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This work is about the development of a super low noise amplifier with minimum power consumption and high gain for several wireless applications.The amplifier operates at frequency bands of 0.9-2.4 GHz and can be used in many applications like Wireless local area network(WLAN),WiFi,Bluetooth,ZigBee and Global System for mobile communications(GSM).This new design can be employed for the IEEE 802.15.4 standard in industrial,scientific and medical(ISM) Band.The enhancement mode pseudomorphic high electron mobility transistor PHEMT is used here due to its high linearity,better performance and less noisy operation.The common source inductive degeneration method is employed here to enhance the gain of amplifier.The amplifier produces a gain of more than 17 dB and noise figure of about 0.5 dB.The lower values of S11 and S22 reflect the accuracy of impedance matching network placed at the input and output sides of amplifier.Agilent Advance Design System(ADS) is used for the design and simulation purpose.Further the layout of design is developed on the FR4 substrate.
This work is about the development of a super low noise amplifier with minimum power consumption and high gain for several wireless applications. The amplifier operates at frequency bands of 0.9-2.4 GHz and can be used in many applications like Wireless local area network (WLAN) , WiFi, Bluetooth, ZigBee and Global System for mobile communications (GSM). This new design can be employed for the IEEE 802.15.4 standard in industrial, scientific and medical (ISM) Band. The enhancement mode pseudomorphic high electron mobility transistor PHEMT is used here due to its high linearity, better performance and less noisy operation. The common source inductive degeneration method is employed to enhance the gain of the amplifier. The amplifier produces a gain of more than 17 dB and noise figure of about 0.5 dB. lower values of S11 and S22 reflect the accuracy of impedance matching network placed at the input and output sides of amplifier. Agilent Advance Design System (ADS) is used for the design and simulati on purpose. Future layout of design is developed on the FR4 substrate.