JP2861046B2 - Horizontal deflection width detection circuit - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a horizontal deflection width detection circuit of a multi-scan television receiver corresponding to a plurality of horizontal frequencies.

[Summary of the Invention]

The present invention provides a horizontal deflection width detection circuit of a multi-scan television receiver corresponding to a plurality of horizontal frequencies, a means for outputting a signal proportional to the frequency of a horizontal synchronization signal of a video signal, Means for outputting a DC signal based on a signal; horizontal output means for outputting a horizontal deflection pulse signal having a cycle based on the horizontal synchronization signal using the DC signal as a power supply; and rectifying means for rectifying the horizontal deflection pulse signal. A variable current source that is connected to the rectifier and controls a current flowing based on a signal proportional to the frequency, a unit that generates a voltage proportional to a deflection width according to a screen size, and output from the rectifier. Means for outputting a difference voltage between the voltage which is proportional to the deflection width and a voltage which is proportional to the deflection width. And means for correcting a signal proportional to the frequency, is obtained by allowing better detect regardless the screen size of the captured image to a change in the horizontal frequency.

[Conventional technology]

2. Description of the Related Art In recent years, a multi-scan television receiver corresponding to a plurality of horizontal frequency video signals has been developed (see Japanese Patent Application Laid-Open No. 61-74463). This multi-scan television receiver detects the beam deflection width in order to keep the horizontal deflection width of the beam even when the horizontal frequency changes, so that the detected deflection width approaches the reference value. Is going to control.

In this case, as a deflection width detection circuit, there is a configuration in which a horizontal deflection pulse signal output by the horizontal output circuit for horizontal deflection is subjected to peak rectification, and the deflection width is detected from the rectified value.

[Problems to be solved by the invention]

However, the method of detecting the deflection width by peak rectifying the horizontal deflection pulse has a disadvantage that when the horizontal frequency fluctuates, the detected value fluctuates and an error occurs in the detected value. That is, when the horizontal deflection pulse signal as shown by a broken line in FIG. 5 is assumed to be output from the horizontal output circuit, the peak rectified value P ₁ of the horizontal deflection pulse signal, as shown by the solid line in FIG. 5, the pulse It changes within a certain range near the peak value of the signal. At this time, the average value of the peak rectifier values P ₁ and a _1. And, for example, when the horizontal frequency of the input video signal is changed to a frequency of 1/2, the spacing of the horizontal deflection pulse signal spreads doubled, the peak width that varies the peak rectified value P ₂ at this time is above spread double rectification value P _1, the average value a ₂ of this time is lowered than the average value a _1. When the average value decreases in this way, it is detected that the deflection width has changed even though the actual deflection width has not changed, and an error occurs in the detected value.

In particular, in recent years, the horizontal frequency of a video signal is several times higher than a normal broadcast standard (15.75 kHz, etc.), and when a video signal of such a high-frequency horizontal frequency is input, the detection error of the deflection width increases. Would.

In view of the above, an object of the present invention is to provide a circuit which can detect a deflection width satisfactorily without error.

[Means for solving the problem]

The horizontal deflection width detecting circuit of the present invention, as shown in FIG. 1, for example, comprises a horizontal deflection width detecting circuit for detecting a horizontal deflection width of a multi-scan television receiver corresponding to a plurality of horizontal frequencies. Means (22) for outputting a signal proportional to the frequency of the horizontal synchronization signal, and means (8) for outputting a DC signal based on the signal proportional to the frequency
Horizontal output means (2) for outputting a horizontal deflection pulse signal having a cycle based on the horizontal synchronization signal using the DC signal as a power supply; and rectification means (3), (4) for rectifying the horizontal deflection pulse signal. A variable current source (5) connected to the rectifier and controlling a current flowing based on a signal proportional to the frequency, and a means (24) for generating a voltage proportional to a deflection width according to a screen size; A means for outputting a difference voltage between a voltage output from the rectifier and a voltage proportional to the deflection width; and a means for outputting a voltage obtained by adding the difference voltage and a voltage proportional to the deflection width. Means (24) for correcting a signal proportional to the frequency.

[Action]

According to such a configuration, even if the horizontal frequency changes, the detected value of the deflection width does not change, and no error occurs in the detected value.

〔Example〕

An embodiment of the horizontal deflection width detection circuit of the present invention will be described below with reference to FIGS.

This embodiment is a horizontal deflection width detection circuit applied to a multi-scan television receiver, which detects a deflection width by peak rectification of a horizontal deflection pulse. First, the first
The figure shows the basic principle of the configuration of this example. In the figure, (1) shows a horizontal synchronizing signal input terminal, and this input terminal (1)
A horizontal synchronizing signal of the input video signal to the television receiver is supplied. The horizontal synchronizing signal obtained at the input terminal (1) is supplied to a horizontal output circuit (2), and the horizontal output circuit (2) outputs a horizontal deflection pulse signal in phase with the horizontal synchronizing signal. The horizontal deflection pulse signal is supplied to a horizontal deflection coil (not shown) to cause horizontal deflection of the electron beam, and the horizontal deflection pulse signal is supplied to a deflection width detection circuit. That is, a horizontal deflection pulse signal is supplied to the anode of a diode (3), the cathode of which is connected to one end of a charging capacitor (4), and the other end of which is grounded. The cathode of the diode (3) is connected to a current source (5), and a signal obtained at the cathode of the diode (3) is supplied to a deflection width detection signal output terminal (6). Then, the deflection width is detected based on the voltage value of the signal obtained at the output terminal (6). In this case, in this example, the current value of the current source (5) is converted into the frequency / voltage converter (7).
Is controlled by A horizontal synchronizing signal from the horizontal synchronizing signal input terminal (1) is supplied to the frequency / voltage converter (7) as a control signal, and the output voltage is controlled by the frequency of the horizontal synchronizing signal. The value of the current flowing through the current source (5) is controlled by the output voltage signal of the frequency / voltage converter (7). Therefore, the value of the current flowing through the current source (5) is controlled by the frequency of the horizontal synchronization signal.

The operation when the horizontal deflection width is detected by such a configuration will be described. The horizontal deflection pulse signal output from the horizontal output circuit (2) is a pulse corresponding to the interval of the horizontal synchronization signal as shown by a broken line in FIG. In the signal, peak rectification of the peak value of the pulse signal is performed by the diode (3) and the capacitor (4). That is, the pulse signal is charged in the capacitor (4), and the current flowing through the current source (5) becomes the discharge current of the capacitor (4). The voltage value of the peak rectified signal obtained at the deflection width detection signal output terminal (6) is determined by the discharge amount controlled by the discharge current. The peak rectified value P ₁ of the horizontal deflection pulse signal thus determined
Is shown by a solid line in FIG.

Here, for example, if the horizontal frequency of the input video signal is changed to half the frequency, the interval between the horizontal deflection pulse signals is doubled, and if the discharge current is constant, the average value as shown in FIG. In this example, when the horizontal frequency changes, the discharge current of the current source (5) changes in proportion to the change in the horizontal frequency. The peak rectified value at this horizontal frequency
P ₃ so that changes in the gentle slope. Therefore, by setting the amount of change in the discharge current so that the average value of the peak rectifications P ₁ and P ₃ is constant at a ₁ , as long as the deflection width is constant, the output terminal (6 2), there is no change in the average voltage of the output signal, and no error occurs in the deflection width detected from the output voltage of the output terminal (6).

Here, FIG. 3 shows a configuration diagram of a specific embodiment based on the principle diagram of FIG. 1, and the output signal of the switching regulator (8) whose output signal changes according to the horizontal frequency is In addition to the horizontal output circuit (2), the output signal of the switching regulator (8) is supplied to one end of a resistor (11) of a current control circuit (10). And
The horizontal deflection pulse signal output from the horizontal output circuit (2) is
It is connected to one end of a charging capacitor (4) via a diode (3), and the other end of the capacitor (4) is grounded. Then, a deflection width detection signal output terminal (6) is drawn out from one end of the capacitor (4). Then, the current control circuit (10) grounds the other end of the resistor (11) through a series circuit of the diode (12) and the resistor (13), and connects the resistor (11)
The connection point between the diode and the diode (12) is connected to the base of the npn-type transistor (14). Then, the collector of the transistor (14) is connected to one end of a charging capacitor (4), and the emitter is grounded via a resistor (15) as a discharge resistor.

According to such a configuration, a voltage signal proportional to the horizontal frequency is generated at a connection point between the resistor (11) and the diode (12) of the current control circuit (10), and this voltage is applied to the base of the transistor (14). A signal is supplied to this transistor (1
4) A resistor for discharge (1 from the collector through the emitter
The amount of current flowing in 5) is controlled by the voltage signal. Accordingly, the amount of discharge of the charging current of the capacitor (4) is controlled in proportion to the horizontal frequency, and as shown in FIG. 2, as long as the horizontal deflection width is constant, it is obtained at the output terminal (6). The average voltage value of the deflection detection signal becomes constant, and no error occurs in the detection signal.

As the control signal of the current source, another signal that changes in proportion to the horizontal frequency may be used instead of the output signal of the switching regulator shown in the example of FIG.
For example, as shown in FIG. 4, the discharge current amount may be controlled by the output signal of the control frequency / voltage converter of the switching regulator. That is, the horizontal synchronizing signal obtained at the input terminal (21) is supplied to the frequency / voltage converter (22) and changes to a voltage signal that changes in proportion to the frequency of the horizontal synchronizing signal. And this frequency-voltage converter (2
The voltage signal output by 2) is supplied to one input terminal of the multiplier (23). In the drawing, (24) indicates a deflection control signal input terminal of a voltage proportional to the deflection width determined by the screen size to be displayed. The deflection control signal obtained at this input terminal (24) is supplied to one of the adders (26). Supply terminal.
In this case, the deflection control signal is, for example, a voltage signal that becomes 1 V when a normal screen size is set, and 0.5 V when a half screen size is set to the normal screen size. The other input terminal of the adder (26) is supplied with a difference signal output from a comparator (25) described later, and adds the difference signal to the deflection control signal. Then, the addition signal output from the adder (26) is supplied to the other input terminal of the multiplier (23). The multiplier (23) changes a voltage signal according to the frequency of the horizontal synchronization signal by multiplication according to the addition signal, and supplies the multiplication signal to the switching regulator (8) as a control signal. A DC output signal output from the switching regulator (8) in accordance with the multiplication signal is supplied to a horizontal output circuit (2) as a power signal, and a horizontal synchronization signal obtained at an input terminal (21) is supplied to the horizontal output circuit. (2) to obtain a horizontal deflection pulse signal having a cycle based on the horizontal synchronization signal.

In this example, the output signal of the horizontal output circuit (2) is connected to a charging capacitor (4) and a discharging current source (5) via a diode (3). in this case,
The value of the current flowing through the current source (5) is controlled by the output voltage of the frequency / voltage converter (22). Then, a voltage signal obtained at a connection point between the capacitor (4) and the diode (3) is supplied to one comparison signal input terminal of the comparator (25). Then, a deflection control signal proportional to the deflection width obtained at the deflection control signal input terminal (24) is supplied to the other comparison signal input terminal of the comparator (25), and is indicated by the control signal at the comparator (25). And the actual deflection width indicated by the detection signal is compared. Then, the difference signal output as a result of the comparison is supplied to the other input terminal of the adder (26).

Describing the operation of such a circuit, the voltage signal output from the frequency / voltage converter (22) is a signal based on the frequency of the horizontal synchronization signal obtained at the input terminal (21).
The signal to be added by the adder (26) is input to the input terminal (2
The deflection control signal obtained in 4) and the difference signal output from the comparator (25). Here, in the comparator (25), the deflection control signal determined by the screen size obtained at the input terminal (24), the charge potential of the capacitor (4) indicating the actual deflection state in the horizontal output circuit (17), and Are compared. That is, the difference between the deflection width to be controlled and the actual deflection width is indicated by the difference signal output from the comparator (25). The adder (26) adds the difference signal and a deflection control signal determined by the screen size to a deflection control signal corrected by the difference signal, and the corrected deflection control signal is supplied to the multiplier (23). You. In the multiplier (23), a voltage signal based on the frequency of the horizontal synchronization signal is multiplied by the corrected deflection control signal to change in accordance with the controlled deflection width, and the multiplied voltage signal is switched. The power signal is supplied to the regulator (8), and the power signal based on the voltage signal is supplied to the horizontal output circuit (2).

By controlling the power signal supplied to the horizontal output circuit (2) in this way, the control of the power signal in proportion to the horizontal frequency of the input video signal by the frequency / voltage converter (12) and the comparator ( The power signal is controlled based on the difference between the actual deflection width according to 20) and the deflection width according to the screen size. In this case, the current value flowing through the current source (5) is controlled by a voltage signal proportional to the horizontal frequency output from the frequency / voltage converter (12), so that an accurate deflection width is detected and the comparator ( The difference between the reference deflection width and the actual deflection width is accurately detected in 25), and accurate control of the deflection width is performed well. In the case of the example shown in FIG. 4, a frequency / voltage converter (2
Since the current source (5) is controlled by the output voltage of (2), a dedicated current control signal generating means is not required, and the circuit configuration is simplified accordingly.

Further, the present invention is not limited to the above-described embodiment, and it goes without saying that various other configurations can be adopted without departing from the gist of the present invention.

〔The invention's effect〕

According to the horizontal deflection width detection circuit of the present invention, the deflection width of the image receiving surface (that is, the screen size) can be detected satisfactorily without being affected by the fluctuation of the horizontal frequency. There are benefits that are favorable to the machine.

[Brief description of the drawings]

FIG. 1 is a block diagram showing the principle of the horizontal deflection width detection circuit of the present invention, FIG. 2 is a characteristic diagram for explaining the example of FIG. 1, FIG. 3 is a block diagram showing one embodiment of the present invention, FIG. FIG. 4 is a block diagram showing another embodiment of the present invention, and FIG. 5 is a characteristic diagram for explaining a conventional example. (1) is a horizontal synchronizing signal input terminal, (4) is a charging capacitor, (5) is a current source, and (6) is a deflection width detection signal output terminal.

Claims (1)

(57) [Claims] 1. A horizontal deflection width detection circuit for detecting a horizontal deflection width of a multi-scan television receiver corresponding to a plurality of horizontal frequencies, means for outputting a signal proportional to the frequency of a horizontal synchronization signal of a video signal. Means for outputting a DC signal based on a signal proportional to the frequency; horizontal output means for using the DC signal as a power source and outputting a horizontal deflection pulse signal having a cycle based on the horizontal synchronization signal; A rectifier for rectifying the pulse signal; a variable current source connected to the rectifier and controlling a flowing current based on the signal proportional to the frequency; and a voltage proportional to a deflection width according to a screen size. Means for outputting a difference voltage between a voltage output from the rectifying means and a voltage proportional to the deflection width; and means for outputting a difference voltage proportional to the difference voltage and the deflection width. Depending on the voltage and the voltage obtained by adding the horizontal deflection width detecting circuit, characterized in that a means for correcting a signal proportional to said frequency.