高频反射波的电压值Vr的第二检测器22,计算反射系数微分值d&Ggr的反射系数计算器23和微分器24 ; / dt和反射波电压值Vr,以及基于反射系数微分值d&Ggr; / dt确定异常的发生的异常判定器25。 当异常检测器3向高频电源1输出异常检测信号时,高频电源1停止其电力输出动作。