A 1.5-V current-mode CMOS sample-and-hold IC with 57-dB S/N at 20 MS/s and 54-dB S/N at 30 MS/s

A new video-speed current-mode CMOS sample-and-hold IC has been developed. It operates with a supply voltage as low as 1.5 V, a signal-to-noise ratio (S/N) of 57 dB and 54 dB with a 1-MHz input signal at clock frequencies of 20 and 30 MHz, and a power dissipation of 2.3 mW. It consists of current-mirror circuits with the node voltages at the input and the output terminals which are kept constant in all phases of the input signal by the use of low-voltage operational amplifiers; this reduces the signal current dependency. The low-voltage operational amplifier consists of a MOS transistor and a constant current source in a common-gate amplifier configuration. Only two analog switches in differential form were used to construct the differential sample-and-hold circuit. This minimizes the error caused by the switch feed through, and thus high accuracy can be realized. Since there is no analog switch in the input path, it is possible to convert the input signal voltage to a current by simply connecting an external resistor. The circuit was fabricated using standard 0.6-μm MOS devices with normal threshold voltages (V_th) of +0.7 V (nMOS) and -0.7 V (pMOS)