SNAS605AS March 2013 – May 2020 LMK04821 , LMK04826 , LMK04828
PRODUCTION DATA.
The dual-loop PLL architecture of the LMK0482x family provides the lowest jitter performance over a wide range of output frequencies and phase-noise integration bandwidths. The first-stage PLL (PLL1) is driven by an external reference clock, and uses an external VCXO or tunable crystal to provide a frequency accurate, low phase-noise reference clock for the second-stage frequency multiplication PLL (PLL2).
PLL1 typically uses a narrow-loop bandwidth (10 Hz to 200 Hz) to retain the frequency accuracy of the reference clock input signal, while at the same time suppressing the higher offset frequency phase noise that the reference clock may have accumulated along its path or from other circuits. This “cleaned” reference clock provides the reference input to PLL2.
The low phase-noise reference provided to PLL2 allows PLL2 to operate with a wide-loop bandwidth (typically 50 kHz to 200 kHz). The loop bandwidth for PLL2 is chosen to take advantage of the superior high-offset frequency phase-noise profile of the internal VCO, and the good low-offset frequency phase noise of the reference VCXO or tunable crystal.
Ultra low jitter is achieved by allowing the external VCXO or crystal phase noise to dominate the final output phase noise at low-offset frequencies, and the internal VCO phase noise to dominate the final output phase noise at high-offset frequencies. This results in best overall phase noise and jitter performance.