Title :
General-purpose fast-switching PLL IC for frequency synthesis
Author :
Hakkinen, J. ; Kostamovaara, J.
Author_Institution :
Electron. Lab., Oulu Univ., Finland
Abstract :
This paper describes an integrated circuit implementation of the two-pulses speed-up method and proves by measurements, that the method can also be applied to fractional-N type synthesizers. The circuit (2.8×0.3 mm2) containing the speed-up circuitry, a PFD and a charge pump was fabricated in a 12 GHz doublepoly/double-metal BiCMOS process and uses 80 mA from a 5 V supply. The measured phase noise of an example integer-N synthesizer (fout = 1.638 GHz and N = 126) is -102.3 dBc/Hz @ 10 kHz and the level of the 1st spurious at 13 MHz offset from the carrier is -67 dBc. Measurements of the speed-up circuitry show that the current pulse magnitude can be controlled by 7-bits, accuracy of which is mainly limited by switching transients and timing errors. The charge error between two similar current pulses is 0.27%, the result of which can be used to predict the exact settling behavior of the synthesizer.
Keywords :
BiCMOS integrated circuits; frequency synthesizers; phase locked loops; phase noise; 1.638 GHz; 12 GHz; 5 V; 80 mA; PFD; charge error; charge pump; current pulse magnitude; current pulses; double-poly/double-metal BiCMOS process; exact settling behavior; fast-switching PLL IC; fractional-N type synthesizers; frequency synthesis; phase noise; switching transients; timing errors; two-pulses speed-up method; BiCMOS integrated circuits; Charge pumps; Frequency synthesizers; Integrated circuit measurements; Integrated circuit synthesis; Noise measurement; Phase frequency detector; Phase locked loops; Pulse measurements; Velocity measurement;
Conference_Titel :
Circuits and Systems, 2002. MWSCAS-2002. The 2002 45th Midwest Symposium on
Print_ISBN :
0-7803-7523-8
DOI :
10.1109/MWSCAS.2002.1187091
