JPH0740727B2 - Car TV - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention will be described in the following order.

A Industrial Field B Outline of Invention C Conventional Technology D Problems to be Solved by the Invention E Means for Solving Problems F Action G Example G ₁ First Example (Fig. 1) G ₂ Second embodiment (Fig. 2) G ₃ Third embodiment (Fig. 3) G ₄ Fourth embodiment (Fig. 4) H Effect of the invention A Industrial field of application The present invention relates to an in-vehicle television mounted on a moving body such as a car.

B Outline of the Invention The present invention is to prevent a distorted image from being displayed by displaying the image information of the previous field as a still image in a vehicle-mounted television when the reception level falls below a predetermined value.

C Related Art A car-mounted television that receives information by using one antenna, for example, a rod antenna, is very difficult to see because the image is disturbed when the direction of arrival of broadcast radio waves changes.

Therefore, Japanese Patent Application No.
As shown in No. 9, it has been proposed to mount multiple antennas with directivity in multiple directions and select the antenna with the strongest electric field. According to this, since the antenna having the highest electric field strength is always selected, it is possible to perform good reception even if the direction in which the broadcast radio wave arrives changes.

D Problems to be Solved by the Invention However, even if such a receiving method is adopted, when driving in a place where the electric field strength is extremely weak, such as in a tunnel or a valley, it is necessary to see a disturbed image. become,
It will be very unpleasant for the viewer.

The present invention has been made in view of the above points and prevents display of a disturbed increase that gives a viewer an unpleasant feeling.

E Means for Solving the Problems To solve the above problems, according to the present invention, a video signal receiving unit including a tuner, a video detection circuit and an AGC circuit, a signal processing circuit, and an image display unit are provided. An in-vehicle television device including: a storage unit for storing a signal received by a video signal receiving unit for one feed; a signal from the video signal receiving unit and a video signal read from the storage unit; The switch for supplying the signal processing circuit to the signal processing circuit, the output of the AGC circuit and the supply of the synchronizing signal separated from the video signal received by the video signal receiving section, and the write signal and the read signal are stored in the storage means. And a control circuit for supplying a changeover control signal to the changeover switch while supplying either one of the above, while the output of the AGC circuit exceeds a predetermined value, When a write signal is supplied to the storage means, and when the value is lower than the predetermined value, the vertical blanking period is delayed, a read signal is supplied to the storage means, and the changeover switch is switched to the storage means side to read one field. Provided is an in-vehicle television that displays the previous image information as a still image.

F action When the reception level falls below a predetermined value and the image becomes distorted, the field memory (10) is set to the read mode, and the field memory (10) indicates that the reception level is higher than the predetermined value. The received signal in the field is read out and the still image is displayed. That is, also at this time, an image without distortion is displayed.

G Example G ₁ First Example (FIG. 1) Hereinafter, a first example of the present invention will be described with reference to FIG.

In the figure, (1a) to (1d) are antennas arranged so as to catch radio waves in different directions, and the television signals received by these antennas (1a) to (1d) are
It is supplied to the tuner (3) via the switching circuit (2).

The tuner (3) includes a high-frequency amplifier circuit to an intermediate-frequency amplifier circuit, and the intermediate-frequency signal extracted from the tuner (3) is supplied to the video detection circuit (4).
The video signal S _V taken out from the video detection circuit (4) is supplied to the fixed terminal on the A side of the changeover switch (5).

Also, the video signal extracted from the video detection circuit (4) is
It is supplied to the AGC circuit (6). Then, the AGC voltage V _AGC corresponding to the reception level is taken out from the AGC circuit (6) and is supplied to the tuner (3) for AGC.

Further, the video signal S _V is supplied to the antenna switching control circuit (7). Further, the video signal S _V is supplied to the sync separation circuit (8), and the sync signal P _S extracted from this separation circuit (8)
Is supplied to the control circuit (7). Then, the switching control signal S ₁ is supplied from the control circuit (7) to the switching circuit (2).

The switching circuit (2) is a switching control signal S ₁ from the control circuit (7).
The antennas (1a) to (1d) are sequentially switched within a predetermined horizontal period of the vertical blanking period. At this time, in the control circuit (7), the antenna (1a)
The pedestal levels of the video signal S _V at the time of switching to (1d) are detected and compared. Then, the switching control signal S ₁
Is to select the antenna that gives the maximum level. As a result, the switching circuit (2) is kept in a state of selecting the antenna having the maximum level until the next period in which the antennas (1a) to (1d) are sequentially switched. The switching of the antennas (1a) to (1d) is usually performed for each even field or odd field.

The above antenna switching system is based on the above-mentioned Japanese Patent Application No. 59-21.
Similar to No. 339.

In FIG. 1, the video signal S _V from the video detection circuit (4) is converted into a digital signal by the A / D converter (9) and then supplied to the field memory (10) as a write signal. Writing and reading of this field memory (10) are controlled by a control circuit (11). The control circuit (11) receives a sync signal from the sync separation circuit (8).
P _S is the AGC voltage V _AGC from the AGC circuit (6) with is supplied is supplied. When the AGC voltage V _AGC is higher than a predetermined value (at this time, the reception level is high and a good image without disturbance is displayed), the control circuit (11) writes the write signal S to the field memory (10). _W is supplied, and the field memory (10) is set to the write mode. on the other hand,
When the AGC voltage V _AGC is smaller than a predetermined value (at this time, the reception level is low and a disturbed image is displayed), the read signal S _R is supplied from the control circuit (11) to the field memory (10). Then, the field memory (10) is set to the read mode, and the video signal for one field is repeatedly read.

The signal S _V1 read from the field memory (10) is D / A
It is converted into an analog signal by the converter (12) and supplied to the B-side fixed terminal of the changeover switch (5). The changeover switch (5) is changed over by the changeover control signal S ₂ supplied from the control circuit (11).
When the C voltage V _AGC is larger than a predetermined value, it is switched to the A side, and when it is small, it is switched to the B side.

The video signal obtained from the changeover switch (5) is supplied to the picture tube (15) via the signal processing circuit (13) and the amplifier (14), and an image is displayed on the picture tube (15).

This example is configured as described above, the reception level is high,
When the AGC voltage V _AGC from the AGC circuit (6) is larger than a predetermined value, the changeover switch (5) is connected to the A side. Therefore, the video signal S _V extracted from the video detection circuit (4)
Is supplied to the picture tube (15) through the changeover switch (5), the signal processing circuit (13) and the amplifier (14), and the video signal S _V
A good image is displayed without any disturbance due to. At this time,
A write signal _SW is supplied from the control circuit (11) to the field memory (10) so that the field memory (10 is set to the write mode and the video signal S _V is sequentially written.

In this state, when the reception level becomes small and the AGC voltage V _AGC becomes smaller than the predetermined value, the control circuit (11)
More field memory (10), the read signal S _R is the supplied reading mode instead of the write signal S _W. Then, from the field memory (10), the AGC voltage V
The video signal for one field before _AGC becomes smaller than a predetermined value is repeatedly read. At this time, since the changeover switch (5) is connected to the B side, the field memory (1
The video signal S _V1 read out from (0) is a D / A converter (12),
The video signal S _V1 is supplied to the picture tube (15) through the changeover switch (5), the signal processing circuit (13) and the amplifier (14).
A still image that is not disturbed by is displayed.

In this state, when the reception level becomes high and the AGC voltage V _AGC becomes higher than the predetermined value, the changeover switch (5) is turned to A again.
The image is displayed on the picture tube (15) by the video signal S _V , the field memory (10) is set to the write mode, and the video signal S _V is sequentially written.

According to this example, when the reception level becomes low and the image becomes distorted, a still image by the video signal S _V1 repeatedly read from the field memory (10) is displayed, so that the distorted image is displayed. Without being disturbed, the viewer is not made uncomfortable.

G ₂ Second Embodiment (FIG. 2) Next, FIGS. 2 to 4 show another embodiment of the present invention, in which the portions corresponding to those in FIG. 1 are the same. Reference numerals are given and detailed description thereof is omitted.

First, the example of FIG. 2 will be described.

In the figure, the video signal S _V from the video detection circuit (4) is supplied to the fixed terminal on the A side of the changeover switch (5). The video signal S _V is converted into a digital signal by the A / D converter (9) and then supplied as a write signal to the field memory (10) through the field delay line (16). Writing and reading of this field memory (10) are controlled by a control circuit (11). When the AGC voltage V _AGC is higher than a predetermined value (at this time, the reception level is high and a good image without disturbance is displayed), the control circuit (11) writes the write signal S to the field memory (10). _W is supplied, and the field memory (10) is set to the write mode. On the other hand, when the AGC voltage V _AGC is smaller than the predetermined value (at this time, the reception level is small and a disturbed image is displayed), the control circuit (11) outputs the read signal S _R to the field memory (10). Is supplied, the field memory (10) is set to the read mode, and the video signal for one field is repeatedly read. In this case, in the above-described example of FIG. 1, when the AGC voltage V _AGC becomes larger or smaller than a predetermined value or becomes smaller or larger than a predetermined value, the switching of the signals _SW and S _R supplied to the field memory (10) is instantaneous. but are intended to be made, in the second illustrated example, the switching signal S _W and S _R are made waiting for the vertical blanking period.

Video signal S _V2 read from the field memory (10)
Is supplied to the B-side fixed terminal of the changeover switch (5) through the D / A converter (12). The switching of the changeover switch (5) is carried out by the switching control signal S ₃ which is supplied from the control circuit (11), as described above, when the write signal S _W is supplied to the field memory (10) on the A side , When the read signal S _R is supplied, it is switched to the B side.

The video signal obtained from the changeover switch (5) is supplied to the picture tube (15) via the signal processing circuit (13) and the amplifier (14), and an image is displayed on the picture tube (15).

This example is configured as described above, the reception level is high,
When the AGC voltage V _AGC from the AGC circuit (6) is larger than a predetermined value, the changeover switch (5) is connected to the A side. Therefore, the video signal S _V extracted from the video detection circuit (4)
Is supplied to the picture tube (15) via the changeover switch (5), the signal processing circuit (13) and the amplifier (14), and the video signal
A good image with no distortion due to S _V is displayed. At this time, the control circuit (11) causes the field memory (1
The write signal _SW is supplied to 0), the field memory (10) is set to the write mode, and the video signal S _V ′ one field before through the delay line (16) is sequentially written.

In this state, next to the reception level is small, when the AGC voltage V _AGC is less than a predetermined value, waiting for the next vertical blanking period, the field memory (10) from the control circuit (11), the write signal S _W Read signal instead of
S _R is supplied to enter the read mode. Then, the video signal of the field before the field in which the AGC voltage V _AGC becomes smaller than a predetermined value is repeatedly read from the field memory (10). At this time, the changeover switch (5) is set to B
The video signal S _V2 read from the field memory (10) is connected via the D / A converter (12), the changeover switch (5), the signal processing circuit (13) and the amplifier (14). Is supplied to one picture tube (15), and a still image is displayed without being disturbed by the video signal S _V2 .

In this state, when the reception level becomes high and the AGC voltage V _AGC becomes larger than the predetermined value, the changeover switch (5) is connected to the A side again after waiting for the next vertical blanking period, and the image is displayed on the picture tube (15). The image by the signal S _V is displayed and the field memory (10) is set to the write mode.
The writing of the video signal S _V ′ one field before is sequentially performed.

In this example as well, the same operational effects as those of the above-described first example are obtained. Moreover, according to the present example, the switching between writing and reading in the field memory (10) is performed during the vertical blanking period (between fields), so that there is an advantage that a still image can be configured with only one field video signal.

G ₃ Third embodiment (FIG. 3) Next, the third embodiment will be described.

In the figure, the video signal extracted from the delay line (16)
S _V ′ is supplied to the fixed terminal on the A side of the changeover switch (5), and the fixed terminal on the B side of this changeover switch (5) has the video signal S read from the field memory (10).
_V2 is supplied. The video signal obtained from the changeover switch (5) is converted into an analog signal by the D / A converter (12), and then the picture tube (15) is passed through the signal processing circuit (13) and the amplifier (14). The image is displayed on the picture tube (15).

In addition, the writing and reading control of the field memory (10),
The changeover control of the changeover switch (5) is performed by the control circuit (11) in the same manner as in FIG.

In this example, the reception level is high and the AGC circuit (6)
When the AGC voltage V _AGC from is larger than a predetermined value, the changeover switch (5) is connected to the A side. Therefore, the video signal S _V ′ one field before through the delay line (16) is changed over by the changeover switch (5), the D / A converter (12) and the signal processing circuit (1
The image is supplied to the picture tube (15) through the amplifier 3 (3) and the amplifier (14), and a good image without disturbance due to the video signal S _V ′ is displayed. At this time, the write signal S _W is supplied field memory (10) from the control circuit (11) field memory (10) is a write mode, before one field that is through the delay line (16) the video signal S writing of _V 'is made sequentially.

In this state, next to the reception level is small, when the AGC voltage V _AGC is less than a predetermined value, waiting for the next vertical blanking period, the field memory (10) from the control circuit (11), the write signal S _W Read signal instead of
S _R is supplied to enter the read mode. Then, the video signal of the field before the field in which the AGC voltage V _AGC becomes smaller than a predetermined value is repeatedly read from the field memory (10). At this time, the changeover switch (5) is set to B
Since it is connected to the side, the video signal S _V2 read from the field memory (10) passes through the changeover switch (5), the D / A converter (12), the signal processing circuit (13) and the amplifier (14). And is supplied to the picture tube (15), and a still image that is not disturbed by the video signal S _V2 is displayed.

In this state, when the reception level becomes high and the AGC voltage V _AGC becomes larger than the predetermined value, the changeover switch (5) is connected to the A side again after waiting for the next vertical blanking period, and the image is displayed on the picture tube (15). The image by the signal S _V ′ is displayed and the field memory (10) is set to the writing mode,
The video signal S _V ′ is written.

In this example, the same operational effect as that of the example of FIG. 2 can be obtained. Moreover,
According to this example, when the AGC voltage V _AGC is larger than the predetermined value, the video signal S _V ′ one field before from the delay line (16) is sent.
Is displayed, the AGC voltage V _AGC becomes smaller than a predetermined value, and the video signal S from the field memory (10) is
There is a benefit that the disturbed image is not displayed until the next vertical blanking period when the still image is displayed in _V2 .

G ₄ Fourth Embodiment (FIG. 4) Next, the fourth embodiment will be described.

In the figure, the video signal S _V from the video detection circuit (4) is
After being converted into a digital signal by the A / D converter (9), it is supplied to the field memories (10A) and (10B) as a write signal. These field memories (10A) and (10
Writing / reading of B) is controlled by the control circuit (11). The write signal S _W from the control circuit (11) is supplied to through the fixed terminal of the A-side and B-side of the changeover switch (17) respectively field memory (10A) and (10B). Further, the read signal S _R from the control circuit (11) passes through the fixed terminals on the A side and B side of the changeover switch (18) to the field memories (10B) and (10A), respectively.
Is supplied to. Further, switching control signals S ₄ and S ₅ are supplied from the control circuit (11) to the switches (17) and (18), respectively. When the changeover switch (17) is changed over to the A side and B side, the changeover switch (18) is also changed over to the A side and B side, respectively. When the AGC voltage V _AGC is higher than a predetermined value (at this time, the reception level is high and a good image without disturbance is displayed), the changeover switches (17), (18)
Are alternately switched to the A side and the B side every vertical period.
Therefore, the field memory (10A) is set to the write mode and the read mode for each vertical period, and the field memory (10B) is set to the opposite mode to the field memory (10A) for each vertical period. On the other hand, AGC voltage
When V _AGC is smaller than a predetermined value (at this time, the reception level is low and a distorted image is displayed), the selector switches (17) and (18) are switched to either the A side or the B side. One of the field memories (10A) and (10B) is fixed in the write mode and the other is fixed in the read mode, and the video signal for one field is repeatedly read from the read mode.

Further, the video signals S _VA and S _VB read from the field memories (10A) and (10B) are respectively changed over by the changeover switch (5).
Are supplied to the fixed terminals on the A side and the B side. The changeover switch (5) is changed over by the changeover control signal S ₆ supplied from the control circuit (11). When the read signal S _R is supplied to the field memory (10A), it is switched to the A side and the field memory (10B). When the read signal S _{R of 1} ) is supplied, it is switched to the B side.

The video signal obtained from the selector switch (5) is converted into an analog signal by the D / A converter (12) and then supplied to the picture tube (15) via the signal processing circuit (13) and the amplifier (14). Then, an image is displayed on the picture tube (15).

This example is configured as described above, the reception level is high,
When the AGC voltage V _AGC from the AGC circuit (6) is larger than a predetermined value, the changeover switches (17) and (18) are alternately switched to the A side and the B side every vertical period. Then, the signals S _VA and S _VB read from the field memories (10A) and (10B) every one vertical period are changed over by the changeover switch (5), the D / A converter (12), the signal processing circuit (13) and the amplifier ( The image is supplied to the picture tube (15) via (14), and an image without disturbance due to the video signals S _VA and S _VB is displayed. At this time, the video signal S _V is sequentially written to the one not in the read mode of the field memories (10A) and (10B).

In this state, when the reception level becomes small and the AGC voltage V _AGC becomes smaller than the predetermined value, the field memory (10
The modes of A) and (10B) are fixed to the mode at that time. Then, the video signal of the field before the field in which the AGC voltage V _AGC becomes smaller than the predetermined value is repeatedly read from the field memory in the read mode. Then, this video signal is supplied to the picture tube (15) via the changeover switch (5), the D / A converter (12), the signal processing circuit (13) and the amplifier (14), and a still image without disturbance is obtained. Is displayed.

In this state, when the reception level becomes high and the AGC voltage V _AGC becomes larger than the predetermined value, the changeover switch (17),
(18) is switched to the A side and the B side alternately every vertical period. Then, images are displayed by the video signals S _VA and S _{VB which} are read alternately from the field memories (10A) and (10B) every vertical period.

It is clear that this example can also obtain the same effects as those of the example of FIG.

In the above embodiment, the reception level is determined by the AGC voltage V _AGC. However, the determination may be made by, for example, the number of horizontal sync signals or the level of the horizontal sync signal.

H According to the present invention described above, when the reception level becomes small and the image becomes disturbed, a still image is displayed by the video signal of the previous field when the reception level is high. , Distorted images are not displayed. Therefore, the viewer does not feel uncomfortable.

[Brief description of drawings]

FIG. 1 is a block diagram showing an embodiment of the present invention, and FIGS.
The figure is a block diagram showing another embodiment of the present invention. (3) is a tuner, (4) is a video detection circuit, (5) is a changeover switch, (6) is an AGC circuit, (10) is a field memory, and (11) is a control circuit.

Claims (1)

[Claims] 1. An in-vehicle television device comprising a video signal receiving section including a tuner, a video detecting circuit and an AGC circuit, a signal processing circuit and an image display section, wherein a signal received by the video signal receiving section is received. A storage means for storing one feed, a selector switch for selectively selecting a signal from the video signal receiving section and a video signal read from the storage means and supplying the signal processing circuit, an output of the AGC circuit and the output A control circuit which receives a synchronization signal separated from the video signal received by the video signal receiving section, supplies one of a write signal and a read signal to the storage means, and supplies a changeover control signal to the changeover switch. And a write signal is supplied to the storage means while the output of the AGC circuit exceeds a predetermined value, and when the write signal falls below the predetermined value. A vehicle-mounted television that supplies a read signal to the storage means after the vertical blanking period is stopped and switches the changeover switch to the storage means side so that the read image information of one field before is displayed as a still image.