设计了一种低电压全差动增益增强CMOS运算跨导放大器。
该MAX15058采用了具有高增益跨导误差放大器电流模式控制架构。
提出一种四阶有源滤波器,由运算跨导放大器和电容组成。
跨导级采用了交流耦合互补跨导进一步降低了电源电压。
1·To calculate gain and transconductance, refer to the SENSE pin on fixed voltage parts.
为了计算增益和跨导,指的是部分意义上的固定电压引脚。
2·Using this model, the parameters of HEMT such as channel conductance, transconductance, gate capacitance, and cut-off frequency are derived.
由本文模型还推导出了HEMT沟道电导、跨导、栅电容和截止频率等微波参数表达式。
3·This paper presents a new general design method for arbitrary order operational transconductance amplifiers and capacitors (OTA-C) multifunction filters.
提出了一种新的任意阶运算跨导放大器——电容(OTA - C)多功能滤波器的设计方法。
4·On the basis of analyzing the principle of peak-current-mode-controlled boost converter, a novel transconductance error amplifier with high accuracy and high performance is presented.
在分析峰值电流模式升压转换器原理的基础上,设计了一种结构新颖,高精度高性能跨导误差放大器。
5·Using the approach of twice impedance inversion, a floating capacitance multiplier was built by operational transconductance amplifier (OTA).
利用两次回转方法,由运算跨导放大器(简称OTA)构成浮地电容乘法器。
1·This situation can arise, for example, when a transconductance amplifier feeds an output current i0 to a load resistor RL, but the overall circuit is considered to give a voltage gain VL/Vi.
例如当一个互导放大器提供一输出电流i0到负载电阻RL,而全部网络给出电压增益为VL/Vi时,就可出现这种情况。