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
    • Primary-side controlled flyback power converter
    • 初级侧控制反激式电源转换器
    • US06853563B1
    • 2005-02-08
    • US10629103
    • 2003-07-28
    • Ta-yung YangJenn-yu G. LinChern-Lin Chen
    • Ta-yung YangJenn-yu G. LinChern-Lin Chen
    • H02M3/335H02M7/00
    • H02M3/33507H02M1/32H02M2001/0006H02M2001/0032H02M2001/0041Y02B70/16
    • The present invention provides a primary-side flyback power converter that supplies a constant voltage output and a constant current output. To generate a well-regulated output voltage under varying load conditions, a PWM controller is included in the power converter in order to generate a PWM signal controlling a switching transistor in response to a flyback voltage sampled from a first primary winding of the power supply transformer. Several improvements are included in this present invention to overcome the disadvantages of prior-art flyback power converters. Firstly, the flyback energy of the first primary winding is used as a DC power source for the PWM controller in order to reduce power consumption. A double sample amplifier samples the flyback voltage just before the transformer current drops to zero. Moreover, an offset current is pulled from a detection input of the double sample amplifier in order to generate a more accurate DC output voltage. The offset current is generated in response to the temperature in order to compensate for temperature-induced voltage fluctuations across the output rectifier. Ultimately, in order to maintain a constant output current, the PWM controller modulates the switching frequency in response to the output voltage.
    • 本发明提供了提供恒定电压输出和恒定电流输出的初级侧反激式功率转换器。 为了在变化的负载条件下产生良好调节的输出电压,PWM控制器被包括在功率转换器中,以便响应于从电源变压器的第一初级绕组采样的回扫电压产生控制开关晶体管的PWM信号 。 在本发明中包括若干改进以克服现有技术的反激式功率转换器的缺点。 首先,为了降低功耗,首先将初级绕组的回扫能量用作PWM控制器的直流电源。 双倍采样放大器在变压器电流下降到零之前对反激电压进行采样。 此外,从双倍放大器的检测输入端拉出偏移电流,以产生更精确的直流输出电压。 偏移电流响应于温度而产生,以便补偿输出整流器两端的温度感应电压波动。 最终,为了保持恒定的输出电流,PWM控制器响应于输出电压来调制开关频率。
    • 3. 发明申请
    • PRIMARY-SIDE CONTROLLED FLYBACK POWER CONVERTER
    • 主要控制的回转电源转换器
    • US20050024898A1
    • 2005-02-03
    • US10629103
    • 2003-07-28
    • Ta-Yung YangJenn-Yu LinChern-Lin Chen
    • Ta-Yung YangJenn-Yu LinChern-Lin Chen
    • H02M3/335H02M7/00
    • H02M3/33507H02M1/32H02M2001/0006H02M2001/0032H02M2001/0041Y02B70/16
    • The present invention provides a primary-side flyback power converter that supplies a constant voltage output and a constant current output. To generate a well-regulated output voltage under varying load conditions, a PWM controller is included in the power converter in order to generate a PWM signal controlling a switching transistor in response to a flyback voltage sampled from a first primary winding of the power supply transformer. Several improvements are included in this present invention to overcome the disadvantages of prior-art flyback power converters. Firstly, the flyback energy of the first primary winding is used as a DC power source for the PWM controller in order to reduce power consumption. A double sample amplifier samples the flyback voltage just before the transformer current drops to zero. Moreover, an offset current is pulled from a detection input of the double sample amplifier in order to generate a more accurate DC output voltage. The offset current is generated in response to the temperature in order to compensate for temperature-induced voltage fluctuations across the output rectifier. Ultimately, in order to maintain a constant output current, the PWM controller modulates the switching frequency in response to the output voltage.
    • 本发明提供了提供恒定电压输出和恒定电流输出的初级侧反激式功率转换器。 为了在变化的负载条件下产生良好调节的输出电压,PWM控制器被包括在功率转换器中,以便响应于从电源变压器的第一初级绕组采样的回扫电压产生控制开关晶体管的PWM信号 。 在本发明中包括若干改进以克服现有技术的反激式功率转换器的缺点。 首先,为了降低功耗,首先将初级绕组的回扫能量用作PWM控制器的直流电源。 双倍采样放大器在变压器电流下降到零之前对反激电压进行采样。 此外,从双倍放大器的检测输入端拉出偏移电流,以产生更精确的直流输出电压。 偏移电流响应于温度而产生,以便补偿输出整流器两端的温度感应电压波动。 最终,为了保持恒定的输出电流,PWM控制器响应于输出电压来调制开关频率。
    • 4. 发明授权
    • PWM controller regulating output voltage and output current in primary side
    • PWM控制器调节初级侧的输出电压和输出电流
    • US06721192B1
    • 2004-04-13
    • US10249214
    • 2003-03-24
    • Ta-yung YangChern-Lin ChenJenn-yu G. LinYi-Hsin Leu
    • Ta-yung YangChern-Lin ChenJenn-yu G. LinYi-Hsin Leu
    • H02M3335
    • H02M3/33507H01F2038/026H02M2001/0025
    • A PWM controller according to the present invention provides a technique to control the output voltage and output current of the power supply without the feedback control circuit in the secondary side of the transformer. In order to achieve better regulation, an adaptive load and a feedback synthesizer are equipped into the PWM controller, which associated with the auxiliary winding of the transformer regulate the output voltage of the power supply as a constant. Furthermore, a programmable power limiter in the PWM controller controls the power that is delivered from the primary side to the output of the power supply. The threshold of the power limit is varied in accordance with the change of output voltage. Because the output power is the function of the output voltage of the power supply, a constant current output is realized when the output current of the power supply is greater than a maximum value.
    • 根据本发明的PWM控制器提供了在变压器的次级侧没有反馈控制电路来控制电源的输出电压和输出电流的技术。 为了实现更好的调节,PWM控制器配备了自适应负载和反馈合成器,该控制器与变压器的辅助绕组相关联,将电源的输出电压调节为常数。 此外,PWM控制器中的可编程功率限制器控制从初级侧输出到电源输出的功率。 功率限制的阈值根据输出电压的变化而变化。 由于输出功率是电源输出电压的函数,当电源的输出电流大于最大值时,可实现恒流输出。
    • 6. 发明授权
    • Soft-switching power converter
    • 软开关电源转换器
    • US06954367B2
    • 2005-10-11
    • US10248219
    • 2002-12-29
    • Ta-yung YangJenn-yu G. LinChern-Lin Chen
    • Ta-yung YangJenn-yu G. LinChern-Lin Chen
    • H02M3/335H02M3/337H02M3/24
    • H02M3/3376H02M3/33569H02M2001/0048Y02B70/1491
    • A pulse width modulated soft-switching power converter has a transformer with a primary winding and a secondary winding, a secondary circuit coupled to the secondary winding, and a pair of main switches and a pair of auxiliary switches coupled to the primary winding. The main switches and auxiliary switches intermittently conduct an input voltage source to the primary winding of the transformer to operate the soft-switching power converter in four operation stages in each switching cycle. The main switches conduct the input voltage source to the transformer in a first operation stage. In a second operation stage, the conduction is cut off. The transformer operates as an inductor with the auxiliary switches switched on under zero-voltage or zero-current switching mode in a third operation stage. In the fourth operation stage, auxiliary switches are switched off to achieve zero-voltage transition.
    • 脉冲宽度调制软开关功率转换器具有一个具有初级绕组和次级绕组的变压器,耦合到次级绕组的次级电路以及耦合到初级绕组的一对主开关和一对辅助开关。 主开关和辅助开关间歇地将一个输入电压源传送到变压器的初级绕组,以在每个开关周期的四个运行阶段中操作软开关功率转换器。 在第一个操作阶段,主开关将输入电压源传导到变压器。 在第二操作阶段,导通被切断。 变压器作为电感器工作,辅助开关在第三个运行阶段以零电压或零电流开关模式接通。 在第四个运行阶段,辅助开关被关闭以实现零电压转换。
    • 9. 发明申请
    • PFC-PWM CONTROLLER HAVING A POWER SAVING MEANS
    • 具有省电功能的PFC-PWM控制器
    • US20050007088A1
    • 2005-01-13
    • US10617516
    • 2003-07-10
    • Ta-Yung YangJenn-Yu LinChern-Lin Chen
    • Ta-Yung YangJenn-Yu LinChern-Lin Chen
    • H02M1/00H02M1/42G05F1/40
    • H02M1/4225H02M2001/0032H02M2001/007Y02B70/126Y02B70/16
    • A PFC-PWM controller with a power saving means is disclosed. A built-in current synthesizer generates a bias current in response to feedback voltages sampled from the PWM circuit and the PFC circuit. The bias current modulates the oscillation frequency to further reduce the switching frequencies of the PWM signal and the PFC signal under light-load and zero-load conditions. Thus, power consumption is greatly reduced. The PFC and the PWM switching signals interleave each other, so that power can be transferred more smoothly from the PFC circuit to the PWM circuit. The saturation of the switching components can be avoided by limiting the maximum on-time of the PWM signal. Further, an external resistor is used to start up the PFC-PWM controller and to provide an AC template signal for PFC control.
    • 公开了具有省电装置的PFC-PWM控制器。 内置电流合成器响应于从PWM电路和PFC电路采样的反馈电压产生偏置电流。 偏置电流调制振荡频率,以进一步降低轻载和零负载条件下PWM信号和PFC信号的开关频率。 因此,功耗大大降低。 PFC和PWM开关信号彼此交错,使得功率可以从PFC电路更平稳地传输到PWM电路。 通过限制PWM信号的最大导通时间可以避免开关元件的饱和。 此外,外部电阻用于启动PFC-PWM控制器,并提供用于PFC控制的AC模板信号。
    • 10. 发明授权
    • Current-driven PWM controller having a power saving means
    • 具有省电装置的电流驱动PWM控制器
    • US06768657B1
    • 2004-07-27
    • US10249141
    • 2003-03-19
    • Ta-yung YangChern-Lin ChenJenn-yu G. Lin
    • Ta-yung YangChern-Lin ChenJenn-yu G. Lin
    • H02M114
    • H02M3/33507
    • Incorporating the PWM function with the power saving means develops the PWM controller in which the switching frequency is decreased in response to the decrease of the load. Further, the current-driven design minimizes the circuitry and reduces the cost of the PWM controller. Since most of the control signals are operated in current mode, the die size of integrated circuit of the PWM controller is greatly reduced. An off-time modulator is provided for power saving in which the discharge current of the oscillator is modulated. Keeping the maximum on-time of the PWM signal as a constant and increasing the off-time of the PWM signal extends the switching period in light load conditions. The off-time modulation is the function of a feedback current, which is derived from the feedback loop. An array of current operation is designed to generate the feedback voltage for the PWM control and meanwhile produces a modulated discharge current for power saving. A minimum discharge current is limited to prevent the switching frequency from flowing into the audio-band. Moreover, the minimum discharge current is switched on/off in response to the state of the supply voltage in which the minimum discharge current is disabled when the supply voltage is high, and enabled once the supply voltage is lower than a threshold voltage; thereby preventing insufficient power from being supplied from the auxiliary bias winding for the PWM controller.
    • 将PWM功能与省电装置相结合,开发出响应于负载减小而开关频率降低的PWM控制器。 此外,电流驱动设计可最大限度地减少电路并降低PWM控制器的成本。 由于大多数控制信号以电流模式工作,PWM控制器的集成电路的管芯尺寸大大降低。 提供了一种关断时间调制器用于节能,其中调制振荡器的放电电流。 将PWM信号的最大导通时间保持为常数,并增加PWM信号的关断时间在轻负载条件下延长了开关周期。 关断时间调制是反馈电流的函数,反馈电流是从反馈回路得到的。 设计了一个电流运算阵列,用于产生PWM控制的反馈电压,同时产生调制放电电流,实现省电。 限制最小放电电流以防止开关频率流入音频带。 此外,当电源电压高时,响应于最小放电电流被禁止的电源电压的状态,最小放电电流被接通/断开,并且一旦电源电压低于阈值电压就启动; 从而防止从用于PWM控制器的辅助偏置绕组提供不足的功率。