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    • 2. 发明申请
    • CAPACITOR CHARGING METHODS AND APPARATUS
    • 电容充电方法和装置
    • WO2008088413B1
    • 2008-11-20
    • PCT/US2007021932
    • 2007-10-15
    • ALLEGRO MICROSYSTEMS INCMANGTANI VIJAYLEE NAI-CHITSAI TSENG-NANHUMENICK JOHN
    • MANGTANI VIJAYLEE NAI-CHITSAI TSENG-NANHUMENICK JOHN
    • H02M3/335
    • H02M3/33507
    • A capacitor charging circuit is provided with a primary side output voltage sensing circuit including an RC network having an RC time constant with a predetermined relationship to the RC time constant of the output capacitor. Once the capacitor voltage reaches a fully charged level, the charging mode is terminated. The output voltage is continuously detected by measuring the voltage across the primary side RC network that decays at a predetermined rate with respect to the output capacitor and the charging mode is commenced once the RC voltage falls to a predetermined level. According to a further aspect of the invention, a switch control circuit in a flyback converter controls the switch off time in response to detection of a change in the slope polarity of the voltage at a terminal of the switch.
    • 电容器充电电路设置有初级侧输出电压检测电路,其包括具有与输出电容器的RC时间常数预定关系的RC时间常数的RC网络。 一旦电容器电压达到完全充电电平,充电模式就会终止。 通过测量相对于输出电容器以预定速率衰减的初级侧RC网络的电压来连续检测输出电压,一旦RC电压下降到预定电平,充电模式开始。 根据本发明的另一方面,回扫转换器中的开关控制电路响应于检测到开关端子处的电压的斜率极性的变化而控制断开时间。
    • 3. 发明申请
    • CAPACITOR CHARGING METHODS AND APPARATUS
    • 电容器充电方法和设备
    • WO2008088413A2
    • 2008-07-24
    • PCT/US2007021932
    • 2007-10-15
    • ALLEGRO MICROSYSTEMS INCMANGTANI VIJAYLEE NAI-CHITSAI TSENG-NANHUMENICK JOHN
    • MANGTANI VIJAYLEE NAI-CHITSAI TSENG-NANHUMENICK JOHN
    • H02M3/335
    • H02M3/33507
    • A capacitor charging circuit is provided with a primary side output voltage sensing circuit including an RC network having an RC time constant with a predetermined relationship to the RC time constant of the output capacitor. Once the capacitor voltage reaches a fully charged level, the charging mode is terminated. The output voltage is continuously detected by measuring the voltage across the primary side RC network that decays at a predetermined rate with respect to the output capacitor and the charging mode is commenced once the RC voltage falls to a predetermined level. According to a further aspect of the invention, a switch control circuit in a flyback converter controls the switch off time in response to detection of a change in the slope polarity of the voltage at a terminal of the switch.
    • 电容器充电电路设置有初级侧输出电压感测电路,该初级侧输出电压感测电路包括具有与输出电容器的RC时间常数具有预定关系的RC时间常数的RC网络。 一旦电容器电压达到完全充电电平,充电模式终止。 通过测量相对于输出电容器以预定速率衰减的初级侧RC网络上的电压来连续检测输出电压,并且一旦RC电压下降到预定电平就开始充电模式。 根据本发明的另一方面,反激式转换器中的开关控制电路响应于检测到开关端子处的电压的斜率极性的变化而控制开关关断时间。
    • 5. 发明申请
    • ELECTRONIC CIRCUIT FOR DRIVING A DIODE LOAD
    • 用于驱动二极管负载的电子电路
    • WO2008086050B1
    • 2008-12-18
    • PCT/US2008050026
    • 2008-01-02
    • ALLEGRO MICROSYSTEMS INCSZCZESZYNSKI GREGORYWEKHANDE SHASHANKMANGTANI VIJAY
    • SZCZESZYNSKI GREGORYWEKHANDE SHASHANKMANGTANI VIJAY
    • G05F1/46H05B33/08
    • G05F1/46
    • An electronic circuit includes circuit portions for identifying a largest voltage drop through one of a plurality of series connected diode strings and for controlling a boost switching regulator according to the largest voltage drop. The electronic circuit can sense an open circuit series connected diode string, which would otherwise have the largest voltage drop, and can disconnect that open circuit series connected diode string from control of the boost switching regulator. Another electronic circuit includes a current limiting circuit coupled to or within a boost switching regulator and configured to operate with a diode load. Another electronic circuit includes a pulse width modulation circuit configured to dim a series connected string of light emitting diodes.
    • 电子电路包括用于识别通过多个串联连接的二极管串中的一个的最大电压降的电路部分,并且用于根据最大电压降来控制升压开关调节器。 电子电路可以感测开路串联的二极管串,否则其将具有最大的电压降,并且可以断开该开路串联连接的二极管串与升压开关调节器的控制。 另一个电子电路包括耦合到升压开关调节器中或其内的限流电路,并配置为在二极管负载下工作。 另一个电子电路包括一个脉冲宽度调制电路,配置成调光串联的发光二极管串。
    • 6. 发明申请
    • ELECTRONIC CIRCUIT FOR DRIVING A DIODE LOAD
    • 驱动二极管负载的电子电路
    • WO2008086050A3
    • 2008-10-16
    • PCT/US2008050026
    • 2008-01-02
    • ALLEGRO MICROSYSTEMS INCSZCZESZYNSKI GREGORYWEKHANDE SHASHANKMANGTANI VIJAY
    • SZCZESZYNSKI GREGORYWEKHANDE SHASHANKMANGTANI VIJAY
    • G05F1/46H05B33/08
    • G05F1/46
    • An electronic circuit includes circuit portions for identifying a largest voltage drop through one of a plurality of series connected diode strings and for controlling a boost switching regulator according to the largest voltage drop. The electronic circuit can sense an open circuit series connected diode string, which would otherwise have the largest voltage drop, and can disconnect that open circuit series connected diode string from control of the boost switching regulator. Another electronic circuit includes a current limiting circuit coupled to or within a boost switching regulator and configured to operate with a diode load. Another electronic circuit includes a pulse width modulation circuit configured to dim a series connected string of light emitting diodes.
    • 电子电路包括用于识别通过多个串联连接的二极管串中的一个串联连接的二极管串中的最大电压降并根据最大电压降来控制升压开关调节器的电路部分。 电子电路可以检测开路串联连接的二极管串,否则该串联连接的二极管串会具有最大的电压降,并且可以将开路串联连接的二极管串与升压开关调节器的控制断开。 另一种电子电路包括限流电路,其耦合到升压开关调节器或在升压开关调节器内并被配置成以二极管负载工作。 另一种电子电路包括配置成使串联连接的发光二极管串变暗的脉宽调制电路。