Title :
A 0.76-pJ/Pulse 0.1–1 Gpps Microwatt IR-UWB CMOS Pulse Generator With Adaptive PSD Control Using a Limited Monocycle Precharge Technique
Author :
Ming Shen ; Ying-Zheng Yin ; Hao Jiang ; Tong Tian ; Jensen, Ole K. ; Mikkelsen, Jan H.
Author_Institution :
Dept. of Electron. Syst., Aalborg Univ., Aalborg, Denmark
Abstract :
This brief presents an ultra-wideband pulse generator topology featuring adaptive control of power spectral density for a broad range of applications with different data rate requirements. The adaptivity is accomplished by employing a limited monocycle precharge approach to control the energy used for pulse generation at different desired data rates. By doing so, the need for tuning circuits is eliminated and the radiated power is maintained at the highest level allowed by the Federal Communications Commission. A prototype pulse generator has been implemented using the UMC 180-nm CMOS process for validation. The measured results show that the pulse generator can be used for a wide pulse repetition rate range from 100 Mpps to 1 Gpps. In addition, the pulse generator consumes 0.76 pJ/pulse at 1 Gpps, equivalent to 760 μW and has a compact size of 0.09 mm2.
Keywords :
CMOS analogue integrated circuits; adaptive control; circuit tuning; integrated circuit design; network topology; pulse generators; ultra wideband technology; Federal Communications Commission; IR-UWB CMOS pulse generator; UMC CMOS process; adaptive PSD control; limited monocycle precharge technique; power 760 muW; power spectral density; pulse repetition rate range; radiated power; size 0.09 mm; size 180 nm; tuning circuits; ultra-wideband pulse generator topology; Capacitors; Energy consumption; Energy storage; FCC; Generators; Pulse generation; Topology; Adaptive power spectral density (PSD) control; IR-UWB; adaptive PSD control; impulse radio ultra-wideband (IR-UWB); pulse generator;
Journal_Title :
Circuits and Systems II: Express Briefs, IEEE Transactions on
DOI :
10.1109/TCSII.2015.2433431
