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1.发明公开DEVICE AND METHODS FOR SUPPLYING INSTANT HIGH POWER TO SMALL ARMS FIRE CONTROL SYSTEM 有权DEVICE AND METHOD FOR所得税制与即时高性能小型武器供应
公开(公告)号:EP2137803A1
公开(公告)日:2009-12-30
申请号:EP08753214.9
申请日:2008-04-28
发明人: KAWK, Ki-Ho , KO, Jung-ho , YOON, Joo-Hong , KIM, Do-Jong
摘要: The present invention relates to a power supply device of a small arms fire control system or a similar small arms system. The device includes a first current limit part for limiting a low current when power is supplied from a battery, a second current limit part for limiting a high current when the power is supplied from the battery, a Zener diode and a boost converter connected to the first and second current limit parts, and adapted to charge the supercapacitor up to a final voltage that will be supplied to a load when the supercapacitor is charged to a predetermined voltage, and a microprocessor for checking a power supply state of the system and a voltage of the supercapacitor in real-time and controlling ON/OFF of the first and second current limit parts used in the system. There are advantages in that power of an overall system can be managed stably and efficiently and a use time of a battery can be increased.
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2.发明授权DEVICE AND METHODS FOR SUPPLYING INSTANT HIGH POWER TO SMALL ARMS FIRE CONTROL SYSTEM 有权DEVICE AND METHOD FOR所得税制与即时高性能小型武器供应
公开(公告)号:EP2137803B1
公开(公告)日:2011-04-13
申请号:EP08753214.9
申请日:2008-04-28
发明人: KAWK, Ki-Ho , KO, Jung-Ho , YOON, Joo-Hong , KIM, Do-Jong
摘要: The present invention relates to a power supply device of a small arms fire control system or a similar small arms system. The device includes a first current limit part for limiting a low current when power is supplied from a battery, a second current limit part for limiting a high current when the power is supplied from the battery, a Zener diode and a boost converter connected to the first and second current limit parts, and adapted to charge the supercapacitor up to a final voltage that will be supplied to a load when the supercapacitor is charged to a predetermined voltage, and a microprocessor for checking a power supply state of the system and a voltage of the supercapacitor in real-time and controlling ON/OFF of the first and second current limit parts used in the system. There are advantages in that power of an overall system can be managed stably and efficiently and a use time of a battery can be increased.
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