电流镜电路可被配置为响应于提 供给内部节点的上拉电流将输出节点上拉到输出供电电压。
The current mirror circuit may be configured to pull-up an output node to the output supply voltage in response to the pull-up current provided to the internal node.
同时应用基本电流镜技术实现出结构简单的高精度CMOSMOCCII,并对MOCCII及提出的滤波器电路进行了PSPICE仿真。
Furthermore, CMOS MOCCII circuit with simple structure has been configured using basic current mirror technique. Both proposed MOCCII filters have been verified by PSPICE simulation.
其设计特点是采用了共源共栅电流镜,运放的输出作为驱动的同时还作为自身的偏置电路;其次是采用了带隙温度补偿技术。
The cascade current mirror was used in the circuit, and the output of the OPAMP was used for the bias of itself and to drive the next stage.
该电路由一集成运算放大器及多端输出的双极晶体管电流镜构成。
The circuit is constructed by a operational amplifier and bipolar transistor current mirrors with multiple outputs.
因此,电流镜(100)的每个晶体管限定数字模拟转换电路的步,相邻步之间的比率实质上是常数。
Thus, each transistor of the current mirror (100) defines a step of the digital to analog conversion circuit, and the ratio between adjacent steps is substantially constant.
本文采用射极跟随器、电流镜、非饱和电流开关等高速单元电路设计了一种新颖的BJT模拟开关。
A new design of BJT analog switch using high speed unit such as emitter follower, current mirror and unsaturated current switch is presented.
电路运用带隙温度补偿技术,采用共源共栅电流镜,两级运放输出用于自身偏置电路。
The technology of temperature compensation and cascade current mirror was used, and the output of two stage amplifier was used for the bias of itself.
该方法可以利用跨导线性电路、电流镜、电流传输器、开关电流电路等单元电路来分析常用电子电路。
The method can analyze electronic circuits by using Trans Linear circuits, Current Mirrors, Current Conveyers, Switched Current circuits in common use.
其次对集成电路内所需要的基本模拟及数字电路如有源电阻、电流镜、电压比较器、与门及或门进行了设计和仿真。
Then the all basic-circuits are also designed and simulated carefully including active resister, current mirrors, comparator, inverter, AND gate, OR gate.
该电路主要由可编程电流镜和电流比较器构成,具有结构简单,运算速度快,易于单片集成等优点。
Consisting mainly of programmable current mirrors and current comparators, this circuit features simple structure and fast operation.
电路设计采用电流镜、折叠式共源共栅等结构,实现了在峰值电流控制模式中的电流比较功能。
By using the structures such as current mirror, folded-cascode and so on, the function of comparison in peak-value-current-mode-control is realized.
优选地,将转换电路实现为电流镜(100),由镜像比限定指数传输函数。
Preferably, the conversion circuit is implemented as a current mirror (100), with the exponential transfer function being defined by the mirror ratio.
优选地,将转换电路实现为电流镜(100),由镜像比限定指数传输函数。
Preferably, the conversion circuit is implemented as a current mirror (100), with the exponential transfer function being defined by the mirror ratio.
应用推荐