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Fully integrated 2.2-mW CMOS front end for a 900-MHz wireless receiver
2002 Edition, Volume 37, May 1, 2002 - IEEE - Institute of Electrical and Electronics Engineers, Inc.

Low power consumption is the most important concern for integrated wireless devices. This paper illustrates low-power design principles in the CMOS context. They entail seeking strategic combinations of high-quality off-chip passives with RF integrated circuits and...

A 10-mW two-channel fully integrated system-on-chip for eddy-current position sensing [in biomedical devices]
2002 Edition, Volume 37, July 1, 2002 - IEEE - Institute of Electrical and Electronics Engineers, Inc.

The use of magnetic bearings in small biomedical devices poses new challenges for the integration of complex embedded electronic systems. This paper describes a low-power fully integrated two-channel system-on-a-chip (SOC) for two-dimensional (2-D) differential...

A 48-mW 18-Gb/s fully integrated CMOS optical receiver with photodetector and adaptive equalizer
2014 Edition, June 1, 2014 - IEEE - Institute of Electrical and Electronics Engineers, Inc.

A 65-nm CMOS monolithic optical receiver IC with on-chip photodetector (PD) using the p-well/deep-n-well (PW/DNW) junction is presented for short-range optical communication using 850-nm wavelength. An adaptive continuous-time linear equalizer (CTLE) with 33-dB tunable gain is...

High-efficiency CMOS rectifier for fully integrated mW wireless power transfer
2012 Edition, May 1, 2012 - IEEE - Institute of Electrical and Electronics Engineers, Inc.

Design and measurement results are presented for a 0.18 μm CMOS full-wave rectifier architecture with 85.8% measured power efficiency at 40.68 MHz. The rectifier targets fully integrated power harvesting biomedical implant and lab-on-chip applications that use on-chip or...

A SiGe Terahertz Heterodyne Imaging Transmitter With 3.3 mW Radiated Power and Fully-Integrated Phase-Locked Loop
2015 Edition, Volume 50, December 1, 2015 - IEEE - Institute of Electrical and Electronics Engineers, Inc.

A high-power 320 GHz transmitter using 130 nm SiGe BiCMOS technology (fT/fmax = 220/280 GHz) is reported. This transmitter consists of a 4 × 4 array of radiators based on coupled harmonic oscillators. By incorporating a signal filter structure called return-path gap coupler...

A 195 mW, 9.1 MVertices/s Fully Programmable 3-D Graphics Processor for Low-Power Mobile Devices
2008 Edition, Volume 43, November 1, 2008 - IEEE - Institute of Electrical and Electronics Engineers, Inc.

A 195 mW, 9.1 Mvertices/s fully programmable 3-D graphics processor is designed and implemented for mobile devices. The mobile unified shader provides programmable per-vertex operations and per-pixel operations in a single hardware and thus, it achieves 35% area and 28%...

A 4.84 mm2 847–955 Mb/s 397 mW dual-path fully-overlapped QC-LDPC decoder for the WiMAX system in 0.13 µm CMOS
2010 Edition, June 1, 2010 - IEEE - Institute of Electrical and Electronics Engineers, Inc.

This paper presents a dual-path fully-overlapped QC-LDPC decoder for the WiMAX system. Each phase scans nonzero sub-matrices two by two in block row-wise order, and two phases are fully overlapped. It reduces memory accesses by 24.3-48.8%, and takes only 48-54 clock...

Electromagnetic Simulations of a Fully Superconducting 10-MW-Class Wind Turbine Generator
2013 Edition, Volume 23, December 1, 2013 - IEEE - Institute of Electrical and Electronics Engineers, Inc.

An electromagnetic design study of a 10-MW-class synchronous generator that has both the field and armature windings superconducting is presented. The field winding is assumed to be made of YBCO tapes, whereas multifilament MgB2 wires are considered for the armature winding. The proposed...

Magnetic simulations of a fully superconducting 10 MW class wind generator based on 3-D FEA
2015 Edition, May 1, 2015 - IEEE - Institute of Electrical and Electronics Engineers, Inc.

A 10 MW class synchronous wind generator that has both the field and armature windings superconducting is presented. The field winding is assumed to be made of YBCO tapes while multifilament MgB2 wires are considered for the armature winding. The proposed design is analyzed using a...

Fully integrated 2.2 mW CMOS front-end for a 900 MHz zero-IF wireless receiver
2001 Edition, January 1, 2001 - IEEE - Institute of Electrical and Electronics Engineers, Inc.

Wireless sensors and wearable wireless devices need low bit-rate receivers which dissipate a total power of less than 5 mW and operate from a single cell. They must also be highly integrated for small physical volume. As is customary, CMOS is the technology of...

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