JP2004260276A - Television receiver, video signal detection control apparatus, and video signal detection control method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a television receiver, a video signal detection control apparatus, and a video signal detection control method capable of stably detecting a video signal in an external mode. <P>SOLUTION: Input of a horizontal synchronizing signal outputted from a chroma IC 14 to a microcomputer 15 is interrupted on the basis of circuit control of a signal control circuit 30 in the external mode and a heater winding signal outputted from a flyback transformer 18 and whose level is ordinarily controlled at an H level is given to the microcomputer 15. Then the microcomputer 15 can carry out SD discrimination on the basis of the heater winding signal to stably apply an SD signal to the chroma IC 14. Since the chroma IC 14 can fix a reference oscillated frequency to a color burst signal frequency of 3.58 MHz at all times in the external mode thereby, color missing can be prevented. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a television, a video signal detection control device, and a video signal detection control method, and in particular, detects the presence / absence state of a video signal based on a horizontal synchronization signal included in a video signal output from a connected VCR. The present invention relates to a television that performs (SD detection), a video signal detection control device, and a video signal detection control method.
[0002]
[Prior art]
Conventionally, this type of video signal detection control device has provided a countdown type vertical synchronization processing device with an input terminal capable of inputting a pseudo synchronization signal output from the VTR during special reproduction of the VTR, and directly processing the pseudo synchronization signal. A switching circuit for generating a pseudo synchronization signal and switching between two output signals of a vertical synchronization signal generated by a countdown type vertical synchronization processing device and a pseudo vertical synchronization signal is provided. Is directly processed as a vertical synchronization signal (for example, see Patent Document 1).
[0003]
[Patent Document 1]
JP-A-8-191429
[0004]
[Problems to be solved by the invention]
The above-described conventional video signal detection control device discloses a control technique for switching a vertical synchronization signal to a pseudo vertical synchronization signal in an external mode. Therefore, when a video signal is detected based on the horizontal synchronization signal (station detect), for example, during playback on a VCR, for example, during special playback (high-speed playback, still image playback, slow playback, etc.), the horizontal synchronization signal is not detected. When the video signal becomes stable, there is a problem that the video signal cannot be detected.
[0005]
The present invention has been made in view of the above problems, and has as its object to provide a television, a video signal detection control device, and a video signal detection control method capable of stably detecting a video signal in an external mode.
[0006]
[Means for Solving the Problems]
In order to achieve the above object, the invention according to claim 1 is characterized in that a horizontal synchronizing signal, which is generated by a chroma IC and transitions to an H / L level at a predetermined cycle, is input to a horizontal synchronizing signal input terminal of a microcomputer. When determining the presence or absence of a video signal based on the H level state of the horizontal synchronization signal input by the microcomputer, if it is determined that the video signal exists, the microcomputer outputs an SD signal to the chroma IC, and When the same SD signal is input to the chroma IC, the reference oscillation frequency is fixed at 3.58 MHz in order to synchronize with the color burst signal frequency. When the same SD signal is not input, the same reference is used to pull in the center frequency by tuning operation. In a television that oscillates at an oscillation frequency in a free-running mode, the microcomputer determines that an anode terminal is connected to the chroma IC. The horizontal synchronizing signal can be input at the horizontal synchronizing signal input terminal via a first diode whose cathode terminal is connected to the microcomputer side, and the anode terminal is connected to the flyback transformer side, A terminal is connected to the horizontal synchronizing signal input terminal via a second diode connected to the cathode side of the first diode, and outputs a heater winding signal of a constant H level for warming up a CRT output by the flyback transformer. When an external mode is selected for inputting a video signal as the video signal from the connected VCR, an external mode signal is output from an external mode signal output terminal provided, and the emitter side is grounded. A first transformer capable of inputting the heater winding signal at a collector connected to the anode of the second diode. A transistor, a second transistor to which the external mode signal is input to the base side, an emitter side grounded, and a second transistor capable of inputting the horizontal synchronizing signal at a collector side connected to the anode side of the first diode; A third transistor connected to a power supply for receiving the external mode signal, having an emitter grounded, a collector connected to a power supply for outputting a predetermined voltage, and connected to a base of the first transistor; When the mode signal is output, the second transistor is turned on, the horizontal synchronizing signal input on the collector side is short-circuited to the emitter side, and the third transistor is turned on to short-circuit the first transistor. The heater winding signal is input to the microcomputer via the second diode, and the heater winding signal is input to the microcomputer. And if the external mode signal is not output from the microcomputer, the third transistor is short-circuited and the first transistor is turned on to determine the heater winding signal. A signal control circuit for conducting the first transistor, shorting the second transistor, inputting the horizontal synchronizing signal to the microcomputer, and judging the presence or absence of a video signal based on the horizontal synchronizing signal; is there.
[0007]
2. Description of the Related Art Conventionally, in a television, a horizontal synchronizing signal which transits to an H / L level at a predetermined cycle generated by a chroma IC is input to a horizontal synchronizing signal input terminal of a microcomputer, and the horizontal synchronizing signal input by the microcomputer is input. The presence or absence of a video signal is determined based on In this case, the microcomputer determines that there is a video signal when the horizontal synchronizing signal transitions to the H level in a predetermined cycle, and outputs an SD signal to the chroma IC. When the SD signal is input, the chroma IC fixes the reference oscillation frequency to 3.58 MHz in order to synchronize with the color burst signal frequency, and when the SD signal is not input, pulls it to the center frequency by the tuning operation. Free-run oscillation is performed at the reference oscillation frequency. At this time, color demodulation is performed based on the reference oscillation frequency.
[0008]
In such a configuration, when a video signal (video signal) output from the video deck is reproduced, the video signal recorded on the video deck is a television broadcast signal on which a tuning operation has been completed based on the horizontal synchronization signal. The video signal output from the video deck contains a horizontal synchronizing signal. Accordingly, the microcomputer determines the presence or absence of the video signal based on the horizontal synchronization signal of the video signal and outputs an SD signal, and the chroma IC fixes the reference oscillation frequency to 3.58 MHz based on the SD signal. As a result, the reference oscillation frequency is synchronized with the color burst signal frequency, so that accurate color demodulation is performed. However, if the video signal output from the video deck is disturbed, the SD signal fluctuates, so that the reference oscillation frequency may be in a free-run oscillation state. At this time, since it is not synchronized with the color burst signal frequency, accurate color demodulation cannot be performed. That is, the reproduced image is in a colorless state.
[0009]
Therefore, in the invention according to claim 1 configured as described above, the anode terminal is connected to the chroma IC side, and the cathode terminal is connected to the microcomputer through the first diode connected to the microcomputer side. Enable input of horizontal sync signal at sync signal input terminal. Further, the flyback transformer outputs at the horizontal synchronization signal input terminal of the microcomputer via a second diode having an anode terminal connected to the flyback transformer side and a cathode terminal connected to the cathode side of the first diode. An H level heater winding signal for warming up the CRT can always be input. When an external mode is selected for inputting a video signal as a video signal from a video deck connected to the television, an external mode signal is output from an external mode signal output terminal provided in the microcomputer.
[0010]
Here, the signal control circuit is configured such that the emitter side is grounded, the collector side connected to the anode side of the second diode is capable of inputting a heater winding signal, and the base side is connected to the external mode signal, The second transistor is connected to the collector side connected to the anode side of the first diode and capable of inputting a horizontal synchronization signal, the external mode signal is input to the base side, the emitter side is grounded, and the collector side is connected to a predetermined voltage. And a third transistor connected to the base side of the second transistor. When an external mode signal is output from the microcomputer, the signal control circuit turns on the second transistor and short-circuits the horizontal synchronization signal input at the collector to the emitter. Thus, in the external mode, the input of the horizontal synchronization signal to the microcomputer is cut off. Further, when the external mode signal is output from the microcomputer, the signal control circuit turns on the third transistor and short-circuits the first transistor so that the heater winding signal is input to the microcomputer via the second diode. The presence or absence of a video signal is determined based on the heater winding signal.
[0011]
That is, by making this determination always based on the heater winding signal of the H level, it is possible to stably output the SD signal. Since color demodulation is performed in response to the SD signal, stable color demodulation can be performed during reproduction of the video deck. On the other hand, when the microcomputer does not output the external mode signal, the signal control circuit short-circuits the third transistor and turns on the first transistor, thereby making the heater winding signal conductive to the first transistor. That is, the input of the heater winding signal to the microcomputer is cut off, the second transistor is short-circuited, and the horizontal synchronization signal is input to the microcomputer, whereby the presence / absence state of the video signal is determined based on the horizontal synchronization signal. That is, when the mode is not the external mode, it is possible to control the reference oscillation frequency based on the normal RF input.
[0012]
The television based on the specific configuration described above makes it possible to stabilize color demodulation in the external mode. On the other hand, from the technical viewpoint of stabilizing color demodulation in the external mode, a video signal detection control device that detects the presence or absence of a video signal based on another stable signal instead of the horizontal synchronization signal in the external mode is also invented. Needless to say, this holds.
Therefore, a second aspect of the present invention provides a video signal detecting means for inputting a horizontal synchronizing signal and detecting the presence or absence of a video signal based on the horizontal synchronizing signal, and a video tape having the video signal output from a video deck. Mode setting means for setting an external mode in the case of the reproduction signal of the above, and when the external mode is set by the mode setting means, the input of the horizontal synchronizing signal to the video signal detecting means is cut off and the video signal And a signal control means for causing the video signal detection means to detect the video signal as a state based on the control signal by inputting a predetermined control signal capable of detecting the video signal to the video signal detection means. is there.
[0013]
In the invention according to claim 2 configured as described above, the horizontal synchronization signal is input by the video signal detection means, and the presence / absence state of the video signal is detected by the video signal detection means based on the horizontal synchronization signal. At this time, when an external mode, which is a case where the video signal is a video tape playback signal output from the video deck, is set by the mode setting means, the signal control means inputs the horizontal synchronization signal to the video signal detection means. The control is interrupted and a predetermined control signal capable of detecting a video signal is input to the video signal detecting means. The control signal causes the video signal detecting means to detect the video signal as being present.
[0014]
Further, according to a third aspect of the present invention, in the video signal detection control device according to the second aspect, the mode setting means displays a mode selection screen capable of selecting the external mode or another mode. A display means is provided, and when the external mode is selected by the selection screen display means, the external mode is set.
In the invention according to claim 3 configured as described above, the mode setting means is provided with a selection screen display means, and a mode selection screen capable of selecting an external mode or another mode can be displayed. The mode setting means sets the external mode when the external mode is selected on the selection screen display means.
[0015]
According to a fourth aspect of the present invention, in the video signal detection control device according to any one of the second and third aspects, the signal control means transitions to an on state when the external mode is selected. And the control signal is input to the video signal detecting means based on the transition of the switching means to the ON state.
In the invention according to claim 4 configured as described above, the signal control means is provided with a switch means. The switch means transitions to the ON state when the external mode is selected, and causes a control signal to be input to the video signal detection means based on the transition of the switch means to the ON state.
[0016]
According to a fifth aspect of the present invention, in the video signal detection control device according to any one of the second to fourth aspects, the signal control means is constantly controlled to an H level by an internal circuit of the television. A predetermined signal is input to the video signal detecting means as the control signal.
In the invention according to claim 5 configured as described above, the signal control means inputs a predetermined signal which is constantly controlled to the H level by an internal circuit of the television to the video signal detection means as a control signal.
[0017]
According to a sixth aspect of the present invention, in the video signal detection control device according to the fifth aspect, the signal control means outputs a flyback transformer as the control signal to output a flyback transformer to warm up a display. A signal is input to the video signal detecting means.
In the invention according to claim 6 configured as described above, the signal control unit inputs the heater winding signal output by the flyback transformer to warm up the display to the video signal detection unit as a control signal.
[0018]
Further, according to a seventh aspect of the present invention, in the video signal detection control device according to any one of the second to sixth aspects, the mode setting means is configured to output the external signal when the reproduction signal is a special reproduction signal. The mode is set.
In the invention according to claim 7 configured as described above, the mode setting means sets the external mode when the reproduction signal of the VCR is a special reproduction signal. The special reproduction signal is a signal in which the signal state of the reproduction signal is likely to be unstable, such as fast forward reproduction and rewind reproduction. That is, at the time of the special reproduction signal, the state of the horizontal synchronizing signal is disturbed, and the video signal cannot be easily detected. In such a case, the control signal described above is input to the video signal detection means instead of the horizontal synchronization signal.
[0019]
Unlike the horizontal synchronization signal in the above-described external mode, the method of performing the presence / absence determination of the video signal based on the predetermined control signal that can always detect the video signal in the presence state is not necessarily limited to a substantial device. It is not necessary, and it can be easily understood that it also functions as the method.
For this reason, the invention according to claim 8 is a video signal detecting step of inputting a horizontal synchronization signal and detecting the presence / absence of a video signal based on the horizontal synchronization signal; A mode setting step of setting an external mode in the case of a tape reproduction signal, and, when the external mode is set in the mode setting step, interrupting the input of the horizontal synchronization signal to the video signal detecting step, and A signal control step of inputting a predetermined control signal capable of detecting a signal to the video signal detection step, thereby causing the video signal detection step to detect the video signal as being present based on the control signal. There is.
In other words, there is no difference that the present invention is not necessarily limited to a substantial device and is effective as a method.
[0020]
【The invention's effect】
As described above, the present invention makes it possible to perform the SD determination based on the heater winding signal always at the H level in the external mode, and to enable the microcomputer to stably output the SD signal to the chroma IC. It is possible to provide a television capable of realizing stable color demodulation at the time of reproduction.
According to the second aspect of the present invention, it is possible to provide a video signal detection control device capable of stably detecting a video signal as being in the external mode.
Furthermore, according to the third aspect of the present invention, a specific setting method of the external mode can be presented.
Further, according to the invention according to claim 4, it becomes possible to realize control signal input control with a simple configuration.
Furthermore, according to the fifth aspect of the present invention, since a circuit for newly generating a control signal is not required, the configuration of the device can be simplified.
Further, according to the invention of claim 6, it is possible to present an example of a signal suitable for use as a control signal.
Furthermore, according to the seventh aspect of the present invention, it is possible to present an example of a preferable situation by inputting a control signal instead of the horizontal synchronization signal.
Further, according to the invention of claim 8, it is possible to provide a video signal detection control method capable of stably detecting a video signal as being in the external mode.
[0021]
BEST MODE FOR CARRYING OUT THE INVENTION
Here, embodiments of the present invention will be described in the following order.
(1) Configuration of television:
(2) SD signal output processing:
(3) Connection mode of microcomputer etc. according to the present invention:
(4) Configuration of signal control circuit:
(5) Summary:
[0022]
(1) Configuration of television:
FIG. 1 is a block diagram showing a main part of an internal configuration of a television according to the present invention, and FIG. 2 is a block diagram showing a circuit configuration of the chroma IC of FIG. In the figure, a television 10 includes a tuner 11, a SAW filter 12, a buffer 13, a chroma IC 14, and a microcomputer 15, and the tuner 11, the chroma IC 14, and the microcomputer 15 are communicably connected to each other via an IIC bus 16. ing. In such a case, the tuner 11 receives a signal of a desired frequency corresponding to a television broadcast band via an antenna, amplifies the received signal at a high frequency, and mixes the signal with an oscillation signal of a local oscillator to produce an intermediate frequency of 58.75 MHz. The signal is converted into a signal and output to the SAW filter 12.
[0023]
The tuner 11 according to the present embodiment employs a frequency synthesizer type tuning mechanism using a so-called PLL, and variably converts a signal obtained by frequency-converting a reference signal through a fixed frequency divider and an oscillation signal generated by a local oscillator. Phase detection is performed on the frequency-converted signal via the frequency divider. Then, an oscillation signal from a local oscillator is feedback-controlled so as to reduce these phase differences, and a PLL for obtaining stable local oscillation when these phase differences disappear is formed. Here, the frequency division by the variable frequency divider is controlled by a signal output by the microcomputer 50 according to the channel, which will be described later, and when the phase difference of the compared signal disappears in the frequency division according to the predetermined channel, the predetermined channel is reduced. Tuning operation ends.
[0024]
The microcomputer 15 inputs a horizontal synchronizing signal detected by the chroma IC 14 through a horizontal synchronizing signal input terminal (not shown), and can execute an SD determination for judging the presence or absence of a video signal based on the horizontal synchronizing signal. Then, an SD signal is output to the chroma IC 14 based on the SD determination. This SD signal output processing will be described later. Further, the microcomputer 15 in the present embodiment can input a heater winding signal output by the flyback transformer 18 that supplies a high voltage to the CRT 19 to warm up the CRT 19. When the television 10 is set to an external mode (a mode for reproducing a video signal output from the video deck 20, that is, a mode for reproducing video of a video signal) by an operation of the remote controller 17 or an operation of an operation panel (not shown), the flyback is performed. The SD determination is performed based on the heater winding signal input from the bank transformer 18.
[0025]
The intermediate frequency signal output from the tuner 11 is input to the chroma IC 14 via the SAW filter 12. The chroma IC 14 is generally configured as shown in FIG. 2, and performs various signal processing. In FIG. 1, the chroma IC 14 includes a VIF circuit 14a and a signal processing circuit 14b. The signal processing circuit 14b has a configuration including a PLL circuit 14b1 and a color demodulation circuit 14b2. Here, the color demodulation circuit 14b2 is a circuit for demodulating a color difference signal, and the PLL circuit 14b1 is a circuit for outputting a subcarrier for performing the demodulation.
[0026]
In the chroma IC 14, the intermediate frequency signal input through the SAW filter 12 is subjected to video detection after being subjected to intermediate frequency amplification, and is subjected to a predetermined color demodulation process based on the detected output to output an RGB signal to the CRT 19. Is done. For this reason, an intermediate frequency signal shaped into ideal frequency band characteristics by the SAW filter 12 is input to the VIF circuit 14a. Then, the VIF circuit 14a performs predetermined amplification on the intermediate frequency signal, performs video detection, and extracts a composite video signal.
[0027]
This synthesized video signal is input to the band amplification circuit 14b11 provided in the PLL circuit 14b1 of the signal processing circuit 14b. The band amplification circuit 14b11 separates the carrier color signal and the color burst signal from the input composite video signal, and the carrier color signal separated from the composite video signal is used as a color demodulation circuit for extracting a color difference signal. 14b2. The color burst signal separated from the composite video signal is input to a burst amplifier circuit 14b12 in the PLL circuit 14b1, is subjected to predetermined amplification, and is also input to an APC circuit 14b13 to serve as a reference signal in the PLL.
[0028]
The PLL circuit 14b1 further includes a VCO circuit 14b14. The VCO circuit 14b14 is connected to the APC circuit 14b13 and the color demodulation circuit 14b2, and operates as a crystal oscillator having a natural frequency of about 3.58 MHz as an oscillator. The child X is connected. The VCO circuit 14b14 is a circuit for controlling the oscillation of the crystal unit X in accordance with the input DC voltage. The oscillation output of the VCO circuit 14b14 is input to the APC circuit 14b13 and the color demodulation circuit 14b2. It is also input to the tuner 11.
[0029]
The APC circuit 14b13 is a circuit that compares the phase of the output signal of the burst amplification circuit 14b12 with the phase of the output signal of the VCO circuit 14b14, and outputs a DC voltage according to the difference between the two. The output of the crystal oscillator X oscillated by performing the phase comparison with the color burst signal in this manner is output to the color demodulation circuit 32 as a subcarrier. Here, the color demodulation circuit 32 is a circuit for synchronously detecting a carrier chrominance signal using the same subcarrier, and finally outputs an RGB output.
[0030]
In the present embodiment, the SD (station detect) signal output from the microcomputer 15 is input to the APC circuit 14b13, and when the SD signal is input (in the case of H level), this comparison is performed. The operation is stopped, and the output is fixed at 3.58 MHz. On the other hand, when the SD signal is not input (in the case of L level), the comparison operation is executed to execute free-run oscillation.
[0031]
As described above, the chroma IC 14 uses the output oscillated by the crystal oscillator X as a subcarrier for demodulating the reference signal of the tuner 11 and the color difference signal. The chroma IC 14 performs demodulation of an audio signal and separation of horizontal and vertical synchronization signals in addition to such color difference signal demodulation. A horizontal synchronizing signal is output to the microcomputer 15 to execute the determination. Here, the SD signal output process executed when the microcomputer 15 outputs the SD signal to the chroma IC 14 will be described.
[0032]
(2) SD signal output processing:
FIG. 3 is a flowchart showing the processing content of the SD signal output processing executed by the microcomputer 15. FIG. 4 is a configuration diagram showing a signal configuration of a horizontal synchronization signal output from the chroma IC 14. In the figure, first, the signal level input to the horizontal synchronization signal input terminal is obtained (step S105), and it is determined whether the input horizontal synchronization signal is at the H level (step S110). If it is determined in step S110 that the signal is at the L level, the signal level of the horizontal synchronizing signal is acquired again in step S105 after a predetermined period has elapsed (step S115). On the other hand, if it is determined in step S110 that the signal is at the H level, after a lapse of a predetermined period (step S120), the signal level input to the horizontal synchronization signal input terminal is further obtained (step S125). It is determined whether or not the level is the level (step S130).
[0033]
Here, the above-mentioned predetermined period depends on the cycle t1 of the horizontal synchronization signal. That is, since the horizontal synchronizing signal transitions to the H / L level in the cycle t1, if it transits to the H level in each cycle t1, it can be determined that the signal is a normal horizontal synchronizing signal. When the H level horizontal synchronizing signal in the predetermined cycle t1 has been confirmed a predetermined number of times (step S135), an SD (station detect) is detected (step S140), and the SD signal output to the chroma IC 14 is turned on. (Step S145). On the other hand, when the signal level of the horizontal synchronizing signal cannot be detected at the H level even after the elapse of the predetermined period in step S115, and when the signal level of the horizontal synchronizing signal is determined to be the L level in step S130, the SD signal is turned off. (Step S150).
[0034]
Next, the processing of the chroma IC 14 to which the SD signal output from the microcomputer 15 is input will be described. Since the SD signal is input to the APC circuit 14b13 of the chroma IC 14, the operation flow of the APC circuit 14b13 is shown in the flowchart of FIG. In the figure, an SD signal is input (step S205), and it is determined whether or not the SD signal is on (step S210). If it is determined that the SD signal is on, the phase comparison operation is stopped and the reference oscillation frequency is fixed at 3.58 MHz (step S215). On the other hand, when it is determined in step S210 that the SD signal is off, the reference oscillation frequency is free-run oscillation to execute the phase comparison operation (step S220).
[0035]
Here, when a video signal (video signal) output from the video deck 20 is reproduced, the video signal recorded on the video deck 20 is a television broadcast signal whose tuning operation has been completed based on the horizontal synchronization signal. Therefore, the video signal output from the video deck 20 includes a horizontal synchronization signal. Accordingly, the microcomputer 15 determines the presence or absence of a video signal based on the horizontal synchronization signal of the video signal, and outputs an SD signal to the chroma IC 14. The chroma IC 14 fixes the reference oscillation frequency to 3.58 MHz based on the SD signal. I do. As a result, the reference oscillation frequency is synchronized with the color burst signal frequency, so that accurate color demodulation is performed in the color demodulation circuit 14b2. However, if the video signal output from the video deck 20 is disturbed, the input of the horizontal synchronizing signal to the microcomputer 15 becomes unstable, and the microcomputer 15 cannot accurately determine the SD.
[0036]
For this reason, the SD signal input to the chroma IC 14 swings on / off. When the SD signal is turned off, the television 10 pulls in the center frequency by the tuning operation, so that the reference oscillation frequency is not fixed at 3.58 MHz and free-run oscillation is performed. At this time, since the reference oscillation frequency is not synchronized with the color burst signal frequency, the color demodulation circuit 14b2 cannot perform accurate color demodulation. That is, when the video signal output from the VCR 20 is reproduced, it is not necessary to perform the free-run oscillation for the tuning operation, but the reference oscillation frequency is fixed or the free-run oscillation is performed based on the state of the SD signal. When the SD signal is turned off, the reference oscillation frequency is not synchronized with the color burst signal frequency, so that the reproduced video is in a colorless state. Therefore, in the present embodiment, when reproducing the video signal output from the VCR 20, the microcomputer 15 inputs a stable predetermined control signal different from the horizontal synchronization signal, and performs the SD determination based on the control signal. By doing so, it becomes possible to stably output the SD signal to the chroma IC 14, and it is possible to prevent the occurrence of color erasure when the video signal output from the video deck 20 is reproduced.
[0037]
(3) Connection mode of microcomputer etc. according to the present invention:
FIG. 6 shows a connection mode of the microcomputer 15, the chroma IC 14, and the flyback transformer 18 capable of realizing such a function. FIG. 7 is a configuration diagram showing a signal configuration of a heater winding signal output from the flyback transformer 18. In the figure, a microcomputer 15, a chroma IC 14, and a flyback transformer 18 are connected via a signal control circuit 30. The heater winding signal output from the heater winding signal output terminal 18a of the flyback transformer 18 is input to the signal control circuit 30, and the chroma IC 14 controls the horizontal synchronization signal output from the horizontal synchronization signal output terminal 14c. Input to the circuit 30.
[0038]
This heater winding signal is a signal for warming up the CRT 19, and is controlled to be always on, that is, to the H level. Therefore, the microcomputer 15 can always perform the SD determination and output the SD signal. The signal control circuit 30 detects whether or not the external mode is set by the remote controller 15 via the microcomputer 15. If the external mode is detected, the heater winding signal output from the flyback transformer 18 is output. Is input to the horizontal synchronization signal input terminal 15a. On the other hand, when the external mode is not detected, the horizontal synchronization signal output from the chroma IC 14 is input to the horizontal synchronization signal input terminal 15a. As a result, the video signal output from the video deck 20 can be accurately demodulated and projected.
[0039]
(4) Configuration of signal control circuit:
FIG. 8 is a configuration diagram showing a specific configuration of the signal control circuit 30. FIG. 9 is a flowchart showing an operation flow of the signal control circuit 30. In the figure, the signal control circuit 30 generally includes a first diode 31, a second diode 32, a first transistor 34, a second transistor 35, and a third transistor 33. Here, the microcomputer 15 has an anode terminal connected to the chroma IC 14 via a resistor R1 and a cathode terminal connected to a horizontal synchronization signal input terminal of the microcomputer 15 via a first diode 31 connected to the microcomputer 15 side. At 15a, the horizontal synchronization signal output from the horizontal synchronization signal output terminal 14c of the chroma IC 14 can be input. At this time, the signal voltage level of the horizontal synchronization signal output from the first diode 31 is divided by the resistors R2 and R3, and the horizontal synchronization signal has a signal waveform formed by the capacitor C1.
[0040]
The microcomputer 15 has a horizontal synchronization signal input terminal of the microcomputer 15 via a second diode 32 having an anode terminal connected to the flyback transformer 18 and a cathode terminal connected to the cathode side of the first diode 31. At 15a, a heater winding signal output from the heater winding signal 18a of the flyback transformer 18 can be input. Here, the heater winding signal is input to the second diode 32 via the resistors R4 to R8, and the signal voltage level of the heater winding signal is adjusted to an appropriate signal voltage level by the resistors R4 to R8. When the microcomputer 15 selects an external mode with the remote controller 17 or the like when inputting a video signal as a video signal from the video deck 20 connected to the television 10, the external mode provided in the microcomputer 15 An external mode signal is output from the signal output terminal 15b to the signal control circuit 30. Here, the emitter side of the first transistor 34 is grounded, and the collector side connected to the anode side of the second diode 32 can input a heater winding signal via the resistors R4 to R8. Further, the base side is connected to the collector side of the third transistor 33 via the resistor R9.
[0041]
An external mode signal is input to the base of the second transistor 35 via the resistor R10, the emitter is grounded, and the collector connected to the anode of the first diode 31 can input a horizontal synchronizing signal. I have. The third transistor 33 has a base to which the external mode signal is input via the resistor R11, an emitter connected to the ground, and a collector which outputs a predetermined voltage (the third transistor 33 and the second transistor 35 via the resistor R12). Is connected to the base side of.) At this time, the resistor R13 is interposed between the power supply and the collector, and the pressure is appropriately reduced. When the external mode signal is output from the microcomputer 15 (step S305), the signal control circuit 30 turns on the second transistor 35 (step S310), and short-circuits the horizontal synchronization signal input on the collector side to the emitter side. (Step S315).
[0042]
As a result, in the external mode, the input of the horizontal synchronization signal to the microcomputer 15 is cut off. Further, when the external mode signal is output, the signal control circuit 30 turns on the third transistor 33 (step S320), makes the first transistor 34 male and short-circuits (step S325), and thereby sets the heater winding. A signal is input to the microcomputer 15 via the second diode 32 (step S330). Then, the microcomputer 15 determines the presence or absence of a video signal based on the heater winding signal (step S335).
[0043]
That is, as shown in FIG. 10, the microcomputer 15 determines the presence / absence state of the video signal based on the heater winding signal which is always at the H level, so that the SD signal can be constantly controlled at the H level. Therefore, the chroma IC 14 fixes the reference oscillation frequency to 3.58 MHz based on the SD signal, so that accurate color demodulation can be realized, and stable color demodulation is performed during reproduction of the video deck 20. It becomes possible. On the other hand, when the external mode signal is not output from the microcomputer 15 (step S305), the signal control circuit 30 turns off the second transistor 35 to short-circuit (step S340), and inputs the horizontal synchronization signal to the microcomputer 15 (step S345). ).
[0044]
Further, by turning off the third transistor 33 and short-circuiting (step S350), and turning on the first transistor 34 (step S355), the heater winding signal is conducted to the first transistor 34. That is, the input of the heater winding signal to the microcomputer 15 is cut off (step S360). As described above, by short-circuiting the second transistor 35 and inputting the horizontal synchronization signal to the microcomputer 15, the presence / absence state of the video signal is determined based on the horizontal synchronization signal (step S365). That is, when the mode is not the external mode, it is possible to control the reference oscillation frequency based on the normal RF input.
[0045]
(5) Summary:
As described above, in the external mode, the input of the horizontal synchronizing signal output from the chroma IC 14 to the microcomputer 15 based on the circuit control of the signal control circuit 30 is cut off, and the heater controlled constantly to the H level output from the flyback transformer 18 is provided. The winding signal is input to the microcomputer 15. Then, by making the microcomputer 15 execute the SD determination based on the heater winding signal, the SD signal can be input to the chroma IC 14 stably. As a result, the chroma IC 14 can always fix the reference oscillation frequency to the color burst signal frequency of 3.58 MHz in the external mode, thereby preventing color erasure.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a schematic configuration of a television.
FIG. 2 is a block diagram showing the internal configuration of a chroma IC.
FIG. 3 is a flowchart showing the contents of an SD signal output process executed by the microcomputer.
FIG. 4 is a diagram schematically illustrating a signal configuration of a horizontal synchronization signal.
FIG. 5 is an operation flow showing an operation content of an APC circuit of the chroma IC.
FIG. 6 is a diagram showing a connection relationship between a microcomputer, a chroma IC, and a flyback transformer.
FIG. 7 is a diagram schematically illustrating a signal configuration of a heater winding signal.
FIG. 8 is a configuration diagram showing an internal configuration of a signal control circuit.
FIG. 9 is an operation flow showing an operation content of the signal control circuit.
FIG. 10 is a diagram schematically illustrating a signal configuration of an SD signal based on a heater winding signal.
[Explanation of symbols]
10. Television
11 ... Tuner
12 ... SAW filter
13 ... Buffer
14 ... Chroma IC
14a ... VIF circuit
14b ... Signal processing circuit
14b1 ... PLL circuit
14b11: Band amplification circuit
14b12: Burst amplifier circuit
14b13 APC circuit
14b14 ... VCO circuit
14b2: Color demodulation circuit
14c: horizontal synchronization signal output terminal
15 ... Microcomputer
15a: Horizontal synchronization signal input terminal
15b: External mode signal output terminal
16… IIC bus
17 Remote control
18… Flyback transformer
18a: heater winding signal output terminal
19 ... CRT
20 ... VCR
30 ... Signal control circuit
31 ... first diode
32 ... second diode
33 ... first transistor
34 second transistor
35 ... third transistor

Claims (8)

A horizontal synchronizing signal that transitions to the H / L level at a predetermined cycle generated by the chroma IC is input to the horizontal synchronizing signal input terminal of the microcomputer, and based on the H level state of the horizontal synchronizing signal input by the microcomputer. When determining the presence or absence of a video signal, when it is determined that the video signal is present, an SD signal is output to the chroma IC, and when the SD signal is input to the chroma IC, a color burst signal is output. When the reference oscillation frequency is fixed at 3.58 MHz in order to synchronize with the frequency and the SD signal is not input, in a television that performs free-run oscillation of the reference oscillation frequency in order to pull the reference oscillation frequency to the center frequency by tuning operation,
The above microcomputer is
An anode terminal is connected to the chroma IC side, and a cathode terminal is capable of inputting the horizontal synchronization signal at the horizontal synchronization signal input terminal via a first diode connected to the microcomputer side;
An anode terminal is connected to the flyback transformer side, and a cathode terminal is connected to the horizontal synchronization signal input terminal via a second diode connected to the cathode side of the first diode. It is possible to always input the H level heater winding signal for warming up,
Upon inputting a video signal as the video signal from the connected VCR, when an external mode is selected, an external mode signal is output from an external mode signal output terminal provided,
A first transistor having an emitter grounded and capable of inputting the heater winding signal at a collector connected to an anode of the second diode;
A second transistor to which the external mode signal is input to the base side, the emitter side is grounded, and the horizontal synchronization signal can be input at the collector side connected to the anode side of the first diode;
A third transistor connected to the base side of the first transistor, the external mode signal being input to the base side, the emitter side being grounded, the collector side being connected to a power supply for outputting a predetermined voltage, and
When the external mode signal is output from the microcomputer, the second transistor is turned on to short-circuit the horizontal synchronization signal input on the collector side to the emitter side,
By turning on the third transistor and short-circuiting the first transistor, the heater winding signal is input to the microcomputer via the second diode, and the presence / absence state of a video signal is determined based on the heater winding signal. And let
When the external mode signal is not output from the microcomputer, the third transistor is short-circuited and the first transistor is turned on, so that the heater winding signal is conducted to the first transistor,
A television comprising a signal control circuit for short-circuiting the second transistor, inputting the horizontal synchronizing signal to the microcomputer, and determining the presence or absence of a video signal based on the horizontal synchronizing signal. A video signal detecting means for receiving a horizontal synchronization signal and detecting the presence or absence of a video signal based on the horizontal synchronization signal;
Mode setting means for setting an external mode when the video signal is a playback signal of a video tape output from a VCR,
When the external mode is set by the mode setting means, the input of the horizontal synchronization signal to the video signal detection means is cut off, and a predetermined control signal capable of detecting the video signal is input to the video signal detection means. And a signal control unit for causing the video signal detection unit to detect the video signal as being in an active state based on the control signal. The mode setting means has a selection screen display means for displaying a mode selection screen capable of selecting the external mode or another mode, and when the external mode is selected by the selection screen display means, the external mode is selected. The video signal detection control device according to claim 2, wherein a mode is set. The signal control unit includes a switch unit that transitions to an on state when the external mode is selected, and causes the video signal detection unit to input the control signal based on the transition of the switch unit to the on state. The video signal detection control device according to claim 2 or 3, wherein 5. The signal control means according to claim 2, wherein said signal control means inputs a predetermined signal which is constantly controlled to an H level by an internal circuit of the television to said video signal detection means as said control signal. The video signal detection control device according to any one of the above. 6. The video signal according to claim 5, wherein the signal control unit inputs a heater winding signal output by a flyback transformer to warm up a display as the control signal to the video signal detection unit. Detection control device. 7. The video signal detection control device according to claim 2, wherein the mode setting means sets the external mode when the reproduction signal is a special reproduction signal. A horizontal synchronization signal, and a video signal detection step of detecting the presence or absence of a video signal based on the horizontal synchronization signal,
A mode setting step of setting an external mode when the video signal is a playback signal of a video tape output from a VCR,
When the external mode is set in the mode setting step, the input of the horizontal synchronization signal to the video signal detection step is cut off, and a predetermined control signal capable of detecting the video signal is input to the video signal detection step. A signal control step of causing the video signal detection step to detect the video signal as being present based on the control signal.

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