Search for dissertations about: "Ultra-Low Power CMOS circuits"
Showing result 1 - 5 of 12 swedish dissertations containing the words Ultra-Low Power CMOS circuits.
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1. Design Space Exploration of Digital Circuits for Ultra-low Energy Dissipation
Abstract : The ever expanding market of ultra portable electronic products is compelling the designer to invest major efforts in the development of small and low energy electronic devices. The driving force and benefactors of such devices are (but not limited to) e-health system, sensor network applications, security systems, environmental applications, and home automation systems. READ MORE
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2. Receiver Front-Ends in CMOS with Ultra-Low Power Consumption
Abstract : Historically, research on radio communication has focused on improving range and data rate. In the last decade, however, there has been an increasing demand for low power and low cost radios that can provide connectivity with small devices around us. READ MORE
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3. Design of Ultra-Low-Power Analog-to-Digital Converters
Abstract : Power consumption is one of the main design constraints in today’s integrated circuits. For systems powered by small non-rechargeable batteries over their entire lifetime, such as medical implant devices, ultra-low power consumption is paramount. READ MORE
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4. Low Power Analog Interface Circuits toward Software Defined Sensors
Abstract : Internet of Things is expanding to the areas such as healthcare, home management, industrial, agriculture, and becoming pervasive in our life, resulting in improved efficiency, accuracy and economic benefits. Smart sensors with embedded interfacing integrated circuits (ICs) are important enablers, hence, variety of smart sensors are required. READ MORE
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5. Efficient mm-Wave Transmitter Design in CMOS Technology
Abstract : An increasing demand of higher data rates in wireless communication forces the industry to look to higher frequencies to find the required bandwidths. This thesis is about analog transmitters in CMOS for millimeter-wave communication, and it focuses on improving power amplifiers and frequency generation circuits, and increase their efficiency. READ MORE