RU9560U1 - RADIO CONVERTER - Google Patents

Abstract

1. A converter for a radio receiver comprising a local oscillator frequency converter, the first input of which is connected to an input circuit configured to one frequency range, the second input is connected to a circuit specifying the oscillation frequency of the local oscillator, and the output is connected to an output circuit configured to a different frequency range, and input and output communication elements connected respectively to the input and output circuits, characterized in that it is placed in a housing of shielding material with holes for the input and output connectors additionally contains a low-pass filter in the form of a choke, a first capacitor and a second capacitor, and the element that sets the oscillator frequency is made in the form of a quartz resonator, while the first capacitor is connected between the first output of the input communication element and the first output of the inductor, the second capacitor is connected between the first the output of the output communication element and the second output of the throttle, the second conclusions of the input and output communication elements are grounded, the first output of the throttle, which is the input of the converter, is connected to the input p zemom for connection to a radio antenna and the second output inductor, the output of the converter being connected to the output connector for connection to the aerial input radiopriemnika.2. The converter according to claim 1, characterized in that the housing is detachable. The converter according to claim 1, characterized in that the housing is provided with an additional hole for supplying a supply voltage.

Description

RADIO CONVERTER

The invention relates to the field of radio engineering and can be used in household radio equipment to expand the range of received frequencies, in particular in car radios, to convert the frequency of VHF signals - the range of the OIRT standard (domestic) 64.5-75 MHz and CCIR 88-108 MHz in the range 76-90 MHz, or SSH standard range. 88-108 MHz in the range of the OIRT standard 64.5-75 MHz.

A known conversion circuit of the input signal of the radio Converter according to the patent of the Russian Federation No. 1798923, N 04 V 1/06, publ. 02/28/93. Bull. No. 8, containing input and output communication elements, input and output circuits, as well as a heterodyne frequency converter and providing signal-free reception of signals in two ranges due to the fact that the input and output headers are tuned to different frequency ranges of the received signals.

Known closest to the proposed technical solution, the conversion scheme of the input signal of the radio receiver is a converter according to the patent of the Russian Federation No. 2024197, N 04 V 1/06, publ. 11/30/94. Bull. No. 22, containing a serially connected input coupling element, an input circuit, a local oscillator frequency converter, a circuit defining a local oscillation frequency, and serially connected output circuit connected to the output of the local oscillator converter, and a C11 input communication element,

MPK6N04V1 / 06

connecting the antenna, and the output communication element, one of the outputs of which is an output for connecting to the antenna input of the radio receiver, is connected in series and made in the form of inductors, the input circuit is configured for the converted frequency range, and the output circuit is for the converted frequency range.

A disadvantage of the known schemes for converting the input signal of the radio receiver is that when they are used, the accuracy of tuning the radio receiver to a given frequency is low. This is due to the instability of the frequency of the output signal of the getfody converter, and due to the fact that the circuit that sets the oscillation frequency of the local oscillator is made on LC elements with low thermal stability. In addition, when using such converters, reception of radio signals of CB, KB, and DV ranges is not provided. In addition, placing the converter in one housing with a radio receiver reduces the noise immunity of the latter and reduces the manufacturability of connecting the converter to the radio receiver.

The invention is aimed at solving the problem of improving the accuracy of tuning the radio receiver to a given frequency and providing the possibility of receiving radio signals of CB, KB and DS ranges when using a converter, as well as solving the problem of increasing the noise immunity of the radio and the manufacturability of connecting the converter to the latter.

The essence of the invention lies in the fact that in a converter for a radio receiver containing a local oscillator frequency converter, the first input of which is connected to an input circuit configured to one

frequency range, the second input is connected to an element that sets the oscillation frequency of the local oscillator, and the output is connected to an output circuit configured to a different frequency range, and input and output communication elements connected respectively to the input and output circuits, it is proposed to additionally introduce a housing from E1 with openings for the input and output connectors and a low-pass filter in the form of a choke, a first capacitor and a second capacitor, and the element that sets the oscillation frequency of the local oscillator is made in the form of quartz about the resonator, while the first capacitor is connected between the pth output of the input coupling element and the first output of the inductor, the second capacitor is connected between the first output of the output communication element and the second output of the inductor, the second outputs of the input and output communication elements are grounded, the first inductor output, which is the input the converter is connected to the input connector for connecting to the antenna of the radio, and the second output of the throttle, which is the output of the converter, is connected to the output connector for connecting to the antenna input of the radio

In this case, the housing can be made detachable, and can also be equipped with an additional hole for supplying voltage.

In the proposed converter for a radio receiver, the execution of a loop defining the oscillator frequency of the local oscillator in the form of a quartz resonator helps to increase the stability of the frequency of the output signal of the local oscillator converter, which ultimately increases the accuracy of tuning the radio receiver to a given frequency when using the converter.

communication output element, provides the ability to receive radio signals of CB, KB and DV ranges.

Placing the converter in a housing made of shielding material with holes for the input and output connectors for connecting to the antenna and antenna input of the radio receiver, respectively, eliminates the influence of spurious signals and increases the noise immunity of the radio receiver, as well as improves the manufacturability of connecting the converter to the radio receiver, since it is not required to connect the converter mount disassemble the radio.

The housing is detachable and the presence in the housing of an additional hole for supplying voltage also helps to improve the manufacturability and ease of connecting the converter to the radio.

In FIG. 1 shows a diagram of the proposed Converter, in FIG. 2 shows an example of the design of the converter.

The converter contains a 1-gegfodyne frequency converter 1, the first input of which is connected to the input circuit 2, the second input is connected to the element 3, which sets the oscillation frequency of the local oscillator, and the output is connected to the output circuit 4. The input circuit 2 is inductively connected to the input communication element S. The output circuit 4 is inductively connected to the output element 6 of the connection. The inductor 7, the first capacitor 8 and the second capacitor 9 form a low-pass filter.

In this case, the first capacitor 8 is connected between the first output of the input communication element 5 and the first output of the dfossel 7, the second capacitor 9 is connected between the first output of the output communication element 6 and the second output of the inductor 7. Second outputs of the input and output elements 5.6

communications are grounded. The first output of the inductor 7 is the input of the converter and connected to the input connector 10 for connecting to the antenna of the radio, and the second output of the inductor 7 is the output of the converter and connected to the output connector 11 for connecting to the antenna input of the radio. The input voltage Un of the heterodyne frequency converter 1 is connected to an external power source through an RC filter 12.

The heterodyne converter 1 can be implemented, for example, on the K174PS1 microcircuit, which is a double balanced signal mixer, the frequency of which does not exceed 200 MHz. Input circuit 2 is an oscillatory LC circuit tuned to the frequency range to be converted, and output circuit 4 is an LC oscillatory circuit tuned to the converted frequency range. Element 3, which sets the oscillation frequency of the local oscillator, is a quartz resonator. The input coupling element 5 and the output coupling element 6 are inductors.

An example of a structural embodiment of the converter is shown in FIG. 2. The electrical circuit of the converter is made on a printed circuit board 13 of foil fiberglass. The board 13 is soldered into the housing 14, in which a hole is made for the input connector 10, an opening for supplying a cable 15 connected to the output connector 11, and an opening for a wire 16 for supplying a supply voltage Un. The cable 15 and the hose 16 are inserted into the housing 14 through the bushings 17 and 18, respectively. The housing 14 can be made, for example, of tin and be a box with overall dimensions of 40x40x25 mm, having removable covers (not shown in the figures). The input connector 10 can be made in the form of a socket soldered into the housing 14 for

connecting the antenna, and the plug-in connector 11 is made in the form of a plug connected to the cable 15.

The converter operates as follows.

Through the input connector 10 to the Converter, equipped with an autonomous housing 14, connect the antenna of the radio receiver, and through the connector 11, the converter is connected to the antenna input of the radio. Wire 16 is connected to an external power source, such as a battery. When a supply voltage is applied to the high-frequency component in the signal of the radio station received by the antenna of the radio receiver, it passes through the input element 5 to the input circuit 2, tuned to the frequency range to be converted, and then to the input of the heterodyne converter 1, to the second input of which the signal & given high-frequency frequency from the output of a quartz resonator. In the heterodyne converter 1, both signals are mixed, as a result of which the output signal of the converter 1 contains components having both a frequency (fb + fe) and a frequency (fe-fe). So, for example, the frequency of the radio station is 100 MHz. is outside the operating range of the U-FM 76-90 MHz radio receiver. When using the converter, the frequency of the 18 MHz quartz resonator is subtracted from the frequency of the received signal of 100 MHz, and a signal with a frequency of 82 MHz is located at the output of the converter, which is in the operating frequency range of the radio receiver. If the received signal lies in the range of 64.5-75 MHz, then as a result of summing the signals fe and 6 (70 MHz + 18 MHz), a signal with a frequency of 88 MHz will be obtained, which is within the operating frequencies of the radio receiver. When converting the U-FM band 88 108 MHz to the VHF band 64, 5 - 75 MHz, a quartz resonator with

frequency fe, lying within 25-30 MHz. The converter setting is reduced to setting the highest gain of the input signal by selecting the capacitance of the capacitor of the output circuit 4 in the range from 8 to 40pF.

The low-frequency component of the signal received by the antenna (i.e., the component of the signal whose frequency lies in the CB, KB, LW ranges) through the low-pass filter formed by the inductor 7 and the capacitors 8.9, goes without distortion through the output connector 11 of the converter to the ac radio input

Thus, when using the proposed converter, the accuracy of tuning the radio receiver to a given frequency is increased by increasing the frequency stability of the output signal of the heterodyne converter, which is due to the high frequency stability of the quartz resonator. In addition, it is possible to receive radio signals of CB, KB and LW frequency ranges by filtering the low-frequency component of the signal received by the antenna of the radio receiver. In addition, the noise immunity of the radio receiver and the adaptability of connecting the converter to the latter are increased due to the placement of the converter in an autonomous housing.

Claims (3)

1. A converter for a radio receiver comprising a local oscillator frequency converter, the first input of which is connected to an input circuit configured to one frequency range, the second input is connected to a circuit specifying the oscillation frequency of the local oscillator, and the output is connected to an output circuit configured to a different frequency range, and input and output communication elements connected respectively to the input and output circuits, characterized in that it is placed in a housing of shielding material with holes for the input and output connectors additionally contains a low-pass filter in the form of a choke, a first capacitor and a second capacitor, and the element that sets the oscillator frequency is made in the form of a quartz resonator, while the first capacitor is connected between the first output of the input communication element and the first output of the inductor, the second capacitor is connected between the first the output of the output communication element and the second output of the throttle, the second conclusions of the input and output communication elements are grounded, the first output of the throttle, which is the input of the converter, is connected to the input p zemom for connection to a radio antenna and the second terminal of the choke, the output of the converter being connected to the output connector for connection to the aerial input of the radio.  2. The converter according to claim 1, characterized in that the housing is detachable. 3. The converter according to claim 1, characterized in that the housing is equipped with an additional hole for supplying voltage.