Single-Chip 3072-Element-Channel Transceiver/ 128-Subarray-Channel 2-D Array IC With Analog RX and All-Digital TX Beamformer for Echocardiography

Abstract

This paper presents a single-chip 3072-element- channel (ECh) transceiver/128-subarray-channel (SCh) 2-D array IC with analog receiver (RX) and all-digital transmitter (TX) beamformer for echocardiography. The proposed IC integrates 3072-ECh transceivers that are composed of a low-power tunable amplitude three-level pulser (TA3LP), zero-power-TX-and-RX- isolation switch (ZTRSW), programmable gain-and-input- impedance low-noise amplifier (PGZLNA), bidirectional dynamically reconfigurable switched-capacitor delayer (BDR- SCD), and 24-ECh-to-1-SCh charge-domain adder (CDADD). It also has 128-SCh low-noise cable buffers (LNCBUFs) and all the related peripheral circuits, including control and interface circuits. It has an all-digital TX architecture with a digital beamformer (TX-DBF) that is free from the waveform distortion and timing error caused by long cable propagation between the main instrument unit and the IC. The TA3LP launches the three-level bipolar signals that are necessary for tissue harmonic imaging (THI). The BDR-SCD can delay 2-bit TX digital signals or an RX analog signal; 24 RX signals in an SCh are coherently delayed using BDR-SCDs, summed in the charge domain with a CDADD without signal headroom concerns, and converted into an SCh signal. The proposed IC is fabricated with a 0.18- µm high-voltage silicon-on-insulator Manuscript received December 21, 2018; revised March 6, 2019 and May 6, 2019; accepted June 4, 2019. Date of publication June 27, 2019; date of cur