会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 2. 发明授权
    • Power supply device and switching power supply device
    • 电源装置和开关电源装置
    • US07342391B2
    • 2008-03-11
    • US11808286
    • 2007-06-08
    • Koji TatenoRyotaro KudoShin ChibaKyoichi HosokawaToshio Nagasawa
    • Koji TatenoRyotaro KudoShin ChibaKyoichi HosokawaToshio Nagasawa
    • G05F3/16
    • H02M3/1588H01L2224/48137H01L2224/48247H02M2001/0009Y02B70/1466
    • In a driver circuit constructing a switching power supply device that switches power transistors passing a current through a coil by a PWM mode, a current detection transistor, which is smaller in size than the low-potential side power transistor, and a current detection resistor are provided in parallel to the low-potential side power transistor. The same control voltage as the power transistor is applied to the control terminal of the current detection transistor. An operational amplifier is formed, that has the potential of the connection node between the current detection transistor and the current detection resistor applied to its inverse input terminal and a feedback loop, so as to make a pair of input terminals of the operational amplifier be at the same potential. A signal produced by the current detection resistor is thus outputted as a current detection signal.
    • 在构成开关电源装置的驱动电路中,通过PWM模式切换通过线圈的电流的开关电源装置,尺寸小于低电位侧功率晶体管的电流检测晶体管和电流检测电阻器 与低电位侧功率晶体管并联提供。 与功率晶体管相同的控制电压施加到电流检测晶体管的控制端。 形成运算放大器,其具有电流检测晶体管和施加到其反相输入端的电流检测电阻之间的连接节点的电位和反馈环路,以使运算放大器的一对输入端子处于 同样的潜力。 因此,由电流检测电阻器产生的信号作为电流检测信号被输出。
    • 3. 发明授权
    • Power supply device and switching power supply device
    • 电源装置和开关电源装置
    • US07245116B2
    • 2007-07-17
    • US11100407
    • 2005-04-07
    • Koji TatenoRyotaro KudoShin ChibaKyoichi HosokawaToshio Nagasawa
    • Koji TatenoRyotaro KudoShin ChibaKyoichi HosokawaToshio Nagasawa
    • G05F3/16
    • H02M3/1588H01L2224/48137H01L2224/48247H02M2001/0009Y02B70/1466
    • In a driver circuit constructing a switching power supply device that switches power transistors passing a current through a coil by a PWM mode, a current detection transistor, which is smaller in size than the low-potential side power transistor and a current detection resistor are provided in parallel to the low-potential side power transistor. The same control voltage as the power transistor is applied to the control terminal of the current detection transistor. An operational amplifier is formed, that has the potential of the connection node between the current detection transistor and the current detection resistor applied to its inverse input terminal and a feedback loop, so as to make a pair of input terminals of the operational amplifier be at the same potential. A signal produced by the current detection resistor is thus outputted as a current detection signal.
    • 在构成开关电源装置的驱动电路中,通过PWM模式切换通过线圈的电流的开关电源装置,设置尺寸小于低电位侧功率晶体管的电流检测晶体管和电流检测电阻器 与低电位侧功率晶体管并联。 与功率晶体管相同的控制电压施加到电流检测晶体管的控制端。 形成运算放大器,其具有电流检测晶体管与施加到其反相输入端的电流检测电阻之间的连接节点的电位和反馈回路,以使运算放大器的一对输入端处于 同样的潜力。 因此,由电流检测电阻器产生的信号作为电流检测信号被输出。
    • 5. 发明授权
    • Power supply device and switching power supply device
    • 电源装置和开关电源装置
    • US07550959B2
    • 2009-06-23
    • US12017706
    • 2008-01-22
    • Koji TatenoRyotaro KudoShin ChibaKyoichi HosokawaToshio Nagasawa
    • Koji TatenoRyotaro KudoShin ChibaKyoichi HosokawaToshio Nagasawa
    • G05F3/16
    • H02M3/1588H01L2224/48137H01L2224/48247H02M2001/0009Y02B70/1466
    • In a driver circuit constructing a switching power supply device that switches power transistors passing a current through a coil by a PWM mode, a current detection transistor, which is smaller in size than the low-potential side power transistor, and a current detection resistor are provided in parallel to the low-potential side power transistor. The same control voltage as the power transistor is applied to the control terminal of the current detection transistor. An operational amplifier is formed, that has the potential of the connection node between the current detection transistor and the current detection resistor applied to its inverse input terminal and a feedback loop, so as to make a pair of input terminals of the operational amplifier be at the same potential. A signal produced by the current detection resistor is thus outputted as a current detection signal.
    • 在构成开关电源装置的驱动电路中,通过PWM模式切换通过线圈的电流的开关电源装置,尺寸小于低电位侧功率晶体管的电流检测晶体管和电流检测电阻器 与低电位侧功率晶体管并联提供。 与功率晶体管相同的控制电压施加到电流检测晶体管的控制端。 形成运算放大器,其具有电流检测晶体管和施加到其反相输入端的电流检测电阻之间的连接节点的电位和反馈环路,以使运算放大器的一对输入端子处于 同样的潜力。 因此,由电流检测电阻器产生的信号作为电流检测信号被输出。
    • 8. 发明授权
    • Switching power supply device and semiconductor integrated circuit
    • 开关电源装置和半导体集成电路
    • US07902799B2
    • 2011-03-08
    • US12403966
    • 2009-03-13
    • Kyoichi HosokawaRyotaro KudoToshio NagasawaKoji Tateno
    • Kyoichi HosokawaRyotaro KudoToshio NagasawaKoji Tateno
    • G05F1/10G05F1/40
    • H02M3/1588G05F1/44H02M7/538H03F3/217H03F2200/351H03F2200/78H03K17/063H03K17/687Y02B70/1466
    • The present invention provides a switching power source and a semiconductor integrated circuit which realize an acquisition a sufficient driving voltage of a high-potential side switching element M1 even when a power source voltage VDD is low. In a switching power source which controls a current which flows in an inductor through a switching element which performs a switching operation in response to a PWM signal, and forms an output voltage by a capacitor which is provided in series in the inductor, a booster circuit which is constituted of a bootstrap capacity and a MOSFET is provided between an output node of the switching element and a predetermined voltage terminal, the boosted voltage is used as an operational voltage of a driving circuit of the switching element, another source/drain region and a substrate gate are connected with each other such that when the MOSFET is made to assume an OFF state, and a junction diode between one source/drain region and the substrate gate is inversely directed with respect to the boosted voltage which is formed by the bootstrap capacity.
    • 本发明提供一种开关电源和半导体集成电路,即使电源电压VDD低,也能够实现高电位侧开关元件M1的充分驱动电压的获取。 在开关电源中,其通过响应于PWM信号进行开关动作的开关元件来控制在电感器中流动的电流,并且通过串联设置在电感器中的电容器形成输出电压, 在开关元件的输出节点和预定电压端子之间设置由自举电容和MOSFET构成的升压电压作为开关元件的驱动电路的工作电压,另一个源极/漏极区域和 衬底栅极彼此连接,使得当MOSFET被制成断开状态时,并且在一个源极/漏极区域和衬底栅极之间的结二极管相对于由引导件形成的升压电压是反向的 容量。
    • 9. 发明申请
    • Switching power supply device and a semiconductor integrated circuit
    • 开关电源装置和半导体集成电路
    • US20070159150A1
    • 2007-07-12
    • US10587215
    • 2005-01-14
    • Kyoichi HosokawaRyotaro KudoToshio NagasawaKoji Tateno
    • Kyoichi HosokawaRyotaro KudoToshio NagasawaKoji Tateno
    • G05F1/00
    • H02M3/1588G05F1/44H02M7/538H03F3/217H03F2200/351H03F2200/78H03K17/063H03K17/687Y02B70/1466
    • The present invention provides a switching power source and a semiconductor integrated circuit which realize an acquisition a sufficient driving voltage of a high-potential side switching element M1 even when a power source voltage VDD is low. In a switching power source which controls a current which flows in an inductor through a switching element which performs a switching operation in response to a PWM signal, and forms an output voltage by a capacitor which is provided in series in the inductor, a booster circuit which is constituted of a bootstrap capacity and a MOSFET is provided between an output node of the switching element and a predetermined voltage terminal, the boosted voltage is used as an operational voltage of a driving circuit of the switching element, another source/drain region and a substrate gate are connected with each other such that when the MOSFET is made to assume an OFF state, and a junction diode between one source/drain region and the substrate gate is inversely directed with respect to the boosted voltage which is formed by the bootstrap capacity.
    • 本发明提供一种开关电源和半导体集成电路,其即使在电源电压VDD低的情况下也能够实现高电位侧开关元件M 1的足够的驱动电压的获取。 在开关电源中,其通过响应于PWM信号进行开关动作的开关元件来控制在电感器中流动的电流,并且通过串联设置在电感器中的电容器形成输出电压, 在开关元件的输出节点和预定电压端子之间设置由自举电容和MOSFET构成的升压电压作为开关元件的驱动电路的工作电压,另一个源极/漏极区域和 衬底栅极彼此连接,使得当使MOSFET成为OFF状态时,并且在一个源极/漏极区域和衬底栅极之间的结二极管相对于由引导件形成的升压电压是反向的 容量。