JPS63294138A - Interference detecting type diversity receiver - Google Patents

Abstract

PURPOSE:To attain excellent calling, by detecting the interference ratio of desired wave and undesired wave in one and the same channel by means of an interference detecting means and, when the interference ratio reaches a prescribed value, switching antennas. CONSTITUTION:A change-over switch 3 which switches a 1st and a 2nd antennas 1 and 2 and interference detecting circuit 5 which detects interference based on signals received by means of a receiver 4 for receiving RF signals from the antenna 1 or 2 are provided and the ratio of the desired wave and the undersired wave is detected with the circuit 5. When the interference ratio becomes a fixed level or below, the antennas 1 and 2 are switched to each other by operating the switch 3. Namely, when, for example, the 1st antenna 1 is used, the antenna 1 is switched to the other antenna 2 which is less in interference. Therefore, communication of high calling quality can be carried out.

Description

[Detailed description of the invention] [Table of contents] Overview Industrial field of application Conventional technology Problems to be solved by the invention Means for solving the problems (Fig. 1) Working examples (Figs. 2 and 3) Figure) Effects of the invention [Summary] Guihaschi reception method that prevents interference due to same frequency interference and enables good communication by detecting the amount of interference and performing diversity operation [Industrial application field] The present invention The present invention relates to an interference detection type diversity reception system, and particularly relates to an interference detection type diversity reception system that allows good communication quality to be maintained even when frequency allocation is small in a mobile communication system.

[Conventional technology]

Conventionally, in mobile communication systems, the same frequency is used repeatedly, especially when the frequency allocation is small. In such cases, co-frequency interference occurs. In order to prevent the deterioration of call quality due to such interference, conventional methods have been adopted in which when interference occurs, either one of the two parties disconnects the call or switches channels.

[Problem that the invention seeks to solve]

In conventional mobile communication systems, when a large number of frequencies are allocated, co-frequency interference does not occur because the same frequency is not used repeatedly. However, when the frequency allocation is small, co-frequency interference occurs as described above. If there is only one channel in frequency allocation, it is difficult to completely eliminate the interference as described above, which poses a major problem in terms of the system.

[Means for solving problems]

In order to solve the above-mentioned conventional problems, the present invention
The amount of interference is detected and the antenna is switched based on the detected value.

FIG. 1 is a detailed explanatory diagram of the present invention, in which 1 is a first antenna, 2 is a second antenna, 3 is a switch for switching between antennas 1 and 2, and 4 is antenna 1.
5 is an interference detection circuit that detects interference based on the signal received by the receiver REC, and this circuit includes a reference value output circuit 6 and a reference value output circuit 6; A comparison circuit 7 is provided to detect interference by comparing it with a reference value output from the value output circuit.

The interference detection circuit 5 as described above detects the interference ratio between the desired wave (D wave) and the interference wave (U wave).

Then, when this interference ratio falls below a certain level (for example, a value that allows S/N up to 20 dB), the selector switch 3
Switch the antenna by switching . In this way, for example, if the first antenna 1 is used initially, the system switches to the second antenna 2 and selects the antenna with less interference, allowing communication with good call quality. It is.

[Effect]

According to the interference-detection-type signal receiving system according to the present invention, it is possible to utilize the property that there is a low probability that two antennas will cause large interference at the same time due to the effect of fading due to the phase difference of incoming radio waves between the two antennas. This can improve call quality.

〔Example〕

Hereinafter, one embodiment of the present invention will be described based on FIGS. 2 and 3. FIG. 2 is a configuration diagram of an embodiment of the present invention, and FIG. 3 is an explanatory diagram of the operation of the present invention, which explains the Guihaschi principle based on interference detection.

In FIG. 2, parts with the same symbols as those in FIG. 1 indicate the same parts. In FIG. 2, 8 is a logarithmic detection circuit, 9 is a bypass filter, 10 is a rectifier circuit, 11 is a low-pass filter, 12 is an initial setting circuit, and 13 is a speaker.

The interference detection circuit 5 includes a logarithmic detection circuit 8 that extracts the intermediate frequency output from the receiver 4 and performs logarithmic detection, and a bypass filter that extracts an alternating current component from the output of the logarithmic detection circuit 8 and removes fading. 9, a rectifier circuit 10 for fully rectifying the output of the bypass filter 9, a low-pass filter 11, a comparison circuit 7, a reference value output circuit 6 that outputs a reference value to this comparison circuit, and a changeover switch circuit 3.
An initial setting circuit 12 etc. for switching is provided.

Now, when the receiver is powered on, the selector switch 3 is operated by a signal from the initial setting circuit 12, and the antenna is set to the first antenna 1, for example, as shown in the figure. In this state, the first antenna 1 is connected to the receiver 4, and the receiver 4 starts interference detection operation. first antenna 1 to receiver 4
The RF multiplied signal entered into the receiver 4 is converted into an intermediate frequency signal in the receiver 4, and then logarithmically detected by the logarithmic detection circuit 8 in the interference detection circuit 5, and then applied to the bypass filter 9. In this case, the RF multiplied signal FM signal is used for communication, but when interference occurs, a beat occurs and an AM component is generated. Therefore, when interference occurs, the AC component generated from the AM component is extracted by the bypass filter 9, fading is removed, rectified by the rectifier circuit 10, further converted to DC by the low-pass filter 11, and then the comparator circuit 7 Sends a DC component according to the interference.

The comparison circuit 7 uses the DC voltage of the interference ratio set in the reference value output circuit 6 and the low-pass filter 1 using the interference wave.
1, and when an amount of interference equal to or greater than a certain amount set by the reference value output circuit 6 is detected, the comparison circuit 7 sends a control signal to the initial setting circuit 12. Thereby, the initial setting circuit 12 controls the changeover switch 3 to switch from the first antenna 1 to the second antenna 2.

Thereafter, similar operations are repeated to continue mobile communication.

Figure 3 shows the RF obtained from antennas 1 and 2 in Figure 2.
It is a double signal waveform diagram illustrating the relationship between a desired wave (D) and an interfering wave (U). In the figure, DI is the desired wave obtained from the first antenna 1, D2 is the desired wave obtained from the second antenna 2, U is the interference wave obtained from the first antenna 1, and U2 is the desired wave obtained from the second antenna 2. This is the interference wave obtained from The above interference ratio is the ratio of the desired wave to the interference wave, that is, the value of D/U, and the smaller the value of this interference ratio D/U, the greater the interference, and the larger the value of D/U, the greater the interference. The interference will be small. Therefore, the value of D/U is the reference value (
For example, the antenna is switched when the signal is below 1.5 dB). In the case of FIG. 3, for example, at time t0, UI is large but DI is also larger, so D
The value of I/OI is relatively large, and the first antenna 1
This allows for good communication. Also, for example, time 1.
Then, since Ul is a large value and DI is a small value, the value of D+/U+ becomes small, indicating that the interference is large. In this case, the first antenna 1 is
It is necessary to switch to antenna 2.

At this time t1, the Dz/UzO value is large, and the second antenna 2 allows good communication.

In the above case, the desired wave (D) and the interference wave (U) are:
Assume no correlation.

〔Effect of the invention〕

As explained above, according to the present invention, since the amount of interference is detected and the antenna is switched, it is possible to improve the call quality and effectively utilize frequencies. For example, even if the frequency allocation is small and, for example, only one channel is given to the system, it is possible to make calls with good quality to multiple parties within a certain interference level as long as they are separated by a certain distance. be.

[Brief explanation of drawings]

FIG. 1 is an explanatory diagram of the principle of the present invention, FIG. 2 is a configuration diagram of an embodiment of the present invention, and FIG. 3 is an explanatory diagram of the operation of the present invention. 1-1-First antenna 2-Second antenna 3-
Switching switch 4-Receiver 5-Interference detection circuit 6-Reference value output circuit 7-Comparison circuit

Claims (1)

[Claims] A diversity reception system comprising a plurality of antennas (1, 2) and a switching means (3) for switching between these antennas, comprising: a reception means (4) and an interference detection means (5). , The interference detection means (5) detects the interference ratio (D/U) between the desired wave (D) and the interference wave (U) on the same channel, and the value of this interference ratio (D/U) reaches a predetermined value. When
An interference detection diversity reception system characterized by switching antennas.