The development of a novel receiver topology for ultralow-power applications, such as radio-frequency (RF) identification and wireless sensor networks, is presented in this brief. The receiver makes use of an injection-locked oscillator, which can also be used as an exact time reference. By applying phase steps to the injected RF signal, the injection-locked oscillator temporarily loses its lock condition. This can be detected by a simple digital phase detector. By modulating the time between these phase steps, a bit stream is encoded and the circuit is used as a low-data-rate receiver. Since the circuit overhead, as compared to the injection-locked time reference itself, only consists of a few digital gates, the architecture is suitable fo...
Low-power constant-envelope modulations have gained popularity to meet the increasing demand for eff...
This article presents a 60 GHz low-power injection-locked oscillator in TSMC 65 nm technology. By us...
University of Minnesota Ph.D. dissertation. March 2010. Major: Electrical Engineering. Advisor: Prof...
A low-power, fully-integrated 40nm-CMOS timing and receiver circuit for wireless sensor networks is ...
A low power, fully integrated 130 nm CMOS RC oscillator for RFIDs is presented in this article. By m...
In the previous chapters, the rectifier for an on-chip wireless power receiver is analyzed and the m...
Injection locking based QPSK demodulation have been reported in several publication, however the dat...
In this paper, a 910MHz high efficiency BPSK receiver is presented with Colpitts oscillator for shor...
The demand for low-power high-performance wireless receivers has dramatically in- creased with the ...
Low-power wireless receiver design has been an active area of research during thelast decade. One o...
Back in 2000, the Nobel prize committee recognized the invention of the integrated circuit in 1958 b...
This paper present a 60 GHz injection locked oscillator in 65-nm CMOS technology. The injection lock...
link receiver prototype using a forwarded clock architecture. A novel phase deskew scheme using inje...
tecture is presented. In the proposed receiver, the majority of the circuitry is designed to operate...
An injection locking power amplifier is presented. The proposed solution, tailored to quadrature pha...
Low-power constant-envelope modulations have gained popularity to meet the increasing demand for eff...
This article presents a 60 GHz low-power injection-locked oscillator in TSMC 65 nm technology. By us...
University of Minnesota Ph.D. dissertation. March 2010. Major: Electrical Engineering. Advisor: Prof...
A low-power, fully-integrated 40nm-CMOS timing and receiver circuit for wireless sensor networks is ...
A low power, fully integrated 130 nm CMOS RC oscillator for RFIDs is presented in this article. By m...
In the previous chapters, the rectifier for an on-chip wireless power receiver is analyzed and the m...
Injection locking based QPSK demodulation have been reported in several publication, however the dat...
In this paper, a 910MHz high efficiency BPSK receiver is presented with Colpitts oscillator for shor...
The demand for low-power high-performance wireless receivers has dramatically in- creased with the ...
Low-power wireless receiver design has been an active area of research during thelast decade. One o...
Back in 2000, the Nobel prize committee recognized the invention of the integrated circuit in 1958 b...
This paper present a 60 GHz injection locked oscillator in 65-nm CMOS technology. The injection lock...
link receiver prototype using a forwarded clock architecture. A novel phase deskew scheme using inje...
tecture is presented. In the proposed receiver, the majority of the circuitry is designed to operate...
An injection locking power amplifier is presented. The proposed solution, tailored to quadrature pha...
Low-power constant-envelope modulations have gained popularity to meet the increasing demand for eff...
This article presents a 60 GHz low-power injection-locked oscillator in TSMC 65 nm technology. By us...
University of Minnesota Ph.D. dissertation. March 2010. Major: Electrical Engineering. Advisor: Prof...