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
    • 1. 发明授权
    • Circuit and technique for compensating high gain amplifier without
compensation capacitors
    • 用于补偿没有补偿电容器的高增益放大器的电路和技术
    • US5917376A
    • 1999-06-29
    • US916869
    • 1997-08-22
    • Vadim V. IvanovValery N. Ivanov
    • Vadim V. IvanovValery N. Ivanov
    • H03F1/08H03F1/00H03F3/04H03F3/45
    • H03F1/083H03F2200/261
    • A three-stage amplifier including first, second, and third sequentially coupled stages is compensated without use of compensation capacitors, by applying an input signal to an input of the first stage and a first input of a first feed-forward stage, coupling an output signal of the first feed-forward stage to an output of the second stage, the second stage having an input coupled to an output of the first stage, coupling an output signal of the first stage to an input of a second feed-forward stage, coupling an output of the second feed-forward stage to an output of the third stage, coupling the input signal to an input of a third feed-forward stage, and coupling an output of the third feed-forward stage to the output of the third stage.
    • 通过将输入信号施加到第一级的输入和第一前馈级的第一输入,对包括第一,第二和第三顺序耦合级的三级放大器进行补偿而不使用补偿电容器, 将第一前馈级的信号输入到第二级的输出,第二级具有耦合到第一级的输出的输入,将第一级的输出信号耦合到第二前馈级的输入, 将所述第二前馈级的输出耦合到所述第三级的输出,将所述输入信号耦合到第三前馈级的输入,以及将所述第三前馈级的输出耦合到所述第三级前级的输出 阶段。
    • 2. 发明授权
    • Converter and method for extracting maximum power from piezo vibration harvester
    • 用于从压电振动收割机中提取最大功率的转换器和方法
    • US08674663B2
    • 2014-03-18
    • US12661578
    • 2010-03-19
    • Vadim V. Ivanov
    • Vadim V. Ivanov
    • H02J7/00H02J7/04
    • H02J7/007H02J7/04H02M7/219H02M2001/007H02M2007/2195H02N2/181Y02B70/1408
    • A system (1-2) for efficiently transferring harvested vibration energy to a battery (6) includes a piezo harvester (2) generating an AC output voltage (VP(t)) and current (IPZ(t)) and an active rectifier (3) to produce a harvested DC voltage (Vhrv) and current (Ihrv) which charge a capacitance (C0). An enable circuit (17) causes a DC-DC converter (4) to be enabled, thereby discharging the capacitance into the converter, when a comparator (A0,A1) of the rectifier which controls switches (S1-S4) thereof detects a direction reversal of the AC output current (IPZ(t)). Another comparator (13) causes the enable circuit (17) to disable the converter (4) when the DC voltage exceeds a threshold (VREF), thereby causing the capacitance be recharged.
    • 用于将收获的振动能量有效地传送到电池(6)的系统(1-2)包括产生AC输出电压(VP(t))和电流(IPZ(t))的压电式收集器(2)和有源整流器 3)以产生对电容(C0)充电的收获的DC电压(Vhrv)和电流(Ihrv)。 当控制开关(S1-S4)的整流器的比较器(A0,A1)检测到方向(S1-S4)时,使能电路(17)使DC-DC转换器(4)使能,从而将电容放电到转换器中 交流输出电流(IPZ(t))的反转。 当DC电压超过阈值(VREF)时,另一比较器(13)使得使能电路(17)禁用转换器(4),从而使电容被再充电。
    • 3. 发明申请
    • CIRCUITRY AND METHOD FOR PRECISION AMPLITUDE CONTROL IN QUARTZ AND MEMS OSCILLATORS
    • 用于精确振幅控制的电路和方法在QUARTZ和MEMS振荡器中
    • US20120206210A1
    • 2012-08-16
    • US12931940
    • 2011-02-15
    • Vadim V. IvanovMichael J. Shay
    • Vadim V. IvanovMichael J. Shay
    • H03B5/02
    • H03B5/364G04F5/06G04G3/02
    • An oscillator includes oscillator circuitry (8) including a transconductance stage (2) and a resonator (3). A comparator (10) produces first (CLK) and second (/CLK) clock signals which indicate the timing of positive and negative phases of a differential output signal (VIN+−VIN−) produced by the transconductance circuit in response to the resonator. A synchronous rectifier (14) converts the differential output signal to a current (IRECT) in response to the first and second clock signals. A switched capacitor notch filter (15) filters the current in response to the first and second clock signals. A control current (ICONTROL) which controls the transconductance of the transconductance circuit is generated in response to the notch filter. The resonator may be a MEMS resonator.
    • 振荡器包括包括跨导级(2)和谐振器(3)的振荡器电路(8)。 比较器(10)产生第一(CLK)和第二(/ CLK)时钟信号,其指示由跨导电路响应谐振器产生的差分输出信号(VIN + -VIN-)的正和负相位的时序。 同步整流器(14)响应于第一和第二时钟信号将差分输出信号转换为电流(IRECT)。 开关电容器陷波滤波器(15)响应于第一和第二时钟信号对电流进行滤波。 响应于陷波滤波器产生控制跨导电路跨导的控制电流(ICONTROL)。 谐振器可以是MEMS谐振器。
    • 4. 发明授权
    • Low-power feedback and method for DC-DC converters and voltage regulators for energy harvesters
    • 用于能量收集器的DC-DC转换器和电压调节器的低功率反馈和方法
    • US08222881B2
    • 2012-07-17
    • US12657543
    • 2010-01-22
    • Vadim V. IvanovTimothy V. Kaithoff
    • Vadim V. IvanovTimothy V. Kaithoff
    • G05F1/00
    • G05F1/56G05F1/575
    • A converter (10) for converting a first DC voltage (VDD) to a second DC voltage (VOUT) includes an output stage (40) for producing the second DC voltage (VOUT) in response to both the first DC voltage (VDD) and an output of an error amplifier (20). A sampling circuit (15) periodically energizes a voltage divider (R0,R1) by periodically coupling a first terminal thereof to the second DC voltage and periodically coupling an output (14) of the energized voltage divider to a feedback conductor (7) to refresh a feed back capacitor (C0) coupled between the second DC voltage and the feedback conductor. The feedback conductor is coupled to an input of the error amplifier.
    • 用于将第一直流电压(VDD)转换为第二直流电压(VOUT)的A转换器(10)包括用于响应于第一直流电压(VDD)和第二直流电压(VDD)两者产生第二直流电压(VOUT)的输出级(40) 误差放大器(20)的输出。 采样电路(15)通过将其第一端周期性地耦合到第二DC电压并周期性地耦合到通电分压器的输出(14)到反馈导体(7)来周期性地激励分压器(R0,R1),以刷新 耦合在第二DC电压和反馈导体之间的反馈电容器(C0)。 反馈导体耦合到误差放大器的输入端。
    • 6. 发明申请
    • Variable gain current input amplifier and method
    • 可变增益电流输入放大器及方法
    • US20090322429A1
    • 2009-12-31
    • US12215186
    • 2008-06-25
    • Vadim V. IvanovKeith E. KunzSachin Rao BandigadiPrasadu Naga Venkata Mangina
    • Vadim V. IvanovKeith E. KunzSachin Rao BandigadiPrasadu Naga Venkata Mangina
    • H03F3/45
    • H03F3/45183H03F3/45179H03F2203/45674
    • Variable gain circuitry includes a first input transistor (M1) having a source coupled to a first conductor (32), a gate coupled to a first input voltage (Vin+), and a drain coupled to a second conductor (30). An input of a first current mirror (M3,M4) is coupled to the second conductor to receive a current corresponding to the difference between the first input voltage and a second input voltage (Vin−). An output of the first current mirror is coupled to a source of current (M2). A first transistor (M5) has a gate coupled to a third conductor (31), a source coupled to a reference voltage (VSS), and a drain coupled to conduct output current (Iout). A second transistor (M6) and a resistive element (M7) are coupled in series between the third conductor and the first reference voltage (VSS), a gate of the second transistor being coupled to the third conductor to produce a nonlinear relationship between currents of the first transistor and the second transistor.
    • 可变增益电路包括具有耦合到第一导体(32)的源极的第一输入晶体管(M1),耦合到第一输入电压(Vin +)的栅极和耦合到第二导体(30)的漏极。 第一电流镜(M3,M4)的输入耦合到第二导体,以接收对应于第一输入电压和第二输入电压(Vin-)之间的差的电流。 第一电流镜的输出耦合到电流源(M2)。 第一晶体管(M5)具有耦合到第三导体(31)的栅极,耦合到参考电压(VSS)的源极和耦合以导通输出电流(Iout)的漏极。 第二晶体管(M6)和电阻元件(M7)串联耦合在第三导体和第一参考电压(VSS)之间,第二晶体管的栅极耦合到第三导体,以产生电流之间的非线性关系 第一晶体管和第二晶体管。
    • 7. 发明授权
    • Tail-current steering circuit and method for rail-to-rail operational amplifier input stage
    • 尾电流转向电路及轨至轨运算放大器输入级的方法
    • US07411453B1
    • 2008-08-12
    • US11655524
    • 2007-01-19
    • Vadim V. IvanovDavid R. W. Spady
    • Vadim V. IvanovDavid R. W. Spady
    • H03F3/45
    • H03F3/45192H03F3/4565H03F2200/456H03F2203/45466H03F2203/45476
    • An amplifier includes first and second pairs of differentially coupled input transistors. The first current mirror generates a reference current which is mirrored by a second current mirror to produce a mirrored reference current. Current steering circuitry steers the mirrored reference current as a first tail current through the first pair when a common mode voltage associated with a differential input voltage exceeds a first reference voltage. A first portion of the mirrored reference current flows from the first current steering circuitry when the common mode voltage is greater than the first reference voltage to produce a second tail current for the second pair. A second portion of the mirrored reference current is fed back to an output of the first current mirror and summed with the reference current so as to reduce the second portion when the common mode voltage is greater than the first reference voltage.
    • 放大器包括第一对和第二对差分耦合输入晶体管。 第一个当前镜像产生参考电流,该参考电流由第二个电流镜反射以产生镜像参考电流。 当与差分输入电压相关联的共模电压超过第一参考电压时,电流转向电路将经镜像参考电流引导为通过第一对的第一尾电流。 当共模电压大于第一参考电压时,镜像参考电流的第一部分从第一电流控制电路流动,以产生第二对的第二尾电流。 镜像参考电流的第二部分被反馈到第一电流镜的输出并与参考电流相加,以便当共模电压大于第一参考电压时减小第二部分。
    • 8. 发明授权
    • Class AB output stage circuit with stable quiescent current
    • AB类输出级电路具有稳定的静态电流
    • US07088182B2
    • 2006-08-08
    • US10819424
    • 2004-04-07
    • Vadim V. Ivanov
    • Vadim V. Ivanov
    • H03F3/26
    • H03F3/347H03F3/21H03F3/3022
    • A class-AB output stage circuit is configured with controllable reference voltages for providing stable quiescent current. An exemplary output stage circuit comprises one or more control circuits, such as feedback loops, configured to control and/or adjust the reference voltages within the class-AB circuit based on the output voltage and/or supply rail voltage levels. In addition, an exemplary output stage circuit can also comprise one or more clamp circuits configured to facilitate operation of the output stage circuit when the output supply is proximate to or exceeds a positive or a negative supply rail.
    • AB类输出级电路配置有可控的参考电压,用于提供稳定的静态电流。 示例性输出级电路包括一个或多个控制电路,例如反馈回路,其被配置为基于输出电压和/或电源电压电平来控制和/或调整AB类电路内的参考电压。 此外,示例性输出级电路还可以包括一个或多个钳位电路,其被配置为当输出电源接近或超过正或负电源轨时便于输出级电路的操作。