Add to ORKGA 24-GHz +14.5-dBm fully integrated power amplifier with on-chip 50-[ohm] input and output matching is demonstrated in 0.18-μm CMOS. The use of substrate-shielded coplanar waveguide structures for matching networks results in low passive loss and small die size. Simple circuit techniques based on stability criteria derived result in an unconditionally stable amplifier. The power amplifier achieves a power gain of 7 dB and a maximum single-ended output power of +14.5-dBm with a 3-dB bandwidth of 3.1 GHz, while drawing 100 mA from a 2.8-V supply. The chip area is 1.26 mm^2
A mask programmable technology to implement RF and microwave integrated circuits using an array of s...
Silicon offers a new set of possibilities and challenges for RF, microwave, and millimeter-wave appl...
A mask programmable technology to implement RF and microwave integrated circuits using an array of s...
A 24-GHz +14.5-dBm fully integrated power amplifier with on-chip 50-[ohm] input and output matching ...
A 24 GHz, +14.5 dBm fully-integrated power amplifier with 50 Ω input and output matching is fabricat...
A 24 GHz, +14.5 dBm fully-integrated power amplifier with 50 Ω input and output matching is fabricat...
This paper presents the first fully integrated 24-GHz phased-array transmitter designed using 0.18-/...
This paper demonstrated the first 2-stage, 2.8W, 1.8V, 1.9GHz fully-integrated DAT power amplifier w...
A 77-GHz, +17.5 dBm power amplifier (PA) with fully integrated 50-Ω input and output matching and fa...
A 77-GHz, +17.5 dBm power amplifier (PA) with fully integrated 50-Ω input and output matching and fa...
While the RF building blocks of narrowband system-on-chip designs have increasingly been created in...
This dissertation focuses on the design of CMOS power amplifiers for modern wireless handsets, where...
A mask programmable technology to implement RF and microwave integrated circuits using an array of s...
A mask programmable technology to implement RF and microwave integrated circuits using an array of s...
This paper presents a 160-GHz fully-differential power amplifier in 40-nm CMOS. A tapered gate-conne...
A mask programmable technology to implement RF and microwave integrated circuits using an array of s...
Silicon offers a new set of possibilities and challenges for RF, microwave, and millimeter-wave appl...
A mask programmable technology to implement RF and microwave integrated circuits using an array of s...
A 24-GHz +14.5-dBm fully integrated power amplifier with on-chip 50-[ohm] input and output matching ...
A 24 GHz, +14.5 dBm fully-integrated power amplifier with 50 Ω input and output matching is fabricat...
A 24 GHz, +14.5 dBm fully-integrated power amplifier with 50 Ω input and output matching is fabricat...
This paper presents the first fully integrated 24-GHz phased-array transmitter designed using 0.18-/...
This paper demonstrated the first 2-stage, 2.8W, 1.8V, 1.9GHz fully-integrated DAT power amplifier w...
A 77-GHz, +17.5 dBm power amplifier (PA) with fully integrated 50-Ω input and output matching and fa...
A 77-GHz, +17.5 dBm power amplifier (PA) with fully integrated 50-Ω input and output matching and fa...
While the RF building blocks of narrowband system-on-chip designs have increasingly been created in...
This dissertation focuses on the design of CMOS power amplifiers for modern wireless handsets, where...
A mask programmable technology to implement RF and microwave integrated circuits using an array of s...
A mask programmable technology to implement RF and microwave integrated circuits using an array of s...
This paper presents a 160-GHz fully-differential power amplifier in 40-nm CMOS. A tapered gate-conne...
A mask programmable technology to implement RF and microwave integrated circuits using an array of s...
Silicon offers a new set of possibilities and challenges for RF, microwave, and millimeter-wave appl...
A mask programmable technology to implement RF and microwave integrated circuits using an array of s...