A high-speed high-accuracy fully differenttial operational amplifier (op-amp) is realized based on no-Miller-capacitor feedforward (NMCF) compensation scheme. In order to achieve a good phase margin, the NMCF comp...A high-speed high-accuracy fully differenttial operational amplifier (op-amp) is realized based on no-Miller-capacitor feedforward (NMCF) compensation scheme. In order to achieve a good phase margin, the NMCF compensation scheme uses the positive phase shift of left-half-plane (LHP) zero caused by the feedforvvard path to counteract the negative phase shift of the non-dominant pole. Compared to traditional Miller compensation method, the op-amp obtains high gain and wide band synchronously without the pole-splitting effect while saves significant chip area due to the absence of the Miller capacitor. Simulated by the 0.35 μm CMOS RF technology, the result shows that the open-loop gain of the op-amp is 118 dB with the unity gain-bandwidth (UGBW) of 1 GHz, and the phase margin is 61°while the settling time is 5.8 ns when achieving 0.01% accuracy. The op-amp is especially suitable for the front-end sample/hold (S/H) cell and the multiplying D/A converter (MDAC) module of the high-speed high-resolution pipelined A/D converters (AVCs).展开更多
由于线性调节器内部没有开关管产生的交流开关损耗,同时比开关电源具有较低的RFI干扰,因此在现代电源系统中,仍然有它的一席之地。低压降集成线性稳压器即LDO是线性调节器的一种,一般采用P-FET或者PNP作为调整管,导通压降可以小于100 m...由于线性调节器内部没有开关管产生的交流开关损耗,同时比开关电源具有较低的RFI干扰,因此在现代电源系统中,仍然有它的一席之地。低压降集成线性稳压器即LDO是线性调节器的一种,一般采用P-FET或者PNP作为调整管,导通压降可以小于100 m V,效率得到大大提升,在射频、无线、电池供电等领域得到广泛应用,但必须对其做环路补偿,才能稳定工作。首先讨论了内部补偿、前馈电容补偿和输出电容补偿之间的关系,然后给出如何选择输出电容,最后以某输出可调LDO为例做仿真,说明输出电容对LDO稳定性的影响。展开更多
文摘A high-speed high-accuracy fully differenttial operational amplifier (op-amp) is realized based on no-Miller-capacitor feedforward (NMCF) compensation scheme. In order to achieve a good phase margin, the NMCF compensation scheme uses the positive phase shift of left-half-plane (LHP) zero caused by the feedforvvard path to counteract the negative phase shift of the non-dominant pole. Compared to traditional Miller compensation method, the op-amp obtains high gain and wide band synchronously without the pole-splitting effect while saves significant chip area due to the absence of the Miller capacitor. Simulated by the 0.35 μm CMOS RF technology, the result shows that the open-loop gain of the op-amp is 118 dB with the unity gain-bandwidth (UGBW) of 1 GHz, and the phase margin is 61°while the settling time is 5.8 ns when achieving 0.01% accuracy. The op-amp is especially suitable for the front-end sample/hold (S/H) cell and the multiplying D/A converter (MDAC) module of the high-speed high-resolution pipelined A/D converters (AVCs).
文摘通过分析模块化多电平变换器(modular multilevel converter,MMC)各部分之间的功率关系,提出一种MMC综合控制方案,包括直流母线电压控制和桥臂电容电压控制。该方案内环采用桥臂电流直接反馈控制,可实现交流侧电流、直流母线电流和内部环流的三重控制,不需要专门的环流控制器。该方案各桥臂电容电压控制基本相互独立,易于实现分布式控制。提出一种电流前馈控制方案,能有效减小电容电压的动态波动,提高动态响应速度。搭建了10 k VA三相MMC实验样机,实验结果验证了所提控制方案的可行性和有效性,并具有优良的动静态特性。
文摘由于线性调节器内部没有开关管产生的交流开关损耗,同时比开关电源具有较低的RFI干扰,因此在现代电源系统中,仍然有它的一席之地。低压降集成线性稳压器即LDO是线性调节器的一种,一般采用P-FET或者PNP作为调整管,导通压降可以小于100 m V,效率得到大大提升,在射频、无线、电池供电等领域得到广泛应用,但必须对其做环路补偿,才能稳定工作。首先讨论了内部补偿、前馈电容补偿和输出电容补偿之间的关系,然后给出如何选择输出电容,最后以某输出可调LDO为例做仿真,说明输出电容对LDO稳定性的影响。