Due to a number of desirable operational and design characteristics, CP-PLL's (Charge Pump Phase Locked Loops) have, in recent years become a pervasive PLL architecture. CP-PLL architectures are exploited for a variety of applications such as on chip clock generation, CRC (clock recovery circuits) and radio frequency synthesis applications. This paper describes a simple, digital only, minimally invasive and fully automated test approach for high performance CP-PLL's that can be used to provide more information about the CP-PLL function beyond that obtained through the commonly used FLT (Frequency Lock Test). The test strategy described here allows the estimation of forward path gain and relative leakage in the forward path loop components. ...