The charge-pump (CP) mismatch current is a dominant source of static phase error and reference spur in the nano-meter CMOS PLL implementations due to its worsened channel length modulation effect. This paper presents a charge-pump (CP) mismatch current reduction technique utilizing an adaptive body bias tuning of CP transistors and a zero CP mismatch current tracking PLL architecture for reference spur suppression. A chip prototype of the proposed circuit was implemented in 0.13μm CMOS technology. The frequency synthesizer consumes 8.2mA current from a 1.3V supply voltage and achieves a phase noise of −96.01dBc/Hz @ 1MHz offset from a 2.4GHz RF carrier. The charge-pump measurements using the proposed calibration technique exhibited a mismatch current of less than 0.3μA (0.55%) over the VCO control voltage range of 0.3–1.0V. The closed loop measurements show a minimized static phase error of within ±70ps and a ≃9dB reduction in reference spur level across the PLL output frequency range 2.4–2.5GHz. The presented CP calibration technique compensates for the DC current mismatch and the mismatch due to channel length modulation effect and therefore improves the performance of CP-PLLs in nano-meter CMOS implementations.