JPH05304640A - Television receiver - Google Patents

Abstract

(57) [Summary] [Purpose] A television receiver for obtaining a good image in a region where television electric waves of a weak electric field and a strong electric field exist. [Composition] Radio waves received by antenna A are switched by switch S
₁ , supplied to the tuner 11 via the high frequency amplifier 10 inserted in S ₂ or the through line, and the intermediate frequency processing unit 1
2 is supplied. The switches S ₁ and S ₂ are switched in a channel in which a received radio wave is weak by a channel selection signal output from the detection circuit 16 that detects the AGC voltage or the microcomputer 15.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a receiving device such as a television receiver and a VTR capable of receiving a television radio wave and obtaining a video signal.

[0002]

2. Description of the Related Art In a general television receiver, radio waves normally received by an antenna are directly input to a front tuner through a feeder and converted into an intermediate frequency, and then an audio carrier signal and a video signal are detected. , And a drive signal of a cathode ray tube for an audio signal and an image monitor is formed.

The total gain of such a television receiver is designed so that a good image can be obtained in a general receiving area except for a receiver having special specifications. By taking such a design concept, it is possible to manufacture an IC circuit and a tuner device that are common to all receivers, and the cost of the entire receiver is reduced.

[0004]

[Problems to be Solved by the Invention] However, in the underdeveloped countries where the information society is undeveloped and in special regions overseas, there are many regions called difficult-to-view regions, and such regions are There is a large difference in electric field strength between the local broadcasting station and the central broadcasting station far away.
Therefore, in the conventional general-purpose television receiver,
There may be a channel in which the received image is extremely deteriorated, and a strong electric field reception may occur at the local station, resulting in an intermodulated low-quality image.

[0005]

The main constitution of the present invention is as follows.
In order to solve such a problem, a wide-band high-frequency amplifier is connected between the antenna input terminal and the front tuner, and a switching means for switching this high-frequency amplification to the through state is provided. Further, in the second invention and the third invention, the switching means is controlled by the level of the AGC voltage or the tuning signal of the microcomputer.

[0006]

The radio wave immediately before being input to the tuner by the preset by the microcomputer or the detection level of the AGC voltage is passed through the high frequency amplifier or directly input to the tuner, so that even in a region where the difference in electric field strength is large. Obtaining good image quality through each channel can be achieved with an inexpensive configuration.

[0007]

DESCRIPTION OF THE PREFERRED EMBODIMENTS FIG. 1 is a block diagram showing the outline of a television receiver according to the present invention.
Is a general-purpose tuner, 12 is an intermediate frequency processing unit, and 13 is an image drive unit for forming RGB signals for driving the cathode ray tube 14. Reference numeral 15 denotes a control unit (hereinafter, referred to as a microcomputer) that controls the above-mentioned circuits, and uses a channel selection voltage of a tuner, a control signal of an audio circuit (not shown), and the like by an external remote control signal. Occurs and has overall control of the receiver.

Reference numeral 16 denotes A obtained from the intermediate frequency processing unit 12.
A detection circuit for detecting the level of the GC voltage is shown. For example, in a reverse type AGC circuit, when the AGC voltage becomes full scale (-5V) or higher, the microcomputer 15 is controlled and the switching output circuit 17 outputs a switching signal. Output. Reference numerals S ₁ and S ₂ denote switches for turning the input / output terminals of the high frequency amplifier 10 through, and switching control is performed based on a signal from the switching output circuit 17.

Since the television receiver of the present invention has the above-mentioned structure, the switches S ₁ and S _{2 function} as the through contacts (b) when receiving a radio wave having a normal electric field strength. The radio wave received by the antenna A is directly input to the tuner 11 and operates as a receiver having a total gain of general specifications. However,
When the microcomputer 15 selects to receive a remote broadcast channel, the switches S ₁ and S ₂ are switched to the a contact side due to the full-scale AGC voltage, and a high frequency wave is output in front of the tuner 11. The amplifier 10 will be inserted. In other words, if a channel at a remote location with a weak electric field is tuned, even if the AGC voltage operates so as to maximize the total gain of the receiver, the AGC voltage may not fall below a certain value. In this case, the output of the detection circuit 16 is input to the microcomputer 15, and the switching signals of the switches S ₁ and S ₂ are output to the switching output circuit 17. Therefore, the radio wave received by the antenna is fed by the high frequency amplifier 10 before being supplied to the tuner 11.
For example, the level is increased by about 20 dB.

As a result, it is possible to receive the broadcast wave of the weak and weak electric field, which is extremely attenuated, as long as the receiving environment is good (the area where there are few noise sources in the periphery), and a good image can be viewed. As the high frequency amplifier 10, it is preferable to use a semiconductor element (low noise transistor) that has a flat gain characteristic in the frequency band of the received radio wave and has a low initial noise level. In the above embodiment, the switches S ₁ and S ₂ are controlled based on the level of the AGC voltage. However, when the broadcasting channel having the weak electric field strength is determined in advance, the microcomputer 15 selects the broadcasting channel. Switch S ₁ when the channel is selected at the time of station,
It is also possible to set the microcomputer 15 so that S ₂ is switched, and in this case, the detection circuit 16 can be omitted.

FIG. 2 shows another embodiment of the present invention, in which the same reference numerals indicate the same parts. This example
The high frequency amplifier 1 is provided in the circuit of the previous stage input to the tuner 11.
The attenuator 20 is arranged together with 0, and is configured so that the level can be adjusted in three stages by adding the through output of the high frequency signal. That is, the AGC voltage is input to the three-step threshold circuit 30 having a hysteresis characteristic, the AGC voltage is detected at the three-step levels by the output of the threshold circuit 30, and the switches S ₁ and S ₂ are switched in the three steps. It is configured to.

In the present embodiment, the broadcast channel which becomes a weak electric field is leveled up by the high frequency amplifier 10 as described above. A strong radio wave that is oversaturated even by the AGC voltage can be attenuated by about -10 dB to prevent a situation in which a high level detection output causes image distortion or beat interference.

[0013]

As described above, the television receiving apparatus of the present invention uses a general-purpose tuner apparatus and an IC circuit, and even if the receiving apparatus is constructed so that the total gain is most economical, it is a high frequency amplifier. Since it can be inserted based on the electric field strength, it can be applied to a very bad reception environment where strong electric fields and weak electric fields coexist, and it is especially effective as a receiving device for difficult listening areas overseas. be able to.

[Brief description of drawings]

FIG. 1 is a block diagram showing an outline of a television receiving device of the present invention.

FIG. 2 is a block diagram showing another embodiment of the present invention.

[Explanation of symbols]

 10 High Frequency Amplifier 11 Tuner 12 Intermediate Frequency Processor 15 Microcomputer 17 Switching Output Circuit

Claims (4)

[Claims] 1. A television receiver having at least a tuner for converting a received radio wave into an intermediate frequency signal and a circuit means for detecting a video signal from the intermediate frequency signal. A television including a high-frequency amplifier capable of amplifying a bandwidth with a substantially flat characteristic, and a switching means for switching between an input and an output of the high-frequency amplifier in a through state in accordance with electric field strength. Receiver. 2. A television receiver having at least a tuner for converting a received radio wave into an intermediate frequency signal and a circuit means for detecting a video signal from the intermediate frequency signal. A high frequency amplifier capable of amplifying the bandwidth with a substantially flat characteristic, and a switching means for switching between an input and an output of the high frequency amplifier in a through state corresponding to the electric field strength,
A television receiver comprising a tuner tuning microcomputer for controlling the switching means in accordance with tuning data of the tuner. 3. A television receiver having at least a tuner for converting a received radio wave into an intermediate frequency signal and a circuit means for detecting a video signal from the intermediate frequency signal. A high frequency amplifier capable of amplifying the bandwidth with a substantially flat characteristic, and a switching means for switching between an input and an output of the high frequency amplifier in a through state corresponding to the electric field strength,
A television receiver comprising a threshold detection circuit for controlling the switching means in accordance with an AGC voltage level. 4. A television receiver comprising at least a tuner for converting a received radio wave into an intermediate frequency signal and a circuit means for detecting a video signal from the intermediate frequency signal, wherein a desired receiver is provided between the tuner and the reception input terminal. A high-frequency amplifier that amplifies the received radio wave bandwidth with flat characteristics, an attenuator, and switching means in which a through line is selectively inserted are provided, and the switching means is configured to be switched according to the electric field strength of the receiving broadcast channel. A television receiver characterized by being provided.