A 9 bit 11 GS/s DAC is presented that achieves an SFDR of more than 50 dB across Nyquist and IM3 below 50 dBc across Nyquist. The DAC uses a two-times interleaved architecture to suppress spurs that typically limit DAC performance. Despite requiring two current-steering DACs for the interleaved architecture, the relative low demands on performance of these sub-DACs imply that they can be implemented in an area and power efficient way. Together with a quad-switching architecture to decrease demands on the power supply and bias generation and employing the multiplexer switches in triode, the total core area is only 0.04 mm2 while consuming 110 mW from a single 1.0 V supply
A return-to-zero (RZ) digital-to-analog converter (DAC) with a tri-state switching scheme is propose...
Advances in high-speed DAC implemented in deeply scaled-CMOS processes open up the possibility of di...
Abstract – The architecture for very-high speed DAC with medium oversampling and high resolution is ...
A 9 bit 11 GS/s DAC is presented that achieves an SFDR of more than 50 dB across Nyquist and IM3 bel...
A two-times interleaved DAC using only a single supply voltage in a standard 65nm CMOS technology is...
A 9-bit 11GS/s current-steering (CS) digital-to-analog converter (DAC) is designed in 28nm FDSOI. Th...
This thesis is on power efficient very high-speed digital-to-analog converters (DACs) in CMOS techno...
High-speed digital-to-analog converter (DAC) is key component in instrument and automatic test equip...
A novel interpolation scheme to extend usable spectrum and upconvert in high performance D/A convert...
A CMOS current steering 12b 500MS/s 216mW DAC without any additional circuitry to remove errors intr...
A CMOS current steering 12b 500MS/s 216mW DAC without any additional circuitry to remove errors intr...
Communication devices such as 60GHz-band receivers and serial links demand power-efficient low-resol...
This paper presents a six-bit current-steering digital-to-analogue converter (DAC), which optimises ...
This paper presents a 14b 2GS/s DAC in 0.18 μm BiCMOS. In order to improve the linearity and dynamic...
CMOS digital-to-analog converter (DAC) for high-speed communication system applications. The propose...
A return-to-zero (RZ) digital-to-analog converter (DAC) with a tri-state switching scheme is propose...
Advances in high-speed DAC implemented in deeply scaled-CMOS processes open up the possibility of di...
Abstract – The architecture for very-high speed DAC with medium oversampling and high resolution is ...
A 9 bit 11 GS/s DAC is presented that achieves an SFDR of more than 50 dB across Nyquist and IM3 bel...
A two-times interleaved DAC using only a single supply voltage in a standard 65nm CMOS technology is...
A 9-bit 11GS/s current-steering (CS) digital-to-analog converter (DAC) is designed in 28nm FDSOI. Th...
This thesis is on power efficient very high-speed digital-to-analog converters (DACs) in CMOS techno...
High-speed digital-to-analog converter (DAC) is key component in instrument and automatic test equip...
A novel interpolation scheme to extend usable spectrum and upconvert in high performance D/A convert...
A CMOS current steering 12b 500MS/s 216mW DAC without any additional circuitry to remove errors intr...
A CMOS current steering 12b 500MS/s 216mW DAC without any additional circuitry to remove errors intr...
Communication devices such as 60GHz-band receivers and serial links demand power-efficient low-resol...
This paper presents a six-bit current-steering digital-to-analogue converter (DAC), which optimises ...
This paper presents a 14b 2GS/s DAC in 0.18 μm BiCMOS. In order to improve the linearity and dynamic...
CMOS digital-to-analog converter (DAC) for high-speed communication system applications. The propose...
A return-to-zero (RZ) digital-to-analog converter (DAC) with a tri-state switching scheme is propose...
Advances in high-speed DAC implemented in deeply scaled-CMOS processes open up the possibility of di...
Abstract – The architecture for very-high speed DAC with medium oversampling and high resolution is ...