Add to ORKGIn this paper, a new technique is presented to increase the bandwidth for a single stage amplifier. Usually, -3 dB bandwidth of single stage amplifier is in few MHz. High output impedance and subsequent capacitive loading decrease the bandwidth of amplifier. The presented technique uses a load which itself acts as bandwidth enhancer. This high speed amplifier is designed on 180 nm CMOS technology, operates at 2.5 V power supply. This amplifier is succeeded by an output buffer to achieve a better linearity, high output swing and required output impedance for matching
An optimal design procedure to achieve minimum power consump-tion for a given technology and gain ba...
The article discusses the use of bandwidth to improve single-stage distributed amplifier with the us...
Emerging applications in D-band (110-170GHz) demand amplifiers with high gain-bandwidth (GBW) produc...
In this paper, a new technique is presented to increase the bandwidth for a single stage amplifier. ...
We propose a novel bandwidth expansion technique for cascode amplifiers, that exploits positive capa...
Abstract—A new technique for designing uniform multistage amplifiers (MAs) for high-frequency applic...
Abstract—In this paper, a novel bandwidth enhancement tech-nique based on the combination of capacit...
To overcome limitations on bandwidth extension in conventional design techniques, a novel pole-conve...
This paper presents a low power, high slew rate, high gain, ultra wide band two stage CMOS cascode o...
A new technique for designing wideband multistage amplifiers (MA) is introduced. The proposed method...
This paper presents a highly adaptive operational amplifier with high gain, high bandwidth, high spe...
A new technique for bandwidth enhancement of amplifiers is developed. Adding several passive network...
This paper presents a new concept to reduce high-frequency power compression in broadband power ampl...
In this paper, a novel bandwidth enhancement technique based on the combination of capacitive degene...
An area-efficient cross feedforward cascode compensation (CFCC) technique is presented for a three-s...
An optimal design procedure to achieve minimum power consump-tion for a given technology and gain ba...
The article discusses the use of bandwidth to improve single-stage distributed amplifier with the us...
Emerging applications in D-band (110-170GHz) demand amplifiers with high gain-bandwidth (GBW) produc...
In this paper, a new technique is presented to increase the bandwidth for a single stage amplifier. ...
We propose a novel bandwidth expansion technique for cascode amplifiers, that exploits positive capa...
Abstract—A new technique for designing uniform multistage amplifiers (MAs) for high-frequency applic...
Abstract—In this paper, a novel bandwidth enhancement tech-nique based on the combination of capacit...
To overcome limitations on bandwidth extension in conventional design techniques, a novel pole-conve...
This paper presents a low power, high slew rate, high gain, ultra wide band two stage CMOS cascode o...
A new technique for designing wideband multistage amplifiers (MA) is introduced. The proposed method...
This paper presents a highly adaptive operational amplifier with high gain, high bandwidth, high spe...
A new technique for bandwidth enhancement of amplifiers is developed. Adding several passive network...
This paper presents a new concept to reduce high-frequency power compression in broadband power ampl...
In this paper, a novel bandwidth enhancement technique based on the combination of capacitive degene...
An area-efficient cross feedforward cascode compensation (CFCC) technique is presented for a three-s...
An optimal design procedure to achieve minimum power consump-tion for a given technology and gain ba...
The article discusses the use of bandwidth to improve single-stage distributed amplifier with the us...
Emerging applications in D-band (110-170GHz) demand amplifiers with high gain-bandwidth (GBW) produc...