Titlebook: Dynamic Translinear and Log-Domain Circuits; Analysis and Synthes Jan Mulder,Wouter A. Serdijn,Arthur H. M. Roermund Book 1999 Springer Sci

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Forschungslandschaft und Fragestellungennded version of this method, applicable to the design of both STL and Dynamic TransLinear (DTL) circuits [13, 17, 18, 21, 27, 28, 88]. The high level of similarity between STL and DTL circuits, which is evident from Chapter 3, is beneficially exploited. A major advantage resulting from this approach

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Kulturpsychologie der Gesellschaftfundamental importance. Furthermore, Static TransLinear (STL) circuits do not have a particularly good reputation when it comes to noise [47, 81] and it is likely that Dynamic TransLinear (DTL) circuits inherit these noise characteristics.

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Kulturpsychologie der GesellschaftOS transistor, a different type of TL circuits can be realised [67-70]. The formal definition of the general principle behind these ‘Voltage-TransLinear’. (VTL) circuits was published by Seevinck and Wiegerink in [67], see Section 2.3.

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Warum schweigen nicht nur die L?mmer?, next to the static transfer functions, both linear and non-linear, facilitated by conventional’ static TransLinear’ (STL) technology, a wide variety of frequencydependent (transfer) functions can be realised. The resulting class of ‘Dynamic TransLinear’ (DTL) circuits implements differential equat

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Analysis of translinear circuits,quisite for structured electronic design. This chapter therefore explores the possible analysis procedures that can be applied to investigate the behaviour of Static TransLinear (STL) and Dynamic TransLinear (DTL) circuits, before synthesis methodologies are surveyed in Chapter 4.

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