Add to ORKGThis paper presents a design of radio frequency amplifier (RFA), which operates at 5.8 GHz frequency for WiMAX application. The RFA designed used T-matching network consisting of lump reactive elements, 3 dB attenuator and microstrip line at the input and output impedance. The RFA developed in this project contribute a gain of 15.6 dB with overall noise figure of 2.4 dB. The overall measured bandwidth measures is 1.240 GHz with S parameters S11, S12 and S22 measured are -12.4 dB, -25.5 dB and -12.3 dB respectively. The RFA used FET transistor EPA018A from Excelics Semiconductor Inc
This paper presents a 5.8 GHz Low Noise Amplifier (LNA) design with cascode and cascaded techniques ...
Amplification is one of the most basic and prevalent microwave analog circuit functions. Wherefore p...
This project presents the cascode and cascaded techniques LNA at 5.8GHz using T-matching network a...
This paper presents a design of radio frequency amplifier (RFA), which operates at 5.8 GHz frequency...
This paper presents a design of radio frequency amplifier (RFA), which operates at 5.8 GHz frequen...
This paper presents a design of radio frequency amplifier (RFA), which operates at 5.8 GHz frequency...
This paper presents the design and fabrication of radio frequency amplifier (RFA), which operates at...
This project presents a design of high gain cascaded low noise amplifier (LNA), which operates at 5....
This paper presents the design of a high gain, low noise direct conversion Radio frequency(RF) front...
This paper presents the Cascode LNA with RF amplifier at 5.8GHz using T-matching network applicable ...
Advancement in the wireless industry, internet access without borders and increasing demand for high...
The bandwidth of the wireless communication has increased due to the various applications of the wir...
This project presents a design of high gain cascaded low noise amplifier (LNA), which operates at 5....
This project presents the low Noise Figure (NF) cascaded Low Noise Amplifier (LNA) at 5.8GHz using T...
In this report, 2.3 – 2.6GHz mobile WiMAX LNA is presented. The WiMAX technology provides up to 3 Mb...
This paper presents a 5.8 GHz Low Noise Amplifier (LNA) design with cascode and cascaded techniques ...
Amplification is one of the most basic and prevalent microwave analog circuit functions. Wherefore p...
This project presents the cascode and cascaded techniques LNA at 5.8GHz using T-matching network a...
This paper presents a design of radio frequency amplifier (RFA), which operates at 5.8 GHz frequency...
This paper presents a design of radio frequency amplifier (RFA), which operates at 5.8 GHz frequen...
This paper presents a design of radio frequency amplifier (RFA), which operates at 5.8 GHz frequency...
This paper presents the design and fabrication of radio frequency amplifier (RFA), which operates at...
This project presents a design of high gain cascaded low noise amplifier (LNA), which operates at 5....
This paper presents the design of a high gain, low noise direct conversion Radio frequency(RF) front...
This paper presents the Cascode LNA with RF amplifier at 5.8GHz using T-matching network applicable ...
Advancement in the wireless industry, internet access without borders and increasing demand for high...
The bandwidth of the wireless communication has increased due to the various applications of the wir...
This project presents a design of high gain cascaded low noise amplifier (LNA), which operates at 5....
This project presents the low Noise Figure (NF) cascaded Low Noise Amplifier (LNA) at 5.8GHz using T...
In this report, 2.3 – 2.6GHz mobile WiMAX LNA is presented. The WiMAX technology provides up to 3 Mb...
This paper presents a 5.8 GHz Low Noise Amplifier (LNA) design with cascode and cascaded techniques ...
Amplification is one of the most basic and prevalent microwave analog circuit functions. Wherefore p...
This project presents the cascode and cascaded techniques LNA at 5.8GHz using T-matching network a...