| 1. | Low noise amplifier ( lna ) is a key component in the front - end of rf transceiver 低噪声放大器( lna )是无线收发机前端的关键电路之一。 |
| 2. | S - band mini microstrip low noise amplifier ( lna ) is designed and discussed 摘要对具有极低噪声系数的超小型微带放大器进行了设计和讨论。 |
| 3. | A low noise amplifier ( lna ) and a mixer realized in standard digital cmos technology are presented in this thesis 本文设计了基于标准的数字cmos工艺的低噪声放大器和混频器。 |
| 4. | As a key component of rf front - end , broadband low noise amplifier ( lna ) becomes important in the sdr receiver 宽带低噪声放大器作为接收机射频前端的关键部件之一,在软件无线电中起着重要的作用。 |
| 5. | In this thesis , the noise and nonlinearity performance of cmos low noise amplifiers ( lna ) and gilbert mixers are studied systematically 本文系统地分析了cmos低噪声放大器和混频器中的噪声和非线性性能。 |
| 6. | So , we designed a fully integrated low noise amplifier ( lna ) for 2 . 4ghz rf front - end receiver on satellite 针对此,本论文完成了一个2 . 4ghz卫星射频前端接收电路的全集成差分cmos低噪声放大器( lownoiseamplifier )的设计。 |
| 7. | And , the other part of the transceiver , low noise amplifier ( lna ) is a next one under a antenna as the first part of signal procession 同时,接收机的另一部分,低噪声放大器在接收机部分是天线下面的第一级信号处理部分。 |
| 8. | Rapid growth of wireless data communications has increased the demand for high performance rf & microwave circuits , such as microwave low noise amplifiers ( lna ) 快速发展的无线通信对微波射频电路如低噪声放大器提出更高的性能。 |
| 9. | The full noise and linearity analysis of the low noise amplifier ( lna ) constructed by cascode structure with source degeneration and the optimization methods of the two mosfets in this structure according to the noise and linearity performance I对共源共栅瞩ascode )源极去耦旧ourcedegeneration )结构低噪放做了完整的噪声和线性分析,得到该结构中两个mosfet针对噪声性能和线性性能的优化方法。 |
| 10. | Secondly , a method which can prejudge the gain and noise figure of the low noise amplifier ( lna ) is put forward . with this method , we can prejudge the feasibility of lna design once the s - parameter and noise parameter of the device are gained . the design process is considerably simplified compared with traditional methods 随后对低噪声放大器进行了探讨,提出了一种可预测增益和噪声系数的方法,只要知道器件的s参数和噪声参数,就能对放大器设计的可行性进行预测,相对于传统作法,设计过程得到了大大简化。 |