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    • 3. 发明授权
    • Switching controller having frequency hopping for power supplies and method therefor
    • 具有用于电源的跳频的开关控制器及其方法
    • US07391628B2
    • 2008-06-24
    • US11679729
    • 2007-02-27
    • Ta-yung YangGuo-Kiang HungSong-Yi Lin
    • Ta-yung YangGuo-Kiang HungSong-Yi Lin
    • H02M1/12
    • H02M3/33523H02M1/44
    • A switching controller having frequency hopping is used for reducing the EMI of a power supply. A pattern generator generates a digital pattern code in response to a clock signal. An oscillator generates an oscillation signal for determining a switching frequency of a switching signal. A programmable capacitor coupled to the oscillator modulates the switching frequency in response to the variation of the digital pattern code. An attenuator connected to a voltage feedback loop attenuates a feedback signal. The feedback signal controls the pulse width of the switching signal. A programmable resistor coupled to the attenuator determines an attenuation rate of the attenuator in response to the digital pattern code. The attenuation rate is increased as the switching frequency increases. The pulse width of the switching signal is thus reduced, which compensates the decrease of the switching period and keeps the output power and the output voltage constant.
    • 具有跳频的开关控制器用于降低电源的EMI。 模式发生器响应于时钟信号产生数字模式码。 振荡器产生用于确定开关信号的开关频率的振荡信号。 耦合到振荡器的可编程电容器响应于数字图形码的变化来调制开关频率。 连接到电压反馈环路的衰减器衰减反馈信号。 反馈信号控制开关信号的脉冲宽度。 耦合到衰减器的可编程电阻器响应于数字图案码确定衰减器的衰减率。 衰减率随着开关频率的增加而增加。 因此,开关信号的脉冲宽度被减小,这补偿了开关周期的减小并保持输出功率和输出电压恒定。
    • 4. 发明申请
    • Switching controller having frequency hopping for power supplies
    • 开关控制器具有电源跳频功能
    • US20060017426A1
    • 2006-01-26
    • US10898389
    • 2004-07-23
    • Ta-yung YangGuo-Kiang HungSong-Yi Lin
    • Ta-yung YangGuo-Kiang HungSong-Yi Lin
    • G05F1/40
    • H02M3/33523H02M1/44
    • A switching controller having frequency hopping is used for reducing the EMI of a power supply. A pattern generator generates a digital pattern code in response to a clock signal. An oscillator generates an oscillation signal for determining a switching frequency of a switching signal. A programmable capacitor coupled to the oscillator modulates the switching frequency in response to the variation of the digital pattern code. An attenuator connected to a voltage feedback loop attenuates a feedback signal. The feedback signal controls the pulse width of the switching signal. A programmable resistor coupled to the attenuator determines an attenuation rate of the attenuator in response to the digital pattern code. The attenuation rate is increased as the switching frequency increases. The pulse width of the switching signal is thus reduced, which compensates the decrease of the switching period and keeps the output power and the output voltage constant.
    • 具有跳频的开关控制器用于降低电源的EMI。 模式发生器响应于时钟信号产生数字模式码。 振荡器产生用于确定开关信号的开关频率的振荡信号。 耦合到振荡器的可编程电容器响应于数字图形码的变化来调制开关频率。 连接到电压反馈环路的衰减器衰减反馈信号。 反馈信号控制开关信号的脉冲宽度。 耦合到衰减器的可编程电阻器响应于数字图案码确定衰减器的衰减率。 衰减率随着开关频率的增加而增加。 因此,开关信号的脉冲宽度被减小,这补偿了开关周期的减小并保持输出功率和输出电压恒定。
    • 6. 发明授权
    • Single stage PFC power converter
    • 单级PFC功率转换器
    • US06952354B1
    • 2005-10-04
    • US10859811
    • 2004-06-03
    • Ta-yung YangSong-Yi LinTso Min Chen
    • Ta-yung YangSong-Yi LinTso Min Chen
    • H02M1/00H02M1/42H02M3/335
    • H02M1/4258H02M3/3353Y02B70/126Y02P80/112
    • A single stage PFC power converter is provided for performing a PFC function in a half-bridge flyback power converter. A high-side switch and a low-side switch periodically supply an input voltage to a primary winding of a transformer. When the high-side switch and low-side switch are switched off, the energy stored in the transformer will be transmitted to a secondary circuit and charged to a bulk capacitor. The bulk capacitor serves to recycle the energy and reduce the output ripple noise. A forward diode and a forward inductor serve to forward the energy of the bulk capacitor to the flowing path of the input voltage for performing PFC function.
    • 提供单级PFC功率转换器,用于在半桥反激式功率转换器中执行PFC功能。 高侧开关和低侧开关周期性地向变压器的初级绕组提供输入电压。 当高侧开关和低侧开关关闭时,存储在变压器中的能量将传输到次级电路并充电到大容量电容器。 大容量电容器用于回收能量并减少输出纹波噪声。 正向二极管和正向电感器用于将大容量电容器的能量转发到用于执行PFC功能的输入电压的流动路径。
    • 7. 发明授权
    • Flyback power converter having a constant voltage and a constant current output under primary-side PWM control
    • 反激式功率转换器在初级侧PWM控制下具有恒定电压和恒定电流输出
    • US06862194B2
    • 2005-03-01
    • US10465467
    • 2003-06-18
    • Ta-yung YangChern-Lin ChenJenn-yu G. LinSong-Yi Lin
    • Ta-yung YangChern-Lin ChenJenn-yu G. LinSong-Yi Lin
    • H02M3/335H02M7/04
    • H02M3/33507H02M2001/0006
    • A primary-side flyback power converter supplies a constant voltage and a constant current output. To generate a well-regulated output voltage under varying load conditions, the power converter includes a PWM controller. The PWM controller generates a PWM signal to control a switching transistor in response to a flyback voltage detected from the first primary winding of the power supply transformer. To reduce power consumption, the flyback energy of the first primary winding is used as a DC power source for the PWM controller. The flyback voltage is sampled following a delay time to reduce interference from the inductance leakage of the transformer. To generate a more accurate DC output voltage, a bias current is pulled from the detection input to form a voltage drop across a detection resistor for compensating for the voltage drop of the output rectifying diode.
    • 初级侧反激式功率转换器提供恒定电压和恒定电流输出。 为了在变化的负载条件下产生良好调节的输出电压,功率转换器包括PWM控制器。 PWM控制器产生PWM信号以响应于从电源变压器的第一初级绕组检测到的回扫电压来控制开关晶体管。 为了降低功耗,第一个初级绕组的回扫能量被用作PWM控制器的直流电源。 在延迟时间之后对回扫电压进行采样,以减少变压器的电感泄漏引起的干扰。 为了产生更精确的直流输出电压,从检测输入端拉出偏置电流,在检测电阻上形成电压降,以补偿输出整流二极管的电压降。
    • 8. 发明授权
    • Switching controller having frequency hopping for power supplies
    • 开关控制器具有电源跳频功能
    • US07203079B2
    • 2007-04-10
    • US10898389
    • 2004-07-23
    • Ta-yung YangGuo-Kiang HungSong-Yi Lin
    • Ta-yung YangGuo-Kiang HungSong-Yi Lin
    • H02M1/12
    • H02M3/33523H02M1/44
    • A switching controller having frequency hopping is used for reducing the EMI of a power supply. A pattern generator generates a digital pattern code in response to a clock signal. An oscillator generates an oscillation signal for determining a switching frequency of a switching signal. A programmable capacitor coupled to the oscillator modulates the switching frequency in response to the variation of the digital pattern code. An attenuator connected to a voltage feedback loop attenuates a feedback signal. The feedback signal controls the pulse width of the switching signal. A programmable resistor coupled to the attenuator determines an attenuation rate of the attenuator in response to the digital pattern code. The attenuation rate is increased as the switching frequency increases. The pulse width of the switching signal is thus reduced, which compensates the decrease of the switching period and keeps the output power and the output voltage constant.
    • 具有跳频的开关控制器用于降低电源的EMI。 模式发生器响应于时钟信号产生数字模式码。 振荡器产生用于确定开关信号的开关频率的振荡信号。 耦合到振荡器的可编程电容器响应于数字图形码的变化来调制开关频率。 连接到电压反馈环路的衰减器衰减反馈信号。 反馈信号控制开关信号的脉冲宽度。 耦合到衰减器的可编程电阻器响应于数字图案码确定衰减器的衰减率。 衰减率随着开关频率的增加而增加。 因此,开关信号的脉冲宽度被减小,这补偿了开关周期的减小并保持输出功率和输出电压恒定。
    • 10. 发明申请
    • Switching frequency jitter having output ripple cancel for power supplies
    • 输出纹波的开关频率抖动取消电源
    • US20060031689A1
    • 2006-02-09
    • US10914820
    • 2004-08-09
    • Ta-yung YangGuo-Kiang HungSong-Yi Lin
    • Ta-yung YangGuo-Kiang HungSong-Yi Lin
    • G06F1/26
    • G06F1/26
    • A switching frequency jitter having output ripple cancel includes a pattern generator generating a pattern code in response to a clock signal. An oscillator generates an oscillation signal for determining a switching frequency of a switching signal in response to the variation of the pattern code. An attenuator is connected to a voltage feedback loop for attenuating a feedback signal. The feedback signal is utilized to control the pulse width of the switching signal. A programmable resistor is connected to the attenuator for programming an attenuation rate of the attenuator in response to the pattern code. The attenuation rate is increased whenever the switching frequency increases. The pulse width of the switching signal is thus reduced, which compensates the decrease of the switching period and keeps the output power and the output voltage of the power supply constant.
    • 具有输出波纹消除的开关频率抖动包括响应于时钟信号产生模式代码的模式发生器。 振荡器响应于模式代码的变化产生用于确定开关信号的开关频率的振荡信号。 衰减器连接到用于衰减反馈信号的电压反馈环路。 反馈信号用于控制开关信号的脉冲宽度。 可编程电阻器连接到衰减器,用于响应于图案代码编程衰减器的衰减率。 每当开关频率增加时,衰减率就会增加。 因此,开关信号的脉冲宽度减小,这补偿了开关周期的减小,并保持电源的输出功率和输出电压恒定。