一种具有动态零点补偿的电流模DC-DC降压型转换器

To achieve fast transient response for a DC-DC buck converter,an adaptive zero compensation circuit is presented.The compensation resistance is dynamically adjusted according to the different output load conditions, and achieves an adequate system phase margin under the different conditions.An improved capacitor multiplier circuit is adopted to realize the minimized compensation capacitance size.In addition,analysis of the small-signal model shows the correctness of the mechanism of the proposed adaptive zero compensation technique.A currentmode DC-DC buck converter with the proposed structure has been implemented in a 0.35μm CMOS process,and the die size is only 800×1040μm~2.The experimental results show that the transient undershoot/overshoot voltage and the recovery times do not exceed 40 mV and 30μs for a load current variation from 100 mA to 1 A.     

一种QFN24封装的适用于0.5GHz-3GHz应用的4X2矩阵开关

This paper presents a 4×2 switching matrix implemented in the Win 0.5 m Ga As pseudomorphic high electron mobility transistor process, it covers the 0.5–3 GHz frequency range. The switch matrix is composed of 4 SPDT switch whose two output ports can simultaneously select the input port and a 4 to 8 bit digital decoder,both the radio frequency(RF) part and the digital part are integrated into one single chip. The chip is packaged in a low cost QFN24 plastic package. On chip shunt, capacitors at the input ports are taken to compensate for the bonding wire inductance effect. The designed switch matrix shows a good measured performance: the insertion loss is less than 5.5 d B, the isolation is no worse than 30 d B, the return loss of input ports and output ports is better than –10 d B, the input 1 d B compression point is better than 25.6 d Bm, and the OIP3 is better than 37 d Bm. The chip size of the switch matrix is only 1.45×1.45 mm2.     

一种高精度高转换效率的LED驱动电路

基于HHNEC 0.35μm 40 V BCD工艺,采用峰值电流检测模式的脉冲宽度调制方式,设计了一款能在8～42 V的输入电压范围内,-40～125℃的温度范围内正常工作的高转换效率、高输出电流精度的发光二极管(LED)驱动电路,版图面积为925.3μm×826.8μm。利用带负反馈的预稳压电路为基准源电路和线性稳压器提供稳定的工作电压,新颖求和型CMOS基准电流源提供低温漂、高精度的偏置电流,带预抑制电路的基准电压源提供高精度的参考电压,提高了输出电流的精度。仿真结果表明,在典型工艺角TT下,当输入电压为40 V,驱动9个LED,输出电流为400 mA时,该LED驱动电路转换效率为95.8%,输出电流精度为1.75%。     

一种用于高速高精度A/D转换器的时钟稳定电路

设计了一种完全满足高速高精度流水线A/D转换器的时钟稳定电路.通过在延迟环路中加入启动电路,使环路能在小于300 ns内快速锁定占空比,锁定精度为50%±1%.拥有20%～80%的占空比输入,且能很好地抑制外部时钟抖动,时钟抖动小于100 fs.电路采用0.35 μm工艺制作,芯片面积为0.5 mm×0.3 mm,在3.3 V电源电压下,功耗小于78 mW.     

一种用于高速高精度A/D转换器的自举采样电路

介绍了一种新型的CMOS自举采样电路。该电路适用于12位100 MHz采样频率的A/D转换器。采用P型栅压自举开关补偿技术,可以有效地克服采样管导通电阻变化引入的非线性失真,提高采样精度。仿真结果表明,采样时钟频率为100 MHz时,输入10 MHz信号,可得信噪失真比(SNDR)为102 dB,无杂散动态范围(SFDR)为103 dB。信号频率达到采样频率时,仍有超过85 dB的SNDR和87 dB的SFDR,满足高速高精度流水线A/D转换器对采样开关线性度和输入带宽的要求。电路采用SMIC 0.18μm CMOS数模混合工艺库实现,电源电压为1.8 V。     

一种用于高速高精度A/D转换器的时钟自举电路

设计了一种双电容结构时钟自举电路,分析了电路工作原理,用Cadence Spectre仿真器和0.35μm CMOS PDK进行电路前仿真和后仿真.仿真结果表明,设计的双电容结构时钟自举电路能使采样电路线性度达到110dB以上,该电路已用于16位A/D转换器的设计并流片.经测试,采用该结构的16位A/D转换器的SFDR为96.25dB(FS),信噪比为76.45dB(FS).     

一种用于LCD驱动的电荷泵电路

基于GSMC0.18μm±9VCMOS三阱工艺,设计了一种用于LCD驱动的正、负压电荷泵电路。该电荷泵采用共享耦合电容的结构并,结合了一种新的衬底偏置技术,在较小的面积代价下,可达到较强的驱动能力和较高的效率。测试结果表明,该电荷泵在1mW的输出功率下,效率可达到60%,而电路面积仅为0.51mm2。     

一种集成、高速、高驱动能力PIN开关驱动电路

针对目前微波射频电路中广泛使用的PIN开关要求的高速、高驱动能力的需求,提出了一种以MOSFET驱动器LTC4444为核心器件的驱动电路思路.介绍了将其用于PIN开关驱动电路时加速电路设计方法,该方法基于LTspice仿真技术.然后,通过该仿真技术设计了一款PIN开关驱动,该驱动电路工作电压范围为±5 V,TTL电平控...     

一种用于逐次逼近ADC的高能效高线性度开关电容时序

提出了一种用于逐次逼近模数转换器的高能效高线性度开关电容时序。相较于典型的基于V_CM的开关原理,该开关时序可减少37%的开关能量,并具有更高的线性度。该开关时序已应用于1V,10位300kS/s的SAR ADC,并在0.18μm标准CMOS工艺下成功流片。测试结果表明,在1V电源电压下,此SAR ADC的SNDR为55.48dB,SFDR为66.98dB,功耗为2.13μW,品质因数到达14.66fJ/c-s。DNL和INL分别为0.52/-0.47 LSB和0.72/-0.79 LSB,并且与静态非线性模型一致,最大INL出现在 V_FS/4处和3V_FS/4处。     

一种用于高压开关电源的高精度电流采样电路

设计了一种用于高压Boost电路的电流采样电路。利用SenseFET采样原理,设计了高增益、大带宽的源极输入共源共栅运放,保证了采样电路的高采样精度和快响应速度。设计了延时单元,只在功率管开启时起作用,在功率管关断时无效,保证采样结构在功率管开启时不偏离工作点,并能消除此时的采样输出电流尖峰。在0.35 μm 40 V BCD工艺下对电路进行仿真验证。结果显示,该采样电路的采样精度可达到99.64%,且采样电流尖峰明显降低。     

基于FPGA的光弹调制器用高压驱动电路设计

为满足光弹调制器对高电压、高稳定和精确易控制的驱动电压需求,设计了一种基于FPGA控制、全桥结构LC谐振升压的高压驱动电路。该电路与传统的光弹调制器驱动控制电路相比,大幅降低了直流电源的电压输入要求,通过DDS调节方波频率来控制光弹调制器工作频率,调节方波占空比来控制输出电压。该电路应用于光弹调制器实验,结果表明在光弹调制器的谐振频率下,外部直流电压为5 V时,方波占空比范围为0~50%,对应电压峰-峰值可调节范围为0~840 V。电路具有稳定可靠、操控方便、带负载能力较强等优点,能够实现光弹调制器驱动电压实时精确的控制。     

大功率数码管驱动电路的优化设计

对大功率数码管（LED）的功耗进行了分析和计算,指出大功率LED不能简单地用七段译码器进行驱动,而必须进行专门设计。以5英寸数码管为例,对其译码驱动电路进行了对比研究,指出在各种驱动电路中,基于数字芯片MC1413的驱动电路是最优设计。设计了实验电路,实验结果验证了理论分析的正确性和所提出方法的可行性。     

电流模降压变换器抗干扰电流采样电路设计

A novel anti-jamming integrated CMOS current-sensing circuit for current-mode buck regulators is presented. Based on the widely-used traditional current-sensing structure, anti-jamming performance is improved significantly by adding on-chip capacitors and one-shot circuit. Also the transient response is faster through the introduction of current offset. The circuit is concise, simple to implement and suits for SoC applications with single power supply. A dualoutput current-mode DC-DC buck converter with proposed structure has been fabricated with a 0.5 μm CMOS process for validation. In the 2.5–5.5 V input range, the two channels work steadily in the load current range of 0–600 mA. And the measured maximum efficiency is up to 96%.     

Design of anti-jamming current-sensing circuit for current-mode buck regulator

A novel anti-jamming integrated CMOS current-sensing circuit for current-mode buck regulators is presented.Based on the widely-used traditional current-sensing structure,anti-jamming performance is improved significantly by adding on-chip capacitors and one-shot circuit.Also the transient response is faster through the introduction of current offset.The circuit iS concise,simple to implement and suits for SoC applications with single power supply.A dual-output current-mode DC-DC buck converter with proposed structure has been fabricated with a 0.5μm CMOS process for validation.In the 2.5-5.5 V input range,the two channels work steadily in the load current range of 0-600 mA.And the measured maximum efficiency is up to 96%.     

高功放高压联锁电路改进与测试

高压联锁性能的好坏直接影响设备能否正常工作。通过分析CPI高功放（HPA）的延时加高压程序、高压联锁电路和交流延时器工作原理,研究出一种新改进的高压联锁电路方案和用于交流延时器的测试方法。分析阐述表明,该方案和测试方法克服了CPI高功放的高压联锁方案的弊端。另外,根据分析结果设计了延时测试电路,它可对交流延时器性能参数进行定量测试。     

红外焦平面读出电路片上驱动电路设计

线列红外焦平面读出电路在正常工作时需要提供多路数字脉冲和多路直流偏置电压。本文基于0.5 μm CMOS工艺设计了一款驱动电路芯片,为电容负反馈放大型（CTIA）读出电路（ROIC）提供驱动信号。电路芯片采用带隙基准电路产生低噪声低温漂的直流偏置电压,采用数字逻辑电路生成CLK1,CLK2,RESET等八路数字脉冲。仿真及测试结果表明：驱动电路芯片输出的数字脉冲及偏置电压符合设计值,可驱动CTIA型线列红外焦平面读出电路稳定工作。     

基于ADP3806的高功率LED驱动电路设计

设计了一种基于ADP3806的高功率发光二极管(LED)的高效驱动电路。ADP3806是一款开关模式电源控制器,拥有双环路恒定电压和恒定电流控制、远程精确电流检测以及关断和可编程可同步开关频率,能提供恒定电流。同时在设计中利用单端原边电感转换器(SEPIC),其可以提供一种可以高于或低于输入电压的输出电压,在适当的占空比下工作,使连续传导模式(CCM)和脉冲宽度调制(PWM)控制变得简单,提高了效率,并且避免由变压器泄漏电感带来的电压尖峰和振铃。从而在需要进行升压和降压转换来同时驱动多个高功率LED的场合,这个设计是非常适合的。     

高压真空断路器智能在线监测系统的研制

设计一种基于DSP和LabVIEW的高压真空断路器智能在线监测系统。传感器与下位机构成系统现场监测模块,安装于断路器本体。下位机硬件平台以TMS320F2812型DSP为核心实现断路器行程、分合闸电流和振动等信号的采集和处理,并通过CAN总线将数据传送至上位机（采用LabVIEW软件）,从而实现数据的存储和显示。     

等离子体显示器低功耗高对比度驱动电路的研究

详细分析了常用于三电极交流型表面放电等离子体显示屏（AC-PDP）的寻址和显示分离（ADS）的驱动方法及其物理过程，并根据其放电原理对常规的驱动波形进行了改进。实验结果表明，改进的驱动波形简化了PDP的驱动电路，降低了对驱动集成电路耐压的要求，减少了驱动电路的功耗和成本，提高了显示的对比度。     

A novel high voltage start up circuit for an integrated switched mode power supply

A novel high voltage start up circuit for providing an initial bias voltage to an integrated switched mode power supply(SMPS) is presented.An enhanced mode VDMOS transistor,the gate of which is biased by a floating pisland, is used to provide start up current and sustain high voltage.An NMOS transistor having a high source to ground breakdown voltage is included to extend the bias voltage range to the SMPS.Simulation results indicate that the high voltage start up circuit can start and restart as designe...