Title :
A 10-GHz SiGe BiCMOS phase-locked-loop frequency synthesizer
Author :
Klepser, Bernd-Ulrich H. ; Scholz, Markus ; Götz, Edmund
Author_Institution :
Infineon Technol., Munich, Germany
fDate :
3/1/2002 12:00:00 AM
Abstract :
A SiGe BiCMOS phase-locked-loop (ILL) circuit is presented. A maximum operational frequency of 10 GHz and a current consumption of 7.6 mA, i.e., 17 mW, is demonstrated. For a 9-mW low-power version, a maximum frequency of 4.7 GHz is determined. In a GSM direct conversion application, an in-band phase noise of -79 dBc/Hz at 2 kHz and a spurious suppression of -75 dBc at 400 kHz was measured at 3.4 GHz, which corresponds to a PLL phase noise floor of -214 dBc/Hz. For low-power applications, the PLL can be operated at supply voltages as low as 2.2 V and at RF input powers as low as -20 dBm while having a large output voltage range of 0.2 V to (Vcc-0.3 V). This demonstrates the speed and power advantage of the SiGe BiCMOS over Si BiCMOS and CMOS technologies for wireless communications
Keywords :
BiCMOS integrated circuits; Ge-Si alloys; cellular radio; frequency synthesizers; integrated circuit noise; low-power electronics; phase locked loops; phase noise; semiconductor materials; 10 GHz; 17 mW; 2.2 V; 3.4 GHz; 4.7 GHz; 7.6 mA; 9 mW; GSM direct conversion; RF input power; SiGe; SiGe BiCMOS phase-locked-loop circuit; frequency synthesizer; low-power operation; phase noise; spurious suppression; wireless communication; BiCMOS integrated circuits; CMOS technology; Frequency synthesizers; GSM; Germanium silicon alloys; Phase locked loops; Phase noise; Power measurement; Silicon germanium; Velocity measurement;
Journal_Title :
Solid-State Circuits, IEEE Journal of
