3,613 research outputs found

    Design of a 12 channel fm microwave receiver

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    The design, fabrication, and performance of elements of a low cost FM microwave satellite ground station receiver is described. It is capable of accepting 12 contiguous color television equivalent bandwidth channels in the 11.72 to 12.2 GHz band. Each channel is 40 MHz wide and incorporates a 4 MHz guard band. The modulation format is wideband FM and the channels are frequency division multiplexed. Twelve independent CATV compatible baseband outputs are provided. The overall system specifications are first discussed, then consideration is given to the receiver subsystems and the signal branching network

    A synchronised Direct Digital Synthesiser

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    We describe a Direct Digital Synthesiser (DDS) which provides three frequency-locked synchronised outputs to generate frequencies from DC to 160 MHz. Primarily designed for use in a heterodyning range imaging system, the flexibility of the design allows its use in a number of other applications which require any number of stable, synchronised high frequency outputs. Frequency tuning of 32 bit length provides 0.1 Hz resolution when operating at the maximum clock rate of 400 MSPS, while 14 bit phase tuning provides 0.4 mrad resolution. The DDS technique provides very high relative accuracy between outputs, while the onboard oscillator’s stability of ±1 ppm adds absolute accuracy to the design

    Novel Approach to Design Ultra Wideband Microwave Amplifiers: Normalized Gain Function Method

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    In this work, we propose a novel approach called as “Normalized Gain Function (NGF) method” to design low/medium power single stage ultra wide band microwave amplifiers based on linear S parameters of the active device. Normalized Gain Function TNGF is defined as the ratio of T and |S21|^2, desired shape or frequency response of the gain function of the amplifier to be designed and the shape of the transistor forward gain function, respectively. Synthesis of input/output matching networks (IMN/OMN) of the amplifier requires mathematically generated target gain functions to be tracked in two different nonlinear optimization processes. In this manner, NGF not only facilitates a mathematical base to share the amplifier gain function into such two distinct target gain functions, but also allows their precise computation in terms of TNGF=T/|S21|^2 at the very beginning of the design. The particular amplifier presented as the design example operates over 800-5200 MHz to target GSM, UMTS, Wi-Fi and WiMAX applications. An SRFT (Simplified Real Frequency Technique) based design example supported by simulations in MWO (MicroWave Office from AWR Corporation) is given using a 1400mW pHEMT transistor, TGF2021-01 from TriQuint Semiconductor

    Design of broadband inductor-less RF front-ends with high dynamic range for G.hn

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    System-on-Chip (SoC) was adopted in recent years as one of the solutions to reduce the cost of integrated systems. When the SoC solution started to be used, the final product was actually more expensive due to lower yield. The developments in integrated technology through the years allowed the integration of more components in lesser area with a better yield. Thus, SoCs became a widely used solution to reduced the cost of the final product, integrating into a single-chip the main parts of a system: analog, digital and memory. As integrated technology kept scaling down to allow a higher density of transistors and thus providing more functionality with the same die area, the analog RF parts of the SoC became a bottleneck to cost reduction as inductors occupy a large die area and do not scale down with technology. Hence, the trend moves toward the research and design of inductor-less SoCs that further reduce the cost of the final solution. Also, as the demand for home networking high-data-rates communication systems has increased over the last decade, several standards have been developed to satisfy the requirements of each application, the most popular being wireless local area networks (WLANs) based on the IEEE 802.11 standard. However, poor signal propagation across walls make WLANs unsuitable for high-speed applications such as high-definition in-home video streaming, leading to the development of wired technologies using the existing in-home infrastructure. The ITU-T G.hn recommendation (G.9960 and G.9961) unifies the most widely used wired infrastructures at home (coaxial cables, phone lines and power lines) into a single standard for high-speed data transmission of up to 1 Gb/s. The G.hn recommendation defines a unified networking over power lines, phone lines and coaxial cables with different plans for baseband and RF. The RF-coax bandplan, where this thesis is focused, uses 50 MHz and 100 MHz bandwidth channels with 256 and 512 carriers respectively. The center frequency can range from 350 MHz to 2450 MHz. The recommendation specifies a transmission power limit of 5 dBm for the 50 MHz bandplan and 8~dBm for the 100 MHz bandplan, therefore the maximum transmitted power in each carrier is the same for both bandplans. Due to the nature of an in-home wired environment, receivers that can handle both very large and very small amplitude signals are required; when transmitter and receiver are connected on the same electric outlet there is no channel attenuation and the signal-to-noise-plus-distortion ratio (SNDR) is dominated by the receiver linearity, whereas when transmitter and receiver are several rooms apart channel attenuation is high and the SNDR is dominated by the receiver noise figure. The high dynamic range specifications for these receivers require the use of configurable-gain topologies that can provide both high-linearity and low-noise for different configurations. Thus, this thesis has been aimed at researching high dynamic range broadband inductor-less topologies to be used as the RF front-end for a G.hn receiver complying with the provided specifications. A large part of the thesis has been focused on the design of the input amplifier of the front-end, which is the most critical stage as the noise figure and linearity of the input amplifier define the achievable overall specifications of the whole front-end. Three prototypes has been manufactured using a 65 nm CMOS process: two input RFPGAs and one front-end using the second RFPGA prototype.El "sistema en un chip" (SoC) fue adoptado recientemente como una de las soluciones para reducir el coste de sistemas integrados. Cuando se empezó a utilizar la solución SoC, el producto final era más caro debido al bajo rendimiento de producción. Los avances en tecnología integrada a lo largo de los años han permitido la integración de más componentes en menos área con mejoras en rendimiento. Por lo tanto, SoCs pasó a ser una solución ampliamente utilizada para reducir el coste del producto final, integrando en un único chip las principales partes de un sistema: analógica, digital y memoria. A medida que las tecnologías integradas se reducían en tamaño para permitir una mayor densisdad de transistores y proveer mayor funcionalidad con la misma área, las partes RF analógicas del SoC pasaron a ser la limitación en la reducción de costes ya que los inductores ocupan mucha área y no escalan con la tecnología. Por lo tanto, las tendencias en investigación se mueven hacia el diseño de SoCs sin inductores que todavía reducen más el coste final del producto. También, a medida que la demanda en sistemas de comunicación domésticos de alta velocidad ha crecido a lo largo de la última década, se han desarrollado varios estándares para satisfacer los requisitos de cada aplicación, siendo las redes sin hilos (WLANs) basadas en el estándar IEEE 802.11 las más populares. Sin embargo, una pobre propagación de señal a través de las paredes hacen que las WLANs sean inadecuadas para aplicaciones de alta-velocidad como transmisión de vídeo de alta definición en tiempo real, resultando en el desarrollo de tecnologías con hilos utilizando la infraestructura existente en los domicilios. La recomendación ITU-T G.hn (G.9960 and G.9961) unifica las principales infraestructuras con hilos domésticas (cables coaxiales, línias de teléfono y línias de electricidad) en un sólo estándar para la transmisión de datos hasta 1 Gb/s. La recomendación G.hn define una red unificada sobre línias de electricidad, de teléfono y coaxiales con diferentes esquemas para banda base y RF. El esquema RF-coax en el cual se basa esta tesis, usa canales con un ancho de banda de 50 MHz y 100 MHz con 256 y 512 portadoras respectivamente. La frecuencia centra puede variar desde 350 MHz hasta 2450 MHz. La recomendación especifica un límite en la potencia de transmisión de 5 dBm para el esquema de 50 MHz y 8 dBm para el esquema de 100 MHz, de tal forma que la potencia máxima por portadora es la misma en ambos esquemas. Debido a la estructura de un entorno doméstico con hilos, los receptores deben ser capaces de procesar señales con amplitud muy grande o muy pequeña; cuando transmisor y receptor están conectados en la misma toma eléctrica no hay atenuación de canal y el ratio de señal a rudio más distorsión (SNDR) está dominado por la linealidad del receptor, mientras que cuando transmisor y receptor están separados por varias habitaciones la atenuación es elevada y el SNDR está dominado por la figura de ruido del receptor. Los elevados requisitos de rango dinámico para este tipo de receptores requieren el uso de topologías de ganancia configurable que pueden proporcionar tanto alta linealidad como bajo ruido para diferentes configuraciones. Por lo tanto, esta tesis está encarada a la investigación de topologías sin inductores de banda ancha y elevado rango dinámico para ser usadas a la entrada de un receptor G.hn cumpliendo con las especificaciones proporcionadas. Una gran parte de la tesis se ha centrado en el diseño del amplificador de entrada al ser la etapa más crítica, ya que la figura de ruido y linealidad del amplificador de entrada definen lás máximas especificaciones que el sistema puede conseguir. Se han fabricado 3 prototipos con un proceso CMOS de 65 nm: 2 amplificadores y un sistema completo con amplificador y mezclador.Postprint (published version
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