RU2006122390A - RADIO RECEIVER AND ITS OPTIONS - Google Patents

Claims (3)

1. A receiving device comprising an input two-channel power divider, the input of which is the input of the device, the first mixer, the first intermediate frequency filter and the first intermediate frequency amplifier connected in series, the second mixer, the second intermediate frequency filter and the second intermediate frequency amplifier, as well as the first and the second local oscillators and phase detector, while the inputs of the first and second mixers are connected respectively to the outputs of the input two-channel divider characterized in that a series-coupled heterodyne mixer, a first heterodyne filter, a frequency divider into two, a second heterodyne filter, a heterodyne amplifier and a first two-channel heterodyne power divider, a second and third two-channel heterodyne power dividers, a series-connected third mixer, the first are introduced into it a second intermediate frequency filter, a three-channel power divider and a first amplitude detector, a fourth mixer connected in series, a second filter in intermediate frequency, two-channel power divider and a second amplitude detector, as well as circuit I, a switch and a processing and control unit, while the output of the first local oscillator is connected to the heterodyne inputs of the first and local oscillators, respectively, through the second two-channel heterodyne power divider, the output of the second local oscillator is connected to the heterodyne inputs of the second and heterodyne mixers, respectively, through the third two-channel heterodyne power divider, the outputs of the first two-channel heterodyne power divider are connected respectively to the heterodyne inputs of the third and fourth mixers, the inputs of which are connected respectively to the outputs of the first and second amplifiers of intermediate frequency, the second outputs of the three-channel and two-channel power dividers are connected respectively to the inputs of the phase detector, the output of which is connected to the first input of the processing and control unit , the outputs of the first and second amplitude detectors are connected respectively to the inputs of the circuit And, the output of which is connected to the second input of the bl Single processing and control, the third three-way power divider output connected to the input switch control input coupled to an output of the processing unit and control, and the output is an output device. 2. A receiving device comprising an input two-channel power divider, the input of which is the input of the device, the first mixer, the first intermediate frequency filter and the first intermediate frequency amplifier connected in series, the second mixer, the second intermediate frequency filter and the second intermediate frequency amplifier connected in series, as well as the first and the second local oscillators and phase detector, while the inputs of the first and second mixers are connected respectively to the outputs of the input two-channel divider characterized in that a heterodyne mixer, a first heterodyne filter, a frequency divider into two, a second heterodyne filter, a heterodyne amplifier and a first two-channel heterodyne power divider, a second and third two-channel heterodyne power dividers, a third mixer and N are connected in series -channel power divider, a fourth mixer and an M-channel power divider in series, where M = N, are connected to the outputs of the N-channel power divider respectively, N channels, each of which consists of a series-connected first filter of the second intermediate frequency, the input of which is the input of the corresponding N channel, three-channel power divider and the first amplitude detector, respectively, M channels are connected to the outputs of the M-channel power divider, each of which consists of connected in series to the second filter of the second intermediate frequency, the input of which is the input of the corresponding M channel, two-channel power divider and the second an amplitude detector, as well as N-1 additional phase detectors, N I circuits, N circuit breakers and a processing and control unit, while the output of the first local oscillator is connected to the local oscillator inputs of the first and local oscillator mixers, respectively, through a second two-channel local oscillator power divider, the output of the second local oscillator is connected to the heterodyne inputs of the second and heterodyne mixers, respectively, through the third two-channel heterodyne power divider, the outputs of the first two-channel heterodyne power divider respectively connected to the heterodyne inputs of the third and fourth mixers, the inputs of which are connected respectively to the outputs of the first and second intermediate frequency amplifiers, the second outputs of the three-channel power dividers of each of the N channels and the second outputs of the two-channel power dividers of each of the M channels are connected respectively to the inputs of the corresponding phase detectors, the outputs of which are connected respectively to the first group of inputs of the processing and control unit, the outputs of the first amplitude detectors of each N channels and outputs of the second amplitude detectors of each of the M channels are connected respectively to the inputs of the corresponding circuits And, the outputs of which are connected respectively to the second group of inputs of the processing and control unit, the third outputs of the three-channel power dividers of each of the N channels are connected respectively to the inputs of the corresponding switches, control inputs which are connected to the corresponding control outputs of the processing and control unit, and the outputs are the corresponding outputs of the device. 3. A receiving device comprising an input power divider, the input of which is the input of the device, a first mixer, a first intermediate frequency filter and a first intermediate frequency amplifier connected in series, a second mixer, a second intermediate frequency filter and a second intermediate frequency amplifier, and the first and a second local oscillator and a phase detector, while the inputs of the first and second mixers are connected respectively to the first and second outputs of the input power divider which consists in introducing a series-connected heterodyne mixer, a first heterodyne filter, a frequency divider into two, a second heterodyne filter, a heterodyne amplifier and a first three-channel heterodyne power divider, a second three-channel and third two-channel heterodyne power dividers, connected in series with a third mixer, a first filter the second intermediate frequency, the first three-channel power divider and the first amplitude detector, connected in series with the fourth mixer, the second iltr of the second intermediate frequency, the second three-channel power divider and the second amplitude detector, the first additional mixer, the additional intermediate frequency filter, the additional intermediate frequency amplifier, the second additional mixer, the second intermediate frequency filter and the additional phase detector, as well as circuit I, the first , the second and third additional frequency dividers, circuit I, a switch and a processing and control unit, while the output of the first heterody not connected to the heterodyne inputs of the first and local oscillators, respectively, through the second three-channel heterodyne power divider, the output of the second local oscillator is connected to the heterodyne inputs of the second and local oscillators, respectively, the outputs of the first three-channel heterodyne power divider are connected respectively to the third and the fourth oscillator the inputs of which are connected respectively to the outputs of the first and second amplifiers intermediate frequency, the second outputs of the first and second three-channel power dividers are connected respectively to the inputs of the phase detector, the output of which is connected to the first input of the processing and control unit, the outputs of the first and second amplitude detectors are connected respectively to the inputs of the circuit And, the output of which is connected to the second input of the processing unit and control, the third output of the first three-channel power divider is connected to the input of the switch, the control input of which is connected to the output of the processing and control unit, and the output is the output of the device, the input power divider is made three-channel, and its third output is connected to the input of the first additional mixer, the third output of the second three-channel heterodyne power divider is connected to the heterodyne input of the first additional mixer through the first frequency divider, the third output of the first three-channel heterodyne power divider connected to the heterodyne input of the second additional mixer through the second frequency divider, and the third output of the second three-channel d divisor output connected via a third frequency divider to the second input of the further phase detector whose output is connected to a third input of the processing and control unit.