RU64454U1 - RADIO RECEIVER - Google Patents

Abstract

The utility model relates to radio engineering and can be used for radio communications.

The objective of the utility model is to increase the selectivity and sensitivity of the radio receiver to increase the reliability of the radio and increase the number of receive channels.

The problem is achieved in that in a radio receiver containing an antenna, the signal from which is fed to the input of the radio frequency amplifier, the output of which is connected to the first input of the first frequency converter, and the signal from the output of the first local oscillator, the input of which is like the input of the second local oscillator is connected to the reference frequency generator, while the output of the first frequency converter is connected to the input of the first IF filter, the output of which is connected to the first input of the second converter frequency converter, the output of the second local oscillator is connected to the second input of the second frequency converter, as well as the second IF amplifier, the output of which is connected to the output devices and the control and monitoring device, in the radio receiver the second parallel connected to the first local oscillator is tunable, and an additional filter connected in parallel the second inverter "pressing" and the filter of the second inverter "pressing",

the inputs of which are connected to the output of the second frequency converter, and the outputs to the input of the frequency amplifier of the second IF, while the frequency correction signal from the control and monitoring device is directly fed to the reference frequency signal generator, and the control and monitoring device is implemented with a discrete programmable potentiometer inserted into it memory.

Description

The utility model relates to radio engineering and can be used for radio communications.

Known radio receivers (RPU) for receiving signals in the short-wave (KB) range [1]. The radio signal entering the RPU input is subjected to frequency and amplification conversion and then goes to the output device, which can be used as a microcontroller or other devices that carry out signal demodulation and processing. As a frequency stabilization system, frequency synthesizers and frequency multipliers are used, which are synchronized by a reference oscillator with high frequency stability. The control and monitoring system of such RPUs includes a keypad, information board or equivalent forms of control and indication.

The disadvantage of such RPUs is the difficulty of constructing a frequency synthesizer with a large number of reception channels, or a small number of reception channels with a simplified frequency synthesizer.

Closest to the proposed is the RPU [2] company ROHDE & SCHWARZ, designed for uninterrupted and searchless communication with a discrete frequency setting, operating in

10 kHz ... 30 MHz band. In the main reception path, a double frequency conversion is performed. In this case, the first local oscillator is tunable, and the second generates a signal at one frequency. After the second conversion, the signal of the second intermediate frequency (IF) is fed to the output device.

However, the disadvantages of the prototype device also include a small number of reception channels and insufficient selectivity.

The objective of the utility model is to increase the selectivity and sensitivity of the radio receiver to increase the reliability of the radio and increase the number of receive channels.

The problem is achieved in that in a radio receiver containing an antenna, the signal from which is fed to the input of the radio frequency amplifier, the output of which is connected to the first input of the first frequency converter, and the signal from the output of the first local oscillator, the input of which is like the input of the second local oscillator is connected to the reference frequency generator, while the output of the first frequency converter is connected to the input of the first IF filter, the output of which is connected to the first input of the second converter Vatel frequency, the output of the second oscillator connected to the second input of the second inverter and a second inverter amplifier whose output is connected with the output devices and a control device and controls, in radio receiving apparatus of the second

connected in parallel to the first local oscillator is tunable, and a second “pressing” second filter and a second “pressed” filter are connected in parallel, the inputs of which are connected to the output of the second frequency converter, and the outputs with the input of the frequency amplifier of the second frequency converter, while the frequency correction signal from the control and monitoring device it is directly fed to the reference frequency signal generator, the control and monitoring device being implemented with a discrete potentiometer with reprograms introduced into it memory.

Figure 1 shows the functional diagram of the proposed RPM, comprising an antenna 1, an input filter 2, a radio frequency amplifier 3, a first converter 4, a first IF filter 5, a first local oscillator 6, a second local oscillator 7, a reference frequency signal generator 8, a second frequency converter 9, the filter for pressing the second inverter 10, the filter pressed out of the second inverter 11, the amplifier of the second inverter 12, output devices 13, power device 14, control and monitoring devices 15.

The developed short-wave RPU works as follows:

the received signal in the antennas 1 through the input filter 2 and the radio frequency amplifier 3 is fed to the first frequency converter 4, the second input of which receives a signal from the first local oscillator 6. The first local oscillator 6 represents a phase-locked loop (PLL) and is tuned with a resolution of 10 kHz. First IF signal with

the output of the first converter 4 through the filter of the first inverter 5 is fed to the second frequency converter 9, the second input of which receives a signal from the second local oscillator 7. The second local oscillator 7 is also a PLL and tuned with a resolution of 1 kHz. The signal of the second inverter from the output of the second converter 9 is fed to the filter of the second inverter "pressing" 10 and the filter of the second inverter "pressing" 11. The band of each of the filters of the second inverter has a passband of about 100 Hz. Further, this signal through the amplifier of the second inverter 12 is supplied to the output device 13.

The output devices 13 include: a group filter of the second IF, a third frequency converter that reduces the signal frequency to 3 kHz, a frequency demodulator, a device for digital processing of the demodulated signal with an output to an indicator board, a personal computer and a sound reproducing sound control device.

The control and monitoring device 15 generates commands to control the device via the keyboard, and also generates signals indicating the operability of the device.

A highly stable crystal oscillator of the reference frequency signal 8 synchronizes the PLL of the first and second local oscillators and has a remote frequency correction input.

The main differences of the proposed RPU include:

- implementation of the second local oscillator in the form of a narrow-band PLL with a discrete tuning of 1 kHz to ten frequencies. The use of a tunable quartz oscillator in it makes it possible to substantially increase the spectral characteristics of the output signal by not less than 10 times with a significant increase in the number of communication channels. Reducing the frequency discreteness in the first local oscillator while maintaining the second local oscillator single-frequency would significantly complicate the circuit design of the first local oscillator or would significantly degrade the signal quality with a simplified (as in our case) construction.

- the introduction of two filters of the second IF with pass bands of 100 Hz each for the frequencies of “pressing” and “squeezed” in addition to one common filter with a band of about 700 Hz allows to increase the selectivity and sensitivity of the device to the root of the ratio of the bands, i.e. 2.65 times.

- the introduction of a discrete potentiometer with reprogrammable memory into the control and monitoring device with the ability to control it from the control panel made it possible to correct the frequency of the reference generator without opening the entire device, which increased the convenience of operation.

The introduction of these improvements has significantly improved the performance and radio reception of the proposed RPU.

Information sources:

1. "Radio receivers" RV Uvarov, V.I. Khilenko. M. Radio and communications. 1989.S. 224. fig. 11.3

2. “World-class KB receiver” A.L. Kulsky. Science and technology. 2000, p. 74, Fig. 74.

Claims (1)

A radio receiver comprising an antenna, the signal from which is fed to the input of the frequency amplifier, the output of which is connected to the first input of the first frequency converter, and the signal from the output of the first local oscillator, the input of which, like the input of the second local oscillator, is connected to the reference generator frequency, while the output of the first frequency converter is connected to the input of the filter of the first intermediate frequency, the output of which is connected to the first input of the second frequency converter, the output of the second the local oscillator is connected to the second input of the second frequency converter, as well as an amplifier of the second intermediate frequency, the output of which is connected to the output device and a control and monitoring device, characterized in that in the radio receiving device the second local oscillator connected in parallel is tunable, additionally connected in parallel a filter of the second intermediate pressing frequency and a filter of the second intermediate pressing frequency, the inputs of which are connected to the output of the second frequency converter s, and the outputs with the input of the amplifier of the second intermediate frequency, while the frequency correction signal from the control and monitoring device is directly fed to the reference frequency generator, and the control and monitoring device is made with a discrete potentiometer with reprogrammable memory inserted into it.