One useful application to take advantage of the TMUX1101 and TMUX1102's performance is the sample-and-hold circuit. A sample-and-hold circuit can be useful for an analog to digital converter (ADC) to sample a varying input voltage with improved reliability and stability. It can also be used to store the output samples from a single digital-to-analog converter (DAC) in a multi-output application. A simple sample-and-hold circuit can be realized using an analog switch such as the TMUX1101, and TMUX1102 analog switches. Figure 9-1 shows a single channel sample-and hold circuit using either of the TMUX110x devices.

Figure 9-1 Single Channel Sample-and-Hold Circuit Example

An optional op amp is used before the switch since driving large capacitive loads is a typical limitation of buffered DACs. The additional buffer stage is included following the DAC to prevent potential stability problems from driving a large capacitive load.

Generally, the switch delivers only the input signals to the holding capacitors. However, when the switch is toggled, some amount of charge is transferred to the switch output in the form of charge injection, resulting in a pedestal sampling error. The TMUX1101 and TMUX1102 switches have excellent charge injection performance of only -1.5pC, making them excellent choices for this implementation to minimize sampling error. The pedestal error voltage is indirectly related to the size of the capacitance on the output, for better precision a larger capacitor is required due to charge injection.