4,337 research outputs found
Novel active function blocks and their applications in frequency filters and quadrature oscillators
KmitoÄtovĂ© filtry a sinusoidnĂ oscilĂĄtory jsou lineĂĄrnĂ elektronickĂ© obvody, kterĂ© jsou pouĆŸĂvĂĄny v ĆĄirokĂ© oblasti elektroniky a jsou zĂĄkladnĂmi stavebnĂmi bloky v analogovĂ©m zpracovĂĄnĂ signĂĄlu. V poslednĂ dekĂĄdÄ pro tento ĂșÄel bylo prezentovĂĄno velkĂ© mnoĆŸstvĂ stavebnĂch funkÄnĂch blokĆŻ. V letech 2000 a 2006 na Ăstavu telekomunikacĂ, VUT v BrnÄ byly definovĂĄny univerzĂĄlnĂ proudovĂœ konvejor (UCC) a univerzĂĄlnĂ napÄt'ovĂœ konvejor (UVC) a vyrobeny ve spoluprĂĄci s firmou AMI Semiconductor Czech, Ltd. OvĆĄem, stĂĄle existuje poĆŸadavek na vĂœvoj novĂœch aktivnĂch prvkĆŻ, kterĂ© nabĂzejĂ novĂ© vĂœhody. HlavnĂ pĆĂnos prĂĄce proto spoÄĂvĂĄ v definici dalĆĄĂch pĆŻvodnĂch aktivnĂch stavebnĂch blokĆŻ jako jsou differential-input buffered and transconductance amplifier (DBTA), current follower transconductance amplifier (CFTA), z-copy current-controlled current inverting transconductance amplifier (ZC-CCCITA), generalized current follower differential input transconductance amplifier (GCFDITA), voltage gain-controlled modified current-feedback operational amplifier (VGC-MCFOA), a minus-type current-controlled third-generation voltage conveyor (CC-VCIII-). PomocĂ navrĆŸenĂœch aktivnĂch stavebnĂch blokĆŻ byly prezentovĂĄny pĆŻvodnĂ zapojenĂ fĂĄzovacĂch ÄlĂĄnkĆŻ prvnĂho ĆĂĄdu, univerzĂĄlnĂ filtry druhĂ©ho ĆĂĄdu, ekvivalenty obvodu typu KHN, inverznĂ filtry, aktivnĂ simulĂĄtory uzemnÄnĂ©ho induktoru a kvadraturnĂ sinusoidnĂ oscilĂĄtory pracujĂcĂ v proudovĂ©m, napÄt'ovĂ©m a smĂĆĄenĂ©m mĂłdu. ChovĂĄnĂ navrĆŸenĂœch obvodĆŻ byla ovÄĆena simulacĂ v prostĆedĂ SPICE a ve vybranĂœch pĆĂpadech experimentĂĄlnĂm mÄĆenĂm.Frequency filters and sinusoidal oscillators are linear electric circuits that are used in wide area of electronics and also are the basic building blocks in analogue signal processing. In the last decade, huge number of active building blocks (ABBs) were presented for this purpose. In 2000 and 2006, the universal current conveyor (UCC) and the universal voltage conveyor (UVC), respectively, were designed at the Department of Telecommunication, BUT, Brno, and produced in cooperation with AMI Semiconductor Czech, Ltd. There is still the need to develop new active elements that offer new advantages. The main contribution of this thesis is, therefore, the definition of other novel ABBs such as the differential-input buffered and transconductance amplifier (DBTA), the current follower transconductance amplifier (CFTA), the z-copy current-controlled current inverting transconductance amplifier (ZC-CCCITA), the generalized current follower differential input transconductance amplifier (GCFDITA), the voltage gain-controlled modified current-feedback operational amplifier (VGC-MCFOA), and the minus-type current-controlled third-generation voltage conveyor (CC-VCIII-). Using the proposed ABBs, novel structures of first-order all-pass filters, second-order universal filters, KHN-equivalent circuits, inverse filters, active grounded inductance simulators, and quadrature sinusoidal oscillators working in the current-, voltage-, or mixed-mode are presented. The behavior of the proposed circuits has been verified by SPICE simulations and in selected cases also by experimental measurements.
Broadband quadrature-squeezed vacuum and nonclassical photon number correlations from a nanophotonic device
We report the first demonstrations of both quadrature squeezed vacuum and
photon number difference squeezing generated in an integrated nanophotonic
device. Squeezed light is generated via strongly driven spontaneous four-wave
mixing below threshold in silicon nitride microring resonators. The generated
light is characterized with both homodyne detection and direct measurements of
photon statistics using photon number-resolving transition edge sensors. We
measure ~dB of broadband quadrature squeezing (~dB inferred
on-chip) and ~dB of photon number difference squeezing (~dB
inferred on-chip). Nearly-single temporal mode operation is achieved, with raw
unheralded second-order correlations as high as measured
(~when corrected for noise). Multi-photon events of over 10 photons
are directly detected with rates exceeding any previous quantum optical
demonstration using integrated nanophotonics. These results will have an
enabling impact on scaling continuous variable quantum technology.Comment: Significant improvements and updates to photon number squeezing
results and discussions, including results on single temporal mode operatio
A Versatile Active Block: DXCCCII and Tunable Applications
The study describes dual-X controlled current conveyor (DXCCCII) as a versatile active block and its application to inductance simulators for testing. Moreover, the high pass filter application using with DXCCCII based inductance simulator and oscillator with flexible tunable oscillation frequency have been presented and simulated to confirm the theoretical validity. The proposed circuit which has a simple circuit design requires the low-voltage and the DXCCCII can also be tuned in the wide range by the biasing current. The proposed DXCCCII provides a good linearity, high output impedance at Z terminals, and a reasonable current and voltage transfer gain accuracy. The proposed DXCCCII and its applications have been simulated using the CMOS 0.18 ”m technology
Log-domain All-pass Filter-based Multiphase Sinusoidal Oscillators
Log-domain current-mode multiphase sinusoidal oscillators based on all-pass filters are presented in this paper. The first-order differential equation is used for obtaining inverting and non-inverting all-pass filters. The proposed oscillators are realized by all-pass filters which can be electronically tuned their natural frequency and stage gain by adjusting the bias currents. Each all pass filter contains 10 NPN transistors and a grounded capacitor. The validated BJT model which used in SPICE simulation operated by a single power supply as low as 2.5 V. The frequency of oscillation can be controlled over four decades. The total harmonic distortions of these MSO at frequency 56.67 MHz and 54.44 MHz, obtained around 0.52% and 0.75%, respectively. The proposed circuits enable fully integrated in telecommunication systems and also suit to high-frequency applications. Nonideality studies and PSpice simulation results are included to confirm the theory
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