The fundamental error formulas of the devices allow the dependencies
between output parameters and input parameters to be analysed quite simply. If these
dependencies are obscure, then analytical and experimental methods are used to determine
the sensitivity coefficients. However, the analysis of specific essentially non-linear devices,
aimed not only at obtaining their accuracy characteristics, but also at targeted correction of
error sources, meets even now serious methodological difficulties. This inhibits the
development of appropriate engineering methods for the calculation and design of complex
non-linear devices. In order to analyse and correct sources of errors of secondary power
supply sources, in particular functional converters designed on the basis of passive non-linear
elements with DC power supply we propose methodology, which uses construction of "causal
graph" of magneto-transistor divider by voltage sections of its circuits, characterised by
simplicity and clarity.
The fundamental error formulas of the devices allow the dependencies
between output parameters and input parameters to be analysed quite simply. If these
dependencies are obscure, then analytical and experimental methods are used to determine
the sensitivity coefficients. However, the analysis of specific essentially non-linear devices,
aimed not only at obtaining their accuracy characteristics, but also at targeted correction of
error sources, meets even now serious methodological difficulties. This inhibits the
development of appropriate engineering methods for the calculation and design of complex
non-linear devices. In order to analyse and correct sources of errors of secondary power
supply sources, in particular functional converters designed on the basis of passive non-linear
elements with DC power supply we propose methodology, which uses construction of "causal
graph" of magneto-transistor divider by voltage sections of its circuits, characterised by
simplicity and clarity.
№ | Author name | position | Name of organisation |
---|---|---|---|
1 | Abdullayev B.A. | teacher | TSTU |
2 | Begmatov S.E. | teacher | TSTU |
3 | Khalmanov D.S. | teacher | TSTU |
№ | Name of reference |
---|---|
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12 | B.A. Abdullaev., Sh.E. Begmatov., D.Kh. Xalmanov., S.A. Dusmukhamedova Generalized mathematical models of nonlinear passive elements for the research of ferroresonance in electrical networks. “Technical science and innovation”, 2021. 115 |
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