RU2024197C1 - Radio receiver converter - Google Patents

Abstract

FIELD: radio engineering. SUBSTANCE: radio receiver converter has heterodyne frequency changer 1, input circuit 2, output circuit 3, input and output coupling components 6 and 7. EFFECT: provision for commutation-free reception of signals in various ranges, reduced parasitic passage of heterodyne signal. 1 dwg

Description

 The invention relates to a radio reception technique and can be used in broadcasting receiving devices (RPUs), especially in automotive RPUs, for converting the frequency of the VHF band signals of the OIRT (domestic) into the frequency interval of the VHF band of foreign FM equipment of the CCIR standard (or vice versa).

 Known devices that convert signals of the VHF range of the OIRT standard to signals with frequencies CCIR (VHF converter) containing an input circuit, using communication elements connected to an antenna, an input amplifier, a local oscillator frequency converter, and communication elements of the converter output with the antenna input of a serviced RPU.

 Closest to the proposed device is a converter containing an input circuit, a local oscillator frequency converter, and elements of communication with the antenna and the input of the RPU.

 A common drawback of these devices is the need to switch the input of the RPU directly to the antenna (when the RPU is running without a converter) or the input of the RPU to the output of the converter, and the antenna to the input of the latter (when working with range conversion). These disadvantages are further exacerbated if the RPU is multi-range. In the car receiver, the need for additional converter switching distracts the driver, clutters the control panel and significantly reduces the reliability of the converter-RPU system.

 The aim of the invention is to simplify the device by providing switching-free reception of signals in two (or several) ranges.

 This is achieved by the fact that an output circuit connected to the output of the local oscillator converter, and an output communication element, the input communication element, one of the outputs of which is an input for connection, are introduced into a converter for a radio receiver containing an input communication element, an input circuit and a local oscillator frequency converter antennas, and an output communication element, one of the outputs of which is an output for connecting to the antenna input of the radio receiver, are connected in series and made in the form of inductors, input to The circuit is tuned to the frequency range being converted, and the output circuit is tuned to the converted frequency range.

 In addition, the communication elements in the converter for the radio receiver-inductor are included in the opposite direction.

 The drawing shows a diagram of a converter for a radio receiver.

 It contains an input coupling element 6, an input circuit 2 inductively coupled to it and a local oscillator of frequency converter 1, an output circuit 5 connected to the output of the heterodyne frequency converter 1, and an output communication element 7, the input communication element 6, one of the terminals of which is an input 3 for connecting the antenna, and the output communication element 7, one of the terminals of which is output 4 for connecting to the antenna input of the radio receiver, are connected in series and made in the form of inductors, input circuit 2 is configured to convertible frequency range, and the output unit 5 - in the converted frequency band. In addition, inductors 6 and 7 are included in the opposite direction. Circuit 8 sets the oscillation frequency of the local oscillator of the frequency converter 1.

 The specific implementation of the converter for a foreign-made radio having the FM range of the CCIR standard 88-108 MHz, while the domestic VHF broadcasting is carried out according to the OIRT standard in the range 66-73 MHz (converting range). As a heterodyne frequency converter, the K174PS1 chip was used. The heterodyning frequency is chosen equal to ≈165 MHz. Then the converted frequency range occupies a section of 165 MHz - (66-73) MHz = 99-92 MHz and fits into the lower part of the CCIR range, without interfering with the direct reception of FM broadcasting, which is conducted at frequencies of 101-104 MHz. Thus, imported equipment becomes using a two-standard CCIR / ОIRT converter. As a result, in the conditions of Moscow, 7 OIRT channels are added to 3 CCIR channels. The converter has small dimensions (64x35x15 mm), weight (50 g) and quite economical.

Claims (2)

 1. A converter for a radio receiver, comprising a communication input element, an input circuit and a heterodyne frequency converter, connected in series, characterized in that, in order to simplify by providing signal-free reception of signals in two ranges, a series-connected output circuit connected to the output of the heterodyne converter is introduced into it frequency, and the output communication element, and the input communication element, one of the conclusions of which is an input for connecting the antenna, and the output communication element, one of the conclusions of which is the output for connecting to the antenna input of the radio receiver, are connected in series and made in the form of inductors, the input circuit is tuned to one frequency range, and the output circuit to another frequency range of the received signals.  2. The converter according to claim 1, characterized in that the inductors are included in the opposite direction.