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    • 1. 发明申请
    • POWER SUPPLY APPARATUS
    • 电源设备
    • US20120257431A1
    • 2012-10-11
    • US13518350
    • 2011-09-07
    • Akihiro SuzukiHitoshi KidokoroToshiki KoshimaeHiroshi KurushimaMasato MatsubaraNaoki Nishikawa
    • Akihiro SuzukiHitoshi KidokoroToshiki KoshimaeHiroshi KurushimaMasato MatsubaraNaoki Nishikawa
    • H02M7/5387
    • H02M7/003
    • A power supply apparatus includes an inverter having output terminals; a first transformer that transforms alternating-current output from the output terminals; a second transformer that is connected to the output terminals in parallel to the first transformer, arranged on an opposite side of the first transformer with respect to a straight line passing through a center of the output terminals and extending perpendicularly to a plane including the output terminals, and transforms alternating-current power output from the output terminals; first conductive lines that connect the output terminals to both ends of the first transformer; and second conductive lines that connect the output terminals to both ends of the second transformer. An area of a first loop formed by the inverter, the first conductive lines, and the first transformer is equal to an area of a second loop formed by the inverter, the second conductive lines, and the second transformer.
    • 电源装置包括具有输出端子的逆变器; 变换来自输出端子的交流输出的第一变压器; 第二变压器,其连接到与第一变压器并联的输出端子,相对于穿过输出端子的中心的直线布置在第一变压器的相对侧上,并且垂直于包括输出端子的平面延伸 并且从输出端子转换输出的交流电力; 将输出端子连接到第一变压器的两端的第一导线; 以及将输出端子连接到第二变压器的两端的第二导线。 由逆变器,第一导线和第一变压器形成的第一回路的区域等于由逆变器,第二导线和第二变压器形成的第二回路的面积。
    • 4. 发明授权
    • Power supply apparatus
    • 电源设备
    • US08902622B2
    • 2014-12-02
    • US13518350
    • 2011-09-07
    • Akihiro SuzukiHitoshi KidokoroToshiki KoshimaeHiroshi KurushimaMasato MatsubaraNaoki Nishikawa
    • Akihiro SuzukiHitoshi KidokoroToshiki KoshimaeHiroshi KurushimaMasato MatsubaraNaoki Nishikawa
    • H02M7/5387H02M7/00H02M7/217
    • H02M7/003
    • A power supply apparatus includes an inverter having output terminals; a first transformer that transforms AC output from the output terminals; a second transformer that is connected to the output terminals in parallel to the first transformer, arranged on an opposite side of the first transformer with respect to a straight line passing through a center of the output terminals and extending perpendicularly to a plane including the output terminals, and transforms AC power output from the output terminals; first conductive lines that connect the output terminals to both ends of the first transformer; and second conductive lines that connect the output terminals to both ends of the second transformer. An area of a first loop formed by the inverter, the first conductive lines, and the first transformer is equal to an area of a second loop formed by the inverter, the second conductive lines, and the second transformer.
    • 电源装置包括具有输出端子的逆变器; 第一变压器,用于转换输出端的交流输出; 第二变压器,其连接到与第一变压器并联的输出端子,相对于穿过输出端子的中心的直线布置在第一变压器的相对侧上,并且垂直于包括输出端子的平面延伸 并从输出端子转换输出的交流电力; 将输出端子连接到第一变压器的两端的第一导线; 以及将输出端子连接到第二变压器的两端的第二导线。 由逆变器,第一导线和第一变压器形成的第一回路的区域等于由逆变器,第二导线和第二变压器形成的第二回路的面积。
    • 5. 发明申请
    • LASER GENERATOR AND METHOD OF CONTROLLING THE SAME
    • 激光发生器及其控制方法
    • US20090185587A1
    • 2009-07-23
    • US12095455
    • 2006-02-02
    • Toshiki KoshimaeTakeshi MorimotoToshiaki Watanabe
    • Toshiki KoshimaeTakeshi MorimotoToshiaki Watanabe
    • H01S3/10
    • H01S3/1312G02F1/3525H01S3/0014H01S3/0092H01S3/117H01S3/1305
    • A laser generator includes a generation means for pumping by a pumping light source (7) a pumping medium (3) to generate a fundamental-wave laser beam, an output sensor (6) for measuring average output power or pulse energy of the fundamental-wave laser beam, a wavelength-conversion element (5), arranged on an optical path for the fundamental-wave laser beam, for converting the fundamental-wave laser beam into its higher-harmonic-wave laser beam, and a controller (9) for memorizing a determination value set to a value lower than a breakage threshold for average output power or pulse energy of the laser beam converted by the wavelength-conversion element (5), and for, when the measurement value becomes not lower than the determination value, controlling the output power of the fundamental-wave laser beam to be a value lower than the breakage threshold; thereby, the beam intensity through the wavelength-conversion element (5) never exceeds the breakage threshold, and thus breakage of the wavelength-conversion element (5) can be prevented.
    • 激光发生器包括用泵浦光源(7)泵送泵送介质(3)以产生基波激光束的产生装置,用于测量基波激光束的平均输出功率或脉冲能量的输出传感器(6) 波长转换元件(5),布置在基波激光束的光路上,用于将基波激光束转换成其高次谐波激光束;以及控制器(9),其中, 用于存储设定为低于由波长转换元件(5)转换的激光束的平均输出功率或脉冲能量的破坏阈值的值的判定值,并且当测量值变得不低于确定值 将基波激光束的输出功率控制为低于破损阈值的值; 由此,通过波长转换元件(5)的光束强度不会超过断裂阈值,因此可以防止波长转换元件(5)的断裂。
    • 7. 发明授权
    • Laser diode pumped solid-state laser oscillator and laser diode control method of the oscillator
    • 激光二极管泵浦固态激光振荡器和激光二极管的振荡器控制方法
    • US07701990B2
    • 2010-04-20
    • US10587306
    • 2004-12-08
    • Takeshi MorimotoToshiki KoshimaeToshiaki WatanabeAkihiro Suzuki
    • Takeshi MorimotoToshiki KoshimaeToshiaki WatanabeAkihiro Suzuki
    • H01S3/00
    • H01S3/0941H01S3/061H01S3/07H01S3/09408H01S3/101H01S3/1022H01S3/1312H01S5/06825H01S5/4018
    • Plural LDs 6 are series-connected and pump a solid-state pumping medium 7. Each of bypass circuits 15 is connected in parallel to an associated one of the LDs 6. An operation of driving each of the bypass circuits 15 is controlled by a control circuit 14. A detection circuit 13 is provided corresponding to each of the LDs 6 and detects a short circuit failure and an open failure of each of the LDs 6 according to a voltage developed thereacross or the like. The detection circuit 13 and the control circuit 14 are connected to and are controlled by an LD shortcircuit control circuit 11. In a case where a failure of the LD is detected by the detection circuit 13, the LD shortcircuit control unit 11 determines the position of the failed LD to bypass electric current having flowed through the failed LD. Then, the control circuit 11 sends a signal to a predetermined control circuit 14 to thereby operate a predetermined bypass circuit 15. The LD shortcircuit control unit 11 determines the position of the LD, which is to be turned off, according to the position of the failed LD to improve a pointing deviation in the solid-state medium 7. Then, the control unit 11 sends a signal to the control circuit 14 to turn off this LD. Thus, the control unit 11 causes a predetermined bypass circuit 15 to operate thereby to turn off the predetermined LD.
    • 多个LD6串联连接并泵浦固态泵浦介质7.每个旁路电路15并联连接到相关的一个LD6。驱动每个旁路电路15的操作由控制 检测电路13对应于LD6中的每一个,并且根据其上产生的电压等检测LD6中的每一个的短路故障和开路故障。 检测电路13和控制电路14由LD短路控制电路11连接并由LD短路控制电路11控制。在检测电路13检测到LD的故障的情况下,LD短路控制部11判定 失效的LD绕过流过故障LD的电流。 然后,控制电路11向预定的控制电路14发送一个信号,从而操作预定的旁路电路15.LLD短路控制单元11根据其中的位置确定要关闭的LD的位置 失败的LD改善固态介质7中的指示偏差。然后,控制单元11向控制电路14发送一个信号以关闭该LD。 因此,控制单元11使预定的旁路电路15工作,从而关闭预定的LD。
    • 8. 发明申请
    • LASER OSCILLATOR APPARATUS AND POWER SUPPLY APPARATUS THEREFOR, AND CONTROL METHOD THEREFOR
    • 激光振荡器装置及其电源装置及其控制方法
    • US20090207871A1
    • 2009-08-20
    • US12282811
    • 2006-04-25
    • Toshiki KoshimaeToshiaki WatanabeTakeshi Morimoto
    • Toshiki KoshimaeToshiaki WatanabeTakeshi Morimoto
    • H01S3/00
    • H01S3/0941H01S3/0014H01S3/0602H01S3/0912H01S3/1022H01S3/1305H01S3/1312
    • A laser output power command determination value from a controller (17) is input to an upper limit current determination unit (32), and an upper limit current value to be decided based on the laser output power command determination value is determined. Then, a second comparator (30) compares a command current value determined from the laser output power command determination value and a laser output power command determination value measured with a power monitor (13), with an upper limit current value determined with a upper limit current determination unit (32). The second comparator (30) determines a command current value when the upper limit current value is greater than the command current value and the upper limit current value when the command current value is greater than the upper limit current value, as a reference current value, by which reference current value a current to be supplied to pumping means is configured to be controlled. In such a configuration, an upper limit current value is determined according to a laser output power command determination value, whereby an increased current to be supplied to the pumping means, i.e., the increase of energy to be supplied to a laser oscillator apparatus is avoided, and an energy loss in the optical component is reduced, which prevents damage development from leading to the replacement of the component.
    • 来自控制器(17)的激光输出功率指令确定值被输入到上限电流确定单元(32),并且确定将基于激光输出功率指令确定值来确定的上限电流值。 然后,第二比较器(30)将根据激光输出功率指令判定值确定的指令电流值与用功率监视器(13)测量的激光输出功率指令判定值与由上限确定的上限电流值进行比较 电流确定单元(32)。 当指令电流值大于上限电流值时,第二比较器(30)确定上限电流值大于指令电流值和上限电流值时的指令电流值作为参考电流值, 参考电流值被提供给泵送装置的电流被配置为被控制。 在这样的结构中,根据激光输出功率指令判定值来确定上限电流值,从而避免向泵送装置供给的增加的电流,即提供给激光振荡器装置的能量的增加 ,并且光学部件中的能量损失减小,这防止损坏发展导致部件的更换。
    • 10. 发明授权
    • Laser oscillator apparatus and power supply apparatus therefor, and control method therefor
    • 激光振荡器装置及其电源装置及其控制方法
    • US07889772B2
    • 2011-02-15
    • US12282811
    • 2006-04-25
    • Toshiki KoshimaeToshiaki WatanabeTakeshi Morimoto
    • Toshiki KoshimaeToshiaki WatanabeTakeshi Morimoto
    • H01S3/00
    • H01S3/0941H01S3/0014H01S3/0602H01S3/0912H01S3/1022H01S3/1305H01S3/1312
    • A laser output power command determination value from a controller (17) is input to an upper limit current determination unit (32), and an upper limit current value to be decided based on the laser output power command determination value is determined. Then, a second comparator (30) compares a command current value determined from the laser output power command determination value and a laser output power command determination value measured with a power monitor (13), with an upper limit current value determined with a upper limit current determination unit (32). The second comparator (30) determines a command current value when the upper limit current value is greater than the command current value and the upper limit current value when the command current value is greater than the upper limit current value, as a reference current value, by which reference current value a current to be supplied to pumping means is configured to be controlled. In such a configuration, an upper limit current value is determined according to a laser output power command determination value, whereby an increased current to be supplied to the pumping means, i.e., the increase of energy to be supplied to a laser oscillator apparatus is avoided, and an energy loss in the optical component is reduced, which prevents damage development from leading to the replacement of the component.
    • 来自控制器(17)的激光输出功率指令确定值被输入到上限电流确定单元(32),并且确定将基于激光输出功率指令确定值来确定的上限电流值。 然后,第二比较器(30)将根据激光输出功率指令判定值确定的指令电流值与用功率监视器(13)测量的激光输出功率指令判定值与由上限确定的上限电流值进行比较 电流确定单元(32)。 当指令电流值大于上限电流值时,第二比较器(30)确定上限电流值大于指令电流值和上限电流值时的指令电流值作为参考电流值, 参考电流值被提供给泵送装置的电流被配置为被控制。 在这样的结构中,根据激光输出功率指令判定值来确定上限电流值,从而避免向泵送装置供给的增加的电流,即提供给激光振荡器装置的能量的增加 ,并且光学部件中的能量损失减小,这防止损坏发展导致部件的更换。