LAUSR

This paper presents a highly linear BiCMOS sample and hold amplifier (SHA) providing 2.8-GS/s intermediate frequency (IF) sampling for a 1-GHz input bandwidth spanning from 1.5 to 2.5 GHz. A single-transistor hold-mode feedthrough cancellation technique is implemented to remove distortion resulting from the nonlinear parasitic capacitance at the sampling node. The SHA is designed in a mainstream 130-nm BiCMOS technology using SiGe heterojunction bipolar transistors to buffer and sample the wideband input. The proposed SHA enables monolithic integration with a high-speed analog-to-digital converter core to realize a high-performance converter solution. This independent sampling front end occupies a core chip area of 0.6 mm2 and consumes an average power of 1.26 W. The SHA is a pseudo-differential open-loop design that includes two cascaded track-and-hold amplifiers, a high-speed clock driver, and externally adjustable current mirror biases. The high-speed clock drivers and buffers add 170 mW to the total power consumption. The measurements of the fabricated SHA show a 10-bit effective resolution across the 1-GHz IF bandwidth and < −61-dBc HD2 and HD3.