KR830000893Y1 - Broadcast repeater - Google Patents

Abstract

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Description

Broadcast repeater

1 is a configuration circuit for explaining the apparatus.

2 is a specific example of a known frequency converter.

3 is a conversion frequency waveform of each stage.

The present invention transmits radio waves to the internal aerial of the tunnel without the need to introduce external air lines in underground constructions. It is about.

In the conventional broadcast relay device, the signal generated as a local oscillator is simultaneously applied to the receiver side and the transducer, so that the signal of the transmitter side is induced and combined to the receiver side. The bandpass filter must be combined with the bandpass filter, and even when the bandpass filter is used, the self-oscillation phenomenon is sufficiently eliminated and can be used only for low power transmission.

The present invention has been devised to correct these shortcomings, obtain high quality radio waves, and to transmit at a high frequency and to transmit at a stable frequency compared to the stratified amplification method. .

A portion of the constant frequency f ₁ signal of the radio wave obtained from the coupling circuit 2 of the antenna 1 and the oscillation frequency f ₂ signal of the local oscillator 6 is transferred from the first converter 3 toward the receiver 111. The amplified output of the intermediate frequency (f ₀ ) signal obtained by mixing and amplifying it with an amplifier (4) (5) (9) and the remaining signal output of the local oscillator (6) at the second converter (10) at the transmitter (333) side. In the known ones, the remaining signal of the oscillation frequency f ₂ by the local oscillator 6 is amplified by the amplification unit 222 composed of the multistage buffer amplifiers 7 and 8 and the intermediate frequency described above. The amplified output and the second converter 10 on the transmitter side are mixed to reduce the frequency of radio waves obtained from the antenna 1 coupling circuit 2.

The reduced radio waves are emitted to the underground air line through the amplifier 11, the band pass filter 12, the antenna matching transformer 14, and the antenna 14.

The present invention local oscillator (6) in the process of mixing and amplifying the constant frequency (f ₁ ) signal of the radio wave obtained from the antenna (1) coupling circuit (2) with the oscillation frequency (f ₂ ) signal of the local oscillator (6) as described above A multi-stage buffer amplifier (7), which mixes a portion of the frequency (f ₂ ) signal and amplifies the intermediate frequency amplified output amplified by the amplifier (4) (5) and the rest of the frequency (f ₂ ) signal of the local oscillator (6). The output amplified separately by the amplifying unit 222 (8) is mixed in the second converter side of the transmitter and reduced to the frequency of the original received radio wave, thereby reducing the equivalent circuit electrical shielding effect of the multistage buffer amplifier (7) (8). By effectively blocking the flow of the signal from the transmitter side to the receiver side, it is possible to obtain a stable transmission radio wave of high quality as well as to transmit high power.

The technical gist of the present invention is described in detail as an embodiment as follows.

The radio wave of 711KHZ (f ₁ ) entering the coupling circuit 2 through the antenna 1 is mixed with the oscillation frequency 500KHZ (f ₂ ) by the local oscillator 6 at the first converter 3 toward the receiver 111. .

In the local oscillator 6, the oscillation frequency is stabilized by the crystal oscillator and a part of the output is supplied to the frequency converter 3 of the receiver 111. At this time, the radio wave mixed in the frequency converter 3 is 211 KHZ and 1211 KHZ. It is represented by two frequencies (711 KHZ ± 500 KHZ = 211 KHZ or 1211 KHZ). These two frequencies are stabilized by passing only the frequency of 211 KHZ in the tuning circuit (not shown) of the intermediate frequency amplifier (4) (5), and is transmitted from the receiver 111 to the transmitter as a 50Ω coaxial cable. At this time, since the receiver 111 and the transmitter 333 are built in a separate metal box so as to be completely shielded, the input / output is composed of only a coaxial cable. Since the frequency amplified to intermediate frequency 211 KHZ (f ₀ ) is independent of the antenna input propagation frequency, the output of the intermediate frequency without self oscillation and high frequency oscillation is obtained.

On the other hand, a part of a signal in which a stable frequency is oscillated by crystal oscillation to the local oscillator 6 (as described above, a part is supplied to the receiver 111 and transmitted from the multistage buffer amplifiers 7 and 8 of the amplifier 222). The output of the amplified local oscillation frequency f ₂ is supplied to the transmitter 333 by a 50 ohm coaxial cable, and the transmitter 333 returns to the original reception frequency. Received radio waves by mixing the intermediate frequency f ₀ output of the receiver 111 amplified by the amplifier 9 in the second converter 10 with the increased output of the frequency signal by the local oscillator 6. The frequency converter 10 has a known configuration as shown in Fig. 2 or the intermediate frequency f ₀ output as described above is connected to the base of the transistor star and is localized. Amplified work of oscillator (6) Since the local oscillator frequency (f ₂₎ is connected to the emitter of the G-Star Tran other two frequencies are electrically coupled.

In this case, the frequency converted by the converter 10 is 211 KHZ (f ₀ ) ± 500 KHZ (f ₂ ) = 711 KHZ or 289 KHZ, but 289 KHZ is removed from the coil tuning circuit (T ₂ ) of the mixed amplifier. Only the frequency of 711 KHZ which is the same as the frequency input from the antenna remains.

The reduced frequency is amplified by only one step in the high frequency amplifier 11, which is a conventional transmitter amplification unit, and transmitted to the aerial line in the underground structure via the band pass filter 12 and the antenna matching circuit 13 and 14.

In this embodiment, the amplifiers (4), (5), (9), and (11) of the modulated signal generally perform class A amplification, and the modulated signal amplifiers (7) and (8) amplify to class C. It was.

The general basic circuit of the frequency converter is shown in Figure 2, and the waveform of the converted frequency is shown in Figure 3.

Claims (1)

The amplification output and the local oscillator 6 of the intermediate frequency signal obtained by mixing and amplifying a predetermined frequency signal of radio waves obtained from the antenna 1 coupling circuit and a part of the oscillation frequency signal of the local oscillator 6 in the receiver-side first converter 3 In combining the remaining signal outputs of the transmitter at the transmitter-side second converter 10, the remaining signals of the local oscillator 6 are separately amplified by the multistage buffer amplifiers 7 and 8, and the outputs are outputted at the transmitter-side second converter. Broadcast repeater characterized in that the mixing with the intermediate frequency boost output.