JP2572985B2 - Horizontal deflection circuit - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a horizontal deflection circuit for a television receiver.

[Prior Art] FIG. 2 shows the configuration of a conventional horizontal deflection circuit. In the figure, (1) is a power supply terminal, (2) is a resistor, (3) is a horizontal oscillation circuit, (4) is a transistor for horizontal drive, and (5)
Is a transformer, (6) is an output resistor, (7) is a horizontal output transistor, (8) is a transformer, (9) is a rectifier circuit,
(10) is a horizontal deflection coil, (11) is an anode terminal of a picture tube, and (16) is a capacitor.

The following operation will be described. Power is supplied to the horizontal oscillation circuit (3) from a power supply terminal (1) through a resistor (2). The horizontal oscillating circuit (3) performs an oscillating operation by this power supply and supplies an oscillating output to the horizontal driving transistor (4). The horizontal drive transistor (4) receives the output from the horizontal oscillation circuit (3) and turns on and off. The collector output of the horizontal drive transistor (4) passes through the output resistor (6) and the transformer (5). Given to the base. Upon receiving this output, the horizontal output transistor (7) performs a switching operation in synchronization with the horizontal drive transistor (4), and causes the horizontal deflection coil (10) to flow a sawtooth current to cause horizontal deflection of the electron beam. .

A high voltage pulse is generated in the transformer (8) during a retrace period when the sawtooth current flowing through the horizontal deflection coil (10) becomes zero, and the high voltage pulse is supplied to the anode terminal (11) of the picture tube. At the same time, it is also supplied to a rectifier circuit (9), and a DC output from the rectifier circuit (9) is supplied as power to an audio-video amplifier circuit and the like.

[Problems to be Solved by the Invention] However, in the conventional horizontal deflection circuit as described above, the power supply of the horizontal oscillation circuit (3) and the power supply of the horizontal drive transistor (4) are shared. The power supply of the horizontal oscillation circuit (3) is always supplied from the power supply terminal (1) through the resistor (2). In order for the horizontal drive transistor (4) to sufficiently drive the horizontal output transistor (7) and to obtain a high-voltage pulse on the secondary side of the transformer (8), the horizontal oscillation circuit (3) usually requires the horizontal drive transistor (4). A power supply having a voltage considerably higher than the power supply voltage value is required for the horizontal drive transistor (4) and the horizontal output transistor (7). For example, if the power supply applied to the power supply terminal (1) is 100 V and the power supply voltage required for the operation of the horizontal oscillation circuit (3) is 12 V, the 100 V power supply applied to the power supply terminal (1) is The voltage required for the operation of the oscillation circuit (3) requires a voltage drop of about 88 V, and for this purpose, the resistor (2) is used.

Therefore, the voltage value to be dropped is large, the power consumption by the resistor (2) is correspondingly large, and the shape is large in order not to generate heat, and the heat capacity is large.
That is, not only does it have a cost problem, which is the first problem of having to use a device having a large rated power, but if a resistor having such a large size is used as a substance, a component is required. There is also a design disadvantage, which is the second problem of having to increase the area of the printed circuit board on which is mounted.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problems, and eliminates the use of a resistor having a large rated power, thereby reducing cost and power consumption, and is very advantageous in mounting on a printed circuit board. It is intended to provide a horizontal deflection circuit.

[Means for solving the problem]

A horizontal deflection circuit according to the present invention comprises: a first power supply including a voltage drop circuit for supplying a DC voltage from an output network for determining an operating potential of a collector of a horizontal drive transistor to a horizontal oscillation circuit at the time of starting oscillation, and a first diode. Road (A)
A second power supply path (B) including a second diode for supplying a DC voltage from the output of the rectifier circuit to the horizontal oscillation circuit after the oscillation is started, and the output voltage of the rectifier circuit is set to a predetermined value after the oscillation is started. Means for switching the power supply path for supplying a DC voltage to the horizontal oscillation circuit from the first power supply path (A) to the second power supply path (B) when the power supply reaches the first and second power supply paths It is characterized by being provided with a combination of the respective diodes, that is, a combination which captures a change in the potential of the output network of the collector of the horizontal drive transistor after startup.

[Action]

According to the present invention, the power supply path for supplying power to the horizontal oscillation circuit includes the first power supply path (A) supplied from the output network that determines the operating potential of the collector of the horizontal drive transistor, and the output path of the rectifier circuit. The first power supply line is separated from the first power supply line when the oscillation is started, and when the output voltage of the rectifier circuit reaches a predetermined value after the oscillation is started. The switching to the second power supply path (B) is performed smoothly and continuously to supply a DC voltage to the horizontal oscillation open circuit. In addition, except when the oscillation is started, a low-voltage DC voltage, which is the output of the rectifier circuit, is supplied via the second power supply line (B). Therefore, instead of the voltage drop resistor, a small-sized component is used. A diode forming a second feed path (B) can be used,
The printed area for mounting the components can be reduced, and the cost and the power consumption can be reduced.

Furthermore, the rise time of the horizontal deflection current and the high-voltage output voltage, etc., which determine the characteristics of the horizontal deflection circuit as the whole circuit, is not hindered by newly using this means.

Embodiment An embodiment of the present invention will be described below with reference to FIG. In FIG. 1, (1) is a power supply terminal, (3) is a horizontal oscillation circuit, (4) is a transistor for horizontal drive,
(5) is a transformer for transmitting the horizontal oscillation output to the next stage, (6)
Is an output resistor that determines the operating potential of the collector of the horizontal drive transistor (4), the transformer (5) and the output resistor (6) form an output network of the horizontal drive transistor, and (7) is Horizontal output transistor,
(8) is a transformer, (9) is a rectifier circuit for rectifying a voltage generated by the transformer (8), (10) is a horizontal deflection coil, (11) is an anode terminal of a picture tube, and (16) is a capacitor. Are the same as those in FIG.

(12) is a Zener diode forming a voltage drop circuit for setting the power supply voltage of the horizontal oscillation circuit (3) to a desired voltage, (13) is a resistor for limiting a current flowing through the horizontal oscillation circuit (3), (14) ) And (15) are first and second diodes, respectively, which prevent current from flowing in the reverse direction from the power supply section of the horizontal oscillation circuit (3) and also function as a switch.
The Zener diode (12), the resistor (13), and the diode (14) are connected in series with each other. This series member is provided between the output resistor (6) and the horizontal oscillation circuit (3), and starts oscillation. Sometimes, a first power supply path (A) is provided in which the voltage of the power supply terminal (1) is supplied from the output resistor (6) to the horizontal oscillation circuit (3) through the series body. The diode (15) consists of a rectifier circuit (9) and a horizontal oscillator circuit (3)
And a second power supply path (B) through which the DC voltage rectified by the rectification circuit (9) is supplied to the horizontal oscillation circuit (3) after the oscillation is started.

Further, the diodes (14) and (15), the Zener diode (12) and the resistor (13) constitute means for switching from the first power supply path (A) to the second power supply path (B) after the oscillation is started. doing.

 Next, the operation of the circuit of FIG. 1 will be described.

When the horizontal oscillation circuit (3) starts oscillating, the horizontal drive transistor (4) has not yet been operated, so that no current flows through the collector of the horizontal drive transistor (4), and the current from the power supply terminal (1) is The current flows from the output resistor (6) to the resistor (13). The current value of this current is limited by a resistor (13), and a first power supply line (A) including a Zener diode (12), a resistor (13), and a diode (14).
To the horizontal oscillation circuit (3). At this time, the voltage value required for the horizontal oscillation circuit (3) is set by the Zener diode (12). When this oscillation starts,
Since the voltage of the rectifier circuit (9) is zero, the diode (1
5) is reverse-biased, that is, the switch is turned off, so that the current supplied from the power supply terminal (1) to the horizontal oscillation circuit (3) is prevented from flowing to the rectification circuit (9). Thus, when the horizontal oscillation circuit (3) starts oscillating, the power of the horizontal oscillation circuit (3) is supplied from the power supply terminal (1) via the first power supply path (A).

Next, after the horizontal oscillation circuit (3) starts oscillating, the horizontal drive transistor (4) operates and the horizontal output transistor (7) operates accordingly. A voltage is generated in the rectifier circuit (9). The DC voltage output from the rectifier circuit (9) is supplied to a horizontal oscillation circuit (3) through a second power supply path (B) including a diode (15). At this time, since the horizontal drive transistor (4) operates, an operating current flows through its collector, and its collector voltage falls below the voltage of the power supply terminal (1) due to the voltage drop due to the output resistor (6). As a result, the collector voltage deviates from the state at the time of oscillation start, in which the anode voltage of the diode (14) is higher than the cathode voltage through the Zener diode (12), and the anode potential of the diode (14) is rather increased. It becomes lower than the cathode potential, and the diode (14) becomes reverse biased. That is, the switch of the diode (14) is turned off, so that the current supplied from the rectifier circuit (9) to the horizontal oscillation circuit (3) is prevented from flowing to the horizontal drive transistor (4). That is, when the voltage of the output of the rectifier circuit (9) reaches a predetermined value (a value at which the diode (15) becomes forward-biased from the reverse bias state and the diode (15) is turned on) after the oscillation is started, almost At the same time, the diode (14) changes from the forward bias to the reverse bias, and the diode (14) is turned off. As a result, the second
The means for switching the power supply path in succession in almost the same order as the power supply path changes the potentials of the respective diodes (14) and (15) forming the first and second power supply paths and the anode thereof in opposite directions. It is realized by combination. The point is that the fact that the potential of the output circuit of the horizontal drive transistor at the next stage of the horizontal oscillation circuit (3) drops after the start-up is actively used. Thus, after the oscillation of the horizontal oscillation circuit (3) is started, the power of the horizontal oscillation circuit (3) is supplied from the rectification circuit (9) via the second power supply path (B).

As described above, in the horizontal deflection circuit, the power supply route of the horizontal oscillation circuit (3) is changed to the horizontal oscillation circuit (3).
Power is supplied from the power supply terminal (1) at the time of oscillation start and from the rectifier circuit (9) after the oscillation start, respectively. Therefore, the power is supplied from the power supply terminal (1) only at the time of starting the oscillation, and otherwise the low voltage DC voltage is supplied from the rectifier circuit (9). The resistor (2) becomes unnecessary, and the power consumption can be reduced.

[Effects of the Invention] As described above, according to the present invention, the power supply of the horizontal oscillation circuit and the power supply of the horizontal drive transistor are shared, but the collector operation potential of the horizontal drive transistor at the time of oscillation startup. When the output voltage of the rectifier circuit reaches a predetermined value after the oscillation is started from the output network that determines the DC voltage of the output network of the horizontal drive transistor, only the output of the rectifier circuit is supplied to the horizontal oscillator circuit. Since the power supply path is continuously switched to supply the voltage, factors that hinder the rise time from the start of the horizontal deflection current and the high voltage output voltage of the horizontal deflection circuit, which is the entire configuration according to the present invention, are considered. It is possible to supply a low-voltage DC voltage except when oscillation is started, and to maintain a large size and rated power. The use of a threshold resistor can be omitted, the configuration can be advantageously performed in terms of cost, the power consumption can be reduced, and the design effect of reducing the area of a printed circuit board on which components are mounted can be achieved.

It also has compatibility that can be easily changed from conventional circuits.

[Brief description of the drawings]

FIG. 1 is a circuit diagram showing an embodiment of a horizontal deflection circuit according to the present invention, and FIG. 2 is a circuit diagram of a conventional horizontal deflection circuit. (1) ... power supply terminal, (3) ... horizontal oscillation circuit, (4)
... Horizontal drive transistor, (7) Horizontal output transistor, (8) Transformer, (9) Rectifier circuit, (10) Horizontal deflection coil, (12) Zener diode, ( 13) Resistance, (14), (15) Diode, (A) First power supply path, (B) Second power supply path. In the drawings, the same reference numerals indicate the same or corresponding parts.

Continuation of the front page (72) Inventor Masahiko Ozawa 1 Baba Zujou Station, Nagaokakyo-shi, Mitsubishi Electric Corporation Kyoto Works (56) References JP-A-59-167181 (JP, A) JP-A-58-66881 (JP, U)

Claims (1)

(57) [Claims] A horizontal oscillation circuit; a horizontal drive transistor driven by an oscillation output of the horizontal oscillation circuit;
A horizontal output transistor driven by the output of the horizontal drive transistor; a horizontal deflection coil for performing horizontal deflection by sawtooth wave current flowing based on a switching operation of the horizontal output transistor; and a switching of the horizontal output transistor. A rectifier circuit for rectifying a high-voltage pulse generated based on an operation and outputting a DC voltage. A first power supply line including a voltage drop circuit for supplying a DC voltage to the circuit and a first diode, and a second power supply line including a second diode for supplying a DC voltage to the horizontal oscillation circuit from an output of the rectifier circuit after oscillation is started. 2
And a power supply path for supplying a DC voltage to the horizontal oscillation circuit when the output voltage of the rectifier circuit reaches a predetermined value after the oscillation is started, from the first power supply path to the second power supply path. A horizontal deflection circuit, characterized in that the switching means is provided by a combination of each diode of the first and second power supply paths.