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This paper analyses a filter known as the Tau Cell using symbolic methods and shows that the operation of this filter is independent of the magnitude of the input DC offset. This means that the circuit places no restrictions on whether the input DC offset is a sub-threshold current or not. The circuit behaviour predicted from symbolic analysis was observed in similar circuits on a chip fabricated...
Electronic devices and systems are not usually environmentally friendly. Large amounts of energy and hazardous substances are required for their production, and discarded products end up in landfills; trends that are exacerbated by fast moving advances in consumer electronics. In this paper, we argue that the most promising way to reduce the environmental load of consumer electronics is to move towards...
We present an implementation of the Izhikevich neuron model which uses two first-order log-domain low-pass filters and two translinear multipliers. The neuron consists of a leaky-integrate-and-fire core, a slow adaptive state variable and quadratic positive feedback. Simulation results show that this neuron can emulate different spiking behaviours observed in biological neurons.
In this paper we present results from several implementations of silicon cochleae whose dynamics are governed by the Hopf equation. These silicon cochleae exhibit the majority of active, nonlinear characteristics of the biological cochlea such as large-signal compression, two-tone suppression, the creation of distortion products and so forth. Here we explore the coupling between resonant sections...
We have designed, constructed and tested an electromechanical acoustic sensor as a conceptual model for the active process in the mammalian cochlea. The sensor is based on a mechanical resonator - a stretched latex band - which is tonically (tensionally) modulated by an electromechanical actuator. A feedback circuit senses the motion of the resonator, and modulates its tension at twice the frequency...
We present an electronic neuron that uses first-order log-domain low-pass filters to implement the Mihalas-Niebur model. The neuron consists of a leaky-integrate-and-fire core and building blocks to implement an adaptive threshold and spike induced currents. Simulation results show that this modular neuron can emulate different spiking behaviours observed in biological neurons.
We implemented a Symbolic Circuit Analysis Software toolbox based on Affine Arithmetic. The toolbox is defined with small signal Affine MOSFET models along with conventional MOSFET models. As a case study the demonstration compares the use of affine models with conventional models in various circuit architectures. The symbolic analysis results are also compared with SPICE analysis results. This demonstration...
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