All-Digital Quadrature Detection With TAD for Radio-Controlled Clocks/Watches

Time analog-to-digital converters (TADs) based on the power-supply voltage dependence of CMOS gate propagation delay time can be constructed solely of CMOS digital circuits and are characterized by output of the time integral of input voltage, with no dead time. This paper describes digital quadrature detection (DQD) by TAD (TAD-DQD). With TAD-DQD, the in-phase and quadrature components of the input signal, including amplitude and phase information, can be obtained simply by adding and subtracting AD-converted TAD output using a sampling frequency that is four times the carrier frequency of the target signal. As an example of the application of TAD-DQD, the standard-time and frequency-signal receiver circuits of a radio-controlled clock/watch are shown, and the experimental results demonstrate that the time code can in fact be received.