Peak has developed proprietary semiconductor technology in which a single-ide bandwidth amplifier may replace multiple high-power multiplexer-combined-amplifiers.
Peak已经开发了半导体专利技术,使单一集成电路带宽扩音器代替高功率多路器组合扩音器成为可能。
This paper discusses an useful method by which the multiple nodes circuit composed of the operational amplifier is described using admittance matrix.
本文讨论用导纳矩阵描述多节点运算放大器电路的有用方法。
Dual subwoofer outputs allow multiple woofers to be connected to the same amplifier without having to resort to pigtails, wire nuts, or specialized connectors.
双重低音炮输出可使多个低音扬声器连接到同一个扩音器上,而不需要依靠抽头、接线螺帽或专用连接器。
Some new voltage-mode second-order filters based on current feedback amplifier are proposed. The major merits of these circuits are multiple filtering function and adjustable parameter.
构造了一些新的基于电流反馈放大器的电压模式双二阶滤波器,多滤波功能和参数可调是这些电路的主要优点。
With the WDM (wavelength Division Multiplexing) technology based on EDFA (Erbium Doped fiber Amplifier) developing, it is possible to use multiple wavelengths to transmit over the same optical fiber.
基于掺铒光纤放大器(EDFA)的波分复用技术(WDM)的出现,使得在同一根光纤中能传输多个波长的光波信号。
The circuit is constructed by a operational amplifier and bipolar transistor current mirrors with multiple outputs.
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 new devices have twice the RF bandwidth of LDMOS, so that one power amplifier (PA) can support multiple operating frequencies.
新的设备具有的LDMOS的射频带宽的两倍,这样,一个功率放大器(PA)的可支持多个工作频率。
Therefore, controlling multiple degrees of tip motion using only one high-voltage amplifier that switches among multiple channels saves cost and space.
因此,只使用一个转换多通道间的高压放大器控制多维尖端运动,可以节省价钱和空间。
This paper describes two CMOS circuit structures of multiple-input operational transconductance amplifier.
提出多输入端运算跨导放大器的两种CMOS电路结构。
The novel interface equipments consist of a strain-amplifier and a programming multiple channel auto-switcher.
新型接口包括有应变放大器和由微机程控的多路自动转换器。
From chapter three to chapter five, the three key components of the system: millimeter-wave phase locked sources, multiple frequency local source, low noise amplifier are designed and tested.
第三章至第五章分别介绍了毫米波锁相源、二倍频本振源和低噪声放大器三个系统关键的单元电路的设计过程和测试结果。
From chapter three to chapter five, the three key components of the system: millimeter-wave phase locked sources, multiple frequency local source, low noise amplifier are designed and tested.
第三章至第五章分别介绍了毫米波锁相源、二倍频本振源和低噪声放大器三个系统关键的单元电路的设计过程和测试结果。
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