JPH0331995Y2 - - Google Patents

Description

[Detailed Description of the Invention] Technical Field The present invention relates to a television receiver in which a DC bias signal is added to an external primary color video signal supplied to a video output circuit to improve the operating characteristics of the video output circuit.

Background Art The signal sent from a personal computer to a television receiver is not a normal composite video signal, but a video signal separated into the three primary colors of red (R), green (G), and blue (B) (external primary color video). The signal level of the external primary color video signal is a binary logic signal having a peak value of 0 to 5 volts. Therefore, when an external primary color video signal at TTL signal level is supplied to a video output circuit for driving a picture tube, the video output transistor in the video output circuit operates using not only the active region but also the cutoff region. As a result, the gain-bandwidth product is narrowed, and as a result, deterioration of the frequency characteristics is unavoidable, and the cathode current waveform of the picture tube becomes blunt at the shoulder, resulting in problems such as not being able to obtain a sharp image. There were flaws.

DISCLOSURE OF THE INVENTION The present invention eliminates the above drawbacks, and adds a DC bias signal to the external primary color video signal supplied to the video output circuit, so that the operation of the video output transistor in the video output circuit is controlled only in the active region. be performed under sufficient gain-bandwidth product using
It is an object of the present invention to provide a television receiver that can thereby prevent the cathode current waveform of the picture tube from becoming blunt and provide a sharp image.

To achieve this objective, the present invention provides a television receiver in which an external primary color video signal, which is input to an input circuit separately from a synchronizing signal, is supplied to the cathode of a picture tube through a video output transistor in a video output circuit. , which is provided between the input circuit and the video output circuit, and applies a DC bias signal that always operates the video output transistor in an active region to an external primary color video signal supplied from the input circuit to the video output circuit. The gist is that it is equipped with a level control circuit.

According to the present invention, a level control circuit is provided between an input circuit for an external primary color video signal and a video output circuit, and a level control circuit is provided between an input circuit for an external primary color video signal and a video output circuit. Since the configuration is such that a DC bias signal is applied to always operate the output transistor in the active region, the video output transistor can be operated with sufficient gain-bandwidth product without operating in the cut-off region. It has excellent effects such as preventing the tube's cathode current waveform from becoming blunt and allowing sharp images to be obtained.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, embodiments of the present invention will be described with reference to the drawings. The figure is a schematic circuit diagram showing an embodiment of the television receiver of the present invention.

In the figure, a television receiver 1 connects an input circuit 2 consisting of open collector type AND gate circuits 2r, 2g, and 2b corresponding to R, G, and B primary color video signals to a level control circuit 3 and an RGB switching interface. The configuration is such that it is connected to a video output circuit 5 via an ace circuit 4. This level control circuit 3 includes each AND gate circuit 2r,
For each 2g and 2b, connect a resistor to each output terminal.
A π-type connection circuit of R ₁ , R ₂ , and R ₃ is connected, and a resistor R ₃ is connected to a power supply circuit 6. Power supply circuit 6
has a buffer transistor Q ₀ whose collector is connected to the power supply Vcc ₁ , and by connecting a filter electrolytic capacitor C ₀ to the emitter of this buffer transistor Q ₀ , the voltage is supplied to the resistor R _3. The power supply voltage is stabilized. Further, the base of the buffer transistor _Q0 is connected to the power supply _Vcc1 via a variable resistor Rv. Note that each AND gate circuit 2r, 2 of the input circuit 2
The gate signal input terminals of G and 2B are grounded via a transistor Q which is turned on by a blanking pulse from a blanking circuit 7, and during the horizontal and vertical retrace periods, the gate signal input terminals of G and 2B are connected to the high level gate by the power supply Vcc ₂ . I am trying to cut off the signal input.

The RGB switching interface circuit 4 selectively outputs either the external primary color video signal from the level control circuit 3 or the primary color video signal generated from the composite video signal input to the video chroma circuit 8 to the video output circuit. Supply to 5. The video output circuit 5 includes three video output transistors Qr, Qg, Qb corresponding to three types of primary color video signals.
are provided, and each video output transistor Qr,
The collectors of Qg and Qb are connected to the cathode of the picture tube 9. Vcc ₃ is the transistor Qr, Qg,
This is the power supply commonly connected to the collector of Qb.

Here, the external primary color video signal seen at the output terminal of the level control circuit 3 has a black level of R ₂ /R ₂ +R ₃ E ₀ and a white level of R ₁ when the output voltage of the power supply circuit 6 is E _0. It becomes a binary logic signal expressed as +R ₂ /R ₁ +R ₂ +R ₃ E ₀ . Therefore, the black level is a DC bias signal of R ₂ /R ₂ +R ₃ E ₀ added to zero volts, which is a standard black level. The presence or absence of this DC bias signal has an important meaning in terms of the operating characteristics of the video output circuit 5 at the subsequent stage.
That is, the addition of the DC bias signal causes the video output transistors Qr, Qg, and Qb to operate using only their active regions. This not only allows a sufficient gain-bandwidth product to be obtained, but also prevents deterioration of the frequency characteristics and blunting of the cathode current waveform of the picture tube 9 at the shoulder area, as in the case of operating up to the cut-off region. There are no inconveniences such as blurring, and extremely sharp images can be obtained.

As explained above, according to the television receiver 1, the level control circuit 3 is provided between the input circuit 2 and the video output circuit for external primary color video signals, and the level control circuit 3 is provided between the input circuit 2 and the video output circuit for external primary color video signals, so that the external primary color video signals are supplied from the input circuit 2 to the video output circuit 5. Since the configuration is such that a DC bias signal that always operates the video output transistors Qr, Qg, and Qb in the video output circuit 5 in the active region is added to the external primary color video signal, the video output transistors Qr, Qg, and Qb are in the cutoff region. It is possible to operate under a sufficient gain-bandwidth product without operating the picture tube 9, thereby preventing the cathode current waveform of the picture tube 9 from becoming blunt, and making it possible to obtain a sharp image.

[Brief explanation of the drawing]

The figure is a schematic circuit diagram showing an embodiment of the television receiver of the present invention. 1... Television receiver, 2... Input circuit,
3...Level control circuit, 5...Video output circuit, Qr, Qg, Qb...Video output transistor.

Claims (1)

[Scope of utility model registration request] A synchronizing signal is a signal between the input circuit and the video output circuit in a television receiver that supplies an external primary color video signal input to a separate input circuit to the cathode of the picture tube via a video output transistor in the video output circuit. and a level control circuit that applies a DC bias signal to the external primary color video signal supplied from the input circuit to the video output circuit to cause the video output transistor to always operate in the active region. Machine.