2–18 GHz wide band co-design integrated LNA with active antenna for mobile communication technologies

“…LNA FOR CO-DESIGN STRATEGY 1) Technology choice: Miniaturization of the devices is today one of the main requirements for the design. That is why monolithic microwave integrated circuits (MMIC) process are most interesting for the co-design [4]- [7], while at low frequencies e.g. L and S bands printed-circuit-board (PCB) technologies are used to design both antenna and amplifier on a single substrate.…”

“…That means that the noise factor becomes proportional to 1/G m [22], where G m is the For a multi-stage amplifier, several transistor configurations can be combined to achieve the optimal overall design. For example, [7] presents a cascaded CG-CS LNA for co-design purposes. This type of amplifier allows getting wide band matching and dual-band gain by the first cascade and improves gain flatness performance because of the second cascade.…”

Low-Noise Amplifier-Antenna Co-Design Overview

“…LNA FOR CO-DESIGN STRATEGY 1) Technology choice: Miniaturization of the devices is today one of the main requirements for the design. That is why monolithic microwave integrated circuits (MMIC) process are most interesting for the co-design [4]- [7], while at low frequencies e.g. L and S bands printed-circuit-board (PCB) technologies are used to design both antenna and amplifier on a single substrate.…”

“…That means that the noise factor becomes proportional to 1/G m [22], where G m is the For a multi-stage amplifier, several transistor configurations can be combined to achieve the optimal overall design. For example, [7] presents a cascaded CG-CS LNA for co-design purposes. This type of amplifier allows getting wide band matching and dual-band gain by the first cascade and improves gain flatness performance because of the second cascade.…”

Low-Noise Amplifier-Antenna Co-Design Overview