Title :
A 2.7-V 300-MS/s track-and-hold amplifier
Author :
Karanicolas, Andrew N.
Author_Institution :
AT&T Bell Labs., Holmdel, NJ, USA
fDate :
12/1/1997 12:00:00 AM
Abstract :
A fully differential bipolar track-and-hold amplifier (THA) employs an open-loop linearization technique compatible with low supply voltage. A feedthrough reduction method utilizes the junction capacitance of a replica switch to provide a close match to the junction capacitance of the main switch. The differential full-scale (FS) input range is 0.5 V. In the track mode, with fin=10 MHz, FS sinewave input, the measured total harmonic distortion (THD) is less than -72 dB. With fs=300 MS/s and fin=10-50 MHz, FS sinewave input, the measured THD is less than -65 dB. This THD measurement reflects the held values as well as the tracking components of the output waveform. With fs<10 MS/s and fin=10-50 MHz, FS sinewave input, the measured feedthrough is less than -60 dB. The hold capacitance is 2.5 pF and the differential droop rate is 16 mV/μs. The THA consumes 32 mW from a 2.7-V power supply and is fabricated in a 0.5-μm, 18-GHz BiCMOS process
Keywords :
BiCMOS analogue integrated circuits; analogue processing circuits; analogue-digital conversion; differential amplifiers; harmonic distortion; integrated circuit measurement; linearisation techniques; sample and hold circuits; sampled data circuits; sensitivity analysis; signal sampling; 0.5 mum; 10 to 50 MHz; 18 GHz; 2.5 pF; 2.7 V; 32 mW; ADC; BiCMOS process; differential droop rate; differential full-scale input range; feedthrough reduction method; fully differential bipolar track-and-hold amplifier; hold capacitance; junction capacitance; low supply voltage; open-loop linearization technique; sensitivity analysis; total harmonic distortion; track mode; Analog integrated circuits; Capacitance; Differential amplifiers; Digital signal processing; Diodes; Distortion measurement; Low voltage; Power supplies; Signal processing algorithms; Switches;
Journal_Title :
Solid-State Circuits, IEEE Journal of
