Litcius/Paper detail

16.1 A 12b 18GS/s RF Sampling ADC with an Integrated Wideband Track-and-Hold Amplifier and Background Calibration

Ahmed Ali, Huseyin Dinc, Paritosh Bhoraskar, Scott Bardsley, Chris Dillon, Mohit Kumar, Matthew McShea, Ryan Bunch, Joel Prabhakar, Scott Puckett

202043 citationsDOI

Abstract

High sample rate ADCs with high input bandwidth and low power consumption enable direct RF sampling, more integration, flexibility and lower cost for communication, instrumentation and other applications. The state of the art of interleaved RF converters enables up to 10GS/s with 12-14b of resolution [1]-[4]. However, to increase the sample rate, the number of interleaved sub-ADCs tends to increase, which degrades the interleaving spurs due to sampling time and bandwidth mismatch, increases the input capacitance, reduces the input bandwidth, and increases the power consumption of the ADC. Randomization of the interleaved sub-ADCs helps alleviate the impact of the interleaving spurs, but that degrades the noise and increases power consumption in a manner that gets progressively worse as the input frequency and number of interleaved sub-ADCs increase [1].

Topics & Concepts

WidebandInterleavingBandwidth (computing)Electronic engineeringConvertersComputer scienceJitterAmplifierSampling (signal processing)Radio frequencyDetectorElectrical engineeringEngineeringTelecommunicationsVoltageAnalog and Mixed-Signal Circuit DesignRadio Frequency Integrated Circuit DesignAdvancements in Semiconductor Devices and Circuit Design