This thesis proposes a circuit to measure the substrate noise. This circuit cooperates with a PVT (Process, Voltage, Temperature), and a noise monitoring circuit to make a SoC (System on Chip) operates at its optimal operating point. For the substrate noise measurement, instead of measuring the noise amplitude, we measure the timing jitter of the circuit caused by the substrate noise. It determines the degree that the circuit is affected by the noise. The noise is coupled into the substrate from a voltage-control oscillator and absorbed by an inverter chain. The noise is transformed into timing jitter and detected by circuit This circuit also includes a verification circuit, made up of a PRBS, a digital circuit, and a MISR. A ring oscillator is designed to have the same combinational depth as that of the digital circuit to detect the current PVT status. According to the results of the noise measurement and PVT corner, we use dynamic frequency scaling to decide the optimal working condition for the circuit. This chip is implemented in TSMC 0.18um RF CMOS process. In a 1.8V power supply, the jitter measurement circuit consumes 14.7mV, and the total power consumption is 26mW.