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    • 1. 发明授权
    • Background-calibrating pipelined analog-to-digital converter
    • 背景校准流水线模数转换器
    • US06822601B1
    • 2004-11-23
    • US10604458
    • 2003-07-23
    • Hung-Chih LiuJieh-Tsomg WuZwei-Mei Lee
    • Hung-Chih LiuJieh-Tsomg WuZwei-Mei Lee
    • H03M138
    • H03M1/1004H03M1/167
    • A multiplying digital-to-analog converter (MDAC) stage includes a plurality of second capacitances in parallel selectively connected between an input node and an amplifier input and between a corresponding plurality of digital reference signals, which can include a pseudo-random first calibration signal, and the amplifier input. A pipelined ADC incorporating a series of such MDAC stages includes a multiplier connected to the last MDAC stage of the series, a low-pass filter for filtering output of the multiplier and outputting a DC component, and an encoder for receiving output of the MDAC stages and generating a digital output signal and for compensating the digital output signal with the DC component. Background calibration of the ADC includes applying the first calibration signal to a second capacitance of the MDAC stage during a hold phase, and filtering the first calibration signal from the digital output of the pipelined analog-to-digital converter.
    • 倍增的数模转换器(MDAC)级包括多个并联的第二电容,其选择性地连接在输入节点和放大器输入之间以及相应的多个数字参考信号之间,所述数字参考信号可以包括伪随机的第一校准信号 ,和放大器输入。 包含一系列这样的MDAC级的流水线ADC包括连接到该系列的最后MDAC级的乘法器,用于滤波乘法器的输出和输出DC分量的低通滤波器以及用于接收MDAC级的输出的编码器 并产生数字输出信号并用DC补偿数字输出信号。 ADC的背景校准包括在保持阶段将第一校准信号施加到MDAC级的第二电容,以及从流水线模数转换器的数字输出滤波第一校准信号。
    • 2. 发明授权
    • Current output circuit for use in digital-to-analog converter
    • 用于数模转换器的电流输出电路
    • US06624775B1
    • 2003-09-23
    • US10175898
    • 2002-06-21
    • Sheng-Yeh LaiHung-Chih Liu
    • Sheng-Yeh LaiHung-Chih Liu
    • H03M166
    • H03K17/04106
    • A current output circuit for use in a digital-to-analog converter is disclosed. The current output circuit includes a current source for providing a driving current, and a first output circuit coupled with the current source. The first output circuit includes a first metal-oxide semiconductor (MOS) transistor device having a source electrode thereof connected to the current source in series, a first voltage amplifier coupled between the source electrode and a gate electrode of the first MOS transistor device for keeping a voltage of the source electrode substantially constant, and a first controlled switch coupled between an operational voltage and the gate electrode of the first MOS transistor device for being switched ON or OFF in response to a first digital control signal, and allowing the driving current to be outputted from a drain electrode of the MOS transistor device when the first controlled switch is switched ON.
    • 公开了一种用于数模转换器的电流输出电路。 电流输出电路包括用于提供驱动电流的电流源和与电流源耦合的第一输出电路。 第一输出电路包括其源电极串联连接到电流源的第一金属氧化物半导体(MOS)晶体管器件,耦合在源电极和第一MOS晶体管器件的栅电极之间的第一电压放大器,用于保持 源电极的电压基本恒定,以及耦合在第一MOS晶体管器件的工作电压和栅电极之间的第一受控开关,用于响应于第一数字控制信号被接通或断开,并且允许驱动电流 当第一受控开关接通时,从MOS晶体管器件的漏电极输出。
    • 3. 发明授权
    • Low voltage fully differential analog-to-digital converter
    • 低电压全差分模数转换器
    • US06369732B1
    • 2002-04-09
    • US09726331
    • 2000-12-01
    • Hung-Chih LiuWei-Chen Shen
    • Hung-Chih LiuWei-Chen Shen
    • H03M136
    • H03M1/36H03M1/0646H03M1/0682
    • The present invention is to provide a low voltage fully differential analog-to-digital converter. The converter consists of an input stage including a plurality of pre-amplifier differential input cells for producing pre-amplified signals, a successive processing stage for receiving pre-amplified signals from the input stages, and a decoder for output converted signals according to the signals from the successive processing stage. Each differential input cell includes first and second differential pre-amplifiers, a bias impedance, and an averaging impedance branch. The first and second differential pre-amplifiers include two transistors, respectively, and differentially amplify a set of input signals. One terminal of the bias impedance is connected to a high supplied voltage while the other terminal of the bias impedance is connected to the first and second output terminals through respective pieces of load bearing impedance in order to adjust output voltages of first and second output terminals. Moreover, the averaging impedance branch includes an impedance connecting the second output terminal and the first output terminal of an adjacent differential input cell and another impedance connecting the other end of the bias impedance and the other end of the bias impedance of the adjacent differential input cell.
    • 本发明是提供一种低电压全差分模拟 - 数字转换器。 该转换器包括一个输入级,该输入级包括用于产生预放大信号的多个前置放大器差分输入单元,用于接收来自输入级的预放大信号的连续处理级,以及根据该信号输出转换信号的解码器 从连续的处理阶段。 每个差分输入单元包括第一和第二差分前置放大器,偏置阻抗和平均阻抗分支。 第一和第二差分前置放大器分别包括两个晶体管,差分放大一组输入信号。 偏置阻抗的一个端子连接到高供电电压,而偏置阻抗的另一个端子通过相应的承载阻抗件连接到第一和第二输出端子,以便调节第一和第二输出端子的输出电压。 此外,平均阻抗分支包括连接相邻差分输入单元的第二输出端子和第一输出端子的阻抗,以及连接偏置阻抗的另一端和相邻差分输入单元的偏置阻抗的另一端的另一阻抗 。
    • 5. 发明授权
    • Fully differential double edge triggered flip-flop
    • 全差分双边沿触发触发器
    • US06400199B1
    • 2002-06-04
    • US09835798
    • 2001-04-16
    • Hung-Chih LiuHsian-Feng Liu
    • Hung-Chih LiuHsian-Feng Liu
    • H03K3289
    • H03K3/35625H03K3/356139H03K17/693
    • A fully differential double edge triggered flip-flop stores and outputs first and second fully differential input values on leading and trailing edges of a clock. The flip-flop includes a first fully differential master circuit, a second fully differential master circuit and a fully differential slave circuit. The first master circuit stores the first input value during the period from the leading edge to trailing edge of the clock. The second master circuit stores the second input value during the period from the trailing edge to leading edge of the clock. The slave circuit is electrically connected to outputs of the first and second master circuits. The slave circuit includes a second repeater as an output end of the flip-flop, outputs the first input value on the trailing edge of the clock, and outputs the second input value on the leading edge of the clock.
    • 全差分双边沿触发触发器在时钟的前沿和后沿存储并输出第一和第二全差分输入值。 触发器包括第一全差分主电路,第二全差分主电路和全差分从动电路。 第一主电路在从时钟的前沿到后沿的时段期间存储第一输入值。 第二主电路在从时钟的后沿到前沿的时段期间存储第二输入值。 从电路电连接到第一和第二主电路的输出。 从电路包括作为触发器的输出端的第二中继器,在时钟的后沿输出第一输入值,并在时钟的前沿输出第二输入值。
    • 7. 发明授权
    • Current feedback operational amplifier
    • 电流反馈运算放大器
    • US06492871B2
    • 2002-12-10
    • US09751981
    • 2000-12-29
    • Hung-Chih LiuStanley Liao
    • Hung-Chih LiuStanley Liao
    • H03F345
    • H03F3/45659H03F3/45273
    • The present invention discloses a current feedback operational amplifier, whose input ends are connected to a first amplifier which transmits an output to the gate terminals of at least one input pair of current switches, and the source terminal of one transistor of the input pair of current switches is connected to one of the input ends. Therefore, a negative feedback loop will be established by the first amplifier and the input pair of current switches. By means of the negative feedback loop, the input impedance, offset voltage and gain error are all reduced. The input impedance of the present invention is reduced as 1/1+A times as the original one. Therefore, the aspect ratio of the transistors of the input pair of current switches is reduced.
    • 本发明公开了一种电流反馈运算放大器,其输入端连接到第一放大器,该第一放大器向至少一个输入电流开关对的栅极端子发送输出,并且输入一对电流的一个晶体管的源极端子 开关连接到其中一个输入端。 因此,负反馈回路将由第一放大器和电流开关的输入对建立。 通过负反馈回路,输入阻抗,失调电压和增益误差均降低。 本发明的输入阻抗减少为原来的1/1 + A倍。 因此,输入一对电流开关的晶体管的纵横比减小。