1,705 research outputs found
A Low-power CMOS 2-PPM Demodulator for Energy Detection IR-UWB Receivers
This paper presents an integrated 2-PPM CMOS demodulator for non-coherent energy detection receivers which inherently provides analog-to-digital conversion. The device, called Bi-phase integrator, employs an open loop Gm - C integrator loaded with a switched capacitor network. The circuit has been simulated in a mixed-mode UMC 0.18mum technology and its performance figures are obtained through a mixed-signal simulation environment developed with the aid of ADVanceMS (ADMS, mentor graphics). Bit-error-rate simulations show that the circuit performance is about the same of an ideal energy detection receiver employing infinite quantization resolution. In addition, the simulations show that the circuit provides a complete offset rejection. Thanks to its low power consumption (1 mW during demodulation), its application is appealing for portable devices which aim at very low-power consumption
Integrated chaos generators
This paper surveys the different design issues, from mathematical model to silicon, involved on the design of integrated circuits for the generation of chaotic behavior.Comisión Interministerial de Ciencia y Tecnología 1FD97-1611(TIC)European Commission ESPRIT 3110
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Noise shaping Asynchronous SAR ADC based time to digital converter
Time-to-digital converters (TDCs) are key elements for the digitization of timing information in modern mixed-signal circuits such as digital PLLs, DLLs, ADCs, and on-chip jitter-monitoring circuits. Especially, high-resolution TDCs are increasingly employed in on-chip timing tests, such as jitter and clock skew measurements, as advanced fabrication technologies allow fine on-chip time resolutions. Its main purpose is to quantize the time interval of a pulse signal or the time interval between the rising edges of two clock signals. Similarly to ADCs, the performance of TDCs are also primarily characterized by Resolution, Sampling Rate, FOM, SNDR, Dynamic Range and DNL/INL. This work proposes and demonstrates 2nd order noise shaping Asynchronous SAR ADC based TDC architecture with highest resolution of 0.25 ps among current state of art designs with respect to post-layout simulation results. This circuit is a combination of low power/High Resolution 2nd Order Noise Shaped Asynchronous SAR ADC backend with simple Time to Amplitude converter (TAC) front-end and is implemented in 40nm CMOS technology. Additionally, special emphasis is given on the discussion on various current state of art TDC architectures.Electrical and Computer Engineerin
Palmo : a novel pulsed based signal processing technique for programmable mixed-signal VLSI
In this thesis a new signal processing technique is presented. This technique exploits the use of pulses as the signalling mechanism. This Palmo 1 signalling method applied to signal processing is novel, combining the advantages of both digital and analogue techniques. Pulsed signals are robust, inherently low-power, easily regenerated, and easily distributed across and between chips. The Palmo cells used to perform analogue operations on the pulsed signals are compact, fast, simple and programmable
Reports on Hybrid-computer Hardware
Hybrid computer and differential analyzer design and development for university instruction progra
Electronic circuits and systems: A compilation
Technological information is presented electronic circuits and systems which have potential utility outside the aerospace community. Topics discussed include circuit components such as filters, converters, and integrators, circuits designed for use with specific equipment or systems, and circuits designed primarily for use with optical equipment or displays
Design of an RC Oscillator for Automotive Applications
Tato práce je zaměřena na návrh integrovaného relaxačního oscilátoru pro automobilové aplikace, které jsou charakteristické extrémními provozními podmínkami a vysokými požadavky na robustnost. Z dostupné literatury byla provedena rešerše, která umožnila postihnout nezbytný teoretický základ pro komparativní studii nedávno představených designů integrovaných oscilátorů a také pomohla navrhnout architekturu oscilátoru, která v implementaci zahrnuje princip IEF. Za účelem předpovězení negativních vlivů na výkon systému a optimálních parametrů bloků byly provedeny simulace vysokoúrovňového modelu. V práci je diskutována implementace jednotlivých bloků a prezentovány výsledky simulace kritických parametrů. Simulace navrženého oscilátoru prokázaly konzistenci konceptu IEF pro praktickou realizaci. Realizovaný systém však potřebuje další vylepšení.The thesis is aimed on the integrated relaxation oscillator design for automotive applications, that are characterized by harsh operation conditions and high robustness requirements. Literature research was conducted to acquire necessary theoretical basis for comparative study of the recently proposed integrated oscillator designs to choose the oscillator architecture utilizing integrated-error feedback for the implementation. High-level model simulations were conducted to predict negative influences on the system performance and to suggest blocks optimal parameters for the design. The implementation of the designed blocks was discussed, and simulation results of the critical parameters were presented. The designed oscillator simulations proved the consistency of the integrated-error feedback concept for practical realization. However, the designed system needs further improvements
Fully differential implementation of a delta-sigma modulator based on the pseudo-pseudo differential technique
Flicker noise and distortion are the main limitations in biomedical applications, especially for Switched Capacitor implementations, where the flicker noise is folded into the signal band. To remove the flicker noise and increase the linearity, the Pseudo-Pseudo Differential (P2D) technique has been proposed, where a single-ended signal is processed in a differential way. This paper presents the first silicon implementation of a second order Comparator-Based Switched-Capacitor (CBSC) delta-sigma modulator based on a variation of the P2D technique. Experimental results in a standard 180 nm CMOS technology show an improvement of 10 dB in the Peak SNDR, 5 dB in the DR, and 9 dB in the SFDR over its pseudo differential counterpart, which is the preferred differential implementation for CBSC circuits. Moreover, it is achieved with a reduction in the power consumption
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