Military Institute of Radioelectronics

Voronezh, Russia

Military Institute of Radioelectronics

Voronezh, Russia
SEARCH FILTERS
Time filter
Source Type

Golovkov A.A.,Military Institute of Radioelectronics | Boyarintsev A.V.,FGNIIC REB OESZ
Telecommunications and Radio Engineering (English translation of Elektrosvyaz and Radiotekhnika) | Year: 2010

A problem of parametric synthesis of matching devices of amplitude demodulators, built on resistive elements, by the criterion of ensuring the specified amplitudes of the received signal in two states of a two-pole nonlinear element, is solved. The states are determined by extreme values of the input amplitude-modulated signal. Four versions of inclusion of a nonlinear element - between the signal source and the resistive matching device, between the matching device and the high-frequency load in the longitudinal or lateral circuit - are discussed. The article is a logical sequence of 1. © 2010 Begell House, Inc.


Golovkov A.A.,Military Institute of Radioelectronics | Boyarintsev A.V.,Military Institute of Radioelectronics
Telecommunications and Radio Engineering (English translation of Elektrosvyaz and Radiotekhnika) | Year: 2010

The problem of parametrical synthesis of resistive matching devices of phase demodulators by the criterion of assured transformation of a phase-modulated signal to an amplitude-and-phase modulated signal with specified amplitudes in two extreme states of a linear two-pole element, defined by the extreme frequency values of the input phase-modulated signal is solved. The article is a logical sequel of our previous work (Golovkov and Boyarintsev, 2007a). © 2010 by Begell House, Inc.


Golovkov A.A.,Military Institute of Radioelectronics | Malyutina I.A.,Military Institute of Radioelectronics
Telecommunications and Radio Engineering (English translation of Elektrosvyaz and Radiotekhnika) | Year: 2010

Optimal relations between complex elements of a resistance matrix of matching and filtering devices (MFDs), built on resistive and reactive elements, to ensure modulation of high-frequency signal amplitude and phase in two states of the controlled element, determined by two levels of a low-frequency control signal, are obtained. These relations are used to find mathematical expressions, determining optimal values of complex resistances of RLC-based two-pole networks, which form typical MFDs. © 2010 by Begell House, Inc.


Golovkov A.A.,Military Institute of Radioelectronics | Malyutina I.A.,Military Institute of Radioelectronics
Telecommunications and Radio Engineering (English translation of Elektrosvyaz and Radiotekhnika) | Year: 2010

The problem of parametrical synthesis of matching and filtering devices of amplitude demodulators, built on two-pole networks with complex resistances, by the criterion of ensuring the specified depth of modulation of the received amplitude-modulated signal at any original modulation depth has been solved. © 2010 by Begell House, Inc.


Golovkov A.A.,Military Institute of Radioelectronics | Fedyunin I.I.,Military Institute of Radioelectronics
Telecommunications and Radio Engineering (English translation of Elektrosvyaz and Radiotekhnika) | Year: 2011

The problem of parametrical synthesis of matching and filtering devices for amplitude and phase demodulators, built on reactive elements, by the criterion of ensuring the specified transmission ratio modules and phases in two states of its two-pole controlled element, defined by two levels of the low-frequency control signal, has been solved. © 2011 by Begell House, Inc.


Golovkov A.A.,Military Institute of Radioelectronics | Golovkov V.A.,Military Institute of Radioelectronics
Telecommunications and Radio Engineering (English translation of Elektrosvyaz and Radiotekhnika) | Year: 2011

The problem of parametrical synthesis of matching and filtering devices (MFDs) for amplitude demodulators has been solved by the criterion of ensuring the specified transmission ratio modules in two states of the nonlinear element, defined by two extreme levels of the input amplitude- modulated signal (AMS) at a fixed frequency using RLC basis in the MFDs. Interconnections between the MFD resistance matrix elements, optimal by this criterion, for twopole and three-pole nonlinear elements with different inclusion options have been obtained. Optimal values of complex resistances of two-pole networks that form typical MFD schemes have been determined. © 2011 by Begell House, Inc.


Golovkov A.A.,Military Institute of Radioelectronics | Fedyunin I.I.,Military Institute of Radioelectronics
Telecommunications and Radio Engineering (English translation of Elektrosvyaz and Radiotekhnika) | Year: 2011

The problem of parametrical synthesis of matching and filtering devices (MFDs) for phase demodulators, built on reactive elements, by the criterion of ensuring the operation of a phase-modulated signal (PMS) conversion to an amplitude-and-phase-modulated signal (APMS) with specified amplitudes in two states of its two-pole controlled element, defined by two extreme values of the PMS frequency, has been solved. The work is a sequel of (Golovkov and Fedyunin, 2008). © 2010 by Begell House, Inc.


Golovkov A.A.,Military Institute of Radioelectronics | Fedyunin I.I.,Military Institute of Radioelectronics
Telecommunications and Radio Engineering (English translation of Elektrosvyaz and Radiotekhnika) | Year: 2011

The problem of parametrical synthesis of matching and filtering devices for amplitude demodulators, built on reactive elements, by the criterion of ensuring the specified transmission ratio modules in two states, defined by two extreme values of the input amplitude-modulated signal for any of its original modulation depth, has been solved. © 2010 by Begell House, Inc.


Golovkov A.A.,Military Institute of Radioelectronics | Fedyunin I.I.,Military Institute of Radioelectronics
Telecommunications and Radio Engineering (English translation of Elektrosvyaz and Radiotekhnika) | Year: 2011

The problem of parametrical synthesis of matching and filtering devices for amplitude and phase demodulators by the criterion of ensuring the conversion of a phase-modulated signal to an amplitude-modulated signal with the specified amplitude modulation depth, using a two-pole nonlinear element, included between the MFD and the high-frequency load, when MFD is described by a resistance matrix, has been solved. The principle of functional inversibility of phase demodulators and modulators has been established. © 2011 by Begell House, Inc.

Loading Military Institute of Radioelectronics collaborators
Loading Military Institute of Radioelectronics collaborators