Low Noise, High Gain LNA at 5.8GHz with Cascode andCascaded Techniques Using T-Matching Network forWireless Applications

Ibrahim, Abu Bakar

doi:10.7763/ijiee.2011.v1.23

IJIEE

2011

DOI: 10.7763/ijiee.2011.v1.23

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Low Noise, High Gain LNA at 5.8GHz with Cascode andCascaded Techniques Using T-Matching Network forWireless Applications

Abu Bakar Ibrahim¹

Abstract: This project presents a design of low noise, high gain LNA a 5.8 GHz with cascode and cascaded techniques using T-matching network is applicable for IEEE 802.16 standard. The amplifier use FHX76LP Low Noise SuperHEMT FET. The LNA designed used T-matching network consisting of lump element reactive element at the input and the output terminal. The cascode and cascaded low noise amplifier (LNA) produced gain of 36.8dB and noise figure (NF) at 1.3dB. The input reflection (S11) and output return loss (S22) are -11… Show more

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Design and Analysis High Gain PHEMT LNA for Wireless Application at 5.8 GHz

Pongot

Othman

Zakaria

et al. 2015

IJECE

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This research present a design of a higher gain (66.38dB) for PHEMT LNA using an inductive drain feedback technique for wireless application at 5.8GHz. The amplifier it is implemented using PHEMT FHX76LP transistor devices. The designed circuit is simulated with Ansoft Designer SV. The LNA was designed using T-network as a matching technique was used at the input and output terminal, inductive generation to the source and an inductive drain feedback. The low noise amplifier (LNA) using lumped-component provides a noise figure 0.64 dB and a gain (S21) of 68.94 dB. The output reflection (S22), input reflection (S11) and return loss (S12) are -17.37 dB, -15.77 dB and -88.39 dB respectively. The measurement shows the stability was at 4.54 and 3-dB bandwidth of 1.72 GHz. While, the low noise amplifier (LNA) using Murata manufactured component provides a noise figure 0.60 dB and a gain (S21) of 66.38 dB. The output reflection (S22), input reflection (S11) and return loss (S12) are -13.88 dB, -12.41 dB and -89.90 dB respectively. The measurement shows the stability was at 6.81 and 3-dB bandwidth of 1.70 GHz. The input sensitivity more than -80 dBm exceeded the standards required by IEEE 802.16.

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Design and Analysis High Gain PHEMT LNA for Wireless Application at 5.8 GHz

Pongot

Othman

Zakaria

et al. 2015

IJECE

View full text Add to dashboard Cite

show abstract

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Low Noise, High Gain LNA at 5.8GHz with Cascode andCascaded Techniques Using T-Matching Network forWireless Applications

Cited by 1 publication

References 2 publications

Design and Analysis High Gain PHEMT LNA for Wireless Application at 5.8 GHz

Design and Analysis High Gain PHEMT LNA for Wireless Application at 5.8 GHz

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