JP3111359B2 - Automatic antenna switching device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an antenna for a television receiver and, more particularly, to an automatic antenna switching device for selecting an antenna in an optimum receiving state from a plurality of antennas.

[0002]

2. Description of the Related Art A communication system (diversity reception system) having a plurality of antennas and selecting an antenna having the best reception state is widely known as a reception system of a television receiver mounted on an automobile, for example. ing.

FIG. 5 is a block diagram showing an automatic antenna switching device of a television receiver (hereinafter, referred to as a TV receiver) mounted on an automobile. The antennas 1a to 1d are provided outside the vehicle or inside the vehicle body pillar, and one of the antennas having the best reception state is selected and connected to the TV receiver. That is, the antenna switching circuit 3 controlled by the controller 2 performs a switching operation to connect any one of the antennas to the TV receiver 4.

A clamp circuit 5 receives a video signal from a video terminal of the TV receiver 4 and clamps a synchronization pulse level value of the video signal. Also, this clamp circuit 5
During the vertical blanking period, the reception level signals of the antennas 1a to 1d are generated based on the level value of the clamped synchronization pulse.

The reception level signal generated by the clamp circuit 5 is sampled by sample-and-hold circuits 6a to 6d corresponding to the respective antennas 1a to 1d.
Is

The maximum level detection circuit 7 detects the largest reception level signal held by the sample hold circuits 6a to 6d from the sample hold circuits 6a to 6d, and controls this detection signal. Send to La2.

The controller 2 switches the antenna switching circuit 3 in response to the synchronization signal and the detection signal. That is, the antenna having the highest reception level is selected based on the detected maximum reception level signal.

In addition, the synchronization signal detecting circuit 8 extracts vertical and horizontal synchronization signals from the video signal in order to switch the antennas 1a to 1d within the vertical blanking period of the video signal. The timing for sequentially switching 1d, the operation timing of the sample hold circuits 6a to 6d, and the like are performed according to the detection signal of the detection circuit 8.

The switching operation of the above automatic antenna switching device will be briefly described. In the previous antenna switching operation,
For example, when the antenna 1a is selected and the TV receiver 4 is forming an image by receiving the antenna 1a, when one image ends and the image signal enters a vertical retrace interval, the antennas 1a to 1d are set to, for example, 1a, 1b, 1c, and 1d.
Is controlled by the controller 2.

Thus, the clamp circuit 5 is connected to each antenna 1
The reception level signals are sequentially generated in accordance with the reception of signals a to 1d, and the reception level signals are held by the sample hold circuits 6a to 6d corresponding to the antennas 1a to 1d. The reception level signal thus held is detected by the maximum level detection circuit 7 to detect the largest level signal, and this detection signal is sent to the controller 2.

In response to the detection signal, the controller 2 switches the antenna switching circuit 3 so as to select the antenna having the highest reception level. Therefore, if the antenna selected at this time is, for example, the antenna 1b, the current image of the TV receiver 4 is received by the antenna 1b.

[0012] When one video of this time ends and the video signal enters a vertical blanking period, the antennas 1a to 1d are sequentially switched in the same manner as described above, and then the antenna having the highest reception level is selected and the next video is selected. Is performed.

[0013]

In the automatic antenna switching device described above, when the reception levels of the antennas 1a to 1d approach, the antenna switching is frequently performed.
In some cases, the screen of the V-video device 4 flickers due to a change in the ghost, resulting in an unsightly image. Various solutions have been developed to solve such a problem, but new problems have arisen, such as an increase in the number of components and an increase in the complexity of assembly.

SUMMARY OF THE INVENTION An object of the present invention is to develop an automatic antenna switching apparatus for diversity reception which has a simple configuration and solves the above-mentioned problems in view of the above-mentioned circumstances.

[0015]

In order to achieve the above object, according to the present invention, an optimum receiving antenna is selected from a high frequency signal received by a plurality of antennas within a vertical blanking period of a television video signal, and the selected antenna is selected as an antenna. in the next automatic antenna switching device configured to hold the state until the vertical blanking period after switching, host a reception level signal of each antenna according to the antenna selection state - Rudosu Ru multiple e -
And field means, each of E - and control means to pick the next reception antennas in accordance with the output of the detection means for detecting the maximum reception level signal from the field unit, the above-mentioned e - in particular one of the field unit, the maximum previous Hold control means for controlling the reception level signal of the receiving antenna which has detected the reception level signal to be held, and weighting the reception level signal held by the specific hold means, and the control means By
After the next receiving antenna is selected,
Switching means for switching to reduce the weighting amount after a short time
An automatic antenna switching device characterized by comprising weighting means having

[0016]

When the television image signal enters the vertical blanking period, the reception level signal of each antenna is held by each holding means. In this case, the previous maximum reception level
The reception level signal of the antenna detecting the antenna signal is held by a specific holding means. And weighting
The reception level signal of the specific hold means is weighted by the means and compared with the reception level signal of each hold means, and the largest one is detected by the maximum level detection circuit.

When the maximum level detection circuit detects a reception level signal of a specific hold means, the control circuit determines to select the same antenna as the previous one. Also,
When the maximum reception level signal is detected from another hold means other than the specific hold means, the antenna corresponding to this reception level signal is detected by the previous maximum reception level signal.
It is controlled by the control circuit so as to select the antenna in place of the output antenna. In this way, the next antenna is selected
Then, after a lapse of a predetermined time, a specific hold means is held.
To reduce the weight of the received reception level signal.
The weighting means performs a switching operation.

The antenna selected in this way is connected to the TV receiver, and produces one screen image. When one image ends and the vertical retrace period starts again, the antenna having the highest reception level is selected in the same manner as described above, and the TV receiver broadcasts the image by receiving the selected antenna. In this manner, the antenna is automatically switched every time the video signal enters the vertical blanking period.

[0019]

Next, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a block diagram showing an automatic antenna switching apparatus according to the present invention. This automatic antenna switching apparatus is different from the conventional example shown in FIG.
Among them, the sample hold circuit 6d is configured as a specific sample hold circuit, and the weighting circuit 10 for applying a weighting voltage to the hold output voltage of the specific sample hold circuit 6d is provided. Is the feature.

That is, a specific sample hold circuit 6
d samples the reception level signal of the antenna involved in the previous image and then holds it, and controls the other sample hold circuits to sequentially sample and hold the reception level signals of the other antennas. Is controlled by the second line. For example, assuming that the antenna 1a selected last time as having the highest reception level is 1a, the reception level signal 11a of this antenna 1a is sampled by a specific sample hold circuit 6d and held as shown in FIG. Is In this case, the reception level signal 11b of the antenna 1b is sent to the sample hold circuit 6a, the reception level signal 11c of the antenna 1c is sent to the sample hold circuit 6b, and the reception level signal 11d of the antenna 1d is sent to the sample hold circuit 6c. It is sampled and held.

The same applies when the antenna 1b is selected last time. The reception level signal 11b is held by the sample hold circuit 6d, and the reception level signals 11c of the other antennas 1c are sampled. The circuit 6a holds the reception level signal 11d of the antenna 1d to the sample hold circuit 6b, and the reception level signal 11a of the antenna 1a to the sample hold circuit 6c. Similarly, when the antenna 1c or 1d is selected last time, the sample is held.

FIG. 2 is a circuit diagram showing the maximum level detection circuit 7 and the weighting circuit 10. As shown, the weighting circuit 10 includes resistors 12, 13 for applying a weighting voltage,
14 and a switching circuit including a transistor 15. The transistor 15 is turned off to control the weighting voltage of the resistors 12, 13, and 14, and the transistor 15 is turned on to control the weighting voltage of the resistors 13 and 14. I have to add it. That is, the transistor 15 is turned on and off to apply a two-stage weighting voltage.

The maximum level detection circuit 7 includes operational amplifiers 16a to 16d as shown in the figure, and has non-inverting input terminals which hold voltages 17a to 17d output as reception level signals from the sample hold circuits 6a to 6d. 17d is input. These operational amplifiers 16
The output sides of a to 16d are commonly connected via diodes 18a to 18d and operational amplifiers 16a to 16c.
For each of the diodes 18a to 18c.
The inverting input terminal of the operational amplifier 16d is connected to the anode side of a diode 18d via a weighting resistor 14. Further, the output side of each of the operational amplifiers 16a to 16d has a switching operation transistor 19a to 19a for outputting a detection signal.
d is connected.

In the maximum level detection circuit 7 configured as described above, only the operational amplifier to which the largest reception level signal (hold voltage) is input has a low voltage output. That is, only the operational amplifier that has received the largest reception level signal has a low voltage output, and the other operational amplifiers have a high voltage output. That is, since the hold voltages 17a to 17d input as the reception level signal are input as the negative voltage, the output terminal of the operational amplifier to which the largest hold voltage is input on the negative voltage side becomes the low voltage. . For example, when the hold voltage 17a is the largest, the output terminal of the operational amplifier 16a becomes a low voltage, the transistor 19a is turned on, and the detection signal of the maximum reception level signal is output by turning on the transistor 19a. In this case, the output terminals of the other operational amplifiers 16b to 16c are Hi.
gh voltage, and the transistors 19b to 9d remain OFF.

When the level values of the two reception level signals or higher reception level signals are close to each other, the operational amplifier 16d receiving the weighting voltage by the resistor 14 has a low output voltage with priority. The transistor 19d is turned on, and the hold voltage 17d is detected as a maximum reception level signal.

Next, the operation of automatic antenna switching will be described. Assuming that the antenna 1a has been selected as the one having the highest reception level among the antennas 1a to 1d, the TV receiver 4 images with a high-frequency signal received by the antenna 1a. At this time, the TV
A video signal as shown in FIG. 3 is sent from the receiver 4 to the clamp circuit 5.

[0027] One of the video is completed in the TV receiver 4, enters the video signal vertical blanking period, the clamp circuit 5 clamps the level value of the synchronous pulses P ₁ in the vertical blanking interval. In addition, by synchronizing signal detecting circuit 8 detects a horizontal synchronization pulse P ₁ immediately after the vertical sync pulses, controller - La 2 controls the antenna switching circuit 3, antenna 1a~
1d is sequentially switched. As a result, as shown in FIG. 4, the clamp circuit 5 generates the reception level signals 11a to 11d in accordance with the switching of the antennas 1a to 1d. This reception level signal 11a~11d was configured to generate the reference level values of the synchronous pulses P ₁ clamped, it can be so as to generate by the pedestal level as a reference.

The reception level signals 11a to 11d output from the clamp circuit 5 as described above are, as described above,
The reception level signal 11a of the antenna 1a selected last time
Is sample-held by the sample-hold circuit 6d. The reception level signal 11b is sampled and held by the sample hold circuit 6a, the reception level signal 11c is sampled by the sample hold circuit 6b, and the reception level signal 11d is sampled by the sample hold circuit 6c.

Each of the reception level signals 11a to 11d held by the sample hold circuits 6a to 6d is detected by the maximum level detection circuit 7 as the largest one. In the example shown in FIG. 4, since the reception level of the antenna 1b is the highest and the reception level signal 11b is the highest on the negative voltage side, the reception level held by the sample hold circuit 6a The signal 11b is detected. That is, the output terminal of the operational amplifier 16a shown in FIG. 2 has a low voltage, and a detection signal is sent to the controller 2 when the transistor 19a is turned on.

The controller 2 controls the antenna switching circuit 3 so as to switch from the antenna 1a to the antenna 1b by inputting the detection signal as described above. As a result, an image is reflected on the TV receiver 4 by the reception of the antenna 1b.

In the above antenna switching operation, when the antenna 1a is continuously at a high reception level, the reception level signal 11a held by the sample hold circuit 6d is detected. Controls the antenna switching circuit 3 so as to select the antenna 1a again.

When the reception levels of the plurality of antennas are close to each other, for example, when the reception levels of the antennas 1a and 1b are close to each other, the reception level signal held by the sample hold circuit 6d is used. 11a and the reception level signal 11b held by the sample hold circuit 6a are compared and detected. However, as shown in FIG. 2, a weighting voltage is applied to the operational amplifier 16d. This operational amplifier 16d has a low output voltage in preference to the operational amplifier 16a, and the transistor 1
A detection signal is output by turning on 9d. As a result, the antenna 1a is continuously selected, and the TV receiver 4 produces an image by receiving the antenna 1a.

As described above, the weighting circuit 10 is configured to switch the weighting voltage in two stages. However, the weighting voltage is increased by turning off the transistor 15 and the weighting is performed a little after switching the antenna. The transistor is turned on so as to reduce the voltage. By changing the weighting voltage in this manner, antenna switching can be stabilized, which is effective in a situation where antenna switching is frequently performed. Weight
In the method of switching between different antennas, the degree of weighting is increased.
When switching, it is difficult to switch, and other antennas
Even if the electric field strength of the
And the effect of diversity cannot be fully demonstrated.
It becomes. Conversely, if the weight is reduced, the antenna switches.
Less effective in reducing flicker
Become. Therefore, in the present invention, the weight is selected for the previously selected antenna.
Weight for a predetermined time immediately after switching from one antenna to another antenna
To reduce the frequency of antenna switching,
After the lapse of a predetermined time, the reception level is good by reducing the weight.
By making it easier to switch to a better antenna,
A good antenna can be selected while reducing flicker.
It has become so.

[0034]

As described above, in the automatic antenna switching apparatus according to the present invention, the reception level signal of the antenna selected last time is held by the specific holding means, and is held in this manner. The reception level signal is weighted and compared with the reception level signals of other hold means, so that when the reception levels of a plurality of antennas approach each other, only a specific antenna is always selected, and the antenna is selected. The problems such as flickering and ghosting of the TV receiver due to the switching are solved. In addition, the weighting of the reception level signal held by the specific holding means is performed after a predetermined time elapses after the antenna switching operation.
The antenna can be switched so that the
Switching frequency is low until switching, switching antennas
After that, switching becomes easy. As a result, the image flickers
Can be reduced, and also a good antenna for reception
Can be selected. Furthermore, the weights for weighting as described above
Since the attaching means can be configured as a very simple circuit including a resistor, the antenna automatic switching device is advantageous in practical use.

[Brief description of the drawings]

FIG. 1 is a block diagram of an automatic antenna switching device according to an embodiment of the present invention.

FIG. 2 is a circuit diagram showing a maximum level detection circuit and a weighting circuit.

FIG. 3 is a diagram showing a video signal.

FIG. 4 is an enlarged partial view of a part of a video signal.

FIG. 5 is a block diagram of an automatic antenna switching device shown as a conventional example.

[Description of Signs] 1a to 1d Antenna 2 Controller 3 Antenna Switching Circuit 4 TV Receiver 5 Clamp Circuit 6a to 6d Sample Hold Circuit 7 Maximum Level Detection Circuit 8 Synchronization Signal Detection Circuit 10 Weighting Circuit

──────────────────────────────────────────────────続 き Continuation of front page (56) References JP-A-4-78230 (JP, A) JP-A-2-41039 (JP, A) JP-A-2-41038 (JP, A) JP-A-1- 196928 (JP, A) JP-A-63-79428 (JP, A) (58) Fields investigated (Int. Cl. ⁷ , DB name) H04B 7/00 H04B ⁷ /02-7/12 H04L 1/02- 1/06 H04N 5/38-5/46

Claims (1)

(57) [Claims] 1. A configuration in which an optimum receiving antenna is selected from a high frequency signal received by a plurality of antennas within a vertical retrace period of a television video signal, and after switching to that antenna, the state is maintained until the next vertical retrace period. in the automatic antenna switching device, each of the ho the reception level signal of the antenna according to the antenna selection state - and field means, each of the ho - - Rudosu Ru multiple ho detection for detecting the maximum reception level signal from the field unit Control means for selecting the next reception antenna in accordance with the output of the means, and holding means for holding the reception level signal of the reception antenna for which the maximum reception level signal was detected last time to a specific one of the hold means. Hold control means for controlling, and a reception level signal held by a specific hold means are weighted by the control means.
After a predetermined time elapses after the next receiving antenna is selected
Switching means for switching the weighting amount to be smaller.
An automatic antenna switching device, comprising: