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    • 3. 发明申请
    • MULTIPHASE LOW LC BUCK REGULATOR
    • 多相低LC降压调节器
    • US20140021931A1
    • 2014-01-23
    • US14009740
    • 2011-06-06
    • Deepak PancholiBhavin Odedara
    • Deepak PancholiBhavin Odedara
    • H02M1/08
    • H02M1/08H02M3/1584
    • A buck power converter creates a desired output voltage from a greater input voltage with higher efficiency than linear regulators or charge pumps. For compact-size and cost sensitive products, the use of the buck power converter is hindered mainly because of lack of physical space and increases in the cost of the passive components like the inductor and capacitor. Techniques are presented to reduce the sizes of the passive components so that they can be integrated on-chip or in-package or on board. A signal converter in the buck power converter determines the duty cycle of a switching control signal. The switching control signal would ordinarily have driven a power switching circuit that provides current to the inductor in the buck power converter. The signal converter outputs a modified (multiphase) switching control signal that includes multiple separated on-periods that taken together approximate the duty cycle of the switching control signal while maintaining the same control loop frequency. The multiphase switching signal drives the power switching circuit to provide current to the inductor during each of the multiple separated on-periods so that the output voltage ripple decreases by a factor of the number of phases in the modified switching signal. In this way, if the ripple amplitude is kept same, the sizes of the passive components can be reduced by the factor of the number of phases in the modified switching control signal.
    • 降压功率转换器从更大的输入电压产生所需的输出电压,效率高于线性稳压器或电荷泵。 对于紧凑型和成本敏感的产品,降低功率转换器的使用主要是由于物理空间不足以及无源器件(如电感器和电容器)的成本增加而受到阻碍。 提出了减少无源元件尺寸的技术,使其可以集成在片上或封装内或板上。 降压功率转换器中的信号转换器确定开关控制信号的占空比。 开关控制信号通常会驱动向降压功率转换器中的电感器提供电流的功率开关电路。 信号转换器输出修改的(多相)开关控制信号,其包括多个分离的接通周期,其大致接近开关控制信号的占空比,同时保持相同的控制回路频率。 多相开关信号驱动功率开关电路,以在多个分离的导通周期中的每一个期间向电感器提供电流,使得输出电压纹波在修改的开关信号中的相位数量减小。 以这种方式,如果纹波幅度保持相同,则可以通过修改的开关控制信号中的相数的因数来减小无源部件的尺寸。
    • 7. 发明授权
    • Controlled load regulation and improved response time of LDO with adaptive current distribution mechanism
    • 采用自适应电流分配机制控制负载调节和改善LDO响应时间
    • US08471538B2
    • 2013-06-25
    • US12693228
    • 2010-01-25
    • Deepak PancholiBhavin OdedaraNaidu Prasad
    • Deepak PancholiBhavin OdedaraNaidu Prasad
    • G05F1/00
    • G05F1/575
    • A low drop-out (LDO) voltage regulation circuit includes first and second internal current paths. The first internal current path is between the input supply voltage and ground and includes the regulator's buffer circuit. The second internal current path is between the input supply voltage and ground and includes the regulator's power transistor. The amount of current flowing through the first internal current path relative to the amount of current flowing through the second internal current path is an increasing function of a current supplied to a load connected to the output supply node. The load regulation of the LDO is improved as the DC gain will not go down at lower load currents. Further, the no load to full load response time is improved as the load pole and power MOS gate pole are actively controlled with respect to output load current. In this mechanism, as the amount of current being supplied to the load decreases, the internal current flow shifts from the first internal current path to the second internal current path and vice versa. This arrangement maintains the desired pole structure and keeps the quiescent current largely the same for all load current levels.
    • 低压差(LDO)电压调节电路包括第一和第二内部电流路径。 第一条内部电流路径位于输入电源电压和地之间,并包括稳压器的缓冲电路。 第二个内部电流路径位于输入电源电压和地之间,并包括稳压器的功率晶体管。 流过第一内部电流路径的电流相对于流过第二内部电流路径的电流量是提供给连接到输出电源节点的负载的电流的增加函数。 由于直流增益在较低的负载电流下不会下降,所以LDO的负载调节得到改善。 此外,随着负载极和功率MOS栅极相对于输出负载电流被主动地控制,空载负载响应时间得到改善。 在该机构中,当供给到负载的电流量减少时,内部电流从第一内部电流路径移动到第二内部电流路径,反之亦然。 这种布置保持所需的极结构并且在所有负载电流水平下保持静态电流大体相同。
    • 8. 发明申请
    • Partial Feedback Mechanism in Voltage Regulators to Reduce Output Noise Coupling and DC Voltage Shift at Output
    • 电压调节器的部分反馈机制,用于降低输出噪声耦合和输出时的直流电压偏移
    • US20110133710A1
    • 2011-06-09
    • US12632998
    • 2009-12-08
    • Deepak PancholiEkram BhuiyanSteve ChiNaidu PrasadBhavin Odedara
    • Deepak PancholiEkram BhuiyanSteve ChiNaidu PrasadBhavin Odedara
    • G05F1/10
    • G05F1/575
    • Techniques are presented for reducing the DC voltage shift in a voltage regulator, particularly for high and ultra-high speed load switching operation. The regulator includes a power transistor, connected between an input supply voltage and an output node, and an error amplifier, having its output connected to control the gate of the output transistor, a first input connected to receive a reference voltage, and a second input connected to a feedback node. The regulator also includes a first resistance, connected between the feedback node and ground, and also a second resistance, a third resistance, and a first capacitance, where the feedback node is connected to the output node through a combination of the first capacitance in parallel with the second resistance and in series with the third resistance. Consequently, the feedback path from the output node of the regulator uses a partial feedback mechanism, where the capacitance is included to generate a zero in the feedback divider path, but a resistance is placed in series with the capacitance so that at high frequencies the feedback level is still separated from the output level.
    • 提出了降低电压调节器中的直流电压偏移的技术,特别是对于高速和超高速负载切换操作。 调节器包括连接在输入电源电压和输出节点之间的功率晶体管,以及误差放大器,其输出被连接以控制输出晶体管的栅极,连接到接收参考电压的第一输入端和第二输入端 连接到反馈节点。 调节器还包括连接在反馈节点和地之间的第一电阻,以及第二电阻,第三电阻和第一电容,其中反馈节点通过并联的第一电容的组合连接到输出节点 具有第二阻力并与第三阻力串联。 因此,来自调节器的输出节点的反馈路径使用部分反馈机制,其中包括电容以在反馈分配器路径中产生零,但是电阻与电容串联放置,使得在高频时反馈 级别仍然与输出级别分离。