Publication
A 0.8V 2.4GHz 1Mb/s GFSK RF transceiver with on-chip DC-DC converter in a standard 0.18µm CMOS technology
Related publications (58)
Exposure assessment of body-implanted capsules in the 100-MHz–5-GHz range
Anja Skrivervik, Denys Nikolayev
Body-implanted bioelectronics rely on antennas to interface with external on- or off-body equipment. For a given input power, the antenna type and operating frequency significantly affect the power dissipation in tissues. This study addresses the exposure ...
2019Theoretical study of an electrostatically actuated torsional microsensor for biological applications
We develop an analytical formulation to calculate the induced resonance frequency shifts of an electrostatically actuated torsional microsensor due to an added bio-mass (E. coli). Based on a lumped-parameter model, we investigate the static and the linear ...
SPRINGER2018Medium Voltage DC-DC Converter for Power Collection Links
Nowadays electrical energy generation is an important topic discussed in the society. Since technologies like wind or solar energy generation are most of the time placed far away from the city centres one point to focus on is the transmission of the energy ...
EPFL2017High-Speed Wireline Link Design
High-speed serial links are a crucial application of semiconductor technology and have been the enabler of the scaling of computing systems. The increasing data-rate requirements of these links have only been partially satisfied by advancements in process ...
EPFL2017A Maximum-Likelihood Sequence Detection Powered ADC-Based Serial Link
A 0.88 mm 2 65-nm analog-to-digital converter (ADC)-based serial link transceiver is designed with a maximum-likelihood sequence detector (MLSD) for robust equalization. The MLSD is optimized in a pipelined look-ahead architecture to reach 10 Gb/s at 5.8 p ...
IEEE2017A remotely powered fully integrated low power class-E power amplifier for implantable sensor systems
Catherine Dehollain, Enver Gürhan Kilinç, Kerim Türe
This paper presents a fully integrated low power class-E power amplifier and its integration to remotely powered sensor system. The on-chip 1.2 GHz power amplifier is implemented in 0.18 A mu m CMOS process with 0.2 V supply. The implantable system is powe ...
Springer2016Remotely powered PPM demodulator by inductive coupling for rodent applications
Catherine Dehollain, Enver Gürhan Kilinç, Kerim Türe, Franco Maloberti
A low-power pulse position modulation (PPM) demodulator has been developed for remotely powered batteryless implantable devices. The required power for the implantable device is provided by the magnetic coupling with the external array of powering of coils ...
Springer Verlag2016A 420 mu W, 4 GHz Approximate Zero IF FM-UWB Receiver for Short-Range Communications
A low-power FM-UWB receiver intended for short range communications in wireless sensor networks is presented in this paper. It utilizes an "approximate zero IF" architecture which combines a free-running ring oscillator as the RF LO with a modified delay-l ...
Ieee2016A 4.1 pJ/b 25.6 Gb/s 4-PAM Reduced-State Sliding-Block Viterbi Detector in 14 nm CMOS
Andreas Peter Burg, Lukas Kull, Thomas Toifl, Giovanni Cherubini
The implementation of a digital four-level pulse-amplitude-modulation reduced-state sliding-block Viterbi detector (VD) with two substates and two embedded per-survivor decision-feedback taps operating at one-eighth of the modulation rate is described. Imp ...
Ieee2016A Low Power On-Chip Class-E Power Amplifier For Remotely Powered Implantable Sensor Systems
Catherine Dehollain, Enver Gürhan Kilinç, Kerim Türe
This paper presents a low power fully integrated class-E power amplifier and its integration with remotely powered sensor system. The class-E power amplifier is suitable solution for low-power applications due to its high power efficiency. However, the req ...
Spie-Int Soc Optical Engineering2015